Version number update

Update to 7.1.0 for a full release
Merge pull request #1529 from ableeker/python3
2021-02-21 14:35:49 +00:00 · 2021-02-21 14:19:59 +00:00 · 2021-02-14 12:50:55 +01:00 · 2021-02-14 08:56:58 +00:00 · 2021-02-14 08:55:56 +00:00 · 2021-02-14 08:50:26 +00:00
306 changed files with 25237 additions and 49843 deletions
--- a/.gitattributes
+++ b/.gitattributes
@@ -1,17 +0,0 @@
-# Auto detect text files and perform LF normalization
-* text=auto
-
-# Custom for Visual Studio
-*.cs     diff=csharp
-
-# Standard to msysgit
-*.doc	 diff=astextplain
-*.DOC	 diff=astextplain
-*.docx diff=astextplain
-*.DOCX diff=astextplain
-*.dot  diff=astextplain
-*.DOT  diff=astextplain
-*.pdf  diff=astextplain
-*.PDF	 diff=astextplain
-*.rtf	 diff=astextplain
-*.RTF	 diff=astextplain
--- a/.github/ISSUE_TEMPLATE/QUESTION.md
+++ b/.github/ISSUE_TEMPLATE/QUESTION.md
@@ -0,0 +1,33 @@
+---
+name: Question
+about: Questions for DeDRM Project
+title: "[QUESTION] Title"
+labels: Question
+---
+
+## CheckList
+<!-- Check with `[x]` -->
+- [ ] `The Title` and The `Log Title` are setted correctly.
+- [ ] Clarified about `my environment`.
+- [ ] Code block is used for `the log`.
+<!-- If you don't know the version, please specify 'Unknown'. -->
+<!-- In case of markdown To use the code block, enclose it in ```. -->
+<!-- If you don't need Log, please delete the log section. -->
+
+---
+
+## Title
+<!-- content -->
+
+## My Environment
+### Calibre: `Version`
+### Kindle: `Version`
+### DeDRM: `Version`
+
+## Log
+<details><summary>Log Title</summary>
+
+```log
+PUT YOUR LOG
+```
+</details>
--- a/.github/workflows/Format.yaml
+++ b/.github/workflows/Format.yaml
@@ -0,0 +1,39 @@
+name: Python code format
+on: 
+  push:
+    branches: master
+jobs:
+  Format:
+    if: "contains(github.event.head_commit.message, '!format')"
+    runs-on: ubuntu-20.04
+    strategy:
+      fail-fast: false
+    steps:
+      - uses: actions/checkout@main
+      - name: Set up Python
+        uses: actions/setup-python@main
+        with:
+          python-version: 3.x
+      - uses: actions/cache@main
+        with:
+          path: ~/.cache/pip
+          key: ${{ runner.os }}-pip-format
+          restore-keys: |
+            ${{ runner.os }}-pip-format
+      - name: Install dependencies
+        run: |
+          python -m pip install --upgrade pip
+          python -m pip install autopep8 pycodestyle
+      - name: Format by autopep8 then Push
+        env:
+          GIT_EMAIL: github-actions[bot]@users.noreply.github.com
+          GIT_ACTOR: github-actions[bot]
+        run: |
+          export HASH_SHORT=$(git rev-parse --short HEAD)
+          git checkout -b format--${HASH_SHORT}
+          git config --global user.email $GIT_EMAIL
+          git config --global user.name  $GIT_ACTOR
+          python -m autopep8 --in-place --aggressive --aggressive --experimental -r ./
+          git add -A
+          git commit -m 'Format by autopep8' -m From: -m $(git rev-parse HEAD)
+          git push --set-upstream origin format--${HASH_SHORT}
--- a/.github/workflows/Lint.yaml
+++ b/.github/workflows/Lint.yaml
@@ -0,0 +1,26 @@
+name: Python code review
+on: [push, pull_request]
+jobs:
+  Test:
+    runs-on: ubuntu-20.04
+    strategy:
+      fail-fast: false
+    steps:
+      - uses: actions/checkout@main
+      - name: Set up Python
+        uses: actions/setup-python@main
+        with:
+          python-version: 3.x
+      - uses: actions/cache@main
+        with:
+          path: ~/.cache/pip
+          key: ${{ runner.os }}-pip-lint
+          restore-keys: |
+            ${{ runner.os }}-pip-lint
+      - name: Install dependencies
+        run: |
+          python -m pip install --upgrade pip
+          pip install flake8
+      - name: Lint with flake8
+        run: |
+          python -m flake8 . --builtins=_,I --ignore=E501 --count --benchmark --show-source --statistics
--- a/.gitignore
+++ b/.gitignore
@@ -1,97 +1 @@
-# Byte-compiled / optimized / DLL files
-__pycache__/
-*.pyc
-
-# Distribution / packaging
-.Python
-env/
-build/
-develop-eggs/
-dist/
-downloads/
-eggs/
-lib64/
-parts/
-sdist/
-var/
-*.egg-info/
-.installed.cfg
-*.egg
-
-# PyInstaller
-#  Usually these files are written by a python script from a template
-#  before PyInstaller builds the exe, so as to inject date/other infos into it.
-*.manifest
-*.spec
-
-# Installer logs
-pip-log.txt
-pip-delete-this-directory.txt
-
-# Unit test / coverage reports
-htmlcov/
-.tox/
-.coverage
-.cache
-nosetests.xml
-coverage.xml
-
-# Translations
-*.mo
-*.pot
-
-# Django stuff:
-*.log
-
-# Sphinx documentation
-docs/_build/
-
-# PyBuilder
-target/
-
-# =========================
-# Operating System Files
-# =========================
-
-# OSX
-# =========================
-
 .DS_Store
-.AppleDouble
-.LSOverride
-
-# Thumbnails
-._*
-
-# Files that might appear on external disk
-.Spotlight-V100
-.Trashes
-
-# Directories potentially created on remote AFP share
-.AppleDB
-.AppleDesktop
-Network Trash Folder
-Temporary Items
-.apdisk
-
-# Windows
-# =========================
-
-# Windows image file caches
-Thumbs.db
-ehthumbs.db
-
-# Folder config file
-Desktop.ini
-
-# Recycle Bin used on file shares
-$RECYCLE.BIN/
-
-# Windows Installer files
-*.cab
-*.msi
-*.msm
-*.msp
-
-# Windows shortcuts
-*.lnk
--- a/CALIBRE_CLI_INSTRUCTIONS.md
+++ b/CALIBRE_CLI_INSTRUCTIONS.md
@@ -0,0 +1,47 @@
+# Using the DeDRM plugin with the Calibre command line interface
+
+If you prefer the Calibre CLI instead of the GUI, follow this guide to
+install and use the DeDRM plugin.
+
+This guide assumes you are on Linux, but it may very well work on other
+platforms.
+
+## Step-by-step Tutorial
+
+#### Install Calibre
+   - Follow [Calibre's installation instructions](https://calibre-ebook.com/download_linux)
+
+#### Install plugins
+  - Download the DeDRM `.zip` archive from DeDRM_tools'
+     [latest release](https://github.com/apprenticeharper/DeDRM_tools/releases/latest).
+     Then unzip it.
+  - Add the DeDRM plugin to Calibre:
+     ```
+     cd *the unzipped DeDRM_tools folder*
+     calibre-customize --add DeDRM_calibre_plugin/DeDRM_plugin.zip
+     ```
+  - Add the Obok plugin:
+    ```
+    calibre-customize --add Obok_calibre_plugin/obok_plugin.zip
+    ```
+
+#### Enter your keys
+  - Figure out what format DeDRM wants your key in by looking in
+     [the code that handles that](DeDRM_plugin/prefs.py).
+     - For Kindle eInk devices, DeDRM expects you to put a list of serial
+       numbers in the `serials` field: `"serials": ["012345689abcdef"]` or
+       `"serials": ["1111111111111111", "2222222222222222"]`.
+  - Now add your keys to `$CALIBRE_CONFIG_DIRECTORY/plugins/dedrm.json`.
+
+#### Import your books
+  - Make a library folder
+  ```
+  mkdir library
+  ```
+  - Add your book(s) with this command:
+  ```
+  calibredb add /path/to/book.format --with-library=library
+  ```
+
+The DRM should be removed from your book, which you can find in the `library`
+folder.
--- a/Calibre_Plugins/Ignobleepub
+++ b/Calibre_Plugins/Ignobleepub
@@ -1,38 +0,0 @@
-Ignoble Epub DeDRM - ignobleepub_v01.6_plugin.zip
-
-All credit given to I♥Cabbages for the original standalone scripts.
-I had the much easier job of converting them to a calibre plugin.
-
-This plugin is meant to decrypt Barnes & Noble Epubs that are protected with Adobe's Adept encryption. It is meant to function without having to install any dependencies... other than having calibre installed, of course. It will still work if you have Python and PyCrypto already installed, but they aren't necessary.
-
-
-Installation:
-
-Go to calibre's Preferences page.  Do **NOT** select "Get plugins to enhance calibre" as this is reserved for "official" calibre plugins, instead select "Change calibre behavior". Under "Advanced" click on the Plugins button. Use the "Load plugin from file" button to select the plugin's zip file  (ignobleepub_vXX_plugin.zip) and click the 'Add' button. you're done.
-
-Please note:  calibre does not provide any immediate feedback to indicate that adding the plugin was a success. You can always click on the File-Type plugins to see if the plugin was added.
-
-
-Configuration:
-
-1) The easiest way to configure the plugin is to enter your name (Barnes & Noble account name) and credit card number (the one used to purchase the books) into the plugin's customization window. It's the same info you would enter into the ignoblekeygen script. Highlight the plugin (Ignoble Epub DeDRM) and click the "Customize Plugin" button on calibre's Preferences->Plugins page. Enter the name and credit card number separated by a comma: Your Name,1234123412341234
-
-If you've purchased books with more than one credit card, separate that other info with a colon: Your Name,1234123412341234:Other Name,2345234523452345
-
-** NOTE ** The above method is your only option if you don't have/can't run the original I♥Cabbages scripts on your particular machine. Your credit card number will be on display in calibre's Plugin configuration page when using the above method. If other people have access to your computer, you may want to use the second configuration method below.
-
-
-2) If you already have keyfiles generated with I <3 Cabbages' ignoblekeygen.pyw script, you can put those keyfiles into calibre's configuration directory. The easiest way to find the correct directory is to go to calibre's Preferences page... click on the 'Miscellaneous' button (looks like a gear),  and then click the 'Open calibre configuration directory' button. Paste your keyfiles in there. Just make sure that they have different names and are saved with the '.b64' extension (like the ignoblekeygen script produces). This directory isn't touched when upgrading calibre, so it's quite safe to leave them there.
-
-All keyfiles from method 2 and all data entered from method 1 will be used to attempt to decrypt a book. You can use method 1 or method 2, or a combination of both.
-
-
-Troubleshooting:
-
-If you find that it's not working for you (imported epubs still have DRM), you can save a lot of time and trouble by trying to add the epub to calibre with the command line tools. This will print out a lot of helpful debugging info that can be copied into any online help requests. I'm going to ask you to do it first, anyway, so you might as well get used to it. ;)
-
-Open a command prompt (terminal) and change to the directory where the ebook you're trying to import resides. Then type the command "calibredb add your_ebook.epub". Don't type the quotes and obviously change the 'your_ebook.epub' to whatever the filename of your book is. Copy the resulting output and paste it into any online help request you make.
-
-** Note: the Mac version of calibre doesn't install the command line tools by default. If you go to the 'Preferences' page and click on the miscellaneous button, you'll see the option to install the command line tools.
-
-
--- a/Calibre_Plugins/Ineptepub
+++ b/Calibre_Plugins/Ineptepub
@@ -1,39 +0,0 @@
-Inept Epub DeDRM - ineptepub_v01.7_plugin.zip
-
-All credit given to I♥Cabbages for the original standalone scripts.
-I had the much easier job of converting them to a Calibre plugin.
-
-This plugin is meant to decrypt Adobe Digital Edition Epubs that are protected with Adobe's Adept encryption. It is meant to function without having to install any dependencies... other than having Calibre installed, of course. It will still work if you have Python and PyCrypto already installed, but they aren't necessary.
-
-
-Installation:
-
-Go to Calibre's Preferences page. Do **NOT** select "Get plugins to enhance calibre" as this is reserved for "official" calibre plugins, instead select "Cahnge calibre behavior". Under "Advanced" click on the Plugins button. Use the "Load plugin from file" button to select the plugin's zip file (ineptepub_vXX_plugin.zip) and click the 'Add' button. you're done.
-
-Please note:  Calibre does not provide any immediate feedback to indicate that adding the plugin was a success. You can always click on the File-Type plugins to see if the plugin was added.
-
-
-Configuration:
-
-When first run, the plugin will attempt to find your Adobe Digital Editions installation (on Windows and Mac OS's). If successful, it will create an 'adeptkey.der' file and save it in Calibre's configuration directory. It will use that file on subsequent runs. If there are already '*.der' files in the directory, the plugin won't attempt to find the Adobe Digital Editions installation installation.
-
-So if you have Adobe Digital Editions installation installed on the same machine as Calibre... you are ready to go. If not... keep reading.
-
-If you already have keyfiles generated with I♥Cabbages' ineptkey.pyw script, you can put those keyfiles in Calibre's configuration directory. The easiest way to find the correct directory is to go to Calibre's Preferences page... click on the 'Miscellaneous' button (looks like a gear),  and then click the 'Open Calibre configuration directory' button. Paste your keyfiles in there. Just make sure that they have different names and are saved with the '.der' extension (like the ineptkey script produces). This directory isn't touched when upgrading Calibre, so it's quite safe to leave them there.
-
-Since there is no Linux version of Adobe Digital Editions, Linux users will have to obtain a keyfile through other methods and put the file in Calibre's configuration directory.
-
-All keyfiles with a '.der' extension found in Calibre's configuration directory will be used to attempt to decrypt a book.
-
-
-** NOTE ** There is no plugin customization data for the Inept Epub DeDRM plugin.
-
-
-Troubleshooting:
-
-If you find that it's not working for you (imported epubs still have DRM), you can save a lot of time and trouble by trying to add the epub to Calibre with the command line tools. This will print out a lot of helpful debugging info that can be copied into any online help requests. I'm going to ask you to do it first, anyway, so you might as well get used to it. ;)
-
-Open a command prompt (terminal) and change to the directory where the ebook you're trying to import resides. Then type the command "calibredb add your_ebook.epub". Don't type the quotes and obviously change the 'your_ebook.epub' to whatever the filename of your book is. Copy the resulting output and paste it into any online help request you make.
-
-** Note: the Mac version of Calibre doesn't install the command line tools by default. If you go to the 'Preferences' page and click on the miscellaneous button, you'll see the option to install the command line tools.
-
--- a/Calibre_Plugins/Ineptpdf
+++ b/Calibre_Plugins/Ineptpdf
@@ -1,39 +0,0 @@
-Inept PDF Plugin - ineptpdf_v01.5_plugin.zip
-
-All credit given to I♥Cabbages for the original standalone scripts.
-I had the much easier job of converting them to a Calibre plugin.
-
-This plugin is meant to decrypt Adobe Digital Edition PDFs that are protected with Adobe's Adept encryption. It is meant to function without having to install any dependencies... other than having Calibre installed, of course. It will still work if you have Python, PyCrypto and/or OpenSSL already installed, but they aren't necessary.
-
-
-Installation:
-
-Go to Calibre's Preferences page.  Do **NOT** select "Get plugins to enhance calibre" as this is reserved for "official" plugins, instead select "Change calibre behavior". Under "Advanced" click on the Plugins button. Use the "Load plugin from file" button to select the plugin's zip file (ineptpdf_vXX_plugin.zip) and click the 'Add' button. you're done.
-
-Please note:  Calibre does not provide any immediate feedback to indicate that adding the plugin was a success. You can always click on the File-Type plugins to see if the plugin was added.
-
-
-Configuration:
-
-When first run, the plugin will attempt to find your Adobe Digital Editions installation (on Windows and Mac OS's). If successful, it will create an 'adeptkey.der' file and save it in Calibre's configuration directory. It will use that file on subsequent runs. If there are already '*.der' files in the directory, the plugin won't attempt to find the Adobe Digital Editions installation installation.
-
-So if you have Adobe Digital Editions installation installed on the same machine as Calibre... you are ready to go. If not... keep reading.
-
-If you already have keyfiles generated with I <3 Cabbages' ineptkey.pyw script, you can put those keyfiles in Calibre's configuration directory. The easiest way to find the correct directory is to go to Calibre's Preferences page... click on the 'Miscellaneous' button (looks like a gear),  and then click the 'Open Calibre configuration directory' button. Paste your keyfiles in there. Just make sure that
-they have different names and are saved with the '.der' extension (like the ineptkey script produces). This directory isn't touched when upgrading Calibre, so it's quite safe to leave them there.
-
-Since there is no Linux version of Adobe Digital Editions, Linux users will have to obtain a keyfile through other methods and put the file in Calibre's configuration directory.
-
-All keyfiles with a '.der' extension found in Calibre's configuration directory will be used to attempt to decrypt a book.
-
-** NOTE ** There is no plugin customization data for the Inept PDF plugin.
-
-
-Troubleshooting:
-
-If you find that it's not working for you (imported PDFs still have DRM), you can save a lot of time and trouble by trying to add the PDF to Calibre with the command line tools. This will print out a lot of helpful debugging info that can be copied into any online help requests. I'm going to ask you to do it first, anyway, so you might as well get used to it. ;)
-
-Open a command prompt (terminal) and change to the directory where the ebook you're trying to import resides. Then type the command "calibredb add your_ebook.pdf". Don't type the quotes and obviously change the 'your_ebook.pdf' to whatever the filename of your book is. Copy the resulting output and paste it into any online help request you make.
-
-** Note: the Mac version of Calibre doesn't install the command line tools by default. If you go to the 'Preferences' page and click on the miscellaneous button, you'll see the option to install the command line tools.
-
--- a/Calibre_Plugins/K4MobiDeDRM
+++ b/Calibre_Plugins/K4MobiDeDRM
@@ -1,37 +0,0 @@
-K4MobiDeDRM_v04.5_plugin.zip
-
-Credit given to The Dark Reverser for the original standalone script. Credit also to the many people who have updated and expanded that script since then.
-
-Plugin for K4PC, K4Mac, eInk Kindles and Mobipocket.
-
-This plugin supersedes MobiDeDRM, K4DeDRM, and K4PCDeDRM and K4X plugins.  If you install this plugin, those plugins can be safely removed.
-
-This plugin is meant to remove the DRM from .prc, .mobi, .azw, .azw1, .azw3, .azw4 and .tpz ebooks.   Calibre can then convert them to whatever format you desire. It is meant to function without having to install any  dependencies except for Calibre being on your same machine and in the same account as your "Kindle for PC" or "Kindle for Mac" application if you are going to remove the DRM from those types of books.
-
-
-Installation:
-
-Go to Calibre's Preferences page.  Do **NOT** select "Get Plugins to enhance calibre" as this is reserved for official calibre plugins", instead select "Change calibre behavior". Under "Advanced" click on the on the Plugins button. Click on the "Load plugin from file" button at the bottom of the screen.  Use the file dialog button to select the plugin's zip file  (K4MobiDeDRM_vXX_plugin.zip) and click the "Add" (or it may say "Open" button.  Then click on the "Yes" button in the warning dialog that appears.  A Confirmation dialog appears that says the plugin has been installed.
-
-
-Configuration:
-
-Highlight the plugin (K4MobiDeDRM under the "File type plugins" category) and click the "Customize Plugin" button on Calibre's Preferences->Plugins page. If you have an eInk Kindle enter the 16 digit serial number (these typically begin "B0..."). If you have more than one eInk Kindle, you can enter multiple serial numbers separated by commas (no spaces). If you have Mobipocket books, enter your 10 digit PID.  If you have more than one PID, separate them with commax (no spaces).
-
-This configuration step is not needed if you only want to decode "Kindle for PC" or "Kindle for Mac" books. 
-
-
-Linux Systems Only:
-
-If you install Kindle for PC in Wine, the plugin should be able to decode files from that Kindle for PC installation under Wine. You might need to enter a Wine Prefix if it's not already set in your Environment variables.
-
-
-Troubleshooting:
-
-If you find that it's not working for you, you can save a lot of time and trouble by trying to add the DRMed ebook to Calibre with the command line tools. This will print out a lot of helpful debugging info that can be copied into any online help requests. I'm going to ask you to do it first, anyway, so you might as well get used to it. ;)
-
-Open a command prompt (terminal) and change to the directory where the ebook you're trying to import resides. Then type the command "calibredb add your_ebook_file". Don't type the quotes and obviously change the 'your_ebook_file' to whatever the filename of your book is (including any file name extension like .azw). Copy the resulting output and paste it into any online help request you make.
-
-** Note: the Mac version of Calibre doesn't install the command line tools by default. If you go to the 'Preferences' page and click on the miscellaneous button, you'll see the option to install the command line tools.
-
-
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/init.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/init.py
@@ -1,258 +0,0 @@
-#!/usr/bin/env python
-
-from __future__ import with_statement
-
-from calibre.customize import FileTypePlugin
-from calibre.gui2 import is_ok_to_use_qt
-from calibre.utils.config import config_dir
-from calibre.constants import iswindows, isosx
-# from calibre.ptempfile import PersistentTemporaryDirectory
-
-
-import sys
-import os
-import re
-from zipfile import ZipFile
-
-class K4DeDRM(FileTypePlugin):
-    name                = 'Kindle and Mobipocket DeDRM' # Name of the plugin
-    description         = 'Removes DRM from eInk Kindle, Kindle 4 Mac and Kindle 4 PC ebooks, and from Mobipocket ebooks. Provided by the work of many including DiapDealer, SomeUpdates, IHeartCabbages, CMBDTC, Skindle, DarkReverser, mdlnx, ApprenticeAlf, etc.'
-    supported_platforms = ['osx', 'windows', 'linux'] # Platforms this plugin will run on
-    author              = 'DiapDealer, SomeUpdates, mdlnx, Apprentice Alf' # The author of this plugin
-    version             = (0, 4, 5)   # The version number of this plugin
-    file_types          = set(['prc','mobi','azw','azw1','azw3','azw4','tpz']) # The file types that this plugin will be applied to
-    on_import           = True # Run this plugin during the import
-    priority            = 520  # run this plugin before earlier versions
-    minimum_calibre_version = (0, 7, 55)
-
-    def initialize(self):
-        """
-        Dynamic modules can't be imported/loaded from a zipfile... so this routine
-        runs whenever the plugin gets initialized. This will extract the appropriate
-        library for the target OS and copy it to the 'alfcrypto' subdirectory of
-        calibre's configuration directory. That 'alfcrypto' directory is then
-        inserted into the syspath (as the very first entry) in the run function
-        so the CDLL stuff will work in the alfcrypto.py script.
-        """
-        if iswindows:
-            names = ['alfcrypto.dll','alfcrypto64.dll']
-        elif isosx:
-            names = ['libalfcrypto.dylib']
-        else:
-            names = ['libalfcrypto32.so','libalfcrypto64.so','alfcrypto.py','alfcrypto.dll','alfcrypto64.dll','getk4pcpids.py','mobidedrm.py','kgenpids.py','k4pcutils.py','topazextract.py']
-        lib_dict = self.load_resources(names)
-        self.alfdir = os.path.join(config_dir, 'alfcrypto')
-        if not os.path.exists(self.alfdir):
-            os.mkdir(self.alfdir)
-        for entry, data in lib_dict.items():
-            file_path = os.path.join(self.alfdir, entry)
-            with open(file_path,'wb') as f:
-                f.write(data)
-
-    def run(self, path_to_ebook):
-        # add the alfcrypto directory to sys.path so alfcrypto.py 
-        # will be able to locate the custom lib(s) for CDLL import.
-        sys.path.insert(0, self.alfdir)
-        # Had to move these imports here so the custom libs can be
-        # extracted to the appropriate places beforehand these routines
-        # look for them.
-        from calibre_plugins.k4mobidedrm import kgenpids
-        from calibre_plugins.k4mobidedrm import topazextract
-        from calibre_plugins.k4mobidedrm import mobidedrm
-
-        plug_ver = '.'.join(str(self.version).strip('()').replace(' ', '').split(','))
-        k4 = True
-        pids = []
-        serials = []
-        kInfoFiles = []
-        self.config()
-        
-        # Get supplied list of PIDs to try from plugin customization.
-        pidstringlistt = self.pids_string.split(',')
-        for pid in pidstringlistt:
-            pid = str(pid).strip()
-            if len(pid) == 10 or len(pid) == 8:
-                pids.append(pid)
-            else:
-                if len(pid) > 0:
-                    print "'%s' is not a valid Mobipocket PID." % pid
-                        
-        # For linux, get PIDs by calling the right routines under WINE
-        if sys.platform.startswith('linux'):
-            k4 = False
-            pids.extend(self.WINEgetPIDs(path_to_ebook))
-            
-        # Get supplied list of Kindle serial numbers to try from plugin customization.
-        serialstringlistt = self.serials_string.split(',')
-        for serial in serialstringlistt:
-            serial = str(serial).strip()
-            if len(serial) == 16 and serial[0] == 'B':
-                serials.append(serial)
-            else:
-                if len(serial) > 0:
-                    print "'%s' is not a valid Kindle serial number." % serial
-                    
-        # Load any kindle info files (*.info) included Calibre's config directory.
-        try:
-            print 'K4MobiDeDRM v%s: Calibre configuration directory = %s' % (plug_ver, config_dir)
-            files = os.listdir(config_dir)
-            filefilter = re.compile("\.info$|\.kinf$", re.IGNORECASE)
-            files = filter(filefilter.search, files)
-            if files:
-                for filename in files:
-                    fpath = os.path.join(config_dir, filename)
-                    kInfoFiles.append(fpath)
-                print 'K4MobiDeDRM v%s: Kindle info/kinf file %s found in config folder.' % (plug_ver, filename)
-        except IOError:
-            print 'K4MobiDeDRM v%s: Error reading kindle info/kinf files from config directory.' % plug_ver
-            pass
-
-        mobi = True
-        magic3 = file(path_to_ebook,'rb').read(3)
-        if magic3 == 'TPZ':
-            mobi = False
-
-        bookname = os.path.splitext(os.path.basename(path_to_ebook))[0]
-
-        if mobi:
-            mb = mobidedrm.MobiBook(path_to_ebook)
-        else:
-            mb = topazextract.TopazBook(path_to_ebook)
-
-        title = mb.getBookTitle()
-        md1, md2 = mb.getPIDMetaInfo()
-        pidlst = kgenpids.getPidList(md1, md2, k4, pids, serials, kInfoFiles)
-
-        try:
-            mb.processBook(pidlst)
-
-        except mobidedrm.DrmException, e:
-            #if you reached here then no luck raise and exception
-            if is_ok_to_use_qt():
-                from PyQt4.Qt import QMessageBox
-                d = QMessageBox(QMessageBox.Warning, "K4MobiDeDRM v%s Plugin" % plug_ver, "Error: " + str(e) + "... %s\n" %  path_to_ebook)
-                d.show()
-                d.raise_()
-                d.exec_()
-            raise Exception("K4MobiDeDRM plugin v%s Error: %s" % (plug_ver, str(e)))
-        except topazextract.TpzDRMError, e:
-            #if you reached here then no luck raise and exception
-            if is_ok_to_use_qt():
-                from PyQt4.Qt import QMessageBox
-                d = QMessageBox(QMessageBox.Warning, "K4MobiDeDRM v%s Plugin" % plug_ver, "Error: " + str(e) + "... %s\n" % path_to_ebook)
-                d.show()
-                d.raise_()
-                d.exec_()
-            raise Exception("K4MobiDeDRM plugin v%s Error: %s" % (plug_ver, str(e)))
-
-        print "Success!"
-        if mobi:
-            if mb.getPrintReplica():
-                of = self.temporary_file(bookname+'.azw4')
-                print 'K4MobiDeDRM v%s: Print Replica format detected.' % plug_ver
-            elif mb.getMobiVersion() >= 8:
-                print 'K4MobiDeDRM v%s: Stand-alone KF8 format detected.' % plug_ver
-                of = self.temporary_file(bookname+'.azw3')
-            else:
-                of = self.temporary_file(bookname+'.mobi')
-            mb.getMobiFile(of.name)
-        else:
-            of = self.temporary_file(bookname+'.htmlz')
-            mb.getHTMLZip(of.name)
-            mb.cleanup()
-        return of.name
-
-    def WINEgetPIDs(self, infile):
-
-        import subprocess
-        from subprocess import Popen, PIPE, STDOUT
-
-        import subasyncio
-        from subasyncio import Process
-
-        print "   Getting PIDs from WINE"
-
-        outfile = os.path.join(self.alfdir + 'winepids.txt')
-        # Remove any previous winepids.txt file.
-        if os.path.exists(outfile):
-            os.remove(outfile)
-
-        cmdline = 'wine python.exe ' \
-                  + '"'+self.alfdir + '/getk4pcpids.py"' \
-                  + ' "' + infile + '"' \
-                  + ' "' + outfile + '"'
-
-        env = os.environ
-        
-        print "My wine_prefix from tweaks is ", self.wine_prefix
-
-        if ("WINEPREFIX" in env):
-            print "Using WINEPREFIX from the environment: ", env["WINEPREFIX"]
-        elif (self.wine_prefix is not None):
-            env['WINEPREFIX'] = self.wine_prefix
-            print "Using WINEPREFIX from tweaks: ", self.wine_prefix
-        else:
-            print "No wine prefix used"
-
-        print cmdline
-
-        try:
-            cmdline = cmdline.encode(sys.getfilesystemencoding())
-            p2 = Process(cmdline, shell=True, bufsize=1, stdin=None, stdout=sys.stdout, stderr=STDOUT, close_fds=False)
-            result = p2.wait("wait")
-        except Exception, e:
-            print "WINE subprocess error ", str(e)
-            return []
-        print "WINE subprocess returned ", result
-        
-        WINEpids = []
-        if os.path.exists(outfile):
-            try:
-                customvalues = file(outfile, 'r').readline().split(',')
-                for customvalue in customvalues:
-                    customvalue = str(customvalue)
-                    customvalue = customvalue.strip()
-                    if len(customvalue) == 10 or len(customvalue) == 8:
-                        WINEpids.append(customvalue)
-                    else:
-                        print "'%s' is not a valid PID." % customvalue
-            except Exception, e:
-                print "Error parsing winepids.txt: ", str(e)
-                return []
-        else:
-            print "No PIDs generated by Wine Python subprocess."
-        return WINEpids
-
-    def is_customizable(self):
-        # return true to allow customization via the Plugin->Preferences.
-        return True
-
-    def config_widget(self):
-        # It is important to put this import statement here rather than at the
-        # top of the module as importing the config class will also cause the
-        # GUI libraries to be loaded, which we do not want when using calibre
-        # from the command line
-        from calibre_plugins.k4mobidedrm.config import ConfigWidget
-        return config.ConfigWidget()
-    
-    def config(self):
-        from calibre_plugins.k4mobidedrm.config import prefs
-        
-        self.pids_string = prefs['pids']
-        self.serials_string = prefs['serials']
-        self.wine_prefix = prefs['WINEPREFIX']
-        
-    def save_settings(self, config_widget):
-        '''
-        Save the settings specified by the user with config_widget.
-        '''
-        config_widget.save_settings()
-        self.config()
-
-    def load_resources(self, names):
-        ans = {}
-        with ZipFile(self.plugin_path, 'r') as zf:
-            for candidate in zf.namelist():
-                if candidate in names:
-                    ans[candidate] = zf.read(candidate)
-        return ans
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/alfcrypto.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/alfcrypto.py
@@ -1,290 +0,0 @@
-#! /usr/bin/env python
-
-import sys, os
-import hmac
-from struct import pack
-import hashlib
-
-
-# interface to needed routines libalfcrypto
-def _load_libalfcrypto():
-    import ctypes
-    from ctypes import CDLL, byref, POINTER, c_void_p, c_char_p, c_int, c_long, \
-        Structure, c_ulong, create_string_buffer, addressof, string_at, cast, sizeof
-
-    pointer_size = ctypes.sizeof(ctypes.c_voidp)
-    name_of_lib = None
-    if sys.platform.startswith('darwin'):
-        name_of_lib = 'libalfcrypto.dylib'
-    elif sys.platform.startswith('win'):
-        if pointer_size == 4:
-            name_of_lib = 'alfcrypto.dll'
-        else:
-            name_of_lib = 'alfcrypto64.dll'
-    else:
-        if pointer_size == 4:
-            name_of_lib = 'libalfcrypto32.so'
-        else:
-            name_of_lib = 'libalfcrypto64.so'
-    
-    libalfcrypto = sys.path[0] + os.sep + name_of_lib
-
-    if not os.path.isfile(libalfcrypto):
-        raise Exception('libalfcrypto not found')
-
-    libalfcrypto = CDLL(libalfcrypto)
-
-    c_char_pp = POINTER(c_char_p)
-    c_int_p = POINTER(c_int)
-
-
-    def F(restype, name, argtypes):
-        func = getattr(libalfcrypto, name)
-        func.restype = restype
-        func.argtypes = argtypes
-        return func
-
-    # aes cbc decryption
-    #
-    # struct aes_key_st {
-    # unsigned long rd_key[4 *(AES_MAXNR + 1)];
-    # int rounds;
-    # };
-    #
-    # typedef struct aes_key_st AES_KEY;
-    #
-    # int AES_set_decrypt_key(const unsigned char *userKey, const int bits, AES_KEY *key);
-    #
-    # 
-    # void AES_cbc_encrypt(const unsigned char *in, unsigned char *out,
-    # const unsigned long length, const AES_KEY *key,
-    # unsigned char *ivec, const int enc);
-
-    AES_MAXNR = 14
-
-    class AES_KEY(Structure):
-        _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))), ('rounds', c_int)]
-
-    AES_KEY_p = POINTER(AES_KEY)
-    AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',[c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p, c_int])
-    AES_set_decrypt_key = F(c_int, 'AES_set_decrypt_key',[c_char_p, c_int, AES_KEY_p])
-
-
-
-    # Pukall 1 Cipher
-    # unsigned char *PC1(const unsigned char *key, unsigned int klen, const unsigned char *src,
-    #                unsigned char *dest, unsigned int len, int decryption);
-
-    PC1 = F(c_char_p, 'PC1', [c_char_p, c_ulong, c_char_p, c_char_p, c_ulong, c_ulong])
-
-    # Topaz Encryption
-    # typedef struct _TpzCtx {
-    #    unsigned int v[2];
-    # } TpzCtx;
-    #
-    # void topazCryptoInit(TpzCtx *ctx, const unsigned char *key, int klen);
-    # void topazCryptoDecrypt(const TpzCtx *ctx, const unsigned char *in, unsigned char *out, int len);
-
-    class TPZ_CTX(Structure):
-        _fields_ = [('v', c_long * 2)]
-
-    TPZ_CTX_p = POINTER(TPZ_CTX)
-    topazCryptoInit = F(None, 'topazCryptoInit', [TPZ_CTX_p, c_char_p, c_ulong])
-    topazCryptoDecrypt = F(None, 'topazCryptoDecrypt', [TPZ_CTX_p, c_char_p, c_char_p, c_ulong])
-
-
-    class AES_CBC(object):
-        def __init__(self):
-            self._blocksize = 0
-            self._keyctx = None
-            self._iv = 0
-
-        def set_decrypt_key(self, userkey, iv):
-            self._blocksize = len(userkey)
-            if (self._blocksize != 16) and (self._blocksize != 24) and (self._blocksize != 32) :
-                raise Exception('AES CBC improper key used')
-                return
-            keyctx = self._keyctx = AES_KEY()
-            self._iv = iv
-            rv = AES_set_decrypt_key(userkey, len(userkey) * 8, keyctx)
-            if rv < 0:
-                raise Exception('Failed to initialize AES CBC key')
-
-        def decrypt(self, data):
-            out = create_string_buffer(len(data))
-            mutable_iv = create_string_buffer(self._iv, len(self._iv))
-            rv = AES_cbc_encrypt(data, out, len(data), self._keyctx, mutable_iv, 0)
-            if rv == 0:
-                raise Exception('AES CBC decryption failed')
-            return out.raw
-
-    class Pukall_Cipher(object):
-        def __init__(self):
-            self.key = None
-
-        def PC1(self, key, src, decryption=True):
-            self.key = key
-            out = create_string_buffer(len(src))
-            de = 0
-            if decryption:
-                de = 1
-            rv = PC1(key, len(key), src, out, len(src), de)
-            return out.raw
-
-    class Topaz_Cipher(object):
-        def __init__(self):
-            self._ctx = None
-
-        def ctx_init(self, key):
-            tpz_ctx = self._ctx = TPZ_CTX()
-            topazCryptoInit(tpz_ctx, key, len(key))
-            return tpz_ctx
-
-        def decrypt(self, data,  ctx=None):
-            if ctx == None:
-                ctx = self._ctx
-            out = create_string_buffer(len(data))
-            topazCryptoDecrypt(ctx, data, out, len(data))
-            return out.raw
-
-    print "Using Library AlfCrypto DLL/DYLIB/SO"
-    return (AES_CBC, Pukall_Cipher, Topaz_Cipher)
-
-
-def _load_python_alfcrypto():
-
-    import aescbc
-
-    class Pukall_Cipher(object):
-        def __init__(self):
-            self.key = None
-
-        def PC1(self, key, src, decryption=True):
-            sum1 = 0;
-            sum2 = 0;
-            keyXorVal = 0;
-            if len(key)!=16:
-                print "Bad key length!"
-                return None
-            wkey = []
-            for i in xrange(8):
-                wkey.append(ord(key[i*2])<<8 | ord(key[i*2+1]))
-            dst = ""
-            for i in xrange(len(src)):
-                temp1 = 0;
-                byteXorVal = 0;
-                for j in xrange(8):
-                    temp1 ^= wkey[j]
-                    sum2  = (sum2+j)*20021 + sum1
-                    sum1  = (temp1*346)&0xFFFF
-                    sum2  = (sum2+sum1)&0xFFFF
-                    temp1 = (temp1*20021+1)&0xFFFF
-                    byteXorVal ^= temp1 ^ sum2
-                curByte = ord(src[i])
-                if not decryption:
-                    keyXorVal = curByte * 257;
-                curByte = ((curByte ^ (byteXorVal >> 8)) ^ byteXorVal) & 0xFF
-                if decryption:
-                    keyXorVal = curByte * 257;
-                for j in xrange(8):
-                    wkey[j] ^= keyXorVal;
-                dst+=chr(curByte)
-            return dst
-
-    class Topaz_Cipher(object):
-        def __init__(self):
-            self._ctx = None
-
-        def ctx_init(self, key):
-            ctx1 = 0x0CAFFE19E
-            for keyChar in key:
-                keyByte = ord(keyChar)
-                ctx2 = ctx1
-                ctx1 = ((((ctx1 >>2) * (ctx1 >>7))&0xFFFFFFFF) ^ (keyByte * keyByte * 0x0F902007)& 0xFFFFFFFF )
-            self._ctx = [ctx1, ctx2]
-            return [ctx1,ctx2]
-
-        def decrypt(self, data,  ctx=None):
-            if ctx == None:
-                ctx = self._ctx
-            ctx1 = ctx[0]
-            ctx2 = ctx[1]
-            plainText = ""
-            for dataChar in data:
-                dataByte = ord(dataChar)
-                m = (dataByte ^ ((ctx1 >> 3) &0xFF) ^ ((ctx2<<3) & 0xFF)) &0xFF
-                ctx2 = ctx1
-                ctx1 = (((ctx1 >> 2) * (ctx1 >> 7)) &0xFFFFFFFF) ^((m * m * 0x0F902007) &0xFFFFFFFF)
-                plainText += chr(m)
-            return plainText
-
-    class AES_CBC(object):
-        def __init__(self):
-            self._key = None
-            self._iv = None
-            self.aes = None
-
-        def set_decrypt_key(self, userkey, iv):
-            self._key = userkey
-            self._iv = iv
-            self.aes = aescbc.AES_CBC(userkey, aescbc.noPadding(), len(userkey))
-
-        def decrypt(self, data):
-            iv = self._iv
-            cleartext = self.aes.decrypt(iv + data)
-            return cleartext
-
-    return (AES_CBC, Pukall_Cipher, Topaz_Cipher)
-
-
-def _load_crypto():
-    AES_CBC = Pukall_Cipher = Topaz_Cipher = None
-    cryptolist = (_load_libalfcrypto, _load_python_alfcrypto)
-    for loader in cryptolist:
-        try:
-            AES_CBC, Pukall_Cipher, Topaz_Cipher = loader()
-            break
-        except (ImportError, Exception):
-            pass
-    return AES_CBC, Pukall_Cipher, Topaz_Cipher
-
-AES_CBC, Pukall_Cipher, Topaz_Cipher = _load_crypto()
-
-
-class KeyIVGen(object):
-    # this only exists in openssl so we will use pure python implementation instead
-    # PKCS5_PBKDF2_HMAC_SHA1 = F(c_int, 'PKCS5_PBKDF2_HMAC_SHA1',
-    #                             [c_char_p, c_ulong, c_char_p, c_ulong, c_ulong, c_ulong, c_char_p])
-    def pbkdf2(self, passwd, salt, iter, keylen):
-
-        def xorstr( a, b ):
-            if len(a) != len(b):
-                raise Exception("xorstr(): lengths differ")
-            return ''.join((chr(ord(x)^ord(y)) for x, y in zip(a, b)))
-
-        def prf( h, data ):
-            hm = h.copy()
-            hm.update( data )
-            return hm.digest()
-
-        def pbkdf2_F( h, salt, itercount, blocknum ):
-            U = prf( h, salt + pack('>i',blocknum ) )
-            T = U
-            for i in range(2, itercount+1):
-                U = prf( h, U )
-                T = xorstr( T, U )
-            return T
-
-        sha = hashlib.sha1
-        digest_size = sha().digest_size
-        # l - number of output blocks to produce
-        l = keylen / digest_size
-        if keylen % digest_size != 0:
-            l += 1
-        h = hmac.new( passwd, None, sha )
-        T = ""
-        for i in range(1, l+1):
-            T += pbkdf2_F( h, salt, iter, i )
-        return T[0: keylen]
-
-
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/cmbtc_v2.2.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/cmbtc_v2.2.py
@@ -1,899 +0,0 @@
-#! /usr/bin/python
-
-"""
-
-Comprehensive Mazama Book DRM with Topaz Cryptography V2.2
-
-----BEGIN PUBLIC KEY-----
-MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQDdBHJ4CNc6DNFCw4MRCw4SWAK6
-M8hYfnNEI0yQmn5Ti+W8biT7EatpauE/5jgQMPBmdNrDr1hbHyHBSP7xeC2qlRWC
-B62UCxeu/fpfnvNHDN/wPWWH4jynZ2M6cdcnE5LQ+FfeKqZn7gnG2No1U9h7oOHx
-y2/pHuYme7U1TsgSjwIDAQAB
-----END PUBLIC KEY-----
-
-"""
-
-from __future__ import with_statement
-
-import csv
-import sys
-import os
-import getopt
-import zlib
-from struct import pack
-from struct import unpack
-from ctypes import windll, c_char_p, c_wchar_p, c_uint, POINTER, byref, \
-    create_unicode_buffer, create_string_buffer, CFUNCTYPE, addressof, \
-    string_at, Structure, c_void_p, cast
-import _winreg as winreg
-import Tkinter
-import Tkconstants
-import tkMessageBox
-import traceback
-import hashlib
-
-MAX_PATH = 255
-
-kernel32 = windll.kernel32
-advapi32 = windll.advapi32
-crypt32 = windll.crypt32
-
-global kindleDatabase
-global bookFile
-global bookPayloadOffset
-global bookHeaderRecords
-global bookMetadata
-global bookKey
-global command
-
-#
-# Various character maps used to decrypt books. Probably supposed to act as obfuscation
-#
-
-charMap1 = "n5Pr6St7Uv8Wx9YzAb0Cd1Ef2Gh3Jk4M"
-charMap2 = "AaZzB0bYyCc1XxDdW2wEeVv3FfUuG4g-TtHh5SsIiR6rJjQq7KkPpL8lOoMm9Nn_"
-charMap3 = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
-charMap4 = "ABCDEFGHIJKLMNPQRSTUVWXYZ123456789"
-
-#
-# Exceptions for all the problems that might happen during the script
-#
-
-class CMBDTCError(Exception):
-    pass
-
-class CMBDTCFatal(Exception):
-    pass
-
-#
-# Stolen stuff
-#
-
-class DataBlob(Structure):
-    _fields_ = [('cbData', c_uint),
-                ('pbData', c_void_p)]
-DataBlob_p = POINTER(DataBlob)
-
-def GetSystemDirectory():
-    GetSystemDirectoryW = kernel32.GetSystemDirectoryW
-    GetSystemDirectoryW.argtypes = [c_wchar_p, c_uint]
-    GetSystemDirectoryW.restype = c_uint
-    def GetSystemDirectory():
-        buffer = create_unicode_buffer(MAX_PATH + 1)
-        GetSystemDirectoryW(buffer, len(buffer))
-        return buffer.value
-    return GetSystemDirectory
-GetSystemDirectory = GetSystemDirectory()
-
-
-def GetVolumeSerialNumber():
-    GetVolumeInformationW = kernel32.GetVolumeInformationW
-    GetVolumeInformationW.argtypes = [c_wchar_p, c_wchar_p, c_uint,
-                                      POINTER(c_uint), POINTER(c_uint),
-                                      POINTER(c_uint), c_wchar_p, c_uint]
-    GetVolumeInformationW.restype = c_uint
-    def GetVolumeSerialNumber(path):
-        vsn = c_uint(0)
-        GetVolumeInformationW(path, None, 0, byref(vsn), None, None, None, 0)
-        return vsn.value
-    return GetVolumeSerialNumber
-GetVolumeSerialNumber = GetVolumeSerialNumber()
-
-
-def GetUserName():
-    GetUserNameW = advapi32.GetUserNameW
-    GetUserNameW.argtypes = [c_wchar_p, POINTER(c_uint)]
-    GetUserNameW.restype = c_uint
-    def GetUserName():
-        buffer = create_unicode_buffer(32)
-        size = c_uint(len(buffer))
-        while not GetUserNameW(buffer, byref(size)):
-            buffer = create_unicode_buffer(len(buffer) * 2)
-            size.value = len(buffer)
-        return buffer.value.encode('utf-16-le')[::2]
-    return GetUserName
-GetUserName = GetUserName()
-
-
-def CryptUnprotectData():
-    _CryptUnprotectData = crypt32.CryptUnprotectData
-    _CryptUnprotectData.argtypes = [DataBlob_p, c_wchar_p, DataBlob_p,
-                                   c_void_p, c_void_p, c_uint, DataBlob_p]
-    _CryptUnprotectData.restype = c_uint
-    def CryptUnprotectData(indata, entropy):
-        indatab = create_string_buffer(indata)
-        indata = DataBlob(len(indata), cast(indatab, c_void_p))
-        entropyb = create_string_buffer(entropy)
-        entropy = DataBlob(len(entropy), cast(entropyb, c_void_p))
-        outdata = DataBlob()
-        if not _CryptUnprotectData(byref(indata), None, byref(entropy),
-                                   None, None, 0, byref(outdata)):
-            raise CMBDTCFatal("Failed to Unprotect Data")
-        return string_at(outdata.pbData, outdata.cbData)
-    return CryptUnprotectData
-CryptUnprotectData = CryptUnprotectData()
-
-#
-# Returns the MD5 digest of "message"
-#
-
-def MD5(message):
-    ctx = hashlib.md5()
-    ctx.update(message)
-    return ctx.digest()
-
-#
-# Returns the MD5 digest of "message"
-#
-
-def SHA1(message):
-    ctx = hashlib.sha1()
-    ctx.update(message)
-    return ctx.digest()
-
-#
-# Open the book file at path
-#
-
-def openBook(path):
-    try:
-        return open(path,'rb')
-    except:
-        raise CMBDTCFatal("Could not open book file: " + path)
-#
-# Encode the bytes in data with the characters in map
-#
-
-def encode(data, map):
-    result = ""
-    for char in data:
-        value = ord(char)
-        Q = (value ^ 0x80) // len(map)
-        R = value % len(map)
-        result += map[Q]
-        result += map[R]
-    return result
-
-#
-# Hash the bytes in data and then encode the digest with the characters in map
-#
-
-def encodeHash(data,map):
-    return encode(MD5(data),map)
-
-#
-# Decode the string in data with the characters in map. Returns the decoded bytes
-#
-
-def decode(data,map):
-    result = ""
-    for i in range (0,len(data),2):
-        high = map.find(data[i])
-        low = map.find(data[i+1])
-        value = (((high * 0x40) ^ 0x80) & 0xFF) + low
-        result += pack("B",value)
-    return result
-
-#
-# Locate and open the Kindle.info file (Hopefully in the way it is done in the Kindle application)
-#
-
-def openKindleInfo():
-    regkey = winreg.OpenKey(winreg.HKEY_CURRENT_USER, "Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Shell Folders\\")
-    path = winreg.QueryValueEx(regkey, 'Local AppData')[0]
-    return open(path+'\\Amazon\\Kindle For PC\\{AMAwzsaPaaZAzmZzZQzgZCAkZ3AjA_AY}\\kindle.info','r')
-
-#
-# Parse the Kindle.info file and return the records as a list of key-values
-#
-
-def parseKindleInfo():
-    DB = {}
-    infoReader = openKindleInfo()
-    infoReader.read(1)
-    data = infoReader.read()
-    items = data.split('{')
-
-    for item in items:
-        splito = item.split(':')
-        DB[splito[0]] =splito[1]
-    return DB
-
-#
-# Find if the original string for a hashed/encoded string is known. If so return the original string othwise return an empty string. (Totally not optimal)
-#
-
-def findNameForHash(hash):
-    names = ["kindle.account.tokens","kindle.cookie.item","eulaVersionAccepted","login_date","kindle.token.item","login","kindle.key.item","kindle.name.info","kindle.device.info", "MazamaRandomNumber"]
-    result = ""
-    for name in names:
-        if hash == encodeHash(name, charMap2):
-            result = name
-            break
-    return name
-
-#
-# Print all the records from the kindle.info file (option -i)
-#
-
-def printKindleInfo():
-    for record in kindleDatabase:
-        name = findNameForHash(record)
-        if name != "" :
-            print (name)
-            print ("--------------------------\n")
-        else :
-            print ("Unknown Record")
-        print getKindleInfoValueForHash(record)
-        print "\n"
-#
-# Get a record from the Kindle.info file for the key "hashedKey" (already hashed and encoded). Return the decoded and decrypted record
-#
-
-def getKindleInfoValueForHash(hashedKey):
-    global kindleDatabase
-    encryptedValue = decode(kindleDatabase[hashedKey],charMap2)
-    return CryptUnprotectData(encryptedValue,"")
-
-#
-#  Get a record from the Kindle.info file for the string in "key" (plaintext). Return the decoded and decrypted record
-#
-
-def getKindleInfoValueForKey(key):
-    return getKindleInfoValueForHash(encodeHash(key,charMap2))
-
-#
-# Get a 7 bit encoded number from the book file
-#
-
-def bookReadEncodedNumber():
-    flag = False
-    data = ord(bookFile.read(1))
-
-    if data == 0xFF:
-        flag = True
-        data = ord(bookFile.read(1))
-
-    if data >= 0x80:
-        datax = (data & 0x7F)
-        while data >= 0x80 :
-            data = ord(bookFile.read(1))
-            datax = (datax <<7) + (data & 0x7F)
-        data = datax
-
-    if flag:
-        data = -data
-    return data
-
-#
-# Encode a number in 7 bit format
-#
-
-def encodeNumber(number):
-    result = ""
-    negative = False
-    flag = 0
-
-    if number < 0 :
-        number = -number + 1
-        negative = True
-
-    while True:
-        byte = number & 0x7F
-        number = number >> 7
-        byte += flag
-        result += chr(byte)
-        flag = 0x80
-        if number == 0 :
-            if (byte == 0xFF and negative == False) :
-                result += chr(0x80)
-            break
-
-    if negative:
-        result += chr(0xFF)
-
-    return result[::-1]
-
-#
-# Get a length prefixed string from the file
-#
-
-def bookReadString():
-    stringLength = bookReadEncodedNumber()
-    return unpack(str(stringLength)+"s",bookFile.read(stringLength))[0]
-
-#
-# Returns a length prefixed string
-#
-
-def lengthPrefixString(data):
-    return encodeNumber(len(data))+data
-
-
-#
-# Read and return the data of one header record at the current book file position [[offset,compressedLength,decompressedLength],...]
-#
-
-def bookReadHeaderRecordData():
-    nbValues = bookReadEncodedNumber()
-    values = []
-    for i in range (0,nbValues):
-        values.append([bookReadEncodedNumber(),bookReadEncodedNumber(),bookReadEncodedNumber()])
-    return values
-
-#
-# Read and parse one header record at the current book file position and return the associated data [[offset,compressedLength,decompressedLength],...]
-#
-
-def parseTopazHeaderRecord():
-    if ord(bookFile.read(1)) != 0x63:
-        raise CMBDTCFatal("Parse Error : Invalid Header")
-
-    tag = bookReadString()
-    record = bookReadHeaderRecordData()
-    return [tag,record]
-
-#
-# Parse the header of a Topaz file, get all the header records and the offset for the payload
-#
-
-def parseTopazHeader():
-    global bookHeaderRecords
-    global bookPayloadOffset
-    magic = unpack("4s",bookFile.read(4))[0]
-
-    if magic != 'TPZ0':
-        raise CMBDTCFatal("Parse Error : Invalid Header, not a Topaz file")
-
-    nbRecords = bookReadEncodedNumber()
-    bookHeaderRecords = {}
-
-    for i in range (0,nbRecords):
-        result = parseTopazHeaderRecord()
-        bookHeaderRecords[result[0]] = result[1]
-
-    if ord(bookFile.read(1))  != 0x64 :
-        raise CMBDTCFatal("Parse Error : Invalid Header")
-
-    bookPayloadOffset = bookFile.tell()
-
-#
-# Get a record in the book payload, given its name and index. If necessary the record is decrypted. The record is not decompressed
-#
-
-def getBookPayloadRecord(name, index):
-    encrypted = False
-
-    try:
-        recordOffset = bookHeaderRecords[name][index][0]
-    except:
-        raise CMBDTCFatal("Parse Error : Invalid Record, record not found")
-
-    bookFile.seek(bookPayloadOffset + recordOffset)
-
-    tag = bookReadString()
-    if tag != name :
-        raise CMBDTCFatal("Parse Error : Invalid Record, record name doesn't match")
-
-    recordIndex = bookReadEncodedNumber()
-
-    if recordIndex < 0 :
-        encrypted = True
-        recordIndex = -recordIndex -1
-
-    if recordIndex != index :
-        raise CMBDTCFatal("Parse Error : Invalid Record, index doesn't match")
-
-    if bookHeaderRecords[name][index][2] != 0 :
-        record = bookFile.read(bookHeaderRecords[name][index][2])
-    else:
-        record = bookFile.read(bookHeaderRecords[name][index][1])
-
-    if encrypted:
-        ctx = topazCryptoInit(bookKey)
-        record = topazCryptoDecrypt(record,ctx)
-
-    return record
-
-#
-# Extract, decrypt and decompress a book record indicated by name and index and print it or save it in "filename"
-#
-
-def extractBookPayloadRecord(name, index, filename):
-    compressed = False
-
-    try:
-        compressed = bookHeaderRecords[name][index][2] != 0
-        record = getBookPayloadRecord(name,index)
-    except:
-        print("Could not find record")
-
-    if compressed:
-        try:
-            record = zlib.decompress(record)
-        except:
-            raise CMBDTCFatal("Could not decompress record")
-
-    if filename != "":
-        try:
-            file = open(filename,"wb")
-            file.write(record)
-            file.close()
-        except:
-            raise CMBDTCFatal("Could not write to destination file")
-    else:
-        print(record)
-
-#
-# return next record [key,value] from the book metadata from the current book position
-#
-
-def readMetadataRecord():
-    return [bookReadString(),bookReadString()]
-
-#
-# Parse the metadata record from the book payload and return a list of [key,values]
-#
-
-def parseMetadata():
-    global bookHeaderRecords
-    global bookPayloadAddress
-    global bookMetadata
-    bookMetadata = {}
-    bookFile.seek(bookPayloadOffset + bookHeaderRecords["metadata"][0][0])
-    tag = bookReadString()
-    if tag != "metadata" :
-        raise CMBDTCFatal("Parse Error : Record Names Don't Match")
-
-    flags = ord(bookFile.read(1))
-    nbRecords = ord(bookFile.read(1))
-
-    for i in range (0,nbRecords) :
-        record =readMetadataRecord()
-        bookMetadata[record[0]] = record[1]
-
-#
-# Returns two bit at offset from a bit field
-#
-
-def getTwoBitsFromBitField(bitField,offset):
-    byteNumber = offset // 4
-    bitPosition = 6 - 2*(offset % 4)
-
-    return ord(bitField[byteNumber]) >> bitPosition & 3
-
-#
-# Returns the six bits at offset from a bit field
-#
-
-def getSixBitsFromBitField(bitField,offset):
-    offset *= 3
-    value = (getTwoBitsFromBitField(bitField,offset) <<4) + (getTwoBitsFromBitField(bitField,offset+1) << 2) +getTwoBitsFromBitField(bitField,offset+2)
-    return value
-
-#
-# 8 bits to six bits encoding from hash to generate PID string
-#
-
-def encodePID(hash):
-    global charMap3
-    PID = ""
-    for position in range (0,8):
-        PID += charMap3[getSixBitsFromBitField(hash,position)]
-    return PID
-
-#
-# Context initialisation for the Topaz Crypto
-#
-
-def topazCryptoInit(key):
-    ctx1 = 0x0CAFFE19E
-
-    for keyChar in key:
-        keyByte = ord(keyChar)
-        ctx2 = ctx1
-        ctx1 = ((((ctx1 >>2) * (ctx1 >>7))&0xFFFFFFFF) ^ (keyByte * keyByte * 0x0F902007)& 0xFFFFFFFF )
-    return [ctx1,ctx2]
-
-#
-# decrypt data with the context prepared by topazCryptoInit()
-#
-
-def topazCryptoDecrypt(data, ctx):
-    ctx1 = ctx[0]
-    ctx2 = ctx[1]
-
-    plainText = ""
-
-    for dataChar in data:
-        dataByte = ord(dataChar)
-        m = (dataByte ^ ((ctx1 >> 3) &0xFF) ^ ((ctx2<<3) & 0xFF)) &0xFF
-        ctx2 = ctx1
-        ctx1 = (((ctx1 >> 2) * (ctx1 >> 7)) &0xFFFFFFFF) ^((m * m * 0x0F902007) &0xFFFFFFFF)
-        plainText += chr(m)
-
-    return plainText
-
-#
-# Decrypt a payload record with the PID
-#
-
-def decryptRecord(data,PID):
-    ctx = topazCryptoInit(PID)
-    return topazCryptoDecrypt(data, ctx)
-
-#
-# Try to decrypt a dkey record (contains the book PID)
-#
-
-def decryptDkeyRecord(data,PID):
-    record = decryptRecord(data,PID)
-    fields = unpack("3sB8sB8s3s",record)
-
-    if fields[0] != "PID" or fields[5] != "pid" :
-        raise CMBDTCError("Didn't find PID magic numbers in record")
-    elif fields[1] != 8 or fields[3] != 8 :
-        raise CMBDTCError("Record didn't contain correct length fields")
-    elif fields[2] != PID :
-        raise CMBDTCError("Record didn't contain PID")
-
-    return fields[4]
-
-#
-# Decrypt all the book's dkey records (contain the book PID)
-#
-
-def decryptDkeyRecords(data,PID):
-    nbKeyRecords = ord(data[0])
-    records = []
-    data = data[1:]
-    for i in range (0,nbKeyRecords):
-        length = ord(data[0])
-        try:
-            key = decryptDkeyRecord(data[1:length+1],PID)
-            records.append(key)
-        except CMBDTCError:
-            pass
-        data = data[1+length:]
-
-    return records
-
-#
-# Encryption table used to generate the device PID
-#
-
-def generatePidEncryptionTable() :
-    table = []
-    for counter1 in range (0,0x100):
-        value = counter1
-        for counter2 in range (0,8):
-            if (value & 1 == 0) :
-                value = value >> 1
-            else :
-                value = value >> 1
-                value = value ^ 0xEDB88320
-        table.append(value)
-    return table
-
-#
-# Seed value used to generate the device PID
-#
-
-def generatePidSeed(table,dsn) :
-    value = 0
-    for counter in range (0,4) :
-        index = (ord(dsn[counter]) ^ value) &0xFF
-        value = (value >> 8) ^ table[index]
-    return value
-
-#
-# Generate the device PID
-#
-
-def generateDevicePID(table,dsn,nbRoll):
-    seed = generatePidSeed(table,dsn)
-    pidAscii = ""
-    pid = [(seed >>24) &0xFF,(seed >> 16) &0xff,(seed >> 8) &0xFF,(seed) & 0xFF,(seed>>24) & 0xFF,(seed >> 16) &0xff,(seed >> 8) &0xFF,(seed) & 0xFF]
-    index = 0
-
-    for counter in range (0,nbRoll):
-        pid[index] = pid[index] ^ ord(dsn[counter])
-        index = (index+1) %8
-
-    for counter in range (0,8):
-        index = ((((pid[counter] >>5) & 3) ^ pid[counter]) & 0x1f) + (pid[counter] >> 7)
-        pidAscii += charMap4[index]
-    return pidAscii
-
-#
-# Create decrypted book payload
-#
-
-def createDecryptedPayload(payload):
-
-    # store data to be able to create the header later
-    headerData= []
-    currentOffset = 0
-
-    # Add social DRM to decrypted files
-
-    try:
-        data = getKindleInfoValueForKey("kindle.name.info")+":"+ getKindleInfoValueForKey("login")
-        if payload!= None:
-            payload.write(lengthPrefixString("sdrm"))
-            payload.write(encodeNumber(0))
-            payload.write(data)
-        else:
-            currentOffset += len(lengthPrefixString("sdrm"))
-            currentOffset += len(encodeNumber(0))
-            currentOffset += len(data)
-    except:
-        pass
-
-    for headerRecord in bookHeaderRecords:
-        name = headerRecord
-        newRecord = []
-
-        if name != "dkey" :
-
-            for index in range (0,len(bookHeaderRecords[name])) :
-                offset = currentOffset
-
-                if payload != None:
-                    # write tag
-                    payload.write(lengthPrefixString(name))
-                    # write data
-                    payload.write(encodeNumber(index))
-                    payload.write(getBookPayloadRecord(name, index))
-
-                else :
-                    currentOffset += len(lengthPrefixString(name))
-                    currentOffset += len(encodeNumber(index))
-                    currentOffset += len(getBookPayloadRecord(name, index))
-                    newRecord.append([offset,bookHeaderRecords[name][index][1],bookHeaderRecords[name][index][2]])
-
-        headerData.append([name,newRecord])
-
-
-
-    return headerData
-
-#
-# Create decrypted book
-#
-
-def createDecryptedBook(outputFile):
-    outputFile = open(outputFile,"wb")
-    # Write the payload in a temporary file
-    headerData = createDecryptedPayload(None)
-    outputFile.write("TPZ0")
-    outputFile.write(encodeNumber(len(headerData)))
-
-    for header in headerData :
-        outputFile.write(chr(0x63))
-        outputFile.write(lengthPrefixString(header[0]))
-        outputFile.write(encodeNumber(len(header[1])))
-        for numbers in header[1] :
-            outputFile.write(encodeNumber(numbers[0]))
-            outputFile.write(encodeNumber(numbers[1]))
-            outputFile.write(encodeNumber(numbers[2]))
-
-    outputFile.write(chr(0x64))
-    createDecryptedPayload(outputFile)
-    outputFile.close()
-
-#
-# Set the command to execute by the programm according to cmdLine parameters
-#
-
-def setCommand(name) :
-    global command
-    if command != "" :
-        raise CMBDTCFatal("Invalid command line parameters")
-    else :
-        command = name
-
-#
-# Program usage
-#
-
-def usage():
-    print("\nUsage:")
-    print("\nCMBDTC.py [options] bookFileName\n")
-    print("-p Adds a PID to the list of PIDs that are tried to decrypt the book key (can be used several times)")
-    print("-d Saves a decrypted copy of the book")
-    print("-r Prints or writes to disk a record indicated in the form name:index (e.g \"img:0\")")
-    print("-o Output file name to write records and decrypted books")
-    print("-v Verbose (can be used several times)")
-    print("-i Prints kindle.info database")
-
-#
-# Main
-#
-
-def main(argv=sys.argv):
-    global kindleDatabase
-    global bookMetadata
-    global bookKey
-    global bookFile
-    global command
-
-    progname = os.path.basename(argv[0])
-
-    verbose = 0
-    recordName = ""
-    recordIndex = 0
-    outputFile = ""
-    PIDs = []
-    kindleDatabase = None
-    command = ""
-
-
-    try:
-        opts, args = getopt.getopt(sys.argv[1:], "vdir:o:p:")
-    except getopt.GetoptError, err:
-        # print help information and exit:
-        print str(err) # will print something like "option -a not recognized"
-        usage()
-        sys.exit(2)
-
-    if len(opts) == 0 and len(args) == 0 :
-        usage()
-        sys.exit(2)
-
-    for o, a in opts:
-        if o == "-v":
-            verbose+=1
-        if o == "-i":
-            setCommand("printInfo")
-        if o =="-o":
-            if a == None :
-                raise CMBDTCFatal("Invalid parameter for -o")
-            outputFile = a
-        if o =="-r":
-            setCommand("printRecord")
-            try:
-                recordName,recordIndex = a.split(':')
-            except:
-                raise CMBDTCFatal("Invalid parameter for -r")
-        if o =="-p":
-            PIDs.append(a)
-        if o =="-d":
-            setCommand("doit")
-
-    if command == "" :
-        raise CMBDTCFatal("No action supplied on command line")
-
-    #
-    # Read the encrypted database
-    #
-
-    try:
-        kindleDatabase = parseKindleInfo()
-    except Exception, message:
-        if verbose>0:
-            print(message)
-
-    if kindleDatabase != None :
-        if command == "printInfo" :
-            printKindleInfo()
-
-    #
-    # Compute the DSN
-    #
-
-    # Get the Mazama Random number
-        MazamaRandomNumber = getKindleInfoValueForKey("MazamaRandomNumber")
-
-    # Get the HDD serial
-        encodedSystemVolumeSerialNumber = encodeHash(str(GetVolumeSerialNumber(GetSystemDirectory().split('\\')[0] + '\\')),charMap1)
-
-    # Get the current user name
-        encodedUsername = encodeHash(GetUserName(),charMap1)
-
-    # concat, hash and encode
-        DSN = encode(SHA1(MazamaRandomNumber+encodedSystemVolumeSerialNumber+encodedUsername),charMap1)
-
-        if verbose >1:
-            print("DSN: " + DSN)
-
-    #
-    # Compute the device PID
-    #
-
-        table =  generatePidEncryptionTable()
-        devicePID = generateDevicePID(table,DSN,4)
-        PIDs.append(devicePID)
-
-        if verbose > 0:
-            print("Device PID: " + devicePID)
-
-    #
-    # Open book and parse metadata
-    #
-
-    if len(args) == 1:
-
-        bookFile = openBook(args[0])
-        parseTopazHeader()
-        parseMetadata()
-
-    #
-    # Compute book PID
-    #
-
-    # Get the account token
-
-        if kindleDatabase != None:
-            kindleAccountToken = getKindleInfoValueForKey("kindle.account.tokens")
-
-            if verbose >1:
-                print("Account Token: " + kindleAccountToken)
-
-            keysRecord = bookMetadata["keys"]
-            keysRecordRecord = bookMetadata[keysRecord]
-
-            pidHash = SHA1(DSN+kindleAccountToken+keysRecord+keysRecordRecord)
-
-            bookPID = encodePID(pidHash)
-            PIDs.append(bookPID)
-
-            if verbose > 0:
-                print ("Book PID: " + bookPID )
-
-    #
-    #  Decrypt book key
-    #
-
-        dkey = getBookPayloadRecord('dkey', 0)
-
-        bookKeys = []
-        for PID in PIDs :
-            bookKeys+=decryptDkeyRecords(dkey,PID)
-
-        if len(bookKeys) == 0 :
-            if verbose > 0 :
-                print ("Book key could not be found. Maybe this book is not registered with this device.")
-        else :
-            bookKey = bookKeys[0]
-            if verbose > 0:
-                print("Book key: " + bookKey.encode('hex'))
-
-
-
-            if command == "printRecord" :
-                extractBookPayloadRecord(recordName,int(recordIndex),outputFile)
-                if outputFile != "" and verbose>0 :
-                    print("Wrote record to file: "+outputFile)
-            elif command == "doit" :
-                if outputFile!="" :
-                    createDecryptedBook(outputFile)
-                    if verbose >0 :
-                        print ("Decrypted book saved. Don't pirate!")
-                elif verbose > 0:
-                    print("Output file name was not supplied.")
-
-    return 0
-
-if __name__ == '__main__':
-    sys.exit(main())
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/config.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/config.py
@@ -1,59 +0,0 @@
-from PyQt4.Qt import QWidget, QVBoxLayout, QLabel, QLineEdit
-
-from calibre.utils.config import JSONConfig
-
-# This is where all preferences for this plugin will be stored
-# You should always prefix your config file name with plugins/,
-# so as to ensure you dont accidentally clobber a calibre config file
-prefs = JSONConfig('plugins/K4MobiDeDRM')
-
-# Set defaults
-prefs.defaults['pids'] = ""
-prefs.defaults['serials'] = ""
-prefs.defaults['WINEPREFIX'] = None
-
-
-class ConfigWidget(QWidget):
-
-    def __init__(self):
-        QWidget.__init__(self)
-        self.l = QVBoxLayout()
-        self.setLayout(self.l)
-
-        self.serialLabel = QLabel('Kindle Serial numbers (separate with commas, no spaces)')
-        self.l.addWidget(self.serialLabel)
-
-        self.serials = QLineEdit(self)
-        self.serials.setText(prefs['serials'])
-        self.l.addWidget(self.serials)
-        self.serialLabel.setBuddy(self.serials)
-
-        self.pidLabel = QLabel('Mobipocket PIDs (separate with commas, no spaces)')
-        self.l.addWidget(self.pidLabel)
-
-        self.pids = QLineEdit(self)
-        self.pids.setText(prefs['pids'])
-        self.l.addWidget(self.pids)
-        self.pidLabel.setBuddy(self.serials)
-
-        self.wpLabel = QLabel('For Linux only: WINEPREFIX (enter absolute path)')
-        self.l.addWidget(self.wpLabel)
-
-        self.wineprefix = QLineEdit(self)
-        wineprefix = prefs['WINEPREFIX']
-        if wineprefix is not None:
-            self.wineprefix.setText(wineprefix)
-        else:
-            self.wineprefix.setText('')
-
-        self.l.addWidget(self.wineprefix)
-        self.wpLabel.setBuddy(self.wineprefix)
-
-    def save_settings(self):
-        prefs['pids'] = str(self.pids.text())
-        prefs['serials'] = str(self.serials.text())
-        winepref=str(self.wineprefix.text())
-        if winepref.strip() != '':
-            prefs['WINEPREFIX'] = winepref
-        else:
-            prefs['WINEPREFIX'] = None
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/convert2xml.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/convert2xml.py
@@ -1,846 +0,0 @@
-#! /usr/bin/python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-# For use with Topaz Scripts Version 2.6
-
-class Unbuffered:
-    def __init__(self, stream):
-        self.stream = stream
-    def write(self, data):
-        self.stream.write(data)
-        self.stream.flush()
-    def __getattr__(self, attr):
-        return getattr(self.stream, attr)
-
-import sys
-sys.stdout=Unbuffered(sys.stdout)
-
-import csv
-import os
-import getopt
-from struct import pack
-from struct import unpack
-
-class TpzDRMError(Exception):
-    pass
-
-# Get a 7 bit encoded number from string. The most
-# significant byte comes first and has the high bit (8th) set
-
-def readEncodedNumber(file):
-    flag = False
-    c = file.read(1)
-    if (len(c) == 0):
-        return None
-    data = ord(c)
-
-    if data == 0xFF:
-        flag = True
-        c = file.read(1)
-        if (len(c) == 0):
-            return None
-        data = ord(c)
-
-    if data >= 0x80:
-        datax = (data & 0x7F)
-        while data >= 0x80 :
-            c = file.read(1)
-            if (len(c) == 0):
-                return None
-            data = ord(c)
-            datax = (datax <<7) + (data & 0x7F)
-        data = datax
-
-    if flag:
-        data = -data
-    return data
-
-
-# returns a binary string that encodes a number into 7 bits
-# most significant byte first which has the high bit set
-
-def encodeNumber(number):
-    result = ""
-    negative = False
-    flag = 0
-
-    if number < 0 :
-        number = -number + 1
-        negative = True
-
-    while True:
-        byte = number & 0x7F
-        number = number >> 7
-        byte += flag
-        result += chr(byte)
-        flag = 0x80
-        if number == 0 :
-            if (byte == 0xFF and negative == False) :
-                result += chr(0x80)
-            break
-
-    if negative:
-        result += chr(0xFF)
-
-    return result[::-1]
-
-
-
-# create / read  a length prefixed string from the file
-
-def lengthPrefixString(data):
-    return encodeNumber(len(data))+data
-
-def readString(file):
-    stringLength = readEncodedNumber(file)
-    if (stringLength == None):
-        return ""
-    sv = file.read(stringLength)
-    if (len(sv)  != stringLength):
-        return ""
-    return unpack(str(stringLength)+"s",sv)[0]
-
-
-# convert a binary string generated by encodeNumber (7 bit encoded number)
-# to the value you would find inside the page*.dat files to be processed
-
-def convert(i):
-    result = ''
-    val = encodeNumber(i)
-    for j in xrange(len(val)):
-        c = ord(val[j:j+1])
-        result += '%02x' % c
-    return result
-
-
-
-# the complete string table used to store all book text content
-# as well as the xml tokens and values that make sense out of it
-
-class Dictionary(object):
-    def __init__(self, dictFile):
-        self.filename = dictFile
-        self.size = 0
-        self.fo = file(dictFile,'rb')
-        self.stable = []
-        self.size = readEncodedNumber(self.fo)
-        for i in xrange(self.size):
-            self.stable.append(self.escapestr(readString(self.fo)))
-        self.pos = 0
-
-    def escapestr(self, str):
-        str = str.replace('&','&amp;')
-        str = str.replace('<','&lt;')
-        str = str.replace('>','&gt;')
-        str = str.replace('=','&#61;')
-        return str
-
-    def lookup(self,val):
-        if ((val >= 0) and (val < self.size)) :
-            self.pos = val
-            return self.stable[self.pos]
-        else:
-            print "Error - %d outside of string table limits" % val
-            raise TpzDRMError('outside of string table limits')
-            # sys.exit(-1)
-
-    def getSize(self):
-        return self.size
-
-    def getPos(self):
-        return self.pos
-
-    def dumpDict(self):
-        for i in xrange(self.size):
-            print "%d %s %s" % (i, convert(i), self.stable[i])
-        return
-
-# parses the xml snippets that are represented by each page*.dat file.
-# also parses the other0.dat file - the main stylesheet
-# and information used to inject the xml snippets into page*.dat files
-
-class PageParser(object):
-    def __init__(self, filename, dict, debug, flat_xml):
-        self.fo = file(filename,'rb')
-        self.id = os.path.basename(filename).replace('.dat','')
-        self.dict = dict
-        self.debug = debug
-        self.flat_xml = flat_xml
-        self.tagpath = []
-        self.doc = []
-        self.snippetList = []
-
-
-    # hash table used to enable the decoding process
-    # This has all been developed by trial and error so it may still have omissions or
-    # contain errors
-    # Format:
-    # tag : (number of arguments, argument type, subtags present, special case of subtags presents when escaped)
-
-    token_tags = {
-        'x'            : (1, 'scalar_number', 0, 0),
-        'y'            : (1, 'scalar_number', 0, 0),
-        'h'            : (1, 'scalar_number', 0, 0),
-        'w'            : (1, 'scalar_number', 0, 0),
-        'firstWord'    : (1, 'scalar_number', 0, 0),
-        'lastWord'     : (1, 'scalar_number', 0, 0),
-        'rootID'       : (1, 'scalar_number', 0, 0),
-        'stemID'       : (1, 'scalar_number', 0, 0),
-        'type'         : (1, 'scalar_text', 0, 0),
-
-        'info'            : (0, 'number', 1, 0),
-
-        'info.word'            : (0, 'number', 1, 1),
-        'info.word.ocrText'    : (1, 'text', 0, 0),
-        'info.word.firstGlyph' : (1, 'raw', 0, 0),
-        'info.word.lastGlyph'  : (1, 'raw', 0, 0),
-        'info.word.bl'         : (1, 'raw', 0, 0),
-        'info.word.link_id'    : (1, 'number', 0, 0),
-
-        'glyph'           : (0, 'number', 1, 1),
-        'glyph.x'         : (1, 'number', 0, 0),
-        'glyph.y'         : (1, 'number', 0, 0),
-        'glyph.glyphID'   : (1, 'number', 0, 0),
-
-        'dehyphen'          : (0, 'number', 1, 1),
-        'dehyphen.rootID'   : (1, 'number', 0, 0),
-        'dehyphen.stemID'   : (1, 'number', 0, 0),
-        'dehyphen.stemPage' : (1, 'number', 0, 0),
-        'dehyphen.sh'       : (1, 'number', 0, 0),
-
-        'links'        : (0, 'number', 1, 1),
-        'links.page'   : (1, 'number', 0, 0),
-        'links.rel'    : (1, 'number', 0, 0),
-        'links.row'    : (1, 'number', 0, 0),
-        'links.title'  : (1, 'text', 0, 0),
-        'links.href'   : (1, 'text', 0, 0),
-        'links.type'   : (1, 'text', 0, 0),
-        'links.id'     : (1, 'number', 0, 0),
-
-        'paraCont'          : (0, 'number', 1, 1),
-        'paraCont.rootID'   : (1, 'number', 0, 0),
-        'paraCont.stemID'   : (1, 'number', 0, 0),
-        'paraCont.stemPage' : (1, 'number', 0, 0),
-
-        'paraStems'        : (0, 'number', 1, 1),
-        'paraStems.stemID' : (1, 'number', 0, 0),
-
-        'wordStems'          : (0, 'number', 1, 1),
-        'wordStems.stemID'   : (1, 'number', 0, 0),
-
-        'empty'          : (1, 'snippets', 1, 0),
-
-        'page'           : (1, 'snippets', 1, 0),
-        'page.pageid'    : (1, 'scalar_text', 0, 0),
-        'page.pagelabel' : (1, 'scalar_text', 0, 0),
-        'page.type'      : (1, 'scalar_text', 0, 0),
-        'page.h'         : (1, 'scalar_number', 0, 0),
-        'page.w'         : (1, 'scalar_number', 0, 0),
-        'page.startID' : (1, 'scalar_number', 0, 0),
-
-        'group'           : (1, 'snippets', 1, 0),
-        'group.type'      : (1, 'scalar_text', 0, 0),
-        'group._tag'      : (1, 'scalar_text', 0, 0),
-        'group.orientation': (1, 'scalar_text', 0, 0),
-
-        'region'           : (1, 'snippets', 1, 0),
-        'region.type'      : (1, 'scalar_text', 0, 0),
-        'region.x'         : (1, 'scalar_number', 0, 0),
-        'region.y'         : (1, 'scalar_number', 0, 0),
-        'region.h'         : (1, 'scalar_number', 0, 0),
-        'region.w'         : (1, 'scalar_number', 0, 0),
-        'region.orientation' : (1, 'scalar_text', 0, 0),
-
-        'empty_text_region' : (1, 'snippets', 1, 0),
-
-        'img'           : (1, 'snippets', 1, 0),
-        'img.x'         : (1, 'scalar_number', 0, 0),
-        'img.y'         : (1, 'scalar_number', 0, 0),
-        'img.h'         : (1, 'scalar_number', 0, 0),
-        'img.w'         : (1, 'scalar_number', 0, 0),
-        'img.src'       : (1, 'scalar_number', 0, 0),
-        'img.color_src' : (1, 'scalar_number', 0, 0),
-
-        'paragraph'           : (1, 'snippets', 1, 0),
-        'paragraph.class'     : (1, 'scalar_text', 0, 0),
-        'paragraph.firstWord' : (1, 'scalar_number', 0, 0),
-        'paragraph.lastWord'  : (1, 'scalar_number', 0, 0),
-        'paragraph.lastWord'  : (1, 'scalar_number', 0, 0),
-        'paragraph.gridSize'  : (1, 'scalar_number', 0, 0),
-        'paragraph.gridBottomCenter'  : (1, 'scalar_number', 0, 0),
-        'paragraph.gridTopCenter' : (1, 'scalar_number', 0, 0),
-        'paragraph.gridBeginCenter' : (1, 'scalar_number', 0, 0),
-        'paragraph.gridEndCenter' : (1, 'scalar_number', 0, 0),
-
-
-        'word_semantic'           : (1, 'snippets', 1, 1),
-        'word_semantic.type'      : (1, 'scalar_text', 0, 0),
-        'word_semantic.firstWord' : (1, 'scalar_number', 0, 0),
-        'word_semantic.lastWord'  : (1, 'scalar_number', 0, 0),
-
-        'word'            : (1, 'snippets', 1, 0),
-        'word.type'       : (1, 'scalar_text', 0, 0),
-        'word.class'      : (1, 'scalar_text', 0, 0),
-        'word.firstGlyph' : (1, 'scalar_number', 0, 0),
-        'word.lastGlyph'  : (1, 'scalar_number', 0, 0),
-
-        '_span'           : (1, 'snippets', 1, 0),
-        '_span.firstWord' : (1, 'scalar_number', 0, 0),
-        '_span.lastWord'  : (1, 'scalar_number', 0, 0),
-        '_span.gridSize'  : (1, 'scalar_number', 0, 0),
-        '_span.gridBottomCenter'  : (1, 'scalar_number', 0, 0),
-        '_span.gridTopCenter' : (1, 'scalar_number', 0, 0),
-        '_span.gridBeginCenter' : (1, 'scalar_number', 0, 0),
-        '_span.gridEndCenter' : (1, 'scalar_number', 0, 0),
-
-        'span'           : (1, 'snippets', 1, 0),
-        'span.firstWord' : (1, 'scalar_number', 0, 0),
-        'span.lastWord'  : (1, 'scalar_number', 0, 0),
-        'span.gridSize'  : (1, 'scalar_number', 0, 0),
-        'span.gridBottomCenter'  : (1, 'scalar_number', 0, 0),
-        'span.gridTopCenter' : (1, 'scalar_number', 0, 0),
-        'span.gridBeginCenter' : (1, 'scalar_number', 0, 0),
-        'span.gridEndCenter' : (1, 'scalar_number', 0, 0),
-
-        'extratokens'            : (1, 'snippets', 1, 0),
-        'extratokens.type'       : (1, 'scalar_text', 0, 0),
-        'extratokens.firstGlyph' : (1, 'scalar_number', 0, 0),
-        'extratokens.lastGlyph'  : (1, 'scalar_number', 0, 0),
-
-        'glyph.h'      : (1, 'number', 0, 0),
-        'glyph.w'      : (1, 'number', 0, 0),
-        'glyph.use'    : (1, 'number', 0, 0),
-        'glyph.vtx'    : (1, 'number', 0, 1),
-        'glyph.len'    : (1, 'number', 0, 1),
-        'glyph.dpi'    : (1, 'number', 0, 0),
-        'vtx'          : (0, 'number', 1, 1),
-        'vtx.x'        : (1, 'number', 0, 0),
-        'vtx.y'        : (1, 'number', 0, 0),
-        'len'          : (0, 'number', 1, 1),
-        'len.n'        : (1, 'number', 0, 0),
-
-        'book'         : (1, 'snippets', 1, 0),
-        'version'      : (1, 'snippets', 1, 0),
-        'version.FlowEdit_1_id'            : (1, 'scalar_text', 0, 0),
-        'version.FlowEdit_1_version'       : (1, 'scalar_text', 0, 0),
-        'version.Schema_id'                : (1, 'scalar_text', 0, 0),
-        'version.Schema_version'           : (1, 'scalar_text', 0, 0),
-        'version.Topaz_version'            : (1, 'scalar_text', 0, 0),
-        'version.WordDetailEdit_1_id'      : (1, 'scalar_text', 0, 0),
-        'version.WordDetailEdit_1_version' : (1, 'scalar_text', 0, 0),
-        'version.ZoneEdit_1_id'            : (1, 'scalar_text', 0, 0),
-        'version.ZoneEdit_1_version'       : (1, 'scalar_text', 0, 0),
-        'version.chapterheaders'           : (1, 'scalar_text', 0, 0),
-        'version.creation_date'            : (1, 'scalar_text', 0, 0),
-        'version.header_footer'            : (1, 'scalar_text', 0, 0),
-        'version.init_from_ocr'            : (1, 'scalar_text', 0, 0),
-        'version.letter_insertion'         : (1, 'scalar_text', 0, 0),
-        'version.xmlinj_convert'           : (1, 'scalar_text', 0, 0),
-        'version.xmlinj_reflow'            : (1, 'scalar_text', 0, 0),
-        'version.xmlinj_transform'         : (1, 'scalar_text', 0, 0),
-        'version.findlists'                : (1, 'scalar_text', 0, 0),
-        'version.page_num'                 : (1, 'scalar_text', 0, 0),
-        'version.page_type'                : (1, 'scalar_text', 0, 0),
-        'version.bad_text'                 : (1, 'scalar_text', 0, 0),
-        'version.glyph_mismatch'           : (1, 'scalar_text', 0, 0),
-        'version.margins'                  : (1, 'scalar_text', 0, 0),
-        'version.staggered_lines'          : (1, 'scalar_text', 0, 0),
-        'version.paragraph_continuation'   : (1, 'scalar_text', 0, 0),
-        'version.toc'                      : (1, 'scalar_text', 0, 0),
-
-        'stylesheet'   : (1, 'snippets', 1, 0),
-        'style'              : (1, 'snippets', 1, 0),
-        'style._tag'         : (1, 'scalar_text', 0, 0),
-        'style.type'         : (1, 'scalar_text', 0, 0),
-        'style._parent_type' : (1, 'scalar_text', 0, 0),
-        'style.class'        : (1, 'scalar_text', 0, 0),
-        'style._after_class' : (1, 'scalar_text', 0, 0),
-        'rule'               : (1, 'snippets', 1, 0),
-        'rule.attr'          : (1, 'scalar_text', 0, 0),
-        'rule.value'         : (1, 'scalar_text', 0, 0),
-
-        'original'      : (0, 'number', 1, 1),
-        'original.pnum' : (1, 'number', 0, 0),
-        'original.pid'  : (1, 'text', 0, 0),
-        'pages'        : (0, 'number', 1, 1),
-        'pages.ref'    : (1, 'number', 0, 0),
-        'pages.id'     : (1, 'number', 0, 0),
-        'startID'      : (0, 'number', 1, 1),
-        'startID.page' : (1, 'number', 0, 0),
-        'startID.id'   : (1, 'number', 0, 0),
-
-     }
-
-
-    # full tag path record keeping routines
-    def tag_push(self, token):
-        self.tagpath.append(token)
-    def tag_pop(self):
-        if len(self.tagpath) > 0 :
-            self.tagpath.pop()
-    def tagpath_len(self):
-        return len(self.tagpath)
-    def get_tagpath(self, i):
-        cnt = len(self.tagpath)
-        if i < cnt : result = self.tagpath[i]
-        for j in xrange(i+1, cnt) :
-            result += '.' + self.tagpath[j]
-        return result
-
-
-    # list of absolute command byte values values that indicate
-    # various types of loop meachanisms typically used to generate vectors
-
-    cmd_list = (0x76, 0x76)
-
-    # peek at and return 1 byte that is ahead by i bytes
-    def peek(self, aheadi):
-        c = self.fo.read(aheadi)
-        if (len(c) == 0):
-            return None
-        self.fo.seek(-aheadi,1)
-        c = c[-1:]
-        return ord(c)
-
-
-    # get the next value from the file being processed
-    def getNext(self):
-        nbyte = self.peek(1);
-        if (nbyte == None):
-            return None
-        val = readEncodedNumber(self.fo)
-        return val
-
-
-    # format an arg by argtype
-    def formatArg(self, arg, argtype):
-        if (argtype == 'text') or (argtype == 'scalar_text') :
-            result = self.dict.lookup(arg)
-        elif (argtype == 'raw') or (argtype == 'number') or (argtype == 'scalar_number') :
-            result = arg
-        elif (argtype == 'snippets') :
-            result = arg
-        else :
-            print "Error Unknown argtype %s" % argtype
-            sys.exit(-2)
-        return result
-
-
-    # process the next tag token, recursively handling subtags,
-    # arguments, and commands
-    def procToken(self, token):
-
-        known_token = False
-        self.tag_push(token)
-
-        if self.debug : print 'Processing: ', self.get_tagpath(0)
-        cnt = self.tagpath_len()
-        for j in xrange(cnt):
-            tkn = self.get_tagpath(j)
-            if tkn in self.token_tags :
-                num_args = self.token_tags[tkn][0]
-                argtype = self.token_tags[tkn][1]
-                subtags = self.token_tags[tkn][2]
-                splcase = self.token_tags[tkn][3]
-                ntags = -1
-                known_token = True
-                break
-
-        if known_token :
-
-            # handle subtags if present
-            subtagres = []
-            if (splcase == 1):
-                # this type of tag uses of escape marker 0x74 indicate subtag count
-                if self.peek(1) == 0x74:
-                    skip = readEncodedNumber(self.fo)
-                    subtags = 1
-                    num_args = 0
-
-            if (subtags == 1):
-                ntags = readEncodedNumber(self.fo)
-                if self.debug : print 'subtags: ' + token + ' has ' + str(ntags)
-                for j in xrange(ntags):
-                    val = readEncodedNumber(self.fo)
-                    subtagres.append(self.procToken(self.dict.lookup(val)))
-
-            # arguments can be scalars or vectors of text or numbers
-            argres = []
-            if num_args > 0 :
-                firstarg = self.peek(1)
-                if (firstarg in self.cmd_list) and (argtype != 'scalar_number') and (argtype != 'scalar_text'):
-                    # single argument is a variable length vector of data
-                    arg = readEncodedNumber(self.fo)
-                    argres = self.decodeCMD(arg,argtype)
-                else :
-                    # num_arg scalar arguments
-                    for i in xrange(num_args):
-                        argres.append(self.formatArg(readEncodedNumber(self.fo), argtype))
-
-            # build the return tag
-            result = []
-            tkn = self.get_tagpath(0)
-            result.append(tkn)
-            result.append(subtagres)
-            result.append(argtype)
-            result.append(argres)
-            self.tag_pop()
-            return result
-
-        # all tokens that need to be processed should be in the hash
-        # table if it may indicate a problem, either new token
-        # or an out of sync condition
-        else:
-            result = []
-            if (self.debug):
-                print 'Unknown Token:', token
-            self.tag_pop()
-            return result
-
-
-    # special loop used to process code snippets
-    # it is NEVER used to format arguments.
-    # builds the snippetList
-    def doLoop72(self, argtype):
-        cnt = readEncodedNumber(self.fo)
-        if self.debug :
-            result = 'Set of '+ str(cnt) + ' xml snippets. The overall structure \n'
-            result += 'of the document is indicated by snippet number sets at the\n'
-            result += 'end of each snippet. \n'
-            print result
-        for i in xrange(cnt):
-            if self.debug: print 'Snippet:',str(i)
-            snippet = []
-            snippet.append(i)
-            val = readEncodedNumber(self.fo)
-            snippet.append(self.procToken(self.dict.lookup(val)))
-            self.snippetList.append(snippet)
-        return
-
-
-
-    # general loop code gracisouly submitted by "skindle" - thank you!
-    def doLoop76Mode(self, argtype, cnt, mode):
-        result = []
-        adj = 0
-        if mode & 1:
-            adj = readEncodedNumber(self.fo)
-        mode = mode >> 1
-        x = []
-        for i in xrange(cnt):
-            x.append(readEncodedNumber(self.fo) - adj)
-        for i in xrange(mode):
-            for j in xrange(1, cnt):
-                x[j] = x[j] + x[j - 1]
-        for i in xrange(cnt):
-            result.append(self.formatArg(x[i],argtype))
-        return result
-
-
-    # dispatches loop commands bytes with various modes
-    # The 0x76 style loops are used to build vectors
-
-    # This was all derived by trial and error and
-    # new loop types may exist that are not handled here
-    # since they did not appear in the test cases
-
-    def decodeCMD(self, cmd, argtype):
-        if (cmd == 0x76):
-
-            # loop with cnt, and mode to control loop styles
-            cnt = readEncodedNumber(self.fo)
-            mode = readEncodedNumber(self.fo)
-
-            if self.debug : print 'Loop for', cnt, 'with  mode', mode,  ':  '
-            return self.doLoop76Mode(argtype, cnt, mode)
-
-        if self.dbug: print  "Unknown command", cmd
-        result = []
-        return result
-
-
-
-    # add full tag path to injected snippets
-    def updateName(self, tag, prefix):
-        name = tag[0]
-        subtagList = tag[1]
-        argtype = tag[2]
-        argList = tag[3]
-        nname = prefix + '.' + name
-        nsubtaglist = []
-        for j in subtagList:
-            nsubtaglist.append(self.updateName(j,prefix))
-        ntag = []
-        ntag.append(nname)
-        ntag.append(nsubtaglist)
-        ntag.append(argtype)
-        ntag.append(argList)
-        return ntag
-
-
-
-    # perform depth first injection of specified snippets into this one
-    def injectSnippets(self, snippet):
-        snipno, tag = snippet
-        name = tag[0]
-        subtagList = tag[1]
-        argtype = tag[2]
-        argList = tag[3]
-        nsubtagList = []
-        if len(argList) > 0 :
-            for j in argList:
-                asnip = self.snippetList[j]
-                aso, atag = self.injectSnippets(asnip)
-                atag = self.updateName(atag, name)
-                nsubtagList.append(atag)
-        argtype='number'
-        argList=[]
-        if len(nsubtagList) > 0 :
-            subtagList.extend(nsubtagList)
-        tag = []
-        tag.append(name)
-        tag.append(subtagList)
-        tag.append(argtype)
-        tag.append(argList)
-        snippet = []
-        snippet.append(snipno)
-        snippet.append(tag)
-        return snippet
-
-
-
-    # format the tag for output
-    def formatTag(self, node):
-        name = node[0]
-        subtagList = node[1]
-        argtype = node[2]
-        argList = node[3]
-        fullpathname = name.split('.')
-        nodename = fullpathname.pop()
-        ilvl = len(fullpathname)
-        indent = ' ' * (3 * ilvl)
-        rlst = []
-        rlst.append(indent + '<' + nodename + '>')
-        if len(argList) > 0:
-            alst = []
-            for j in argList:
-                if (argtype == 'text') or (argtype == 'scalar_text') :
-                    alst.append(j + '|')
-                else :
-                    alst.append(str(j) + ',')
-            argres = "".join(alst)
-            argres = argres[0:-1]
-            if argtype == 'snippets' :
-                rlst.append('snippets:' + argres)
-            else :
-                rlst.append(argres)
-        if len(subtagList) > 0 :
-            rlst.append('\n')
-            for j in subtagList:
-                if len(j) > 0 :
-                    rlst.append(self.formatTag(j))
-            rlst.append(indent + '</' + nodename + '>\n')
-        else:
-            rlst.append('</' + nodename + '>\n')
-        return "".join(rlst)
-
-
-    # flatten tag
-    def flattenTag(self, node):
-        name = node[0]
-        subtagList = node[1]
-        argtype = node[2]
-        argList = node[3]
-        rlst = []
-        rlst.append(name)
-        if (len(argList) > 0):
-            alst = []
-            for j in argList:
-                if (argtype == 'text') or (argtype == 'scalar_text') :
-                    alst.append(j + '|')
-                else :
-                    alst.append(str(j) + '|')
-            argres = "".join(alst)
-            argres = argres[0:-1]
-            if argtype == 'snippets' :
-                rlst.append('.snippets=' + argres)
-            else :
-                rlst.append('=' + argres)
-        rlst.append('\n')
-        for j in subtagList:
-            if len(j) > 0 :
-                rlst.append(self.flattenTag(j))
-        return "".join(rlst)
-
-
-    # reduce create xml output
-    def formatDoc(self, flat_xml):
-        rlst = []
-        for j in self.doc :
-            if len(j) > 0:
-                if flat_xml:
-                    rlst.append(self.flattenTag(j))
-                else:
-                    rlst.append(self.formatTag(j))
-        result = "".join(rlst)
-        if self.debug : print result
-        return result
-
-
-
-    # main loop - parse the page.dat files
-    # to create structured document and snippets
-
-    # FIXME: value at end of magic appears to be a subtags count
-    # but for what?  For now, inject an 'info" tag as it is in
-    # every dictionary and seems close to what is meant
-    # The alternative is to special case the last _ "0x5f" to mean something
-
-    def process(self):
-
-        # peek at the first bytes to see what type of file it is
-        magic = self.fo.read(9)
-        if (magic[0:1] == 'p') and (magic[2:9] == 'marker_'):
-            first_token = 'info'
-        elif (magic[0:1] == 'p') and (magic[2:9] == '__PAGE_'):
-            skip = self.fo.read(2)
-            first_token = 'info'
-        elif (magic[0:1] == 'p') and (magic[2:8] == '_PAGE_'):
-            first_token = 'info'
-        elif (magic[0:1] == 'g') and (magic[2:9] == '__GLYPH'):
-            skip = self.fo.read(3)
-            first_token = 'info'
-        else :
-            # other0.dat file
-            first_token = None
-            self.fo.seek(-9,1)
-
-
-        # main loop to read and build the document tree
-        while True:
-
-            if first_token != None :
-                # use "inserted" first token 'info' for page and glyph files
-                tag = self.procToken(first_token)
-                if len(tag) > 0 :
-                    self.doc.append(tag)
-                first_token = None
-
-            v = self.getNext()
-            if (v == None):
-                break
-
-            if (v == 0x72):
-                self.doLoop72('number')
-            elif (v > 0) and (v < self.dict.getSize()) :
-                tag = self.procToken(self.dict.lookup(v))
-                if len(tag) > 0 :
-                    self.doc.append(tag)
-            else:
-                if self.debug:
-                    print "Main Loop:  Unknown value: %x" % v
-                if (v == 0):
-                    if (self.peek(1) == 0x5f):
-                        skip = self.fo.read(1)
-                        first_token = 'info'
-
-        # now do snippet injection
-        if len(self.snippetList) > 0 :
-            if self.debug : print 'Injecting Snippets:'
-            snippet = self.injectSnippets(self.snippetList[0])
-            snipno = snippet[0]
-            tag_add = snippet[1]
-            if self.debug : print self.formatTag(tag_add)
-            if len(tag_add) > 0:
-                self.doc.append(tag_add)
-
-        # handle generation of xml output
-        xmlpage = self.formatDoc(self.flat_xml)
-
-        return xmlpage
-
-
-def fromData(dict, fname):
-    flat_xml = True
-    debug = False
-    pp = PageParser(fname, dict, debug, flat_xml)
-    xmlpage = pp.process()
-    return xmlpage
-
-def getXML(dict, fname):
-    flat_xml = False
-    debug = False
-    pp = PageParser(fname, dict, debug, flat_xml)
-    xmlpage = pp.process()
-    return xmlpage
-
-def usage():
-    print 'Usage: '
-    print '    convert2xml.py dict0000.dat infile.dat '
-    print ' '
-    print ' Options:'
-    print '   -h            print this usage help message '
-    print '   -d            turn on debug output to check for potential errors '
-    print '   --flat-xml    output the flattened xml page description only '
-    print ' '
-    print '     This program will attempt to convert a page*.dat file or '
-    print ' glyphs*.dat file, using the dict0000.dat file, to its xml description. '
-    print ' '
-    print ' Use "cmbtc_dump.py" first to unencrypt, uncompress, and dump '
-    print ' the *.dat files from a Topaz format e-book.'
-
-#
-# Main
-#
-
-def main(argv):
-    dictFile = ""
-    pageFile = ""
-    debug = False
-    flat_xml = False
-    printOutput = False
-    if len(argv) == 0:
-        printOutput = True
-        argv = sys.argv
-
-    try:
-        opts, args = getopt.getopt(argv[1:], "hd", ["flat-xml"])
-
-    except getopt.GetoptError, err:
-
-        # print help information and exit:
-        print str(err) # will print something like "option -a not recognized"
-        usage()
-        sys.exit(2)
-
-    if len(opts) == 0 and len(args) == 0 :
-        usage()
-        sys.exit(2)
-
-    for o, a in opts:
-        if o =="-d":
-            debug=True
-        if o =="-h":
-            usage()
-            sys.exit(0)
-        if o =="--flat-xml":
-            flat_xml = True
-
-    dictFile, pageFile = args[0], args[1]
-
-    # read in the string table dictionary
-    dict = Dictionary(dictFile)
-    # dict.dumpDict()
-
-    # create a page parser
-    pp = PageParser(pageFile, dict, debug, flat_xml)
-
-    xmlpage = pp.process()
-
-    if printOutput:
-        print xmlpage
-        return 0
-
-    return xmlpage
-
-if __name__ == '__main__':
-    sys.exit(main(''))
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/flatxml2html.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/flatxml2html.py
@@ -1,793 +0,0 @@
-#! /usr/bin/python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-# For use with Topaz Scripts Version 2.6
-
-import sys
-import csv
-import os
-import math
-import getopt
-from struct import pack
-from struct import unpack
-
-
-class DocParser(object):
-    def __init__(self, flatxml, classlst, fileid, bookDir, gdict, fixedimage):
-        self.id = os.path.basename(fileid).replace('.dat','')
-        self.svgcount = 0
-        self.docList = flatxml.split('\n')
-        self.docSize = len(self.docList)
-        self.classList = {}
-        self.bookDir = bookDir
-        self.gdict = gdict
-        tmpList = classlst.split('\n')
-        for pclass in tmpList:
-            if pclass != '':
-                # remove the leading period from the css name
-                cname = pclass[1:]
-            self.classList[cname] = True
-        self.fixedimage = fixedimage
-        self.ocrtext = []
-        self.link_id = []
-        self.link_title = []
-        self.link_page = []
-        self.link_href = []
-        self.link_type = []
-        self.dehyphen_rootid = []
-        self.paracont_stemid = []
-        self.parastems_stemid = []
-
-
-    def getGlyph(self, gid):
-        result = ''
-        id='id="gl%d"' % gid
-        return self.gdict.lookup(id)
-
-    def glyphs_to_image(self, glyphList):
-
-        def extract(path, key):
-            b = path.find(key) + len(key)
-            e = path.find(' ',b)
-            return int(path[b:e])
-
-        svgDir = os.path.join(self.bookDir,'svg')
-
-        imgDir = os.path.join(self.bookDir,'img')
-        imgname = self.id + '_%04d.svg' % self.svgcount
-        imgfile = os.path.join(imgDir,imgname)
-
-        # get glyph information
-        gxList = self.getData('info.glyph.x',0,-1)
-        gyList = self.getData('info.glyph.y',0,-1)
-        gidList = self.getData('info.glyph.glyphID',0,-1)
-
-        gids = []
-        maxws = []
-        maxhs = []
-        xs = []
-        ys = []
-        gdefs = []
-
-        # get path defintions, positions, dimensions for each glyph
-        # that makes up the image, and find min x and min y to reposition origin
-        minx = -1
-        miny = -1
-        for j in glyphList:
-            gid = gidList[j]
-            gids.append(gid)
-
-            xs.append(gxList[j])
-            if minx == -1: minx = gxList[j]
-            else : minx = min(minx, gxList[j])
-
-            ys.append(gyList[j])
-            if miny == -1: miny = gyList[j]
-            else : miny = min(miny, gyList[j])
-
-            path = self.getGlyph(gid)
-            gdefs.append(path)
-
-            maxws.append(extract(path,'width='))
-            maxhs.append(extract(path,'height='))
-
-
-        # change the origin to minx, miny and calc max height and width
-        maxw = maxws[0] + xs[0] - minx
-        maxh = maxhs[0] + ys[0] - miny
-        for j in xrange(0, len(xs)):
-            xs[j] = xs[j] - minx
-            ys[j] = ys[j] - miny
-            maxw = max( maxw, (maxws[j] + xs[j]) )
-            maxh = max( maxh, (maxhs[j] + ys[j]) )
-
-        # open the image file for output
-        ifile = open(imgfile,'w')
-        ifile.write('<?xml version="1.0" standalone="no"?>\n')
-        ifile.write('<!DOCTYPE svg PUBLIC "-//W3C/DTD SVG 1.1//EN" "http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd">\n')
-        ifile.write('<svg width="%dpx" height="%dpx" viewBox="0 0 %d %d" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" version="1.1">\n' % (math.floor(maxw/10), math.floor(maxh/10), maxw, maxh))
-        ifile.write('<defs>\n')
-        for j in xrange(0,len(gdefs)):
-            ifile.write(gdefs[j])
-        ifile.write('</defs>\n')
-        for j in xrange(0,len(gids)):
-            ifile.write('<use xlink:href="#gl%d" x="%d" y="%d" />\n' % (gids[j], xs[j], ys[j]))
-        ifile.write('</svg>')
-        ifile.close()
-
-        return 0
-
-
-
-    # return tag at line pos in document
-    def lineinDoc(self, pos) :
-        if (pos >= 0) and (pos < self.docSize) :
-            item = self.docList[pos]
-            if item.find('=') >= 0:
-                (name, argres) = item.split('=',1)
-            else :
-                name = item
-                argres = ''
-        return name, argres
-
-
-    # find tag in doc if within pos to end inclusive
-    def findinDoc(self, tagpath, pos, end) :
-        result = None
-        if end == -1 :
-            end = self.docSize
-        else:
-            end = min(self.docSize, end)
-        foundat = -1
-        for j in xrange(pos, end):
-            item = self.docList[j]
-            if item.find('=') >= 0:
-                (name, argres) = item.split('=',1)
-            else :
-                name = item
-                argres = ''
-            if name.endswith(tagpath) :
-                result = argres
-                foundat = j
-                break
-        return foundat, result
-
-
-    # return list of start positions for the tagpath
-    def posinDoc(self, tagpath):
-        startpos = []
-        pos = 0
-        res = ""
-        while res != None :
-            (foundpos, res) = self.findinDoc(tagpath, pos, -1)
-            if res != None :
-                startpos.append(foundpos)
-            pos = foundpos + 1
-        return startpos
-
-
-    # returns a vector of integers for the tagpath
-    def getData(self, tagpath, pos, end):
-        argres=[]
-        (foundat, argt) = self.findinDoc(tagpath, pos, end)
-        if (argt != None) and (len(argt) > 0) :
-            argList = argt.split('|')
-            argres = [ int(strval) for strval in argList]
-        return argres
-
-
-    # get the class
-    def getClass(self, pclass):
-        nclass = pclass
-
-        # class names are an issue given topaz may start them with numerals (not allowed),
-        # use a mix of cases (which cause some browsers problems), and actually
-        # attach numbers after "_reclustered*" to the end to deal classeses that inherit
-        # from a base class (but then not actually provide all of these _reclustereed
-        # classes in the stylesheet!
-
-        # so we clean this up by lowercasing, prepend 'cl-', and getting any baseclass
-        # that exists in the stylesheet first, and then adding this specific class
-        # after
-
-        # also some class names have spaces in them so need to convert to dashes
-        if nclass != None :
-            nclass = nclass.replace(' ','-')
-            classres = ''
-            nclass = nclass.lower()
-            nclass = 'cl-' + nclass
-            baseclass = ''
-            # graphic is the base class for captions
-            if nclass.find('cl-cap-') >=0 :
-                classres = 'graphic' + ' '
-            else :
-                # strip to find baseclass
-                p = nclass.find('_')
-                if p > 0 :
-                    baseclass = nclass[0:p]
-                    if baseclass in self.classList:
-                        classres += baseclass + ' '
-            classres += nclass
-            nclass = classres
-        return nclass
-
-
-    # develop a sorted description of the starting positions of
-    # groups and regions on the page, as well as the page type
-    def PageDescription(self):
-
-        def compare(x, y):
-            (xtype, xval) = x
-            (ytype, yval) = y
-            if xval > yval:
-                return 1
-            if xval == yval:
-                return 0
-            return -1
-
-        result = []
-        (pos, pagetype) = self.findinDoc('page.type',0,-1)
-
-        groupList = self.posinDoc('page.group')
-        groupregionList = self.posinDoc('page.group.region')
-        pageregionList = self.posinDoc('page.region')
-        # integrate into one list
-        for j in groupList:
-            result.append(('grpbeg',j))
-        for j in groupregionList:
-            result.append(('gregion',j))
-        for j in pageregionList:
-            result.append(('pregion',j))
-        result.sort(compare)
-
-        # insert group end and page end indicators
-        inGroup = False
-        j = 0
-        while True:
-            if j == len(result): break
-            rtype = result[j][0]
-            rval = result[j][1]
-            if not inGroup and (rtype == 'grpbeg') :
-                inGroup = True
-                j = j + 1
-            elif inGroup and (rtype in ('grpbeg', 'pregion')):
-                result.insert(j,('grpend',rval))
-                inGroup = False
-            else:
-                j = j + 1
-        if inGroup:
-            result.append(('grpend',-1))
-        result.append(('pageend', -1))
-        return pagetype, result
-
-
-
-    # build a description of the paragraph
-    def getParaDescription(self, start, end, regtype):
-
-        result = []
-
-        # paragraph
-        (pos, pclass) = self.findinDoc('paragraph.class',start,end)
-
-        pclass = self.getClass(pclass)
-
-        # if paragraph uses extratokens (extra glyphs) then make it fixed
-        (pos, extraglyphs) = self.findinDoc('paragraph.extratokens',start,end)
-
-        # build up a description of the paragraph in result and return it
-        # first check for the  basic - all words paragraph
-        (pos, sfirst) = self.findinDoc('paragraph.firstWord',start,end)
-        (pos, slast) = self.findinDoc('paragraph.lastWord',start,end)
-        if (sfirst != None) and (slast != None) :
-            first = int(sfirst)
-            last = int(slast)
-
-            makeImage = (regtype == 'vertical') or (regtype == 'table')
-            makeImage = makeImage or (extraglyphs != None)
-            if self.fixedimage:
-                makeImage = makeImage or (regtype == 'fixed')
-
-            if (pclass != None):
-                makeImage = makeImage or (pclass.find('.inverted') >= 0)
-                if self.fixedimage :
-                    makeImage = makeImage or (pclass.find('cl-f-') >= 0)
-
-            # before creating an image make sure glyph info exists
-            gidList = self.getData('info.glyph.glyphID',0,-1)
-
-            makeImage = makeImage & (len(gidList) > 0)
-
-            if not makeImage :
-                # standard all word paragraph
-                for wordnum in xrange(first, last):
-                    result.append(('ocr', wordnum))
-                return pclass, result
-
-            # convert paragraph to svg image
-            # translate first and last word into first and last glyphs
-            # and generate inline image and include it
-            glyphList = []
-            firstglyphList = self.getData('word.firstGlyph',0,-1)
-            gidList = self.getData('info.glyph.glyphID',0,-1)
-            firstGlyph = firstglyphList[first]
-            if last < len(firstglyphList):
-                lastGlyph = firstglyphList[last]
-            else :
-                lastGlyph = len(gidList)
-
-            # handle case of white sapce paragraphs with no actual glyphs in them
-            # by reverting to text based paragraph
-            if firstGlyph >= lastGlyph:
-                # revert to standard text based paragraph
-                for wordnum in xrange(first, last):
-                    result.append(('ocr', wordnum))
-                return pclass, result
-
-            for glyphnum in xrange(firstGlyph, lastGlyph):
-                glyphList.append(glyphnum)
-            # include any extratokens if they exist
-            (pos, sfg) = self.findinDoc('extratokens.firstGlyph',start,end)
-            (pos, slg) = self.findinDoc('extratokens.lastGlyph',start,end)
-            if (sfg != None) and (slg != None):
-                for glyphnum in xrange(int(sfg), int(slg)):
-                    glyphList.append(glyphnum)
-            num = self.svgcount
-            self.glyphs_to_image(glyphList)
-            self.svgcount += 1
-            result.append(('svg', num))
-            return pclass, result
-
-        # this type of paragraph may be made up of multiple spans, inline
-        # word monograms (images), and words with semantic meaning,
-        # plus glyphs used to form starting letter of first word
-
-        # need to parse this type line by line
-        line = start + 1
-        word_class = ''
-
-        # if end is -1 then we must search to end of document
-        if end == -1 :
-            end = self.docSize
-
-        # seems some xml has last* coming before first* so we have to
-        # handle any order
-        sp_first = -1
-        sp_last = -1
-
-        gl_first = -1
-        gl_last = -1
-
-        ws_first = -1
-        ws_last = -1
-
-        word_class = ''
-
-        word_semantic_type = ''
-
-        while (line < end) :
-
-            (name, argres) = self.lineinDoc(line)
-
-            if name.endswith('span.firstWord') :
-                sp_first = int(argres)
-
-            elif name.endswith('span.lastWord') :
-                sp_last = int(argres)
-
-            elif name.endswith('word.firstGlyph') :
-                gl_first = int(argres)
-
-            elif name.endswith('word.lastGlyph') :
-                gl_last = int(argres)
-
-            elif name.endswith('word_semantic.firstWord'):
-                ws_first = int(argres)
-
-            elif name.endswith('word_semantic.lastWord'):
-                ws_last = int(argres)
-
-            elif name.endswith('word.class'):
-                (cname, space) = argres.split('-',1)
-                if space == '' : space = '0'
-                if (cname == 'spaceafter') and (int(space) > 0) :
-                    word_class = 'sa'
-
-            elif name.endswith('word.img.src'):
-                result.append(('img' + word_class, int(argres)))
-                word_class = ''
-
-            elif name.endswith('region.img.src'):
-                result.append(('img' + word_class, int(argres)))
-
-            if (sp_first != -1) and (sp_last != -1):
-                for wordnum in xrange(sp_first, sp_last):
-                    result.append(('ocr', wordnum))
-                sp_first = -1
-                sp_last = -1
-
-            if (gl_first != -1) and (gl_last != -1):
-                glyphList = []
-                for glyphnum in xrange(gl_first, gl_last):
-                    glyphList.append(glyphnum)
-                num = self.svgcount
-                self.glyphs_to_image(glyphList)
-                self.svgcount += 1
-                result.append(('svg', num))
-                gl_first = -1
-                gl_last = -1
-
-            if (ws_first != -1) and (ws_last != -1):
-                for wordnum in xrange(ws_first, ws_last):
-                    result.append(('ocr', wordnum))
-                ws_first = -1
-                ws_last = -1
-
-            line += 1
-
-        return pclass, result
-
-
-    def buildParagraph(self, pclass, pdesc, type, regtype) :
-        parares = ''
-        sep =''
-
-        classres = ''
-        if pclass :
-            classres = ' class="' + pclass + '"'
-
-        br_lb = (regtype == 'fixed') or (regtype == 'chapterheading') or (regtype == 'vertical')
-
-        handle_links = len(self.link_id) > 0
-
-        if (type == 'full') or (type == 'begin') :
-            parares += '<p' + classres + '>'
-
-        if (type == 'end'):
-            parares += ' '
-
-        lstart = len(parares)
-
-        cnt = len(pdesc)
-
-        for j in xrange( 0, cnt) :
-
-            (wtype, num) = pdesc[j]
-
-            if wtype == 'ocr' :
-                word = self.ocrtext[num]
-                sep = ' '
-
-                if handle_links:
-                    link = self.link_id[num]
-                    if (link > 0):
-                        linktype = self.link_type[link-1]
-                        title = self.link_title[link-1]
-                        if (title == "") or (parares.rfind(title) < 0):
-                            title=parares[lstart:]
-                        if linktype == 'external' :
-                            linkhref = self.link_href[link-1]
-                            linkhtml = '<a href="%s">' % linkhref
-                        else :
-                            if len(self.link_page) >= link :
-                                ptarget = self.link_page[link-1] - 1
-                                linkhtml = '<a href="#page%04d">' % ptarget
-                            else :
-                                # just link to the current page
-                                linkhtml = '<a href="#' + self.id + '">'
-                        linkhtml += title + '</a>'
-                        pos = parares.rfind(title)
-                        if pos >= 0:
-                            parares = parares[0:pos] + linkhtml + parares[pos+len(title):]
-                        else :
-                            parares += linkhtml
-                        lstart = len(parares)
-                        if word == '_link_' : word = ''
-                    elif (link < 0) :
-                        if word == '_link_' : word = ''
-
-                if word == '_lb_':
-                    if ((num-1) in self.dehyphen_rootid ) or handle_links:
-                        word = ''
-                        sep = ''
-                    elif br_lb :
-                        word = '<br />\n'
-                        sep = ''
-                    else :
-                        word = '\n'
-                        sep = ''
-
-                if num in self.dehyphen_rootid :
-                    word = word[0:-1]
-                    sep = ''
-
-                parares += word + sep
-
-            elif wtype == 'img' :
-                sep = ''
-                parares += '<img src="img/img%04d.jpg" alt="" />' % num
-                parares += sep
-
-            elif wtype == 'imgsa' :
-                sep = ' '
-                parares += '<img src="img/img%04d.jpg" alt="" />' % num
-                parares += sep
-
-            elif wtype == 'svg' :
-                sep = ''
-                parares += '<img src="img/' + self.id + '_%04d.svg" alt="" />' % num
-                parares += sep
-
-        if len(sep) > 0 : parares = parares[0:-1]
-        if (type == 'full') or (type == 'end') :
-            parares += '</p>'
-        return parares
-
-
-    def buildTOCEntry(self, pdesc) :
-        parares = ''
-        sep =''
-        tocentry = ''
-        handle_links = len(self.link_id) > 0
-
-        lstart = 0
-
-        cnt = len(pdesc)
-        for j in xrange( 0, cnt) :
-
-            (wtype, num) = pdesc[j]
-
-            if wtype == 'ocr' :
-                word = self.ocrtext[num]
-                sep = ' '
-
-                if handle_links:
-                    link = self.link_id[num]
-                    if (link > 0):
-                        linktype = self.link_type[link-1]
-                        title = self.link_title[link-1]
-                        title = title.rstrip('. ')
-                        alt_title = parares[lstart:]
-                        alt_title = alt_title.strip()
-                        # now strip off the actual printed page number
-                        alt_title = alt_title.rstrip('01234567890ivxldIVXLD-.')
-                        alt_title = alt_title.rstrip('. ')
-                        # skip over any external links - can't have them in a books toc
-                        if linktype == 'external' :
-                            title = ''
-                            alt_title = ''
-                            linkpage = ''
-                        else :
-                            if len(self.link_page) >= link :
-                                ptarget = self.link_page[link-1] - 1
-                                linkpage = '%04d' % ptarget
-                            else :
-                                # just link to the current page
-                                linkpage = self.id[4:]
-                        if len(alt_title) >= len(title):
-                            title = alt_title
-                        if title != '' and linkpage != '':
-                            tocentry += title + '|' + linkpage + '\n'
-                        lstart = len(parares)
-                        if word == '_link_' : word = ''
-                    elif (link < 0) :
-                        if word == '_link_' : word = ''
-
-                if word == '_lb_':
-                    word = ''
-                    sep = ''
-
-                if num in self.dehyphen_rootid :
-                    word = word[0:-1]
-                    sep = ''
-
-                parares += word + sep
-
-            else :
-                continue
-
-        return tocentry
-
-
-
-
-    # walk the document tree collecting the information needed
-    # to build an html page using the ocrText
-
-    def process(self):
-
-        tocinfo = ''
-        hlst = []
-
-        # get the ocr text
-        (pos, argres) = self.findinDoc('info.word.ocrText',0,-1)
-        if argres :  self.ocrtext = argres.split('|')
-
-        # get information to dehyphenate the text
-        self.dehyphen_rootid = self.getData('info.dehyphen.rootID',0,-1)
-
-        # determine if first paragraph is continued from previous page
-        (pos, self.parastems_stemid) = self.findinDoc('info.paraStems.stemID',0,-1)
-        first_para_continued = (self.parastems_stemid  != None)
-
-        # determine if last paragraph is continued onto the next page
-        (pos, self.paracont_stemid) = self.findinDoc('info.paraCont.stemID',0,-1)
-        last_para_continued = (self.paracont_stemid != None)
-
-        # collect link ids
-        self.link_id = self.getData('info.word.link_id',0,-1)
-
-        # collect link destination page numbers
-        self.link_page = self.getData('info.links.page',0,-1)
-
-        # collect link types (container versus external)
-        (pos, argres) = self.findinDoc('info.links.type',0,-1)
-        if argres :  self.link_type = argres.split('|')
-
-        # collect link destinations
-        (pos, argres) = self.findinDoc('info.links.href',0,-1)
-        if argres :  self.link_href = argres.split('|')
-
-        # collect link titles
-        (pos, argres) = self.findinDoc('info.links.title',0,-1)
-        if argres :
-            self.link_title = argres.split('|')
-        else:
-            self.link_title.append('')
-
-        # get a descriptions of the starting points of the regions
-        # and groups on the page
-        (pagetype, pageDesc) = self.PageDescription()
-        regcnt = len(pageDesc) - 1
-
-        anchorSet = False
-        breakSet = False
-        inGroup = False
-
-        # process each region on the page and convert what you can to html
-
-        for j in xrange(regcnt):
-
-            (etype, start) = pageDesc[j]
-            (ntype, end) = pageDesc[j+1]
-
-
-            # set anchor for link target on this page
-            if not anchorSet and not first_para_continued:
-                hlst.append('<div style="visibility: hidden; height: 0; width: 0;" id="')
-                hlst.append(self.id + '" title="pagetype_' + pagetype + '"></div>\n')
-                anchorSet = True
-
-            # handle groups of graphics with text captions
-            if (etype == 'grpbeg'):
-                (pos, grptype) = self.findinDoc('group.type', start, end)
-                if grptype != None:
-                    if grptype == 'graphic':
-                        gcstr = ' class="' + grptype + '"'
-                        hlst.append('<div' + gcstr + '>')
-                        inGroup = True
-
-            elif (etype == 'grpend'):
-                if inGroup:
-                    hlst.append('</div>\n')
-                    inGroup = False
-
-            else:
-                (pos, regtype) = self.findinDoc('region.type',start,end)
-
-                if regtype == 'graphic' :
-                    (pos, simgsrc) = self.findinDoc('img.src',start,end)
-                    if simgsrc:
-                        if inGroup:
-                            hlst.append('<img src="img/img%04d.jpg" alt="" />' % int(simgsrc))
-                        else:
-                            hlst.append('<div class="graphic"><img src="img/img%04d.jpg" alt="" /></div>' % int(simgsrc))
-
-                elif regtype == 'chapterheading' :
-                    (pclass, pdesc) = self.getParaDescription(start,end, regtype)
-                    if not breakSet:
-                        hlst.append('<div style="page-break-after: always;">&nbsp;</div>\n')
-                        breakSet = True
-                    tag = 'h1'
-                    if pclass and (len(pclass) >= 7):
-                        if pclass[3:7] == 'ch1-' : tag = 'h1'
-                        if pclass[3:7] == 'ch2-' : tag = 'h2'
-                        if pclass[3:7] == 'ch3-' : tag = 'h3'
-                        hlst.append('<' + tag + ' class="' + pclass + '">')
-                    else:
-                        hlst.append('<' + tag + '>')
-                    hlst.append(self.buildParagraph(pclass, pdesc, 'middle', regtype))
-                    hlst.append('</' + tag + '>')
-
-                elif (regtype == 'text') or (regtype == 'fixed') or (regtype == 'insert') or (regtype == 'listitem'):
-                    ptype = 'full'
-                    # check to see if this is a continution from the previous page
-                    if first_para_continued :
-                        ptype = 'end'
-                        first_para_continued = False
-                    (pclass, pdesc) = self.getParaDescription(start,end, regtype)
-                    if pclass and (len(pclass) >= 6) and (ptype == 'full'):
-                        tag = 'p'
-                        if pclass[3:6] == 'h1-' : tag = 'h4'
-                        if pclass[3:6] == 'h2-' : tag = 'h5'
-                        if pclass[3:6] == 'h3-' : tag = 'h6'
-                        hlst.append('<' + tag + ' class="' + pclass + '">')
-                        hlst.append(self.buildParagraph(pclass, pdesc, 'middle', regtype))
-                        hlst.append('</' + tag + '>')
-                    else :
-                        hlst.append(self.buildParagraph(pclass, pdesc, ptype, regtype))
-
-                elif (regtype == 'tocentry') :
-                    ptype = 'full'
-                    if first_para_continued :
-                        ptype = 'end'
-                        first_para_continued = False
-                    (pclass, pdesc) = self.getParaDescription(start,end, regtype)
-                    tocinfo += self.buildTOCEntry(pdesc)
-                    hlst.append(self.buildParagraph(pclass, pdesc, ptype, regtype))
-
-                elif (regtype == 'vertical') or (regtype == 'table') :
-                    ptype = 'full'
-                    if inGroup:
-                        ptype = 'middle'
-                    if first_para_continued :
-                        ptype = 'end'
-                        first_para_continued = False
-                    (pclass, pdesc) = self.getParaDescription(start, end, regtype)
-                    hlst.append(self.buildParagraph(pclass, pdesc, ptype, regtype))
-
-
-                elif (regtype == 'synth_fcvr.center'):
-                    (pos, simgsrc) = self.findinDoc('img.src',start,end)
-                    if simgsrc:
-                        hlst.append('<div class="graphic"><img src="img/img%04d.jpg" alt="" /></div>' % int(simgsrc))
-
-                else :
-                    print '          Making region type', regtype,
-                    (pos, temp) = self.findinDoc('paragraph',start,end)
-                    (pos2, temp) = self.findinDoc('span',start,end)
-                    if pos != -1 or pos2 != -1:
-                        print ' a "text" region'
-                        orig_regtype = regtype
-                        regtype = 'fixed'
-                        ptype = 'full'
-                        # check to see if this is a continution from the previous page
-                        if first_para_continued :
-                            ptype = 'end'
-                            first_para_continued = False
-                        (pclass, pdesc) = self.getParaDescription(start,end, regtype)
-                        if not pclass:
-                            if orig_regtype.endswith('.right')     : pclass = 'cl-right'
-                            elif orig_regtype.endswith('.center')  : pclass = 'cl-center'
-                            elif orig_regtype.endswith('.left')    : pclass = 'cl-left'
-                            elif orig_regtype.endswith('.justify') : pclass = 'cl-justify'
-                        if pclass and (ptype == 'full') and (len(pclass) >= 6):
-                            tag = 'p'
-                            if pclass[3:6] == 'h1-' : tag = 'h4'
-                            if pclass[3:6] == 'h2-' : tag = 'h5'
-                            if pclass[3:6] == 'h3-' : tag = 'h6'
-                            hlst.append('<' + tag + ' class="' + pclass + '">')
-                            hlst.append(self.buildParagraph(pclass, pdesc, 'middle', regtype))
-                            hlst.append('</' + tag + '>')
-                        else :
-                            hlst.append(self.buildParagraph(pclass, pdesc, ptype, regtype))
-                    else :
-                        print ' a "graphic" region'
-                        (pos, simgsrc) = self.findinDoc('img.src',start,end)
-                        if simgsrc:
-                            hlst.append('<div class="graphic"><img src="img/img%04d.jpg" alt="" /></div>' % int(simgsrc))
-
-
-        htmlpage = "".join(hlst)
-        if last_para_continued :
-            if htmlpage[-4:] == '</p>':
-                htmlpage = htmlpage[0:-4]
-            last_para_continued = False
-
-        return htmlpage, tocinfo
-
-
-def convert2HTML(flatxml, classlst, fileid, bookDir, gdict, fixedimage):
-    # create a document parser
-    dp = DocParser(flatxml, classlst, fileid, bookDir, gdict, fixedimage)
-    htmlpage, tocinfo = dp.process()
-    return htmlpage, tocinfo
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/flatxml2svg.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/flatxml2svg.py
@@ -1,249 +0,0 @@
-#! /usr/bin/python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-
-import sys
-import csv
-import os
-import getopt
-from struct import pack
-from struct import unpack
-
-
-class PParser(object):
-    def __init__(self, gd, flatxml, meta_array):
-        self.gd = gd
-        self.flatdoc = flatxml.split('\n')
-        self.docSize = len(self.flatdoc)
-        self.temp = []
-
-        self.ph = -1
-        self.pw = -1
-        startpos = self.posinDoc('page.h') or self.posinDoc('book.h')
-        for p in startpos:
-            (name, argres) = self.lineinDoc(p)
-            self.ph = max(self.ph, int(argres))
-        startpos = self.posinDoc('page.w') or self.posinDoc('book.w')
-        for p in startpos:
-            (name, argres) = self.lineinDoc(p)
-            self.pw = max(self.pw, int(argres))
-
-        if self.ph <= 0:
-            self.ph = int(meta_array.get('pageHeight', '11000'))
-        if self.pw <= 0:
-            self.pw = int(meta_array.get('pageWidth', '8500'))
-
-        res = []
-        startpos = self.posinDoc('info.glyph.x')
-        for p in startpos:
-            argres = self.getDataatPos('info.glyph.x', p)
-            res.extend(argres)
-        self.gx = res
-
-        res = []
-        startpos = self.posinDoc('info.glyph.y')
-        for p in startpos:
-            argres = self.getDataatPos('info.glyph.y', p)
-            res.extend(argres)
-        self.gy = res
-
-        res = []
-        startpos = self.posinDoc('info.glyph.glyphID')
-        for p in startpos:
-            argres = self.getDataatPos('info.glyph.glyphID', p)
-            res.extend(argres)
-        self.gid = res
-
-
-    # return tag at line pos in document
-    def lineinDoc(self, pos) :
-        if (pos >= 0) and (pos < self.docSize) :
-            item = self.flatdoc[pos]
-            if item.find('=') >= 0:
-                (name, argres) = item.split('=',1)
-            else :
-                name = item
-                argres = ''
-        return name, argres
-
-    # find tag in doc if within pos to end inclusive
-    def findinDoc(self, tagpath, pos, end) :
-        result = None
-        if end == -1 :
-            end = self.docSize
-        else:
-            end = min(self.docSize, end)
-        foundat = -1
-        for j in xrange(pos, end):
-            item = self.flatdoc[j]
-            if item.find('=') >= 0:
-                (name, argres) = item.split('=',1)
-            else :
-                name = item
-                argres = ''
-            if name.endswith(tagpath) :
-                result = argres
-                foundat = j
-                break
-        return foundat, result
-
-    # return list of start positions for the tagpath
-    def posinDoc(self, tagpath):
-        startpos = []
-        pos = 0
-        res = ""
-        while res != None :
-            (foundpos, res) = self.findinDoc(tagpath, pos, -1)
-            if res != None :
-                startpos.append(foundpos)
-            pos = foundpos + 1
-        return startpos
-
-    def getData(self, path):
-        result = None
-        cnt = len(self.flatdoc)
-        for j in xrange(cnt):
-            item = self.flatdoc[j]
-            if item.find('=') >= 0:
-                (name, argt) = item.split('=')
-                argres = argt.split('|')
-            else:
-                name = item
-                argres = []
-            if (name.endswith(path)):
-                result = argres
-                break
-        if (len(argres) > 0) :
-            for j in xrange(0,len(argres)):
-                argres[j] = int(argres[j])
-        return result
-
-    def getDataatPos(self, path, pos):
-        result = None
-        item = self.flatdoc[pos]
-        if item.find('=') >= 0:
-            (name, argt) = item.split('=')
-            argres = argt.split('|')
-        else:
-            name = item
-            argres = []
-        if (len(argres) > 0) :
-            for j in xrange(0,len(argres)):
-                argres[j] = int(argres[j])
-        if (name.endswith(path)):
-            result = argres
-        return result
-
-    def getDataTemp(self, path):
-        result = None
-        cnt = len(self.temp)
-        for j in xrange(cnt):
-            item = self.temp[j]
-            if item.find('=') >= 0:
-                (name, argt) = item.split('=')
-                argres = argt.split('|')
-            else:
-                name = item
-                argres = []
-            if (name.endswith(path)):
-                result = argres
-                self.temp.pop(j)
-                break
-        if (len(argres) > 0) :
-            for j in xrange(0,len(argres)):
-                argres[j] = int(argres[j])
-        return result
-
-    def getImages(self):
-        result = []
-        self.temp = self.flatdoc
-        while (self.getDataTemp('img') != None):
-            h = self.getDataTemp('img.h')[0]
-            w = self.getDataTemp('img.w')[0]
-            x = self.getDataTemp('img.x')[0]
-            y = self.getDataTemp('img.y')[0]
-            src = self.getDataTemp('img.src')[0]
-            result.append('<image xlink:href="../img/img%04d.jpg" x="%d" y="%d" width="%d" height="%d" />\n' % (src, x, y, w, h))
-        return result
-
-    def getGlyphs(self):
-        result = []
-        if (self.gid != None) and (len(self.gid) > 0):
-            glyphs = []
-            for j in set(self.gid):
-                glyphs.append(j)
-            glyphs.sort()
-            for gid in glyphs:
-                id='id="gl%d"' % gid
-                path = self.gd.lookup(id)
-                if path:
-                    result.append(id + ' ' + path)
-        return result
-
-
-def convert2SVG(gdict, flat_xml, pageid, previd, nextid, svgDir, raw, meta_array, scaledpi):
-    mlst = []
-    pp = PParser(gdict, flat_xml, meta_array)
-    mlst.append('<?xml version="1.0" standalone="no"?>\n')
-    if (raw):
-        mlst.append('<!DOCTYPE svg PUBLIC "-//W3C/DTD SVG 1.1//EN" "http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd">\n')
-        mlst.append('<svg width="%fin" height="%fin" viewBox="0 0 %d %d" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" version="1.1">\n' % (pp.pw / scaledpi, pp.ph / scaledpi, pp.pw -1, pp.ph -1))
-        mlst.append('<title>Page %d - %s by %s</title>\n' % (pageid, meta_array['Title'],meta_array['Authors']))
-    else:
-        mlst.append('<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.1//EN" "http://www.w3.org/TR/xhtml11/DTD/xhtml11.dtd">\n')
-        mlst.append('<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en" ><head>\n')
-        mlst.append('<title>Page %d - %s by %s</title>\n' % (pageid, meta_array['Title'],meta_array['Authors']))
-        mlst.append('<script><![CDATA[\n')
-        mlst.append('function gd(){var p=window.location.href.replace(/^.*\?dpi=(\d+).*$/i,"$1");return p;}\n')
-        mlst.append('var dpi=%d;\n' % scaledpi)
-        if (previd) :
-            mlst.append('var prevpage="page%04d.xhtml";\n' % (previd))
-        if (nextid) :
-            mlst.append('var nextpage="page%04d.xhtml";\n' % (nextid))
-        mlst.append('var pw=%d;var ph=%d;' % (pp.pw, pp.ph))
-        mlst.append('function zoomin(){dpi=dpi*(0.8);setsize();}\n')
-        mlst.append('function zoomout(){dpi=dpi*1.25;setsize();}\n')
-        mlst.append('function setsize(){var svg=document.getElementById("svgimg");var prev=document.getElementById("prevsvg");var next=document.getElementById("nextsvg");var width=(pw/dpi)+"in";var height=(ph/dpi)+"in";svg.setAttribute("width",width);svg.setAttribute("height",height);prev.setAttribute("height",height);prev.setAttribute("width","50px");next.setAttribute("height",height);next.setAttribute("width","50px");}\n')
-        mlst.append('function ppage(){window.location.href=prevpage+"?dpi="+Math.round(dpi);}\n')
-        mlst.append('function npage(){window.location.href=nextpage+"?dpi="+Math.round(dpi);}\n')
-        mlst.append('var gt=gd();if(gt>0){dpi=gt;}\n')
-        mlst.append('window.onload=setsize;\n')
-        mlst.append(']]></script>\n')
-        mlst.append('</head>\n')
-        mlst.append('<body onLoad="setsize();" style="background-color:#777;text-align:center;">\n')
-        mlst.append('<div style="white-space:nowrap;">\n')
-        if previd == None:
-            mlst.append('<a href="javascript:ppage();"><svg id="prevsvg" viewBox="0 0 100 300" xmlns="http://www.w3.org/2000/svg" version="1.1" style="background-color:#777"></svg></a>\n')
-        else:
-            mlst.append('<a href="javascript:ppage();"><svg id="prevsvg" viewBox="0 0 100 300" xmlns="http://www.w3.org/2000/svg" version="1.1" style="background-color:#777"><polygon points="5,150,95,5,95,295" fill="#AAAAAA" /></svg></a>\n')
-
-        mlst.append('<a href="javascript:npage();"><svg id="svgimg" viewBox="0 0 %d %d" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" version="1.1" style="background-color:#FFF;border:1px solid black;">' % (pp.pw, pp.ph))
-    if (pp.gid != None):
-        mlst.append('<defs>\n')
-        gdefs = pp.getGlyphs()
-        for j in xrange(0,len(gdefs)):
-            mlst.append(gdefs[j])
-        mlst.append('</defs>\n')
-    img = pp.getImages()
-    if (img != None):
-        for j in xrange(0,len(img)):
-            mlst.append(img[j])
-    if (pp.gid != None):
-        for j in xrange(0,len(pp.gid)):
-            mlst.append('<use xlink:href="#gl%d" x="%d" y="%d" />\n' % (pp.gid[j], pp.gx[j], pp.gy[j]))
-    if (img == None or len(img) == 0) and (pp.gid == None or len(pp.gid) == 0):
-        xpos = "%d" % (pp.pw // 3)
-        ypos = "%d" % (pp.ph // 3)
-        mlst.append('<text x="' + xpos + '" y="' + ypos + '" font-size="' + meta_array['fontSize'] + '" font-family="Helvetica" stroke="black">This page intentionally left blank.</text>\n')
-    if (raw) :
-        mlst.append('</svg>')
-    else :
-        mlst.append('</svg></a>\n')
-        if nextid == None:
-            mlst.append('<a href="javascript:npage();"><svg id="nextsvg" viewBox="0 0 100 300" xmlns="http://www.w3.org/2000/svg" version="1.1" style="background-color:#777"></svg></a>\n')
-        else :
-            mlst.append('<a href="javascript:npage();"><svg id="nextsvg" viewBox="0 0 100 300" xmlns="http://www.w3.org/2000/svg" version="1.1" style="background-color:#777"><polygon points="5,5,5,295,95,150" fill="#AAAAAA" /></svg></a>\n')
-        mlst.append('</div>\n')
-        mlst.append('<div><a href="javascript:zoomin();">zoom in</a> - <a href="javascript:zoomout();">zoom out</a></div>\n')
-        mlst.append('</body>\n')
-        mlst.append('</html>\n')
-    return "".join(mlst)
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/getk4pcpids.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/getk4pcpids.py
@@ -1,77 +0,0 @@
-#!/usr/bin/python
-#
-# This is a python script. You need a Python interpreter to run it.
-# For example, ActiveState Python, which exists for windows.
-#
-# Changelog
-#  1.00 - Initial version
-
-__version__ = '1.00'
-
-import sys
-
-class Unbuffered:
-    def __init__(self, stream):
-        self.stream = stream
-    def write(self, data):
-        self.stream.write(data)
-        self.stream.flush()
-    def __getattr__(self, attr):
-        return getattr(self.stream, attr)
-sys.stdout=Unbuffered(sys.stdout)
-
-import os
-import struct
-import binascii
-import kgenpids
-import topazextract
-import mobidedrm
-from alfcrypto import Pukall_Cipher
-
-class DrmException(Exception):
-    pass
-
-def getK4PCpids(path_to_ebook):
-    # Return Kindle4PC PIDs. Assumes that the caller checked that we are not on Linux, which will raise an exception
-
-    mobi = True
-    magic3 = file(path_to_ebook,'rb').read(3)
-    if magic3 == 'TPZ':
-        mobi = False
-
-    if mobi:
-        mb = mobidedrm.MobiBook(path_to_ebook,False)
-    else:
-        mb = topazextract.TopazBook(path_to_ebook)
-    
-    md1, md2 = mb.getPIDMetaInfo()
-
-    return kgenpids.getPidList(md1, md2, True, [], [], []) 
-
-
-def main(argv=sys.argv):
-    print ('getk4pcpids.py v%(__version__)s. '
-        'Copyright 2012 Apprentic Alf' % globals())
-
-    if len(argv)<2 or len(argv)>3:
-        print "Gets the possible book-specific PIDs from K4PC for a particular book"
-        print "Usage:"
-        print "    %s <bookfile> [<outfile>]" % sys.argv[0]
-        return 1
-    else:
-        infile = argv[1]
-        try:
-            pidlist = getK4PCpids(infile)
-        except DrmException, e:
-            print "Error: %s" % e
-            return 1
-        pidstring = ','.join(pidlist)
-        print "Possible PIDs are: ", pidstring
-        if len(argv) is 3:
-            outfile = argv[2]
-            file(outfile, 'w').write(pidstring)
-        
-    return 0
-
-if __name__ == "__main__":
-    sys.exit(main())
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/k4mobidedrm_orig.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/k4mobidedrm_orig.py
@@ -1,223 +0,0 @@
-#!/usr/bin/env python
-
-from __future__ import with_statement
-
-# engine to remove drm from Kindle for Mac and Kindle for PC books
-# for personal use for archiving and converting your ebooks
-
-# PLEASE DO NOT PIRATE EBOOKS!
-
-# We want all authors and publishers, and eBook stores to live
-# long and prosperous lives but at the same time  we just want to
-# be able to read OUR books on whatever device we want and to keep
-# readable for a long, long time
-
-#  This borrows very heavily from works by CMBDTC, IHeartCabbages, skindle,
-#    unswindle, DarkReverser, ApprenticeAlf, DiapDealer, some_updates
-#    and many many others
-
-
-__version__ = '4.3'
-
-class Unbuffered:
-    def __init__(self, stream):
-        self.stream = stream
-    def write(self, data):
-        self.stream.write(data)
-        self.stream.flush()
-    def __getattr__(self, attr):
-        return getattr(self.stream, attr)
-
-import sys
-import os, csv, getopt
-import string
-import re
-import traceback
-
-buildXML = False
-
-class DrmException(Exception):
-    pass
-
-if 'calibre' in sys.modules:
-    inCalibre = True
-else:
-    inCalibre = False
-
-if inCalibre:
-    from calibre_plugins.k4mobidedrm import mobidedrm
-    from calibre_plugins.k4mobidedrm import topazextract
-    from calibre_plugins.k4mobidedrm import kgenpids
-else:
-    import mobidedrm
-    import topazextract
-    import kgenpids
-
-
-# cleanup bytestring filenames
-# borrowed from calibre from calibre/src/calibre/__init__.py
-# added in removal of non-printing chars
-# and removal of . at start
-# convert underscores to spaces (we're OK with spaces in file names)
-def cleanup_name(name):
-    _filename_sanitize = re.compile(r'[\xae\0\\|\?\*<":>\+/]')
-    substitute='_'
-    one = ''.join(char for char in name if char in string.printable)
-    one = _filename_sanitize.sub(substitute, one)
-    one = re.sub(r'\s', ' ', one).strip()
-    one = re.sub(r'^\.+$', '_', one)
-    one = one.replace('..', substitute)
-    # Windows doesn't like path components that end with a period
-    if one.endswith('.'):
-        one = one[:-1]+substitute
-    # Mac and Unix don't like file names that begin with a full stop
-    if len(one) > 0 and one[0] == '.':
-        one = substitute+one[1:]
-    one = one.replace('_',' ')
-    return one
-
-def decryptBook(infile, outdir, k4, kInfoFiles, serials, pids):
-    global buildXML
-
-    # handle the obvious cases at the beginning
-    if not os.path.isfile(infile):
-        print >>sys.stderr, ('K4MobiDeDrm v%(__version__)s\n' % globals()) + "Error: Input file does not exist"
-        return 1
-
-    mobi = True
-    magic3 = file(infile,'rb').read(3)
-    if magic3 == 'TPZ':
-        mobi = False
-
-    bookname = os.path.splitext(os.path.basename(infile))[0]
-
-    if mobi:
-        mb = mobidedrm.MobiBook(infile)
-    else:
-        mb = topazextract.TopazBook(infile)
-
-    title = mb.getBookTitle()
-    print "Processing Book: ", title
-    filenametitle = cleanup_name(title)
-    outfilename = cleanup_name(bookname)
-    
-    # generate 'sensible' filename, that will sort with the original name,
-    # but is close to the name from the file.
-    outlength = len(outfilename)
-    comparelength = min(8,min(outlength,len(filenametitle)))
-    copylength = min(max(outfilename.find(' '),8),len(outfilename))
-    if outlength==0:
-        outfilename = filenametitle
-    elif comparelength > 0:
-    	if outfilename[:comparelength] == filenametitle[:comparelength]:
-        	outfilename = filenametitle
-        else:
-        	outfilename = outfilename[:copylength] + " " + filenametitle
-
-    # avoid excessively long file names
-    if len(outfilename)>150:
-        outfilename = outfilename[:150]
-
-    # build pid list
-    md1, md2 = mb.getPIDMetaInfo()
-    pidlst = kgenpids.getPidList(md1, md2, k4, pids, serials, kInfoFiles)
-
-    try:
-        mb.processBook(pidlst)
-
-    except mobidedrm.DrmException, e:
-        print >>sys.stderr, ('K4MobiDeDrm v%(__version__)s\n' % globals()) + "Error: " + str(e) + "\nDRM Removal Failed.\n"
-        return 1
-    except topazextract.TpzDRMError, e:
-        print >>sys.stderr, ('K4MobiDeDrm v%(__version__)s\n' % globals()) + "Error: " + str(e) + "\nDRM Removal Failed.\n"
-        return 1
-    except Exception, e:
-        print >>sys.stderr, ('K4MobiDeDrm v%(__version__)s\n' % globals()) + "Error: " + str(e) + "\nDRM Removal Failed.\n"
-        return 1
-
-    if mobi:
-        if mb.getPrintReplica():
-            outfile = os.path.join(outdir, outfilename + '_nodrm' + '.azw4')
-        elif mb.getMobiVersion() >= 8:
-            outfile = os.path.join(outdir, outfilename + '_nodrm' + '.azw3')
-        else:
-            outfile = os.path.join(outdir, outfilename + '_nodrm' + '.mobi')
-        mb.getMobiFile(outfile)
-        return 0
-
-    # topaz:
-    print "   Creating NoDRM HTMLZ Archive"
-    zipname = os.path.join(outdir, outfilename + '_nodrm' + '.htmlz')
-    mb.getHTMLZip(zipname)
-
-    print "   Creating SVG ZIP Archive"
-    zipname = os.path.join(outdir, outfilename + '_SVG' + '.zip')
-    mb.getSVGZip(zipname)
-
-    if buildXML:
-        print "   Creating XML ZIP Archive"
-        zipname = os.path.join(outdir, outfilename + '_XML' + '.zip')
-        mb.getXMLZip(zipname)
-
-    # remove internal temporary directory of Topaz pieces
-    mb.cleanup()
-
-    return 0
-
-
-def usage(progname):
-    print "Removes DRM protection from K4PC/M, Kindle, Mobi and Topaz ebooks"
-    print "Usage:"
-    print "    %s [-k <kindle.info>] [-p <pidnums>] [-s <kindleSerialNumbers>] <infile> <outdir>  " % progname
-
-#
-# Main
-#
-def main(argv=sys.argv):
-    progname = os.path.basename(argv[0])
-
-    k4 = False
-    kInfoFiles = []
-    serials = []
-    pids = []
-
-    print ('K4MobiDeDrm v%(__version__)s '
-           'provided by the work of many including DiapDealer, SomeUpdates, IHeartCabbages, CMBDTC, Skindle, DarkReverser, ApprenticeAlf, etc .' % globals())
-
-    try:
-        opts, args = getopt.getopt(sys.argv[1:], "k:p:s:")
-    except getopt.GetoptError, err:
-        print str(err)
-        usage(progname)
-        sys.exit(2)
-    if len(args)<2:
-        usage(progname)
-        sys.exit(2)
-
-    for o, a in opts:
-        if o == "-k":
-            if a == None :
-                raise DrmException("Invalid parameter for -k")
-            kInfoFiles.append(a)
-        if o == "-p":
-            if a == None :
-                raise DrmException("Invalid parameter for -p")
-            pids = a.split(',')
-        if o == "-s":
-            if a == None :
-                raise DrmException("Invalid parameter for -s")
-            serials = a.split(',')
-
-    # try with built in Kindle Info files
-    k4 = True
-    if sys.platform.startswith('linux'):
-        k4 = False
-        kInfoFiles = None
-    infile = args[0]
-    outdir = args[1]
-    return decryptBook(infile, outdir, k4, kInfoFiles, serials, pids)
-
-
-if __name__ == '__main__':
-    sys.stdout=Unbuffered(sys.stdout)
-    sys.exit(main())
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/kgenpids.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/kgenpids.py
@@ -1,276 +0,0 @@
-#!/usr/bin/env python
-
-from __future__ import with_statement
-import sys
-import os, csv
-import binascii
-import zlib
-import re
-from struct import pack, unpack, unpack_from
-
-class DrmException(Exception):
-    pass
-
-global charMap1
-global charMap3
-global charMap4
-
-if 'calibre' in sys.modules:
-    inCalibre = True
-else:
-    inCalibre = False
-
-if inCalibre:
-    if sys.platform.startswith('win'):
-        from calibre_plugins.k4mobidedrm.k4pcutils import getKindleInfoFiles, getDBfromFile, GetUserName, GetIDString
-
-    if sys.platform.startswith('darwin'):
-        from calibre_plugins.k4mobidedrm.k4mutils import getKindleInfoFiles, getDBfromFile, GetUserName, GetIDString
-else:
-    if sys.platform.startswith('win'):
-        from k4pcutils import getKindleInfoFiles, getDBfromFile, GetUserName, GetIDString
-
-    if sys.platform.startswith('darwin'):
-        from k4mutils import getKindleInfoFiles, getDBfromFile, GetUserName, GetIDString
-
-
-charMap1 = "n5Pr6St7Uv8Wx9YzAb0Cd1Ef2Gh3Jk4M"
-charMap3 = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
-charMap4 = "ABCDEFGHIJKLMNPQRSTUVWXYZ123456789"
-
-# crypto digestroutines
-import hashlib
-
-def MD5(message):
-    ctx = hashlib.md5()
-    ctx.update(message)
-    return ctx.digest()
-
-def SHA1(message):
-    ctx = hashlib.sha1()
-    ctx.update(message)
-    return ctx.digest()
-
-
-# Encode the bytes in data with the characters in map
-def encode(data, map):
-    result = ""
-    for char in data:
-        value = ord(char)
-        Q = (value ^ 0x80) // len(map)
-        R = value % len(map)
-        result += map[Q]
-        result += map[R]
-    return result
-
-# Hash the bytes in data and then encode the digest with the characters in map
-def encodeHash(data,map):
-    return encode(MD5(data),map)
-
-# Decode the string in data with the characters in map. Returns the decoded bytes
-def decode(data,map):
-    result = ""
-    for i in range (0,len(data)-1,2):
-        high = map.find(data[i])
-        low = map.find(data[i+1])
-        if (high == -1) or (low == -1) :
-            break
-        value = (((high * len(map)) ^ 0x80) & 0xFF) + low
-        result += pack("B",value)
-    return result
-
-#
-# PID generation routines
-#
-
-# Returns two bit at offset from a bit field
-def getTwoBitsFromBitField(bitField,offset):
-    byteNumber = offset // 4
-    bitPosition = 6 - 2*(offset % 4)
-    return ord(bitField[byteNumber]) >> bitPosition & 3
-
-# Returns the six bits at offset from a bit field
-def getSixBitsFromBitField(bitField,offset):
-    offset *= 3
-    value = (getTwoBitsFromBitField(bitField,offset) <<4) + (getTwoBitsFromBitField(bitField,offset+1) << 2) +getTwoBitsFromBitField(bitField,offset+2)
-    return value
-
-# 8 bits to six bits encoding from hash to generate PID string
-def encodePID(hash):
-    global charMap3
-    PID = ""
-    for position in range (0,8):
-        PID += charMap3[getSixBitsFromBitField(hash,position)]
-    return PID
-
-# Encryption table used to generate the device PID
-def generatePidEncryptionTable() :
-    table = []
-    for counter1 in range (0,0x100):
-        value = counter1
-        for counter2 in range (0,8):
-            if (value & 1 == 0) :
-                value = value >> 1
-            else :
-                value = value >> 1
-                value = value ^ 0xEDB88320
-        table.append(value)
-    return table
-
-# Seed value used to generate the device PID
-def generatePidSeed(table,dsn) :
-    value = 0
-    for counter in range (0,4) :
-        index = (ord(dsn[counter]) ^ value) &0xFF
-        value = (value >> 8) ^ table[index]
-    return value
-
-# Generate the device PID
-def generateDevicePID(table,dsn,nbRoll):
-    global charMap4
-    seed = generatePidSeed(table,dsn)
-    pidAscii = ""
-    pid = [(seed >>24) &0xFF,(seed >> 16) &0xff,(seed >> 8) &0xFF,(seed) & 0xFF,(seed>>24) & 0xFF,(seed >> 16) &0xff,(seed >> 8) &0xFF,(seed) & 0xFF]
-    index = 0
-    for counter in range (0,nbRoll):
-        pid[index] = pid[index] ^ ord(dsn[counter])
-        index = (index+1) %8
-    for counter in range (0,8):
-        index = ((((pid[counter] >>5) & 3) ^ pid[counter]) & 0x1f) + (pid[counter] >> 7)
-        pidAscii += charMap4[index]
-    return pidAscii
-
-def crc32(s):
-    return (~binascii.crc32(s,-1))&0xFFFFFFFF
-
-# convert from 8 digit PID to 10 digit PID with checksum
-def checksumPid(s):
-    global charMap4
-    crc = crc32(s)
-    crc = crc ^ (crc >> 16)
-    res = s
-    l = len(charMap4)
-    for i in (0,1):
-        b = crc & 0xff
-        pos = (b // l) ^ (b % l)
-        res += charMap4[pos%l]
-        crc >>= 8
-    return res
-
-
-# old kindle serial number to fixed pid
-def pidFromSerial(s, l):
-    global charMap4
-    crc = crc32(s)
-    arr1 = [0]*l
-    for i in xrange(len(s)):
-        arr1[i%l] ^= ord(s[i])
-    crc_bytes = [crc >> 24 & 0xff, crc >> 16 & 0xff, crc >> 8 & 0xff, crc & 0xff]
-    for i in xrange(l):
-        arr1[i] ^= crc_bytes[i&3]
-    pid = ""
-    for i in xrange(l):
-        b = arr1[i] & 0xff
-        pid+=charMap4[(b >> 7) + ((b >> 5 & 3) ^ (b & 0x1f))]
-    return pid
-
-
-# Parse the EXTH header records and use the Kindle serial number to calculate the book pid.
-def getKindlePid(pidlst, rec209, token, serialnum):
-    # Compute book PID
-    pidHash = SHA1(serialnum+rec209+token)
-    bookPID = encodePID(pidHash)
-    bookPID = checksumPid(bookPID)
-    pidlst.append(bookPID)
-
-    # compute fixed pid for old pre 2.5 firmware update pid as well
-    bookPID = pidFromSerial(serialnum, 7) + "*"
-    bookPID = checksumPid(bookPID)
-    pidlst.append(bookPID)
-
-    return pidlst
-
-
-# parse the Kindleinfo file to calculate the book pid.
-
-keynames = ["kindle.account.tokens","kindle.cookie.item","eulaVersionAccepted","login_date","kindle.token.item","login","kindle.key.item","kindle.name.info","kindle.device.info", "MazamaRandomNumber"]
-
-def getK4Pids(pidlst, rec209, token, kInfoFile):
-    global charMap1
-    kindleDatabase = None
-    try:
-        kindleDatabase = getDBfromFile(kInfoFile)
-    except Exception, message:
-        print(message)
-        kindleDatabase = None
-        pass
-
-    if kindleDatabase == None :
-        return pidlst
-
-    try:
-        # Get the Mazama Random number
-        MazamaRandomNumber = kindleDatabase["MazamaRandomNumber"]
-
-        # Get the kindle account token
-        kindleAccountToken = kindleDatabase["kindle.account.tokens"]
-    except KeyError:
-        print "Keys not found in " + kInfoFile
-        return pidlst
-
-    # Get the ID string used
-    encodedIDString = encodeHash(GetIDString(),charMap1)
-
-    # Get the current user name
-    encodedUsername = encodeHash(GetUserName(),charMap1)
-
-    # concat, hash and encode to calculate the DSN
-    DSN = encode(SHA1(MazamaRandomNumber+encodedIDString+encodedUsername),charMap1)
-
-    # Compute the device PID (for which I can tell, is used for nothing).
-    table =  generatePidEncryptionTable()
-    devicePID = generateDevicePID(table,DSN,4)
-    devicePID = checksumPid(devicePID)
-    pidlst.append(devicePID)
-
-    # Compute book PIDs
-
-    # book pid
-    pidHash = SHA1(DSN+kindleAccountToken+rec209+token)
-    bookPID = encodePID(pidHash)
-    bookPID = checksumPid(bookPID)
-    pidlst.append(bookPID)
-
-    # variant 1
-    pidHash = SHA1(kindleAccountToken+rec209+token)
-    bookPID = encodePID(pidHash)
-    bookPID = checksumPid(bookPID)
-    pidlst.append(bookPID)
-
-    # variant 2
-    pidHash = SHA1(DSN+rec209+token)
-    bookPID = encodePID(pidHash)
-    bookPID = checksumPid(bookPID)
-    pidlst.append(bookPID)
-
-    return pidlst
-
-def getPidList(md1, md2, k4, pids, serials, kInfoFiles):
-    pidlst = []
-    if kInfoFiles is None:
-        kInfoFiles = []
-    if k4:
-        kInfoFiles = getKindleInfoFiles(kInfoFiles)
-    for infoFile in kInfoFiles:
-        try:
-            pidlst = getK4Pids(pidlst, md1, md2, infoFile)
-        except Exception, message:
-            print("Error getting PIDs from " + infoFile + ": " + message)
-    for serialnum in serials:
-        try:
-            pidlst = getKindlePid(pidlst, md1, md2, serialnum)
-        except Exception, message:
-            print("Error getting PIDs from " + serialnum + ": " + message)
-    for pid in pids:
-        pidlst.append(pid)
-    return pidlst
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/pbkdf2.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/pbkdf2.py
@@ -1,68 +0,0 @@
-# A simple implementation of pbkdf2 using stock python modules. See RFC2898
-# for details. Basically, it derives a key from a password and salt.
-
-# Copyright 2004 Matt Johnston <matt @ ucc asn au>
-# Copyright 2009 Daniel Holth <dholth@fastmail.fm>
-# This code may be freely used and modified for any purpose.
-
-# Revision history
-# v0.1  October 2004    - Initial release
-# v0.2  8 March 2007    - Make usable with hashlib in Python 2.5 and use
-# v0.3  ""                 the correct digest_size rather than always 20
-# v0.4  Oct 2009        - Rescue from chandler svn, test and optimize.
-
-import sys
-import hmac
-from struct import pack
-try:
-    # only in python 2.5
-    import hashlib
-    sha = hashlib.sha1
-    md5 = hashlib.md5
-    sha256 = hashlib.sha256
-except ImportError: # pragma: NO COVERAGE
-    # fallback
-    import sha
-    import md5
-
-# this is what you want to call.
-def pbkdf2( password, salt, itercount, keylen, hashfn = sha ):
-    try:
-        # depending whether the hashfn is from hashlib or sha/md5
-        digest_size = hashfn().digest_size
-    except TypeError: # pragma: NO COVERAGE
-        digest_size = hashfn.digest_size
-    # l - number of output blocks to produce
-    l = keylen / digest_size
-    if keylen % digest_size != 0:
-        l += 1
-
-    h = hmac.new( password, None, hashfn )
-
-    T = ""
-    for i in range(1, l+1):
-        T += pbkdf2_F( h, salt, itercount, i )
-
-    return T[0: keylen]
-
-def xorstr( a, b ):
-    if len(a) != len(b):
-        raise ValueError("xorstr(): lengths differ")
-    return ''.join((chr(ord(x)^ord(y)) for x, y in zip(a, b)))
-
-def prf( h, data ):
-    hm = h.copy()
-    hm.update( data )
-    return hm.digest()
-
-# Helper as per the spec. h is a hmac which has been created seeded with the
-# password, it will be copy()ed and not modified.
-def pbkdf2_F( h, salt, itercount, blocknum ):
-    U = prf( h, salt + pack('>i',blocknum ) )
-    T = U
-
-    for i in range(2, itercount+1):
-        U = prf( h, U )
-        T = xorstr( T, U )
-
-    return T
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/scrolltextwidget.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/scrolltextwidget.py
@@ -1,27 +0,0 @@
-#!/usr/bin/env python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-
-import Tkinter
-import Tkconstants
-
-# basic scrolled text widget
-class ScrolledText(Tkinter.Text):
-    def __init__(self, master=None, **kw):
-        self.frame = Tkinter.Frame(master)
-        self.vbar = Tkinter.Scrollbar(self.frame)
-        self.vbar.pack(side=Tkconstants.RIGHT, fill=Tkconstants.Y)
-        kw.update({'yscrollcommand': self.vbar.set})
-        Tkinter.Text.__init__(self, self.frame, **kw)
-        self.pack(side=Tkconstants.LEFT, fill=Tkconstants.BOTH, expand=True)
-        self.vbar['command'] = self.yview
-        # Copy geometry methods of self.frame without overriding Text
-        # methods = hack!
-        text_meths = vars(Tkinter.Text).keys()
-        methods = vars(Tkinter.Pack).keys() + vars(Tkinter.Grid).keys() + vars(Tkinter.Place).keys()
-        methods = set(methods).difference(text_meths)
-        for m in methods:
-            if m[0] != '_' and m != 'config' and m != 'configure':
-                setattr(self, m, getattr(self.frame, m))
-
-    def __str__(self):
-        return str(self.frame)
--- a/Calibre_Plugins/K4MobiDeDRM_plugin/stylexml2css.py
+++ b/Calibre_Plugins/K4MobiDeDRM_plugin/stylexml2css.py
@@ -1,266 +0,0 @@
-#! /usr/bin/python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-# For use with Topaz Scripts Version 2.6
-
-import csv
-import sys
-import os
-import getopt
-import re
-from struct import pack
-from struct import unpack
-
-
-class DocParser(object):
-    def __init__(self, flatxml, fontsize, ph, pw):
-        self.flatdoc = flatxml.split('\n')
-        self.fontsize = int(fontsize)
-        self.ph = int(ph) * 1.0
-        self.pw = int(pw) * 1.0
-
-    stags = {
-        'paragraph' : 'p',
-        'graphic'   : '.graphic'
-    }
-
-    attr_val_map = {
-        'hang'            : 'text-indent: ',
-        'indent'          : 'text-indent: ',
-        'line-space'      : 'line-height: ',
-        'margin-bottom'   : 'margin-bottom: ',
-        'margin-left'     : 'margin-left: ',
-        'margin-right'    : 'margin-right: ',
-        'margin-top'      : 'margin-top: ',
-        'space-after'     : 'padding-bottom: ',
-    }
-
-    attr_str_map = {
-        'align-center' : 'text-align: center; margin-left: auto; margin-right: auto;',
-        'align-left'   : 'text-align: left;',
-        'align-right'  : 'text-align: right;',
-        'align-justify' : 'text-align: justify;',
-        'display-inline' : 'display: inline;',
-        'pos-left' : 'text-align: left;',
-        'pos-right' : 'text-align: right;',
-        'pos-center' : 'text-align: center; margin-left: auto; margin-right: auto;',
-    }
-
-
-    # find tag if within pos to end inclusive
-    def findinDoc(self, tagpath, pos, end) :
-        result = None
-        docList = self.flatdoc
-        cnt = len(docList)
-        if end == -1 :
-            end = cnt
-        else:
-            end = min(cnt,end)
-        foundat = -1
-        for j in xrange(pos, end):
-            item = docList[j]
-            if item.find('=') >= 0:
-                (name, argres) = item.split('=',1)
-            else :
-                name = item
-                argres = ''
-            if name.endswith(tagpath) :
-                result = argres
-                foundat = j
-                break
-        return foundat, result
-
-
-    # return list of start positions for the tagpath
-    def posinDoc(self, tagpath):
-        startpos = []
-        pos = 0
-        res = ""
-        while res != None :
-            (foundpos, res) = self.findinDoc(tagpath, pos, -1)
-            if res != None :
-                startpos.append(foundpos)
-            pos = foundpos + 1
-        return startpos
-
-    # returns a vector of integers for the tagpath
-    def getData(self, tagpath, pos, end, clean=False):
-        if clean:
-            digits_only = re.compile(r'''([0-9]+)''')
-        argres=[]
-        (foundat, argt) = self.findinDoc(tagpath, pos, end)
-        if (argt != None) and (len(argt) > 0) :
-            argList = argt.split('|')
-            for strval in argList:
-                if clean:
-                    m = re.search(digits_only, strval)
-                    if m != None:
-                        strval = m.group()
-                argres.append(int(strval))
-        return argres
-
-    def process(self):
-
-        classlst = ''
-        csspage = '.cl-center { text-align: center; margin-left: auto; margin-right: auto; }\n'
-        csspage += '.cl-right { text-align: right; }\n'
-        csspage += '.cl-left { text-align: left; }\n'
-        csspage += '.cl-justify { text-align: justify; }\n'
-
-        # generate a list of each <style> starting point in the stylesheet
-        styleList= self.posinDoc('book.stylesheet.style')
-        stylecnt = len(styleList)
-        styleList.append(-1)
-
-        # process each style converting what you can
-
-        for j in xrange(stylecnt):
-            start = styleList[j]
-            end = styleList[j+1]
-
-            (pos, tag) = self.findinDoc('style._tag',start,end)
-            if tag == None :
-                (pos, tag) = self.findinDoc('style.type',start,end)
-
-            # Is this something we know how to convert to css
-            if tag in self.stags :
-
-                # get the style class
-                (pos, sclass) = self.findinDoc('style.class',start,end)
-                if sclass != None:
-                    sclass = sclass.replace(' ','-')
-                    sclass = '.cl-' + sclass.lower()
-                else :
-                    sclass = ''
-
-                # check for any "after class" specifiers
-                (pos, aftclass) = self.findinDoc('style._after_class',start,end)
-                if aftclass != None:
-                    aftclass = aftclass.replace(' ','-')
-                    aftclass = '.cl-' + aftclass.lower()
-                else :
-                    aftclass = ''
-
-                cssargs = {}
-
-                while True :
-
-                    (pos1, attr) = self.findinDoc('style.rule.attr', start, end)
-                    (pos2, val) = self.findinDoc('style.rule.value', start, end)
-
-                    if attr == None : break
-
-                    if (attr == 'display') or (attr == 'pos') or (attr == 'align'):
-                        # handle text based attributess
-                        attr = attr + '-' + val
-                        if attr in self.attr_str_map :
-                            cssargs[attr] = (self.attr_str_map[attr], '')
-                    else :
-                        # handle value based attributes
-                        if attr in self.attr_val_map :
-                            name = self.attr_val_map[attr]
-                            if attr in ('margin-bottom', 'margin-top', 'space-after') :
-                                scale = self.ph
-                            elif attr in ('margin-right', 'indent', 'margin-left', 'hang') :
-                                scale = self.pw
-                            elif attr == 'line-space':
-                                scale = self.fontsize * 2.0
-                            
-                            if val == "":
-                                val = 0
-
-                            if not ((attr == 'hang') and (int(val) == 0)) :
-                                pv = float(val)/scale
-                                cssargs[attr] = (self.attr_val_map[attr], pv)
-                                keep = True
-
-                    start = max(pos1, pos2) + 1
-
-                # disable all of the after class tags until I figure out how to handle them
-                if aftclass != "" : keep = False
-
-                if keep :
-                    # make sure line-space does not go below 100% or above 300% since
-                    # it can be wacky in some styles
-                    if 'line-space' in cssargs:
-                        seg = cssargs['line-space'][0]
-                        val = cssargs['line-space'][1]
-                        if val < 1.0: val = 1.0
-                        if val > 3.0: val = 3.0
-                        del cssargs['line-space']
-                        cssargs['line-space'] = (self.attr_val_map['line-space'], val)
-
-
-                    # handle modifications for css style hanging indents
-                    if 'hang' in cssargs:
-                        hseg = cssargs['hang'][0]
-                        hval = cssargs['hang'][1]
-                        del cssargs['hang']
-                        cssargs['hang'] = (self.attr_val_map['hang'], -hval)
-                        mval = 0
-                        mseg = 'margin-left: '
-                        mval = hval
-                        if 'margin-left' in cssargs:
-                            mseg = cssargs['margin-left'][0]
-                            mval = cssargs['margin-left'][1]
-                            if mval < 0: mval = 0
-                            mval = hval + mval
-                        cssargs['margin-left'] = (mseg, mval)
-                        if 'indent' in cssargs:
-                            del cssargs['indent']
-
-                    cssline = sclass + ' { '
-                    for key in iter(cssargs):
-                        mseg = cssargs[key][0]
-                        mval = cssargs[key][1]
-                        if mval == '':
-                            cssline += mseg + ' '
-                        else :
-                            aseg = mseg + '%.1f%%;' % (mval * 100.0)
-                            cssline += aseg + ' '
-
-                    cssline += '}'
-
-                    if sclass != '' :
-                        classlst += sclass + '\n'
-
-                    # handle special case of paragraph class used inside chapter heading
-                    # and non-chapter headings
-                    if sclass != '' :
-                        ctype = sclass[4:7]
-                        if ctype == 'ch1' :
-                            csspage += 'h1' + cssline + '\n'
-                        if ctype == 'ch2' :
-                            csspage += 'h2' + cssline + '\n'
-                        if ctype == 'ch3' :
-                            csspage += 'h3' + cssline + '\n'
-                        if ctype == 'h1-' :
-                            csspage += 'h4' + cssline + '\n'
-                        if ctype == 'h2-' :
-                            csspage += 'h5' + cssline + '\n'
-                        if ctype == 'h3_' :
-                            csspage += 'h6' + cssline + '\n'
-
-                    if cssline != ' { }':
-                        csspage += self.stags[tag] + cssline + '\n'
-
-
-        return csspage, classlst
-
-
-
-def convert2CSS(flatxml, fontsize, ph, pw):
-
-    print '          ', 'Using font size:',fontsize
-    print '          ', 'Using page height:', ph
-    print '          ', 'Using page width:', pw
-
-    # create a document parser
-    dp = DocParser(flatxml, fontsize, ph, pw)
-    csspage = dp.process()
-    return csspage
-
-
-def getpageIDMap(flatxml):
-    dp = DocParser(flatxml, 0, 0, 0)
-    pageidnumbers = dp.getData('info.original.pid', 0, -1, True)
-    return pageidnumbers
--- a/Calibre_Plugins/eReaderPDB2PML
+++ b/Calibre_Plugins/eReaderPDB2PML
@@ -1,31 +0,0 @@
-eReader PDB2PML - eReaderPDB2PML_v06_plugin.zip
-
-All credit given to The Dark Reverser for the original standalone script. I had the much easier job of converting it to a Calibre plugin.
-
-This plugin is meant to convert secure Ereader files (PDB) to unsecured PMLZ files. Calibre can then convert it to whatever format you desire. It is meant to function without having to install any  dependencies... other than having Calibre installed, of course. I've included the psyco libraries (compiled for each platform) for speed. If your system can use them, great! Otherwise, they won't be used and things will just work slower.
-
-
-Installation:
-
-Go to Calibre's Preferences page. Do **NOT** select "Get Plugins to enhance calibre" as this is reserved for "official" calibre plugins, instead select "Change calibre behavior". Under "Advanced" click on the Plugins button. Use the "Load plugin from file" button to select the plugin's zip file  (eReaderPDB2PML_vXX_plugin.zip) and click the 'Add' button. You're done.
-
-
-Please note:  Calibre does not provide any immediate feedback to indicate that adding the plugin was a success. You can always click on the File-Type plugins to see if the plugin was added.
-
-
-Configuration:
-
-Highlight the plugin (eReader PDB 2 PML under the "File type plugins" category) and click the "Customize Plugin" button on Calibre's Preferences->Plugins page. Enter your name and last 8 digits of the credit card number separated by a comma: Your Name,12341234
-
-If you've purchased books with more than one credit card, separate the info with a colon: Your Name,12341234:Other Name,23452345 (NOTE: Do NOT put quotes around your name like you do with the original script!!)
-
-
-Troubleshooting:
-
-If you find that it's not working for you (imported pdb's are not converted to pmlz format), you can save a lot of time and trouble by trying to add the pdb to Calibre with the command line tools. This will print out a lot of helpful debugging info that can be copied into any online help requests. I'm going to ask you to do it first, anyway, so you might as well get used to it. ;)
-
-Open a command prompt (terminal) and change to the directory where the ebook you're trying to import resides. Then type the command "calibredb add your_ebook.pdb". Don't type the quotes and obviously change the 'your_ebook.pdb' to whatever the filename of your book is. Copy the resulting output and paste it into any online help request you make.
-
-** Note: the Mac version of Calibre doesn't install the command line tools by default. If you go to the 'Preferences' page and click on the miscellaneous button, you'll see the option to install the command line tools.
-
-
--- a/Calibre_Plugins/eReaderPDB2PML_plugin.zip
+++ b/Calibre_Plugins/eReaderPDB2PML_plugin.zip
--- a/Calibre_Plugins/eReaderPDB2PML_plugin/init.py
+++ b/Calibre_Plugins/eReaderPDB2PML_plugin/init.py
@@ -1,140 +0,0 @@
-#!/usr/bin/env python
-
-# eReaderPDB2PML_plugin.py
-# Released under the terms of the GNU General Public Licence, version 3 or
-# later.  <http://www.gnu.org/licenses/>
-#
-# All credit given to The Dark Reverser for the original standalone script.
-# I had the much easier job of converting it to Calibre a plugin.
-#
-# This plugin is meant to convert secure Ereader files (PDB) to unsecured PMLZ files.
-# Calibre can then convert it to whatever format you desire.
-# It is meant to function without having to install any dependencies...
-# other than having Calibre installed, of course. 
-#
-# Installation:
-# Go to Calibre's Preferences page... click on the Plugins button. Use the file
-# dialog button to select the plugin's zip file (eReaderPDB2PML_vXX_plugin.zip) and
-# click the 'Add' button. You're done.
-#
-# Configuration:
-# Highlight the plugin (eReader PDB 2 PML) and click the
-# "Customize Plugin" button on Calibre's Preferences->Plugins page.
-# Enter your name and the last 8 digits of the credit card number separated by
-# a comma: Your Name,12341234
-#
-# If you've purchased books with more than one credit card, separate the info with
-# a colon: Your Name,12341234:Other Name,23452345
-# NOTE: Do NOT put quotes around your name like you do with the original script!!
-#
-# Revision history:
-#   0.0.1 - Initial release
-#   0.0.2 - updated to distinguish it from earlier non-openssl version
-#   0.0.3 - removed added psyco code as it is not supported under Calibre's Python 2.7
-#   0.0.4 - minor typos fixed
-#   0.0.5 - updated to the new calibre plugin interface
-
-import sys, os
-
-from calibre.customize import FileTypePlugin
-from calibre.ptempfile import PersistentTemporaryDirectory
-from calibre.constants import iswindows, isosx
-from calibre_plugins.erdrpdb2pml import erdr2pml
-
-class eRdrDeDRM(FileTypePlugin):
-    name                = 'eReader PDB 2 PML' # Name of the plugin
-    description         = 'Removes DRM from secure pdb files. \
-                            Credit given to The Dark Reverser for the original standalone script.'
-    supported_platforms = ['linux', 'osx', 'windows'] # Platforms this plugin will run on
-    author              = 'DiapDealer' # The author of this plugin
-    version             = (0, 0, 6)   # The version number of this plugin
-    file_types          = set(['pdb']) # The file types that this plugin will be applied to
-    on_import           = True # Run this plugin during the import
-    minimum_calibre_version = (0, 7, 55)
-
-    def run(self, path_to_ebook):
-        
-        global bookname, erdr2pml
-        
-        infile = path_to_ebook
-        bookname = os.path.splitext(os.path.basename(infile))[0]
-        outdir = PersistentTemporaryDirectory()
-        pmlzfile = self.temporary_file(bookname + '.pmlz')
-        
-        if self.site_customization:
-            keydata = self.site_customization
-            ar = keydata.split(':')
-            for i in ar:
-                try:
-                    name, cc = i.split(',')
-                except ValueError:
-                    print '   Error parsing user supplied data.'
-                    return path_to_ebook
-
-                try:
-                    print "Processing..."
-                    import time
-                    start_time = time.time()
-                    pmlfilepath = self.convertEreaderToPml(infile, name, cc, outdir)
-                    
-                    if pmlfilepath and pmlfilepath != 1:
-                        import zipfile
-                        print "   Creating PMLZ file"
-                        myZipFile = zipfile.ZipFile(pmlzfile.name,'w',zipfile.ZIP_STORED, False)
-                        list = os.listdir(outdir)
-                        for file in list:
-                            localname = file
-                            filePath = os.path.join(outdir,file)
-                            if os.path.isfile(filePath):
-                                myZipFile.write(filePath, localname)
-                            elif os.path.isdir(filePath):
-                                imageList = os.listdir(filePath)
-                                localimgdir = os.path.basename(filePath)
-                                for image in imageList:
-                                    localname = os.path.join(localimgdir,image)
-                                    imagePath = os.path.join(filePath,image)
-                                    if os.path.isfile(imagePath):
-                                        myZipFile.write(imagePath, localname)
-                        myZipFile.close()
-                        end_time = time.time()
-                        search_time = end_time - start_time
-                        print 'elapsed time: %.2f seconds' % (search_time, ) 
-                        print "done"
-                        return pmlzfile.name
-                    else:
-                        raise ValueError('Error Creating PML file.')
-                except ValueError, e:
-                        print "Error: %s" % e
-                        pass
-            raise Exception('Couldn\'t decrypt pdb file.')
-        else:
-            raise Exception('No name and CC# provided.')
-        
-    def convertEreaderToPml(self, infile, name, cc, outdir):
-
-        print "   Decoding File"
-        sect = erdr2pml.Sectionizer(infile, 'PNRdPPrs')
-        er = erdr2pml.EreaderProcessor(sect, name, cc)
-
-        if er.getNumImages() > 0:
-            print "   Extracting images"
-            #imagedir = bookname + '_img/'
-            imagedir = 'images/'
-            imagedirpath = os.path.join(outdir,imagedir)
-            if not os.path.exists(imagedirpath):
-                os.makedirs(imagedirpath)
-            for i in xrange(er.getNumImages()):
-                name, contents = er.getImage(i)
-                file(os.path.join(imagedirpath, name), 'wb').write(contents)
-
-        print "   Extracting pml"
-        pml_string = er.getText()
-        pmlfilename = bookname + ".pml"
-        try:
-            file(os.path.join(outdir, pmlfilename),'wb').write(erdr2pml.cleanPML(pml_string))
-            return os.path.join(outdir, pmlfilename)
-        except:
-            return 1
- 
-    def customization_help(self, gui=False):
-        return 'Enter Account Name & Last 8 digits of Credit Card number (separate with a comma)'
--- a/Calibre_Plugins/eReaderPDB2PML_plugin/erdr2pml.py
+++ b/Calibre_Plugins/eReaderPDB2PML_plugin/erdr2pml.py
@@ -1,527 +0,0 @@
-#!/usr/bin/env python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-#
-# erdr2pml.py
-#
-# This is a python script. You need a Python interpreter to run it.
-# For example, ActiveState Python, which exists for windows.
-# Changelog
-#
-#  Based on ereader2html version 0.08 plus some later small fixes
-#
-#  0.01 - Initial version
-#  0.02 - Support more eReader files. Support bold text and links. Fix PML decoder parsing bug.
-#  0.03 - Fix incorrect variable usage at one place.
-#  0.03b - enhancement by DeBockle (version 259 support)
-# Custom version 0.03 - no change to eReader support, only usability changes
-#   - start of pep-8 indentation (spaces not tab), fix trailing blanks
-#   - version variable, only one place to change
-#   - added main routine, now callable as a library/module, 
-#     means tools can add optional support for ereader2html
-#   - outdir is no longer a mandatory parameter (defaults based on input name if missing)
-#   - time taken output to stdout
-#   - Psyco support - reduces runtime by a factor of (over) 3!
-#     E.g. (~600Kb file) 90 secs down to 24 secs
-#       - newstyle classes
-#       - changed map call to list comprehension
-#         may not work with python 2.3
-#         without Psyco this reduces runtime to 90%
-#         E.g. 90 secs down to 77 secs
-#         Psyco with map calls takes longer, do not run with map in Psyco JIT!
-#       - izip calls used instead of zip (if available), further reduction
-#         in run time (factor of 4.5).
-#         E.g. (~600Kb file) 90 secs down to 20 secs
-#   - Python 2.6+ support, avoid DeprecationWarning with sha/sha1
-#  0.04 - Footnote support, PML output, correct charset in html, support more PML tags
-#   - Feature change, dump out PML file
-#   - Added supprt for footnote tags. NOTE footnote ids appear to be bad (not usable)
-#       in some pdb files :-( due to the same id being used multiple times
-#   - Added correct charset encoding (pml is based on cp1252)
-#   - Added logging support.
-#  0.05 - Improved type 272 support for sidebars, links, chapters, metainfo, etc
-#  0.06 - Merge of 0.04 and 0.05. Improved HTML output
-#         Placed images in subfolder, so that it's possible to just
-#         drop the book.pml file onto DropBook to make an unencrypted
-#         copy of the eReader file.
-#         Using that with Calibre works a lot better than the HTML
-#         conversion in this code.
-#  0.07 - Further Improved type 272 support for sidebars with all earlier fixes
-#  0.08 - fixed typos, removed extraneous things
-#  0.09 - fixed typos in first_pages to first_page to again support older formats
-#  0.10 - minor cleanups
-#  0.11 - fixups for using correct xml for footnotes and sidebars for use with Dropbook
-#  0.12 - Fix added to prevent lowercasing of image names when the pml code itself uses a different case in the link name.
-#  0.13 - change to unbuffered stdout for use with gui front ends
-#  0.14 - contributed enhancement to support --make-pmlz switch
-#  0.15 - enabled high-ascii to pml character encoding. DropBook now works on Mac.
-#  0.16 - convert to use openssl DES (very very fast) or pure python DES if openssl's libcrypto is not available
-#  0.17 - added support for pycrypto's DES as well
-#  0.18 - on Windows try PyCrypto first and OpenSSL next
-#  0.19 - Modify the interface to allow use of import
-#  0.20 - modify to allow use inside new interface for calibre plugins
-#  0.21 - Support eReader (drm) version 11. 
-#       - Don't reject dictionary format. 
-#       - Ignore sidebars for dictionaries (different format?)
-
-__version__='0.21'
-
-class Unbuffered:
-    def __init__(self, stream):
-        self.stream = stream
-    def write(self, data):
-        self.stream.write(data)
-        self.stream.flush()
-    def __getattr__(self, attr):
-        return getattr(self.stream, attr)
-
-import sys
-import struct, binascii, getopt, zlib, os, os.path, urllib, tempfile
-
-if 'calibre' in sys.modules:
-    inCalibre = True
-else:
-    inCalibre = False
-
-Des = None
-if sys.platform.startswith('win'):
-    # first try with pycrypto
-    if inCalibre:
-        from calibre_plugins.erdrpdb2pml import pycrypto_des
-    else:
-        import pycrypto_des
-    Des = pycrypto_des.load_pycrypto()
-    if Des == None:
-        # they try with openssl
-        if inCalibre:
-            from calibre_plugins.erdrpdb2pml import openssl_des
-        else:
-            import openssl_des
-        Des = openssl_des.load_libcrypto()
-else:
-    # first try with openssl
-    if inCalibre:
-        from calibre_plugins.erdrpdb2pml import openssl_des
-    else:
-        import openssl_des
-    Des = openssl_des.load_libcrypto()
-    if Des == None:
-        # then try with pycrypto
-        if inCalibre:
-            from calibre_plugins.erdrpdb2pml import pycrypto_des
-        else:
-            import pycrypto_des
-        Des = pycrypto_des.load_pycrypto()
-
-# if that did not work then use pure python implementation
-# of DES and try to speed it up with Psycho
-if Des == None:
-    if inCalibre:
-        from calibre_plugins.erdrpdb2pml import python_des
-    else:
-        import python_des
-    Des = python_des.Des
-    # Import Psyco if available
-    try:
-        # http://psyco.sourceforge.net
-        import psyco
-        psyco.full()
-    except ImportError:
-        pass
-
-try:
-    from hashlib import sha1
-except ImportError:
-    # older Python release
-    import sha
-    sha1 = lambda s: sha.new(s)
-
-import cgi
-import logging
-
-logging.basicConfig()
-#logging.basicConfig(level=logging.DEBUG)
-
-
-class Sectionizer(object):
-    bkType = "Book"
-
-    def __init__(self, filename, ident):
-        self.contents = file(filename, 'rb').read()
-        self.header = self.contents[0:72]
-        self.num_sections, = struct.unpack('>H', self.contents[76:78])
-        # Dictionary or normal content (TODO: Not hard-coded)
-        if self.header[0x3C:0x3C+8] != ident:
-            if self.header[0x3C:0x3C+8] == "PDctPPrs":
-                self.bkType = "Dict"
-            else:
-                raise ValueError('Invalid file format')
-        self.sections = []
-        for i in xrange(self.num_sections):
-            offset, a1,a2,a3,a4 = struct.unpack('>LBBBB', self.contents[78+i*8:78+i*8+8])
-            flags, val = a1, a2<<16|a3<<8|a4
-            self.sections.append( (offset, flags, val) )
-    def loadSection(self, section):
-        if section + 1 == self.num_sections:
-            end_off = len(self.contents)
-        else:
-            end_off = self.sections[section + 1][0]
-        off = self.sections[section][0]
-        return self.contents[off:end_off]
-
-def sanitizeFileName(s):
-    r = ''
-    for c in s:
-        if c in "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789_.-":
-            r += c
-    return r
-
-def fixKey(key):
-    def fixByte(b):
-        return b ^ ((b ^ (b<<1) ^ (b<<2) ^ (b<<3) ^ (b<<4) ^ (b<<5) ^ (b<<6) ^ (b<<7) ^ 0x80) & 0x80)
-    return 	"".join([chr(fixByte(ord(a))) for a in key])
-
-def deXOR(text, sp, table):
-    r=''
-    j = sp
-    for i in xrange(len(text)):
-        r += chr(ord(table[j]) ^ ord(text[i]))
-        j = j + 1
-        if j == len(table):
-            j = 0
-    return r
-
-class EreaderProcessor(object):
-    def __init__(self, sect, username, creditcard):
-        self.section_reader = sect.loadSection
-        data = self.section_reader(0)
-        version,  = struct.unpack('>H', data[0:2])
-        self.version = version
-        logging.info('eReader file format version %s', version)
-        if version != 272 and version != 260 and version != 259:
-            raise ValueError('incorrect eReader version %d (error 1)' % version)
-        data = self.section_reader(1)
-        self.data = data
-        des = Des(fixKey(data[0:8]))
-        cookie_shuf, cookie_size = struct.unpack('>LL', des.decrypt(data[-8:]))
-        if cookie_shuf < 3 or cookie_shuf > 0x14 or cookie_size < 0xf0 or cookie_size > 0x200:
-            raise ValueError('incorrect eReader version (error 2)')
-        input = des.decrypt(data[-cookie_size:])
-        def unshuff(data, shuf):
-            r = [''] * len(data)
-            j = 0
-            for i in xrange(len(data)):
-                j = (j + shuf) % len(data)
-                r[j] = data[i]
-            assert	len("".join(r)) == len(data)
-            return "".join(r)
-        r = unshuff(input[0:-8], cookie_shuf)
-
-        def fixUsername(s):
-            r = ''
-            for c in s.lower():
-                if (c >= 'a' and c <= 'z' or c >= '0' and c <= '9'):
-                    r += c
-            return r
-
-        user_key = struct.pack('>LL', binascii.crc32(fixUsername(username)) & 0xffffffff, binascii.crc32(creditcard[-8:])& 0xffffffff)
-        drm_sub_version = struct.unpack('>H', r[0:2])[0]
-        self.num_text_pages = struct.unpack('>H', r[2:4])[0] - 1
-        self.num_image_pages = struct.unpack('>H', r[26:26+2])[0]
-        self.first_image_page = struct.unpack('>H', r[24:24+2])[0]
-        # Default values
-        self.num_footnote_pages = 0
-        self.num_sidebar_pages = 0
-        self.first_footnote_page = -1
-        self.first_sidebar_page = -1
-        if self.version == 272:
-            self.num_footnote_pages = struct.unpack('>H', r[46:46+2])[0]
-            self.first_footnote_page = struct.unpack('>H', r[44:44+2])[0]
-            if (sect.bkType == "Book"):
-                self.num_sidebar_pages = struct.unpack('>H', r[38:38+2])[0]
-                self.first_sidebar_page = struct.unpack('>H', r[36:36+2])[0]
-            # self.num_bookinfo_pages = struct.unpack('>H', r[34:34+2])[0]
-            # self.first_bookinfo_page = struct.unpack('>H', r[32:32+2])[0]
-            # self.num_chapter_pages = struct.unpack('>H', r[22:22+2])[0]
-            # self.first_chapter_page = struct.unpack('>H', r[20:20+2])[0]
-            # self.num_link_pages = struct.unpack('>H', r[30:30+2])[0]
-            # self.first_link_page = struct.unpack('>H', r[28:28+2])[0]
-            # self.num_xtextsize_pages = struct.unpack('>H', r[54:54+2])[0]
-            # self.first_xtextsize_page = struct.unpack('>H', r[52:52+2])[0]
-
-            # **before** data record 1 was decrypted and unshuffled, it contained data
-            # to create an XOR table and which is used to fix footnote record 0, link records, chapter records, etc
-            self.xortable_offset  = struct.unpack('>H', r[40:40+2])[0]
-            self.xortable_size = struct.unpack('>H', r[42:42+2])[0]
-            self.xortable = self.data[self.xortable_offset:self.xortable_offset + self.xortable_size]
-        else:
-            # Nothing needs to be done
-            pass
-            # self.num_bookinfo_pages = 0
-            # self.num_chapter_pages = 0
-            # self.num_link_pages = 0
-            # self.num_xtextsize_pages = 0
-            # self.first_bookinfo_page = -1
-            # self.first_chapter_page = -1
-            # self.first_link_page = -1
-            # self.first_xtextsize_page = -1
-
-        logging.debug('self.num_text_pages %d', self.num_text_pages)
-        logging.debug('self.num_footnote_pages %d, self.first_footnote_page %d', self.num_footnote_pages , self.first_footnote_page)
-        logging.debug('self.num_sidebar_pages %d, self.first_sidebar_page %d', self.num_sidebar_pages , self.first_sidebar_page)
-        self.flags = struct.unpack('>L', r[4:8])[0]
-        reqd_flags = (1<<9) | (1<<7) | (1<<10)
-        if (self.flags & reqd_flags) != reqd_flags:
-            print "Flags: 0x%X" % self.flags
-            raise ValueError('incompatible eReader file')
-        des = Des(fixKey(user_key))
-        if version == 259:
-            if drm_sub_version != 7:
-                raise ValueError('incorrect eReader version %d (error 3)' % drm_sub_version)
-            encrypted_key_sha = r[44:44+20]
-            encrypted_key = r[64:64+8]
-        elif version == 260:
-            if drm_sub_version != 13 and drm_sub_version != 11:
-                raise ValueError('incorrect eReader version %d (error 3)' % drm_sub_version)
-            if drm_sub_version == 13:
-                encrypted_key = r[44:44+8]
-                encrypted_key_sha = r[52:52+20]
-            else:
-                encrypted_key = r[64:64+8]
-                encrypted_key_sha = r[44:44+20]
-        elif version == 272:
-            encrypted_key = r[172:172+8]
-            encrypted_key_sha = r[56:56+20]
-        self.content_key = des.decrypt(encrypted_key)
-        if sha1(self.content_key).digest() != encrypted_key_sha:
-            raise ValueError('Incorrect Name and/or Credit Card')
-
-    def getNumImages(self):
-        return self.num_image_pages
-
-    def getImage(self, i):
-        sect = self.section_reader(self.first_image_page + i)
-        name = sect[4:4+32].strip('\0')
-        data = sect[62:]
-        return sanitizeFileName(name), data
-
-
-    # def getChapterNamePMLOffsetData(self):
-    #     cv = ''
-    #     if self.num_chapter_pages > 0:
-    #         for i in xrange(self.num_chapter_pages):
-    #             chaps = self.section_reader(self.first_chapter_page + i)
-    #             j = i % self.xortable_size
-    #             offname = deXOR(chaps, j, self.xortable)
-    #             offset = struct.unpack('>L', offname[0:4])[0]
-    #             name = offname[4:].strip('\0')
-    #             cv += '%d|%s\n' % (offset, name) 
-    #     return cv
-
-    # def getLinkNamePMLOffsetData(self):
-    #     lv = ''
-    #     if self.num_link_pages > 0:
-    #         for i in xrange(self.num_link_pages):
-    #             links = self.section_reader(self.first_link_page + i)
-    #             j = i % self.xortable_size
-    #             offname = deXOR(links, j, self.xortable)
-    #             offset = struct.unpack('>L', offname[0:4])[0]
-    #             name = offname[4:].strip('\0')
-    #             lv += '%d|%s\n' % (offset, name) 
-    #     return lv
-
-    # def getExpandedTextSizesData(self):
-    #      ts = ''
-    #      if self.num_xtextsize_pages > 0:
-    #          tsize = deXOR(self.section_reader(self.first_xtextsize_page), 0, self.xortable)
-    #          for i in xrange(self.num_text_pages):
-    #              xsize = struct.unpack('>H', tsize[0:2])[0]
-    #              ts += "%d\n" % xsize
-    #              tsize = tsize[2:]
-    #      return ts
-
-    # def getBookInfo(self):
-    #     bkinfo = ''
-    #     if self.num_bookinfo_pages > 0:
-    #         info = self.section_reader(self.first_bookinfo_page)
-    #         bkinfo = deXOR(info, 0, self.xortable)
-    #         bkinfo = bkinfo.replace('\0','|')
-    #         bkinfo += '\n'
-    #     return bkinfo
-
-    def getText(self):
-        des = Des(fixKey(self.content_key))
-        r = ''
-        for i in xrange(self.num_text_pages):
-            logging.debug('get page %d', i)
-            r += zlib.decompress(des.decrypt(self.section_reader(1 + i)))
-             
-        # now handle footnotes pages
-        if self.num_footnote_pages > 0:
-            r += '\n'
-            # the record 0 of the footnote section must pass through the Xor Table to make it useful
-            sect = self.section_reader(self.first_footnote_page)
-            fnote_ids = deXOR(sect, 0, self.xortable)
-            # the remaining records of the footnote sections need to be decoded with the content_key and zlib inflated
-            des = Des(fixKey(self.content_key))
-            for i in xrange(1,self.num_footnote_pages):
-                logging.debug('get footnotepage %d', i)
-                id_len = ord(fnote_ids[2])
-                id = fnote_ids[3:3+id_len]
-                fmarker = '<footnote id="%s">\n' % id
-                fmarker += zlib.decompress(des.decrypt(self.section_reader(self.first_footnote_page + i)))
-                fmarker += '\n</footnote>\n'
-                r += fmarker
-                fnote_ids = fnote_ids[id_len+4:]
-
-        # TODO: Handle dictionary index (?) pages - which are also marked as
-        # sidebar_pages (?). For now dictionary sidebars are ignored
-        # For dictionaries - record 0 is null terminated strings, followed by
-        # blocks of around 62000 bytes and a final block. Not sure of the
-        # encoding
-
-        # now handle sidebar pages
-        if self.num_sidebar_pages > 0:
-            r += '\n'
-            # the record 0 of the sidebar section must pass through the Xor Table to make it useful
-            sect = self.section_reader(self.first_sidebar_page)
-            sbar_ids = deXOR(sect, 0, self.xortable)
-            # the remaining records of the sidebar sections need to be decoded with the content_key and zlib inflated
-            des = Des(fixKey(self.content_key))
-            for i in xrange(1,self.num_sidebar_pages):
-                id_len = ord(sbar_ids[2])
-                id = sbar_ids[3:3+id_len]
-                smarker = '<sidebar id="%s">\n' % id
-                smarker += zlib.decompress(des.decrypt(self.section_reader(self.first_sidebar_page + i)))
-                smarker += '\n</sidebar>\n'
-                r += smarker
-                sbar_ids = sbar_ids[id_len+4:]
-
-        return r
-
-def cleanPML(pml):
-	# Convert special characters to proper PML code.  High ASCII start at (\x80, \a128) and go up to (\xff, \a255)
-	pml2 = pml
-	for k in xrange(128,256):
-		badChar = chr(k)
-		pml2 = pml2.replace(badChar, '\\a%03d' % k)
-	return pml2
-
-def convertEreaderToPml(infile, name, cc, outdir):
-    if not os.path.exists(outdir):
-        os.makedirs(outdir)
-    bookname = os.path.splitext(os.path.basename(infile))[0]
-    print "   Decoding File"
-    sect = Sectionizer(infile, 'PNRdPPrs')
-    er = EreaderProcessor(sect, name, cc)
-
-    if er.getNumImages() > 0:
-        print "   Extracting images"
-        imagedir = bookname + '_img/'
-        imagedirpath = os.path.join(outdir,imagedir)
-        if not os.path.exists(imagedirpath):
-            os.makedirs(imagedirpath)
-        for i in xrange(er.getNumImages()):
-            name, contents = er.getImage(i)
-            file(os.path.join(imagedirpath, name), 'wb').write(contents)
-
-    print "   Extracting pml"
-    pml_string = er.getText()
-    pmlfilename = bookname + ".pml"
-    file(os.path.join(outdir, pmlfilename),'wb').write(cleanPML(pml_string))
-
-    # bkinfo = er.getBookInfo()
-    # if bkinfo != '':
-    #     print "   Extracting book meta information"
-    #     file(os.path.join(outdir, 'bookinfo.txt'),'wb').write(bkinfo)
-
-
-                
-def decryptBook(infile, outdir, name, cc, make_pmlz):
-    if make_pmlz :
-        # ignore specified outdir, use tempdir instead
-        outdir = tempfile.mkdtemp()
-    try:
-        print "Processing..."
-        convertEreaderToPml(infile, name, cc, outdir)
-        if make_pmlz :
-            import zipfile
-            import shutil
-            print "   Creating PMLZ file"
-            zipname = infile[:-4] + '.pmlz'
-            myZipFile = zipfile.ZipFile(zipname,'w',zipfile.ZIP_STORED, False)
-            list = os.listdir(outdir)
-            for file in list:
-                localname = file
-                filePath = os.path.join(outdir,file)
-                if os.path.isfile(filePath):
-                    myZipFile.write(filePath, localname)
-                elif os.path.isdir(filePath):
-                    imageList = os.listdir(filePath)
-                    localimgdir = os.path.basename(filePath)
-                    for image in imageList:
-                        localname = os.path.join(localimgdir,image)
-                        imagePath = os.path.join(filePath,image)
-                        if os.path.isfile(imagePath):
-                            myZipFile.write(imagePath, localname)
-            myZipFile.close()
-            # remove temporary directory
-            shutil.rmtree(outdir, True)
-            print 'output is %s' % zipname
-        else :
-            print 'output in %s' % outdir 
-        print "done"
-    except ValueError, e:
-        print "Error: %s" % e
-        return 1
-    return 0
-
-
-def usage():
-    print "Converts DRMed eReader books to PML Source"
-    print "Usage:"
-    print "  erdr2pml [options] infile.pdb [outdir] \"your name\" credit_card_number "
-    print " "
-    print "Options: "
-    print "  -h                prints this message"
-    print "  --make-pmlz       create PMLZ instead of using output directory"
-    print " "
-    print "Note:"
-    print "  if ommitted, outdir defaults based on 'infile.pdb'"
-    print "  It's enough to enter the last 8 digits of the credit card number"
-    return
-
-
-def main(argv=None):
-    try:
-        opts, args = getopt.getopt(sys.argv[1:], "h", ["make-pmlz"])
-    except getopt.GetoptError, err:
-        print str(err)
-        usage()
-        return 1
-    make_pmlz = False
-    for o, a in opts:
-        if o == "-h":
-            usage()
-            return 0
-        elif o == "--make-pmlz":
-            make_pmlz = True
-    
-    print "eRdr2Pml v%s. Copyright (c) 2009 The Dark Reverser" % __version__
-
-    if len(args)!=3 and len(args)!=4:
-        usage()
-        return 1
-
-    if len(args)==3:
-        infile, name, cc = args[0], args[1], args[2]
-        outdir = infile[:-4] + '_Source'
-    elif len(args)==4:
-        infile, outdir, name, cc = args[0], args[1], args[2], args[3]
-
-    return decryptBook(infile, outdir, name, cc, make_pmlz)
-
-
-if __name__ == "__main__":
-    sys.stdout=Unbuffered(sys.stdout)
-    sys.exit(main())
-
--- a/Calibre_Plugins/eReaderPDB2PML_plugin/openssl_des.py
+++ b/Calibre_Plugins/eReaderPDB2PML_plugin/openssl_des.py
@@ -1,90 +0,0 @@
-#!/usr/bin/env python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-
-# implement just enough of des from openssl to make erdr2pml.py happy
-
-def load_libcrypto():
-    from ctypes import CDLL, POINTER, c_void_p, c_char_p, c_char, c_int, c_long, \
-        Structure, c_ulong, create_string_buffer, cast
-    from ctypes.util import find_library
-    import sys
-
-    if sys.platform.startswith('win'):
-        libcrypto = find_library('libeay32')
-    else:
-        libcrypto = find_library('crypto')
-
-    if libcrypto is None:
-        return None
-
-    libcrypto = CDLL(libcrypto)
-    
-    # typedef struct DES_ks
-    #     {
-    #     union
-    #         {
-    #         DES_cblock cblock;
-    #         /* make sure things are correct size on machines with
-    #          * 8 byte longs */
-    #         DES_LONG deslong[2];
-    #         } ks[16];
-    #     } DES_key_schedule;
-
-    # just create a big enough place to hold everything 
-    # it will have alignment of structure so we should be okay (16 byte aligned?)
-    class DES_KEY_SCHEDULE(Structure):
-        _fields_ = [('DES_cblock1', c_char * 16),
-                    ('DES_cblock2', c_char * 16),
-                    ('DES_cblock3', c_char * 16),
-                    ('DES_cblock4', c_char * 16),
-                    ('DES_cblock5', c_char * 16),
-                    ('DES_cblock6', c_char * 16),
-                    ('DES_cblock7', c_char * 16),
-                    ('DES_cblock8', c_char * 16),
-                    ('DES_cblock9', c_char * 16),
-                    ('DES_cblock10', c_char * 16),
-                    ('DES_cblock11', c_char * 16),
-                    ('DES_cblock12', c_char * 16),
-                    ('DES_cblock13', c_char * 16),
-                    ('DES_cblock14', c_char * 16),
-                    ('DES_cblock15', c_char * 16),
-                    ('DES_cblock16', c_char * 16)]
-
-    DES_KEY_SCHEDULE_p = POINTER(DES_KEY_SCHEDULE)
-
-    def F(restype, name, argtypes):
-        func = getattr(libcrypto, name)
-        func.restype = restype
-        func.argtypes = argtypes
-        return func
-
-    DES_set_key = F(None, 'DES_set_key',[c_char_p, DES_KEY_SCHEDULE_p])
-    DES_ecb_encrypt = F(None, 'DES_ecb_encrypt',[c_char_p, c_char_p, DES_KEY_SCHEDULE_p, c_int])
-
-    
-    class DES(object):
-        def __init__(self, key):
-            if len(key) != 8 :
-                raise Error('DES improper key used')
-                return
-            self.key = key
-            self.keyschedule = DES_KEY_SCHEDULE()
-            DES_set_key(self.key, self.keyschedule)
-        def desdecrypt(self, data):
-            ob = create_string_buffer(len(data))
-            DES_ecb_encrypt(data, ob, self.keyschedule, 0)
-            return ob.raw
-        def decrypt(self, data):
-            if not data:
-                return ''
-            i = 0
-            result = []
-            while i < len(data):
-                block = data[i:i+8]
-                processed_block = self.desdecrypt(block)
-                result.append(processed_block)
-                i += 8
-            return ''.join(result)
-
-    return DES
-
--- a/Calibre_Plugins/eReaderPDB2PML_plugin/pycrypto_des.py
+++ b/Calibre_Plugins/eReaderPDB2PML_plugin/pycrypto_des.py
@@ -1,31 +0,0 @@
-#!/usr/bin/env python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-
-
-def load_pycrypto():
-    try :
-        from Crypto.Cipher import DES as _DES
-    except:
-        return None
-
-    class DES(object):
-        def __init__(self, key):
-            if len(key) != 8 :
-                raise Error('DES improper key used')
-            self.key = key
-            self._des = _DES.new(key,_DES.MODE_ECB)
-        def desdecrypt(self, data):
-            return self._des.decrypt(data)
-        def decrypt(self, data):
-            if not data:
-                return ''
-            i = 0
-            result = []
-            while i < len(data):
-                block = data[i:i+8]
-                processed_block = self.desdecrypt(block)
-                result.append(processed_block)
-                i += 8
-            return ''.join(result)
-    return DES
-
--- a/Calibre_Plugins/eReaderPDB2PML_plugin/python_des.py
+++ b/Calibre_Plugins/eReaderPDB2PML_plugin/python_des.py
@@ -1,220 +0,0 @@
-#!/usr/bin/env python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-import sys
-
-ECB =	0
-CBC =	1
-class Des(object):
-    __pc1 = [56, 48, 40, 32, 24, 16,  8,  0, 57, 49, 41, 33, 25, 17,
-          9,  1, 58, 50, 42, 34, 26, 18, 10,  2, 59, 51, 43, 35,
-         62, 54, 46, 38, 30, 22, 14,  6, 61, 53, 45, 37, 29, 21,
-         13,  5, 60, 52, 44, 36, 28, 20, 12,  4, 27, 19, 11,  3]
-    __left_rotations = [1, 1, 2, 2, 2, 2, 2, 2, 1, 2, 2, 2, 2, 2, 2, 1]
-    __pc2 = [13, 16, 10, 23,  0,  4,2, 27, 14,  5, 20,  9,
-        22, 18, 11,  3, 25,  7,	15,  6, 26, 19, 12,  1,
-        40, 51, 30, 36, 46, 54,	29, 39, 50, 44, 32, 47,
-        43, 48, 38, 55, 33, 52,	45, 41, 49, 35, 28, 31]
-    __ip = [57, 49, 41, 33, 25, 17, 9,  1,	59, 51, 43, 35, 27, 19, 11, 3,
-        61, 53, 45, 37, 29, 21, 13, 5,	63, 55, 47, 39, 31, 23, 15, 7,
-        56, 48, 40, 32, 24, 16, 8,  0,	58, 50, 42, 34, 26, 18, 10, 2,
-        60, 52, 44, 36, 28, 20, 12, 4,	62, 54, 46, 38, 30, 22, 14, 6]
-    __expansion_table = [31,  0,  1,  2,  3,  4, 3,  4,  5,  6,  7,  8,
-         7,  8,  9, 10, 11, 12,11, 12, 13, 14, 15, 16,
-        15, 16, 17, 18, 19, 20,19, 20, 21, 22, 23, 24,
-        23, 24, 25, 26, 27, 28,27, 28, 29, 30, 31,  0]
-    __sbox = [[14, 4, 13, 1, 2, 15, 11, 8, 3, 10, 6, 12, 5, 9, 0, 7,
-         0, 15, 7, 4, 14, 2, 13, 1, 10, 6, 12, 11, 9, 5, 3, 8,
-         4, 1, 14, 8, 13, 6, 2, 11, 15, 12, 9, 7, 3, 10, 5, 0,
-         15, 12, 8, 2, 4, 9, 1, 7, 5, 11, 3, 14, 10, 0, 6, 13],
-        [15, 1, 8, 14, 6, 11, 3, 4, 9, 7, 2, 13, 12, 0, 5, 10,
-         3, 13, 4, 7, 15, 2, 8, 14, 12, 0, 1, 10, 6, 9, 11, 5,
-         0, 14, 7, 11, 10, 4, 13, 1, 5, 8, 12, 6, 9, 3, 2, 15,
-         13, 8, 10, 1, 3, 15, 4, 2, 11, 6, 7, 12, 0, 5, 14, 9],
-        [10, 0, 9, 14, 6, 3, 15, 5, 1, 13, 12, 7, 11, 4, 2, 8,
-         13, 7, 0, 9, 3, 4, 6, 10, 2, 8, 5, 14, 12, 11, 15, 1,
-         13, 6, 4, 9, 8, 15, 3, 0, 11, 1, 2, 12, 5, 10, 14, 7,
-         1, 10, 13, 0, 6, 9, 8, 7, 4, 15, 14, 3, 11, 5, 2, 12],
-        [7, 13, 14, 3, 0, 6, 9, 10, 1, 2, 8, 5, 11, 12, 4, 15,
-         13, 8, 11, 5, 6, 15, 0, 3, 4, 7, 2, 12, 1, 10, 14, 9,
-         10, 6, 9, 0, 12, 11, 7, 13, 15, 1, 3, 14, 5, 2, 8, 4,
-         3, 15, 0, 6, 10, 1, 13, 8, 9, 4, 5, 11, 12, 7, 2, 14],
-        [2, 12, 4, 1, 7, 10, 11, 6, 8, 5, 3, 15, 13, 0, 14, 9,
-         14, 11, 2, 12, 4, 7, 13, 1, 5, 0, 15, 10, 3, 9, 8, 6,
-         4, 2, 1, 11, 10, 13, 7, 8, 15, 9, 12, 5, 6, 3, 0, 14,
-         11, 8, 12, 7, 1, 14, 2, 13, 6, 15, 0, 9, 10, 4, 5, 3],
-        [12, 1, 10, 15, 9, 2, 6, 8, 0, 13, 3, 4, 14, 7, 5, 11,
-         10, 15, 4, 2, 7, 12, 9, 5, 6, 1, 13, 14, 0, 11, 3, 8,
-         9, 14, 15, 5, 2, 8, 12, 3, 7, 0, 4, 10, 1, 13, 11, 6,
-         4, 3, 2, 12, 9, 5, 15, 10, 11, 14, 1, 7, 6, 0, 8, 13],
-        [4, 11, 2, 14, 15, 0, 8, 13, 3, 12, 9, 7, 5, 10, 6, 1,
-         13, 0, 11, 7, 4, 9, 1, 10, 14, 3, 5, 12, 2, 15, 8, 6,
-         1, 4, 11, 13, 12, 3, 7, 14, 10, 15, 6, 8, 0, 5, 9, 2,
-         6, 11, 13, 8, 1, 4, 10, 7, 9, 5, 0, 15, 14, 2, 3, 12],
-        [13, 2, 8, 4, 6, 15, 11, 1, 10, 9, 3, 14, 5, 0, 12, 7,
-         1, 15, 13, 8, 10, 3, 7, 4, 12, 5, 6, 11, 0, 14, 9, 2,
-         7, 11, 4, 1, 9, 12, 14, 2, 0, 6, 10, 13, 15, 3, 5, 8,
-         2, 1, 14, 7, 4, 10, 8, 13, 15, 12, 9, 0, 3, 5, 6, 11],]
-    __p = [15, 6, 19, 20, 28, 11,27, 16, 0, 14, 22, 25,
-        4, 17, 30, 9, 1, 7,23,13, 31, 26, 2, 8,18, 12, 29, 5, 21, 10,3, 24]
-    __fp = [39,  7, 47, 15, 55, 23, 63, 31,38,  6, 46, 14, 54, 22, 62, 30,
-        37,  5, 45, 13, 53, 21, 61, 29,36,  4, 44, 12, 52, 20, 60, 28,
-        35,  3, 43, 11, 51, 19, 59, 27,34,  2, 42, 10, 50, 18, 58, 26,
-        33,  1, 41,  9, 49, 17, 57, 25,32,  0, 40,  8, 48, 16, 56, 24]
-    # Type of crypting being done
-    ENCRYPT =	0x00
-    DECRYPT =	0x01
-    def __init__(self, key, mode=ECB, IV=None):
-        if len(key) != 8:
-            raise ValueError("Invalid DES key size. Key must be exactly 8 bytes long.")
-        self.block_size = 8
-        self.key_size = 8
-        self.__padding = ''
-        self.setMode(mode)
-        if IV:
-            self.setIV(IV)
-        self.L = []
-        self.R = []
-        self.Kn = [ [0] * 48 ] * 16	# 16 48-bit keys (K1 - K16)
-        self.final = []
-        self.setKey(key)
-    def getKey(self):
-        return self.__key
-    def setKey(self, key):
-        self.__key = key
-        self.__create_sub_keys()
-    def getMode(self):
-        return self.__mode
-    def setMode(self, mode):
-        self.__mode = mode
-    def getIV(self):
-        return self.__iv
-    def setIV(self, IV):
-        if not IV or len(IV) != self.block_size:
-            raise ValueError("Invalid Initial Value (IV), must be a multiple of " + str(self.block_size) + " bytes")
-        self.__iv = IV
-    def getPadding(self):
-        return self.__padding
-    def __String_to_BitList(self, data):
-        l = len(data) * 8
-        result = [0] * l
-        pos = 0
-        for c in data:
-            i = 7
-            ch = ord(c)
-            while i >= 0:
-                if ch & (1 << i) != 0:
-                    result[pos] = 1
-                else:
-                    result[pos] = 0
-                pos += 1
-                i -= 1
-        return result
-    def __BitList_to_String(self, data):
-        result = ''
-        pos = 0
-        c = 0
-        while pos < len(data):
-            c += data[pos] << (7 - (pos % 8))
-            if (pos % 8) == 7:
-                result += chr(c)
-                c = 0
-            pos += 1
-        return result
-    def __permutate(self, table, block):
-        return [block[x] for x in table]
-    def __create_sub_keys(self):
-        key = self.__permutate(Des.__pc1, self.__String_to_BitList(self.getKey()))
-        i = 0
-        self.L = key[:28]
-        self.R = key[28:]
-        while i < 16:
-            j = 0
-            while j < Des.__left_rotations[i]:
-                self.L.append(self.L[0])
-                del self.L[0]
-                self.R.append(self.R[0])
-                del self.R[0]
-                j += 1
-            self.Kn[i] = self.__permutate(Des.__pc2, self.L + self.R)
-            i += 1
-    def __des_crypt(self, block, crypt_type):
-        block = self.__permutate(Des.__ip, block)
-        self.L = block[:32]
-        self.R = block[32:]
-        if crypt_type == Des.ENCRYPT:
-            iteration = 0
-            iteration_adjustment = 1
-        else:
-            iteration = 15
-            iteration_adjustment = -1
-        i = 0
-        while i < 16:
-            tempR = self.R[:]
-            self.R = self.__permutate(Des.__expansion_table, self.R)
-            self.R = [x ^ y for x,y in zip(self.R, self.Kn[iteration])]
-            B = [self.R[:6], self.R[6:12], self.R[12:18], self.R[18:24], self.R[24:30], self.R[30:36], self.R[36:42], self.R[42:]]
-            j = 0
-            Bn = [0] * 32
-            pos = 0
-            while j < 8:
-                m = (B[j][0] << 1) + B[j][5]
-                n = (B[j][1] << 3) + (B[j][2] << 2) + (B[j][3] << 1) + B[j][4]
-                v = Des.__sbox[j][(m << 4) + n]
-                Bn[pos] = (v & 8) >> 3
-                Bn[pos + 1] = (v & 4) >> 2
-                Bn[pos + 2] = (v & 2) >> 1
-                Bn[pos + 3] = v & 1
-                pos += 4
-                j += 1
-            self.R = self.__permutate(Des.__p, Bn)
-            self.R = [x ^ y for x, y in zip(self.R, self.L)]
-            self.L = tempR
-            i += 1
-            iteration += iteration_adjustment
-        self.final = self.__permutate(Des.__fp, self.R + self.L)
-        return self.final
-    def crypt(self, data, crypt_type):
-        if not data:
-            return ''
-        if len(data) % self.block_size != 0:
-            if crypt_type == Des.DECRYPT: # Decryption must work on 8 byte blocks
-                raise ValueError("Invalid data length, data must be a multiple of " + str(self.block_size) + " bytes\n.")
-            if not self.getPadding():
-                raise ValueError("Invalid data length, data must be a multiple of " + str(self.block_size) + " bytes\n. Try setting the optional padding character")
-            else:
-                data += (self.block_size - (len(data) % self.block_size)) * self.getPadding()
-        if self.getMode() == CBC:
-            if self.getIV():
-                iv = self.__String_to_BitList(self.getIV())
-            else:
-                raise ValueError("For CBC mode, you must supply the Initial Value (IV) for ciphering")
-        i = 0
-        dict = {}
-        result = []
-        while i < len(data):
-            block = self.__String_to_BitList(data[i:i+8])
-            if self.getMode() == CBC:
-                if crypt_type == Des.ENCRYPT:
-                    block = [x ^ y for x, y in zip(block, iv)]
-                processed_block = self.__des_crypt(block, crypt_type)
-                if crypt_type == Des.DECRYPT:
-                    processed_block = [x ^ y for x, y in zip(processed_block, iv)]
-                    iv = block
-                else:
-                    iv = processed_block
-            else:
-                processed_block = self.__des_crypt(block, crypt_type)
-            result.append(self.__BitList_to_String(processed_block))
-            i += 8
-        if crypt_type == Des.DECRYPT and self.getPadding():
-            s = result[-1]
-            while s[-1] == self.getPadding():
-                s = s[:-1]
-            result[-1] = s
-        return ''.join(result)
-    def encrypt(self, data, pad=''):
-        self.__padding = pad
-        return self.crypt(data, Des.ENCRYPT)
-    def decrypt(self, data, pad=''):
-        self.__padding = pad
-        return self.crypt(data, Des.DECRYPT)
--- a/Calibre_Plugins/ignobleepub_plugin.zip
+++ b/Calibre_Plugins/ignobleepub_plugin.zip
--- a/Calibre_Plugins/ignobleepub_plugin/ignobleepub_plugin.py
+++ b/Calibre_Plugins/ignobleepub_plugin/ignobleepub_plugin.py
@@ -1,382 +0,0 @@
-#!/usr/bin/env python
-
-# ignobleepub_plugin.py
-# Released under the terms of the GNU General Public Licence, version 3 or
-# later.  <http://www.gnu.org/licenses/>
-#
-# Requires Calibre version 0.7.55 or higher.
-#
-# All credit given to I <3 Cabbages for the original standalone scripts.
-# I had the much easier job of converting them to Calibre a plugin.
-#
-# This plugin is meant to decrypt Barnes & Noble Epubs that are protected
-# with Adobe's Adept encryption. It is meant to function without having to install
-# any dependencies... other than having Calibre installed, of course. It will still
-# work if you have Python and PyCrypto already installed, but they aren't necessary.
-#
-# Configuration:
-# 1) The easiest way to configure the plugin is to enter your name (Barnes & Noble account
-# name) and credit card number (the one used to purchase the books) into the plugin's
-# customization window. Highlight the plugin (Ignoble Epub DeDRM) and click the
-# "Customize Plugin" button on Calibre's Preferences->Plugins page.
-# Enter the name and credit card number separated by a comma: Your Name,1234123412341234
-#
-# If you've purchased books with more than one credit card, separate the info with
-# a colon: Your Name,1234123412341234:Other Name,2345234523452345
-#
-# ** Method 1 is your only option if you don't have/can't run the original
-# I <3 Cabbages scripts on your particular machine. **
-#
-# 2) If you already have keyfiles generated with I <3 Cabbages' ignoblekeygen.pyw
-# script, you can put those keyfiles in Calibre's configuration directory. The easiest
-# way to find the correct directory is to go to Calibre's Preferences page... click
-# on the 'Miscellaneous' button (looks like a gear),  and then click the 'Open Calibre
-# configuration directory' button. Paste your keyfiles in there. Just make sure that
-# they have different names and are saved with the '.b64' extension (like the ignoblekeygen
-# script produces). This directory isn't touched when upgrading Calibre, so it's quite safe
-# to leave then there.
-#
-# All keyfiles from option 2 and all data entered from option 1 will be used to attempt
-# to decrypt a book. You can use option 1 or option 2, or a combination of both.
-#
-#
-# Revision history:
-#   0.1.0 - Initial release
-#   0.1.1 - Allow Windows users to make use of openssl if they have it installed.
-#          - Incorporated SomeUpdates zipfix routine.
-#   0.1.2 - bug fix for non-ascii file names in encryption.xml
-#   0.1.3 - Try PyCrypto on Windows first
-#   0.1.4 - update zipfix to deal with mimetype not in correct place
-#   0.1.5 - update zipfix to deal with completely missing mimetype files
-#   0.1.6 - update ot the new calibre plugin interface 
-
-"""
-Decrypt Barnes & Noble ADEPT encrypted EPUB books.
-"""
-
-from __future__ import with_statement
-
-__license__ = 'GPL v3'
-
-import sys
-import os
-import hashlib
-import zlib
-import zipfile
-import re
-from zipfile import ZipFile, ZIP_STORED, ZIP_DEFLATED
-import xml.etree.ElementTree as etree
-from contextlib import closing
-
-global AES
-global AES2
-
-META_NAMES = ('mimetype', 'META-INF/rights.xml', 'META-INF/encryption.xml')
-NSMAP = {'adept': 'http://ns.adobe.com/adept',
-         'enc': 'http://www.w3.org/2001/04/xmlenc#'}
-
-class IGNOBLEError(Exception):
-    pass
-
-def _load_crypto_libcrypto():
-    from ctypes import CDLL, POINTER, c_void_p, c_char_p, c_int, c_long, \
-        Structure, c_ulong, create_string_buffer, cast
-    from ctypes.util import find_library
-
-    if sys.platform.startswith('win'):
-        libcrypto = find_library('libeay32')
-    else:
-        libcrypto = find_library('crypto')
-    if libcrypto is None:
-        raise IGNOBLEError('libcrypto not found')
-    libcrypto = CDLL(libcrypto)
-
-    AES_MAXNR = 14
-    
-    c_char_pp = POINTER(c_char_p)
-    c_int_p = POINTER(c_int)
-
-    class AES_KEY(Structure):
-        _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))),
-                    ('rounds', c_int)]
-    AES_KEY_p = POINTER(AES_KEY)
-    
-    def F(restype, name, argtypes):
-        func = getattr(libcrypto, name)
-        func.restype = restype
-        func.argtypes = argtypes
-        return func
-    
-    AES_set_encrypt_key = F(c_int, 'AES_set_encrypt_key',
-                            [c_char_p, c_int, AES_KEY_p])
-    AES_set_decrypt_key = F(c_int, 'AES_set_decrypt_key',
-                            [c_char_p, c_int, AES_KEY_p])
-    AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',
-                        [c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p,
-                         c_int])
-    
-    class AES(object):
-        def __init__(self, userkey):
-            self._blocksize = len(userkey)
-            if (self._blocksize != 16) and (self._blocksize != 24) and (self._blocksize != 32) :
-                raise IGNOBLEError('AES improper key used')
-                return
-            key = self._key = AES_KEY()
-            rv = AES_set_decrypt_key(userkey, len(userkey) * 8, key)
-            if rv < 0:
-                raise IGNOBLEError('Failed to initialize AES key')
-    
-        def decrypt(self, data):
-            out = create_string_buffer(len(data))
-            iv = ("\x00" * self._blocksize)
-            rv = AES_cbc_encrypt(data, out, len(data), self._key, iv, 0)
-            if rv == 0:
-                raise IGNOBLEError('AES decryption failed')
-            return out.raw
-        
-    class AES2(object):
-         def __init__(self, userkey, iv):
-            self._blocksize = len(userkey)
-            self._iv = iv
-            key = self._key = AES_KEY()
-            rv = AES_set_encrypt_key(userkey, len(userkey) * 8, key)
-            if rv < 0:
-                raise IGNOBLEError('Failed to initialize AES Encrypt key')
-    
-         def encrypt(self, data):
-            out = create_string_buffer(len(data))
-            rv = AES_cbc_encrypt(data, out, len(data), self._key, self._iv, 1)
-            if rv == 0:
-                raise IGNOBLEError('AES encryption failed')
-            return out.raw
-    print 'IgnobleEpub: Using libcrypto.'
-    return (AES, AES2)
-
-def _load_crypto_pycrypto():
-    from Crypto.Cipher import AES as _AES
-
-    class AES(object):
-        def __init__(self, key):
-            self._aes = _AES.new(key, _AES.MODE_CBC)
-
-        def decrypt(self, data):
-            return self._aes.decrypt(data)
-            
-    class AES2(object):
-        def __init__(self, key, iv):
-            self._aes = _AES.new(key, _AES.MODE_CBC, iv)
-
-        def encrypt(self, data):
-            return self._aes.encrypt(data)
-    print 'IgnobleEpub: Using PyCrypto.'
-    return (AES, AES2)
-    
-def _load_crypto():
-    _aes = _aes2 = None
-    cryptolist = (_load_crypto_libcrypto, _load_crypto_pycrypto)
-    if sys.platform.startswith('win'):
-        cryptolist = (_load_crypto_pycrypto, _load_crypto_libcrypto)
-    for loader in cryptolist:
-        try:
-            _aes, _aes2 = loader()
-            break
-        except (ImportError, IGNOBLEError):
-            pass
-    return (_aes, _aes2)
-
-def normalize_name(name): # Strip spaces and convert to lowercase.
-    return ''.join(x for x in name.lower() if x != ' ')
-
-def generate_keyfile(name, ccn):
-    name = normalize_name(name) + '\x00'
-    ccn = ccn + '\x00'
-    name_sha = hashlib.sha1(name).digest()[:16]
-    ccn_sha = hashlib.sha1(ccn).digest()[:16]
-    both_sha = hashlib.sha1(name + ccn).digest()
-    aes = AES2(ccn_sha, name_sha)
-    crypt = aes.encrypt(both_sha + ('\x0c' * 0x0c))
-    userkey = hashlib.sha1(crypt).digest()
-
-    return userkey.encode('base64')
-
-class ZipInfo(zipfile.ZipInfo):
-    def __init__(self, *args, **kwargs):
-        if 'compress_type' in kwargs:
-            compress_type = kwargs.pop('compress_type')
-        super(ZipInfo, self).__init__(*args, **kwargs)
-        self.compress_type = compress_type
-
-class Decryptor(object):
-    def __init__(self, bookkey, encryption):
-        enc = lambda tag: '{%s}%s' % (NSMAP['enc'], tag)
-        self._aes = AES(bookkey)
-        encryption = etree.fromstring(encryption)
-        self._encrypted = encrypted = set()
-        expr = './%s/%s/%s' % (enc('EncryptedData'), enc('CipherData'),
-                               enc('CipherReference'))
-        for elem in encryption.findall(expr):
-            path = elem.get('URI', None)
-            path = path.encode('utf-8')
-            if path is not None:
-                encrypted.add(path)
-
-    def decompress(self, bytes):
-        dc = zlib.decompressobj(-15)
-        bytes = dc.decompress(bytes)
-        ex = dc.decompress('Z') + dc.flush()
-        if ex:
-            bytes = bytes + ex
-        return bytes
-
-    def decrypt(self, path, data):
-        if path in self._encrypted:
-            data = self._aes.decrypt(data)[16:]
-            data = data[:-ord(data[-1])]
-            data = self.decompress(data)
-        return data
-
-def plugin_main(userkey, inpath, outpath):
-    key = userkey.decode('base64')[:16]
-    aes = AES(key)
-    
-    with closing(ZipFile(open(inpath, 'rb'))) as inf:
-        namelist = set(inf.namelist())
-        if 'META-INF/rights.xml' not in namelist or \
-           'META-INF/encryption.xml' not in namelist:
-            return 1
-        for name in META_NAMES:
-            namelist.remove(name)
-        try: # If the generated keyfile doesn't match the bookkey, this is where it's likely to blow up.
-            rights = etree.fromstring(inf.read('META-INF/rights.xml'))
-            adept = lambda tag: '{%s}%s' % (NSMAP['adept'], tag)
-            expr = './/%s' % (adept('encryptedKey'),)
-            bookkey = ''.join(rights.findtext(expr))
-            bookkey = aes.decrypt(bookkey.decode('base64'))
-            bookkey = bookkey[:-ord(bookkey[-1])]
-            encryption = inf.read('META-INF/encryption.xml')
-            decryptor = Decryptor(bookkey[-16:], encryption)
-            kwds = dict(compression=ZIP_DEFLATED, allowZip64=False)
-            with closing(ZipFile(open(outpath, 'wb'), 'w', **kwds)) as outf:
-                zi = ZipInfo('mimetype', compress_type=ZIP_STORED)
-                outf.writestr(zi, inf.read('mimetype'))
-                for path in namelist:
-                    data = inf.read(path)
-                    outf.writestr(path, decryptor.decrypt(path, data))
-        except:
-            return 2
-    return 0
-
-from calibre.customize import FileTypePlugin
-from calibre.constants import iswindows, isosx
-
-class IgnobleDeDRM(FileTypePlugin):
-    name                    = 'Ignoble Epub DeDRM'
-    description             = 'Removes DRM from secure Barnes & Noble epub files. \
-                                Credit given to I <3 Cabbages for the original stand-alone scripts.'
-    supported_platforms     = ['linux', 'osx', 'windows']
-    author                  = 'DiapDealer'
-    version                 = (0, 1, 6)
-    minimum_calibre_version = (0, 7, 55)  # Compiled python libraries cannot be imported in earlier versions.
-    file_types              = set(['epub'])
-    on_import               = True
-
-    def run(self, path_to_ebook):
-        global AES
-        global AES2
-        
-        AES, AES2 = _load_crypto()
-        
-        if AES == None or AES2 == None:
-            # Failed to load libcrypto or PyCrypto... Adobe Epubs can't be decrypted.'
-            raise IGNOBLEError('IgnobleEpub - Failed to load crypto libs.')
-            return
-
-        # Load any keyfiles (*.b64) included Calibre's config directory.
-        userkeys = []
-        try:
-            # Find Calibre's configuration directory.
-            confpath = os.path.split(os.path.split(self.plugin_path)[0])[0]
-            print 'IgnobleEpub: Calibre configuration directory = %s' % confpath
-            files = os.listdir(confpath)
-            filefilter = re.compile("\.b64$", re.IGNORECASE)
-            files = filter(filefilter.search, files)
-
-            if files:
-                for filename in files:
-                    fpath = os.path.join(confpath, filename)
-                    with open(fpath, 'rb') as f:
-                        userkeys.append(f.read())
-                    print 'IgnobleEpub: Keyfile %s found in config folder.' % filename
-            else:
-                print 'IgnobleEpub: No keyfiles found. Checking plugin customization string.'
-        except IOError:
-            print 'IgnobleEpub: Error reading keyfiles from config directory.'
-            pass
-        
-        # Get name and credit card number from Plugin Customization
-        if not userkeys and not self.site_customization:
-            # Plugin hasn't been configured... do nothing.
-            raise IGNOBLEError('IgnobleEpub - No keys found. Plugin not configured.')
-            return
-        
-        if self.site_customization:
-            keystuff = self.site_customization
-            ar = keystuff.split(':')
-            keycount = 0
-            for i in ar:
-                try:
-                    name, ccn = i.split(',')
-                    keycount += 1
-                except ValueError:
-                    raise IGNOBLEError('IgnobleEpub - Error parsing user supplied data.')
-                    return
-        
-                # Generate Barnes & Noble EPUB user key from name and credit card number.
-                userkeys.append( generate_keyfile(name, ccn) )
-            print 'IgnobleEpub: %d userkey(s) generated from customization data.' % keycount
-        
-        # Attempt to decrypt epub with each encryption key (generated or provided).
-        for userkey in userkeys:
-            # Create a TemporaryPersistent file to work with.
-            # Check original epub archive for zip errors.
-            from calibre_plugins.ignobleepub import zipfix
-            inf = self.temporary_file('.epub')
-            try:
-                fr = zipfix.fixZip(path_to_ebook, inf.name)
-                fr.fix()
-            except Exception, e:
-                raise Exception(e)
-                return
-            of = self.temporary_file('.epub')
-        
-            # Give the user key, ebook and TemporaryPersistent file to the Stripper function.
-            result = plugin_main(userkey, inf.name, of.name)
-        
-            # Ebook is not a B&N Adept epub... do nothing and pass it on.
-            # This allows a non-encrypted epub to be imported without error messages.
-            if  result == 1:
-                print 'IgnobleEpub: Not a B&N Adept Epub... punting.'
-                of.close()
-                return path_to_ebook
-                break
-        
-            # Decryption was successful return the modified PersistentTemporary
-            # file to Calibre's import process.
-            if  result == 0:
-                print 'IgnobleEpub: Encryption successfully removed.'
-                of.close()
-                return of.name
-                break
-            
-            print 'IgnobleEpub: Encryption key invalid... trying others.'
-            of.close()
-        
-        # Something went wrong with decryption.
-        # Import the original unmolested epub.
-        of.close
-        raise IGNOBLEError('IgnobleEpub - Ultimately failed to decrypt.')
-        return
-        
-        
-    def customization_help(self, gui=False):
-        return 'Enter B&N Account name and CC# (separate name and CC# with a comma)'
--- a/Calibre_Plugins/ignobleepub_plugin/zipfix.py
+++ b/Calibre_Plugins/ignobleepub_plugin/zipfix.py
@@ -1,156 +0,0 @@
-#!/usr/bin/env python
-
-import sys
-import zlib
-import zipfile
-import os
-import os.path
-import getopt
-from struct import unpack
-
-
-_FILENAME_LEN_OFFSET = 26
-_EXTRA_LEN_OFFSET = 28
-_FILENAME_OFFSET = 30
-_MAX_SIZE = 64 * 1024
-_MIMETYPE = 'application/epub+zip'
-
-class ZipInfo(zipfile.ZipInfo):
-    def __init__(self, *args, **kwargs):
-        if 'compress_type' in kwargs:
-            compress_type = kwargs.pop('compress_type')
-        super(ZipInfo, self).__init__(*args, **kwargs)
-        self.compress_type = compress_type
-
-class fixZip:
-    def __init__(self, zinput, zoutput):
-        self.ztype = 'zip'
-        if zinput.lower().find('.epub') >= 0 :
-            self.ztype = 'epub'
-        self.inzip = zipfile.ZipFile(zinput,'r')
-        self.outzip = zipfile.ZipFile(zoutput,'w')
-        # open the input zip for reading only as a raw file
-	self.bzf = file(zinput,'rb')
-        
-    def getlocalname(self, zi):
-        local_header_offset = zi.header_offset
-        self.bzf.seek(local_header_offset + _FILENAME_LEN_OFFSET)
-        leninfo = self.bzf.read(2)
-        local_name_length, = unpack('<H', leninfo)
-        self.bzf.seek(local_header_offset + _FILENAME_OFFSET)
-        local_name = self.bzf.read(local_name_length)
-        return local_name
-
-    def uncompress(self, cmpdata):
-        dc = zlib.decompressobj(-15)
-        data = ''
-        while len(cmpdata) > 0:
-            if len(cmpdata) > _MAX_SIZE :
-                newdata = cmpdata[0:_MAX_SIZE]
-                cmpdata = cmpdata[_MAX_SIZE:]
-            else:
-                newdata = cmpdata
-                cmpdata = ''
-            newdata = dc.decompress(newdata)
-            unprocessed = dc.unconsumed_tail
-            if len(unprocessed) == 0:
-                newdata += dc.flush()
-            data += newdata
-            cmpdata += unprocessed
-            unprocessed = ''
-        return data
-
-    def getfiledata(self, zi):
-        # get file name length and exta data length to find start of file data
-        local_header_offset = zi.header_offset
-
-        self.bzf.seek(local_header_offset + _FILENAME_LEN_OFFSET)
-        leninfo = self.bzf.read(2)
-        local_name_length, = unpack('<H', leninfo)
-
-        self.bzf.seek(local_header_offset + _EXTRA_LEN_OFFSET)
-        exinfo = self.bzf.read(2)
-        extra_field_length, = unpack('<H', exinfo)
-
-        self.bzf.seek(local_header_offset + _FILENAME_OFFSET + local_name_length + extra_field_length)
-        data = None
-
-        # if not compressed we are good to go
-        if zi.compress_type == zipfile.ZIP_STORED:
-            data = self.bzf.read(zi.file_size)
-
-        # if compressed we must decompress it using zlib
-        if zi.compress_type == zipfile.ZIP_DEFLATED:
-            cmpdata = self.bzf.read(zi.compress_size)
-            data = self.uncompress(cmpdata)
-
-        return data
-
-        
-
-    def fix(self):
-        # get the zipinfo for each member of the input archive
-        # and copy member over to output archive
-        # if problems exist with local vs central filename, fix them
-
-        # if epub write mimetype file first, with no compression
-        if self.ztype == 'epub':
-            nzinfo = ZipInfo('mimetype', compress_type=zipfile.ZIP_STORED)
-            self.outzip.writestr(nzinfo, _MIMETYPE)
-
-        # write the rest of the files
-        for zinfo in self.inzip.infolist():
-            if zinfo.filename != "mimetype" or self.ztype == '.zip':
-                data = None
-                nzinfo = zinfo
-                try: 
-                    data = self.inzip.read(zinfo.filename)
-                except zipfile.BadZipfile or zipfile.error:
-                    local_name = self.getlocalname(zinfo)
-                    data = self.getfiledata(zinfo)
-                    nzinfo.filename = local_name
-
-                nzinfo.date_time = zinfo.date_time
-                nzinfo.compress_type = zinfo.compress_type
-                nzinfo.flag_bits = 0
-                nzinfo.internal_attr = 0
-                self.outzip.writestr(nzinfo,data)
-
-        self.bzf.close()
-        self.inzip.close()
-        self.outzip.close()
-
-
-def usage():
-    print """usage: zipfix.py inputzip outputzip
-     inputzip is the source zipfile to fix
-     outputzip is the fixed zip archive
-    """
-    
-
-def repairBook(infile, outfile):
-    if not os.path.exists(infile):
-        print "Error: Input Zip File does not exist"
-        return 1
-    try:
-        fr = fixZip(infile, outfile)
-        fr.fix()
-        return 0
-    except Exception, e:
-        print "Error Occurred ", e
-        return 2
-
-
-def main(argv=sys.argv):
-    if len(argv)!=3:
-        usage()
-        return 1
-    infile = argv[1]
-    outfile = argv[2]
-    return repairBook(infile, outfile)
-
-
-if __name__ == '__main__' :
-    sys.exit(main())
-
-
--- a/Calibre_Plugins/ineptepub_plugin.zip
+++ b/Calibre_Plugins/ineptepub_plugin.zip
--- a/Calibre_Plugins/ineptepub_plugin/init.py
+++ b/Calibre_Plugins/ineptepub_plugin/init.py
@@ -1,477 +0,0 @@
-#! /usr/bin/python
-
-# ineptepub_plugin.py
-# Released under the terms of the GNU General Public Licence, version 3 or
-# later.  <http://www.gnu.org/licenses/>
-#
-# Requires Calibre version 0.7.55 or higher.
-#
-# All credit given to I <3 Cabbages for the original standalone scripts.
-# I had the much easier job of converting them to a Calibre plugin.
-#
-# This plugin is meant to decrypt Adobe Digital Edition Epubs that are protected
-# with Adobe's Adept encryption. It is meant to function without having to install
-# any dependencies... other than having Calibre installed, of course. It will still
-# work if you have Python and PyCrypto already installed, but they aren't necessary.
-#
-# Configuration:
-# When first run, the plugin will attempt to find your Adobe Digital Editions installation
-# (on Windows and Mac OS's). If successful, it will create an 'adeptkey.der' file and
-# save it in Calibre's configuration directory. It will use that file on subsequent runs.
-# If there are already '*.der' files in the directory, the plugin won't attempt to
-# find the ADE installation. So if you have ADE installed on the same machine as Calibre...
-# you are ready to go.
-#
-# If you already have keyfiles generated with I <3 Cabbages' ineptkey.pyw script,
-# you can put those keyfiles in Calibre's configuration directory. The easiest
-# way to find the correct directory is to go to Calibre's Preferences page... click
-# on the 'Miscellaneous' button (looks like a gear),  and then click the 'Open Calibre
-# configuration directory' button. Paste your keyfiles in there. Just make sure that
-# they have different names and are saved with the '.der' extension (like the ineptkey
-# script produces). This directory isn't touched when upgrading Calibre, so it's quite
-# safe to leave them there.
-#
-# Since there is no Linux version of Adobe Digital Editions, Linux users will have to
-# obtain a keyfile through other methods and put the file in Calibre's configuration directory.
-#
-# All keyfiles with a '.der' extension found in Calibre's configuration directory will
-# be used to attempt to decrypt a book.
-#
-# ** NOTE ** There is no plugin customization data for the Inept Epub DeDRM plugin.
-#
-# Revision history:
-#   0.1 - Initial release
-#   0.1.1 - Allow Windows users to make use of openssl if they have it installed.
-#         - Incorporated SomeUpdates zipfix routine.
-#   0.1.2 - Removed Carbon dependency for Mac users. Fixes an issue that was a
-#           result of Calibre changing to python 2.7.
-#   0.1.3 - bug fix for epubs with non-ascii chars in file names
-#   0.1.4 - default to try PyCrypto first on Windows
-#   0.1.5 - update zipfix to handle out of position mimetypes
-#   0.1.6 - update zipfix to handle completely missing mimetype files
-#   0.1.7 - update to new calibre plugin interface
-
-"""
-Decrypt Adobe ADEPT-encrypted EPUB books.
-"""
-
-from __future__ import with_statement
-
-__license__ = 'GPL v3'
-
-import sys
-import os
-import zlib
-import zipfile
-import re
-from zipfile import ZipFile, ZIP_STORED, ZIP_DEFLATED
-from contextlib import closing
-import xml.etree.ElementTree as etree
-
-global AES
-global RSA
-
-META_NAMES = ('mimetype', 'META-INF/rights.xml', 'META-INF/encryption.xml')
-NSMAP = {'adept': 'http://ns.adobe.com/adept',
-         'enc': 'http://www.w3.org/2001/04/xmlenc#'}
-
-
-class ADEPTError(Exception):
-    pass
-
-def _load_crypto_libcrypto():
-    from ctypes import CDLL, POINTER, c_void_p, c_char_p, c_int, c_long, \
-        Structure, c_ulong, create_string_buffer, cast
-    from ctypes.util import find_library
-
-    if sys.platform.startswith('win'):
-        libcrypto = find_library('libeay32')
-    else:
-        libcrypto = find_library('crypto')
-    if libcrypto is None:
-        raise ADEPTError('libcrypto not found')
-    libcrypto = CDLL(libcrypto)
-
-    RSA_NO_PADDING = 3
-    AES_MAXNR = 14
-    
-    c_char_pp = POINTER(c_char_p)
-    c_int_p = POINTER(c_int)
-
-    class RSA(Structure):
-        pass
-    RSA_p = POINTER(RSA)
-    
-    class AES_KEY(Structure):
-        _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))),
-                    ('rounds', c_int)]
-    AES_KEY_p = POINTER(AES_KEY)
-    
-    def F(restype, name, argtypes):
-        func = getattr(libcrypto, name)
-        func.restype = restype
-        func.argtypes = argtypes
-        return func
-    
-    d2i_RSAPrivateKey = F(RSA_p, 'd2i_RSAPrivateKey',
-                          [RSA_p, c_char_pp, c_long])
-    RSA_size = F(c_int, 'RSA_size', [RSA_p])
-    RSA_private_decrypt = F(c_int, 'RSA_private_decrypt',
-                            [c_int, c_char_p, c_char_p, RSA_p, c_int])
-    RSA_free = F(None, 'RSA_free', [RSA_p])
-    AES_set_decrypt_key = F(c_int, 'AES_set_decrypt_key',
-                            [c_char_p, c_int, AES_KEY_p])
-    AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',
-                        [c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p,
-                         c_int])
-    
-    class RSA(object):
-        def __init__(self, der):
-            buf = create_string_buffer(der)
-            pp = c_char_pp(cast(buf, c_char_p))
-            rsa = self._rsa = d2i_RSAPrivateKey(None, pp, len(der))
-            if rsa is None:
-                raise ADEPTError('Error parsing ADEPT user key DER')
-        
-        def decrypt(self, from_):
-            rsa = self._rsa
-            to = create_string_buffer(RSA_size(rsa))
-            dlen = RSA_private_decrypt(len(from_), from_, to, rsa,
-                                       RSA_NO_PADDING)
-            if dlen < 0:
-                raise ADEPTError('RSA decryption failed')
-            return to[:dlen]
-    
-        def __del__(self):
-            if self._rsa is not None:
-                RSA_free(self._rsa)
-                self._rsa = None
-
-    class AES(object):
-        def __init__(self, userkey):
-            self._blocksize = len(userkey)
-            if (self._blocksize != 16) and (self._blocksize != 24) and (self._blocksize != 32) :
-                raise ADEPTError('AES improper key used')
-                return
-            key = self._key = AES_KEY()
-            rv = AES_set_decrypt_key(userkey, len(userkey) * 8, key)
-            if rv < 0:
-                raise ADEPTError('Failed to initialize AES key')
-    
-        def decrypt(self, data):
-            out = create_string_buffer(len(data))
-            iv = ("\x00" * self._blocksize)
-            rv = AES_cbc_encrypt(data, out, len(data), self._key, iv, 0)
-            if rv == 0:
-                raise ADEPTError('AES decryption failed')
-            return out.raw
-    print 'IneptEpub: Using libcrypto.'
-    return (AES, RSA)
-
-def _load_crypto_pycrypto():
-    from Crypto.Cipher import AES as _AES
-    from Crypto.PublicKey import RSA as _RSA
-
-    # ASN.1 parsing code from tlslite
-    class ASN1Error(Exception):
-        pass
-    
-    class ASN1Parser(object):
-        class Parser(object):
-            def __init__(self, bytes):
-                self.bytes = bytes
-                self.index = 0
-    
-            def get(self, length):
-                if self.index + length > len(self.bytes):
-                    raise ASN1Error("Error decoding ASN.1")
-                x = 0
-                for count in range(length):
-                    x <<= 8
-                    x |= self.bytes[self.index]
-                    self.index += 1
-                return x
-    
-            def getFixBytes(self, lengthBytes):
-                bytes = self.bytes[self.index : self.index+lengthBytes]
-                self.index += lengthBytes
-                return bytes
-    
-            def getVarBytes(self, lengthLength):
-                lengthBytes = self.get(lengthLength)
-                return self.getFixBytes(lengthBytes)
-    
-            def getFixList(self, length, lengthList):
-                l = [0] * lengthList
-                for x in range(lengthList):
-                    l[x] = self.get(length)
-                return l
-    
-            def getVarList(self, length, lengthLength):
-                lengthList = self.get(lengthLength)
-                if lengthList % length != 0:
-                    raise ASN1Error("Error decoding ASN.1")
-                lengthList = int(lengthList/length)
-                l = [0] * lengthList
-                for x in range(lengthList):
-                    l[x] = self.get(length)
-                return l
-    
-            def startLengthCheck(self, lengthLength):
-                self.lengthCheck = self.get(lengthLength)
-                self.indexCheck = self.index
-    
-            def setLengthCheck(self, length):
-                self.lengthCheck = length
-                self.indexCheck = self.index
-    
-            def stopLengthCheck(self):
-                if (self.index - self.indexCheck) != self.lengthCheck:
-                    raise ASN1Error("Error decoding ASN.1")
-    
-            def atLengthCheck(self):
-                if (self.index - self.indexCheck) < self.lengthCheck:
-                    return False
-                elif (self.index - self.indexCheck) == self.lengthCheck:
-                    return True
-                else:
-                    raise ASN1Error("Error decoding ASN.1")
-    
-        def __init__(self, bytes):
-            p = self.Parser(bytes)
-            p.get(1)
-            self.length = self._getASN1Length(p)
-            self.value = p.getFixBytes(self.length)
-    
-        def getChild(self, which):
-            p = self.Parser(self.value)
-            for x in range(which+1):
-                markIndex = p.index
-                p.get(1)
-                length = self._getASN1Length(p)
-                p.getFixBytes(length)
-            return ASN1Parser(p.bytes[markIndex:p.index])
-    
-        def _getASN1Length(self, p):
-            firstLength = p.get(1)
-            if firstLength<=127:
-                return firstLength
-            else:
-                lengthLength = firstLength & 0x7F
-                return p.get(lengthLength)
-
-    class AES(object):
-        def __init__(self, key):
-            self._aes = _AES.new(key, _AES.MODE_CBC)
-
-        def decrypt(self, data):
-            return self._aes.decrypt(data)
-
-    class RSA(object):
-        def __init__(self, der):
-            key = ASN1Parser([ord(x) for x in der])
-            key = [key.getChild(x).value for x in xrange(1, 4)]
-            key = [self.bytesToNumber(v) for v in key]
-            self._rsa = _RSA.construct(key)
-
-        def bytesToNumber(self, bytes):
-            total = 0L
-            for byte in bytes:
-                total = (total << 8) + byte
-            return total
-    
-        def decrypt(self, data):
-            return self._rsa.decrypt(data)
-    print 'IneptEpub: Using pycrypto.'
-    return (AES, RSA)
-
-def _load_crypto():
-    _aes = _rsa = None
-    cryptolist = (_load_crypto_libcrypto, _load_crypto_pycrypto)
-    if sys.platform.startswith('win'):
-        cryptolist = (_load_crypto_pycrypto, _load_crypto_libcrypto)
-    for loader in cryptolist:
-        try:
-            _aes, _rsa = loader()
-            break
-        except (ImportError, ADEPTError):
-            pass
-    return (_aes, _rsa)
-    
-class ZipInfo(zipfile.ZipInfo):
-    def __init__(self, *args, **kwargs):
-        if 'compress_type' in kwargs:
-            compress_type = kwargs.pop('compress_type')
-        super(ZipInfo, self).__init__(*args, **kwargs)
-        self.compress_type = compress_type
-
-class Decryptor(object):
-    def __init__(self, bookkey, encryption):
-        enc = lambda tag: '{%s}%s' % (NSMAP['enc'], tag)
-        self._aes = AES(bookkey)
-        encryption = etree.fromstring(encryption)
-        self._encrypted = encrypted = set()
-        expr = './%s/%s/%s' % (enc('EncryptedData'), enc('CipherData'),
-                               enc('CipherReference'))
-        for elem in encryption.findall(expr):
-            path = elem.get('URI', None)
-            path = path.encode('utf-8')
-            if path is not None:
-                encrypted.add(path)
-
-    def decompress(self, bytes):
-        dc = zlib.decompressobj(-15)
-        bytes = dc.decompress(bytes)
-        ex = dc.decompress('Z') + dc.flush()
-        if ex:
-            bytes = bytes + ex
-        return bytes
-
-    def decrypt(self, path, data):
-        if path in self._encrypted:
-            data = self._aes.decrypt(data)[16:]
-            data = data[:-ord(data[-1])]
-            data = self.decompress(data)
-        return data
-
-def plugin_main(userkey, inpath, outpath):
-    rsa = RSA(userkey)
-    with closing(ZipFile(open(inpath, 'rb'))) as inf:
-        namelist = set(inf.namelist())
-        if 'META-INF/rights.xml' not in namelist or \
-           'META-INF/encryption.xml' not in namelist:
-            return 1
-        for name in META_NAMES:
-            namelist.remove(name)
-        try:
-            rights = etree.fromstring(inf.read('META-INF/rights.xml'))
-            adept = lambda tag: '{%s}%s' % (NSMAP['adept'], tag)
-            expr = './/%s' % (adept('encryptedKey'),)
-            bookkey = ''.join(rights.findtext(expr))
-            bookkey = rsa.decrypt(bookkey.decode('base64'))
-            # Padded as per RSAES-PKCS1-v1_5
-            if bookkey[-17] != '\x00':
-                raise ADEPTError('problem decrypting session key')
-            encryption = inf.read('META-INF/encryption.xml')
-            decryptor = Decryptor(bookkey[-16:], encryption)
-            kwds = dict(compression=ZIP_DEFLATED, allowZip64=False)
-            with closing(ZipFile(open(outpath, 'wb'), 'w', **kwds)) as outf:
-                zi = ZipInfo('mimetype', compress_type=ZIP_STORED)
-                outf.writestr(zi, inf.read('mimetype'))
-                for path in namelist:
-                    data = inf.read(path)
-                    outf.writestr(path, decryptor.decrypt(path, data))
-        except:
-            return 2
-    return 0
-
-from calibre.customize import FileTypePlugin
-from calibre.constants import iswindows, isosx
-
-class IneptDeDRM(FileTypePlugin):
-    name                    = 'Inept Epub DeDRM'
-    description             = 'Removes DRM from secure Adobe epub files. \
-                                Credit given to I <3 Cabbages for the original stand-alone scripts.'
-    supported_platforms     = ['linux', 'osx', 'windows']
-    author                  = 'DiapDealer'
-    version                 = (0, 1, 7)
-    minimum_calibre_version = (0, 7, 55)  # Compiled python libraries cannot be imported in earlier versions.
-    file_types              = set(['epub'])
-    on_import               = True
-    priority                = 100
-    
-    def run(self, path_to_ebook):
-        global AES
-        global RSA
-        
-        AES, RSA = _load_crypto()
-        
-        if AES == None or RSA == None:
-            # Failed to load libcrypto or PyCrypto... Adobe Epubs can\'t be decrypted.'
-            raise ADEPTError('IneptEpub: Failed to load crypto libs... Adobe Epubs can\'t be decrypted.')
-            return
-        
-        # Load any keyfiles (*.der) included Calibre's config directory.
-        userkeys = []
-
-        # Find Calibre's configuration directory.
-        confpath = os.path.split(os.path.split(self.plugin_path)[0])[0]
-        print 'IneptEpub: Calibre configuration directory = %s' % confpath
-        files = os.listdir(confpath)
-        filefilter = re.compile("\.der$", re.IGNORECASE)
-        files = filter(filefilter.search, files)
-
-        if files:
-            try:
-                for filename in files:
-                    fpath = os.path.join(confpath, filename)
-                    with open(fpath, 'rb') as f:
-                        userkeys.append(f.read())
-                    print 'IneptEpub: Keyfile %s found in config folder.' % filename
-            except IOError:
-                print 'IneptEpub: Error reading keyfiles from config directory.'
-                pass
-        else:
-            # Try to find key from ADE install and save the key in
-            # Calibre's configuration directory for future use.
-            if iswindows or isosx:
-                # ADE key retrieval script included in respective OS folder.
-                from calibre_plugins.ineptepub.ade_key import retrieve_key
-                try:
-                    keydata = retrieve_key()
-                    userkeys.append(keydata)
-                    keypath = os.path.join(confpath, 'calibre-adeptkey.der')
-                    with open(keypath, 'wb') as f:
-                        f.write(keydata)
-                    print 'IneptEpub: Created keyfile from ADE install.'    
-                except:
-                    print 'IneptEpub: Couldn\'t Retrieve key from ADE install.'
-                    pass
-
-        if not userkeys:
-            # No user keys found... bail out.
-            raise ADEPTError('IneptEpub - No keys found. Check keyfile(s)/ADE install')
-            return
-        
-        # Attempt to decrypt epub with each encryption key found.
-        for userkey in userkeys:
-            # Create a TemporaryPersistent file to work with.
-            # Check original epub archive for zip errors.
-            from calibre_plugins.ineptepub import zipfix
-            inf = self.temporary_file('.epub')
-            try:
-                fr = zipfix.fixZip(path_to_ebook, inf.name)
-                fr.fix()
-            except Exception, e:
-                raise Exception(e)
-                return
-            of = self.temporary_file('.epub')
-        
-            # Give the user key, ebook and TemporaryPersistent file to the plugin_main function.
-            result = plugin_main(userkey, inf.name, of.name)
-        
-            # Ebook is not an Adobe Adept epub... do nothing and pass it on.
-            # This allows a non-encrypted epub to be imported without error messages.
-            if  result == 1:
-                print 'IneptEpub: Not an Adobe Adept Epub... punting.'
-                of.close()
-                return path_to_ebook
-                break
-        
-            # Decryption was successful return the modified PersistentTemporary
-            # file to Calibre's import process.
-            if  result == 0:
-                print 'IneptEpub: Encryption successfully removed.'
-                of.close
-                return of.name
-                break
-            
-            print 'IneptEpub: Encryption key invalid... trying others.'
-            of.close()
-        
-        # Something went wrong with decryption.
-        # Import the original unmolested epub.
-        of.close
-        raise ADEPTError('IneptEpub - Ultimately failed to decrypt')
-        return
-
--- a/Calibre_Plugins/ineptepub_plugin/ade_key.py
+++ b/Calibre_Plugins/ineptepub_plugin/ade_key.py
@@ -1,346 +0,0 @@
-#!/usr/bin/env python
-
-"""
-Retrieve Adobe ADEPT user key.
-"""
-
-from __future__ import with_statement
-
-__license__ = 'GPL v3'
-
-import sys
-import os
-import struct
-from calibre.constants import iswindows, isosx
-
-class ADEPTError(Exception):
-    pass
-
-if iswindows:
-    from ctypes import windll, c_char_p, c_wchar_p, c_uint, POINTER, byref, \
-        create_unicode_buffer, create_string_buffer, CFUNCTYPE, addressof, \
-        string_at, Structure, c_void_p, cast, c_size_t, memmove, CDLL, c_int, \
-        c_long, c_ulong
-
-    from ctypes.wintypes import LPVOID, DWORD, BOOL
-    import _winreg as winreg
-
-    def _load_crypto_libcrypto():
-        from ctypes.util import find_library
-        libcrypto = find_library('libeay32')
-        if libcrypto is None:
-            raise ADEPTError('libcrypto not found')
-        libcrypto = CDLL(libcrypto)
-        AES_MAXNR = 14
-        c_char_pp = POINTER(c_char_p)
-        c_int_p = POINTER(c_int)
-        class AES_KEY(Structure):
-            _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))),
-                        ('rounds', c_int)]
-        AES_KEY_p = POINTER(AES_KEY)
-    
-        def F(restype, name, argtypes):
-            func = getattr(libcrypto, name)
-            func.restype = restype
-            func.argtypes = argtypes
-            return func
-    
-        AES_set_decrypt_key = F(c_int, 'AES_set_decrypt_key',
-                                [c_char_p, c_int, AES_KEY_p])
-        AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',
-                            [c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p,
-                             c_int])
-        class AES(object):
-            def __init__(self, userkey):
-                self._blocksize = len(userkey)
-                if (self._blocksize != 16) and (self._blocksize != 24) and (self._blocksize != 32) :
-                    raise ADEPTError('AES improper key used')
-                key = self._key = AES_KEY()
-                rv = AES_set_decrypt_key(userkey, len(userkey) * 8, key)
-                if rv < 0:
-                    raise ADEPTError('Failed to initialize AES key')
-            def decrypt(self, data):
-                out = create_string_buffer(len(data))
-                iv = ("\x00" * self._blocksize)
-                rv = AES_cbc_encrypt(data, out, len(data), self._key, iv, 0)
-                if rv == 0:
-                    raise ADEPTError('AES decryption failed')
-                return out.raw
-        return AES
-
-    def _load_crypto_pycrypto():
-        from Crypto.Cipher import AES as _AES
-        class AES(object):
-            def __init__(self, key):
-                self._aes = _AES.new(key, _AES.MODE_CBC)
-            def decrypt(self, data):
-                return self._aes.decrypt(data)
-        return AES
-
-    def _load_crypto():
-        AES = None
-        for loader in (_load_crypto_pycrypto, _load_crypto_libcrypto):
-            try:
-                AES = loader()
-                break
-            except (ImportError, ADEPTError):
-                pass
-        return AES
-
-    AES = _load_crypto()
-
-
-    DEVICE_KEY_PATH = r'Software\Adobe\Adept\Device'
-    PRIVATE_LICENCE_KEY_PATH = r'Software\Adobe\Adept\Activation'
-
-    MAX_PATH = 255
-
-    kernel32 = windll.kernel32
-    advapi32 = windll.advapi32
-    crypt32 = windll.crypt32
-
-    def GetSystemDirectory():
-        GetSystemDirectoryW = kernel32.GetSystemDirectoryW
-        GetSystemDirectoryW.argtypes = [c_wchar_p, c_uint]
-        GetSystemDirectoryW.restype = c_uint
-        def GetSystemDirectory():
-            buffer = create_unicode_buffer(MAX_PATH + 1)
-            GetSystemDirectoryW(buffer, len(buffer))
-            return buffer.value
-        return GetSystemDirectory
-    GetSystemDirectory = GetSystemDirectory()
-
-    def GetVolumeSerialNumber():
-        GetVolumeInformationW = kernel32.GetVolumeInformationW
-        GetVolumeInformationW.argtypes = [c_wchar_p, c_wchar_p, c_uint,
-                                          POINTER(c_uint), POINTER(c_uint),
-                                          POINTER(c_uint), c_wchar_p, c_uint]
-        GetVolumeInformationW.restype = c_uint
-        def GetVolumeSerialNumber(path):
-            vsn = c_uint(0)
-            GetVolumeInformationW(
-                path, None, 0, byref(vsn), None, None, None, 0)
-            return vsn.value
-        return GetVolumeSerialNumber
-    GetVolumeSerialNumber = GetVolumeSerialNumber()
-
-    def GetUserName():
-        GetUserNameW = advapi32.GetUserNameW
-        GetUserNameW.argtypes = [c_wchar_p, POINTER(c_uint)]
-        GetUserNameW.restype = c_uint
-        def GetUserName():
-            buffer = create_unicode_buffer(32)
-            size = c_uint(len(buffer))
-            while not GetUserNameW(buffer, byref(size)):
-                buffer = create_unicode_buffer(len(buffer) * 2)
-                size.value = len(buffer)
-            return buffer.value.encode('utf-16-le')[::2]
-        return GetUserName
-    GetUserName = GetUserName()
-
-    PAGE_EXECUTE_READWRITE = 0x40
-    MEM_COMMIT  = 0x1000
-    MEM_RESERVE = 0x2000
-
-    def VirtualAlloc():
-        _VirtualAlloc = kernel32.VirtualAlloc
-        _VirtualAlloc.argtypes = [LPVOID, c_size_t, DWORD, DWORD]
-        _VirtualAlloc.restype = LPVOID
-        def VirtualAlloc(addr, size, alloctype=(MEM_COMMIT | MEM_RESERVE),
-                         protect=PAGE_EXECUTE_READWRITE):
-            return _VirtualAlloc(addr, size, alloctype, protect)
-        return VirtualAlloc
-    VirtualAlloc = VirtualAlloc()
-
-    MEM_RELEASE = 0x8000
-
-    def VirtualFree():
-        _VirtualFree = kernel32.VirtualFree
-        _VirtualFree.argtypes = [LPVOID, c_size_t, DWORD]
-        _VirtualFree.restype = BOOL
-        def VirtualFree(addr, size=0, freetype=MEM_RELEASE):
-            return _VirtualFree(addr, size, freetype)
-        return VirtualFree
-    VirtualFree = VirtualFree()
-
-    class NativeFunction(object):
-        def __init__(self, restype, argtypes, insns):
-            self._buf = buf = VirtualAlloc(None, len(insns))
-            memmove(buf, insns, len(insns))
-            ftype = CFUNCTYPE(restype, *argtypes)
-            self._native = ftype(buf)
-
-        def __call__(self, *args):
-            return self._native(*args)
-
-        def __del__(self):
-            if self._buf is not None:
-                VirtualFree(self._buf)
-                self._buf = None
-
-    if struct.calcsize("P") == 4:
-        CPUID0_INSNS = (
-            "\x53"             # push   %ebx
-            "\x31\xc0"         # xor    %eax,%eax
-            "\x0f\xa2"         # cpuid
-            "\x8b\x44\x24\x08" # mov    0x8(%esp),%eax
-            "\x89\x18"         # mov    %ebx,0x0(%eax)
-            "\x89\x50\x04"     # mov    %edx,0x4(%eax)
-            "\x89\x48\x08"     # mov    %ecx,0x8(%eax)
-            "\x5b"             # pop    %ebx
-            "\xc3"             # ret
-        )
-        CPUID1_INSNS = (
-            "\x53"             # push   %ebx
-            "\x31\xc0"         # xor    %eax,%eax
-            "\x40"             # inc    %eax
-            "\x0f\xa2"         # cpuid
-            "\x5b"             # pop    %ebx
-            "\xc3"             # ret
-        )
-    else:
-        CPUID0_INSNS = (
-            "\x49\x89\xd8"     # mov    %rbx,%r8
-            "\x49\x89\xc9"     # mov    %rcx,%r9
-            "\x48\x31\xc0"     # xor    %rax,%rax
-            "\x0f\xa2"         # cpuid
-            "\x4c\x89\xc8"     # mov    %r9,%rax
-            "\x89\x18"         # mov    %ebx,0x0(%rax)
-            "\x89\x50\x04"     # mov    %edx,0x4(%rax)
-            "\x89\x48\x08"     # mov    %ecx,0x8(%rax)
-            "\x4c\x89\xc3"     # mov    %r8,%rbx
-            "\xc3"             # retq
-        )
-        CPUID1_INSNS = (
-            "\x53"             # push   %rbx
-            "\x48\x31\xc0"     # xor    %rax,%rax
-            "\x48\xff\xc0"     # inc    %rax
-            "\x0f\xa2"         # cpuid
-            "\x5b"             # pop    %rbx
-            "\xc3"             # retq
-        )
-
-    def cpuid0():
-        _cpuid0 = NativeFunction(None, [c_char_p], CPUID0_INSNS)
-        buf = create_string_buffer(12)
-        def cpuid0():
-            _cpuid0(buf)
-            return buf.raw
-        return cpuid0
-    cpuid0 = cpuid0()
-
-    cpuid1 = NativeFunction(c_uint, [], CPUID1_INSNS)
-
-    class DataBlob(Structure):
-        _fields_ = [('cbData', c_uint),
-                    ('pbData', c_void_p)]
-    DataBlob_p = POINTER(DataBlob)
-
-    def CryptUnprotectData():
-        _CryptUnprotectData = crypt32.CryptUnprotectData
-        _CryptUnprotectData.argtypes = [DataBlob_p, c_wchar_p, DataBlob_p,
-                                       c_void_p, c_void_p, c_uint, DataBlob_p]
-        _CryptUnprotectData.restype = c_uint
-        def CryptUnprotectData(indata, entropy):
-            indatab = create_string_buffer(indata)
-            indata = DataBlob(len(indata), cast(indatab, c_void_p))
-            entropyb = create_string_buffer(entropy)
-            entropy = DataBlob(len(entropy), cast(entropyb, c_void_p))
-            outdata = DataBlob()
-            if not _CryptUnprotectData(byref(indata), None, byref(entropy),
-                                       None, None, 0, byref(outdata)):
-                raise ADEPTError("Failed to decrypt user key key (sic)")
-            return string_at(outdata.pbData, outdata.cbData)
-        return CryptUnprotectData
-    CryptUnprotectData = CryptUnprotectData()
-
-    def retrieve_key():
-        if AES is None:
-            tkMessageBox.showerror(
-                "ADEPT Key",
-                "This script requires PyCrypto or OpenSSL which must be installed "
-                "separately.  Read the top-of-script comment for details.")
-            return False
-        root = GetSystemDirectory().split('\\')[0] + '\\'
-        serial = GetVolumeSerialNumber(root)
-        vendor = cpuid0()
-        signature = struct.pack('>I', cpuid1())[1:]
-        user = GetUserName()
-        entropy = struct.pack('>I12s3s13s', serial, vendor, signature, user)
-        cuser = winreg.HKEY_CURRENT_USER
-        try:
-            regkey = winreg.OpenKey(cuser, DEVICE_KEY_PATH)
-        except WindowsError:
-            raise ADEPTError("Adobe Digital Editions not activated")
-        device = winreg.QueryValueEx(regkey, 'key')[0]
-        keykey = CryptUnprotectData(device, entropy)
-        userkey = None
-        try:
-            plkroot = winreg.OpenKey(cuser, PRIVATE_LICENCE_KEY_PATH)
-        except WindowsError:
-            raise ADEPTError("Could not locate ADE activation")
-        for i in xrange(0, 16):
-            try:
-                plkparent = winreg.OpenKey(plkroot, "%04d" % (i,))
-            except WindowsError:
-                break
-            ktype = winreg.QueryValueEx(plkparent, None)[0]
-            if ktype != 'credentials':
-                continue
-            for j in xrange(0, 16):
-                try:
-                    plkkey = winreg.OpenKey(plkparent, "%04d" % (j,))
-                except WindowsError:
-                    break
-                ktype = winreg.QueryValueEx(plkkey, None)[0]
-                if ktype != 'privateLicenseKey':
-                    continue
-                userkey = winreg.QueryValueEx(plkkey, 'value')[0]
-                break
-            if userkey is not None:
-                break
-        if userkey is None:
-            raise ADEPTError('Could not locate privateLicenseKey')
-        userkey = userkey.decode('base64')
-        aes = AES(keykey)
-        userkey = aes.decrypt(userkey)
-        userkey = userkey[26:-ord(userkey[-1])]
-        return userkey
-
-else:
-
-    import xml.etree.ElementTree as etree
-    import subprocess
-
-    NSMAP = {'adept': 'http://ns.adobe.com/adept',
-             'enc': 'http://www.w3.org/2001/04/xmlenc#'}
-
-    def findActivationDat():
-        home = os.getenv('HOME')
-        cmdline = 'find "' + home + '/Library/Application Support/Adobe/Digital Editions" -name "activation.dat"'
-        cmdline = cmdline.encode(sys.getfilesystemencoding())
-        p2 = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-        out1, out2 = p2.communicate()
-        reslst = out1.split('\n')
-        cnt = len(reslst)
-        for j in xrange(cnt):
-            resline = reslst[j]
-            pp = resline.find('activation.dat')
-            if pp >= 0:
-                ActDatPath = resline
-                break
-        if os.path.exists(ActDatPath):
-            return ActDatPath
-        return None
-    
-    def retrieve_key():
-        actpath = findActivationDat()
-        if actpath is None:
-            raise ADEPTError("Could not locate ADE activation")
-        tree = etree.parse(actpath)
-        adept = lambda tag: '{%s}%s' % (NSMAP['adept'], tag)
-        expr = '//%s/%s' % (adept('credentials'), adept('privateLicenseKey'))
-        userkey = tree.findtext(expr)
-        userkey = userkey.decode('base64')
-        userkey = userkey[26:]
-        return userkey
--- a/Calibre_Plugins/ineptepub_plugin/plugin-import-name-ineptepub.txt
+++ b/Calibre_Plugins/ineptepub_plugin/plugin-import-name-ineptepub.txt
--- a/Calibre_Plugins/ineptepub_plugin/zipfix.py
+++ b/Calibre_Plugins/ineptepub_plugin/zipfix.py
@@ -1,156 +0,0 @@
-#!/usr/bin/env python
-
-import sys
-import zlib
-import zipfile
-import os
-import os.path
-import getopt
-from struct import unpack
-
-
-_FILENAME_LEN_OFFSET = 26
-_EXTRA_LEN_OFFSET = 28
-_FILENAME_OFFSET = 30
-_MAX_SIZE = 64 * 1024
-_MIMETYPE = 'application/epub+zip'
-
-class ZipInfo(zipfile.ZipInfo):
-    def __init__(self, *args, **kwargs):
-        if 'compress_type' in kwargs:
-            compress_type = kwargs.pop('compress_type')
-        super(ZipInfo, self).__init__(*args, **kwargs)
-        self.compress_type = compress_type
-
-class fixZip:
-    def __init__(self, zinput, zoutput):
-        self.ztype = 'zip'
-        if zinput.lower().find('.epub') >= 0 :
-            self.ztype = 'epub'
-        self.inzip = zipfile.ZipFile(zinput,'r')
-        self.outzip = zipfile.ZipFile(zoutput,'w')
-        # open the input zip for reading only as a raw file
-	self.bzf = file(zinput,'rb')
-        
-    def getlocalname(self, zi):
-        local_header_offset = zi.header_offset
-        self.bzf.seek(local_header_offset + _FILENAME_LEN_OFFSET)
-        leninfo = self.bzf.read(2)
-        local_name_length, = unpack('<H', leninfo)
-        self.bzf.seek(local_header_offset + _FILENAME_OFFSET)
-        local_name = self.bzf.read(local_name_length)
-        return local_name
-
-    def uncompress(self, cmpdata):
-        dc = zlib.decompressobj(-15)
-        data = ''
-        while len(cmpdata) > 0:
-            if len(cmpdata) > _MAX_SIZE :
-                newdata = cmpdata[0:_MAX_SIZE]
-                cmpdata = cmpdata[_MAX_SIZE:]
-            else:
-                newdata = cmpdata
-                cmpdata = ''
-            newdata = dc.decompress(newdata)
-            unprocessed = dc.unconsumed_tail
-            if len(unprocessed) == 0:
-                newdata += dc.flush()
-            data += newdata
-            cmpdata += unprocessed
-            unprocessed = ''
-        return data
-
-    def getfiledata(self, zi):
-        # get file name length and exta data length to find start of file data
-        local_header_offset = zi.header_offset
-
-        self.bzf.seek(local_header_offset + _FILENAME_LEN_OFFSET)
-        leninfo = self.bzf.read(2)
-        local_name_length, = unpack('<H', leninfo)
-
-        self.bzf.seek(local_header_offset + _EXTRA_LEN_OFFSET)
-        exinfo = self.bzf.read(2)
-        extra_field_length, = unpack('<H', exinfo)
-
-        self.bzf.seek(local_header_offset + _FILENAME_OFFSET + local_name_length + extra_field_length)
-        data = None
-
-        # if not compressed we are good to go
-        if zi.compress_type == zipfile.ZIP_STORED:
-            data = self.bzf.read(zi.file_size)
-
-        # if compressed we must decompress it using zlib
-        if zi.compress_type == zipfile.ZIP_DEFLATED:
-            cmpdata = self.bzf.read(zi.compress_size)
-            data = self.uncompress(cmpdata)
-
-        return data
-
-        
-
-    def fix(self):
-        # get the zipinfo for each member of the input archive
-        # and copy member over to output archive
-        # if problems exist with local vs central filename, fix them
-
-        # if epub write mimetype file first, with no compression
-        if self.ztype == 'epub':
-            nzinfo = ZipInfo('mimetype', compress_type=zipfile.ZIP_STORED)
-            self.outzip.writestr(nzinfo, _MIMETYPE)
-
-        # write the rest of the files
-        for zinfo in self.inzip.infolist():
-            if zinfo.filename != "mimetype" or self.ztype == '.zip':
-                data = None
-                nzinfo = zinfo
-                try: 
-                    data = self.inzip.read(zinfo.filename)
-                except zipfile.BadZipfile or zipfile.error:
-                    local_name = self.getlocalname(zinfo)
-                    data = self.getfiledata(zinfo)
-                    nzinfo.filename = local_name
-
-                nzinfo.date_time = zinfo.date_time
-                nzinfo.compress_type = zinfo.compress_type
-                nzinfo.flag_bits = 0
-                nzinfo.internal_attr = 0
-                self.outzip.writestr(nzinfo,data)
-
-        self.bzf.close()
-        self.inzip.close()
-        self.outzip.close()
-
-
-def usage():
-    print """usage: zipfix.py inputzip outputzip
-     inputzip is the source zipfile to fix
-     outputzip is the fixed zip archive
-    """
-    
-
-def repairBook(infile, outfile):
-    if not os.path.exists(infile):
-        print "Error: Input Zip File does not exist"
-        return 1
-    try:
-        fr = fixZip(infile, outfile)
-        fr.fix()
-        return 0
-    except Exception, e:
-        print "Error Occurred ", e
-        return 2
-
-
-def main(argv=sys.argv):
-    if len(argv)!=3:
-        usage()
-        return 1
-    infile = argv[1]
-    outfile = argv[2]
-    return repairBook(infile, outfile)
-
-
-if __name__ == '__main__' :
-    sys.exit(main())
-
-
--- a/Calibre_Plugins/ineptpdf_plugin.zip
+++ b/Calibre_Plugins/ineptpdf_plugin.zip
--- a/Calibre_Plugins/ineptpdf_plugin/init.py
+++ b/Calibre_Plugins/ineptpdf_plugin/init.py
--- a/Calibre_Plugins/ineptpdf_plugin/ade_key.py
+++ b/Calibre_Plugins/ineptpdf_plugin/ade_key.py
@@ -1,346 +0,0 @@
-#!/usr/bin/env python
-
-"""
-Retrieve Adobe ADEPT user key.
-"""
-
-from __future__ import with_statement
-
-__license__ = 'GPL v3'
-
-import sys
-import os
-import struct
-from calibre.constants import iswindows, isosx
-
-class ADEPTError(Exception):
-    pass
-
-if iswindows:
-    from ctypes import windll, c_char_p, c_wchar_p, c_uint, POINTER, byref, \
-        create_unicode_buffer, create_string_buffer, CFUNCTYPE, addressof, \
-        string_at, Structure, c_void_p, cast, c_size_t, memmove, CDLL, c_int, \
-        c_long, c_ulong
-
-    from ctypes.wintypes import LPVOID, DWORD, BOOL
-    import _winreg as winreg
-
-    def _load_crypto_libcrypto():
-        from ctypes.util import find_library
-        libcrypto = find_library('libeay32')
-        if libcrypto is None:
-            raise ADEPTError('libcrypto not found')
-        libcrypto = CDLL(libcrypto)
-        AES_MAXNR = 14
-        c_char_pp = POINTER(c_char_p)
-        c_int_p = POINTER(c_int)
-        class AES_KEY(Structure):
-            _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))),
-                        ('rounds', c_int)]
-        AES_KEY_p = POINTER(AES_KEY)
-    
-        def F(restype, name, argtypes):
-            func = getattr(libcrypto, name)
-            func.restype = restype
-            func.argtypes = argtypes
-            return func
-    
-        AES_set_decrypt_key = F(c_int, 'AES_set_decrypt_key',
-                                [c_char_p, c_int, AES_KEY_p])
-        AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',
-                            [c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p,
-                             c_int])
-        class AES(object):
-            def __init__(self, userkey):
-                self._blocksize = len(userkey)
-                if (self._blocksize != 16) and (self._blocksize != 24) and (self._blocksize != 32) :
-                    raise ADEPTError('AES improper key used')
-                key = self._key = AES_KEY()
-                rv = AES_set_decrypt_key(userkey, len(userkey) * 8, key)
-                if rv < 0:
-                    raise ADEPTError('Failed to initialize AES key')
-            def decrypt(self, data):
-                out = create_string_buffer(len(data))
-                iv = ("\x00" * self._blocksize)
-                rv = AES_cbc_encrypt(data, out, len(data), self._key, iv, 0)
-                if rv == 0:
-                    raise ADEPTError('AES decryption failed')
-                return out.raw
-        return AES
-
-    def _load_crypto_pycrypto():
-        from Crypto.Cipher import AES as _AES
-        class AES(object):
-            def __init__(self, key):
-                self._aes = _AES.new(key, _AES.MODE_CBC)
-            def decrypt(self, data):
-                return self._aes.decrypt(data)
-        return AES
-
-    def _load_crypto():
-        AES = None
-        for loader in (_load_crypto_pycrypto, _load_crypto_libcrypto):
-            try:
-                AES = loader()
-                break
-            except (ImportError, ADEPTError):
-                pass
-        return AES
-
-    AES = _load_crypto()
-
-
-    DEVICE_KEY_PATH = r'Software\Adobe\Adept\Device'
-    PRIVATE_LICENCE_KEY_PATH = r'Software\Adobe\Adept\Activation'
-
-    MAX_PATH = 255
-
-    kernel32 = windll.kernel32
-    advapi32 = windll.advapi32
-    crypt32 = windll.crypt32
-
-    def GetSystemDirectory():
-        GetSystemDirectoryW = kernel32.GetSystemDirectoryW
-        GetSystemDirectoryW.argtypes = [c_wchar_p, c_uint]
-        GetSystemDirectoryW.restype = c_uint
-        def GetSystemDirectory():
-            buffer = create_unicode_buffer(MAX_PATH + 1)
-            GetSystemDirectoryW(buffer, len(buffer))
-            return buffer.value
-        return GetSystemDirectory
-    GetSystemDirectory = GetSystemDirectory()
-
-    def GetVolumeSerialNumber():
-        GetVolumeInformationW = kernel32.GetVolumeInformationW
-        GetVolumeInformationW.argtypes = [c_wchar_p, c_wchar_p, c_uint,
-                                          POINTER(c_uint), POINTER(c_uint),
-                                          POINTER(c_uint), c_wchar_p, c_uint]
-        GetVolumeInformationW.restype = c_uint
-        def GetVolumeSerialNumber(path):
-            vsn = c_uint(0)
-            GetVolumeInformationW(
-                path, None, 0, byref(vsn), None, None, None, 0)
-            return vsn.value
-        return GetVolumeSerialNumber
-    GetVolumeSerialNumber = GetVolumeSerialNumber()
-
-    def GetUserName():
-        GetUserNameW = advapi32.GetUserNameW
-        GetUserNameW.argtypes = [c_wchar_p, POINTER(c_uint)]
-        GetUserNameW.restype = c_uint
-        def GetUserName():
-            buffer = create_unicode_buffer(32)
-            size = c_uint(len(buffer))
-            while not GetUserNameW(buffer, byref(size)):
-                buffer = create_unicode_buffer(len(buffer) * 2)
-                size.value = len(buffer)
-            return buffer.value.encode('utf-16-le')[::2]
-        return GetUserName
-    GetUserName = GetUserName()
-
-    PAGE_EXECUTE_READWRITE = 0x40
-    MEM_COMMIT  = 0x1000
-    MEM_RESERVE = 0x2000
-
-    def VirtualAlloc():
-        _VirtualAlloc = kernel32.VirtualAlloc
-        _VirtualAlloc.argtypes = [LPVOID, c_size_t, DWORD, DWORD]
-        _VirtualAlloc.restype = LPVOID
-        def VirtualAlloc(addr, size, alloctype=(MEM_COMMIT | MEM_RESERVE),
-                         protect=PAGE_EXECUTE_READWRITE):
-            return _VirtualAlloc(addr, size, alloctype, protect)
-        return VirtualAlloc
-    VirtualAlloc = VirtualAlloc()
-
-    MEM_RELEASE = 0x8000
-
-    def VirtualFree():
-        _VirtualFree = kernel32.VirtualFree
-        _VirtualFree.argtypes = [LPVOID, c_size_t, DWORD]
-        _VirtualFree.restype = BOOL
-        def VirtualFree(addr, size=0, freetype=MEM_RELEASE):
-            return _VirtualFree(addr, size, freetype)
-        return VirtualFree
-    VirtualFree = VirtualFree()
-
-    class NativeFunction(object):
-        def __init__(self, restype, argtypes, insns):
-            self._buf = buf = VirtualAlloc(None, len(insns))
-            memmove(buf, insns, len(insns))
-            ftype = CFUNCTYPE(restype, *argtypes)
-            self._native = ftype(buf)
-
-        def __call__(self, *args):
-            return self._native(*args)
-
-        def __del__(self):
-            if self._buf is not None:
-                VirtualFree(self._buf)
-                self._buf = None
-
-    if struct.calcsize("P") == 4:
-        CPUID0_INSNS = (
-            "\x53"             # push   %ebx
-            "\x31\xc0"         # xor    %eax,%eax
-            "\x0f\xa2"         # cpuid
-            "\x8b\x44\x24\x08" # mov    0x8(%esp),%eax
-            "\x89\x18"         # mov    %ebx,0x0(%eax)
-            "\x89\x50\x04"     # mov    %edx,0x4(%eax)
-            "\x89\x48\x08"     # mov    %ecx,0x8(%eax)
-            "\x5b"             # pop    %ebx
-            "\xc3"             # ret
-        )
-        CPUID1_INSNS = (
-            "\x53"             # push   %ebx
-            "\x31\xc0"         # xor    %eax,%eax
-            "\x40"             # inc    %eax
-            "\x0f\xa2"         # cpuid
-            "\x5b"             # pop    %ebx
-            "\xc3"             # ret
-        )
-    else:
-        CPUID0_INSNS = (
-            "\x49\x89\xd8"     # mov    %rbx,%r8
-            "\x49\x89\xc9"     # mov    %rcx,%r9
-            "\x48\x31\xc0"     # xor    %rax,%rax
-            "\x0f\xa2"         # cpuid
-            "\x4c\x89\xc8"     # mov    %r9,%rax
-            "\x89\x18"         # mov    %ebx,0x0(%rax)
-            "\x89\x50\x04"     # mov    %edx,0x4(%rax)
-            "\x89\x48\x08"     # mov    %ecx,0x8(%rax)
-            "\x4c\x89\xc3"     # mov    %r8,%rbx
-            "\xc3"             # retq
-        )
-        CPUID1_INSNS = (
-            "\x53"             # push   %rbx
-            "\x48\x31\xc0"     # xor    %rax,%rax
-            "\x48\xff\xc0"     # inc    %rax
-            "\x0f\xa2"         # cpuid
-            "\x5b"             # pop    %rbx
-            "\xc3"             # retq
-        )
-
-    def cpuid0():
-        _cpuid0 = NativeFunction(None, [c_char_p], CPUID0_INSNS)
-        buf = create_string_buffer(12)
-        def cpuid0():
-            _cpuid0(buf)
-            return buf.raw
-        return cpuid0
-    cpuid0 = cpuid0()
-
-    cpuid1 = NativeFunction(c_uint, [], CPUID1_INSNS)
-
-    class DataBlob(Structure):
-        _fields_ = [('cbData', c_uint),
-                    ('pbData', c_void_p)]
-    DataBlob_p = POINTER(DataBlob)
-
-    def CryptUnprotectData():
-        _CryptUnprotectData = crypt32.CryptUnprotectData
-        _CryptUnprotectData.argtypes = [DataBlob_p, c_wchar_p, DataBlob_p,
-                                       c_void_p, c_void_p, c_uint, DataBlob_p]
-        _CryptUnprotectData.restype = c_uint
-        def CryptUnprotectData(indata, entropy):
-            indatab = create_string_buffer(indata)
-            indata = DataBlob(len(indata), cast(indatab, c_void_p))
-            entropyb = create_string_buffer(entropy)
-            entropy = DataBlob(len(entropy), cast(entropyb, c_void_p))
-            outdata = DataBlob()
-            if not _CryptUnprotectData(byref(indata), None, byref(entropy),
-                                       None, None, 0, byref(outdata)):
-                raise ADEPTError("Failed to decrypt user key key (sic)")
-            return string_at(outdata.pbData, outdata.cbData)
-        return CryptUnprotectData
-    CryptUnprotectData = CryptUnprotectData()
-
-    def retrieve_key():
-        if AES is None:
-            tkMessageBox.showerror(
-                "ADEPT Key",
-                "This script requires PyCrypto or OpenSSL which must be installed "
-                "separately.  Read the top-of-script comment for details.")
-            return False
-        root = GetSystemDirectory().split('\\')[0] + '\\'
-        serial = GetVolumeSerialNumber(root)
-        vendor = cpuid0()
-        signature = struct.pack('>I', cpuid1())[1:]
-        user = GetUserName()
-        entropy = struct.pack('>I12s3s13s', serial, vendor, signature, user)
-        cuser = winreg.HKEY_CURRENT_USER
-        try:
-            regkey = winreg.OpenKey(cuser, DEVICE_KEY_PATH)
-        except WindowsError:
-            raise ADEPTError("Adobe Digital Editions not activated")
-        device = winreg.QueryValueEx(regkey, 'key')[0]
-        keykey = CryptUnprotectData(device, entropy)
-        userkey = None
-        try:
-            plkroot = winreg.OpenKey(cuser, PRIVATE_LICENCE_KEY_PATH)
-        except WindowsError:
-            raise ADEPTError("Could not locate ADE activation")
-        for i in xrange(0, 16):
-            try:
-                plkparent = winreg.OpenKey(plkroot, "%04d" % (i,))
-            except WindowsError:
-                break
-            ktype = winreg.QueryValueEx(plkparent, None)[0]
-            if ktype != 'credentials':
-                continue
-            for j in xrange(0, 16):
-                try:
-                    plkkey = winreg.OpenKey(plkparent, "%04d" % (j,))
-                except WindowsError:
-                    break
-                ktype = winreg.QueryValueEx(plkkey, None)[0]
-                if ktype != 'privateLicenseKey':
-                    continue
-                userkey = winreg.QueryValueEx(plkkey, 'value')[0]
-                break
-            if userkey is not None:
-                break
-        if userkey is None:
-            raise ADEPTError('Could not locate privateLicenseKey')
-        userkey = userkey.decode('base64')
-        aes = AES(keykey)
-        userkey = aes.decrypt(userkey)
-        userkey = userkey[26:-ord(userkey[-1])]
-        return userkey
-
-else:
-
-    import xml.etree.ElementTree as etree
-    import subprocess
-
-    NSMAP = {'adept': 'http://ns.adobe.com/adept',
-             'enc': 'http://www.w3.org/2001/04/xmlenc#'}
-
-    def findActivationDat():
-        home = os.getenv('HOME')
-        cmdline = 'find "' + home + '/Library/Application Support/Adobe/Digital Editions" -name "activation.dat"'
-        cmdline = cmdline.encode(sys.getfilesystemencoding())
-        p2 = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-        out1, out2 = p2.communicate()
-        reslst = out1.split('\n')
-        cnt = len(reslst)
-        for j in xrange(cnt):
-            resline = reslst[j]
-            pp = resline.find('activation.dat')
-            if pp >= 0:
-                ActDatPath = resline
-                break
-        if os.path.exists(ActDatPath):
-            return ActDatPath
-        return None
-    
-    def retrieve_key():
-        actpath = findActivationDat()
-        if actpath is None:
-            raise ADEPTError("Could not locate ADE activation")
-        tree = etree.parse(actpath)
-        adept = lambda tag: '{%s}%s' % (NSMAP['adept'], tag)
-        expr = '//%s/%s' % (adept('credentials'), adept('privateLicenseKey'))
-        userkey = tree.findtext(expr)
-        userkey = userkey.decode('base64')
-        userkey = userkey[26:]
-        return userkey
--- a/Calibre_Plugins/ineptpdf_plugin/plugin-import-name-ineptpdf.txt
+++ b/Calibre_Plugins/ineptpdf_plugin/plugin-import-name-ineptpdf.txt
--- a/Calibre_Plugins/k4mobidedrm_plugin.zip
+++ b/Calibre_Plugins/k4mobidedrm_plugin.zip
--- a/Calibre_Plugins/k4mobidedrm_plugin/k4mutils.py
+++ b/Calibre_Plugins/k4mobidedrm_plugin/k4mutils.py
@@ -1,749 +0,0 @@
-# standlone set of Mac OSX specific routines needed for KindleBooks
-
-from __future__ import with_statement
-
-import sys
-import os
-import os.path
-import re
-import copy
-import subprocess
-from struct import pack, unpack, unpack_from
-
-class DrmException(Exception):
-    pass
-
-
-# interface to needed routines in openssl's libcrypto
-def _load_crypto_libcrypto():
-    from ctypes import CDLL, byref, POINTER, c_void_p, c_char_p, c_int, c_long, \
-        Structure, c_ulong, create_string_buffer, addressof, string_at, cast
-    from ctypes.util import find_library
-
-    libcrypto = find_library('crypto')
-    if libcrypto is None:
-        raise DrmException('libcrypto not found')
-    libcrypto = CDLL(libcrypto)
-
-    # From OpenSSL's crypto aes header
-    #
-    # AES_ENCRYPT     1
-    # AES_DECRYPT     0
-    # AES_MAXNR 14 (in bytes)
-    # AES_BLOCK_SIZE 16 (in bytes)
-    # 
-    # struct aes_key_st {
-    #    unsigned long rd_key[4 *(AES_MAXNR + 1)];
-    #    int rounds;
-    # };
-    # typedef struct aes_key_st AES_KEY;
-    #
-    # int AES_set_decrypt_key(const unsigned char *userKey, const int bits, AES_KEY *key);
-    #
-    # note:  the ivec string, and output buffer are both mutable
-    # void AES_cbc_encrypt(const unsigned char *in, unsigned char *out,
-    #     const unsigned long length, const AES_KEY *key, unsigned char *ivec, const int enc);
-
-    AES_MAXNR = 14
-    c_char_pp = POINTER(c_char_p)
-    c_int_p = POINTER(c_int)
-
-    class AES_KEY(Structure):
-        _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))), ('rounds', c_int)]
-    AES_KEY_p = POINTER(AES_KEY)
-
-    def F(restype, name, argtypes):
-        func = getattr(libcrypto, name)
-        func.restype = restype
-        func.argtypes = argtypes
-        return func
-
-    AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',[c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p,c_int])
-
-    AES_set_decrypt_key = F(c_int, 'AES_set_decrypt_key',[c_char_p, c_int, AES_KEY_p])
-
-    # From OpenSSL's Crypto evp/p5_crpt2.c
-    #
-    # int PKCS5_PBKDF2_HMAC_SHA1(const char *pass, int passlen,
-    #                        const unsigned char *salt, int saltlen, int iter,
-    #                        int keylen, unsigned char *out);
-
-    PKCS5_PBKDF2_HMAC_SHA1 = F(c_int, 'PKCS5_PBKDF2_HMAC_SHA1',
-                                [c_char_p, c_ulong, c_char_p, c_ulong, c_ulong, c_ulong, c_char_p])
-
-    class LibCrypto(object):
-        def __init__(self):
-            self._blocksize = 0
-            self._keyctx = None
-            self._iv = 0
-
-        def set_decrypt_key(self, userkey, iv):
-            self._blocksize = len(userkey)
-            if (self._blocksize != 16) and (self._blocksize != 24) and (self._blocksize != 32) :
-                raise DrmException('AES improper key used')
-                return
-            keyctx = self._keyctx = AES_KEY()
-            self._iv = iv
-            self._userkey = userkey
-            rv = AES_set_decrypt_key(userkey, len(userkey) * 8, keyctx)
-            if rv < 0:
-                raise DrmException('Failed to initialize AES key')
-
-        def decrypt(self, data):
-            out = create_string_buffer(len(data))
-            mutable_iv = create_string_buffer(self._iv, len(self._iv))
-            keyctx = self._keyctx
-            rv = AES_cbc_encrypt(data, out, len(data), keyctx, mutable_iv, 0)
-            if rv == 0:
-                raise DrmException('AES decryption failed')
-            return out.raw
-
-        def keyivgen(self, passwd, salt, iter, keylen):
-            saltlen = len(salt)
-            passlen = len(passwd)
-            out = create_string_buffer(keylen)
-            rv = PKCS5_PBKDF2_HMAC_SHA1(passwd, passlen, salt, saltlen, iter, keylen, out)
-            return out.raw
-    return LibCrypto
-
-def _load_crypto():
-    LibCrypto = None
-    try:
-        LibCrypto = _load_crypto_libcrypto()
-    except (ImportError, DrmException):
-        pass
-    return LibCrypto
-
-LibCrypto = _load_crypto()
-
-#
-# Utility Routines
-#
-
-# crypto digestroutines
-import hashlib
-
-def MD5(message):
-    ctx = hashlib.md5()
-    ctx.update(message)
-    return ctx.digest()
-
-def SHA1(message):
-    ctx = hashlib.sha1()
-    ctx.update(message)
-    return ctx.digest()
-
-def SHA256(message):
-    ctx = hashlib.sha256()
-    ctx.update(message)
-    return ctx.digest()
-
-# Various character maps used to decrypt books. Probably supposed to act as obfuscation
-charMap1 = "n5Pr6St7Uv8Wx9YzAb0Cd1Ef2Gh3Jk4M"
-charMap2 = "ZB0bYyc1xDdW2wEV3Ff7KkPpL8UuGA4gz-Tme9Nn_tHh5SvXCsIiR6rJjQaqlOoM"
-
-# For kinf approach of K4Mac 1.6.X or later
-# On K4PC charMap5 = "AzB0bYyCeVvaZ3FfUuG4g-TtHh5SsIiR6rJjQq7KkPpL8lOoMm9Nn_c1XxDdW2wE"
-# For Mac they seem to re-use charMap2 here
-charMap5 = charMap2
-
-# new in K4M 1.9.X
-testMap8 = "YvaZ3FfUm9Nn_c1XuG4yCAzB0beVg-TtHh5SsIiR6rJjQdW2wEq7KkPpL8lOoMxD"
-
-
-def encode(data, map):
-    result = ""
-    for char in data:
-        value = ord(char)
-        Q = (value ^ 0x80) // len(map)
-        R = value % len(map)
-        result += map[Q]
-        result += map[R]
-    return result
-
-# Hash the bytes in data and then encode the digest with the characters in map
-def encodeHash(data,map):
-    return encode(MD5(data),map)
-
-# Decode the string in data with the characters in map. Returns the decoded bytes
-def decode(data,map):
-    result = ""
-    for i in range (0,len(data)-1,2):
-        high = map.find(data[i])
-        low = map.find(data[i+1])
-        if (high == -1) or (low == -1) :
-            break
-        value = (((high * len(map)) ^ 0x80) & 0xFF) + low
-        result += pack("B",value)
-    return result
-
-# For K4M 1.6.X and later
-# generate table of prime number less than or equal to int n
-def primes(n):
-    if n==2: return [2]
-    elif n<2: return []
-    s=range(3,n+1,2)
-    mroot = n ** 0.5
-    half=(n+1)/2-1
-    i=0
-    m=3
-    while m <= mroot:
-        if s[i]:
-            j=(m*m-3)/2
-            s[j]=0
-            while j<half:
-                s[j]=0
-                j+=m
-        i=i+1
-        m=2*i+3
-    return [2]+[x for x in s if x]
-
-
-# uses a sub process to get the Hard Drive Serial Number using ioreg
-# returns with the serial number of drive whose BSD Name is "disk0"
-def GetVolumeSerialNumber():
-    sernum = os.getenv('MYSERIALNUMBER')
-    if sernum != None:
-        return sernum
-    cmdline = '/usr/sbin/ioreg -l -S -w 0 -r -c AppleAHCIDiskDriver'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p.communicate()
-    reslst = out1.split('\n')
-    cnt = len(reslst)
-    bsdname = None
-    sernum = None
-    foundIt = False
-    for j in xrange(cnt):
-        resline = reslst[j]
-        pp = resline.find('"Serial Number" = "')
-        if pp >= 0:
-            sernum = resline[pp+19:-1]
-            sernum = sernum.strip()
-        bb = resline.find('"BSD Name" = "')
-        if bb >= 0:
-            bsdname = resline[bb+14:-1]
-            bsdname = bsdname.strip()
-            if (bsdname == 'disk0') and (sernum != None):
-                foundIt = True
-                break
-    if not foundIt:
-        sernum = ''
-    return sernum
-
-def GetUserHomeAppSupKindleDirParitionName():
-    home = os.getenv('HOME')
-    dpath =  home + '/Library'
-    cmdline = '/sbin/mount'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p.communicate()
-    reslst = out1.split('\n')
-    cnt = len(reslst)
-    disk = ''
-    foundIt = False
-    for j in xrange(cnt):
-        resline = reslst[j]
-        if resline.startswith('/dev'):
-            (devpart, mpath) = resline.split(' on ')
-            dpart = devpart[5:]
-            pp = mpath.find('(')
-            if pp >= 0:
-                mpath = mpath[:pp-1]
-            if dpath.startswith(mpath):
-                disk = dpart
-    return disk
-
-# uses a sub process to get the UUID of the specified disk partition using ioreg
-def GetDiskPartitionUUID(diskpart):
-    uuidnum = os.getenv('MYUUIDNUMBER')
-    if uuidnum != None:
-        return uuidnum
-    cmdline = '/usr/sbin/ioreg -l -S -w 0 -r -c AppleAHCIDiskDriver'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p.communicate()
-    reslst = out1.split('\n')
-    cnt = len(reslst)
-    bsdname = None
-    uuidnum = None
-    foundIt = False
-    nest = 0
-    uuidnest = -1
-    partnest = -2
-    for j in xrange(cnt):
-        resline = reslst[j]
-        if resline.find('{') >= 0:
-            nest += 1
-        if resline.find('}') >= 0:
-            nest -= 1
-        pp = resline.find('"UUID" = "')
-        if pp >= 0:
-            uuidnum = resline[pp+10:-1]
-            uuidnum = uuidnum.strip()
-            uuidnest = nest
-            if partnest == uuidnest and uuidnest > 0:
-                foundIt = True
-                break
-        bb = resline.find('"BSD Name" = "')
-        if bb >= 0:
-            bsdname = resline[bb+14:-1]
-            bsdname = bsdname.strip()
-            if (bsdname == diskpart):
-                partnest = nest
-            else :
-                partnest = -2
-            if partnest == uuidnest and partnest > 0:
-                foundIt = True
-                break
-        if nest == 0:
-            partnest = -2
-            uuidnest = -1
-            uuidnum = None
-            bsdname = None
-    if not foundIt:
-        uuidnum = ''
-    return uuidnum
-
-def GetMACAddressMunged():
-    macnum = os.getenv('MYMACNUM')
-    if macnum != None:
-        return macnum
-    cmdline = '/sbin/ifconfig en0'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p.communicate()
-    reslst = out1.split('\n')
-    cnt = len(reslst)
-    macnum = None
-    foundIt = False
-    for j in xrange(cnt):
-        resline = reslst[j]
-        pp = resline.find('ether ')
-        if pp >= 0:
-            macnum = resline[pp+6:-1]
-            macnum = macnum.strip()
-            # print "original mac", macnum
-            # now munge it up the way Kindle app does
-            # by xoring it with 0xa5 and swapping elements 3 and 4
-            maclst = macnum.split(':')
-            n = len(maclst)
-            if n != 6:
-                fountIt = False
-                break
-            for i in range(6):
-                maclst[i] = int('0x' + maclst[i], 0)
-            mlst = [0x00, 0x00, 0x00, 0x00, 0x00, 0x00]
-            mlst[5] = maclst[5] ^ 0xa5
-            mlst[4] = maclst[3] ^ 0xa5
-            mlst[3] = maclst[4] ^ 0xa5
-            mlst[2] = maclst[2] ^ 0xa5
-            mlst[1] = maclst[1] ^ 0xa5
-            mlst[0] = maclst[0] ^ 0xa5
-            macnum = "%0.2x%0.2x%0.2x%0.2x%0.2x%0.2x" % (mlst[0], mlst[1], mlst[2], mlst[3], mlst[4], mlst[5])
-            foundIt = True
-            break
-    if not foundIt:
-        macnum = ''
-    return macnum
-
-
-# uses unix env to get username instead of using sysctlbyname
-def GetUserName():
-    username = os.getenv('USER')
-    return username
-
-def isNewInstall():
-    home = os.getenv('HOME')
-    # soccer game fan anyone
-    dpath = home + '/Library/Application Support/Kindle/storage/.pes2011'
-    # print dpath, os.path.exists(dpath)
-    if os.path.exists(dpath):
-        return True
-    dpath = home + '/Library/Containers/com.amazon.Kindle/Data/Library/Application Support/Kindle/storage/.pes2011'
-    # print dpath, os.path.exists(dpath)
-    if os.path.exists(dpath):
-        return True
-    return False
-
-
-def GetIDString():
-    # K4Mac now has an extensive set of ids strings it uses
-    # in encoding pids and in creating unique passwords
-    # for use in its own version of CryptUnprotectDataV2
-
-    # BUT Amazon has now become nasty enough to detect when its app
-    # is being run under a debugger and actually changes code paths
-    # including which one of these strings is chosen, all to try
-    # to prevent reverse engineering
-
-    # Sad really ... they will only hurt their own sales ...
-    # true book lovers really want to keep their books forever
-    # and move them to their devices and DRM prevents that so they
-    # will just buy from someplace else that they can remove
-    # the DRM from
-
-    # Amazon should know by now that true book lover's are not like
-    # penniless kids that pirate music, we do not pirate books
-
-    if isNewInstall():
-        mungedmac = GetMACAddressMunged()
-        if len(mungedmac) > 7:
-            print('Using Munged MAC Address for ID: '+mungedmac)
-            return mungedmac
-    sernum = GetVolumeSerialNumber()
-    if len(sernum) > 7:
-        print('Using Volume Serial Number for ID: '+sernum)
-        return sernum
-    diskpart = GetUserHomeAppSupKindleDirParitionName()
-    uuidnum = GetDiskPartitionUUID(diskpart)
-    if len(uuidnum) > 7:
-        print('Using Disk Partition UUID for ID: '+uuidnum)
-        return uuidnum
-    mungedmac = GetMACAddressMunged()
-    if len(mungedmac) > 7:
-        print('Using Munged MAC Address for ID: '+mungedmac)
-        return mungedmac
-    print('Using Fixed constant 9999999999 for ID.')
-    return '9999999999'
-
-
-# implements an Pseudo Mac Version of Windows built-in Crypto routine
-# used by Kindle for Mac versions < 1.6.0
-class CryptUnprotectData(object):
-    def __init__(self):
-        sernum = GetVolumeSerialNumber()
-        if sernum == '':
-            sernum = '9999999999'
-        sp = sernum + '!@#' + GetUserName()
-        passwdData = encode(SHA256(sp),charMap1)
-        salt = '16743'
-        self.crp = LibCrypto()
-        iter = 0x3e8
-        keylen = 0x80
-        key_iv = self.crp.keyivgen(passwdData, salt, iter, keylen)
-        self.key = key_iv[0:32]
-        self.iv = key_iv[32:48]
-        self.crp.set_decrypt_key(self.key, self.iv)
-
-    def decrypt(self, encryptedData):
-        cleartext = self.crp.decrypt(encryptedData)
-        cleartext = decode(cleartext,charMap1)
-        return cleartext
-
-
-# implements an Pseudo Mac Version of Windows built-in Crypto routine
-# used for Kindle for Mac Versions >= 1.6.0
-class CryptUnprotectDataV2(object):
-    def __init__(self):
-        sp = GetUserName() + ':&%:' + GetIDString()
-        passwdData = encode(SHA256(sp),charMap5)
-        # salt generation as per the code
-        salt = 0x0512981d * 2 * 1 * 1
-        salt = str(salt) + GetUserName()
-        salt = encode(salt,charMap5)
-        self.crp = LibCrypto()
-        iter = 0x800
-        keylen = 0x400
-        key_iv = self.crp.keyivgen(passwdData, salt, iter, keylen)
-        self.key = key_iv[0:32]
-        self.iv = key_iv[32:48]
-        self.crp.set_decrypt_key(self.key, self.iv)
-
-    def decrypt(self, encryptedData):
-        cleartext = self.crp.decrypt(encryptedData)
-        cleartext = decode(cleartext, charMap5)
-        return cleartext
-
-
-# unprotect the new header blob in .kinf2011
-# used in Kindle for Mac Version >= 1.9.0
-def UnprotectHeaderData(encryptedData):
-    passwdData = 'header_key_data'
-    salt = 'HEADER.2011'
-    iter = 0x80
-    keylen = 0x100
-    crp = LibCrypto()
-    key_iv = crp.keyivgen(passwdData, salt, iter, keylen)
-    key = key_iv[0:32]
-    iv = key_iv[32:48]
-    crp.set_decrypt_key(key,iv)
-    cleartext = crp.decrypt(encryptedData)
-    return cleartext
-
-
-# implements an Pseudo Mac Version of Windows built-in Crypto routine
-# used for Kindle for Mac Versions >= 1.9.0
-class CryptUnprotectDataV3(object):
-    def __init__(self, entropy):
-        sp = GetUserName() + '+@#$%+' + GetIDString()
-        passwdData = encode(SHA256(sp),charMap2)
-        salt = entropy
-        self.crp = LibCrypto()
-        iter = 0x800
-        keylen = 0x400
-        key_iv = self.crp.keyivgen(passwdData, salt, iter, keylen)
-        self.key = key_iv[0:32]
-        self.iv = key_iv[32:48]
-        self.crp.set_decrypt_key(self.key, self.iv)
-
-    def decrypt(self, encryptedData):
-        cleartext = self.crp.decrypt(encryptedData)
-        cleartext = decode(cleartext, charMap2)
-        return cleartext
-
-
-# Locate the .kindle-info files
-def getKindleInfoFiles(kInfoFiles):
-    home = os.getenv('HOME')
-    # search for any .kinf2011 files in new location (Sep 2012)
-    cmdline = 'find "' + home + '/Library/Containers/com.amazon.Kindle/Data/Library/Application Support" -name ".kinf2011"'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p1 = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p1.communicate()
-    reslst = out1.split('\n')
-    for resline in reslst:
-        if os.path.isfile(resline):
-            kInfoFiles.append(resline)
-            print('Found k4Mac kinf2011 file: ' + resline)
-            found = True
-   # search for any .kinf2011 files
-    cmdline = 'find "' + home + '/Library/Application Support" -name ".kinf2011"'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p1 = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p1.communicate()
-    reslst = out1.split('\n')
-    for resline in reslst:
-        if os.path.isfile(resline):
-            kInfoFiles.append(resline)
-            print('Found k4Mac kinf2011 file: ' + resline)
-            found = True
-    # search for any .kindle-info files
-    cmdline = 'find "' + home + '/Library/Application Support" -name ".kindle-info"'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p1 = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p1.communicate()
-    reslst = out1.split('\n')
-    kinfopath = 'NONE'
-    found = False
-    for resline in reslst:
-        if os.path.isfile(resline):
-            kInfoFiles.append(resline)
-            print('Found K4Mac kindle-info file: ' + resline)
-            found = True
-    # search for any .rainier*-kinf files
-    cmdline = 'find "' + home + '/Library/Application Support" -name ".rainier*-kinf"'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p1 = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p1.communicate()
-    reslst = out1.split('\n')
-    for resline in reslst:
-        if os.path.isfile(resline):
-            kInfoFiles.append(resline)
-            print('Found k4Mac kinf file: ' + resline)
-            found = True
-    if not found:
-        print('No k4Mac kindle-info/kinf/kinf2011 files have been found.')
-    return kInfoFiles
-
-# determine type of kindle info provided and return a
-# database of keynames and values
-def getDBfromFile(kInfoFile):
-    names = ["kindle.account.tokens","kindle.cookie.item","eulaVersionAccepted","login_date","kindle.token.item","login","kindle.key.item","kindle.name.info","kindle.device.info", "MazamaRandomNumber", "max_date", "SIGVERIF"]
-    DB = {}
-    cnt = 0
-    infoReader = open(kInfoFile, 'r')
-    hdr = infoReader.read(1)
-    data = infoReader.read()
-
-    if data.find('[') != -1 :
-
-        # older style kindle-info file
-        cud = CryptUnprotectData()
-        items = data.split('[')
-        for item in items:
-            if item != '':
-                keyhash, rawdata = item.split(':')
-                keyname = "unknown"
-                for name in names:
-                    if encodeHash(name,charMap2) == keyhash:
-                        keyname = name
-                        break
-                if keyname == "unknown":
-                    keyname = keyhash
-                encryptedValue = decode(rawdata,charMap2)
-                cleartext = cud.decrypt(encryptedValue)
-                DB[keyname] = cleartext
-                cnt = cnt + 1
-        if cnt == 0:
-            DB = None
-        return DB
-
-    if hdr == '/':
-
-        # else newer style .kinf file used by K4Mac >= 1.6.0
-        # the .kinf file uses "/" to separate it into records
-        # so remove the trailing "/" to make it easy to use split
-        data = data[:-1]
-        items = data.split('/')
-        cud = CryptUnprotectDataV2()
-
-        # loop through the item records until all are processed
-        while len(items) > 0:
-
-            # get the first item record
-            item = items.pop(0)
-
-            # the first 32 chars of the first record of a group
-            # is the MD5 hash of the key name encoded by charMap5
-            keyhash = item[0:32]
-            keyname = "unknown"
-
-            # the raw keyhash string is also used to create entropy for the actual
-            # CryptProtectData Blob that represents that keys contents
-            # "entropy" not used for K4Mac only K4PC
-            # entropy = SHA1(keyhash)
-
-            # the remainder of the first record when decoded with charMap5
-            # has the ':' split char followed by the string representation
-            # of the number of records that follow
-            # and make up the contents
-            srcnt = decode(item[34:],charMap5)
-            rcnt = int(srcnt)
-
-            # read and store in rcnt records of data
-            # that make up the contents value
-            edlst = []
-            for i in xrange(rcnt):
-                item = items.pop(0)
-                edlst.append(item)
-
-            keyname = "unknown"
-            for name in names:
-                if encodeHash(name,charMap5) == keyhash:
-                    keyname = name
-                    break
-            if keyname == "unknown":
-                keyname = keyhash
-
-            # the charMap5 encoded contents data has had a length
-            # of chars (always odd) cut off of the front and moved
-            # to the end to prevent decoding using charMap5 from
-            # working properly, and thereby preventing the ensuing
-            # CryptUnprotectData call from succeeding.
-
-            # The offset into the charMap5 encoded contents seems to be:
-            # len(contents) - largest prime number less than or equal to int(len(content)/3)
-            # (in other words split "about" 2/3rds of the way through)
-
-            # move first offsets chars to end to align for decode by charMap5
-            encdata = "".join(edlst)
-            contlen = len(encdata)
-
-            # now properly split and recombine
-            # by moving noffset chars from the start of the
-            # string to the end of the string
-            noffset = contlen - primes(int(contlen/3))[-1]
-            pfx = encdata[0:noffset]
-            encdata = encdata[noffset:]
-            encdata = encdata + pfx
-
-            # decode using charMap5 to get the CryptProtect Data
-            encryptedValue = decode(encdata,charMap5)
-            cleartext = cud.decrypt(encryptedValue)
-            DB[keyname] = cleartext
-            cnt = cnt + 1
-
-        if cnt == 0:
-            DB = None
-        return DB
-
-    # the latest .kinf2011 version for K4M 1.9.1
-    # put back the hdr char, it is needed
-    data = hdr + data
-    data = data[:-1]
-    items = data.split('/')
-
-    # the headerblob is the encrypted information needed to build the entropy string
-    headerblob = items.pop(0)
-    encryptedValue = decode(headerblob, charMap1)
-    cleartext = UnprotectHeaderData(encryptedValue)
-
-    # now extract the pieces in the same way
-    # this version is different from K4PC it scales the build number by multipying by 735
-    pattern = re.compile(r'''\[Version:(\d+)\]\[Build:(\d+)\]\[Cksum:([^\]]+)\]\[Guid:([\{\}a-z0-9\-]+)\]''', re.IGNORECASE)
-    for m in re.finditer(pattern, cleartext):
-        entropy = str(int(m.group(2)) * 0x2df) + m.group(4)
-
-    cud = CryptUnprotectDataV3(entropy)
-
-    # loop through the item records until all are processed
-    while len(items) > 0:
-
-        # get the first item record
-        item = items.pop(0)
-
-        # the first 32 chars of the first record of a group
-        # is the MD5 hash of the key name encoded by charMap5
-        keyhash = item[0:32]
-        keyname = "unknown"
-
-        # unlike K4PC the keyhash is not used in generating entropy
-        # entropy = SHA1(keyhash) + added_entropy
-        # entropy = added_entropy
-
-        # the remainder of the first record when decoded with charMap5
-        # has the ':' split char followed by the string representation
-        # of the number of records that follow
-        # and make up the contents
-        srcnt = decode(item[34:],charMap5)
-        rcnt = int(srcnt)
-
-        # read and store in rcnt records of data
-        # that make up the contents value
-        edlst = []
-        for i in xrange(rcnt):
-            item = items.pop(0)
-            edlst.append(item)
-
-        keyname = "unknown"
-        for name in names:
-            if encodeHash(name,testMap8) == keyhash:
-                keyname = name
-                break
-        if keyname == "unknown":
-            keyname = keyhash
-
-        # the testMap8 encoded contents data has had a length
-        # of chars (always odd) cut off of the front and moved
-        # to the end to prevent decoding using testMap8 from
-        # working properly, and thereby preventing the ensuing
-        # CryptUnprotectData call from succeeding.
-
-        # The offset into the testMap8 encoded contents seems to be:
-        # len(contents) - largest prime number less than or equal to int(len(content)/3)
-        # (in other words split "about" 2/3rds of the way through)
-
-        # move first offsets chars to end to align for decode by testMap8
-        encdata = "".join(edlst)
-        contlen = len(encdata)
-
-        # now properly split and recombine
-        # by moving noffset chars from the start of the
-        # string to the end of the string
-        noffset = contlen - primes(int(contlen/3))[-1]
-        pfx = encdata[0:noffset]
-        encdata = encdata[noffset:]
-        encdata = encdata + pfx
-
-        # decode using testMap8 to get the CryptProtect Data
-        encryptedValue = decode(encdata,testMap8)
-        cleartext = cud.decrypt(encryptedValue)
-        # print keyname
-        # print cleartext
-        DB[keyname] = cleartext
-        cnt = cnt + 1
-
-    if cnt == 0:
-        DB = None
-    return DB
--- a/Calibre_Plugins/k4mobidedrm_plugin/k4pcutils.py
+++ b/Calibre_Plugins/k4mobidedrm_plugin/k4pcutils.py
@@ -1,437 +0,0 @@
-#!/usr/bin/env python
-# K4PC Windows specific routines
-
-from __future__ import with_statement
-
-import sys, os, re
-from struct import pack, unpack, unpack_from
-
-from ctypes import windll, c_char_p, c_wchar_p, c_uint, POINTER, byref, \
-    create_unicode_buffer, create_string_buffer, CFUNCTYPE, addressof, \
-    string_at, Structure, c_void_p, cast
-
-import _winreg as winreg
-MAX_PATH = 255
-kernel32 = windll.kernel32
-advapi32 = windll.advapi32
-crypt32 = windll.crypt32
-
-import traceback
-
-# crypto digestroutines
-import hashlib
-
-def MD5(message):
-    ctx = hashlib.md5()
-    ctx.update(message)
-    return ctx.digest()
-
-def SHA1(message):
-    ctx = hashlib.sha1()
-    ctx.update(message)
-    return ctx.digest()
-
-def SHA256(message):
-    ctx = hashlib.sha256()
-    ctx.update(message)
-    return ctx.digest()
-
-# For K4PC 1.9.X
-# use routines in alfcrypto:
-#    AES_cbc_encrypt
-#    AES_set_decrypt_key
-#    PKCS5_PBKDF2_HMAC_SHA1
-
-from alfcrypto import AES_CBC, KeyIVGen
-
-def UnprotectHeaderData(encryptedData):
-    passwdData = 'header_key_data'
-    salt = 'HEADER.2011'
-    iter = 0x80
-    keylen = 0x100
-    key_iv = KeyIVGen().pbkdf2(passwdData, salt, iter, keylen)
-    key = key_iv[0:32]
-    iv = key_iv[32:48]
-    aes=AES_CBC()
-    aes.set_decrypt_key(key, iv)
-    cleartext = aes.decrypt(encryptedData)
-    return cleartext
-
-
-# simple primes table (<= n) calculator
-def primes(n):
-    if n==2: return [2]
-    elif n<2: return []
-    s=range(3,n+1,2)
-    mroot = n ** 0.5
-    half=(n+1)/2-1
-    i=0
-    m=3
-    while m <= mroot:
-        if s[i]:
-            j=(m*m-3)/2
-            s[j]=0
-            while j<half:
-                s[j]=0
-                j+=m
-        i=i+1
-        m=2*i+3
-    return [2]+[x for x in s if x]
-
-
-# Various character maps used to decrypt kindle info values.
-# Probably supposed to act as obfuscation
-charMap2 = "AaZzB0bYyCc1XxDdW2wEeVv3FfUuG4g-TtHh5SsIiR6rJjQq7KkPpL8lOoMm9Nn_"
-charMap5 = "AzB0bYyCeVvaZ3FfUuG4g-TtHh5SsIiR6rJjQq7KkPpL8lOoMm9Nn_c1XxDdW2wE"
-# New maps in K4PC 1.9.0
-testMap1 = "n5Pr6St7Uv8Wx9YzAb0Cd1Ef2Gh3Jk4M"
-testMap6 = "9YzAb0Cd1Ef2n5Pr6St7Uvh3Jk4M8WxG"
-testMap8 = "YvaZ3FfUm9Nn_c1XuG4yCAzB0beVg-TtHh5SsIiR6rJjQdW2wEq7KkPpL8lOoMxD"
-
-class DrmException(Exception):
-    pass
-
-# Encode the bytes in data with the characters in map
-def encode(data, map):
-    result = ""
-    for char in data:
-        value = ord(char)
-        Q = (value ^ 0x80) // len(map)
-        R = value % len(map)
-        result += map[Q]
-        result += map[R]
-    return result
-
-# Hash the bytes in data and then encode the digest with the characters in map
-def encodeHash(data,map):
-    return encode(MD5(data),map)
-
-# Decode the string in data with the characters in map. Returns the decoded bytes
-def decode(data,map):
-    result = ""
-    for i in range (0,len(data)-1,2):
-        high = map.find(data[i])
-        low = map.find(data[i+1])
-        if (high == -1) or (low == -1) :
-            break
-        value = (((high * len(map)) ^ 0x80) & 0xFF) + low
-        result += pack("B",value)
-    return result
-
-
-# interface with Windows OS Routines
-class DataBlob(Structure):
-    _fields_ = [('cbData', c_uint),
-                ('pbData', c_void_p)]
-DataBlob_p = POINTER(DataBlob)
-
-
-def GetSystemDirectory():
-    GetSystemDirectoryW = kernel32.GetSystemDirectoryW
-    GetSystemDirectoryW.argtypes = [c_wchar_p, c_uint]
-    GetSystemDirectoryW.restype = c_uint
-    def GetSystemDirectory():
-        buffer = create_unicode_buffer(MAX_PATH + 1)
-        GetSystemDirectoryW(buffer, len(buffer))
-        return buffer.value
-    return GetSystemDirectory
-GetSystemDirectory = GetSystemDirectory()
-
-def GetVolumeSerialNumber():
-    GetVolumeInformationW = kernel32.GetVolumeInformationW
-    GetVolumeInformationW.argtypes = [c_wchar_p, c_wchar_p, c_uint,
-                                      POINTER(c_uint), POINTER(c_uint),
-                                      POINTER(c_uint), c_wchar_p, c_uint]
-    GetVolumeInformationW.restype = c_uint
-    def GetVolumeSerialNumber(path = GetSystemDirectory().split('\\')[0] + '\\'):
-        vsn = c_uint(0)
-        GetVolumeInformationW(path, None, 0, byref(vsn), None, None, None, 0)
-        return str(vsn.value)
-    return GetVolumeSerialNumber
-GetVolumeSerialNumber = GetVolumeSerialNumber()
-
-def GetIDString():
-    vsn = GetVolumeSerialNumber()
-    print('Using Volume Serial Number for ID: '+vsn)
-    return vsn
-
-def getLastError():
-    GetLastError = kernel32.GetLastError
-    GetLastError.argtypes = None
-    GetLastError.restype = c_uint
-    def getLastError():
-        return GetLastError()
-    return getLastError
-getLastError = getLastError()
-
-def GetUserName():
-    GetUserNameW = advapi32.GetUserNameW
-    GetUserNameW.argtypes = [c_wchar_p, POINTER(c_uint)]
-    GetUserNameW.restype = c_uint
-    def GetUserName():
-        buffer = create_unicode_buffer(2)
-        size = c_uint(len(buffer))
-        while not GetUserNameW(buffer, byref(size)):
-            errcd = getLastError()
-            if errcd == 234:
-                # bad wine implementation up through wine 1.3.21
-                return "AlternateUserName"
-            buffer = create_unicode_buffer(len(buffer) * 2)
-            size.value = len(buffer)
-        return buffer.value.encode('utf-16-le')[::2]
-    return GetUserName
-GetUserName = GetUserName()
-
-def CryptUnprotectData():
-    _CryptUnprotectData = crypt32.CryptUnprotectData
-    _CryptUnprotectData.argtypes = [DataBlob_p, c_wchar_p, DataBlob_p,
-                                   c_void_p, c_void_p, c_uint, DataBlob_p]
-    _CryptUnprotectData.restype = c_uint
-    def CryptUnprotectData(indata, entropy, flags):
-        indatab = create_string_buffer(indata)
-        indata = DataBlob(len(indata), cast(indatab, c_void_p))
-        entropyb = create_string_buffer(entropy)
-        entropy = DataBlob(len(entropy), cast(entropyb, c_void_p))
-        outdata = DataBlob()
-        if not _CryptUnprotectData(byref(indata), None, byref(entropy),
-                                   None, None, flags, byref(outdata)):
-            # raise DrmException("Failed to Unprotect Data")
-            return 'failed'
-        return string_at(outdata.pbData, outdata.cbData)
-    return CryptUnprotectData
-CryptUnprotectData = CryptUnprotectData()
-
-
-# Locate all of the kindle-info style files and return as list
-def getKindleInfoFiles(kInfoFiles):
-    regkey = winreg.OpenKey(winreg.HKEY_CURRENT_USER, "Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Shell Folders\\")
-    path = winreg.QueryValueEx(regkey, 'Local AppData')[0]
-
-    # some 64 bit machines do not have the proper registry key for some reason
-    # or the pythonn interface to the 32 vs 64 bit registry is broken
-    if 'LOCALAPPDATA' in os.environ.keys():
-        path = os.environ['LOCALAPPDATA']
-
-    print('searching for kinfoFiles in ' + path)
-    found = False
-
-    # first look for older kindle-info files
-    kinfopath = path +'\\Amazon\\Kindle For PC\\{AMAwzsaPaaZAzmZzZQzgZCAkZ3AjA_AY}\\kindle.info'
-    if os.path.isfile(kinfopath):
-        found = True
-        print('Found K4PC kindle.info file: ' + kinfopath)
-        kInfoFiles.append(kinfopath)
-
-    # now look for newer (K4PC 1.5.0 and later rainier.2.1.1.kinf file
-
-    kinfopath = path +'\\Amazon\\Kindle For PC\\storage\\rainier.2.1.1.kinf'
-    if os.path.isfile(kinfopath):
-        found = True
-        print('Found K4PC 1.5.X kinf file: ' + kinfopath)
-        kInfoFiles.append(kinfopath)
-
-    # now look for even newer (K4PC 1.6.0 and later) rainier.2.1.1.kinf file
-    kinfopath = path +'\\Amazon\\Kindle\\storage\\rainier.2.1.1.kinf'
-    if os.path.isfile(kinfopath):
-        found = True
-        print('Found K4PC 1.6.X kinf file: ' + kinfopath)
-        kInfoFiles.append(kinfopath)
-
-    # now look for even newer (K4PC 1.9.0 and later) .kinf2011 file
-    kinfopath = path +'\\Amazon\\Kindle\\storage\\.kinf2011'
-    if os.path.isfile(kinfopath):
-        found = True
-        print('Found K4PC kinf2011 file: ' + kinfopath)
-        kInfoFiles.append(kinfopath)
-
-    if not found:
-        print('No K4PC kindle.info/kinf/kinf2011 files have been found.')
-    return kInfoFiles
-
-
-# determine type of kindle info provided and return a
-# database of keynames and values
-def getDBfromFile(kInfoFile):
-    names = ["kindle.account.tokens","kindle.cookie.item","eulaVersionAccepted","login_date","kindle.token.item","login","kindle.key.item","kindle.name.info","kindle.device.info", "MazamaRandomNumber", "max_date", "SIGVERIF"]
-    DB = {}
-    cnt = 0
-    infoReader = open(kInfoFile, 'r')
-    hdr = infoReader.read(1)
-    data = infoReader.read()
-
-    if data.find('{') != -1 :
-
-        # older style kindle-info file
-        items = data.split('{')
-        for item in items:
-            if item != '':
-                keyhash, rawdata = item.split(':')
-                keyname = "unknown"
-                for name in names:
-                    if encodeHash(name,charMap2) == keyhash:
-                        keyname = name
-                        break
-                if keyname == "unknown":
-                    keyname = keyhash
-                encryptedValue = decode(rawdata,charMap2)
-                DB[keyname] = CryptUnprotectData(encryptedValue, "", 0)
-                cnt = cnt + 1
-        if cnt == 0:
-            DB = None
-        return DB
-
-    if hdr == '/':
-        # else rainier-2-1-1 .kinf file
-        # the .kinf file uses "/" to separate it into records
-        # so remove the trailing "/" to make it easy to use split
-        data = data[:-1]
-        items = data.split('/')
-
-        # loop through the item records until all are processed
-        while len(items) > 0:
-
-            # get the first item record
-            item = items.pop(0)
-
-            # the first 32 chars of the first record of a group
-            # is the MD5 hash of the key name encoded by charMap5
-            keyhash = item[0:32]
-
-            # the raw keyhash string is used to create entropy for the actual
-            # CryptProtectData Blob that represents that keys contents
-            entropy = SHA1(keyhash)
-
-            # the remainder of the first record when decoded with charMap5
-            # has the ':' split char followed by the string representation
-            # of the number of records that follow
-            # and make up the contents
-            srcnt = decode(item[34:],charMap5)
-            rcnt = int(srcnt)
-
-            # read and store in rcnt records of data
-            # that make up the contents value
-            edlst = []
-            for i in xrange(rcnt):
-                item = items.pop(0)
-                edlst.append(item)
-
-            keyname = "unknown"
-            for name in names:
-                if encodeHash(name,charMap5) == keyhash:
-                    keyname = name
-                    break
-            if keyname == "unknown":
-                keyname = keyhash
-            # the charMap5 encoded contents data has had a length
-            # of chars (always odd) cut off of the front and moved
-            # to the end to prevent decoding using charMap5 from
-            # working properly, and thereby preventing the ensuing
-            # CryptUnprotectData call from succeeding.
-
-            # The offset into the charMap5 encoded contents seems to be:
-            # len(contents)-largest prime number <=  int(len(content)/3)
-            # (in other words split "about" 2/3rds of the way through)
-
-            # move first offsets chars to end to align for decode by charMap5
-            encdata = "".join(edlst)
-            contlen = len(encdata)
-            noffset = contlen - primes(int(contlen/3))[-1]
-
-            # now properly split and recombine
-            # by moving noffset chars from the start of the
-            # string to the end of the string
-            pfx = encdata[0:noffset]
-            encdata = encdata[noffset:]
-            encdata = encdata + pfx
-
-            # decode using Map5 to get the CryptProtect Data
-            encryptedValue = decode(encdata,charMap5)
-            DB[keyname] = CryptUnprotectData(encryptedValue, entropy, 1)
-            cnt = cnt + 1
-
-        if cnt == 0:
-            DB = None
-        return DB
-
-    # else newest .kinf2011 style .kinf file
-    # the .kinf file uses "/" to separate it into records
-    # so remove the trailing "/" to make it easy to use split
-    # need to put back the first char read because it it part
-    # of the added entropy blob
-    data = hdr + data[:-1]
-    items = data.split('/')
-
-    # starts with and encoded and encrypted header blob
-    headerblob = items.pop(0)
-    encryptedValue = decode(headerblob, testMap1)
-    cleartext = UnprotectHeaderData(encryptedValue)
-    # now extract the pieces that form the added entropy
-    pattern = re.compile(r'''\[Version:(\d+)\]\[Build:(\d+)\]\[Cksum:([^\]]+)\]\[Guid:([\{\}a-z0-9\-]+)\]''', re.IGNORECASE)
-    for m in re.finditer(pattern, cleartext):
-        added_entropy = m.group(2) + m.group(4)
-
-
-    # loop through the item records until all are processed
-    while len(items) > 0:
-
-        # get the first item record
-        item = items.pop(0)
-
-        # the first 32 chars of the first record of a group
-        # is the MD5 hash of the key name encoded by charMap5
-        keyhash = item[0:32]
-
-        # the sha1 of raw keyhash string is used to create entropy along
-        # with the added entropy provided above from the headerblob
-        entropy = SHA1(keyhash) + added_entropy
-
-        # the remainder of the first record when decoded with charMap5
-        # has the ':' split char followed by the string representation
-        # of the number of records that follow
-        # and make up the contents
-        srcnt = decode(item[34:],charMap5)
-        rcnt = int(srcnt)
-
-        # read and store in rcnt records of data
-        # that make up the contents value
-        edlst = []
-        for i in xrange(rcnt):
-            item = items.pop(0)
-            edlst.append(item)
-
-        # key names now use the new testMap8 encoding
-        keyname = "unknown"
-        for name in names:
-            if encodeHash(name,testMap8) == keyhash:
-                keyname = name
-                break
-
-        # the testMap8 encoded contents data has had a length
-        # of chars (always odd) cut off of the front and moved
-        # to the end to prevent decoding using testMap8 from
-        # working properly, and thereby preventing the ensuing
-        # CryptUnprotectData call from succeeding.
-
-        # The offset into the testMap8 encoded contents seems to be:
-        # len(contents)-largest prime number <=  int(len(content)/3)
-        # (in other words split "about" 2/3rds of the way through)
-
-        # move first offsets chars to end to align for decode by testMap8
-        # by moving noffset chars from the start of the
-        # string to the end of the string
-        encdata = "".join(edlst)
-        contlen = len(encdata)
-        noffset = contlen - primes(int(contlen/3))[-1]
-        pfx = encdata[0:noffset]
-        encdata = encdata[noffset:]
-        encdata = encdata + pfx
-
-        # decode using new testMap8 to get the original CryptProtect Data
-        encryptedValue = decode(encdata,testMap8)
-        cleartext = CryptUnprotectData(encryptedValue, entropy, 1)
-        DB[keyname] = cleartext
-        cnt = cnt + 1
-
-    if cnt == 0:
-        DB = None
-    return DB
--- a/Calibre_Plugins/k4mobidedrm_plugin/mobidedrm.py
+++ b/Calibre_Plugins/k4mobidedrm_plugin/mobidedrm.py
@@ -1,460 +0,0 @@
-#!/usr/bin/python
-#
-# This is a python script. You need a Python interpreter to run it.
-# For example, ActiveState Python, which exists for windows.
-#
-# Changelog
-#  0.01 - Initial version
-#  0.02 - Huffdic compressed books were not properly decrypted
-#  0.03 - Wasn't checking MOBI header length
-#  0.04 - Wasn't sanity checking size of data record
-#  0.05 - It seems that the extra data flags take two bytes not four
-#  0.06 - And that low bit does mean something after all :-)
-#  0.07 - The extra data flags aren't present in MOBI header < 0xE8 in size
-#  0.08 - ...and also not in Mobi header version < 6
-#  0.09 - ...but they are there with Mobi header version 6, header size 0xE4!
-#  0.10 - Outputs unencrypted files as-is, so that when run as a Calibre
-#         import filter it works when importing unencrypted files.
-#         Also now handles encrypted files that don't need a specific PID.
-#  0.11 - use autoflushed stdout and proper return values
-#  0.12 - Fix for problems with metadata import as Calibre plugin, report errors
-#  0.13 - Formatting fixes: retabbed file, removed trailing whitespace
-#         and extra blank lines, converted CR/LF pairs at ends of each line,
-#         and other cosmetic fixes.
-#  0.14 - Working out when the extra data flags are present has been problematic
-#         Versions 7 through 9 have tried to tweak the conditions, but have been
-#         only partially successful. Closer examination of lots of sample
-#         files reveals that a confusion has arisen because trailing data entries
-#         are not encrypted, but it turns out that the multibyte entries
-#         in utf8 file are encrypted. (Although neither kind gets compressed.)
-#         This knowledge leads to a simplification of the test for the
-#         trailing data byte flags - version 5 and higher AND header size >= 0xE4.
-#  0.15 - Now outputs 'heartbeat', and is also quicker for long files.
-#  0.16 - And reverts to 'done' not 'done.' at the end for unswindle compatibility.
-#  0.17 - added modifications to support its use as an imported python module
-#         both inside calibre and also in other places (ie K4DeDRM tools)
-#  0.17a- disabled the standalone plugin feature since a plugin can not import
-#         a plugin
-#  0.18 - It seems that multibyte entries aren't encrypted in a v7 file...
-#         Removed the disabled Calibre plug-in code
-#         Permit use of 8-digit PIDs
-#  0.19 - It seems that multibyte entries aren't encrypted in a v6 file either.
-#  0.20 - Correction: It seems that multibyte entries are encrypted in a v6 file.
-#  0.21 - Added support for multiple pids
-#  0.22 - revised structure to hold MobiBook as a class to allow an extended interface
-#  0.23 - fixed problem with older files with no EXTH section
-#  0.24 - add support for type 1 encryption and 'TEXtREAd' books as well
-#  0.25 - Fixed support for 'BOOKMOBI' type 1 encryption
-#  0.26 - Now enables Text-To-Speech flag and sets clipping limit to 100%
-#  0.27 - Correct pid metadata token generation to match that used by skindle (Thank You Bart!)
-#  0.28 - slight additional changes to metadata token generation (None -> '')
-#  0.29 - It seems that the ideas about when multibyte trailing characters were
-#         included in the encryption were wrong. They are for DOC compressed
-#         files, but they are not for HUFF/CDIC compress files!
-#  0.30 - Modified interface slightly to work better with new calibre plugin style
-#  0.31 - The multibyte encrytion info is true for version 7 files too.
-#  0.32 - Added support for "Print Replica" Kindle ebooks
-#  0.33 - Performance improvements for large files (concatenation)
-#  0.34 - Performance improvements in decryption (libalfcrypto)
-#  0.35 - add interface to get mobi_version
-#  0.36 - fixed problem with TEXtREAd and getBookTitle interface
-#  0.37 - Fixed double announcement for stand-alone operation
-
-
-__version__ = '0.37'
-
-import sys
-
-class Unbuffered:
-    def __init__(self, stream):
-        self.stream = stream
-    def write(self, data):
-        self.stream.write(data)
-        self.stream.flush()
-    def __getattr__(self, attr):
-        return getattr(self.stream, attr)
-sys.stdout=Unbuffered(sys.stdout)
-
-import os
-import struct
-import binascii
-from alfcrypto import Pukall_Cipher
-
-class DrmException(Exception):
-    pass
-
-
-#
-# MobiBook Utility Routines
-#
-
-# Implementation of Pukall Cipher 1
-def PC1(key, src, decryption=True):
-    return Pukall_Cipher().PC1(key,src,decryption)
-#     sum1 = 0;
-#     sum2 = 0;
-#     keyXorVal = 0;
-#     if len(key)!=16:
-#         print "Bad key length!"
-#         return None
-#     wkey = []
-#     for i in xrange(8):
-#         wkey.append(ord(key[i*2])<<8 | ord(key[i*2+1]))
-#     dst = ""
-#     for i in xrange(len(src)):
-#         temp1 = 0;
-#         byteXorVal = 0;
-#         for j in xrange(8):
-#             temp1 ^= wkey[j]
-#             sum2  = (sum2+j)*20021 + sum1
-#             sum1  = (temp1*346)&0xFFFF
-#             sum2  = (sum2+sum1)&0xFFFF
-#             temp1 = (temp1*20021+1)&0xFFFF
-#             byteXorVal ^= temp1 ^ sum2
-#         curByte = ord(src[i])
-#         if not decryption:
-#             keyXorVal = curByte * 257;
-#         curByte = ((curByte ^ (byteXorVal >> 8)) ^ byteXorVal) & 0xFF
-#         if decryption:
-#             keyXorVal = curByte * 257;
-#         for j in xrange(8):
-#             wkey[j] ^= keyXorVal;
-#         dst+=chr(curByte)
-#     return dst
-
-def checksumPid(s):
-    letters = "ABCDEFGHIJKLMNPQRSTUVWXYZ123456789"
-    crc = (~binascii.crc32(s,-1))&0xFFFFFFFF
-    crc = crc ^ (crc >> 16)
-    res = s
-    l = len(letters)
-    for i in (0,1):
-        b = crc & 0xff
-        pos = (b // l) ^ (b % l)
-        res += letters[pos%l]
-        crc >>= 8
-    return res
-
-def getSizeOfTrailingDataEntries(ptr, size, flags):
-    def getSizeOfTrailingDataEntry(ptr, size):
-        bitpos, result = 0, 0
-        if size <= 0:
-            return result
-        while True:
-            v = ord(ptr[size-1])
-            result |= (v & 0x7F) << bitpos
-            bitpos += 7
-            size -= 1
-            if (v & 0x80) != 0 or (bitpos >= 28) or (size == 0):
-                return result
-    num = 0
-    testflags = flags >> 1
-    while testflags:
-        if testflags & 1:
-            num += getSizeOfTrailingDataEntry(ptr, size - num)
-        testflags >>= 1
-    # Check the low bit to see if there's multibyte data present.
-    # if multibyte data is included in the encryped data, we'll
-    # have already cleared this flag.
-    if flags & 1:
-        num += (ord(ptr[size - num - 1]) & 0x3) + 1
-    return num
-
-
-
-class MobiBook:
-    def loadSection(self, section):
-        if (section + 1 == self.num_sections):
-            endoff = len(self.data_file)
-        else:
-            endoff = self.sections[section + 1][0]
-        off = self.sections[section][0]
-        return self.data_file[off:endoff]
-
-    def __init__(self, infile, announce = True):
-        if announce:
-            print ('MobiDeDrm v%(__version__)s. '
-               'Copyright 2008-2012 The Dark Reverser et al.' % globals())
-
-        # initial sanity check on file
-        self.data_file = file(infile, 'rb').read()
-        self.mobi_data = ''
-        self.header = self.data_file[0:78]
-        if self.header[0x3C:0x3C+8] != 'BOOKMOBI' and self.header[0x3C:0x3C+8] != 'TEXtREAd':
-            raise DrmException("invalid file format")
-        self.magic = self.header[0x3C:0x3C+8]
-        self.crypto_type = -1
-
-        # build up section offset and flag info
-        self.num_sections, = struct.unpack('>H', self.header[76:78])
-        self.sections = []
-        for i in xrange(self.num_sections):
-            offset, a1,a2,a3,a4 = struct.unpack('>LBBBB', self.data_file[78+i*8:78+i*8+8])
-            flags, val = a1, a2<<16|a3<<8|a4
-            self.sections.append( (offset, flags, val) )
-
-        # parse information from section 0
-        self.sect = self.loadSection(0)
-        self.records, = struct.unpack('>H', self.sect[0x8:0x8+2])
-        self.compression, = struct.unpack('>H', self.sect[0x0:0x0+2])
-
-        if self.magic == 'TEXtREAd':
-            print "Book has format: ", self.magic
-            self.extra_data_flags = 0
-            self.mobi_length = 0
-            self.mobi_codepage = 1252
-            self.mobi_version = -1
-            self.meta_array = {}
-            return
-        self.mobi_length, = struct.unpack('>L',self.sect[0x14:0x18])
-        self.mobi_codepage, = struct.unpack('>L',self.sect[0x1c:0x20])
-        self.mobi_version, = struct.unpack('>L',self.sect[0x68:0x6C])
-        print "MOBI header version = %d, length = %d" %(self.mobi_version, self.mobi_length)
-        self.extra_data_flags = 0
-        if (self.mobi_length >= 0xE4) and (self.mobi_version >= 5):
-            self.extra_data_flags, = struct.unpack('>H', self.sect[0xF2:0xF4])
-            print "Extra Data Flags = %d" % self.extra_data_flags
-        if (self.compression != 17480):
-            # multibyte utf8 data is included in the encryption for PalmDoc compression
-            # so clear that byte so that we leave it to be decrypted.
-            self.extra_data_flags &= 0xFFFE
-
-        # if exth region exists parse it for metadata array
-        self.meta_array = {}
-        try:
-            exth_flag, = struct.unpack('>L', self.sect[0x80:0x84])
-            exth = 'NONE'
-            if exth_flag & 0x40:
-                exth = self.sect[16 + self.mobi_length:]
-            if (len(exth) >= 4) and (exth[:4] == 'EXTH'):
-                nitems, = struct.unpack('>I', exth[8:12])
-                pos = 12
-                for i in xrange(nitems):
-                    type, size = struct.unpack('>II', exth[pos: pos + 8])
-                    content = exth[pos + 8: pos + size]
-                    self.meta_array[type] = content
-                    # reset the text to speech flag and clipping limit, if present
-                    if type == 401 and size == 9:
-                        # set clipping limit to 100%
-                        self.patchSection(0, "\144", 16 + self.mobi_length + pos + 8)
-                    elif type == 404 and size == 9:
-                        # make sure text to speech is enabled
-                        self.patchSection(0, "\0", 16 + self.mobi_length + pos + 8)
-                    # print type, size, content, content.encode('hex')
-                    pos += size
-        except:
-            self.meta_array = {}
-            pass
-        self.print_replica = False
-
-    def getBookTitle(self):
-        codec_map = {
-            1252 : 'windows-1252',
-            65001 : 'utf-8',
-        }
-        title = ''
-        codec = 'windows-1252'
-        if self.magic == 'BOOKMOBI':
-            if 503 in self.meta_array:
-                title = self.meta_array[503]
-            else:
-                toff, tlen = struct.unpack('>II', self.sect[0x54:0x5c])
-                tend = toff + tlen
-                title = self.sect[toff:tend]
-            if self.mobi_codepage in codec_map.keys():
-                codec = codec_map[self.mobi_codepage]
-        if title == '':
-            title = self.header[:32]
-            title = title.split("\0")[0]
-        return unicode(title, codec).encode('utf-8')
-
-    def getPIDMetaInfo(self):
-        rec209 = ''
-        token = ''
-        if 209 in self.meta_array:
-            rec209 = self.meta_array[209]
-            data = rec209
-            # The 209 data comes in five byte groups. Interpret the last four bytes
-            # of each group as a big endian unsigned integer to get a key value
-            # if that key exists in the meta_array, append its contents to the token
-            for i in xrange(0,len(data),5):
-                val,  = struct.unpack('>I',data[i+1:i+5])
-                sval = self.meta_array.get(val,'')
-                token += sval
-        return rec209, token
-
-    def patch(self, off, new):
-        self.data_file = self.data_file[:off] + new + self.data_file[off+len(new):]
-
-    def patchSection(self, section, new, in_off = 0):
-        if (section + 1 == self.num_sections):
-            endoff = len(self.data_file)
-        else:
-            endoff = self.sections[section + 1][0]
-        off = self.sections[section][0]
-        assert off + in_off + len(new) <= endoff
-        self.patch(off + in_off, new)
-
-    def parseDRM(self, data, count, pidlist):
-        found_key = None
-        keyvec1 = "\x72\x38\x33\xB0\xB4\xF2\xE3\xCA\xDF\x09\x01\xD6\xE2\xE0\x3F\x96"
-        for pid in pidlist:
-            bigpid = pid.ljust(16,'\0')
-            temp_key = PC1(keyvec1, bigpid, False)
-            temp_key_sum = sum(map(ord,temp_key)) & 0xff
-            found_key = None
-            for i in xrange(count):
-                verification, size, type, cksum, cookie = struct.unpack('>LLLBxxx32s', data[i*0x30:i*0x30+0x30])
-                if cksum == temp_key_sum:
-                    cookie = PC1(temp_key, cookie)
-                    ver,flags,finalkey,expiry,expiry2 = struct.unpack('>LL16sLL', cookie)
-                    if verification == ver and (flags & 0x1F) == 1:
-                        found_key = finalkey
-                        break
-            if found_key != None:
-                break
-        if not found_key:
-            # Then try the default encoding that doesn't require a PID
-            pid = "00000000"
-            temp_key = keyvec1
-            temp_key_sum = sum(map(ord,temp_key)) & 0xff
-            for i in xrange(count):
-                verification, size, type, cksum, cookie = struct.unpack('>LLLBxxx32s', data[i*0x30:i*0x30+0x30])
-                if cksum == temp_key_sum:
-                    cookie = PC1(temp_key, cookie)
-                    ver,flags,finalkey,expiry,expiry2 = struct.unpack('>LL16sLL', cookie)
-                    if verification == ver:
-                        found_key = finalkey
-                        break
-        return [found_key,pid]
-
-    def getMobiFile(self, outpath):
-        file(outpath,'wb').write(self.mobi_data)
-
-    def getMobiVersion(self):
-        return self.mobi_version
-        
-    def getPrintReplica(self):
-        return self.print_replica
-
-    def processBook(self, pidlist):
-        crypto_type, = struct.unpack('>H', self.sect[0xC:0xC+2])
-        print 'Crypto Type is: ', crypto_type
-        self.crypto_type = crypto_type
-        if crypto_type == 0:
-            print "This book is not encrypted."
-            # we must still check for Print Replica
-            self.print_replica = (self.loadSection(1)[0:4] == '%MOP')
-            self.mobi_data = self.data_file
-            return
-        if crypto_type != 2 and crypto_type != 1:
-            raise DrmException("Cannot decode unknown Mobipocket encryption type %d" % crypto_type)
-        if 406 in self.meta_array:
-            data406 = self.meta_array[406]
-            val406, = struct.unpack('>Q',data406)
-            if val406 != 0:
-                raise DrmException("Cannot decode library or rented ebooks.")
-
-        goodpids = []
-        for pid in pidlist:
-            if len(pid)==10:
-                if checksumPid(pid[0:-2]) != pid:
-                    print "Warning: PID " + pid + " has incorrect checksum, should have been "+checksumPid(pid[0:-2])
-                goodpids.append(pid[0:-2])
-            elif len(pid)==8:
-                goodpids.append(pid)
-
-        if self.crypto_type == 1:
-            t1_keyvec = "QDCVEPMU675RUBSZ"
-            if self.magic == 'TEXtREAd':
-                bookkey_data = self.sect[0x0E:0x0E+16]
-            elif self.mobi_version < 0:
-                bookkey_data = self.sect[0x90:0x90+16]
-            else:
-                bookkey_data = self.sect[self.mobi_length+16:self.mobi_length+32]
-            pid = "00000000"
-            found_key = PC1(t1_keyvec, bookkey_data)
-        else :
-            # calculate the keys
-            drm_ptr, drm_count, drm_size, drm_flags = struct.unpack('>LLLL', self.sect[0xA8:0xA8+16])
-            if drm_count == 0:
-                raise DrmException("Not yet initialised with PID. Must be opened with Mobipocket Reader first.")
-            found_key, pid = self.parseDRM(self.sect[drm_ptr:drm_ptr+drm_size], drm_count, goodpids)
-            if not found_key:
-                raise DrmException("No key found in " + str(len(goodpids)) + " keys tried. Please report this failure for help.")
-            # kill the drm keys
-            self.patchSection(0, "\0" * drm_size, drm_ptr)
-            # kill the drm pointers
-            self.patchSection(0, "\xff" * 4 + "\0" * 12, 0xA8)
-
-        if pid=="00000000":
-            print "File has default encryption, no specific PID."
-        else:
-            print "File is encoded with PID "+checksumPid(pid)+"."
-
-        # clear the crypto type
-        self.patchSection(0, "\0" * 2, 0xC)
-
-        # decrypt sections
-        print "Decrypting. Please wait . . .",
-        mobidataList = []
-        mobidataList.append(self.data_file[:self.sections[1][0]])
-        for i in xrange(1, self.records+1):
-            data = self.loadSection(i)
-            extra_size = getSizeOfTrailingDataEntries(data, len(data), self.extra_data_flags)
-            if i%100 == 0:
-                print ".",
-            # print "record %d, extra_size %d" %(i,extra_size)
-            decoded_data = PC1(found_key, data[0:len(data) - extra_size])
-            if i==1:
-                self.print_replica = (decoded_data[0:4] == '%MOP')
-            mobidataList.append(decoded_data)
-            if extra_size > 0:
-                mobidataList.append(data[-extra_size:])
-        if self.num_sections > self.records+1:
-            mobidataList.append(self.data_file[self.sections[self.records+1][0]:])
-        self.mobi_data = "".join(mobidataList)
-        print "done"
-        return
-
-def getUnencryptedBook(infile,pid,announce=True):
-    if not os.path.isfile(infile):
-        raise DrmException('Input File Not Found')
-    book = MobiBook(infile,announce)
-    book.processBook([pid])
-    return book.mobi_data
-
-def getUnencryptedBookWithList(infile,pidlist,announce=True):
-    if not os.path.isfile(infile):
-        raise DrmException('Input File Not Found')
-    book = MobiBook(infile, announce)
-    book.processBook(pidlist)
-    return book.mobi_data
-
-
-def main(argv=sys.argv):
-    print ('MobiDeDrm v%(__version__)s. '
-        'Copyright 2008-2012 The Dark Reverser et al.' % globals())
-    if len(argv)<3 or len(argv)>4:
-        print "Removes protection from Kindle/Mobipocket, Kindle/KF8 and Kindle/Print Replica ebooks"
-        print "Usage:"
-        print "    %s <infile> <outfile> [<Comma separated list of PIDs to try>]" % sys.argv[0]
-        return 1
-    else:
-        infile = argv[1]
-        outfile = argv[2]
-        if len(argv) is 4:
-            pidlist = argv[3].split(',')
-        else:
-            pidlist = {}
-        try:
-            stripped_file = getUnencryptedBookWithList(infile, pidlist, False)
-            file(outfile, 'wb').write(stripped_file)
-        except DrmException, e:
-            print "Error: %s" % e
-            return 1
-    return 0
-
-
-if __name__ == "__main__":
-    sys.exit(main())
--- a/DeDRM_Macintosh_Application/DeDRM
+++ b/DeDRM_Macintosh_Application/DeDRM
@@ -1,47 +0,0 @@
-{\rtf1\ansi\ansicpg1252\cocoartf1038\cocoasubrtf360
-{\fonttbl\f0\fswiss\fcharset0 Helvetica;}
-{\colortbl;\red255\green255\blue255;}
-\paperw11900\paperh16840\margl1440\margr1440\vieww12360\viewh16560\viewkind0
-\pard\tx566\tx1133\tx1700\tx2267\tx2834\tx3401\tx3968\tx4535\tx5102\tx5669\tx6236\tx6803\qc\pardirnatural
-
-\f0\b\fs24 \cf0 DeDRM ReadMe
-\b0 \
-\pard\tx566\tx1133\tx1700\tx2267\tx2834\tx3401\tx3968\tx4535\tx5102\tx5669\tx6236\tx6803\ql\qnatural\pardirnatural
-\cf0 \
-\pard\tx566\tx1133\tx1700\tx2267\tx2834\tx3401\tx3968\tx4535\tx5102\tx5669\tx6236\tx6803\qj\pardirnatural
-\cf0 DeDRM is an application that packs all of the python drm-removal software into one easy to use program that remembers preferences and settings.\
-It works without manual configuration with Kindle for Mac ebooks and Adobe Adept ePub and PDF ebooks.\
-\
-To remove the DRM of Kindle ebooks from eInk Kindles, eReader pdb ebooks, Barnes and Noble ePubs, or Mobipocket ebooks, you must first run DeDRM application (by double-clicking it) and set some additional Preferences including:\
-\
-Kindle (not Kindle Fire): 16 digit Serial Number\
-Barnes & Noble ePub:  Name and CC number or key file  (bnepubkey.b64)\
-eReader Social DRM: Name and last 8 digits of CC number\
-Mobipocket: 10 digit PID\
-\
-A final preference is the destination folder for the DRM-free copies of your ebooks that the application produces. This can be either the same folder as the original ebook, or a folder of your choice.\
-\
-Once these preferences have been set, you can drag and drop ebooks (or folders of ebooks) onto the DeDRM droplet to remove the DRM.\
-\
-This program requires Mac OS X 10.5 or above. \
-\
-\
-\pard\tx566\tx1133\tx1700\tx2267\tx2834\tx3401\tx3968\tx4535\tx5102\tx5669\tx6236\tx6803\ql\qnatural\pardirnatural
-
-\b \cf0 Installation
-\b0 \
-Drag the DeDRM application from from tools_v5.3\\DeDRM_Applications\\Macintosh (the location of this ReadMe) to your Applications folder, or anywhere else you find convenient.\
-\
-\
-
-\b Use
-\b0 \
-1. To set the preferences, double-click the application and follow the instructions in the dialogs.\
-2. Drag & Drop DRMed ebooks or folders of DRMed ebooks onto the application icon when it is not running.\
-\
-\
-
-\b Troubleshooting\
-\pard\tx566\tx1133\tx1700\tx2267\tx2834\tx3401\tx3968\tx4535\tx5102\tx5669\tx6236\tx6803\ql\qnatural\pardirnatural
-
-\b0 \cf0 A log is created on your desktop containing detailed information from all the scripts. If you have any problems decrypting your ebooks, quote the contents of this log in a comment at Apprentice Alf's blog.}
--- a/DeDRM_Macintosh_Application/DeDRM.app.txt
+++ b/DeDRM_Macintosh_Application/DeDRM.app.txt
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Info.plist
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Info.plist
@@ -1,56 +0,0 @@
-<?xml version="1.0" encoding="UTF-8"?>
-<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
-<plist version="1.0">
-<dict>
-	<key>CFBundleAllowMixedLocalizations</key>
-	<true/>
-	<key>CFBundleDevelopmentRegion</key>
-	<string>English</string>
-	<key>CFBundleDocumentTypes</key>
-	<array>
-		<dict>
-			<key>CFBundleTypeExtensions</key>
-			<array>
-				<string>*</string>
-			</array>
-			<key>CFBundleTypeOSTypes</key>
-			<array>
-				<string>****</string>
-			</array>
-			<key>CFBundleTypeRole</key>
-			<string>Viewer</string>
-		</dict>
-	</array>
-	<key>CFBundleExecutable</key>
-	<string>droplet</string>
-	<key>CFBundleGetInfoString</key>
-	<string>DeDRM 5.3, Written 2010–2012 by Apprentice Alf and others.</string>
-	<key>CFBundleIconFile</key>
-	<string>DeDRM</string>
-	<key>CFBundleInfoDictionaryVersion</key>
-	<string>6.0</string>
-	<key>CFBundleName</key>
-	<string>DeDRM 5.3</string>
-	<key>CFBundlePackageType</key>
-	<string>APPL</string>
-	<key>CFBundleShortVersionString</key>
-	<string>5.3</string>
-	<key>CFBundleSignature</key>
-	<string>dplt</string>
-	<key>LSMinimumSystemVersion</key>
-	<string>10.5.0</string>
-	<key>LSRequiresCarbon</key>
-	<true/>
-	<key>WindowState</key>
-	<dict>
-		<key>name</key>
-		<string>ScriptWindowState</string>
-		<key>positionOfDivider</key>
-		<real>554</real>
-		<key>savedFrame</key>
-		<string>42 60 922 818 0 0 1440 878 </string>
-		<key>selectedTabView</key>
-		<string>event log</string>
-	</dict>
-</dict>
-</plist>
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/MacOS/droplet
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/MacOS/droplet
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/PkgInfo
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/PkgInfo
@@ -1 +0,0 @@
-APPLdplt
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
@@ -1,50 +0,0 @@
-<?xml version="1.0" encoding="UTF-8"?>
-<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
-<plist version="1.0">
-<dict>
-	<key>BuildMachineOSBuild</key>
-	<string>10K549</string>
-	<key>CFBundleDevelopmentRegion</key>
-	<string>English</string>
-	<key>CFBundleExecutable</key>
-	<string>DeDRM Progress</string>
-	<key>CFBundleGetInfoString</key>
-	<string>DeDRM Progress 1.1, Written 2010, 2012 by Apprentice Alf and others.</string>
-	<key>CFBundleIconFile</key>
-	<string>DeDRM Progress</string>
-	<key>CFBundleIdentifier</key>
-	<string>com.apprenticealf.DeDRMProgress</string>
-	<key>CFBundleInfoDictionaryVersion</key>
-	<string>6.0</string>
-	<key>CFBundleName</key>
-	<string>DeDRM Progress</string>
-	<key>CFBundlePackageType</key>
-	<string>APPL</string>
-	<key>CFBundleShortVersionString</key>
-	<string>1.1</string>
-	<key>CFBundleSignature</key>
-	<string>????</string>
-	<key>CFBundleVersion</key>
-	<string>1.0</string>
-	<key>DTCompiler</key>
-	<string></string>
-	<key>DTPlatformBuild</key>
-	<string>10M2518</string>
-	<key>DTPlatformVersion</key>
-	<string>PG</string>
-	<key>DTSDKBuild</key>
-	<string>9L31a</string>
-	<key>DTSDKName</key>
-	<string>macosx10.5</string>
-	<key>DTXcode</key>
-	<string>0400</string>
-	<key>DTXcodeBuild</key>
-	<string>10M2518</string>
-	<key>NSAppleScriptEnabled</key>
-	<string>YES</string>
-	<key>NSMainNibFile</key>
-	<string>MainMenu</string>
-	<key>NSPrincipalClass</key>
-	<string>NSApplication</string>
-</dict>
-</plist>
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
@@ -1 +0,0 @@
-APPL????
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
--- a/Progress.app/Contents/Resources/English.lproj/InfoPlist.strings
+++ b/Progress.app/Contents/Resources/English.lproj/InfoPlist.strings
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM.icns
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/DeDRM.icns
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/Scripts/main.scpt
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/Scripts/main.scpt
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/aescbc.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/aescbc.py
@@ -1,568 +0,0 @@
-#! /usr/bin/env python
-
-"""
-    Routines for doing AES CBC in one file
-
-    Modified by some_updates to extract
-    and combine only those parts needed for AES CBC
-    into one simple to add python file
-
-    Original Version
-    Copyright (c) 2002 by Paul A. Lambert
-    Under:
-    CryptoPy Artisitic License Version 1.0
-    See the wonderful pure python package cryptopy-1.2.5
-    and read its LICENSE.txt for complete license details.
-"""
-
-class CryptoError(Exception):
-    """ Base class for crypto exceptions """
-    def __init__(self,errorMessage='Error!'):
-        self.message = errorMessage
-    def __str__(self):
-        return self.message
-
-class InitCryptoError(CryptoError):
-    """ Crypto errors during algorithm initialization """
-class BadKeySizeError(InitCryptoError):
-    """ Bad key size error """
-class EncryptError(CryptoError):
-    """ Error in encryption processing """
-class DecryptError(CryptoError):
-    """ Error in decryption processing """
-class DecryptNotBlockAlignedError(DecryptError):
-    """ Error in decryption processing """
-
-def xorS(a,b):
-    """ XOR two strings """
-    assert len(a)==len(b)
-    x = []
-    for i in range(len(a)):
-        x.append( chr(ord(a[i])^ord(b[i])))
-    return ''.join(x)
-
-def xor(a,b):
-    """ XOR two strings """
-    x = []
-    for i in range(min(len(a),len(b))):
-        x.append( chr(ord(a[i])^ord(b[i])))
-    return ''.join(x)
-
-"""
-    Base 'BlockCipher' and Pad classes for cipher instances.
-    BlockCipher supports automatic padding and type conversion. The BlockCipher
-    class was written to make the actual algorithm code more readable and
-    not for performance.
-"""
-
-class BlockCipher:
-    """ Block ciphers """
-    def __init__(self):
-        self.reset()
-
-    def reset(self):
-        self.resetEncrypt()
-        self.resetDecrypt()
-    def resetEncrypt(self):
-        self.encryptBlockCount = 0
-        self.bytesToEncrypt = ''
-    def resetDecrypt(self):
-        self.decryptBlockCount = 0
-        self.bytesToDecrypt = ''
-
-    def encrypt(self, plainText, more = None):
-        """ Encrypt a string and return a binary string """
-        self.bytesToEncrypt += plainText  # append plainText to any bytes from prior encrypt
-        numBlocks, numExtraBytes = divmod(len(self.bytesToEncrypt), self.blockSize)
-        cipherText = ''
-        for i in range(numBlocks):
-            bStart = i*self.blockSize
-            ctBlock = self.encryptBlock(self.bytesToEncrypt[bStart:bStart+self.blockSize])
-            self.encryptBlockCount += 1
-            cipherText += ctBlock
-        if numExtraBytes > 0:        # save any bytes that are not block aligned
-            self.bytesToEncrypt = self.bytesToEncrypt[-numExtraBytes:]
-        else:
-            self.bytesToEncrypt = ''
-
-        if more == None:   # no more data expected from caller
-            finalBytes = self.padding.addPad(self.bytesToEncrypt,self.blockSize)
-            if len(finalBytes) > 0:
-                ctBlock = self.encryptBlock(finalBytes)
-                self.encryptBlockCount += 1
-                cipherText += ctBlock
-            self.resetEncrypt()
-        return cipherText
-
-    def decrypt(self, cipherText, more = None):
-        """ Decrypt a string and return a string """
-        self.bytesToDecrypt += cipherText  # append to any bytes from prior decrypt
-
-        numBlocks, numExtraBytes = divmod(len(self.bytesToDecrypt), self.blockSize)
-        if more == None:  # no more calls to decrypt, should have all the data
-            if numExtraBytes  != 0:
-                raise DecryptNotBlockAlignedError, 'Data not block aligned on decrypt'
-
-        # hold back some bytes in case last decrypt has zero len
-        if (more != None) and (numExtraBytes == 0) and (numBlocks >0) :
-            numBlocks -= 1
-            numExtraBytes = self.blockSize
-
-        plainText = ''
-        for i in range(numBlocks):
-            bStart = i*self.blockSize
-            ptBlock = self.decryptBlock(self.bytesToDecrypt[bStart : bStart+self.blockSize])
-            self.decryptBlockCount += 1
-            plainText += ptBlock
-
-        if numExtraBytes > 0:        # save any bytes that are not block aligned
-            self.bytesToEncrypt = self.bytesToEncrypt[-numExtraBytes:]
-        else:
-            self.bytesToEncrypt = ''
-
-        if more == None:         # last decrypt remove padding
-            plainText = self.padding.removePad(plainText, self.blockSize)
-            self.resetDecrypt()
-        return plainText
-
-
-class Pad:
-    def __init__(self):
-        pass              # eventually could put in calculation of min and max size extension
-
-class padWithPadLen(Pad):
-    """ Pad a binary string with the length of the padding """
-
-    def addPad(self, extraBytes, blockSize):
-        """ Add padding to a binary string to make it an even multiple
-            of the block size """
-        blocks, numExtraBytes = divmod(len(extraBytes), blockSize)
-        padLength = blockSize - numExtraBytes
-        return extraBytes + padLength*chr(padLength)
-
-    def removePad(self, paddedBinaryString, blockSize):
-        """ Remove padding from a binary string """
-        if not(0<len(paddedBinaryString)):
-            raise DecryptNotBlockAlignedError, 'Expected More Data'
-        return paddedBinaryString[:-ord(paddedBinaryString[-1])]
-
-class noPadding(Pad):
-    """ No padding. Use this to get ECB behavior from encrypt/decrypt """
-
-    def addPad(self, extraBytes, blockSize):
-        """ Add no padding """
-        return extraBytes
-
-    def removePad(self, paddedBinaryString, blockSize):
-        """ Remove no padding """
-        return paddedBinaryString
-
-"""
-    Rijndael encryption algorithm
-    This byte oriented implementation is intended to closely
-    match FIPS specification for readability.  It is not implemented
-    for performance.
-"""
-
-class Rijndael(BlockCipher):
-    """ Rijndael encryption algorithm """
-    def __init__(self, key = None, padding = padWithPadLen(), keySize=16, blockSize=16 ):
-        self.name       = 'RIJNDAEL'
-        self.keySize    = keySize
-        self.strength   = keySize*8
-        self.blockSize  = blockSize  # blockSize is in bytes
-        self.padding    = padding    # change default to noPadding() to get normal ECB behavior
-
-        assert( keySize%4==0 and NrTable[4].has_key(keySize/4)),'key size must be 16,20,24,29 or 32 bytes'
-        assert( blockSize%4==0 and NrTable.has_key(blockSize/4)), 'block size must be 16,20,24,29 or 32 bytes'
-
-        self.Nb = self.blockSize/4          # Nb is number of columns of 32 bit words
-        self.Nk = keySize/4                 # Nk is the key length in 32-bit words
-        self.Nr = NrTable[self.Nb][self.Nk] # The number of rounds (Nr) is a function of
-                                            # the block (Nb) and key (Nk) sizes.
-        if key != None:
-            self.setKey(key)
-
-    def setKey(self, key):
-        """ Set a key and generate the expanded key """
-        assert( len(key) == (self.Nk*4) ), 'Key length must be same as keySize parameter'
-        self.__expandedKey = keyExpansion(self, key)
-        self.reset()                   # BlockCipher.reset()
-
-    def encryptBlock(self, plainTextBlock):
-        """ Encrypt a block, plainTextBlock must be a array of bytes [Nb by 4] """
-        self.state = self._toBlock(plainTextBlock)
-        AddRoundKey(self, self.__expandedKey[0:self.Nb])
-        for round in range(1,self.Nr):          #for round = 1 step 1 to Nr
-            SubBytes(self)
-            ShiftRows(self)
-            MixColumns(self)
-            AddRoundKey(self, self.__expandedKey[round*self.Nb:(round+1)*self.Nb])
-        SubBytes(self)
-        ShiftRows(self)
-        AddRoundKey(self, self.__expandedKey[self.Nr*self.Nb:(self.Nr+1)*self.Nb])
-        return self._toBString(self.state)
-
-
-    def decryptBlock(self, encryptedBlock):
-        """ decrypt a block (array of bytes) """
-        self.state = self._toBlock(encryptedBlock)
-        AddRoundKey(self, self.__expandedKey[self.Nr*self.Nb:(self.Nr+1)*self.Nb])
-        for round in range(self.Nr-1,0,-1):
-            InvShiftRows(self)
-            InvSubBytes(self)
-            AddRoundKey(self, self.__expandedKey[round*self.Nb:(round+1)*self.Nb])
-            InvMixColumns(self)
-        InvShiftRows(self)
-        InvSubBytes(self)
-        AddRoundKey(self, self.__expandedKey[0:self.Nb])
-        return self._toBString(self.state)
-
-    def _toBlock(self, bs):
-        """ Convert binary string to array of bytes, state[col][row]"""
-        assert ( len(bs) == 4*self.Nb ), 'Rijndarl blocks must be of size blockSize'
-        return [[ord(bs[4*i]),ord(bs[4*i+1]),ord(bs[4*i+2]),ord(bs[4*i+3])] for i in range(self.Nb)]
-
-    def _toBString(self, block):
-        """ Convert block (array of bytes) to binary string """
-        l = []
-        for col in block:
-            for rowElement in col:
-                l.append(chr(rowElement))
-        return ''.join(l)
-#-------------------------------------
-"""    Number of rounds Nr = NrTable[Nb][Nk]
-
-            Nb  Nk=4   Nk=5   Nk=6   Nk=7   Nk=8
-            -------------------------------------   """
-NrTable =  {4: {4:10,  5:11,  6:12,  7:13,  8:14},
-            5: {4:11,  5:11,  6:12,  7:13,  8:14},
-            6: {4:12,  5:12,  6:12,  7:13,  8:14},
-            7: {4:13,  5:13,  6:13,  7:13,  8:14},
-            8: {4:14,  5:14,  6:14,  7:14,  8:14}}
-#-------------------------------------
-def keyExpansion(algInstance, keyString):
-    """ Expand a string of size keySize into a larger array """
-    Nk, Nb, Nr = algInstance.Nk, algInstance.Nb, algInstance.Nr # for readability
-    key = [ord(byte) for byte in keyString]  # convert string to list
-    w = [[key[4*i],key[4*i+1],key[4*i+2],key[4*i+3]] for i in range(Nk)]
-    for i in range(Nk,Nb*(Nr+1)):
-        temp = w[i-1]        # a four byte column
-        if (i%Nk) == 0 :
-            temp     = temp[1:]+[temp[0]]  # RotWord(temp)
-            temp     = [ Sbox[byte] for byte in temp ]
-            temp[0] ^= Rcon[i/Nk]
-        elif Nk > 6 and  i%Nk == 4 :
-            temp     = [ Sbox[byte] for byte in temp ]  # SubWord(temp)
-        w.append( [ w[i-Nk][byte]^temp[byte] for byte in range(4) ] )
-    return w
-
-Rcon = (0,0x01,0x02,0x04,0x08,0x10,0x20,0x40,0x80,0x1b,0x36,     # note extra '0' !!!
-        0x6c,0xd8,0xab,0x4d,0x9a,0x2f,0x5e,0xbc,0x63,0xc6,
-        0x97,0x35,0x6a,0xd4,0xb3,0x7d,0xfa,0xef,0xc5,0x91)
-
-#-------------------------------------
-def AddRoundKey(algInstance, keyBlock):
-    """ XOR the algorithm state with a block of key material """
-    for column in range(algInstance.Nb):
-        for row in range(4):
-            algInstance.state[column][row] ^= keyBlock[column][row]
-#-------------------------------------
-
-def SubBytes(algInstance):
-    for column in range(algInstance.Nb):
-        for row in range(4):
-            algInstance.state[column][row] = Sbox[algInstance.state[column][row]]
-
-def InvSubBytes(algInstance):
-    for column in range(algInstance.Nb):
-        for row in range(4):
-            algInstance.state[column][row] = InvSbox[algInstance.state[column][row]]
-
-Sbox =    (0x63,0x7c,0x77,0x7b,0xf2,0x6b,0x6f,0xc5,
-           0x30,0x01,0x67,0x2b,0xfe,0xd7,0xab,0x76,
-           0xca,0x82,0xc9,0x7d,0xfa,0x59,0x47,0xf0,
-           0xad,0xd4,0xa2,0xaf,0x9c,0xa4,0x72,0xc0,
-           0xb7,0xfd,0x93,0x26,0x36,0x3f,0xf7,0xcc,
-           0x34,0xa5,0xe5,0xf1,0x71,0xd8,0x31,0x15,
-           0x04,0xc7,0x23,0xc3,0x18,0x96,0x05,0x9a,
-           0x07,0x12,0x80,0xe2,0xeb,0x27,0xb2,0x75,
-           0x09,0x83,0x2c,0x1a,0x1b,0x6e,0x5a,0xa0,
-           0x52,0x3b,0xd6,0xb3,0x29,0xe3,0x2f,0x84,
-           0x53,0xd1,0x00,0xed,0x20,0xfc,0xb1,0x5b,
-           0x6a,0xcb,0xbe,0x39,0x4a,0x4c,0x58,0xcf,
-           0xd0,0xef,0xaa,0xfb,0x43,0x4d,0x33,0x85,
-           0x45,0xf9,0x02,0x7f,0x50,0x3c,0x9f,0xa8,
-           0x51,0xa3,0x40,0x8f,0x92,0x9d,0x38,0xf5,
-           0xbc,0xb6,0xda,0x21,0x10,0xff,0xf3,0xd2,
-           0xcd,0x0c,0x13,0xec,0x5f,0x97,0x44,0x17,
-           0xc4,0xa7,0x7e,0x3d,0x64,0x5d,0x19,0x73,
-           0x60,0x81,0x4f,0xdc,0x22,0x2a,0x90,0x88,
-           0x46,0xee,0xb8,0x14,0xde,0x5e,0x0b,0xdb,
-           0xe0,0x32,0x3a,0x0a,0x49,0x06,0x24,0x5c,
-           0xc2,0xd3,0xac,0x62,0x91,0x95,0xe4,0x79,
-           0xe7,0xc8,0x37,0x6d,0x8d,0xd5,0x4e,0xa9,
-           0x6c,0x56,0xf4,0xea,0x65,0x7a,0xae,0x08,
-           0xba,0x78,0x25,0x2e,0x1c,0xa6,0xb4,0xc6,
-           0xe8,0xdd,0x74,0x1f,0x4b,0xbd,0x8b,0x8a,
-           0x70,0x3e,0xb5,0x66,0x48,0x03,0xf6,0x0e,
-           0x61,0x35,0x57,0xb9,0x86,0xc1,0x1d,0x9e,
-           0xe1,0xf8,0x98,0x11,0x69,0xd9,0x8e,0x94,
-           0x9b,0x1e,0x87,0xe9,0xce,0x55,0x28,0xdf,
-           0x8c,0xa1,0x89,0x0d,0xbf,0xe6,0x42,0x68,
-           0x41,0x99,0x2d,0x0f,0xb0,0x54,0xbb,0x16)
-
-InvSbox = (0x52,0x09,0x6a,0xd5,0x30,0x36,0xa5,0x38,
-           0xbf,0x40,0xa3,0x9e,0x81,0xf3,0xd7,0xfb,
-           0x7c,0xe3,0x39,0x82,0x9b,0x2f,0xff,0x87,
-           0x34,0x8e,0x43,0x44,0xc4,0xde,0xe9,0xcb,
-           0x54,0x7b,0x94,0x32,0xa6,0xc2,0x23,0x3d,
-           0xee,0x4c,0x95,0x0b,0x42,0xfa,0xc3,0x4e,
-           0x08,0x2e,0xa1,0x66,0x28,0xd9,0x24,0xb2,
-           0x76,0x5b,0xa2,0x49,0x6d,0x8b,0xd1,0x25,
-           0x72,0xf8,0xf6,0x64,0x86,0x68,0x98,0x16,
-           0xd4,0xa4,0x5c,0xcc,0x5d,0x65,0xb6,0x92,
-           0x6c,0x70,0x48,0x50,0xfd,0xed,0xb9,0xda,
-           0x5e,0x15,0x46,0x57,0xa7,0x8d,0x9d,0x84,
-           0x90,0xd8,0xab,0x00,0x8c,0xbc,0xd3,0x0a,
-           0xf7,0xe4,0x58,0x05,0xb8,0xb3,0x45,0x06,
-           0xd0,0x2c,0x1e,0x8f,0xca,0x3f,0x0f,0x02,
-           0xc1,0xaf,0xbd,0x03,0x01,0x13,0x8a,0x6b,
-           0x3a,0x91,0x11,0x41,0x4f,0x67,0xdc,0xea,
-           0x97,0xf2,0xcf,0xce,0xf0,0xb4,0xe6,0x73,
-           0x96,0xac,0x74,0x22,0xe7,0xad,0x35,0x85,
-           0xe2,0xf9,0x37,0xe8,0x1c,0x75,0xdf,0x6e,
-           0x47,0xf1,0x1a,0x71,0x1d,0x29,0xc5,0x89,
-           0x6f,0xb7,0x62,0x0e,0xaa,0x18,0xbe,0x1b,
-           0xfc,0x56,0x3e,0x4b,0xc6,0xd2,0x79,0x20,
-           0x9a,0xdb,0xc0,0xfe,0x78,0xcd,0x5a,0xf4,
-           0x1f,0xdd,0xa8,0x33,0x88,0x07,0xc7,0x31,
-           0xb1,0x12,0x10,0x59,0x27,0x80,0xec,0x5f,
-           0x60,0x51,0x7f,0xa9,0x19,0xb5,0x4a,0x0d,
-           0x2d,0xe5,0x7a,0x9f,0x93,0xc9,0x9c,0xef,
-           0xa0,0xe0,0x3b,0x4d,0xae,0x2a,0xf5,0xb0,
-           0xc8,0xeb,0xbb,0x3c,0x83,0x53,0x99,0x61,
-           0x17,0x2b,0x04,0x7e,0xba,0x77,0xd6,0x26,
-           0xe1,0x69,0x14,0x63,0x55,0x21,0x0c,0x7d)
-
-#-------------------------------------
-""" For each block size (Nb), the ShiftRow operation shifts row i
-    by the amount Ci.  Note that row 0 is not shifted.
-                 Nb      C1 C2 C3
-               -------------------  """
-shiftOffset  = { 4 : ( 0, 1, 2, 3),
-                 5 : ( 0, 1, 2, 3),
-                 6 : ( 0, 1, 2, 3),
-                 7 : ( 0, 1, 2, 4),
-                 8 : ( 0, 1, 3, 4) }
-def ShiftRows(algInstance):
-    tmp = [0]*algInstance.Nb   # list of size Nb
-    for r in range(1,4):       # row 0 reamains unchanged and can be skipped
-        for c in range(algInstance.Nb):
-            tmp[c] = algInstance.state[(c+shiftOffset[algInstance.Nb][r]) % algInstance.Nb][r]
-        for c in range(algInstance.Nb):
-            algInstance.state[c][r] = tmp[c]
-def InvShiftRows(algInstance):
-    tmp = [0]*algInstance.Nb   # list of size Nb
-    for r in range(1,4):       # row 0 reamains unchanged and can be skipped
-        for c in range(algInstance.Nb):
-            tmp[c] = algInstance.state[(c+algInstance.Nb-shiftOffset[algInstance.Nb][r]) % algInstance.Nb][r]
-        for c in range(algInstance.Nb):
-            algInstance.state[c][r] = tmp[c]
-#-------------------------------------
-def MixColumns(a):
-    Sprime = [0,0,0,0]
-    for j in range(a.Nb):    # for each column
-        Sprime[0] = mul(2,a.state[j][0])^mul(3,a.state[j][1])^mul(1,a.state[j][2])^mul(1,a.state[j][3])
-        Sprime[1] = mul(1,a.state[j][0])^mul(2,a.state[j][1])^mul(3,a.state[j][2])^mul(1,a.state[j][3])
-        Sprime[2] = mul(1,a.state[j][0])^mul(1,a.state[j][1])^mul(2,a.state[j][2])^mul(3,a.state[j][3])
-        Sprime[3] = mul(3,a.state[j][0])^mul(1,a.state[j][1])^mul(1,a.state[j][2])^mul(2,a.state[j][3])
-        for i in range(4):
-            a.state[j][i] = Sprime[i]
-
-def InvMixColumns(a):
-    """ Mix the four bytes of every column in a linear way
-        This is the opposite operation of Mixcolumn """
-    Sprime = [0,0,0,0]
-    for j in range(a.Nb):    # for each column
-        Sprime[0] = mul(0x0E,a.state[j][0])^mul(0x0B,a.state[j][1])^mul(0x0D,a.state[j][2])^mul(0x09,a.state[j][3])
-        Sprime[1] = mul(0x09,a.state[j][0])^mul(0x0E,a.state[j][1])^mul(0x0B,a.state[j][2])^mul(0x0D,a.state[j][3])
-        Sprime[2] = mul(0x0D,a.state[j][0])^mul(0x09,a.state[j][1])^mul(0x0E,a.state[j][2])^mul(0x0B,a.state[j][3])
-        Sprime[3] = mul(0x0B,a.state[j][0])^mul(0x0D,a.state[j][1])^mul(0x09,a.state[j][2])^mul(0x0E,a.state[j][3])
-        for i in range(4):
-            a.state[j][i] = Sprime[i]
-
-#-------------------------------------
-def mul(a, b):
-    """ Multiply two elements of GF(2^m)
-        needed for MixColumn and InvMixColumn """
-    if (a !=0 and  b!=0):
-        return Alogtable[(Logtable[a] + Logtable[b])%255]
-    else:
-        return 0
-
-Logtable = ( 0,   0,  25,   1,  50,   2,  26, 198,  75, 199,  27, 104,  51, 238, 223,   3,
-           100,   4, 224,  14,  52, 141, 129, 239,  76, 113,   8, 200, 248, 105,  28, 193,
-           125, 194,  29, 181, 249, 185,  39, 106,  77, 228, 166, 114, 154, 201,   9, 120,
-           101,  47, 138,   5,  33,  15, 225,  36,  18, 240, 130,  69,  53, 147, 218, 142,
-           150, 143, 219, 189,  54, 208, 206, 148,  19,  92, 210, 241,  64,  70, 131,  56,
-           102, 221, 253,  48, 191,   6, 139,  98, 179,  37, 226, 152,  34, 136, 145,  16,
-           126, 110,  72, 195, 163, 182,  30,  66,  58, 107,  40,  84, 250, 133,  61, 186,
-            43, 121,  10,  21, 155, 159,  94, 202,  78, 212, 172, 229, 243, 115, 167,  87,
-           175,  88, 168,  80, 244, 234, 214, 116,  79, 174, 233, 213, 231, 230, 173, 232,
-            44, 215, 117, 122, 235,  22,  11, 245,  89, 203,  95, 176, 156, 169,  81, 160,
-           127,  12, 246, 111,  23, 196,  73, 236, 216,  67,  31,  45, 164, 118, 123, 183,
-           204, 187,  62,  90, 251,  96, 177, 134,  59,  82, 161, 108, 170,  85,  41, 157,
-           151, 178, 135, 144,  97, 190, 220, 252, 188, 149, 207, 205,  55,  63,  91, 209,
-            83,  57, 132,  60,  65, 162, 109,  71,  20,  42, 158,  93,  86, 242, 211, 171,
-            68,  17, 146, 217,  35,  32,  46, 137, 180, 124, 184,  38, 119, 153, 227, 165,
-           103,  74, 237, 222, 197,  49, 254,  24,  13,  99, 140, 128, 192, 247, 112,   7)
-
-Alogtable= ( 1,   3,   5,  15,  17,  51,  85, 255,  26,  46, 114, 150, 161, 248,  19,  53,
-            95, 225,  56,  72, 216, 115, 149, 164, 247,   2,   6,  10,  30,  34, 102, 170,
-           229,  52,  92, 228,  55,  89, 235,  38, 106, 190, 217, 112, 144, 171, 230,  49,
-            83, 245,   4,  12,  20,  60,  68, 204,  79, 209, 104, 184, 211, 110, 178, 205,
-            76, 212, 103, 169, 224,  59,  77, 215,  98, 166, 241,   8,  24,  40, 120, 136,
-           131, 158, 185, 208, 107, 189, 220, 127, 129, 152, 179, 206,  73, 219, 118, 154,
-           181, 196,  87, 249,  16,  48,  80, 240,  11,  29,  39, 105, 187, 214,  97, 163,
-           254,  25,  43, 125, 135, 146, 173, 236,  47, 113, 147, 174, 233,  32,  96, 160,
-           251,  22,  58,  78, 210, 109, 183, 194,  93, 231,  50,  86, 250,  21,  63,  65,
-           195,  94, 226,  61,  71, 201,  64, 192,  91, 237,  44, 116, 156, 191, 218, 117,
-           159, 186, 213, 100, 172, 239,  42, 126, 130, 157, 188, 223, 122, 142, 137, 128,
-           155, 182, 193,  88, 232,  35, 101, 175, 234,  37, 111, 177, 200,  67, 197,  84,
-           252,  31,  33,  99, 165, 244,   7,   9,  27,  45, 119, 153, 176, 203,  70, 202,
-            69, 207,  74, 222, 121, 139, 134, 145, 168, 227,  62,  66, 198,  81, 243,  14,
-            18,  54,  90, 238,  41, 123, 141, 140, 143, 138, 133, 148, 167, 242,  13,  23,
-            57,  75, 221, 124, 132, 151, 162, 253,  28,  36, 108, 180, 199,  82, 246,   1)
-
-
-
-
-"""
-    AES Encryption Algorithm
-    The AES algorithm is just Rijndael algorithm restricted to the default
-    blockSize of 128 bits.
-"""
-
-class AES(Rijndael):
-    """ The AES algorithm is the Rijndael block cipher restricted to block
-        sizes of 128 bits and key sizes of 128, 192 or 256 bits
-    """
-    def __init__(self, key = None, padding = padWithPadLen(), keySize=16):
-        """ Initialize AES, keySize is in bytes """
-        if  not (keySize == 16 or keySize == 24 or keySize == 32) :
-            raise BadKeySizeError, 'Illegal AES key size, must be 16, 24, or 32 bytes'
-
-        Rijndael.__init__( self, key, padding=padding, keySize=keySize, blockSize=16 )
-
-        self.name       = 'AES'
-
-
-"""
-    CBC mode of encryption for block ciphers.
-    This algorithm mode wraps any BlockCipher to make a
-    Cipher Block Chaining mode.
-"""
-from random             import Random  # should change to crypto.random!!!
-
-
-class CBC(BlockCipher):
-    """ The CBC class wraps block ciphers to make cipher block chaining (CBC) mode
-        algorithms.  The initialization (IV) is automatic if set to None.  Padding
-        is also automatic based on the Pad class used to initialize the algorithm
-    """
-    def __init__(self, blockCipherInstance, padding = padWithPadLen()):
-        """ CBC algorithms are created by initializing with a BlockCipher instance """
-        self.baseCipher = blockCipherInstance
-        self.name       = self.baseCipher.name + '_CBC'
-        self.blockSize  = self.baseCipher.blockSize
-        self.keySize    = self.baseCipher.keySize
-        self.padding    = padding
-        self.baseCipher.padding = noPadding()   # baseCipher should NOT pad!!
-        self.r          = Random()            # for IV generation, currently uses
-                                              # mediocre standard distro version     <----------------
-        import time
-        newSeed = time.ctime()+str(self.r)    # seed with instance location
-        self.r.seed(newSeed)                  # to make unique
-        self.reset()
-
-    def setKey(self, key):
-        self.baseCipher.setKey(key)
-
-    # Overload to reset both CBC state and the wrapped baseCipher
-    def resetEncrypt(self):
-        BlockCipher.resetEncrypt(self)  # reset CBC encrypt state (super class)
-        self.baseCipher.resetEncrypt()  # reset base cipher encrypt state
-
-    def resetDecrypt(self):
-        BlockCipher.resetDecrypt(self)  # reset CBC state (super class)
-        self.baseCipher.resetDecrypt()  # reset base cipher decrypt state
-
-    def encrypt(self, plainText, iv=None, more=None):
-        """ CBC encryption - overloads baseCipher to allow optional explicit IV
-            when iv=None, iv is auto generated!
-        """
-        if self.encryptBlockCount == 0:
-            self.iv = iv
-        else:
-            assert(iv==None), 'IV used only on first call to encrypt'
-
-        return BlockCipher.encrypt(self,plainText, more=more)
-
-    def decrypt(self, cipherText, iv=None, more=None):
-        """ CBC decryption - overloads baseCipher to allow optional explicit IV
-            when iv=None, iv is auto generated!
-        """
-        if self.decryptBlockCount == 0:
-            self.iv = iv
-        else:
-            assert(iv==None), 'IV used only on first call to decrypt'
-
-        return BlockCipher.decrypt(self, cipherText, more=more)
-
-    def encryptBlock(self, plainTextBlock):
-        """ CBC block encryption, IV is set with 'encrypt' """
-        auto_IV = ''
-        if self.encryptBlockCount == 0:
-            if self.iv == None:
-                # generate IV and use
-                self.iv = ''.join([chr(self.r.randrange(256)) for i in range(self.blockSize)])
-                self.prior_encr_CT_block = self.iv
-                auto_IV = self.prior_encr_CT_block    # prepend IV if it's automatic
-            else:                       # application provided IV
-                assert(len(self.iv) == self.blockSize ),'IV must be same length as block'
-                self.prior_encr_CT_block = self.iv
-        """ encrypt the prior CT XORed with the PT """
-        ct = self.baseCipher.encryptBlock( xor(self.prior_encr_CT_block, plainTextBlock) )
-        self.prior_encr_CT_block = ct
-        return auto_IV+ct
-
-    def decryptBlock(self, encryptedBlock):
-        """ Decrypt a single block """
-
-        if self.decryptBlockCount == 0:   # first call, process IV
-            if self.iv == None:    # auto decrypt IV?
-                self.prior_CT_block = encryptedBlock
-                return ''
-            else:
-                assert(len(self.iv)==self.blockSize),"Bad IV size on CBC decryption"
-                self.prior_CT_block = self.iv
-
-        dct = self.baseCipher.decryptBlock(encryptedBlock)
-        """ XOR the prior decrypted CT with the prior CT """
-        dct_XOR_priorCT = xor( self.prior_CT_block, dct )
-
-        self.prior_CT_block = encryptedBlock
-
-        return dct_XOR_priorCT
-
-
-"""
-    AES_CBC Encryption Algorithm
-"""
-
-class AES_CBC(CBC):
-    """ AES encryption in CBC feedback mode """
-    def __init__(self, key=None, padding=padWithPadLen(), keySize=16):
-        CBC.__init__( self, AES(key, noPadding(), keySize), padding)
-        self.name       = 'AES_CBC'
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/alfcrypto.dll
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/alfcrypto.dll
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/alfcrypto.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/alfcrypto.py
@@ -1,290 +0,0 @@
-#! /usr/bin/env python
-
-import sys, os
-import hmac
-from struct import pack
-import hashlib
-
-
-# interface to needed routines libalfcrypto
-def _load_libalfcrypto():
-    import ctypes
-    from ctypes import CDLL, byref, POINTER, c_void_p, c_char_p, c_int, c_long, \
-        Structure, c_ulong, create_string_buffer, addressof, string_at, cast, sizeof
-
-    pointer_size = ctypes.sizeof(ctypes.c_voidp)
-    name_of_lib = None
-    if sys.platform.startswith('darwin'):
-        name_of_lib = 'libalfcrypto.dylib'
-    elif sys.platform.startswith('win'):
-        if pointer_size == 4:
-            name_of_lib = 'alfcrypto.dll'
-        else:
-            name_of_lib = 'alfcrypto64.dll'
-    else:
-        if pointer_size == 4:
-            name_of_lib = 'libalfcrypto32.so'
-        else:
-            name_of_lib = 'libalfcrypto64.so'
-    
-    libalfcrypto = sys.path[0] + os.sep + name_of_lib
-
-    if not os.path.isfile(libalfcrypto):
-        raise Exception('libalfcrypto not found')
-
-    libalfcrypto = CDLL(libalfcrypto)
-
-    c_char_pp = POINTER(c_char_p)
-    c_int_p = POINTER(c_int)
-
-
-    def F(restype, name, argtypes):
-        func = getattr(libalfcrypto, name)
-        func.restype = restype
-        func.argtypes = argtypes
-        return func
-
-    # aes cbc decryption
-    #
-    # struct aes_key_st {
-    # unsigned long rd_key[4 *(AES_MAXNR + 1)];
-    # int rounds;
-    # };
-    #
-    # typedef struct aes_key_st AES_KEY;
-    #
-    # int AES_set_decrypt_key(const unsigned char *userKey, const int bits, AES_KEY *key);
-    #
-    # 
-    # void AES_cbc_encrypt(const unsigned char *in, unsigned char *out,
-    # const unsigned long length, const AES_KEY *key,
-    # unsigned char *ivec, const int enc);
-
-    AES_MAXNR = 14
-
-    class AES_KEY(Structure):
-        _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))), ('rounds', c_int)]
-
-    AES_KEY_p = POINTER(AES_KEY)
-    AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',[c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p, c_int])
-    AES_set_decrypt_key = F(c_int, 'AES_set_decrypt_key',[c_char_p, c_int, AES_KEY_p])
-
-
-
-    # Pukall 1 Cipher
-    # unsigned char *PC1(const unsigned char *key, unsigned int klen, const unsigned char *src,
-    #                unsigned char *dest, unsigned int len, int decryption);
-
-    PC1 = F(c_char_p, 'PC1', [c_char_p, c_ulong, c_char_p, c_char_p, c_ulong, c_ulong])
-
-    # Topaz Encryption
-    # typedef struct _TpzCtx {
-    #    unsigned int v[2];
-    # } TpzCtx;
-    #
-    # void topazCryptoInit(TpzCtx *ctx, const unsigned char *key, int klen);
-    # void topazCryptoDecrypt(const TpzCtx *ctx, const unsigned char *in, unsigned char *out, int len);
-
-    class TPZ_CTX(Structure):
-        _fields_ = [('v', c_long * 2)]
-
-    TPZ_CTX_p = POINTER(TPZ_CTX)
-    topazCryptoInit = F(None, 'topazCryptoInit', [TPZ_CTX_p, c_char_p, c_ulong])
-    topazCryptoDecrypt = F(None, 'topazCryptoDecrypt', [TPZ_CTX_p, c_char_p, c_char_p, c_ulong])
-
-
-    class AES_CBC(object):
-        def __init__(self):
-            self._blocksize = 0
-            self._keyctx = None
-            self._iv = 0
-
-        def set_decrypt_key(self, userkey, iv):
-            self._blocksize = len(userkey)
-            if (self._blocksize != 16) and (self._blocksize != 24) and (self._blocksize != 32) :
-                raise Exception('AES CBC improper key used')
-                return
-            keyctx = self._keyctx = AES_KEY()
-            self._iv = iv
-            rv = AES_set_decrypt_key(userkey, len(userkey) * 8, keyctx)
-            if rv < 0:
-                raise Exception('Failed to initialize AES CBC key')
-
-        def decrypt(self, data):
-            out = create_string_buffer(len(data))
-            mutable_iv = create_string_buffer(self._iv, len(self._iv))
-            rv = AES_cbc_encrypt(data, out, len(data), self._keyctx, mutable_iv, 0)
-            if rv == 0:
-                raise Exception('AES CBC decryption failed')
-            return out.raw
-
-    class Pukall_Cipher(object):
-        def __init__(self):
-            self.key = None
-
-        def PC1(self, key, src, decryption=True):
-            self.key = key
-            out = create_string_buffer(len(src))
-            de = 0
-            if decryption:
-                de = 1
-            rv = PC1(key, len(key), src, out, len(src), de)
-            return out.raw
-
-    class Topaz_Cipher(object):
-        def __init__(self):
-            self._ctx = None
-
-        def ctx_init(self, key):
-            tpz_ctx = self._ctx = TPZ_CTX()
-            topazCryptoInit(tpz_ctx, key, len(key))
-            return tpz_ctx
-
-        def decrypt(self, data,  ctx=None):
-            if ctx == None:
-                ctx = self._ctx
-            out = create_string_buffer(len(data))
-            topazCryptoDecrypt(ctx, data, out, len(data))
-            return out.raw
-
-    print "Using Library AlfCrypto DLL/DYLIB/SO"
-    return (AES_CBC, Pukall_Cipher, Topaz_Cipher)
-
-
-def _load_python_alfcrypto():
-
-    import aescbc
-
-    class Pukall_Cipher(object):
-        def __init__(self):
-            self.key = None
-
-        def PC1(self, key, src, decryption=True):
-            sum1 = 0;
-            sum2 = 0;
-            keyXorVal = 0;
-            if len(key)!=16:
-                print "Bad key length!"
-                return None
-            wkey = []
-            for i in xrange(8):
-                wkey.append(ord(key[i*2])<<8 | ord(key[i*2+1]))
-            dst = ""
-            for i in xrange(len(src)):
-                temp1 = 0;
-                byteXorVal = 0;
-                for j in xrange(8):
-                    temp1 ^= wkey[j]
-                    sum2  = (sum2+j)*20021 + sum1
-                    sum1  = (temp1*346)&0xFFFF
-                    sum2  = (sum2+sum1)&0xFFFF
-                    temp1 = (temp1*20021+1)&0xFFFF
-                    byteXorVal ^= temp1 ^ sum2
-                curByte = ord(src[i])
-                if not decryption:
-                    keyXorVal = curByte * 257;
-                curByte = ((curByte ^ (byteXorVal >> 8)) ^ byteXorVal) & 0xFF
-                if decryption:
-                    keyXorVal = curByte * 257;
-                for j in xrange(8):
-                    wkey[j] ^= keyXorVal;
-                dst+=chr(curByte)
-            return dst
-
-    class Topaz_Cipher(object):
-        def __init__(self):
-            self._ctx = None
-
-        def ctx_init(self, key):
-            ctx1 = 0x0CAFFE19E
-            for keyChar in key:
-                keyByte = ord(keyChar)
-                ctx2 = ctx1
-                ctx1 = ((((ctx1 >>2) * (ctx1 >>7))&0xFFFFFFFF) ^ (keyByte * keyByte * 0x0F902007)& 0xFFFFFFFF )
-            self._ctx = [ctx1, ctx2]
-            return [ctx1,ctx2]
-
-        def decrypt(self, data,  ctx=None):
-            if ctx == None:
-                ctx = self._ctx
-            ctx1 = ctx[0]
-            ctx2 = ctx[1]
-            plainText = ""
-            for dataChar in data:
-                dataByte = ord(dataChar)
-                m = (dataByte ^ ((ctx1 >> 3) &0xFF) ^ ((ctx2<<3) & 0xFF)) &0xFF
-                ctx2 = ctx1
-                ctx1 = (((ctx1 >> 2) * (ctx1 >> 7)) &0xFFFFFFFF) ^((m * m * 0x0F902007) &0xFFFFFFFF)
-                plainText += chr(m)
-            return plainText
-
-    class AES_CBC(object):
-        def __init__(self):
-            self._key = None
-            self._iv = None
-            self.aes = None
-
-        def set_decrypt_key(self, userkey, iv):
-            self._key = userkey
-            self._iv = iv
-            self.aes = aescbc.AES_CBC(userkey, aescbc.noPadding(), len(userkey))
-
-        def decrypt(self, data):
-            iv = self._iv
-            cleartext = self.aes.decrypt(iv + data)
-            return cleartext
-
-    return (AES_CBC, Pukall_Cipher, Topaz_Cipher)
-
-
-def _load_crypto():
-    AES_CBC = Pukall_Cipher = Topaz_Cipher = None
-    cryptolist = (_load_libalfcrypto, _load_python_alfcrypto)
-    for loader in cryptolist:
-        try:
-            AES_CBC, Pukall_Cipher, Topaz_Cipher = loader()
-            break
-        except (ImportError, Exception):
-            pass
-    return AES_CBC, Pukall_Cipher, Topaz_Cipher
-
-AES_CBC, Pukall_Cipher, Topaz_Cipher = _load_crypto()
-
-
-class KeyIVGen(object):
-    # this only exists in openssl so we will use pure python implementation instead
-    # PKCS5_PBKDF2_HMAC_SHA1 = F(c_int, 'PKCS5_PBKDF2_HMAC_SHA1',
-    #                             [c_char_p, c_ulong, c_char_p, c_ulong, c_ulong, c_ulong, c_char_p])
-    def pbkdf2(self, passwd, salt, iter, keylen):
-
-        def xorstr( a, b ):
-            if len(a) != len(b):
-                raise Exception("xorstr(): lengths differ")
-            return ''.join((chr(ord(x)^ord(y)) for x, y in zip(a, b)))
-
-        def prf( h, data ):
-            hm = h.copy()
-            hm.update( data )
-            return hm.digest()
-
-        def pbkdf2_F( h, salt, itercount, blocknum ):
-            U = prf( h, salt + pack('>i',blocknum ) )
-            T = U
-            for i in range(2, itercount+1):
-                U = prf( h, U )
-                T = xorstr( T, U )
-            return T
-
-        sha = hashlib.sha1
-        digest_size = sha().digest_size
-        # l - number of output blocks to produce
-        l = keylen / digest_size
-        if keylen % digest_size != 0:
-            l += 1
-        h = hmac.new( passwd, None, sha )
-        T = ""
-        for i in range(1, l+1):
-            T += pbkdf2_F( h, salt, iter, i )
-        return T[0: keylen]
-
-
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/alfcrypto64.dll
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/alfcrypto64.dll
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/alfcrypto_src.zip
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/alfcrypto_src.zip
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/cmbtc_v2.2.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/cmbtc_v2.2.py
@@ -1,899 +0,0 @@
-#! /usr/bin/python
-
-"""
-
-Comprehensive Mazama Book DRM with Topaz Cryptography V2.2
-
-----BEGIN PUBLIC KEY-----
-MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQDdBHJ4CNc6DNFCw4MRCw4SWAK6
-M8hYfnNEI0yQmn5Ti+W8biT7EatpauE/5jgQMPBmdNrDr1hbHyHBSP7xeC2qlRWC
-B62UCxeu/fpfnvNHDN/wPWWH4jynZ2M6cdcnE5LQ+FfeKqZn7gnG2No1U9h7oOHx
-y2/pHuYme7U1TsgSjwIDAQAB
-----END PUBLIC KEY-----
-
-"""
-
-from __future__ import with_statement
-
-import csv
-import sys
-import os
-import getopt
-import zlib
-from struct import pack
-from struct import unpack
-from ctypes import windll, c_char_p, c_wchar_p, c_uint, POINTER, byref, \
-    create_unicode_buffer, create_string_buffer, CFUNCTYPE, addressof, \
-    string_at, Structure, c_void_p, cast
-import _winreg as winreg
-import Tkinter
-import Tkconstants
-import tkMessageBox
-import traceback
-import hashlib
-
-MAX_PATH = 255
-
-kernel32 = windll.kernel32
-advapi32 = windll.advapi32
-crypt32 = windll.crypt32
-
-global kindleDatabase
-global bookFile
-global bookPayloadOffset
-global bookHeaderRecords
-global bookMetadata
-global bookKey
-global command
-
-#
-# Various character maps used to decrypt books. Probably supposed to act as obfuscation
-#
-
-charMap1 = "n5Pr6St7Uv8Wx9YzAb0Cd1Ef2Gh3Jk4M"
-charMap2 = "AaZzB0bYyCc1XxDdW2wEeVv3FfUuG4g-TtHh5SsIiR6rJjQq7KkPpL8lOoMm9Nn_"
-charMap3 = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
-charMap4 = "ABCDEFGHIJKLMNPQRSTUVWXYZ123456789"
-
-#
-# Exceptions for all the problems that might happen during the script
-#
-
-class CMBDTCError(Exception):
-    pass
-
-class CMBDTCFatal(Exception):
-    pass
-
-#
-# Stolen stuff
-#
-
-class DataBlob(Structure):
-    _fields_ = [('cbData', c_uint),
-                ('pbData', c_void_p)]
-DataBlob_p = POINTER(DataBlob)
-
-def GetSystemDirectory():
-    GetSystemDirectoryW = kernel32.GetSystemDirectoryW
-    GetSystemDirectoryW.argtypes = [c_wchar_p, c_uint]
-    GetSystemDirectoryW.restype = c_uint
-    def GetSystemDirectory():
-        buffer = create_unicode_buffer(MAX_PATH + 1)
-        GetSystemDirectoryW(buffer, len(buffer))
-        return buffer.value
-    return GetSystemDirectory
-GetSystemDirectory = GetSystemDirectory()
-
-
-def GetVolumeSerialNumber():
-    GetVolumeInformationW = kernel32.GetVolumeInformationW
-    GetVolumeInformationW.argtypes = [c_wchar_p, c_wchar_p, c_uint,
-                                      POINTER(c_uint), POINTER(c_uint),
-                                      POINTER(c_uint), c_wchar_p, c_uint]
-    GetVolumeInformationW.restype = c_uint
-    def GetVolumeSerialNumber(path):
-        vsn = c_uint(0)
-        GetVolumeInformationW(path, None, 0, byref(vsn), None, None, None, 0)
-        return vsn.value
-    return GetVolumeSerialNumber
-GetVolumeSerialNumber = GetVolumeSerialNumber()
-
-
-def GetUserName():
-    GetUserNameW = advapi32.GetUserNameW
-    GetUserNameW.argtypes = [c_wchar_p, POINTER(c_uint)]
-    GetUserNameW.restype = c_uint
-    def GetUserName():
-        buffer = create_unicode_buffer(32)
-        size = c_uint(len(buffer))
-        while not GetUserNameW(buffer, byref(size)):
-            buffer = create_unicode_buffer(len(buffer) * 2)
-            size.value = len(buffer)
-        return buffer.value.encode('utf-16-le')[::2]
-    return GetUserName
-GetUserName = GetUserName()
-
-
-def CryptUnprotectData():
-    _CryptUnprotectData = crypt32.CryptUnprotectData
-    _CryptUnprotectData.argtypes = [DataBlob_p, c_wchar_p, DataBlob_p,
-                                   c_void_p, c_void_p, c_uint, DataBlob_p]
-    _CryptUnprotectData.restype = c_uint
-    def CryptUnprotectData(indata, entropy):
-        indatab = create_string_buffer(indata)
-        indata = DataBlob(len(indata), cast(indatab, c_void_p))
-        entropyb = create_string_buffer(entropy)
-        entropy = DataBlob(len(entropy), cast(entropyb, c_void_p))
-        outdata = DataBlob()
-        if not _CryptUnprotectData(byref(indata), None, byref(entropy),
-                                   None, None, 0, byref(outdata)):
-            raise CMBDTCFatal("Failed to Unprotect Data")
-        return string_at(outdata.pbData, outdata.cbData)
-    return CryptUnprotectData
-CryptUnprotectData = CryptUnprotectData()
-
-#
-# Returns the MD5 digest of "message"
-#
-
-def MD5(message):
-    ctx = hashlib.md5()
-    ctx.update(message)
-    return ctx.digest()
-
-#
-# Returns the MD5 digest of "message"
-#
-
-def SHA1(message):
-    ctx = hashlib.sha1()
-    ctx.update(message)
-    return ctx.digest()
-
-#
-# Open the book file at path
-#
-
-def openBook(path):
-    try:
-        return open(path,'rb')
-    except:
-        raise CMBDTCFatal("Could not open book file: " + path)
-#
-# Encode the bytes in data with the characters in map
-#
-
-def encode(data, map):
-    result = ""
-    for char in data:
-        value = ord(char)
-        Q = (value ^ 0x80) // len(map)
-        R = value % len(map)
-        result += map[Q]
-        result += map[R]
-    return result
-
-#
-# Hash the bytes in data and then encode the digest with the characters in map
-#
-
-def encodeHash(data,map):
-    return encode(MD5(data),map)
-
-#
-# Decode the string in data with the characters in map. Returns the decoded bytes
-#
-
-def decode(data,map):
-    result = ""
-    for i in range (0,len(data),2):
-        high = map.find(data[i])
-        low = map.find(data[i+1])
-        value = (((high * 0x40) ^ 0x80) & 0xFF) + low
-        result += pack("B",value)
-    return result
-
-#
-# Locate and open the Kindle.info file (Hopefully in the way it is done in the Kindle application)
-#
-
-def openKindleInfo():
-    regkey = winreg.OpenKey(winreg.HKEY_CURRENT_USER, "Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Shell Folders\\")
-    path = winreg.QueryValueEx(regkey, 'Local AppData')[0]
-    return open(path+'\\Amazon\\Kindle For PC\\{AMAwzsaPaaZAzmZzZQzgZCAkZ3AjA_AY}\\kindle.info','r')
-
-#
-# Parse the Kindle.info file and return the records as a list of key-values
-#
-
-def parseKindleInfo():
-    DB = {}
-    infoReader = openKindleInfo()
-    infoReader.read(1)
-    data = infoReader.read()
-    items = data.split('{')
-
-    for item in items:
-        splito = item.split(':')
-        DB[splito[0]] =splito[1]
-    return DB
-
-#
-# Find if the original string for a hashed/encoded string is known. If so return the original string othwise return an empty string. (Totally not optimal)
-#
-
-def findNameForHash(hash):
-    names = ["kindle.account.tokens","kindle.cookie.item","eulaVersionAccepted","login_date","kindle.token.item","login","kindle.key.item","kindle.name.info","kindle.device.info", "MazamaRandomNumber"]
-    result = ""
-    for name in names:
-        if hash == encodeHash(name, charMap2):
-            result = name
-            break
-    return name
-
-#
-# Print all the records from the kindle.info file (option -i)
-#
-
-def printKindleInfo():
-    for record in kindleDatabase:
-        name = findNameForHash(record)
-        if name != "" :
-            print (name)
-            print ("--------------------------\n")
-        else :
-            print ("Unknown Record")
-        print getKindleInfoValueForHash(record)
-        print "\n"
-#
-# Get a record from the Kindle.info file for the key "hashedKey" (already hashed and encoded). Return the decoded and decrypted record
-#
-
-def getKindleInfoValueForHash(hashedKey):
-    global kindleDatabase
-    encryptedValue = decode(kindleDatabase[hashedKey],charMap2)
-    return CryptUnprotectData(encryptedValue,"")
-
-#
-#  Get a record from the Kindle.info file for the string in "key" (plaintext). Return the decoded and decrypted record
-#
-
-def getKindleInfoValueForKey(key):
-    return getKindleInfoValueForHash(encodeHash(key,charMap2))
-
-#
-# Get a 7 bit encoded number from the book file
-#
-
-def bookReadEncodedNumber():
-    flag = False
-    data = ord(bookFile.read(1))
-
-    if data == 0xFF:
-        flag = True
-        data = ord(bookFile.read(1))
-
-    if data >= 0x80:
-        datax = (data & 0x7F)
-        while data >= 0x80 :
-            data = ord(bookFile.read(1))
-            datax = (datax <<7) + (data & 0x7F)
-        data = datax
-
-    if flag:
-        data = -data
-    return data
-
-#
-# Encode a number in 7 bit format
-#
-
-def encodeNumber(number):
-    result = ""
-    negative = False
-    flag = 0
-
-    if number < 0 :
-        number = -number + 1
-        negative = True
-
-    while True:
-        byte = number & 0x7F
-        number = number >> 7
-        byte += flag
-        result += chr(byte)
-        flag = 0x80
-        if number == 0 :
-            if (byte == 0xFF and negative == False) :
-                result += chr(0x80)
-            break
-
-    if negative:
-        result += chr(0xFF)
-
-    return result[::-1]
-
-#
-# Get a length prefixed string from the file
-#
-
-def bookReadString():
-    stringLength = bookReadEncodedNumber()
-    return unpack(str(stringLength)+"s",bookFile.read(stringLength))[0]
-
-#
-# Returns a length prefixed string
-#
-
-def lengthPrefixString(data):
-    return encodeNumber(len(data))+data
-
-
-#
-# Read and return the data of one header record at the current book file position [[offset,compressedLength,decompressedLength],...]
-#
-
-def bookReadHeaderRecordData():
-    nbValues = bookReadEncodedNumber()
-    values = []
-    for i in range (0,nbValues):
-        values.append([bookReadEncodedNumber(),bookReadEncodedNumber(),bookReadEncodedNumber()])
-    return values
-
-#
-# Read and parse one header record at the current book file position and return the associated data [[offset,compressedLength,decompressedLength],...]
-#
-
-def parseTopazHeaderRecord():
-    if ord(bookFile.read(1)) != 0x63:
-        raise CMBDTCFatal("Parse Error : Invalid Header")
-
-    tag = bookReadString()
-    record = bookReadHeaderRecordData()
-    return [tag,record]
-
-#
-# Parse the header of a Topaz file, get all the header records and the offset for the payload
-#
-
-def parseTopazHeader():
-    global bookHeaderRecords
-    global bookPayloadOffset
-    magic = unpack("4s",bookFile.read(4))[0]
-
-    if magic != 'TPZ0':
-        raise CMBDTCFatal("Parse Error : Invalid Header, not a Topaz file")
-
-    nbRecords = bookReadEncodedNumber()
-    bookHeaderRecords = {}
-
-    for i in range (0,nbRecords):
-        result = parseTopazHeaderRecord()
-        bookHeaderRecords[result[0]] = result[1]
-
-    if ord(bookFile.read(1))  != 0x64 :
-        raise CMBDTCFatal("Parse Error : Invalid Header")
-
-    bookPayloadOffset = bookFile.tell()
-
-#
-# Get a record in the book payload, given its name and index. If necessary the record is decrypted. The record is not decompressed
-#
-
-def getBookPayloadRecord(name, index):
-    encrypted = False
-
-    try:
-        recordOffset = bookHeaderRecords[name][index][0]
-    except:
-        raise CMBDTCFatal("Parse Error : Invalid Record, record not found")
-
-    bookFile.seek(bookPayloadOffset + recordOffset)
-
-    tag = bookReadString()
-    if tag != name :
-        raise CMBDTCFatal("Parse Error : Invalid Record, record name doesn't match")
-
-    recordIndex = bookReadEncodedNumber()
-
-    if recordIndex < 0 :
-        encrypted = True
-        recordIndex = -recordIndex -1
-
-    if recordIndex != index :
-        raise CMBDTCFatal("Parse Error : Invalid Record, index doesn't match")
-
-    if bookHeaderRecords[name][index][2] != 0 :
-        record = bookFile.read(bookHeaderRecords[name][index][2])
-    else:
-        record = bookFile.read(bookHeaderRecords[name][index][1])
-
-    if encrypted:
-        ctx = topazCryptoInit(bookKey)
-        record = topazCryptoDecrypt(record,ctx)
-
-    return record
-
-#
-# Extract, decrypt and decompress a book record indicated by name and index and print it or save it in "filename"
-#
-
-def extractBookPayloadRecord(name, index, filename):
-    compressed = False
-
-    try:
-        compressed = bookHeaderRecords[name][index][2] != 0
-        record = getBookPayloadRecord(name,index)
-    except:
-        print("Could not find record")
-
-    if compressed:
-        try:
-            record = zlib.decompress(record)
-        except:
-            raise CMBDTCFatal("Could not decompress record")
-
-    if filename != "":
-        try:
-            file = open(filename,"wb")
-            file.write(record)
-            file.close()
-        except:
-            raise CMBDTCFatal("Could not write to destination file")
-    else:
-        print(record)
-
-#
-# return next record [key,value] from the book metadata from the current book position
-#
-
-def readMetadataRecord():
-    return [bookReadString(),bookReadString()]
-
-#
-# Parse the metadata record from the book payload and return a list of [key,values]
-#
-
-def parseMetadata():
-    global bookHeaderRecords
-    global bookPayloadAddress
-    global bookMetadata
-    bookMetadata = {}
-    bookFile.seek(bookPayloadOffset + bookHeaderRecords["metadata"][0][0])
-    tag = bookReadString()
-    if tag != "metadata" :
-        raise CMBDTCFatal("Parse Error : Record Names Don't Match")
-
-    flags = ord(bookFile.read(1))
-    nbRecords = ord(bookFile.read(1))
-
-    for i in range (0,nbRecords) :
-        record =readMetadataRecord()
-        bookMetadata[record[0]] = record[1]
-
-#
-# Returns two bit at offset from a bit field
-#
-
-def getTwoBitsFromBitField(bitField,offset):
-    byteNumber = offset // 4
-    bitPosition = 6 - 2*(offset % 4)
-
-    return ord(bitField[byteNumber]) >> bitPosition & 3
-
-#
-# Returns the six bits at offset from a bit field
-#
-
-def getSixBitsFromBitField(bitField,offset):
-    offset *= 3
-    value = (getTwoBitsFromBitField(bitField,offset) <<4) + (getTwoBitsFromBitField(bitField,offset+1) << 2) +getTwoBitsFromBitField(bitField,offset+2)
-    return value
-
-#
-# 8 bits to six bits encoding from hash to generate PID string
-#
-
-def encodePID(hash):
-    global charMap3
-    PID = ""
-    for position in range (0,8):
-        PID += charMap3[getSixBitsFromBitField(hash,position)]
-    return PID
-
-#
-# Context initialisation for the Topaz Crypto
-#
-
-def topazCryptoInit(key):
-    ctx1 = 0x0CAFFE19E
-
-    for keyChar in key:
-        keyByte = ord(keyChar)
-        ctx2 = ctx1
-        ctx1 = ((((ctx1 >>2) * (ctx1 >>7))&0xFFFFFFFF) ^ (keyByte * keyByte * 0x0F902007)& 0xFFFFFFFF )
-    return [ctx1,ctx2]
-
-#
-# decrypt data with the context prepared by topazCryptoInit()
-#
-
-def topazCryptoDecrypt(data, ctx):
-    ctx1 = ctx[0]
-    ctx2 = ctx[1]
-
-    plainText = ""
-
-    for dataChar in data:
-        dataByte = ord(dataChar)
-        m = (dataByte ^ ((ctx1 >> 3) &0xFF) ^ ((ctx2<<3) & 0xFF)) &0xFF
-        ctx2 = ctx1
-        ctx1 = (((ctx1 >> 2) * (ctx1 >> 7)) &0xFFFFFFFF) ^((m * m * 0x0F902007) &0xFFFFFFFF)
-        plainText += chr(m)
-
-    return plainText
-
-#
-# Decrypt a payload record with the PID
-#
-
-def decryptRecord(data,PID):
-    ctx = topazCryptoInit(PID)
-    return topazCryptoDecrypt(data, ctx)
-
-#
-# Try to decrypt a dkey record (contains the book PID)
-#
-
-def decryptDkeyRecord(data,PID):
-    record = decryptRecord(data,PID)
-    fields = unpack("3sB8sB8s3s",record)
-
-    if fields[0] != "PID" or fields[5] != "pid" :
-        raise CMBDTCError("Didn't find PID magic numbers in record")
-    elif fields[1] != 8 or fields[3] != 8 :
-        raise CMBDTCError("Record didn't contain correct length fields")
-    elif fields[2] != PID :
-        raise CMBDTCError("Record didn't contain PID")
-
-    return fields[4]
-
-#
-# Decrypt all the book's dkey records (contain the book PID)
-#
-
-def decryptDkeyRecords(data,PID):
-    nbKeyRecords = ord(data[0])
-    records = []
-    data = data[1:]
-    for i in range (0,nbKeyRecords):
-        length = ord(data[0])
-        try:
-            key = decryptDkeyRecord(data[1:length+1],PID)
-            records.append(key)
-        except CMBDTCError:
-            pass
-        data = data[1+length:]
-
-    return records
-
-#
-# Encryption table used to generate the device PID
-#
-
-def generatePidEncryptionTable() :
-    table = []
-    for counter1 in range (0,0x100):
-        value = counter1
-        for counter2 in range (0,8):
-            if (value & 1 == 0) :
-                value = value >> 1
-            else :
-                value = value >> 1
-                value = value ^ 0xEDB88320
-        table.append(value)
-    return table
-
-#
-# Seed value used to generate the device PID
-#
-
-def generatePidSeed(table,dsn) :
-    value = 0
-    for counter in range (0,4) :
-        index = (ord(dsn[counter]) ^ value) &0xFF
-        value = (value >> 8) ^ table[index]
-    return value
-
-#
-# Generate the device PID
-#
-
-def generateDevicePID(table,dsn,nbRoll):
-    seed = generatePidSeed(table,dsn)
-    pidAscii = ""
-    pid = [(seed >>24) &0xFF,(seed >> 16) &0xff,(seed >> 8) &0xFF,(seed) & 0xFF,(seed>>24) & 0xFF,(seed >> 16) &0xff,(seed >> 8) &0xFF,(seed) & 0xFF]
-    index = 0
-
-    for counter in range (0,nbRoll):
-        pid[index] = pid[index] ^ ord(dsn[counter])
-        index = (index+1) %8
-
-    for counter in range (0,8):
-        index = ((((pid[counter] >>5) & 3) ^ pid[counter]) & 0x1f) + (pid[counter] >> 7)
-        pidAscii += charMap4[index]
-    return pidAscii
-
-#
-# Create decrypted book payload
-#
-
-def createDecryptedPayload(payload):
-
-    # store data to be able to create the header later
-    headerData= []
-    currentOffset = 0
-
-    # Add social DRM to decrypted files
-
-    try:
-        data = getKindleInfoValueForKey("kindle.name.info")+":"+ getKindleInfoValueForKey("login")
-        if payload!= None:
-            payload.write(lengthPrefixString("sdrm"))
-            payload.write(encodeNumber(0))
-            payload.write(data)
-        else:
-            currentOffset += len(lengthPrefixString("sdrm"))
-            currentOffset += len(encodeNumber(0))
-            currentOffset += len(data)
-    except:
-        pass
-
-    for headerRecord in bookHeaderRecords:
-        name = headerRecord
-        newRecord = []
-
-        if name != "dkey" :
-
-            for index in range (0,len(bookHeaderRecords[name])) :
-                offset = currentOffset
-
-                if payload != None:
-                    # write tag
-                    payload.write(lengthPrefixString(name))
-                    # write data
-                    payload.write(encodeNumber(index))
-                    payload.write(getBookPayloadRecord(name, index))
-
-                else :
-                    currentOffset += len(lengthPrefixString(name))
-                    currentOffset += len(encodeNumber(index))
-                    currentOffset += len(getBookPayloadRecord(name, index))
-                    newRecord.append([offset,bookHeaderRecords[name][index][1],bookHeaderRecords[name][index][2]])
-
-        headerData.append([name,newRecord])
-
-
-
-    return headerData
-
-#
-# Create decrypted book
-#
-
-def createDecryptedBook(outputFile):
-    outputFile = open(outputFile,"wb")
-    # Write the payload in a temporary file
-    headerData = createDecryptedPayload(None)
-    outputFile.write("TPZ0")
-    outputFile.write(encodeNumber(len(headerData)))
-
-    for header in headerData :
-        outputFile.write(chr(0x63))
-        outputFile.write(lengthPrefixString(header[0]))
-        outputFile.write(encodeNumber(len(header[1])))
-        for numbers in header[1] :
-            outputFile.write(encodeNumber(numbers[0]))
-            outputFile.write(encodeNumber(numbers[1]))
-            outputFile.write(encodeNumber(numbers[2]))
-
-    outputFile.write(chr(0x64))
-    createDecryptedPayload(outputFile)
-    outputFile.close()
-
-#
-# Set the command to execute by the programm according to cmdLine parameters
-#
-
-def setCommand(name) :
-    global command
-    if command != "" :
-        raise CMBDTCFatal("Invalid command line parameters")
-    else :
-        command = name
-
-#
-# Program usage
-#
-
-def usage():
-    print("\nUsage:")
-    print("\nCMBDTC.py [options] bookFileName\n")
-    print("-p Adds a PID to the list of PIDs that are tried to decrypt the book key (can be used several times)")
-    print("-d Saves a decrypted copy of the book")
-    print("-r Prints or writes to disk a record indicated in the form name:index (e.g \"img:0\")")
-    print("-o Output file name to write records and decrypted books")
-    print("-v Verbose (can be used several times)")
-    print("-i Prints kindle.info database")
-
-#
-# Main
-#
-
-def main(argv=sys.argv):
-    global kindleDatabase
-    global bookMetadata
-    global bookKey
-    global bookFile
-    global command
-
-    progname = os.path.basename(argv[0])
-
-    verbose = 0
-    recordName = ""
-    recordIndex = 0
-    outputFile = ""
-    PIDs = []
-    kindleDatabase = None
-    command = ""
-
-
-    try:
-        opts, args = getopt.getopt(sys.argv[1:], "vdir:o:p:")
-    except getopt.GetoptError, err:
-        # print help information and exit:
-        print str(err) # will print something like "option -a not recognized"
-        usage()
-        sys.exit(2)
-
-    if len(opts) == 0 and len(args) == 0 :
-        usage()
-        sys.exit(2)
-
-    for o, a in opts:
-        if o == "-v":
-            verbose+=1
-        if o == "-i":
-            setCommand("printInfo")
-        if o =="-o":
-            if a == None :
-                raise CMBDTCFatal("Invalid parameter for -o")
-            outputFile = a
-        if o =="-r":
-            setCommand("printRecord")
-            try:
-                recordName,recordIndex = a.split(':')
-            except:
-                raise CMBDTCFatal("Invalid parameter for -r")
-        if o =="-p":
-            PIDs.append(a)
-        if o =="-d":
-            setCommand("doit")
-
-    if command == "" :
-        raise CMBDTCFatal("No action supplied on command line")
-
-    #
-    # Read the encrypted database
-    #
-
-    try:
-        kindleDatabase = parseKindleInfo()
-    except Exception, message:
-        if verbose>0:
-            print(message)
-
-    if kindleDatabase != None :
-        if command == "printInfo" :
-            printKindleInfo()
-
-    #
-    # Compute the DSN
-    #
-
-    # Get the Mazama Random number
-        MazamaRandomNumber = getKindleInfoValueForKey("MazamaRandomNumber")
-
-    # Get the HDD serial
-        encodedSystemVolumeSerialNumber = encodeHash(str(GetVolumeSerialNumber(GetSystemDirectory().split('\\')[0] + '\\')),charMap1)
-
-    # Get the current user name
-        encodedUsername = encodeHash(GetUserName(),charMap1)
-
-    # concat, hash and encode
-        DSN = encode(SHA1(MazamaRandomNumber+encodedSystemVolumeSerialNumber+encodedUsername),charMap1)
-
-        if verbose >1:
-            print("DSN: " + DSN)
-
-    #
-    # Compute the device PID
-    #
-
-        table =  generatePidEncryptionTable()
-        devicePID = generateDevicePID(table,DSN,4)
-        PIDs.append(devicePID)
-
-        if verbose > 0:
-            print("Device PID: " + devicePID)
-
-    #
-    # Open book and parse metadata
-    #
-
-    if len(args) == 1:
-
-        bookFile = openBook(args[0])
-        parseTopazHeader()
-        parseMetadata()
-
-    #
-    # Compute book PID
-    #
-
-    # Get the account token
-
-        if kindleDatabase != None:
-            kindleAccountToken = getKindleInfoValueForKey("kindle.account.tokens")
-
-            if verbose >1:
-                print("Account Token: " + kindleAccountToken)
-
-            keysRecord = bookMetadata["keys"]
-            keysRecordRecord = bookMetadata[keysRecord]
-
-            pidHash = SHA1(DSN+kindleAccountToken+keysRecord+keysRecordRecord)
-
-            bookPID = encodePID(pidHash)
-            PIDs.append(bookPID)
-
-            if verbose > 0:
-                print ("Book PID: " + bookPID )
-
-    #
-    #  Decrypt book key
-    #
-
-        dkey = getBookPayloadRecord('dkey', 0)
-
-        bookKeys = []
-        for PID in PIDs :
-            bookKeys+=decryptDkeyRecords(dkey,PID)
-
-        if len(bookKeys) == 0 :
-            if verbose > 0 :
-                print ("Book key could not be found. Maybe this book is not registered with this device.")
-        else :
-            bookKey = bookKeys[0]
-            if verbose > 0:
-                print("Book key: " + bookKey.encode('hex'))
-
-
-
-            if command == "printRecord" :
-                extractBookPayloadRecord(recordName,int(recordIndex),outputFile)
-                if outputFile != "" and verbose>0 :
-                    print("Wrote record to file: "+outputFile)
-            elif command == "doit" :
-                if outputFile!="" :
-                    createDecryptedBook(outputFile)
-                    if verbose >0 :
-                        print ("Decrypted book saved. Don't pirate!")
-                elif verbose > 0:
-                    print("Output file name was not supplied.")
-
-    return 0
-
-if __name__ == '__main__':
-    sys.exit(main())
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/config.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/config.py
@@ -1,59 +0,0 @@
-from PyQt4.Qt import QWidget, QVBoxLayout, QLabel, QLineEdit
-
-from calibre.utils.config import JSONConfig
-
-# This is where all preferences for this plugin will be stored
-# You should always prefix your config file name with plugins/,
-# so as to ensure you dont accidentally clobber a calibre config file
-prefs = JSONConfig('plugins/K4MobiDeDRM')
-
-# Set defaults
-prefs.defaults['pids'] = ""
-prefs.defaults['serials'] = ""
-prefs.defaults['WINEPREFIX'] = None
-
-
-class ConfigWidget(QWidget):
-
-    def __init__(self):
-        QWidget.__init__(self)
-        self.l = QVBoxLayout()
-        self.setLayout(self.l)
-
-        self.serialLabel = QLabel('Kindle Serial numbers (separate with commas, no spaces)')
-        self.l.addWidget(self.serialLabel)
-
-        self.serials = QLineEdit(self)
-        self.serials.setText(prefs['serials'])
-        self.l.addWidget(self.serials)
-        self.serialLabel.setBuddy(self.serials)
-
-        self.pidLabel = QLabel('Mobipocket PIDs (separate with commas, no spaces)')
-        self.l.addWidget(self.pidLabel)
-
-        self.pids = QLineEdit(self)
-        self.pids.setText(prefs['pids'])
-        self.l.addWidget(self.pids)
-        self.pidLabel.setBuddy(self.serials)
-
-        self.wpLabel = QLabel('For Linux only: WINEPREFIX (enter absolute path)')
-        self.l.addWidget(self.wpLabel)
-
-        self.wineprefix = QLineEdit(self)
-        wineprefix = prefs['WINEPREFIX']
-        if wineprefix is not None:
-            self.wineprefix.setText(wineprefix)
-        else:
-            self.wineprefix.setText('')
-
-        self.l.addWidget(self.wineprefix)
-        self.wpLabel.setBuddy(self.wineprefix)
-
-    def save_settings(self):
-        prefs['pids'] = str(self.pids.text())
-        prefs['serials'] = str(self.serials.text())
-        winepref=str(self.wineprefix.text())
-        if winepref.strip() != '':
-            prefs['WINEPREFIX'] = winepref
-        else:
-            prefs['WINEPREFIX'] = None
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/convert2xml.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/convert2xml.py
@@ -1,846 +0,0 @@
-#! /usr/bin/python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-# For use with Topaz Scripts Version 2.6
-
-class Unbuffered:
-    def __init__(self, stream):
-        self.stream = stream
-    def write(self, data):
-        self.stream.write(data)
-        self.stream.flush()
-    def __getattr__(self, attr):
-        return getattr(self.stream, attr)
-
-import sys
-sys.stdout=Unbuffered(sys.stdout)
-
-import csv
-import os
-import getopt
-from struct import pack
-from struct import unpack
-
-class TpzDRMError(Exception):
-    pass
-
-# Get a 7 bit encoded number from string. The most
-# significant byte comes first and has the high bit (8th) set
-
-def readEncodedNumber(file):
-    flag = False
-    c = file.read(1)
-    if (len(c) == 0):
-        return None
-    data = ord(c)
-
-    if data == 0xFF:
-        flag = True
-        c = file.read(1)
-        if (len(c) == 0):
-            return None
-        data = ord(c)
-
-    if data >= 0x80:
-        datax = (data & 0x7F)
-        while data >= 0x80 :
-            c = file.read(1)
-            if (len(c) == 0):
-                return None
-            data = ord(c)
-            datax = (datax <<7) + (data & 0x7F)
-        data = datax
-
-    if flag:
-        data = -data
-    return data
-
-
-# returns a binary string that encodes a number into 7 bits
-# most significant byte first which has the high bit set
-
-def encodeNumber(number):
-    result = ""
-    negative = False
-    flag = 0
-
-    if number < 0 :
-        number = -number + 1
-        negative = True
-
-    while True:
-        byte = number & 0x7F
-        number = number >> 7
-        byte += flag
-        result += chr(byte)
-        flag = 0x80
-        if number == 0 :
-            if (byte == 0xFF and negative == False) :
-                result += chr(0x80)
-            break
-
-    if negative:
-        result += chr(0xFF)
-
-    return result[::-1]
-
-
-
-# create / read  a length prefixed string from the file
-
-def lengthPrefixString(data):
-    return encodeNumber(len(data))+data
-
-def readString(file):
-    stringLength = readEncodedNumber(file)
-    if (stringLength == None):
-        return ""
-    sv = file.read(stringLength)
-    if (len(sv)  != stringLength):
-        return ""
-    return unpack(str(stringLength)+"s",sv)[0]
-
-
-# convert a binary string generated by encodeNumber (7 bit encoded number)
-# to the value you would find inside the page*.dat files to be processed
-
-def convert(i):
-    result = ''
-    val = encodeNumber(i)
-    for j in xrange(len(val)):
-        c = ord(val[j:j+1])
-        result += '%02x' % c
-    return result
-
-
-
-# the complete string table used to store all book text content
-# as well as the xml tokens and values that make sense out of it
-
-class Dictionary(object):
-    def __init__(self, dictFile):
-        self.filename = dictFile
-        self.size = 0
-        self.fo = file(dictFile,'rb')
-        self.stable = []
-        self.size = readEncodedNumber(self.fo)
-        for i in xrange(self.size):
-            self.stable.append(self.escapestr(readString(self.fo)))
-        self.pos = 0
-
-    def escapestr(self, str):
-        str = str.replace('&','&amp;')
-        str = str.replace('<','&lt;')
-        str = str.replace('>','&gt;')
-        str = str.replace('=','&#61;')
-        return str
-
-    def lookup(self,val):
-        if ((val >= 0) and (val < self.size)) :
-            self.pos = val
-            return self.stable[self.pos]
-        else:
-            print "Error - %d outside of string table limits" % val
-            raise TpzDRMError('outside of string table limits')
-            # sys.exit(-1)
-
-    def getSize(self):
-        return self.size
-
-    def getPos(self):
-        return self.pos
-
-    def dumpDict(self):
-        for i in xrange(self.size):
-            print "%d %s %s" % (i, convert(i), self.stable[i])
-        return
-
-# parses the xml snippets that are represented by each page*.dat file.
-# also parses the other0.dat file - the main stylesheet
-# and information used to inject the xml snippets into page*.dat files
-
-class PageParser(object):
-    def __init__(self, filename, dict, debug, flat_xml):
-        self.fo = file(filename,'rb')
-        self.id = os.path.basename(filename).replace('.dat','')
-        self.dict = dict
-        self.debug = debug
-        self.flat_xml = flat_xml
-        self.tagpath = []
-        self.doc = []
-        self.snippetList = []
-
-
-    # hash table used to enable the decoding process
-    # This has all been developed by trial and error so it may still have omissions or
-    # contain errors
-    # Format:
-    # tag : (number of arguments, argument type, subtags present, special case of subtags presents when escaped)
-
-    token_tags = {
-        'x'            : (1, 'scalar_number', 0, 0),
-        'y'            : (1, 'scalar_number', 0, 0),
-        'h'            : (1, 'scalar_number', 0, 0),
-        'w'            : (1, 'scalar_number', 0, 0),
-        'firstWord'    : (1, 'scalar_number', 0, 0),
-        'lastWord'     : (1, 'scalar_number', 0, 0),
-        'rootID'       : (1, 'scalar_number', 0, 0),
-        'stemID'       : (1, 'scalar_number', 0, 0),
-        'type'         : (1, 'scalar_text', 0, 0),
-
-        'info'            : (0, 'number', 1, 0),
-
-        'info.word'            : (0, 'number', 1, 1),
-        'info.word.ocrText'    : (1, 'text', 0, 0),
-        'info.word.firstGlyph' : (1, 'raw', 0, 0),
-        'info.word.lastGlyph'  : (1, 'raw', 0, 0),
-        'info.word.bl'         : (1, 'raw', 0, 0),
-        'info.word.link_id'    : (1, 'number', 0, 0),
-
-        'glyph'           : (0, 'number', 1, 1),
-        'glyph.x'         : (1, 'number', 0, 0),
-        'glyph.y'         : (1, 'number', 0, 0),
-        'glyph.glyphID'   : (1, 'number', 0, 0),
-
-        'dehyphen'          : (0, 'number', 1, 1),
-        'dehyphen.rootID'   : (1, 'number', 0, 0),
-        'dehyphen.stemID'   : (1, 'number', 0, 0),
-        'dehyphen.stemPage' : (1, 'number', 0, 0),
-        'dehyphen.sh'       : (1, 'number', 0, 0),
-
-        'links'        : (0, 'number', 1, 1),
-        'links.page'   : (1, 'number', 0, 0),
-        'links.rel'    : (1, 'number', 0, 0),
-        'links.row'    : (1, 'number', 0, 0),
-        'links.title'  : (1, 'text', 0, 0),
-        'links.href'   : (1, 'text', 0, 0),
-        'links.type'   : (1, 'text', 0, 0),
-        'links.id'     : (1, 'number', 0, 0),
-
-        'paraCont'          : (0, 'number', 1, 1),
-        'paraCont.rootID'   : (1, 'number', 0, 0),
-        'paraCont.stemID'   : (1, 'number', 0, 0),
-        'paraCont.stemPage' : (1, 'number', 0, 0),
-
-        'paraStems'        : (0, 'number', 1, 1),
-        'paraStems.stemID' : (1, 'number', 0, 0),
-
-        'wordStems'          : (0, 'number', 1, 1),
-        'wordStems.stemID'   : (1, 'number', 0, 0),
-
-        'empty'          : (1, 'snippets', 1, 0),
-
-        'page'           : (1, 'snippets', 1, 0),
-        'page.pageid'    : (1, 'scalar_text', 0, 0),
-        'page.pagelabel' : (1, 'scalar_text', 0, 0),
-        'page.type'      : (1, 'scalar_text', 0, 0),
-        'page.h'         : (1, 'scalar_number', 0, 0),
-        'page.w'         : (1, 'scalar_number', 0, 0),
-        'page.startID' : (1, 'scalar_number', 0, 0),
-
-        'group'           : (1, 'snippets', 1, 0),
-        'group.type'      : (1, 'scalar_text', 0, 0),
-        'group._tag'      : (1, 'scalar_text', 0, 0),
-        'group.orientation': (1, 'scalar_text', 0, 0),
-
-        'region'           : (1, 'snippets', 1, 0),
-        'region.type'      : (1, 'scalar_text', 0, 0),
-        'region.x'         : (1, 'scalar_number', 0, 0),
-        'region.y'         : (1, 'scalar_number', 0, 0),
-        'region.h'         : (1, 'scalar_number', 0, 0),
-        'region.w'         : (1, 'scalar_number', 0, 0),
-        'region.orientation' : (1, 'scalar_text', 0, 0),
-
-        'empty_text_region' : (1, 'snippets', 1, 0),
-
-        'img'           : (1, 'snippets', 1, 0),
-        'img.x'         : (1, 'scalar_number', 0, 0),
-        'img.y'         : (1, 'scalar_number', 0, 0),
-        'img.h'         : (1, 'scalar_number', 0, 0),
-        'img.w'         : (1, 'scalar_number', 0, 0),
-        'img.src'       : (1, 'scalar_number', 0, 0),
-        'img.color_src' : (1, 'scalar_number', 0, 0),
-
-        'paragraph'           : (1, 'snippets', 1, 0),
-        'paragraph.class'     : (1, 'scalar_text', 0, 0),
-        'paragraph.firstWord' : (1, 'scalar_number', 0, 0),
-        'paragraph.lastWord'  : (1, 'scalar_number', 0, 0),
-        'paragraph.lastWord'  : (1, 'scalar_number', 0, 0),
-        'paragraph.gridSize'  : (1, 'scalar_number', 0, 0),
-        'paragraph.gridBottomCenter'  : (1, 'scalar_number', 0, 0),
-        'paragraph.gridTopCenter' : (1, 'scalar_number', 0, 0),
-        'paragraph.gridBeginCenter' : (1, 'scalar_number', 0, 0),
-        'paragraph.gridEndCenter' : (1, 'scalar_number', 0, 0),
-
-
-        'word_semantic'           : (1, 'snippets', 1, 1),
-        'word_semantic.type'      : (1, 'scalar_text', 0, 0),
-        'word_semantic.firstWord' : (1, 'scalar_number', 0, 0),
-        'word_semantic.lastWord'  : (1, 'scalar_number', 0, 0),
-
-        'word'            : (1, 'snippets', 1, 0),
-        'word.type'       : (1, 'scalar_text', 0, 0),
-        'word.class'      : (1, 'scalar_text', 0, 0),
-        'word.firstGlyph' : (1, 'scalar_number', 0, 0),
-        'word.lastGlyph'  : (1, 'scalar_number', 0, 0),
-
-        '_span'           : (1, 'snippets', 1, 0),
-        '_span.firstWord' : (1, 'scalar_number', 0, 0),
-        '_span.lastWord'  : (1, 'scalar_number', 0, 0),
-        '_span.gridSize'  : (1, 'scalar_number', 0, 0),
-        '_span.gridBottomCenter'  : (1, 'scalar_number', 0, 0),
-        '_span.gridTopCenter' : (1, 'scalar_number', 0, 0),
-        '_span.gridBeginCenter' : (1, 'scalar_number', 0, 0),
-        '_span.gridEndCenter' : (1, 'scalar_number', 0, 0),
-
-        'span'           : (1, 'snippets', 1, 0),
-        'span.firstWord' : (1, 'scalar_number', 0, 0),
-        'span.lastWord'  : (1, 'scalar_number', 0, 0),
-        'span.gridSize'  : (1, 'scalar_number', 0, 0),
-        'span.gridBottomCenter'  : (1, 'scalar_number', 0, 0),
-        'span.gridTopCenter' : (1, 'scalar_number', 0, 0),
-        'span.gridBeginCenter' : (1, 'scalar_number', 0, 0),
-        'span.gridEndCenter' : (1, 'scalar_number', 0, 0),
-
-        'extratokens'            : (1, 'snippets', 1, 0),
-        'extratokens.type'       : (1, 'scalar_text', 0, 0),
-        'extratokens.firstGlyph' : (1, 'scalar_number', 0, 0),
-        'extratokens.lastGlyph'  : (1, 'scalar_number', 0, 0),
-
-        'glyph.h'      : (1, 'number', 0, 0),
-        'glyph.w'      : (1, 'number', 0, 0),
-        'glyph.use'    : (1, 'number', 0, 0),
-        'glyph.vtx'    : (1, 'number', 0, 1),
-        'glyph.len'    : (1, 'number', 0, 1),
-        'glyph.dpi'    : (1, 'number', 0, 0),
-        'vtx'          : (0, 'number', 1, 1),
-        'vtx.x'        : (1, 'number', 0, 0),
-        'vtx.y'        : (1, 'number', 0, 0),
-        'len'          : (0, 'number', 1, 1),
-        'len.n'        : (1, 'number', 0, 0),
-
-        'book'         : (1, 'snippets', 1, 0),
-        'version'      : (1, 'snippets', 1, 0),
-        'version.FlowEdit_1_id'            : (1, 'scalar_text', 0, 0),
-        'version.FlowEdit_1_version'       : (1, 'scalar_text', 0, 0),
-        'version.Schema_id'                : (1, 'scalar_text', 0, 0),
-        'version.Schema_version'           : (1, 'scalar_text', 0, 0),
-        'version.Topaz_version'            : (1, 'scalar_text', 0, 0),
-        'version.WordDetailEdit_1_id'      : (1, 'scalar_text', 0, 0),
-        'version.WordDetailEdit_1_version' : (1, 'scalar_text', 0, 0),
-        'version.ZoneEdit_1_id'            : (1, 'scalar_text', 0, 0),
-        'version.ZoneEdit_1_version'       : (1, 'scalar_text', 0, 0),
-        'version.chapterheaders'           : (1, 'scalar_text', 0, 0),
-        'version.creation_date'            : (1, 'scalar_text', 0, 0),
-        'version.header_footer'            : (1, 'scalar_text', 0, 0),
-        'version.init_from_ocr'            : (1, 'scalar_text', 0, 0),
-        'version.letter_insertion'         : (1, 'scalar_text', 0, 0),
-        'version.xmlinj_convert'           : (1, 'scalar_text', 0, 0),
-        'version.xmlinj_reflow'            : (1, 'scalar_text', 0, 0),
-        'version.xmlinj_transform'         : (1, 'scalar_text', 0, 0),
-        'version.findlists'                : (1, 'scalar_text', 0, 0),
-        'version.page_num'                 : (1, 'scalar_text', 0, 0),
-        'version.page_type'                : (1, 'scalar_text', 0, 0),
-        'version.bad_text'                 : (1, 'scalar_text', 0, 0),
-        'version.glyph_mismatch'           : (1, 'scalar_text', 0, 0),
-        'version.margins'                  : (1, 'scalar_text', 0, 0),
-        'version.staggered_lines'          : (1, 'scalar_text', 0, 0),
-        'version.paragraph_continuation'   : (1, 'scalar_text', 0, 0),
-        'version.toc'                      : (1, 'scalar_text', 0, 0),
-
-        'stylesheet'   : (1, 'snippets', 1, 0),
-        'style'              : (1, 'snippets', 1, 0),
-        'style._tag'         : (1, 'scalar_text', 0, 0),
-        'style.type'         : (1, 'scalar_text', 0, 0),
-        'style._parent_type' : (1, 'scalar_text', 0, 0),
-        'style.class'        : (1, 'scalar_text', 0, 0),
-        'style._after_class' : (1, 'scalar_text', 0, 0),
-        'rule'               : (1, 'snippets', 1, 0),
-        'rule.attr'          : (1, 'scalar_text', 0, 0),
-        'rule.value'         : (1, 'scalar_text', 0, 0),
-
-        'original'      : (0, 'number', 1, 1),
-        'original.pnum' : (1, 'number', 0, 0),
-        'original.pid'  : (1, 'text', 0, 0),
-        'pages'        : (0, 'number', 1, 1),
-        'pages.ref'    : (1, 'number', 0, 0),
-        'pages.id'     : (1, 'number', 0, 0),
-        'startID'      : (0, 'number', 1, 1),
-        'startID.page' : (1, 'number', 0, 0),
-        'startID.id'   : (1, 'number', 0, 0),
-
-     }
-
-
-    # full tag path record keeping routines
-    def tag_push(self, token):
-        self.tagpath.append(token)
-    def tag_pop(self):
-        if len(self.tagpath) > 0 :
-            self.tagpath.pop()
-    def tagpath_len(self):
-        return len(self.tagpath)
-    def get_tagpath(self, i):
-        cnt = len(self.tagpath)
-        if i < cnt : result = self.tagpath[i]
-        for j in xrange(i+1, cnt) :
-            result += '.' + self.tagpath[j]
-        return result
-
-
-    # list of absolute command byte values values that indicate
-    # various types of loop meachanisms typically used to generate vectors
-
-    cmd_list = (0x76, 0x76)
-
-    # peek at and return 1 byte that is ahead by i bytes
-    def peek(self, aheadi):
-        c = self.fo.read(aheadi)
-        if (len(c) == 0):
-            return None
-        self.fo.seek(-aheadi,1)
-        c = c[-1:]
-        return ord(c)
-
-
-    # get the next value from the file being processed
-    def getNext(self):
-        nbyte = self.peek(1);
-        if (nbyte == None):
-            return None
-        val = readEncodedNumber(self.fo)
-        return val
-
-
-    # format an arg by argtype
-    def formatArg(self, arg, argtype):
-        if (argtype == 'text') or (argtype == 'scalar_text') :
-            result = self.dict.lookup(arg)
-        elif (argtype == 'raw') or (argtype == 'number') or (argtype == 'scalar_number') :
-            result = arg
-        elif (argtype == 'snippets') :
-            result = arg
-        else :
-            print "Error Unknown argtype %s" % argtype
-            sys.exit(-2)
-        return result
-
-
-    # process the next tag token, recursively handling subtags,
-    # arguments, and commands
-    def procToken(self, token):
-
-        known_token = False
-        self.tag_push(token)
-
-        if self.debug : print 'Processing: ', self.get_tagpath(0)
-        cnt = self.tagpath_len()
-        for j in xrange(cnt):
-            tkn = self.get_tagpath(j)
-            if tkn in self.token_tags :
-                num_args = self.token_tags[tkn][0]
-                argtype = self.token_tags[tkn][1]
-                subtags = self.token_tags[tkn][2]
-                splcase = self.token_tags[tkn][3]
-                ntags = -1
-                known_token = True
-                break
-
-        if known_token :
-
-            # handle subtags if present
-            subtagres = []
-            if (splcase == 1):
-                # this type of tag uses of escape marker 0x74 indicate subtag count
-                if self.peek(1) == 0x74:
-                    skip = readEncodedNumber(self.fo)
-                    subtags = 1
-                    num_args = 0
-
-            if (subtags == 1):
-                ntags = readEncodedNumber(self.fo)
-                if self.debug : print 'subtags: ' + token + ' has ' + str(ntags)
-                for j in xrange(ntags):
-                    val = readEncodedNumber(self.fo)
-                    subtagres.append(self.procToken(self.dict.lookup(val)))
-
-            # arguments can be scalars or vectors of text or numbers
-            argres = []
-            if num_args > 0 :
-                firstarg = self.peek(1)
-                if (firstarg in self.cmd_list) and (argtype != 'scalar_number') and (argtype != 'scalar_text'):
-                    # single argument is a variable length vector of data
-                    arg = readEncodedNumber(self.fo)
-                    argres = self.decodeCMD(arg,argtype)
-                else :
-                    # num_arg scalar arguments
-                    for i in xrange(num_args):
-                        argres.append(self.formatArg(readEncodedNumber(self.fo), argtype))
-
-            # build the return tag
-            result = []
-            tkn = self.get_tagpath(0)
-            result.append(tkn)
-            result.append(subtagres)
-            result.append(argtype)
-            result.append(argres)
-            self.tag_pop()
-            return result
-
-        # all tokens that need to be processed should be in the hash
-        # table if it may indicate a problem, either new token
-        # or an out of sync condition
-        else:
-            result = []
-            if (self.debug):
-                print 'Unknown Token:', token
-            self.tag_pop()
-            return result
-
-
-    # special loop used to process code snippets
-    # it is NEVER used to format arguments.
-    # builds the snippetList
-    def doLoop72(self, argtype):
-        cnt = readEncodedNumber(self.fo)
-        if self.debug :
-            result = 'Set of '+ str(cnt) + ' xml snippets. The overall structure \n'
-            result += 'of the document is indicated by snippet number sets at the\n'
-            result += 'end of each snippet. \n'
-            print result
-        for i in xrange(cnt):
-            if self.debug: print 'Snippet:',str(i)
-            snippet = []
-            snippet.append(i)
-            val = readEncodedNumber(self.fo)
-            snippet.append(self.procToken(self.dict.lookup(val)))
-            self.snippetList.append(snippet)
-        return
-
-
-
-    # general loop code gracisouly submitted by "skindle" - thank you!
-    def doLoop76Mode(self, argtype, cnt, mode):
-        result = []
-        adj = 0
-        if mode & 1:
-            adj = readEncodedNumber(self.fo)
-        mode = mode >> 1
-        x = []
-        for i in xrange(cnt):
-            x.append(readEncodedNumber(self.fo) - adj)
-        for i in xrange(mode):
-            for j in xrange(1, cnt):
-                x[j] = x[j] + x[j - 1]
-        for i in xrange(cnt):
-            result.append(self.formatArg(x[i],argtype))
-        return result
-
-
-    # dispatches loop commands bytes with various modes
-    # The 0x76 style loops are used to build vectors
-
-    # This was all derived by trial and error and
-    # new loop types may exist that are not handled here
-    # since they did not appear in the test cases
-
-    def decodeCMD(self, cmd, argtype):
-        if (cmd == 0x76):
-
-            # loop with cnt, and mode to control loop styles
-            cnt = readEncodedNumber(self.fo)
-            mode = readEncodedNumber(self.fo)
-
-            if self.debug : print 'Loop for', cnt, 'with  mode', mode,  ':  '
-            return self.doLoop76Mode(argtype, cnt, mode)
-
-        if self.dbug: print  "Unknown command", cmd
-        result = []
-        return result
-
-
-
-    # add full tag path to injected snippets
-    def updateName(self, tag, prefix):
-        name = tag[0]
-        subtagList = tag[1]
-        argtype = tag[2]
-        argList = tag[3]
-        nname = prefix + '.' + name
-        nsubtaglist = []
-        for j in subtagList:
-            nsubtaglist.append(self.updateName(j,prefix))
-        ntag = []
-        ntag.append(nname)
-        ntag.append(nsubtaglist)
-        ntag.append(argtype)
-        ntag.append(argList)
-        return ntag
-
-
-
-    # perform depth first injection of specified snippets into this one
-    def injectSnippets(self, snippet):
-        snipno, tag = snippet
-        name = tag[0]
-        subtagList = tag[1]
-        argtype = tag[2]
-        argList = tag[3]
-        nsubtagList = []
-        if len(argList) > 0 :
-            for j in argList:
-                asnip = self.snippetList[j]
-                aso, atag = self.injectSnippets(asnip)
-                atag = self.updateName(atag, name)
-                nsubtagList.append(atag)
-        argtype='number'
-        argList=[]
-        if len(nsubtagList) > 0 :
-            subtagList.extend(nsubtagList)
-        tag = []
-        tag.append(name)
-        tag.append(subtagList)
-        tag.append(argtype)
-        tag.append(argList)
-        snippet = []
-        snippet.append(snipno)
-        snippet.append(tag)
-        return snippet
-
-
-
-    # format the tag for output
-    def formatTag(self, node):
-        name = node[0]
-        subtagList = node[1]
-        argtype = node[2]
-        argList = node[3]
-        fullpathname = name.split('.')
-        nodename = fullpathname.pop()
-        ilvl = len(fullpathname)
-        indent = ' ' * (3 * ilvl)
-        rlst = []
-        rlst.append(indent + '<' + nodename + '>')
-        if len(argList) > 0:
-            alst = []
-            for j in argList:
-                if (argtype == 'text') or (argtype == 'scalar_text') :
-                    alst.append(j + '|')
-                else :
-                    alst.append(str(j) + ',')
-            argres = "".join(alst)
-            argres = argres[0:-1]
-            if argtype == 'snippets' :
-                rlst.append('snippets:' + argres)
-            else :
-                rlst.append(argres)
-        if len(subtagList) > 0 :
-            rlst.append('\n')
-            for j in subtagList:
-                if len(j) > 0 :
-                    rlst.append(self.formatTag(j))
-            rlst.append(indent + '</' + nodename + '>\n')
-        else:
-            rlst.append('</' + nodename + '>\n')
-        return "".join(rlst)
-
-
-    # flatten tag
-    def flattenTag(self, node):
-        name = node[0]
-        subtagList = node[1]
-        argtype = node[2]
-        argList = node[3]
-        rlst = []
-        rlst.append(name)
-        if (len(argList) > 0):
-            alst = []
-            for j in argList:
-                if (argtype == 'text') or (argtype == 'scalar_text') :
-                    alst.append(j + '|')
-                else :
-                    alst.append(str(j) + '|')
-            argres = "".join(alst)
-            argres = argres[0:-1]
-            if argtype == 'snippets' :
-                rlst.append('.snippets=' + argres)
-            else :
-                rlst.append('=' + argres)
-        rlst.append('\n')
-        for j in subtagList:
-            if len(j) > 0 :
-                rlst.append(self.flattenTag(j))
-        return "".join(rlst)
-
-
-    # reduce create xml output
-    def formatDoc(self, flat_xml):
-        rlst = []
-        for j in self.doc :
-            if len(j) > 0:
-                if flat_xml:
-                    rlst.append(self.flattenTag(j))
-                else:
-                    rlst.append(self.formatTag(j))
-        result = "".join(rlst)
-        if self.debug : print result
-        return result
-
-
-
-    # main loop - parse the page.dat files
-    # to create structured document and snippets
-
-    # FIXME: value at end of magic appears to be a subtags count
-    # but for what?  For now, inject an 'info" tag as it is in
-    # every dictionary and seems close to what is meant
-    # The alternative is to special case the last _ "0x5f" to mean something
-
-    def process(self):
-
-        # peek at the first bytes to see what type of file it is
-        magic = self.fo.read(9)
-        if (magic[0:1] == 'p') and (magic[2:9] == 'marker_'):
-            first_token = 'info'
-        elif (magic[0:1] == 'p') and (magic[2:9] == '__PAGE_'):
-            skip = self.fo.read(2)
-            first_token = 'info'
-        elif (magic[0:1] == 'p') and (magic[2:8] == '_PAGE_'):
-            first_token = 'info'
-        elif (magic[0:1] == 'g') and (magic[2:9] == '__GLYPH'):
-            skip = self.fo.read(3)
-            first_token = 'info'
-        else :
-            # other0.dat file
-            first_token = None
-            self.fo.seek(-9,1)
-
-
-        # main loop to read and build the document tree
-        while True:
-
-            if first_token != None :
-                # use "inserted" first token 'info' for page and glyph files
-                tag = self.procToken(first_token)
-                if len(tag) > 0 :
-                    self.doc.append(tag)
-                first_token = None
-
-            v = self.getNext()
-            if (v == None):
-                break
-
-            if (v == 0x72):
-                self.doLoop72('number')
-            elif (v > 0) and (v < self.dict.getSize()) :
-                tag = self.procToken(self.dict.lookup(v))
-                if len(tag) > 0 :
-                    self.doc.append(tag)
-            else:
-                if self.debug:
-                    print "Main Loop:  Unknown value: %x" % v
-                if (v == 0):
-                    if (self.peek(1) == 0x5f):
-                        skip = self.fo.read(1)
-                        first_token = 'info'
-
-        # now do snippet injection
-        if len(self.snippetList) > 0 :
-            if self.debug : print 'Injecting Snippets:'
-            snippet = self.injectSnippets(self.snippetList[0])
-            snipno = snippet[0]
-            tag_add = snippet[1]
-            if self.debug : print self.formatTag(tag_add)
-            if len(tag_add) > 0:
-                self.doc.append(tag_add)
-
-        # handle generation of xml output
-        xmlpage = self.formatDoc(self.flat_xml)
-
-        return xmlpage
-
-
-def fromData(dict, fname):
-    flat_xml = True
-    debug = False
-    pp = PageParser(fname, dict, debug, flat_xml)
-    xmlpage = pp.process()
-    return xmlpage
-
-def getXML(dict, fname):
-    flat_xml = False
-    debug = False
-    pp = PageParser(fname, dict, debug, flat_xml)
-    xmlpage = pp.process()
-    return xmlpage
-
-def usage():
-    print 'Usage: '
-    print '    convert2xml.py dict0000.dat infile.dat '
-    print ' '
-    print ' Options:'
-    print '   -h            print this usage help message '
-    print '   -d            turn on debug output to check for potential errors '
-    print '   --flat-xml    output the flattened xml page description only '
-    print ' '
-    print '     This program will attempt to convert a page*.dat file or '
-    print ' glyphs*.dat file, using the dict0000.dat file, to its xml description. '
-    print ' '
-    print ' Use "cmbtc_dump.py" first to unencrypt, uncompress, and dump '
-    print ' the *.dat files from a Topaz format e-book.'
-
-#
-# Main
-#
-
-def main(argv):
-    dictFile = ""
-    pageFile = ""
-    debug = False
-    flat_xml = False
-    printOutput = False
-    if len(argv) == 0:
-        printOutput = True
-        argv = sys.argv
-
-    try:
-        opts, args = getopt.getopt(argv[1:], "hd", ["flat-xml"])
-
-    except getopt.GetoptError, err:
-
-        # print help information and exit:
-        print str(err) # will print something like "option -a not recognized"
-        usage()
-        sys.exit(2)
-
-    if len(opts) == 0 and len(args) == 0 :
-        usage()
-        sys.exit(2)
-
-    for o, a in opts:
-        if o =="-d":
-            debug=True
-        if o =="-h":
-            usage()
-            sys.exit(0)
-        if o =="--flat-xml":
-            flat_xml = True
-
-    dictFile, pageFile = args[0], args[1]
-
-    # read in the string table dictionary
-    dict = Dictionary(dictFile)
-    # dict.dumpDict()
-
-    # create a page parser
-    pp = PageParser(pageFile, dict, debug, flat_xml)
-
-    xmlpage = pp.process()
-
-    if printOutput:
-        print xmlpage
-        return 0
-
-    return xmlpage
-
-if __name__ == '__main__':
-    sys.exit(main(''))
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/description.rtfd/TXT.rtf
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/description.rtfd/TXT.rtf
@@ -1,4 +0,0 @@
-{\rtf1\ansi\ansicpg1252\cocoartf1038\cocoasubrtf360
-{\fonttbl}
-{\colortbl;\red255\green255\blue255;}
-}
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/droplet.icns
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/droplet.icns
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/droplet.rsrc
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/droplet.rsrc
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/encodebase64.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/encodebase64.py
@@ -1,45 +0,0 @@
-#!/usr/bin/env python
-# -*- coding: utf-8 -*-
-
-# base64.py, version 1.0
-# Copyright © 2010 Apprentice Alf
-
-# Released under the terms of the GNU General Public Licence, version 3 or
-# later.  <http://www.gnu.org/licenses/>
-
-# Revision history:
-#   1 - Initial release. To allow Applescript to do base64 encoding
-
-"""
-Provide base64 encoding.
-"""
-
-from __future__ import with_statement
-
-__license__ = 'GPL v3'
-
-import sys
-import os
-import base64
-
-def usage(progname):
-    print "Applies base64 encoding to the supplied file, sending to standard output"
-    print "Usage:"
-    print "    %s <infile>" % progname
-
-def cli_main(argv=sys.argv):
-    progname = os.path.basename(argv[0])
-
-    if len(argv)<2:
-        usage(progname)
-        sys.exit(2)
-
-    keypath = argv[1]
-    with open(keypath, 'rb') as f:
-        keyder = f.read()
-        print keyder.encode('base64')
-    return 0
-
-
-if __name__ == '__main__':
-    sys.exit(cli_main())
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/flatxml2html.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/flatxml2html.py
@@ -1,793 +0,0 @@
-#! /usr/bin/python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-# For use with Topaz Scripts Version 2.6
-
-import sys
-import csv
-import os
-import math
-import getopt
-from struct import pack
-from struct import unpack
-
-
-class DocParser(object):
-    def __init__(self, flatxml, classlst, fileid, bookDir, gdict, fixedimage):
-        self.id = os.path.basename(fileid).replace('.dat','')
-        self.svgcount = 0
-        self.docList = flatxml.split('\n')
-        self.docSize = len(self.docList)
-        self.classList = {}
-        self.bookDir = bookDir
-        self.gdict = gdict
-        tmpList = classlst.split('\n')
-        for pclass in tmpList:
-            if pclass != '':
-                # remove the leading period from the css name
-                cname = pclass[1:]
-            self.classList[cname] = True
-        self.fixedimage = fixedimage
-        self.ocrtext = []
-        self.link_id = []
-        self.link_title = []
-        self.link_page = []
-        self.link_href = []
-        self.link_type = []
-        self.dehyphen_rootid = []
-        self.paracont_stemid = []
-        self.parastems_stemid = []
-
-
-    def getGlyph(self, gid):
-        result = ''
-        id='id="gl%d"' % gid
-        return self.gdict.lookup(id)
-
-    def glyphs_to_image(self, glyphList):
-
-        def extract(path, key):
-            b = path.find(key) + len(key)
-            e = path.find(' ',b)
-            return int(path[b:e])
-
-        svgDir = os.path.join(self.bookDir,'svg')
-
-        imgDir = os.path.join(self.bookDir,'img')
-        imgname = self.id + '_%04d.svg' % self.svgcount
-        imgfile = os.path.join(imgDir,imgname)
-
-        # get glyph information
-        gxList = self.getData('info.glyph.x',0,-1)
-        gyList = self.getData('info.glyph.y',0,-1)
-        gidList = self.getData('info.glyph.glyphID',0,-1)
-
-        gids = []
-        maxws = []
-        maxhs = []
-        xs = []
-        ys = []
-        gdefs = []
-
-        # get path defintions, positions, dimensions for each glyph
-        # that makes up the image, and find min x and min y to reposition origin
-        minx = -1
-        miny = -1
-        for j in glyphList:
-            gid = gidList[j]
-            gids.append(gid)
-
-            xs.append(gxList[j])
-            if minx == -1: minx = gxList[j]
-            else : minx = min(minx, gxList[j])
-
-            ys.append(gyList[j])
-            if miny == -1: miny = gyList[j]
-            else : miny = min(miny, gyList[j])
-
-            path = self.getGlyph(gid)
-            gdefs.append(path)
-
-            maxws.append(extract(path,'width='))
-            maxhs.append(extract(path,'height='))
-
-
-        # change the origin to minx, miny and calc max height and width
-        maxw = maxws[0] + xs[0] - minx
-        maxh = maxhs[0] + ys[0] - miny
-        for j in xrange(0, len(xs)):
-            xs[j] = xs[j] - minx
-            ys[j] = ys[j] - miny
-            maxw = max( maxw, (maxws[j] + xs[j]) )
-            maxh = max( maxh, (maxhs[j] + ys[j]) )
-
-        # open the image file for output
-        ifile = open(imgfile,'w')
-        ifile.write('<?xml version="1.0" standalone="no"?>\n')
-        ifile.write('<!DOCTYPE svg PUBLIC "-//W3C/DTD SVG 1.1//EN" "http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd">\n')
-        ifile.write('<svg width="%dpx" height="%dpx" viewBox="0 0 %d %d" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" version="1.1">\n' % (math.floor(maxw/10), math.floor(maxh/10), maxw, maxh))
-        ifile.write('<defs>\n')
-        for j in xrange(0,len(gdefs)):
-            ifile.write(gdefs[j])
-        ifile.write('</defs>\n')
-        for j in xrange(0,len(gids)):
-            ifile.write('<use xlink:href="#gl%d" x="%d" y="%d" />\n' % (gids[j], xs[j], ys[j]))
-        ifile.write('</svg>')
-        ifile.close()
-
-        return 0
-
-
-
-    # return tag at line pos in document
-    def lineinDoc(self, pos) :
-        if (pos >= 0) and (pos < self.docSize) :
-            item = self.docList[pos]
-            if item.find('=') >= 0:
-                (name, argres) = item.split('=',1)
-            else :
-                name = item
-                argres = ''
-        return name, argres
-
-
-    # find tag in doc if within pos to end inclusive
-    def findinDoc(self, tagpath, pos, end) :
-        result = None
-        if end == -1 :
-            end = self.docSize
-        else:
-            end = min(self.docSize, end)
-        foundat = -1
-        for j in xrange(pos, end):
-            item = self.docList[j]
-            if item.find('=') >= 0:
-                (name, argres) = item.split('=',1)
-            else :
-                name = item
-                argres = ''
-            if name.endswith(tagpath) :
-                result = argres
-                foundat = j
-                break
-        return foundat, result
-
-
-    # return list of start positions for the tagpath
-    def posinDoc(self, tagpath):
-        startpos = []
-        pos = 0
-        res = ""
-        while res != None :
-            (foundpos, res) = self.findinDoc(tagpath, pos, -1)
-            if res != None :
-                startpos.append(foundpos)
-            pos = foundpos + 1
-        return startpos
-
-
-    # returns a vector of integers for the tagpath
-    def getData(self, tagpath, pos, end):
-        argres=[]
-        (foundat, argt) = self.findinDoc(tagpath, pos, end)
-        if (argt != None) and (len(argt) > 0) :
-            argList = argt.split('|')
-            argres = [ int(strval) for strval in argList]
-        return argres
-
-
-    # get the class
-    def getClass(self, pclass):
-        nclass = pclass
-
-        # class names are an issue given topaz may start them with numerals (not allowed),
-        # use a mix of cases (which cause some browsers problems), and actually
-        # attach numbers after "_reclustered*" to the end to deal classeses that inherit
-        # from a base class (but then not actually provide all of these _reclustereed
-        # classes in the stylesheet!
-
-        # so we clean this up by lowercasing, prepend 'cl-', and getting any baseclass
-        # that exists in the stylesheet first, and then adding this specific class
-        # after
-
-        # also some class names have spaces in them so need to convert to dashes
-        if nclass != None :
-            nclass = nclass.replace(' ','-')
-            classres = ''
-            nclass = nclass.lower()
-            nclass = 'cl-' + nclass
-            baseclass = ''
-            # graphic is the base class for captions
-            if nclass.find('cl-cap-') >=0 :
-                classres = 'graphic' + ' '
-            else :
-                # strip to find baseclass
-                p = nclass.find('_')
-                if p > 0 :
-                    baseclass = nclass[0:p]
-                    if baseclass in self.classList:
-                        classres += baseclass + ' '
-            classres += nclass
-            nclass = classres
-        return nclass
-
-
-    # develop a sorted description of the starting positions of
-    # groups and regions on the page, as well as the page type
-    def PageDescription(self):
-
-        def compare(x, y):
-            (xtype, xval) = x
-            (ytype, yval) = y
-            if xval > yval:
-                return 1
-            if xval == yval:
-                return 0
-            return -1
-
-        result = []
-        (pos, pagetype) = self.findinDoc('page.type',0,-1)
-
-        groupList = self.posinDoc('page.group')
-        groupregionList = self.posinDoc('page.group.region')
-        pageregionList = self.posinDoc('page.region')
-        # integrate into one list
-        for j in groupList:
-            result.append(('grpbeg',j))
-        for j in groupregionList:
-            result.append(('gregion',j))
-        for j in pageregionList:
-            result.append(('pregion',j))
-        result.sort(compare)
-
-        # insert group end and page end indicators
-        inGroup = False
-        j = 0
-        while True:
-            if j == len(result): break
-            rtype = result[j][0]
-            rval = result[j][1]
-            if not inGroup and (rtype == 'grpbeg') :
-                inGroup = True
-                j = j + 1
-            elif inGroup and (rtype in ('grpbeg', 'pregion')):
-                result.insert(j,('grpend',rval))
-                inGroup = False
-            else:
-                j = j + 1
-        if inGroup:
-            result.append(('grpend',-1))
-        result.append(('pageend', -1))
-        return pagetype, result
-
-
-
-    # build a description of the paragraph
-    def getParaDescription(self, start, end, regtype):
-
-        result = []
-
-        # paragraph
-        (pos, pclass) = self.findinDoc('paragraph.class',start,end)
-
-        pclass = self.getClass(pclass)
-
-        # if paragraph uses extratokens (extra glyphs) then make it fixed
-        (pos, extraglyphs) = self.findinDoc('paragraph.extratokens',start,end)
-
-        # build up a description of the paragraph in result and return it
-        # first check for the  basic - all words paragraph
-        (pos, sfirst) = self.findinDoc('paragraph.firstWord',start,end)
-        (pos, slast) = self.findinDoc('paragraph.lastWord',start,end)
-        if (sfirst != None) and (slast != None) :
-            first = int(sfirst)
-            last = int(slast)
-
-            makeImage = (regtype == 'vertical') or (regtype == 'table')
-            makeImage = makeImage or (extraglyphs != None)
-            if self.fixedimage:
-                makeImage = makeImage or (regtype == 'fixed')
-
-            if (pclass != None):
-                makeImage = makeImage or (pclass.find('.inverted') >= 0)
-                if self.fixedimage :
-                    makeImage = makeImage or (pclass.find('cl-f-') >= 0)
-
-            # before creating an image make sure glyph info exists
-            gidList = self.getData('info.glyph.glyphID',0,-1)
-
-            makeImage = makeImage & (len(gidList) > 0)
-
-            if not makeImage :
-                # standard all word paragraph
-                for wordnum in xrange(first, last):
-                    result.append(('ocr', wordnum))
-                return pclass, result
-
-            # convert paragraph to svg image
-            # translate first and last word into first and last glyphs
-            # and generate inline image and include it
-            glyphList = []
-            firstglyphList = self.getData('word.firstGlyph',0,-1)
-            gidList = self.getData('info.glyph.glyphID',0,-1)
-            firstGlyph = firstglyphList[first]
-            if last < len(firstglyphList):
-                lastGlyph = firstglyphList[last]
-            else :
-                lastGlyph = len(gidList)
-
-            # handle case of white sapce paragraphs with no actual glyphs in them
-            # by reverting to text based paragraph
-            if firstGlyph >= lastGlyph:
-                # revert to standard text based paragraph
-                for wordnum in xrange(first, last):
-                    result.append(('ocr', wordnum))
-                return pclass, result
-
-            for glyphnum in xrange(firstGlyph, lastGlyph):
-                glyphList.append(glyphnum)
-            # include any extratokens if they exist
-            (pos, sfg) = self.findinDoc('extratokens.firstGlyph',start,end)
-            (pos, slg) = self.findinDoc('extratokens.lastGlyph',start,end)
-            if (sfg != None) and (slg != None):
-                for glyphnum in xrange(int(sfg), int(slg)):
-                    glyphList.append(glyphnum)
-            num = self.svgcount
-            self.glyphs_to_image(glyphList)
-            self.svgcount += 1
-            result.append(('svg', num))
-            return pclass, result
-
-        # this type of paragraph may be made up of multiple spans, inline
-        # word monograms (images), and words with semantic meaning,
-        # plus glyphs used to form starting letter of first word
-
-        # need to parse this type line by line
-        line = start + 1
-        word_class = ''
-
-        # if end is -1 then we must search to end of document
-        if end == -1 :
-            end = self.docSize
-
-        # seems some xml has last* coming before first* so we have to
-        # handle any order
-        sp_first = -1
-        sp_last = -1
-
-        gl_first = -1
-        gl_last = -1
-
-        ws_first = -1
-        ws_last = -1
-
-        word_class = ''
-
-        word_semantic_type = ''
-
-        while (line < end) :
-
-            (name, argres) = self.lineinDoc(line)
-
-            if name.endswith('span.firstWord') :
-                sp_first = int(argres)
-
-            elif name.endswith('span.lastWord') :
-                sp_last = int(argres)
-
-            elif name.endswith('word.firstGlyph') :
-                gl_first = int(argres)
-
-            elif name.endswith('word.lastGlyph') :
-                gl_last = int(argres)
-
-            elif name.endswith('word_semantic.firstWord'):
-                ws_first = int(argres)
-
-            elif name.endswith('word_semantic.lastWord'):
-                ws_last = int(argres)
-
-            elif name.endswith('word.class'):
-                (cname, space) = argres.split('-',1)
-                if space == '' : space = '0'
-                if (cname == 'spaceafter') and (int(space) > 0) :
-                    word_class = 'sa'
-
-            elif name.endswith('word.img.src'):
-                result.append(('img' + word_class, int(argres)))
-                word_class = ''
-
-            elif name.endswith('region.img.src'):
-                result.append(('img' + word_class, int(argres)))
-
-            if (sp_first != -1) and (sp_last != -1):
-                for wordnum in xrange(sp_first, sp_last):
-                    result.append(('ocr', wordnum))
-                sp_first = -1
-                sp_last = -1
-
-            if (gl_first != -1) and (gl_last != -1):
-                glyphList = []
-                for glyphnum in xrange(gl_first, gl_last):
-                    glyphList.append(glyphnum)
-                num = self.svgcount
-                self.glyphs_to_image(glyphList)
-                self.svgcount += 1
-                result.append(('svg', num))
-                gl_first = -1
-                gl_last = -1
-
-            if (ws_first != -1) and (ws_last != -1):
-                for wordnum in xrange(ws_first, ws_last):
-                    result.append(('ocr', wordnum))
-                ws_first = -1
-                ws_last = -1
-
-            line += 1
-
-        return pclass, result
-
-
-    def buildParagraph(self, pclass, pdesc, type, regtype) :
-        parares = ''
-        sep =''
-
-        classres = ''
-        if pclass :
-            classres = ' class="' + pclass + '"'
-
-        br_lb = (regtype == 'fixed') or (regtype == 'chapterheading') or (regtype == 'vertical')
-
-        handle_links = len(self.link_id) > 0
-
-        if (type == 'full') or (type == 'begin') :
-            parares += '<p' + classres + '>'
-
-        if (type == 'end'):
-            parares += ' '
-
-        lstart = len(parares)
-
-        cnt = len(pdesc)
-
-        for j in xrange( 0, cnt) :
-
-            (wtype, num) = pdesc[j]
-
-            if wtype == 'ocr' :
-                word = self.ocrtext[num]
-                sep = ' '
-
-                if handle_links:
-                    link = self.link_id[num]
-                    if (link > 0):
-                        linktype = self.link_type[link-1]
-                        title = self.link_title[link-1]
-                        if (title == "") or (parares.rfind(title) < 0):
-                            title=parares[lstart:]
-                        if linktype == 'external' :
-                            linkhref = self.link_href[link-1]
-                            linkhtml = '<a href="%s">' % linkhref
-                        else :
-                            if len(self.link_page) >= link :
-                                ptarget = self.link_page[link-1] - 1
-                                linkhtml = '<a href="#page%04d">' % ptarget
-                            else :
-                                # just link to the current page
-                                linkhtml = '<a href="#' + self.id + '">'
-                        linkhtml += title + '</a>'
-                        pos = parares.rfind(title)
-                        if pos >= 0:
-                            parares = parares[0:pos] + linkhtml + parares[pos+len(title):]
-                        else :
-                            parares += linkhtml
-                        lstart = len(parares)
-                        if word == '_link_' : word = ''
-                    elif (link < 0) :
-                        if word == '_link_' : word = ''
-
-                if word == '_lb_':
-                    if ((num-1) in self.dehyphen_rootid ) or handle_links:
-                        word = ''
-                        sep = ''
-                    elif br_lb :
-                        word = '<br />\n'
-                        sep = ''
-                    else :
-                        word = '\n'
-                        sep = ''
-
-                if num in self.dehyphen_rootid :
-                    word = word[0:-1]
-                    sep = ''
-
-                parares += word + sep
-
-            elif wtype == 'img' :
-                sep = ''
-                parares += '<img src="img/img%04d.jpg" alt="" />' % num
-                parares += sep
-
-            elif wtype == 'imgsa' :
-                sep = ' '
-                parares += '<img src="img/img%04d.jpg" alt="" />' % num
-                parares += sep
-
-            elif wtype == 'svg' :
-                sep = ''
-                parares += '<img src="img/' + self.id + '_%04d.svg" alt="" />' % num
-                parares += sep
-
-        if len(sep) > 0 : parares = parares[0:-1]
-        if (type == 'full') or (type == 'end') :
-            parares += '</p>'
-        return parares
-
-
-    def buildTOCEntry(self, pdesc) :
-        parares = ''
-        sep =''
-        tocentry = ''
-        handle_links = len(self.link_id) > 0
-
-        lstart = 0
-
-        cnt = len(pdesc)
-        for j in xrange( 0, cnt) :
-
-            (wtype, num) = pdesc[j]
-
-            if wtype == 'ocr' :
-                word = self.ocrtext[num]
-                sep = ' '
-
-                if handle_links:
-                    link = self.link_id[num]
-                    if (link > 0):
-                        linktype = self.link_type[link-1]
-                        title = self.link_title[link-1]
-                        title = title.rstrip('. ')
-                        alt_title = parares[lstart:]
-                        alt_title = alt_title.strip()
-                        # now strip off the actual printed page number
-                        alt_title = alt_title.rstrip('01234567890ivxldIVXLD-.')
-                        alt_title = alt_title.rstrip('. ')
-                        # skip over any external links - can't have them in a books toc
-                        if linktype == 'external' :
-                            title = ''
-                            alt_title = ''
-                            linkpage = ''
-                        else :
-                            if len(self.link_page) >= link :
-                                ptarget = self.link_page[link-1] - 1
-                                linkpage = '%04d' % ptarget
-                            else :
-                                # just link to the current page
-                                linkpage = self.id[4:]
-                        if len(alt_title) >= len(title):
-                            title = alt_title
-                        if title != '' and linkpage != '':
-                            tocentry += title + '|' + linkpage + '\n'
-                        lstart = len(parares)
-                        if word == '_link_' : word = ''
-                    elif (link < 0) :
-                        if word == '_link_' : word = ''
-
-                if word == '_lb_':
-                    word = ''
-                    sep = ''
-
-                if num in self.dehyphen_rootid :
-                    word = word[0:-1]
-                    sep = ''
-
-                parares += word + sep
-
-            else :
-                continue
-
-        return tocentry
-
-
-
-
-    # walk the document tree collecting the information needed
-    # to build an html page using the ocrText
-
-    def process(self):
-
-        tocinfo = ''
-        hlst = []
-
-        # get the ocr text
-        (pos, argres) = self.findinDoc('info.word.ocrText',0,-1)
-        if argres :  self.ocrtext = argres.split('|')
-
-        # get information to dehyphenate the text
-        self.dehyphen_rootid = self.getData('info.dehyphen.rootID',0,-1)
-
-        # determine if first paragraph is continued from previous page
-        (pos, self.parastems_stemid) = self.findinDoc('info.paraStems.stemID',0,-1)
-        first_para_continued = (self.parastems_stemid  != None)
-
-        # determine if last paragraph is continued onto the next page
-        (pos, self.paracont_stemid) = self.findinDoc('info.paraCont.stemID',0,-1)
-        last_para_continued = (self.paracont_stemid != None)
-
-        # collect link ids
-        self.link_id = self.getData('info.word.link_id',0,-1)
-
-        # collect link destination page numbers
-        self.link_page = self.getData('info.links.page',0,-1)
-
-        # collect link types (container versus external)
-        (pos, argres) = self.findinDoc('info.links.type',0,-1)
-        if argres :  self.link_type = argres.split('|')
-
-        # collect link destinations
-        (pos, argres) = self.findinDoc('info.links.href',0,-1)
-        if argres :  self.link_href = argres.split('|')
-
-        # collect link titles
-        (pos, argres) = self.findinDoc('info.links.title',0,-1)
-        if argres :
-            self.link_title = argres.split('|')
-        else:
-            self.link_title.append('')
-
-        # get a descriptions of the starting points of the regions
-        # and groups on the page
-        (pagetype, pageDesc) = self.PageDescription()
-        regcnt = len(pageDesc) - 1
-
-        anchorSet = False
-        breakSet = False
-        inGroup = False
-
-        # process each region on the page and convert what you can to html
-
-        for j in xrange(regcnt):
-
-            (etype, start) = pageDesc[j]
-            (ntype, end) = pageDesc[j+1]
-
-
-            # set anchor for link target on this page
-            if not anchorSet and not first_para_continued:
-                hlst.append('<div style="visibility: hidden; height: 0; width: 0;" id="')
-                hlst.append(self.id + '" title="pagetype_' + pagetype + '"></div>\n')
-                anchorSet = True
-
-            # handle groups of graphics with text captions
-            if (etype == 'grpbeg'):
-                (pos, grptype) = self.findinDoc('group.type', start, end)
-                if grptype != None:
-                    if grptype == 'graphic':
-                        gcstr = ' class="' + grptype + '"'
-                        hlst.append('<div' + gcstr + '>')
-                        inGroup = True
-
-            elif (etype == 'grpend'):
-                if inGroup:
-                    hlst.append('</div>\n')
-                    inGroup = False
-
-            else:
-                (pos, regtype) = self.findinDoc('region.type',start,end)
-
-                if regtype == 'graphic' :
-                    (pos, simgsrc) = self.findinDoc('img.src',start,end)
-                    if simgsrc:
-                        if inGroup:
-                            hlst.append('<img src="img/img%04d.jpg" alt="" />' % int(simgsrc))
-                        else:
-                            hlst.append('<div class="graphic"><img src="img/img%04d.jpg" alt="" /></div>' % int(simgsrc))
-
-                elif regtype == 'chapterheading' :
-                    (pclass, pdesc) = self.getParaDescription(start,end, regtype)
-                    if not breakSet:
-                        hlst.append('<div style="page-break-after: always;">&nbsp;</div>\n')
-                        breakSet = True
-                    tag = 'h1'
-                    if pclass and (len(pclass) >= 7):
-                        if pclass[3:7] == 'ch1-' : tag = 'h1'
-                        if pclass[3:7] == 'ch2-' : tag = 'h2'
-                        if pclass[3:7] == 'ch3-' : tag = 'h3'
-                        hlst.append('<' + tag + ' class="' + pclass + '">')
-                    else:
-                        hlst.append('<' + tag + '>')
-                    hlst.append(self.buildParagraph(pclass, pdesc, 'middle', regtype))
-                    hlst.append('</' + tag + '>')
-
-                elif (regtype == 'text') or (regtype == 'fixed') or (regtype == 'insert') or (regtype == 'listitem'):
-                    ptype = 'full'
-                    # check to see if this is a continution from the previous page
-                    if first_para_continued :
-                        ptype = 'end'
-                        first_para_continued = False
-                    (pclass, pdesc) = self.getParaDescription(start,end, regtype)
-                    if pclass and (len(pclass) >= 6) and (ptype == 'full'):
-                        tag = 'p'
-                        if pclass[3:6] == 'h1-' : tag = 'h4'
-                        if pclass[3:6] == 'h2-' : tag = 'h5'
-                        if pclass[3:6] == 'h3-' : tag = 'h6'
-                        hlst.append('<' + tag + ' class="' + pclass + '">')
-                        hlst.append(self.buildParagraph(pclass, pdesc, 'middle', regtype))
-                        hlst.append('</' + tag + '>')
-                    else :
-                        hlst.append(self.buildParagraph(pclass, pdesc, ptype, regtype))
-
-                elif (regtype == 'tocentry') :
-                    ptype = 'full'
-                    if first_para_continued :
-                        ptype = 'end'
-                        first_para_continued = False
-                    (pclass, pdesc) = self.getParaDescription(start,end, regtype)
-                    tocinfo += self.buildTOCEntry(pdesc)
-                    hlst.append(self.buildParagraph(pclass, pdesc, ptype, regtype))
-
-                elif (regtype == 'vertical') or (regtype == 'table') :
-                    ptype = 'full'
-                    if inGroup:
-                        ptype = 'middle'
-                    if first_para_continued :
-                        ptype = 'end'
-                        first_para_continued = False
-                    (pclass, pdesc) = self.getParaDescription(start, end, regtype)
-                    hlst.append(self.buildParagraph(pclass, pdesc, ptype, regtype))
-
-
-                elif (regtype == 'synth_fcvr.center'):
-                    (pos, simgsrc) = self.findinDoc('img.src',start,end)
-                    if simgsrc:
-                        hlst.append('<div class="graphic"><img src="img/img%04d.jpg" alt="" /></div>' % int(simgsrc))
-
-                else :
-                    print '          Making region type', regtype,
-                    (pos, temp) = self.findinDoc('paragraph',start,end)
-                    (pos2, temp) = self.findinDoc('span',start,end)
-                    if pos != -1 or pos2 != -1:
-                        print ' a "text" region'
-                        orig_regtype = regtype
-                        regtype = 'fixed'
-                        ptype = 'full'
-                        # check to see if this is a continution from the previous page
-                        if first_para_continued :
-                            ptype = 'end'
-                            first_para_continued = False
-                        (pclass, pdesc) = self.getParaDescription(start,end, regtype)
-                        if not pclass:
-                            if orig_regtype.endswith('.right')     : pclass = 'cl-right'
-                            elif orig_regtype.endswith('.center')  : pclass = 'cl-center'
-                            elif orig_regtype.endswith('.left')    : pclass = 'cl-left'
-                            elif orig_regtype.endswith('.justify') : pclass = 'cl-justify'
-                        if pclass and (ptype == 'full') and (len(pclass) >= 6):
-                            tag = 'p'
-                            if pclass[3:6] == 'h1-' : tag = 'h4'
-                            if pclass[3:6] == 'h2-' : tag = 'h5'
-                            if pclass[3:6] == 'h3-' : tag = 'h6'
-                            hlst.append('<' + tag + ' class="' + pclass + '">')
-                            hlst.append(self.buildParagraph(pclass, pdesc, 'middle', regtype))
-                            hlst.append('</' + tag + '>')
-                        else :
-                            hlst.append(self.buildParagraph(pclass, pdesc, ptype, regtype))
-                    else :
-                        print ' a "graphic" region'
-                        (pos, simgsrc) = self.findinDoc('img.src',start,end)
-                        if simgsrc:
-                            hlst.append('<div class="graphic"><img src="img/img%04d.jpg" alt="" /></div>' % int(simgsrc))
-
-
-        htmlpage = "".join(hlst)
-        if last_para_continued :
-            if htmlpage[-4:] == '</p>':
-                htmlpage = htmlpage[0:-4]
-            last_para_continued = False
-
-        return htmlpage, tocinfo
-
-
-def convert2HTML(flatxml, classlst, fileid, bookDir, gdict, fixedimage):
-    # create a document parser
-    dp = DocParser(flatxml, classlst, fileid, bookDir, gdict, fixedimage)
-    htmlpage, tocinfo = dp.process()
-    return htmlpage, tocinfo
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/flatxml2svg.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/flatxml2svg.py
@@ -1,249 +0,0 @@
-#! /usr/bin/python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-
-import sys
-import csv
-import os
-import getopt
-from struct import pack
-from struct import unpack
-
-
-class PParser(object):
-    def __init__(self, gd, flatxml, meta_array):
-        self.gd = gd
-        self.flatdoc = flatxml.split('\n')
-        self.docSize = len(self.flatdoc)
-        self.temp = []
-
-        self.ph = -1
-        self.pw = -1
-        startpos = self.posinDoc('page.h') or self.posinDoc('book.h')
-        for p in startpos:
-            (name, argres) = self.lineinDoc(p)
-            self.ph = max(self.ph, int(argres))
-        startpos = self.posinDoc('page.w') or self.posinDoc('book.w')
-        for p in startpos:
-            (name, argres) = self.lineinDoc(p)
-            self.pw = max(self.pw, int(argres))
-
-        if self.ph <= 0:
-            self.ph = int(meta_array.get('pageHeight', '11000'))
-        if self.pw <= 0:
-            self.pw = int(meta_array.get('pageWidth', '8500'))
-
-        res = []
-        startpos = self.posinDoc('info.glyph.x')
-        for p in startpos:
-            argres = self.getDataatPos('info.glyph.x', p)
-            res.extend(argres)
-        self.gx = res
-
-        res = []
-        startpos = self.posinDoc('info.glyph.y')
-        for p in startpos:
-            argres = self.getDataatPos('info.glyph.y', p)
-            res.extend(argres)
-        self.gy = res
-
-        res = []
-        startpos = self.posinDoc('info.glyph.glyphID')
-        for p in startpos:
-            argres = self.getDataatPos('info.glyph.glyphID', p)
-            res.extend(argres)
-        self.gid = res
-
-
-    # return tag at line pos in document
-    def lineinDoc(self, pos) :
-        if (pos >= 0) and (pos < self.docSize) :
-            item = self.flatdoc[pos]
-            if item.find('=') >= 0:
-                (name, argres) = item.split('=',1)
-            else :
-                name = item
-                argres = ''
-        return name, argres
-
-    # find tag in doc if within pos to end inclusive
-    def findinDoc(self, tagpath, pos, end) :
-        result = None
-        if end == -1 :
-            end = self.docSize
-        else:
-            end = min(self.docSize, end)
-        foundat = -1
-        for j in xrange(pos, end):
-            item = self.flatdoc[j]
-            if item.find('=') >= 0:
-                (name, argres) = item.split('=',1)
-            else :
-                name = item
-                argres = ''
-            if name.endswith(tagpath) :
-                result = argres
-                foundat = j
-                break
-        return foundat, result
-
-    # return list of start positions for the tagpath
-    def posinDoc(self, tagpath):
-        startpos = []
-        pos = 0
-        res = ""
-        while res != None :
-            (foundpos, res) = self.findinDoc(tagpath, pos, -1)
-            if res != None :
-                startpos.append(foundpos)
-            pos = foundpos + 1
-        return startpos
-
-    def getData(self, path):
-        result = None
-        cnt = len(self.flatdoc)
-        for j in xrange(cnt):
-            item = self.flatdoc[j]
-            if item.find('=') >= 0:
-                (name, argt) = item.split('=')
-                argres = argt.split('|')
-            else:
-                name = item
-                argres = []
-            if (name.endswith(path)):
-                result = argres
-                break
-        if (len(argres) > 0) :
-            for j in xrange(0,len(argres)):
-                argres[j] = int(argres[j])
-        return result
-
-    def getDataatPos(self, path, pos):
-        result = None
-        item = self.flatdoc[pos]
-        if item.find('=') >= 0:
-            (name, argt) = item.split('=')
-            argres = argt.split('|')
-        else:
-            name = item
-            argres = []
-        if (len(argres) > 0) :
-            for j in xrange(0,len(argres)):
-                argres[j] = int(argres[j])
-        if (name.endswith(path)):
-            result = argres
-        return result
-
-    def getDataTemp(self, path):
-        result = None
-        cnt = len(self.temp)
-        for j in xrange(cnt):
-            item = self.temp[j]
-            if item.find('=') >= 0:
-                (name, argt) = item.split('=')
-                argres = argt.split('|')
-            else:
-                name = item
-                argres = []
-            if (name.endswith(path)):
-                result = argres
-                self.temp.pop(j)
-                break
-        if (len(argres) > 0) :
-            for j in xrange(0,len(argres)):
-                argres[j] = int(argres[j])
-        return result
-
-    def getImages(self):
-        result = []
-        self.temp = self.flatdoc
-        while (self.getDataTemp('img') != None):
-            h = self.getDataTemp('img.h')[0]
-            w = self.getDataTemp('img.w')[0]
-            x = self.getDataTemp('img.x')[0]
-            y = self.getDataTemp('img.y')[0]
-            src = self.getDataTemp('img.src')[0]
-            result.append('<image xlink:href="../img/img%04d.jpg" x="%d" y="%d" width="%d" height="%d" />\n' % (src, x, y, w, h))
-        return result
-
-    def getGlyphs(self):
-        result = []
-        if (self.gid != None) and (len(self.gid) > 0):
-            glyphs = []
-            for j in set(self.gid):
-                glyphs.append(j)
-            glyphs.sort()
-            for gid in glyphs:
-                id='id="gl%d"' % gid
-                path = self.gd.lookup(id)
-                if path:
-                    result.append(id + ' ' + path)
-        return result
-
-
-def convert2SVG(gdict, flat_xml, pageid, previd, nextid, svgDir, raw, meta_array, scaledpi):
-    mlst = []
-    pp = PParser(gdict, flat_xml, meta_array)
-    mlst.append('<?xml version="1.0" standalone="no"?>\n')
-    if (raw):
-        mlst.append('<!DOCTYPE svg PUBLIC "-//W3C/DTD SVG 1.1//EN" "http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd">\n')
-        mlst.append('<svg width="%fin" height="%fin" viewBox="0 0 %d %d" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" version="1.1">\n' % (pp.pw / scaledpi, pp.ph / scaledpi, pp.pw -1, pp.ph -1))
-        mlst.append('<title>Page %d - %s by %s</title>\n' % (pageid, meta_array['Title'],meta_array['Authors']))
-    else:
-        mlst.append('<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.1//EN" "http://www.w3.org/TR/xhtml11/DTD/xhtml11.dtd">\n')
-        mlst.append('<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en" ><head>\n')
-        mlst.append('<title>Page %d - %s by %s</title>\n' % (pageid, meta_array['Title'],meta_array['Authors']))
-        mlst.append('<script><![CDATA[\n')
-        mlst.append('function gd(){var p=window.location.href.replace(/^.*\?dpi=(\d+).*$/i,"$1");return p;}\n')
-        mlst.append('var dpi=%d;\n' % scaledpi)
-        if (previd) :
-            mlst.append('var prevpage="page%04d.xhtml";\n' % (previd))
-        if (nextid) :
-            mlst.append('var nextpage="page%04d.xhtml";\n' % (nextid))
-        mlst.append('var pw=%d;var ph=%d;' % (pp.pw, pp.ph))
-        mlst.append('function zoomin(){dpi=dpi*(0.8);setsize();}\n')
-        mlst.append('function zoomout(){dpi=dpi*1.25;setsize();}\n')
-        mlst.append('function setsize(){var svg=document.getElementById("svgimg");var prev=document.getElementById("prevsvg");var next=document.getElementById("nextsvg");var width=(pw/dpi)+"in";var height=(ph/dpi)+"in";svg.setAttribute("width",width);svg.setAttribute("height",height);prev.setAttribute("height",height);prev.setAttribute("width","50px");next.setAttribute("height",height);next.setAttribute("width","50px");}\n')
-        mlst.append('function ppage(){window.location.href=prevpage+"?dpi="+Math.round(dpi);}\n')
-        mlst.append('function npage(){window.location.href=nextpage+"?dpi="+Math.round(dpi);}\n')
-        mlst.append('var gt=gd();if(gt>0){dpi=gt;}\n')
-        mlst.append('window.onload=setsize;\n')
-        mlst.append(']]></script>\n')
-        mlst.append('</head>\n')
-        mlst.append('<body onLoad="setsize();" style="background-color:#777;text-align:center;">\n')
-        mlst.append('<div style="white-space:nowrap;">\n')
-        if previd == None:
-            mlst.append('<a href="javascript:ppage();"><svg id="prevsvg" viewBox="0 0 100 300" xmlns="http://www.w3.org/2000/svg" version="1.1" style="background-color:#777"></svg></a>\n')
-        else:
-            mlst.append('<a href="javascript:ppage();"><svg id="prevsvg" viewBox="0 0 100 300" xmlns="http://www.w3.org/2000/svg" version="1.1" style="background-color:#777"><polygon points="5,150,95,5,95,295" fill="#AAAAAA" /></svg></a>\n')
-
-        mlst.append('<a href="javascript:npage();"><svg id="svgimg" viewBox="0 0 %d %d" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" version="1.1" style="background-color:#FFF;border:1px solid black;">' % (pp.pw, pp.ph))
-    if (pp.gid != None):
-        mlst.append('<defs>\n')
-        gdefs = pp.getGlyphs()
-        for j in xrange(0,len(gdefs)):
-            mlst.append(gdefs[j])
-        mlst.append('</defs>\n')
-    img = pp.getImages()
-    if (img != None):
-        for j in xrange(0,len(img)):
-            mlst.append(img[j])
-    if (pp.gid != None):
-        for j in xrange(0,len(pp.gid)):
-            mlst.append('<use xlink:href="#gl%d" x="%d" y="%d" />\n' % (pp.gid[j], pp.gx[j], pp.gy[j]))
-    if (img == None or len(img) == 0) and (pp.gid == None or len(pp.gid) == 0):
-        xpos = "%d" % (pp.pw // 3)
-        ypos = "%d" % (pp.ph // 3)
-        mlst.append('<text x="' + xpos + '" y="' + ypos + '" font-size="' + meta_array['fontSize'] + '" font-family="Helvetica" stroke="black">This page intentionally left blank.</text>\n')
-    if (raw) :
-        mlst.append('</svg>')
-    else :
-        mlst.append('</svg></a>\n')
-        if nextid == None:
-            mlst.append('<a href="javascript:npage();"><svg id="nextsvg" viewBox="0 0 100 300" xmlns="http://www.w3.org/2000/svg" version="1.1" style="background-color:#777"></svg></a>\n')
-        else :
-            mlst.append('<a href="javascript:npage();"><svg id="nextsvg" viewBox="0 0 100 300" xmlns="http://www.w3.org/2000/svg" version="1.1" style="background-color:#777"><polygon points="5,5,5,295,95,150" fill="#AAAAAA" /></svg></a>\n')
-        mlst.append('</div>\n')
-        mlst.append('<div><a href="javascript:zoomin();">zoom in</a> - <a href="javascript:zoomout();">zoom out</a></div>\n')
-        mlst.append('</body>\n')
-        mlst.append('</html>\n')
-    return "".join(mlst)
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/genbook.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/genbook.py
@@ -1,721 +0,0 @@
-#! /usr/bin/python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-
-class Unbuffered:
-    def __init__(self, stream):
-        self.stream = stream
-    def write(self, data):
-        self.stream.write(data)
-        self.stream.flush()
-    def __getattr__(self, attr):
-        return getattr(self.stream, attr)
-
-import sys
-sys.stdout=Unbuffered(sys.stdout)
-
-import csv
-import os
-import getopt
-from struct import pack
-from struct import unpack
-
-class TpzDRMError(Exception):
-    pass
-
-# local support routines
-if 'calibre' in sys.modules:
-    inCalibre = True
-else:
-    inCalibre = False
-
-if inCalibre :
-    from calibre_plugins.k4mobidedrm import convert2xml
-    from calibre_plugins.k4mobidedrm import flatxml2html
-    from calibre_plugins.k4mobidedrm import flatxml2svg
-    from calibre_plugins.k4mobidedrm import stylexml2css
-else :
-    import convert2xml
-    import flatxml2html
-    import flatxml2svg
-    import stylexml2css
-
-# global switch
-buildXML = False
-
-# Get a 7 bit encoded number from a file
-def readEncodedNumber(file):
-    flag = False
-    c = file.read(1)
-    if (len(c) == 0):
-        return None
-    data = ord(c)
-    if data == 0xFF:
-        flag = True
-        c = file.read(1)
-        if (len(c) == 0):
-            return None
-        data = ord(c)
-    if data >= 0x80:
-        datax = (data & 0x7F)
-        while data >= 0x80 :
-            c = file.read(1)
-            if (len(c) == 0):
-                return None
-            data = ord(c)
-            datax = (datax <<7) + (data & 0x7F)
-        data = datax
-    if flag:
-        data = -data
-    return data
-
-# Get a length prefixed string from the file
-def lengthPrefixString(data):
-    return encodeNumber(len(data))+data
-
-def readString(file):
-    stringLength = readEncodedNumber(file)
-    if (stringLength == None):
-        return None
-    sv = file.read(stringLength)
-    if (len(sv)  != stringLength):
-        return ""
-    return unpack(str(stringLength)+"s",sv)[0]
-
-def getMetaArray(metaFile):
-    # parse the meta file
-    result = {}
-    fo = file(metaFile,'rb')
-    size = readEncodedNumber(fo)
-    for i in xrange(size):
-        tag = readString(fo)
-        value = readString(fo)
-        result[tag] = value
-        # print tag, value
-    fo.close()
-    return result
-
-
-# dictionary of all text strings by index value
-class Dictionary(object):
-    def __init__(self, dictFile):
-        self.filename = dictFile
-        self.size = 0
-        self.fo = file(dictFile,'rb')
-        self.stable = []
-        self.size = readEncodedNumber(self.fo)
-        for i in xrange(self.size):
-            self.stable.append(self.escapestr(readString(self.fo)))
-        self.pos = 0
-    def escapestr(self, str):
-        str = str.replace('&','&amp;')
-        str = str.replace('<','&lt;')
-        str = str.replace('>','&gt;')
-        str = str.replace('=','&#61;')
-        return str
-    def lookup(self,val):
-        if ((val >= 0) and (val < self.size)) :
-            self.pos = val
-            return self.stable[self.pos]
-        else:
-            print "Error - %d outside of string table limits" % val
-            raise TpzDRMError('outside or string table limits')
-            # sys.exit(-1)
-    def getSize(self):
-        return self.size
-    def getPos(self):
-        return self.pos
-
-
-class PageDimParser(object):
-    def __init__(self, flatxml):
-        self.flatdoc = flatxml.split('\n')
-    # find tag if within pos to end inclusive
-    def findinDoc(self, tagpath, pos, end) :
-        result = None
-        docList = self.flatdoc
-        cnt = len(docList)
-        if end == -1 :
-            end = cnt
-        else:
-            end = min(cnt,end)
-        foundat = -1
-        for j in xrange(pos, end):
-            item = docList[j]
-            if item.find('=') >= 0:
-                (name, argres) = item.split('=')
-            else :
-                name = item
-                argres = ''
-            if name.endswith(tagpath) :
-                result = argres
-                foundat = j
-                break
-        return foundat, result
-    def process(self):
-        (pos, sph) = self.findinDoc('page.h',0,-1)
-        (pos, spw) = self.findinDoc('page.w',0,-1)
-        if (sph == None): sph = '-1'
-        if (spw == None): spw = '-1'
-        return sph, spw
-
-def getPageDim(flatxml):
-    # create a document parser
-    dp = PageDimParser(flatxml)
-    (ph, pw) = dp.process()
-    return ph, pw
-
-class GParser(object):
-    def __init__(self, flatxml):
-        self.flatdoc = flatxml.split('\n')
-        self.dpi = 1440
-        self.gh = self.getData('info.glyph.h')
-        self.gw = self.getData('info.glyph.w')
-        self.guse = self.getData('info.glyph.use')
-        if self.guse :
-            self.count = len(self.guse)
-        else :
-            self.count = 0
-        self.gvtx = self.getData('info.glyph.vtx')
-        self.glen = self.getData('info.glyph.len')
-        self.gdpi = self.getData('info.glyph.dpi')
-        self.vx = self.getData('info.vtx.x')
-        self.vy = self.getData('info.vtx.y')
-        self.vlen = self.getData('info.len.n')
-        if self.vlen :
-            self.glen.append(len(self.vlen))
-        elif self.glen:
-            self.glen.append(0)
-        if self.vx :
-            self.gvtx.append(len(self.vx))
-        elif self.gvtx :
-            self.gvtx.append(0)
-    def getData(self, path):
-        result = None
-        cnt = len(self.flatdoc)
-        for j in xrange(cnt):
-            item = self.flatdoc[j]
-            if item.find('=') >= 0:
-                (name, argt) = item.split('=')
-                argres = argt.split('|')
-            else:
-                name = item
-                argres = []
-            if (name == path):
-                result = argres
-                break
-        if (len(argres) > 0) :
-            for j in xrange(0,len(argres)):
-                argres[j] = int(argres[j])
-        return result
-    def getGlyphDim(self, gly):
-        if self.gdpi[gly] == 0:
-            return 0, 0
-        maxh = (self.gh[gly] * self.dpi) / self.gdpi[gly]
-        maxw = (self.gw[gly] * self.dpi) / self.gdpi[gly]
-        return maxh, maxw
-    def getPath(self, gly):
-        path = ''
-        if (gly < 0) or (gly >= self.count):
-            return path
-        tx = self.vx[self.gvtx[gly]:self.gvtx[gly+1]]
-        ty = self.vy[self.gvtx[gly]:self.gvtx[gly+1]]
-        p = 0
-        for k in xrange(self.glen[gly], self.glen[gly+1]):
-            if (p == 0):
-                zx = tx[0:self.vlen[k]+1]
-                zy = ty[0:self.vlen[k]+1]
-            else:
-                zx = tx[self.vlen[k-1]+1:self.vlen[k]+1]
-                zy = ty[self.vlen[k-1]+1:self.vlen[k]+1]
-            p += 1
-            j = 0
-            while ( j  < len(zx) ):
-                if (j == 0):
-                    # Start Position.
-                    path += 'M %d %d ' % (zx[j] * self.dpi / self.gdpi[gly], zy[j] * self.dpi / self.gdpi[gly])
-                elif (j <= len(zx)-3):
-                    # Cubic Bezier Curve
-                    path += 'C %d %d %d %d %d %d ' % (zx[j] * self.dpi / self.gdpi[gly], zy[j] * self.dpi / self.gdpi[gly], zx[j+1] * self.dpi / self.gdpi[gly], zy[j+1] * self.dpi / self.gdpi[gly], zx[j+2] * self.dpi / self.gdpi[gly], zy[j+2] * self.dpi / self.gdpi[gly])
-                    j += 2
-                elif (j == len(zx)-2):
-                    # Cubic Bezier Curve to Start Position
-                    path += 'C %d %d %d %d %d %d ' % (zx[j] * self.dpi / self.gdpi[gly], zy[j] * self.dpi / self.gdpi[gly], zx[j+1] * self.dpi / self.gdpi[gly], zy[j+1] * self.dpi / self.gdpi[gly], zx[0] * self.dpi / self.gdpi[gly], zy[0] * self.dpi / self.gdpi[gly])
-                    j += 1
-                elif (j == len(zx)-1):
-                    # Quadratic Bezier Curve to Start Position
-                    path += 'Q %d %d %d %d ' % (zx[j] * self.dpi / self.gdpi[gly], zy[j] * self.dpi / self.gdpi[gly], zx[0] * self.dpi / self.gdpi[gly], zy[0] * self.dpi / self.gdpi[gly])
-
-                j += 1
-        path += 'z'
-        return path
-
-
-
-# dictionary of all text strings by index value
-class GlyphDict(object):
-    def __init__(self):
-        self.gdict = {}
-    def lookup(self, id):
-        # id='id="gl%d"' % val
-        if id in self.gdict:
-            return self.gdict[id]
-        return None
-    def addGlyph(self, val, path):
-        id='id="gl%d"' % val
-        self.gdict[id] = path
-
-
-def generateBook(bookDir, raw, fixedimage):
-    # sanity check Topaz file extraction
-    if not os.path.exists(bookDir) :
-        print "Can not find directory with unencrypted book"
-        return 1
-
-    dictFile = os.path.join(bookDir,'dict0000.dat')
-    if not os.path.exists(dictFile) :
-        print "Can not find dict0000.dat file"
-        return 1
-
-    pageDir = os.path.join(bookDir,'page')
-    if not os.path.exists(pageDir) :
-        print "Can not find page directory in unencrypted book"
-        return 1
-
-    imgDir = os.path.join(bookDir,'img')
-    if not os.path.exists(imgDir) :
-        print "Can not find image directory in unencrypted book"
-        return 1
-
-    glyphsDir = os.path.join(bookDir,'glyphs')
-    if not os.path.exists(glyphsDir) :
-        print "Can not find glyphs directory in unencrypted book"
-        return 1
-
-    metaFile = os.path.join(bookDir,'metadata0000.dat')
-    if not os.path.exists(metaFile) :
-        print "Can not find metadata0000.dat in unencrypted book"
-        return 1
-
-    svgDir = os.path.join(bookDir,'svg')
-    if not os.path.exists(svgDir) :
-        os.makedirs(svgDir)
-
-    if buildXML:
-        xmlDir = os.path.join(bookDir,'xml')
-        if not os.path.exists(xmlDir) :
-            os.makedirs(xmlDir)
-
-    otherFile = os.path.join(bookDir,'other0000.dat')
-    if not os.path.exists(otherFile) :
-        print "Can not find other0000.dat in unencrypted book"
-        return 1
-
-    print "Updating to color images if available"
-    spath = os.path.join(bookDir,'color_img')
-    dpath = os.path.join(bookDir,'img')
-    filenames = os.listdir(spath)
-    filenames = sorted(filenames)
-    for filename in filenames:
-        imgname = filename.replace('color','img')
-        sfile = os.path.join(spath,filename)
-        dfile = os.path.join(dpath,imgname)
-        imgdata = file(sfile,'rb').read()
-        file(dfile,'wb').write(imgdata)
-
-    print "Creating cover.jpg"
-    isCover = False
-    cpath = os.path.join(bookDir,'img')
-    cpath = os.path.join(cpath,'img0000.jpg')
-    if os.path.isfile(cpath):
-        cover = file(cpath, 'rb').read()
-        cpath = os.path.join(bookDir,'cover.jpg')
-        file(cpath, 'wb').write(cover)
-        isCover = True
-
-
-    print 'Processing Dictionary'
-    dict = Dictionary(dictFile)
-
-    print 'Processing Meta Data and creating OPF'
-    meta_array = getMetaArray(metaFile)
-
-    # replace special chars in title and authors like & < >
-    title = meta_array.get('Title','No Title Provided')
-    title = title.replace('&','&amp;')
-    title = title.replace('<','&lt;')
-    title = title.replace('>','&gt;')
-    meta_array['Title'] = title
-    authors = meta_array.get('Authors','No Authors Provided')
-    authors = authors.replace('&','&amp;')
-    authors = authors.replace('<','&lt;')
-    authors = authors.replace('>','&gt;')
-    meta_array['Authors'] = authors
-
-    if buildXML:
-        xname = os.path.join(xmlDir, 'metadata.xml')
-        mlst = []
-        for key in meta_array:
-            mlst.append('<meta name="' + key + '" content="' + meta_array[key] + '" />\n')
-        metastr = "".join(mlst)
-        mlst = None
-        file(xname, 'wb').write(metastr)
-
-    print 'Processing StyleSheet'
-
-    # get some scaling info from metadata to use while processing styles
-    # and first page info
-
-    fontsize = '135'
-    if 'fontSize' in meta_array:
-        fontsize = meta_array['fontSize']
-
-    # also get the size of a normal text page
-    # get the total number of pages unpacked as a safety check
-    filenames = os.listdir(pageDir)
-    numfiles = len(filenames)
-
-    spage = '1'
-    if 'firstTextPage' in meta_array:
-        spage = meta_array['firstTextPage']
-    pnum = int(spage)
-    if pnum >= numfiles or pnum < 0:
-        # metadata is wrong so just select a page near the front
-        # 10% of the book to get a normal text page
-        pnum = int(0.10 * numfiles)
-    # print "first normal text page is", spage
-
-    # get page height and width from first text page for use in stylesheet scaling
-    pname = 'page%04d.dat' % (pnum + 1)
-    fname = os.path.join(pageDir,pname)
-    flat_xml = convert2xml.fromData(dict, fname)
-
-    (ph, pw) = getPageDim(flat_xml)
-    if (ph == '-1') or (ph == '0') : ph = '11000'
-    if (pw == '-1') or (pw == '0') : pw = '8500'
-    meta_array['pageHeight'] = ph
-    meta_array['pageWidth'] = pw
-    if 'fontSize' not in meta_array.keys():
-        meta_array['fontSize'] = fontsize
-
-    # process other.dat for css info and for map of page files to svg images
-    # this map is needed because some pages actually are made up of multiple
-    # pageXXXX.xml files
-    xname = os.path.join(bookDir, 'style.css')
-    flat_xml = convert2xml.fromData(dict, otherFile)
-
-    # extract info.original.pid to get original page information
-    pageIDMap = {}
-    pageidnums = stylexml2css.getpageIDMap(flat_xml)
-    if len(pageidnums) == 0:
-        filenames = os.listdir(pageDir)
-        numfiles = len(filenames)
-        for k in range(numfiles):
-            pageidnums.append(k)
-    # create a map from page ids to list of page file nums to process for that page
-    for i in range(len(pageidnums)):
-        id = pageidnums[i]
-        if id in pageIDMap.keys():
-            pageIDMap[id].append(i)
-        else:
-            pageIDMap[id] = [i]
-
-    # now get the css info
-    cssstr , classlst = stylexml2css.convert2CSS(flat_xml, fontsize, ph, pw)
-    file(xname, 'wb').write(cssstr)
-    if buildXML:
-        xname = os.path.join(xmlDir, 'other0000.xml')
-        file(xname, 'wb').write(convert2xml.getXML(dict, otherFile))
-
-    print 'Processing Glyphs'
-    gd = GlyphDict()
-    filenames = os.listdir(glyphsDir)
-    filenames = sorted(filenames)
-    glyfname = os.path.join(svgDir,'glyphs.svg')
-    glyfile = open(glyfname, 'w')
-    glyfile.write('<?xml version="1.0" standalone="no"?>\n')
-    glyfile.write('<!DOCTYPE svg PUBLIC "-//W3C/DTD SVG 1.1//EN" "http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd">\n')
-    glyfile.write('<svg width="512" height="512" viewBox="0 0 511 511" xmlns="http://www.w3.org/2000/svg" version="1.1">\n')
-    glyfile.write('<title>Glyphs for %s</title>\n' % meta_array['Title'])
-    glyfile.write('<defs>\n')
-    counter = 0
-    for filename in filenames:
-        # print '     ', filename
-        print '.',
-        fname = os.path.join(glyphsDir,filename)
-        flat_xml = convert2xml.fromData(dict, fname)
-
-        if buildXML:
-            xname = os.path.join(xmlDir, filename.replace('.dat','.xml'))
-            file(xname, 'wb').write(convert2xml.getXML(dict, fname))
-
-        gp = GParser(flat_xml)
-        for i in xrange(0, gp.count):
-            path = gp.getPath(i)
-            maxh, maxw = gp.getGlyphDim(i)
-            fullpath = '<path id="gl%d" d="%s" fill="black" /><!-- width=%d height=%d -->\n' % (counter * 256 + i, path, maxw, maxh)
-            glyfile.write(fullpath)
-            gd.addGlyph(counter * 256 + i, fullpath)
-        counter += 1
-    glyfile.write('</defs>\n')
-    glyfile.write('</svg>\n')
-    glyfile.close()
-    print " "
-
-
-    # start up the html
-    # also build up tocentries while processing html
-    htmlFileName = "book.html"
-    hlst = []
-    hlst.append('<?xml version="1.0" encoding="utf-8"?>\n')
-    hlst.append('<!DOCTYPE HTML PUBLIC "-//W3C//DTD XHTML 1.1 Strict//EN" "http://www.w3.org/TR/xhtml11/DTD/xhtml11-strict.dtd">\n')
-    hlst.append('<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en">\n')
-    hlst.append('<head>\n')
-    hlst.append('<meta http-equiv="content-type" content="text/html; charset=utf-8"/>\n')
-    hlst.append('<title>' + meta_array['Title'] + ' by ' + meta_array['Authors'] + '</title>\n')
-    hlst.append('<meta name="Author" content="' + meta_array['Authors'] + '" />\n')
-    hlst.append('<meta name="Title" content="' + meta_array['Title'] + '" />\n')
-    if 'ASIN' in meta_array:
-        hlst.append('<meta name="ASIN" content="' + meta_array['ASIN'] + '" />\n')
-    if 'GUID' in meta_array:
-        hlst.append('<meta name="GUID" content="' + meta_array['GUID'] + '" />\n')
-    hlst.append('<link href="style.css" rel="stylesheet" type="text/css" />\n')
-    hlst.append('</head>\n<body>\n')
-
-    print 'Processing Pages'
-    # Books are at 1440 DPI.  This is rendering at twice that size for
-    # readability when rendering to the screen.
-    scaledpi = 1440.0
-
-    filenames = os.listdir(pageDir)
-    filenames = sorted(filenames)
-    numfiles = len(filenames)
-
-    xmllst = []
-    elst = []
-
-    for filename in filenames:
-        # print '     ', filename
-        print ".",
-        fname = os.path.join(pageDir,filename)
-        flat_xml = convert2xml.fromData(dict, fname)
-
-        # keep flat_xml for later svg processing
-        xmllst.append(flat_xml)
-
-        if buildXML:
-            xname = os.path.join(xmlDir, filename.replace('.dat','.xml'))
-            file(xname, 'wb').write(convert2xml.getXML(dict, fname))
-
-        # first get the html
-        pagehtml, tocinfo = flatxml2html.convert2HTML(flat_xml, classlst, fname, bookDir, gd, fixedimage)
-        elst.append(tocinfo)
-        hlst.append(pagehtml)
-
-    # finish up the html string and output it
-    hlst.append('</body>\n</html>\n')
-    htmlstr = "".join(hlst)
-    hlst = None
-    file(os.path.join(bookDir, htmlFileName), 'wb').write(htmlstr)
-
-    print " "
-    print 'Extracting Table of Contents from Amazon OCR'
-
-    # first create a table of contents file for the svg images
-    tlst = []
-    tlst.append('<?xml version="1.0" encoding="utf-8"?>\n')
-    tlst.append('<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.1//EN" "http://www.w3.org/TR/xhtml11/DTD/xhtml11.dtd">\n')
-    tlst.append('<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en" >')
-    tlst.append('<head>\n')
-    tlst.append('<title>' + meta_array['Title'] + '</title>\n')
-    tlst.append('<meta name="Author" content="' + meta_array['Authors'] + '" />\n')
-    tlst.append('<meta name="Title" content="' + meta_array['Title'] + '" />\n')
-    if 'ASIN' in meta_array:
-        tlst.append('<meta name="ASIN" content="' + meta_array['ASIN'] + '" />\n')
-    if 'GUID' in meta_array:
-        tlst.append('<meta name="GUID" content="' + meta_array['GUID'] + '" />\n')
-    tlst.append('</head>\n')
-    tlst.append('<body>\n')
-
-    tlst.append('<h2>Table of Contents</h2>\n')
-    start = pageidnums[0]
-    if (raw):
-        startname = 'page%04d.svg' % start
-    else:
-        startname = 'page%04d.xhtml' % start
-
-    tlst.append('<h3><a href="' + startname + '">Start of Book</a></h3>\n')
-    # build up a table of contents for the svg xhtml output
-    tocentries = "".join(elst)
-    elst = None
-    toclst = tocentries.split('\n')
-    toclst.pop()
-    for entry in toclst:
-        print entry
-        title, pagenum = entry.split('|')
-        id = pageidnums[int(pagenum)]
-        if (raw):
-            fname = 'page%04d.svg' % id
-        else:
-            fname = 'page%04d.xhtml' % id
-        tlst.append('<h3><a href="'+ fname + '">' + title + '</a></h3>\n')
-    tlst.append('</body>\n')
-    tlst.append('</html>\n')
-    tochtml = "".join(tlst)
-    file(os.path.join(svgDir, 'toc.xhtml'), 'wb').write(tochtml)
-
-
-    # now create index_svg.xhtml that points to all required files
-    slst = []
-    slst.append('<?xml version="1.0" encoding="utf-8"?>\n')
-    slst.append('<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.1//EN" "http://www.w3.org/TR/xhtml11/DTD/xhtml11.dtd">\n')
-    slst.append('<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en" >')
-    slst.append('<head>\n')
-    slst.append('<title>' + meta_array['Title'] + '</title>\n')
-    slst.append('<meta name="Author" content="' + meta_array['Authors'] + '" />\n')
-    slst.append('<meta name="Title" content="' + meta_array['Title'] + '" />\n')
-    if 'ASIN' in meta_array:
-        slst.append('<meta name="ASIN" content="' + meta_array['ASIN'] + '" />\n')
-    if 'GUID' in meta_array:
-        slst.append('<meta name="GUID" content="' + meta_array['GUID'] + '" />\n')
-    slst.append('</head>\n')
-    slst.append('<body>\n')
-
-    print "Building svg images of each book page"
-    slst.append('<h2>List of Pages</h2>\n')
-    slst.append('<div>\n')
-    idlst = sorted(pageIDMap.keys())
-    numids = len(idlst)
-    cnt = len(idlst)
-    previd = None
-    for j in range(cnt):
-        pageid = idlst[j]
-        if j < cnt - 1:
-            nextid = idlst[j+1]
-        else:
-            nextid = None
-        print '.',
-        pagelst = pageIDMap[pageid]
-        flst = []
-        for page in pagelst:
-            flst.append(xmllst[page])
-        flat_svg = "".join(flst)
-        flst=None
-        svgxml = flatxml2svg.convert2SVG(gd, flat_svg, pageid, previd, nextid, svgDir, raw, meta_array, scaledpi)
-        if (raw) :
-            pfile = open(os.path.join(svgDir,'page%04d.svg' % pageid),'w')
-            slst.append('<a href="svg/page%04d.svg">Page %d</a>\n' % (pageid, pageid))
-        else :
-            pfile = open(os.path.join(svgDir,'page%04d.xhtml' % pageid), 'w')
-            slst.append('<a href="svg/page%04d.xhtml">Page %d</a>\n' % (pageid, pageid))
-        previd = pageid
-        pfile.write(svgxml)
-        pfile.close()
-        counter += 1
-    slst.append('</div>\n')
-    slst.append('<h2><a href="svg/toc.xhtml">Table of Contents</a></h2>\n')
-    slst.append('</body>\n</html>\n')
-    svgindex = "".join(slst)
-    slst = None
-    file(os.path.join(bookDir, 'index_svg.xhtml'), 'wb').write(svgindex)
-
-    print " "
-
-    # build the opf file
-    opfname = os.path.join(bookDir, 'book.opf')
-    olst = []
-    olst.append('<?xml version="1.0" encoding="utf-8"?>\n')
-    olst.append('<package xmlns="http://www.idpf.org/2007/opf" unique-identifier="guid_id">\n')
-    # adding metadata
-    olst.append('   <metadata xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:opf="http://www.idpf.org/2007/opf">\n')
-    if 'GUID' in meta_array:
-        olst.append('      <dc:identifier opf:scheme="GUID" id="guid_id">' + meta_array['GUID'] + '</dc:identifier>\n')
-    if 'ASIN' in meta_array:
-        olst.append('      <dc:identifier opf:scheme="ASIN">' + meta_array['ASIN'] + '</dc:identifier>\n')
-    if 'oASIN' in meta_array:
-        olst.append('      <dc:identifier opf:scheme="oASIN">' + meta_array['oASIN'] + '</dc:identifier>\n')
-    olst.append('      <dc:title>' + meta_array['Title'] + '</dc:title>\n')
-    olst.append('      <dc:creator opf:role="aut">' + meta_array['Authors'] + '</dc:creator>\n')
-    olst.append('      <dc:language>en</dc:language>\n')
-    olst.append('      <dc:date>' + meta_array['UpdateTime'] + '</dc:date>\n')
-    if isCover:
-        olst.append('      <meta name="cover" content="bookcover"/>\n')
-    olst.append('   </metadata>\n')
-    olst.append('<manifest>\n')
-    olst.append('   <item id="book" href="book.html" media-type="application/xhtml+xml"/>\n')
-    olst.append('   <item id="stylesheet" href="style.css" media-type="text/css"/>\n')
-    # adding image files to manifest
-    filenames = os.listdir(imgDir)
-    filenames = sorted(filenames)
-    for filename in filenames:
-        imgname, imgext = os.path.splitext(filename)
-        if imgext == '.jpg':
-            imgext = 'jpeg'
-        if imgext == '.svg':
-            imgext = 'svg+xml'
-        olst.append('   <item id="' + imgname + '" href="img/' + filename + '" media-type="image/' + imgext + '"/>\n')
-    if isCover:
-        olst.append('   <item id="bookcover" href="cover.jpg" media-type="image/jpeg" />\n')
-    olst.append('</manifest>\n')
-    # adding spine
-    olst.append('<spine>\n   <itemref idref="book" />\n</spine>\n')
-    if isCover:
-        olst.append('   <guide>\n')
-        olst.append('      <reference href="cover.jpg" type="cover" title="Cover"/>\n')
-        olst.append('   </guide>\n')
-    olst.append('</package>\n')
-    opfstr = "".join(olst)
-    olst = None
-    file(opfname, 'wb').write(opfstr)
-
-    print 'Processing Complete'
-
-    return 0
-
-def usage():
-    print "genbook.py generates a book from the extract Topaz Files"
-    print "Usage:"
-    print "    genbook.py [-r] [-h [--fixed-image] <bookDir>  "
-    print "  "
-    print "Options:"
-    print "  -h            :  help - print this usage message"
-    print "  -r            :  generate raw svg files (not wrapped in xhtml)"
-    print "  --fixed-image :  genearate any Fixed Area as an svg image in the html"
-    print "  "
-
-
-def main(argv):
-    bookDir = ''
-    if len(argv) == 0:
-        argv = sys.argv
-
-    try:
-        opts, args = getopt.getopt(argv[1:], "rh:",["fixed-image"])
-
-    except getopt.GetoptError, err:
-        print str(err)
-        usage()
-        return 1
-
-    if len(opts) == 0 and len(args) == 0 :
-        usage()
-        return 1
-
-    raw = 0
-    fixedimage = True
-    for o, a in opts:
-        if o =="-h":
-            usage()
-            return 0
-        if o =="-r":
-            raw = 1
-        if o =="--fixed-image":
-            fixedimage = True
-
-    bookDir = args[0]
-
-    rv = generateBook(bookDir, raw, fixedimage)
-    return rv
-
-
-if __name__ == '__main__':
-    sys.exit(main(''))
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/getk4pcpids.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/getk4pcpids.py
@@ -1,77 +0,0 @@
-#!/usr/bin/python
-#
-# This is a python script. You need a Python interpreter to run it.
-# For example, ActiveState Python, which exists for windows.
-#
-# Changelog
-#  1.00 - Initial version
-
-__version__ = '1.00'
-
-import sys
-
-class Unbuffered:
-    def __init__(self, stream):
-        self.stream = stream
-    def write(self, data):
-        self.stream.write(data)
-        self.stream.flush()
-    def __getattr__(self, attr):
-        return getattr(self.stream, attr)
-sys.stdout=Unbuffered(sys.stdout)
-
-import os
-import struct
-import binascii
-import kgenpids
-import topazextract
-import mobidedrm
-from alfcrypto import Pukall_Cipher
-
-class DrmException(Exception):
-    pass
-
-def getK4PCpids(path_to_ebook):
-    # Return Kindle4PC PIDs. Assumes that the caller checked that we are not on Linux, which will raise an exception
-
-    mobi = True
-    magic3 = file(path_to_ebook,'rb').read(3)
-    if magic3 == 'TPZ':
-        mobi = False
-
-    if mobi:
-        mb = mobidedrm.MobiBook(path_to_ebook,False)
-    else:
-        mb = topazextract.TopazBook(path_to_ebook)
-    
-    md1, md2 = mb.getPIDMetaInfo()
-
-    return kgenpids.getPidList(md1, md2, True, [], [], []) 
-
-
-def main(argv=sys.argv):
-    print ('getk4pcpids.py v%(__version__)s. '
-        'Copyright 2012 Apprentic Alf' % globals())
-
-    if len(argv)<2 or len(argv)>3:
-        print "Gets the possible book-specific PIDs from K4PC for a particular book"
-        print "Usage:"
-        print "    %s <bookfile> [<outfile>]" % sys.argv[0]
-        return 1
-    else:
-        infile = argv[1]
-        try:
-            pidlist = getK4PCpids(infile)
-        except DrmException, e:
-            print "Error: %s" % e
-            return 1
-        pidstring = ','.join(pidlist)
-        print "Possible PIDs are: ", pidstring
-        if len(argv) is 3:
-            outfile = argv[2]
-            file(outfile, 'w').write(pidstring)
-        
-    return 0
-
-if __name__ == "__main__":
-    sys.exit(main())
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/ignobleepub.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/ignobleepub.py
@@ -1,336 +0,0 @@
-#! /usr/bin/python
-
-from __future__ import with_statement
-
-# ignobleepub.pyw, version 3.4
-
-# To run this program install Python 2.6 from <http://www.python.org/download/>
-# and OpenSSL or PyCrypto from http://www.voidspace.org.uk/python/modules.shtml#pycrypto
-# (make sure to install the version for Python 2.6).  Save this script file as
-# ignobleepub.pyw and double-click on it to run it.
-
-# Revision history:
-#   1 - Initial release
-#   2 - Added OS X support by using OpenSSL when available
-#   3 - screen out improper key lengths to prevent segfaults on Linux
-#   3.1 - Allow Windows versions of libcrypto to be found
-#   3.2 - add support for encoding to 'utf-8' when building up list of files to cecrypt from encryption.xml
-#   3.3 - On Windows try PyCrypto first and OpenSSL next
-#   3.4 - Modify interace to allow use with import
-
-
-__license__ = 'GPL v3'
-
-import sys
-import os
-import zlib
-import zipfile
-from zipfile import ZipFile, ZIP_STORED, ZIP_DEFLATED
-from contextlib import closing
-import xml.etree.ElementTree as etree
-import Tkinter
-import Tkconstants
-import tkFileDialog
-import tkMessageBox
-
-class IGNOBLEError(Exception):
-    pass
-
-def _load_crypto_libcrypto():
-    from ctypes import CDLL, POINTER, c_void_p, c_char_p, c_int, c_long, \
-        Structure, c_ulong, create_string_buffer, cast
-    from ctypes.util import find_library
-
-    if sys.platform.startswith('win'):
-        libcrypto = find_library('libeay32')
-    else:
-        libcrypto = find_library('crypto')
-    if libcrypto is None:
-        raise IGNOBLEError('libcrypto not found')
-    libcrypto = CDLL(libcrypto)
-
-    AES_MAXNR = 14
-
-    c_char_pp = POINTER(c_char_p)
-    c_int_p = POINTER(c_int)
-
-    class AES_KEY(Structure):
-        _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))),
-                    ('rounds', c_int)]
-    AES_KEY_p = POINTER(AES_KEY)
-
-    def F(restype, name, argtypes):
-        func = getattr(libcrypto, name)
-        func.restype = restype
-        func.argtypes = argtypes
-        return func
-
-    AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',
-                        [c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p,
-                         c_int])
-    AES_set_decrypt_key = F(c_int, 'AES_set_decrypt_key',
-                            [c_char_p, c_int, AES_KEY_p])
-    AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',
-                        [c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p,
-                         c_int])
-
-    class AES(object):
-        def __init__(self, userkey):
-            self._blocksize = len(userkey)
-            if (self._blocksize != 16) and (self._blocksize != 24) and (self._blocksize != 32) :
-                raise IGNOBLEError('AES improper key used')
-                return
-            key = self._key = AES_KEY()
-            rv = AES_set_decrypt_key(userkey, len(userkey) * 8, key)
-            if rv < 0:
-                raise IGNOBLEError('Failed to initialize AES key')
-
-        def decrypt(self, data):
-            out = create_string_buffer(len(data))
-            iv = ("\x00" * self._blocksize)
-            rv = AES_cbc_encrypt(data, out, len(data), self._key, iv, 0)
-            if rv == 0:
-                raise IGNOBLEError('AES decryption failed')
-            return out.raw
-
-    return AES
-
-def _load_crypto_pycrypto():
-    from Crypto.Cipher import AES as _AES
-
-    class AES(object):
-        def __init__(self, key):
-            self._aes = _AES.new(key, _AES.MODE_CBC)
-
-        def decrypt(self, data):
-            return self._aes.decrypt(data)
-
-    return AES
-
-def _load_crypto():
-    AES = None
-    cryptolist = (_load_crypto_libcrypto, _load_crypto_pycrypto)
-    if sys.platform.startswith('win'):
-        cryptolist = (_load_crypto_pycrypto, _load_crypto_libcrypto)
-    for loader in cryptolist:
-        try:
-            AES = loader()
-            break
-        except (ImportError, IGNOBLEError):
-            pass
-    return AES
-
-AES = _load_crypto()
-
-
-
-"""
-Decrypt Barnes & Noble ADEPT encrypted EPUB books.
-"""
-
-
-META_NAMES = ('mimetype', 'META-INF/rights.xml', 'META-INF/encryption.xml')
-NSMAP = {'adept': 'http://ns.adobe.com/adept',
-         'enc': 'http://www.w3.org/2001/04/xmlenc#'}
-
-class ZipInfo(zipfile.ZipInfo):
-    def __init__(self, *args, **kwargs):
-        if 'compress_type' in kwargs:
-            compress_type = kwargs.pop('compress_type')
-        super(ZipInfo, self).__init__(*args, **kwargs)
-        self.compress_type = compress_type
-
-class Decryptor(object):
-    def __init__(self, bookkey, encryption):
-        enc = lambda tag: '{%s}%s' % (NSMAP['enc'], tag)
-        # self._aes = AES.new(bookkey, AES.MODE_CBC)
-        self._aes = AES(bookkey)
-        encryption = etree.fromstring(encryption)
-        self._encrypted = encrypted = set()
-        expr = './%s/%s/%s' % (enc('EncryptedData'), enc('CipherData'),
-                               enc('CipherReference'))
-        for elem in encryption.findall(expr):
-            path = elem.get('URI', None)
-            path = path.encode('utf-8')
-            if path is not None:
-                encrypted.add(path)
-
-    def decompress(self, bytes):
-        dc = zlib.decompressobj(-15)
-        bytes = dc.decompress(bytes)
-        ex = dc.decompress('Z') + dc.flush()
-        if ex:
-            bytes = bytes + ex
-        return bytes
-
-    def decrypt(self, path, data):
-        if path in self._encrypted:
-            data = self._aes.decrypt(data)[16:]
-            data = data[:-ord(data[-1])]
-            data = self.decompress(data)
-        return data
-
-
-class DecryptionDialog(Tkinter.Frame):
-    def __init__(self, root):
-        Tkinter.Frame.__init__(self, root, border=5)
-        self.status = Tkinter.Label(self, text='Select files for decryption')
-        self.status.pack(fill=Tkconstants.X, expand=1)
-        body = Tkinter.Frame(self)
-        body.pack(fill=Tkconstants.X, expand=1)
-        sticky = Tkconstants.E + Tkconstants.W
-        body.grid_columnconfigure(1, weight=2)
-        Tkinter.Label(body, text='Key file').grid(row=0)
-        self.keypath = Tkinter.Entry(body, width=30)
-        self.keypath.grid(row=0, column=1, sticky=sticky)
-        if os.path.exists('bnepubkey.b64'):
-            self.keypath.insert(0, 'bnepubkey.b64')
-        button = Tkinter.Button(body, text="...", command=self.get_keypath)
-        button.grid(row=0, column=2)
-        Tkinter.Label(body, text='Input file').grid(row=1)
-        self.inpath = Tkinter.Entry(body, width=30)
-        self.inpath.grid(row=1, column=1, sticky=sticky)
-        button = Tkinter.Button(body, text="...", command=self.get_inpath)
-        button.grid(row=1, column=2)
-        Tkinter.Label(body, text='Output file').grid(row=2)
-        self.outpath = Tkinter.Entry(body, width=30)
-        self.outpath.grid(row=2, column=1, sticky=sticky)
-        button = Tkinter.Button(body, text="...", command=self.get_outpath)
-        button.grid(row=2, column=2)
-        buttons = Tkinter.Frame(self)
-        buttons.pack()
-        botton = Tkinter.Button(
-            buttons, text="Decrypt", width=10, command=self.decrypt)
-        botton.pack(side=Tkconstants.LEFT)
-        Tkinter.Frame(buttons, width=10).pack(side=Tkconstants.LEFT)
-        button = Tkinter.Button(
-            buttons, text="Quit", width=10, command=self.quit)
-        button.pack(side=Tkconstants.RIGHT)
-
-    def get_keypath(self):
-        keypath = tkFileDialog.askopenfilename(
-            parent=None, title='Select B&N EPUB key file',
-            defaultextension='.b64',
-            filetypes=[('base64-encoded files', '.b64'),
-                       ('All Files', '.*')])
-        if keypath:
-            keypath = os.path.normpath(keypath)
-            self.keypath.delete(0, Tkconstants.END)
-            self.keypath.insert(0, keypath)
-        return
-
-    def get_inpath(self):
-        inpath = tkFileDialog.askopenfilename(
-            parent=None, title='Select B&N-encrypted EPUB file to decrypt',
-            defaultextension='.epub', filetypes=[('EPUB files', '.epub'),
-                                                 ('All files', '.*')])
-        if inpath:
-            inpath = os.path.normpath(inpath)
-            self.inpath.delete(0, Tkconstants.END)
-            self.inpath.insert(0, inpath)
-        return
-
-    def get_outpath(self):
-        outpath = tkFileDialog.asksaveasfilename(
-            parent=None, title='Select unencrypted EPUB file to produce',
-            defaultextension='.epub', filetypes=[('EPUB files', '.epub'),
-                                                 ('All files', '.*')])
-        if outpath:
-            outpath = os.path.normpath(outpath)
-            self.outpath.delete(0, Tkconstants.END)
-            self.outpath.insert(0, outpath)
-        return
-
-    def decrypt(self):
-        keypath = self.keypath.get()
-        inpath = self.inpath.get()
-        outpath = self.outpath.get()
-        if not keypath or not os.path.exists(keypath):
-            self.status['text'] = 'Specified key file does not exist'
-            return
-        if not inpath or not os.path.exists(inpath):
-            self.status['text'] = 'Specified input file does not exist'
-            return
-        if not outpath:
-            self.status['text'] = 'Output file not specified'
-            return
-        if inpath == outpath:
-            self.status['text'] = 'Must have different input and output files'
-            return
-        argv = [sys.argv[0], keypath, inpath, outpath]
-        self.status['text'] = 'Decrypting...'
-        try:
-            cli_main(argv)
-        except Exception, e:
-            self.status['text'] = 'Error: ' + str(e)
-            return
-        self.status['text'] = 'File successfully decrypted'
-
-
-def decryptBook(keypath, inpath, outpath):
-    with open(keypath, 'rb') as f:
-        keyb64 = f.read()
-    key = keyb64.decode('base64')[:16]
-    # aes = AES.new(key, AES.MODE_CBC)
-    aes = AES(key)
-
-    with closing(ZipFile(open(inpath, 'rb'))) as inf:
-        namelist = set(inf.namelist())
-        if 'META-INF/rights.xml' not in namelist or \
-           'META-INF/encryption.xml' not in namelist:
-            raise IGNOBLEError('%s: not an B&N ADEPT EPUB' % (inpath,))
-        for name in META_NAMES:
-            namelist.remove(name)
-        rights = etree.fromstring(inf.read('META-INF/rights.xml'))
-        adept = lambda tag: '{%s}%s' % (NSMAP['adept'], tag)
-        expr = './/%s' % (adept('encryptedKey'),)
-        bookkey = ''.join(rights.findtext(expr))
-        bookkey = aes.decrypt(bookkey.decode('base64'))
-        bookkey = bookkey[:-ord(bookkey[-1])]
-        encryption = inf.read('META-INF/encryption.xml')
-        decryptor = Decryptor(bookkey[-16:], encryption)
-        kwds = dict(compression=ZIP_DEFLATED, allowZip64=False)
-        with closing(ZipFile(open(outpath, 'wb'), 'w', **kwds)) as outf:
-            zi = ZipInfo('mimetype', compress_type=ZIP_STORED)
-            outf.writestr(zi, inf.read('mimetype'))
-            for path in namelist:
-                data = inf.read(path)
-                outf.writestr(path, decryptor.decrypt(path, data))
-    return 0
-
-
-def cli_main(argv=sys.argv):
-    progname = os.path.basename(argv[0])
-    if AES is None:
-        print "%s: This script requires OpenSSL or PyCrypto, which must be installed " \
-              "separately.  Read the top-of-script comment for details." % \
-              (progname,)
-        return 1
-    if len(argv) != 4:
-        print "usage: %s KEYFILE INBOOK OUTBOOK" % (progname,)
-        return 1
-    keypath, inpath, outpath = argv[1:]
-    return decryptBook(keypath, inpath, outpath)
-
-
-def gui_main():
-    root = Tkinter.Tk()
-    if AES is None:
-        root.withdraw()
-        tkMessageBox.showerror(
-            "Ignoble EPUB Decrypter",
-            "This script requires OpenSSL or PyCrypto, which must be installed "
-            "separately.  Read the top-of-script comment for details.")
-        return 1
-    root.title('Ignoble EPUB Decrypter')
-    root.resizable(True, False)
-    root.minsize(300, 0)
-    DecryptionDialog(root).pack(fill=Tkconstants.X, expand=1)
-    root.mainloop()
-    return 0
-
-
-if __name__ == '__main__':
-    if len(sys.argv) > 1:
-        sys.exit(cli_main())
-    sys.exit(gui_main())
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/ignoblekeygen.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/ignoblekeygen.py
@@ -1,239 +0,0 @@
-#! /usr/bin/python
-
-from __future__ import with_statement
-
-# ignoblekeygen.pyw, version 2.3
-
-# To run this program install Python 2.6 from <http://www.python.org/download/>
-# and OpenSSL or PyCrypto from http://www.voidspace.org.uk/python/modules.shtml#pycrypto
-# (make sure to install the version for Python 2.6).  Save this script file as
-# ignoblekeygen.pyw and double-click on it to run it.
-
-# Revision history:
-#   1 - Initial release
-#   2 - Add OS X support by using OpenSSL when available (taken/modified from ineptepub v5)
-#   2.1 - Allow Windows versions of libcrypto to be found
-#   2.2 - On Windows try PyCrypto first and then OpenSSL next
-#   2.3 - Modify interface to allow use of import
-
-"""
-Generate Barnes & Noble EPUB user key from name and credit card number.
-"""
-
-__license__ = 'GPL v3'
-
-import sys
-import os
-import hashlib
-import Tkinter
-import Tkconstants
-import tkFileDialog
-import tkMessageBox
-
-
-
-# use openssl's libcrypt if it exists in place of pycrypto
-# code extracted from the Adobe Adept DRM removal code also by I HeartCabbages
-class IGNOBLEError(Exception):
-    pass
-
-
-def _load_crypto_libcrypto():
-    from ctypes import CDLL, POINTER, c_void_p, c_char_p, c_int, c_long, \
-        Structure, c_ulong, create_string_buffer, cast
-    from ctypes.util import find_library
-
-    if sys.platform.startswith('win'):
-        libcrypto = find_library('libeay32')
-    else:
-        libcrypto = find_library('crypto')
-    if libcrypto is None:
-        print 'libcrypto not found'
-        raise IGNOBLEError('libcrypto not found')
-    libcrypto = CDLL(libcrypto)
-
-    AES_MAXNR = 14
-
-    c_char_pp = POINTER(c_char_p)
-    c_int_p = POINTER(c_int)
-
-    class AES_KEY(Structure):
-        _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))),
-                    ('rounds', c_int)]
-    AES_KEY_p = POINTER(AES_KEY)
-
-    def F(restype, name, argtypes):
-        func = getattr(libcrypto, name)
-        func.restype = restype
-        func.argtypes = argtypes
-        return func
-
-    AES_set_encrypt_key = F(c_int, 'AES_set_encrypt_key',
-                            [c_char_p, c_int, AES_KEY_p])
-    AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',
-                        [c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p,
-                         c_int])
-    class AES(object):
-        def __init__(self, userkey, iv):
-            self._blocksize = len(userkey)
-            self._iv = iv
-            key = self._key = AES_KEY()
-            rv = AES_set_encrypt_key(userkey, len(userkey) * 8, key)
-            if rv < 0:
-                raise IGNOBLEError('Failed to initialize AES Encrypt key')
-
-        def encrypt(self, data):
-            out = create_string_buffer(len(data))
-            rv = AES_cbc_encrypt(data, out, len(data), self._key, self._iv, 1)
-            if rv == 0:
-                raise IGNOBLEError('AES encryption failed')
-            return out.raw
-
-    return AES
-
-
-def _load_crypto_pycrypto():
-    from Crypto.Cipher import AES as _AES
-
-    class AES(object):
-        def __init__(self, key, iv):
-            self._aes = _AES.new(key, _AES.MODE_CBC, iv)
-
-        def encrypt(self, data):
-            return self._aes.encrypt(data)
-
-    return AES
-
-def _load_crypto():
-    AES = None
-    cryptolist = (_load_crypto_libcrypto, _load_crypto_pycrypto)
-    if sys.platform.startswith('win'):
-        cryptolist = (_load_crypto_pycrypto, _load_crypto_libcrypto)
-    for loader in cryptolist:
-        try:
-            AES = loader()
-            break
-        except (ImportError, IGNOBLEError):
-            pass
-    return AES
-
-AES = _load_crypto()
-
-def normalize_name(name):
-    return ''.join(x for x in name.lower() if x != ' ')
-
-
-def generate_keyfile(name, ccn, outpath):
-    name = normalize_name(name) + '\x00'
-    ccn = ccn + '\x00'
-    name_sha = hashlib.sha1(name).digest()[:16]
-    ccn_sha = hashlib.sha1(ccn).digest()[:16]
-    both_sha = hashlib.sha1(name + ccn).digest()
-    aes = AES(ccn_sha, name_sha)
-    crypt = aes.encrypt(both_sha + ('\x0c' * 0x0c))
-    userkey = hashlib.sha1(crypt).digest()
-    with open(outpath, 'wb') as f:
-        f.write(userkey.encode('base64'))
-    return userkey
-
-
-class DecryptionDialog(Tkinter.Frame):
-    def __init__(self, root):
-        Tkinter.Frame.__init__(self, root, border=5)
-        self.status = Tkinter.Label(self, text='Enter parameters')
-        self.status.pack(fill=Tkconstants.X, expand=1)
-        body = Tkinter.Frame(self)
-        body.pack(fill=Tkconstants.X, expand=1)
-        sticky = Tkconstants.E + Tkconstants.W
-        body.grid_columnconfigure(1, weight=2)
-        Tkinter.Label(body, text='Name').grid(row=1)
-        self.name = Tkinter.Entry(body, width=30)
-        self.name.grid(row=1, column=1, sticky=sticky)
-        Tkinter.Label(body, text='CC#').grid(row=2)
-        self.ccn = Tkinter.Entry(body, width=30)
-        self.ccn.grid(row=2, column=1, sticky=sticky)
-        Tkinter.Label(body, text='Output file').grid(row=0)
-        self.keypath = Tkinter.Entry(body, width=30)
-        self.keypath.grid(row=0, column=1, sticky=sticky)
-        self.keypath.insert(0, 'bnepubkey.b64')
-        button = Tkinter.Button(body, text="...", command=self.get_keypath)
-        button.grid(row=0, column=2)
-        buttons = Tkinter.Frame(self)
-        buttons.pack()
-        botton = Tkinter.Button(
-            buttons, text="Generate", width=10, command=self.generate)
-        botton.pack(side=Tkconstants.LEFT)
-        Tkinter.Frame(buttons, width=10).pack(side=Tkconstants.LEFT)
-        button = Tkinter.Button(
-            buttons, text="Quit", width=10, command=self.quit)
-        button.pack(side=Tkconstants.RIGHT)
-
-    def get_keypath(self):
-        keypath = tkFileDialog.asksaveasfilename(
-            parent=None, title='Select B&N EPUB key file to produce',
-            defaultextension='.b64',
-            filetypes=[('base64-encoded files', '.b64'),
-                       ('All Files', '.*')])
-        if keypath:
-            keypath = os.path.normpath(keypath)
-            self.keypath.delete(0, Tkconstants.END)
-            self.keypath.insert(0, keypath)
-        return
-
-    def generate(self):
-        name = self.name.get()
-        ccn = self.ccn.get()
-        keypath = self.keypath.get()
-        if not name:
-            self.status['text'] = 'Name not specified'
-            return
-        if not ccn:
-            self.status['text'] = 'Credit card number not specified'
-            return
-        if not keypath:
-            self.status['text'] = 'Output keyfile path not specified'
-            return
-        self.status['text'] = 'Generating...'
-        try:
-            generate_keyfile(name, ccn, keypath)
-        except Exception, e:
-            self.status['text'] = 'Error: ' + str(e)
-            return
-        self.status['text'] = 'Keyfile successfully generated'
-
-
-def cli_main(argv=sys.argv):
-    progname = os.path.basename(argv[0])
-    if AES is None:
-        print "%s: This script requires OpenSSL or PyCrypto, which must be installed " \
-              "separately.  Read the top-of-script comment for details." % \
-              (progname,)
-        return 1
-    if len(argv) != 4:
-        print "usage: %s NAME CC# OUTFILE" % (progname,)
-        return 1
-    name, ccn, outpath = argv[1:]
-    generate_keyfile(name, ccn, outpath)
-    return 0
-
-
-def gui_main():
-    root = Tkinter.Tk()
-    if AES is None:
-        root.withdraw()
-        tkMessageBox.showerror(
-            "Ignoble EPUB Keyfile Generator",
-            "This script requires OpenSSL or PyCrypto, which must be installed "
-            "separately.  Read the top-of-script comment for details.")
-        return 1
-    root.title('Ignoble EPUB Keyfile Generator')
-    root.resizable(True, False)
-    root.minsize(300, 0)
-    DecryptionDialog(root).pack(fill=Tkconstants.X, expand=1)
-    root.mainloop()
-    return 0
-
-if __name__ == '__main__':
-    if len(sys.argv) > 1:
-        sys.exit(cli_main())
-    sys.exit(gui_main())
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/ineptepub.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/ineptepub.py
@@ -1,476 +0,0 @@
-#! /usr/bin/python
-# -*- coding: utf-8 -*-
-
-from __future__ import with_statement
-
-# ineptepub.pyw, version 5.6
-# Copyright © 2009-2010 i♥cabbages
-
-# Released under the terms of the GNU General Public Licence, version 3 or
-# later.  <http://www.gnu.org/licenses/>
-
-# Windows users: Before running this program, you must first install Python 2.6
-#   from <http://www.python.org/download/> and PyCrypto from
-#   <http://www.voidspace.org.uk/python/modules.shtml#pycrypto> (make sure to
-#   install the version for Python 2.6).  Save this script file as
-#   ineptepub.pyw and double-click on it to run it.
-#
-# Mac OS X users: Save this script file as ineptepub.pyw.  You can run this
-#   program from the command line (pythonw ineptepub.pyw) or by double-clicking
-#   it when it has been associated with PythonLauncher.
-
-# Revision history:
-#   1 - Initial release
-#   2 - Rename to INEPT, fix exit code
-#   5 - Version bump to avoid (?) confusion;
-#       Improve OS X support by using OpenSSL when available
-#   5.1 - Improve OpenSSL error checking
-#   5.2 - Fix ctypes error causing segfaults on some systems
-#   5.3 - add support for OpenSSL on Windows, fix bug with some versions of libcrypto 0.9.8 prior to path level o
-#   5.4 - add support for encoding to 'utf-8' when building up list of files to decrypt from encryption.xml
-#   5.5 - On Windows try PyCrypto first, OpenSSL next
-#   5.6 - Modify interface to allow use with import
-"""
-Decrypt Adobe ADEPT-encrypted EPUB books.
-"""
-
-__license__ = 'GPL v3'
-
-import sys
-import os
-import zlib
-import zipfile
-from zipfile import ZipFile, ZIP_STORED, ZIP_DEFLATED
-from contextlib import closing
-import xml.etree.ElementTree as etree
-import Tkinter
-import Tkconstants
-import tkFileDialog
-import tkMessageBox
-
-class ADEPTError(Exception):
-    pass
-
-def _load_crypto_libcrypto():
-    from ctypes import CDLL, POINTER, c_void_p, c_char_p, c_int, c_long, \
-        Structure, c_ulong, create_string_buffer, cast
-    from ctypes.util import find_library
-
-    if sys.platform.startswith('win'):
-        libcrypto = find_library('libeay32')
-    else:
-        libcrypto = find_library('crypto')
-
-    if libcrypto is None:
-        raise ADEPTError('libcrypto not found')
-    libcrypto = CDLL(libcrypto)
-
-    RSA_NO_PADDING = 3
-    AES_MAXNR = 14
-
-    c_char_pp = POINTER(c_char_p)
-    c_int_p = POINTER(c_int)
-
-    class RSA(Structure):
-        pass
-    RSA_p = POINTER(RSA)
-
-    class AES_KEY(Structure):
-        _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))),
-                    ('rounds', c_int)]
-    AES_KEY_p = POINTER(AES_KEY)
-
-    def F(restype, name, argtypes):
-        func = getattr(libcrypto, name)
-        func.restype = restype
-        func.argtypes = argtypes
-        return func
-
-    d2i_RSAPrivateKey = F(RSA_p, 'd2i_RSAPrivateKey',
-                          [RSA_p, c_char_pp, c_long])
-    RSA_size = F(c_int, 'RSA_size', [RSA_p])
-    RSA_private_decrypt = F(c_int, 'RSA_private_decrypt',
-                            [c_int, c_char_p, c_char_p, RSA_p, c_int])
-    RSA_free = F(None, 'RSA_free', [RSA_p])
-    AES_set_decrypt_key = F(c_int, 'AES_set_decrypt_key',
-                            [c_char_p, c_int, AES_KEY_p])
-    AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',
-                        [c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p,
-                         c_int])
-
-    class RSA(object):
-        def __init__(self, der):
-            buf = create_string_buffer(der)
-            pp = c_char_pp(cast(buf, c_char_p))
-            rsa = self._rsa = d2i_RSAPrivateKey(None, pp, len(der))
-            if rsa is None:
-                raise ADEPTError('Error parsing ADEPT user key DER')
-
-        def decrypt(self, from_):
-            rsa = self._rsa
-            to = create_string_buffer(RSA_size(rsa))
-            dlen = RSA_private_decrypt(len(from_), from_, to, rsa,
-                                       RSA_NO_PADDING)
-            if dlen < 0:
-                raise ADEPTError('RSA decryption failed')
-            return to[:dlen]
-
-        def __del__(self):
-            if self._rsa is not None:
-                RSA_free(self._rsa)
-                self._rsa = None
-
-    class AES(object):
-        def __init__(self, userkey):
-            self._blocksize = len(userkey)
-            if (self._blocksize != 16) and (self._blocksize != 24) and (self._blocksize != 32) :
-                raise ADEPTError('AES improper key used')
-                return
-            key = self._key = AES_KEY()
-            rv = AES_set_decrypt_key(userkey, len(userkey) * 8, key)
-            if rv < 0:
-                raise ADEPTError('Failed to initialize AES key')
-
-        def decrypt(self, data):
-            out = create_string_buffer(len(data))
-            iv = ("\x00" * self._blocksize)
-            rv = AES_cbc_encrypt(data, out, len(data), self._key, iv, 0)
-            if rv == 0:
-                raise ADEPTError('AES decryption failed')
-            return out.raw
-
-    return (AES, RSA)
-
-def _load_crypto_pycrypto():
-    from Crypto.Cipher import AES as _AES
-    from Crypto.PublicKey import RSA as _RSA
-
-    # ASN.1 parsing code from tlslite
-    class ASN1Error(Exception):
-        pass
-
-    class ASN1Parser(object):
-        class Parser(object):
-            def __init__(self, bytes):
-                self.bytes = bytes
-                self.index = 0
-
-            def get(self, length):
-                if self.index + length > len(self.bytes):
-                    raise ASN1Error("Error decoding ASN.1")
-                x = 0
-                for count in range(length):
-                    x <<= 8
-                    x |= self.bytes[self.index]
-                    self.index += 1
-                return x
-
-            def getFixBytes(self, lengthBytes):
-                bytes = self.bytes[self.index : self.index+lengthBytes]
-                self.index += lengthBytes
-                return bytes
-
-            def getVarBytes(self, lengthLength):
-                lengthBytes = self.get(lengthLength)
-                return self.getFixBytes(lengthBytes)
-
-            def getFixList(self, length, lengthList):
-                l = [0] * lengthList
-                for x in range(lengthList):
-                    l[x] = self.get(length)
-                return l
-
-            def getVarList(self, length, lengthLength):
-                lengthList = self.get(lengthLength)
-                if lengthList % length != 0:
-                    raise ASN1Error("Error decoding ASN.1")
-                lengthList = int(lengthList/length)
-                l = [0] * lengthList
-                for x in range(lengthList):
-                    l[x] = self.get(length)
-                return l
-
-            def startLengthCheck(self, lengthLength):
-                self.lengthCheck = self.get(lengthLength)
-                self.indexCheck = self.index
-
-            def setLengthCheck(self, length):
-                self.lengthCheck = length
-                self.indexCheck = self.index
-
-            def stopLengthCheck(self):
-                if (self.index - self.indexCheck) != self.lengthCheck:
-                    raise ASN1Error("Error decoding ASN.1")
-
-            def atLengthCheck(self):
-                if (self.index - self.indexCheck) < self.lengthCheck:
-                    return False
-                elif (self.index - self.indexCheck) == self.lengthCheck:
-                    return True
-                else:
-                    raise ASN1Error("Error decoding ASN.1")
-
-        def __init__(self, bytes):
-            p = self.Parser(bytes)
-            p.get(1)
-            self.length = self._getASN1Length(p)
-            self.value = p.getFixBytes(self.length)
-
-        def getChild(self, which):
-            p = self.Parser(self.value)
-            for x in range(which+1):
-                markIndex = p.index
-                p.get(1)
-                length = self._getASN1Length(p)
-                p.getFixBytes(length)
-            return ASN1Parser(p.bytes[markIndex:p.index])
-
-        def _getASN1Length(self, p):
-            firstLength = p.get(1)
-            if firstLength<=127:
-                return firstLength
-            else:
-                lengthLength = firstLength & 0x7F
-                return p.get(lengthLength)
-
-    class AES(object):
-        def __init__(self, key):
-            self._aes = _AES.new(key, _AES.MODE_CBC)
-
-        def decrypt(self, data):
-            return self._aes.decrypt(data)
-
-    class RSA(object):
-        def __init__(self, der):
-            key = ASN1Parser([ord(x) for x in der])
-            key = [key.getChild(x).value for x in xrange(1, 4)]
-            key = [self.bytesToNumber(v) for v in key]
-            self._rsa = _RSA.construct(key)
-
-        def bytesToNumber(self, bytes):
-            total = 0L
-            for byte in bytes:
-                total = (total << 8) + byte
-            return total
-
-        def decrypt(self, data):
-            return self._rsa.decrypt(data)
-
-    return (AES, RSA)
-
-def _load_crypto():
-    AES = RSA = None
-    cryptolist = (_load_crypto_libcrypto, _load_crypto_pycrypto)
-    if sys.platform.startswith('win'):
-        cryptolist = (_load_crypto_pycrypto, _load_crypto_libcrypto)
-    for loader in cryptolist:
-        try:
-            AES, RSA = loader()
-            break
-        except (ImportError, ADEPTError):
-            pass
-    return (AES, RSA)
-AES, RSA = _load_crypto()
-
-META_NAMES = ('mimetype', 'META-INF/rights.xml', 'META-INF/encryption.xml')
-NSMAP = {'adept': 'http://ns.adobe.com/adept',
-         'enc': 'http://www.w3.org/2001/04/xmlenc#'}
-
-class ZipInfo(zipfile.ZipInfo):
-    def __init__(self, *args, **kwargs):
-        if 'compress_type' in kwargs:
-            compress_type = kwargs.pop('compress_type')
-        super(ZipInfo, self).__init__(*args, **kwargs)
-        self.compress_type = compress_type
-
-class Decryptor(object):
-    def __init__(self, bookkey, encryption):
-        enc = lambda tag: '{%s}%s' % (NSMAP['enc'], tag)
-        self._aes = AES(bookkey)
-        encryption = etree.fromstring(encryption)
-        self._encrypted = encrypted = set()
-        expr = './%s/%s/%s' % (enc('EncryptedData'), enc('CipherData'),
-                               enc('CipherReference'))
-        for elem in encryption.findall(expr):
-            path = elem.get('URI', None)
-            if path is not None:
-                path = path.encode('utf-8')
-                encrypted.add(path)
-
-    def decompress(self, bytes):
-        dc = zlib.decompressobj(-15)
-        bytes = dc.decompress(bytes)
-        ex = dc.decompress('Z') + dc.flush()
-        if ex:
-            bytes = bytes + ex
-        return bytes
-
-    def decrypt(self, path, data):
-        if path in self._encrypted:
-            data = self._aes.decrypt(data)[16:]
-            data = data[:-ord(data[-1])]
-            data = self.decompress(data)
-        return data
-
-
-class DecryptionDialog(Tkinter.Frame):
-    def __init__(self, root):
-        Tkinter.Frame.__init__(self, root, border=5)
-        self.status = Tkinter.Label(self, text='Select files for decryption')
-        self.status.pack(fill=Tkconstants.X, expand=1)
-        body = Tkinter.Frame(self)
-        body.pack(fill=Tkconstants.X, expand=1)
-        sticky = Tkconstants.E + Tkconstants.W
-        body.grid_columnconfigure(1, weight=2)
-        Tkinter.Label(body, text='Key file').grid(row=0)
-        self.keypath = Tkinter.Entry(body, width=30)
-        self.keypath.grid(row=0, column=1, sticky=sticky)
-        if os.path.exists('adeptkey.der'):
-            self.keypath.insert(0, 'adeptkey.der')
-        button = Tkinter.Button(body, text="...", command=self.get_keypath)
-        button.grid(row=0, column=2)
-        Tkinter.Label(body, text='Input file').grid(row=1)
-        self.inpath = Tkinter.Entry(body, width=30)
-        self.inpath.grid(row=1, column=1, sticky=sticky)
-        button = Tkinter.Button(body, text="...", command=self.get_inpath)
-        button.grid(row=1, column=2)
-        Tkinter.Label(body, text='Output file').grid(row=2)
-        self.outpath = Tkinter.Entry(body, width=30)
-        self.outpath.grid(row=2, column=1, sticky=sticky)
-        button = Tkinter.Button(body, text="...", command=self.get_outpath)
-        button.grid(row=2, column=2)
-        buttons = Tkinter.Frame(self)
-        buttons.pack()
-        botton = Tkinter.Button(
-            buttons, text="Decrypt", width=10, command=self.decrypt)
-        botton.pack(side=Tkconstants.LEFT)
-        Tkinter.Frame(buttons, width=10).pack(side=Tkconstants.LEFT)
-        button = Tkinter.Button(
-            buttons, text="Quit", width=10, command=self.quit)
-        button.pack(side=Tkconstants.RIGHT)
-
-    def get_keypath(self):
-        keypath = tkFileDialog.askopenfilename(
-            parent=None, title='Select ADEPT key file',
-            defaultextension='.der', filetypes=[('DER-encoded files', '.der'),
-                                                ('All Files', '.*')])
-        if keypath:
-            keypath = os.path.normpath(keypath)
-            self.keypath.delete(0, Tkconstants.END)
-            self.keypath.insert(0, keypath)
-        return
-
-    def get_inpath(self):
-        inpath = tkFileDialog.askopenfilename(
-            parent=None, title='Select ADEPT-encrypted EPUB file to decrypt',
-            defaultextension='.epub', filetypes=[('EPUB files', '.epub'),
-                                                 ('All files', '.*')])
-        if inpath:
-            inpath = os.path.normpath(inpath)
-            self.inpath.delete(0, Tkconstants.END)
-            self.inpath.insert(0, inpath)
-        return
-
-    def get_outpath(self):
-        outpath = tkFileDialog.asksaveasfilename(
-            parent=None, title='Select unencrypted EPUB file to produce',
-            defaultextension='.epub', filetypes=[('EPUB files', '.epub'),
-                                                 ('All files', '.*')])
-        if outpath:
-            outpath = os.path.normpath(outpath)
-            self.outpath.delete(0, Tkconstants.END)
-            self.outpath.insert(0, outpath)
-        return
-
-    def decrypt(self):
-        keypath = self.keypath.get()
-        inpath = self.inpath.get()
-        outpath = self.outpath.get()
-        if not keypath or not os.path.exists(keypath):
-            self.status['text'] = 'Specified key file does not exist'
-            return
-        if not inpath or not os.path.exists(inpath):
-            self.status['text'] = 'Specified input file does not exist'
-            return
-        if not outpath:
-            self.status['text'] = 'Output file not specified'
-            return
-        if inpath == outpath:
-            self.status['text'] = 'Must have different input and output files'
-            return
-        argv = [sys.argv[0], keypath, inpath, outpath]
-        self.status['text'] = 'Decrypting...'
-        try:
-            cli_main(argv)
-        except Exception, e:
-            self.status['text'] = 'Error: ' + str(e)
-            return
-        self.status['text'] = 'File successfully decrypted'
-
-
-def decryptBook(keypath, inpath, outpath):
-    with open(keypath, 'rb') as f:
-        keyder = f.read()
-    rsa = RSA(keyder)
-    with closing(ZipFile(open(inpath, 'rb'))) as inf:
-        namelist = set(inf.namelist())
-        if 'META-INF/rights.xml' not in namelist or \
-           'META-INF/encryption.xml' not in namelist:
-            raise ADEPTError('%s: not an ADEPT EPUB' % (inpath,))
-        for name in META_NAMES:
-            namelist.remove(name)
-        rights = etree.fromstring(inf.read('META-INF/rights.xml'))
-        adept = lambda tag: '{%s}%s' % (NSMAP['adept'], tag)
-        expr = './/%s' % (adept('encryptedKey'),)
-        bookkey = ''.join(rights.findtext(expr))
-        bookkey = rsa.decrypt(bookkey.decode('base64'))
-        # Padded as per RSAES-PKCS1-v1_5
-        if bookkey[-17] != '\x00':
-            raise ADEPTError('problem decrypting session key')
-        encryption = inf.read('META-INF/encryption.xml')
-        decryptor = Decryptor(bookkey[-16:], encryption)
-        kwds = dict(compression=ZIP_DEFLATED, allowZip64=False)
-        with closing(ZipFile(open(outpath, 'wb'), 'w', **kwds)) as outf:
-            zi = ZipInfo('mimetype', compress_type=ZIP_STORED)
-            outf.writestr(zi, inf.read('mimetype'))
-            for path in namelist:
-                data = inf.read(path)
-                outf.writestr(path, decryptor.decrypt(path, data))
-    return 0
-
-
-def cli_main(argv=sys.argv):
-    progname = os.path.basename(argv[0])
-    if AES is None:
-        print "%s: This script requires OpenSSL or PyCrypto, which must be" \
-              " installed separately.  Read the top-of-script comment for" \
-              " details." % (progname,)
-        return 1
-    if len(argv) != 4:
-        print "usage: %s KEYFILE INBOOK OUTBOOK" % (progname,)
-        return 1
-    keypath, inpath, outpath = argv[1:]
-    return decryptBook(keypath, inpath, outpath)
-
-
-def gui_main():
-    root = Tkinter.Tk()
-    if AES is None:
-        root.withdraw()
-        tkMessageBox.showerror(
-            "INEPT EPUB Decrypter",
-            "This script requires OpenSSL or PyCrypto, which must be"
-            " installed separately.  Read the top-of-script comment for"
-            " details.")
-        return 1
-    root.title('INEPT EPUB Decrypter')
-    root.resizable(True, False)
-    root.minsize(300, 0)
-    DecryptionDialog(root).pack(fill=Tkconstants.X, expand=1)
-    root.mainloop()
-    return 0
-
-if __name__ == '__main__':
-    if len(sys.argv) > 1:
-        sys.exit(cli_main())
-    sys.exit(gui_main())
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/ineptkey.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/ineptkey.py
@@ -1,467 +0,0 @@
-#! /usr/bin/python
-# -*- coding: utf-8 -*-
-
-from __future__ import with_statement
-
-# ineptkey.pyw, version 5.4
-# Copyright © 2009-2010 i♥cabbages
-
-# Released under the terms of the GNU General Public Licence, version 3 or
-# later.  <http://www.gnu.org/licenses/>
-
-# Windows users: Before running this program, you must first install Python 2.6
-#   from <http://www.python.org/download/> and PyCrypto from
-#   <http://www.voidspace.org.uk/python/modules.shtml#pycrypto> (make certain
-#   to install the version for Python 2.6).  Then save this script file as
-#   ineptkey.pyw and double-click on it to run it.  It will create a file named
-#   adeptkey.der in the same directory.  This is your ADEPT user key.
-#
-# Mac OS X users: Save this script file as ineptkey.pyw.  You can run this
-#   program from the command line (pythonw ineptkey.pyw) or by double-clicking
-#   it when it has been associated with PythonLauncher.  It will create a file
-#   named adeptkey.der in the same directory.  This is your ADEPT user key.
-
-# Revision history:
-#   1 - Initial release, for Adobe Digital Editions 1.7
-#   2 - Better algorithm for finding pLK; improved error handling
-#   3 - Rename to INEPT
-#   4 - Series of changes by joblack (and others?) --
-#   4.1 - quick beta fix for ADE 1.7.2 (anon)
-#   4.2 - added old 1.7.1 processing
-#   4.3 - better key search
-#   4.4 - Make it working on 64-bit Python
-#   5 - Clean up and improve 4.x changes;
-#       Clean up and merge OS X support by unknown
-#   5.1 - add support for using OpenSSL on Windows in place of PyCrypto
-#   5.2 - added support for output of key to a particular file
-#   5.3 - On Windows try PyCrypto first, OpenSSL next
-#   5.4 - Modify interface to allow use of import
-
-"""
-Retrieve Adobe ADEPT user key.
-"""
-
-__license__ = 'GPL v3'
-
-import sys
-import os
-import struct
-import Tkinter
-import Tkconstants
-import tkMessageBox
-import traceback
-
-class ADEPTError(Exception):
-    pass
-
-if sys.platform.startswith('win'):
-    from ctypes import windll, c_char_p, c_wchar_p, c_uint, POINTER, byref, \
-        create_unicode_buffer, create_string_buffer, CFUNCTYPE, addressof, \
-        string_at, Structure, c_void_p, cast, c_size_t, memmove, CDLL, c_int, \
-        c_long, c_ulong
-
-    from ctypes.wintypes import LPVOID, DWORD, BOOL
-    import _winreg as winreg
-
-    def _load_crypto_libcrypto():
-        from ctypes.util import find_library
-        libcrypto = find_library('libeay32')
-        if libcrypto is None:
-            raise ADEPTError('libcrypto not found')
-        libcrypto = CDLL(libcrypto)
-        AES_MAXNR = 14
-        c_char_pp = POINTER(c_char_p)
-        c_int_p = POINTER(c_int)
-        class AES_KEY(Structure):
-            _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))),
-                        ('rounds', c_int)]
-        AES_KEY_p = POINTER(AES_KEY)
-
-        def F(restype, name, argtypes):
-            func = getattr(libcrypto, name)
-            func.restype = restype
-            func.argtypes = argtypes
-            return func
-
-        AES_set_decrypt_key = F(c_int, 'AES_set_decrypt_key',
-                                [c_char_p, c_int, AES_KEY_p])
-        AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',
-                            [c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p,
-                             c_int])
-        class AES(object):
-            def __init__(self, userkey):
-                self._blocksize = len(userkey)
-                if (self._blocksize != 16) and (self._blocksize != 24) and (self._blocksize != 32) :
-                    raise ADEPTError('AES improper key used')
-                key = self._key = AES_KEY()
-                rv = AES_set_decrypt_key(userkey, len(userkey) * 8, key)
-                if rv < 0:
-                    raise ADEPTError('Failed to initialize AES key')
-            def decrypt(self, data):
-                out = create_string_buffer(len(data))
-                iv = ("\x00" * self._blocksize)
-                rv = AES_cbc_encrypt(data, out, len(data), self._key, iv, 0)
-                if rv == 0:
-                    raise ADEPTError('AES decryption failed')
-                return out.raw
-        return AES
-
-    def _load_crypto_pycrypto():
-        from Crypto.Cipher import AES as _AES
-        class AES(object):
-            def __init__(self, key):
-                self._aes = _AES.new(key, _AES.MODE_CBC)
-            def decrypt(self, data):
-                return self._aes.decrypt(data)
-        return AES
-
-    def _load_crypto():
-        AES = None
-        for loader in (_load_crypto_pycrypto, _load_crypto_libcrypto):
-            try:
-                AES = loader()
-                break
-            except (ImportError, ADEPTError):
-                pass
-        return AES
-
-    AES = _load_crypto()
-
-
-    DEVICE_KEY_PATH = r'Software\Adobe\Adept\Device'
-    PRIVATE_LICENCE_KEY_PATH = r'Software\Adobe\Adept\Activation'
-
-    MAX_PATH = 255
-
-    kernel32 = windll.kernel32
-    advapi32 = windll.advapi32
-    crypt32 = windll.crypt32
-
-    def GetSystemDirectory():
-        GetSystemDirectoryW = kernel32.GetSystemDirectoryW
-        GetSystemDirectoryW.argtypes = [c_wchar_p, c_uint]
-        GetSystemDirectoryW.restype = c_uint
-        def GetSystemDirectory():
-            buffer = create_unicode_buffer(MAX_PATH + 1)
-            GetSystemDirectoryW(buffer, len(buffer))
-            return buffer.value
-        return GetSystemDirectory
-    GetSystemDirectory = GetSystemDirectory()
-
-    def GetVolumeSerialNumber():
-        GetVolumeInformationW = kernel32.GetVolumeInformationW
-        GetVolumeInformationW.argtypes = [c_wchar_p, c_wchar_p, c_uint,
-                                          POINTER(c_uint), POINTER(c_uint),
-                                          POINTER(c_uint), c_wchar_p, c_uint]
-        GetVolumeInformationW.restype = c_uint
-        def GetVolumeSerialNumber(path):
-            vsn = c_uint(0)
-            GetVolumeInformationW(
-                path, None, 0, byref(vsn), None, None, None, 0)
-            return vsn.value
-        return GetVolumeSerialNumber
-    GetVolumeSerialNumber = GetVolumeSerialNumber()
-
-    def GetUserName():
-        GetUserNameW = advapi32.GetUserNameW
-        GetUserNameW.argtypes = [c_wchar_p, POINTER(c_uint)]
-        GetUserNameW.restype = c_uint
-        def GetUserName():
-            buffer = create_unicode_buffer(32)
-            size = c_uint(len(buffer))
-            while not GetUserNameW(buffer, byref(size)):
-                buffer = create_unicode_buffer(len(buffer) * 2)
-                size.value = len(buffer)
-            return buffer.value.encode('utf-16-le')[::2]
-        return GetUserName
-    GetUserName = GetUserName()
-
-    PAGE_EXECUTE_READWRITE = 0x40
-    MEM_COMMIT  = 0x1000
-    MEM_RESERVE = 0x2000
-
-    def VirtualAlloc():
-        _VirtualAlloc = kernel32.VirtualAlloc
-        _VirtualAlloc.argtypes = [LPVOID, c_size_t, DWORD, DWORD]
-        _VirtualAlloc.restype = LPVOID
-        def VirtualAlloc(addr, size, alloctype=(MEM_COMMIT | MEM_RESERVE),
-                         protect=PAGE_EXECUTE_READWRITE):
-            return _VirtualAlloc(addr, size, alloctype, protect)
-        return VirtualAlloc
-    VirtualAlloc = VirtualAlloc()
-
-    MEM_RELEASE = 0x8000
-
-    def VirtualFree():
-        _VirtualFree = kernel32.VirtualFree
-        _VirtualFree.argtypes = [LPVOID, c_size_t, DWORD]
-        _VirtualFree.restype = BOOL
-        def VirtualFree(addr, size=0, freetype=MEM_RELEASE):
-            return _VirtualFree(addr, size, freetype)
-        return VirtualFree
-    VirtualFree = VirtualFree()
-
-    class NativeFunction(object):
-        def __init__(self, restype, argtypes, insns):
-            self._buf = buf = VirtualAlloc(None, len(insns))
-            memmove(buf, insns, len(insns))
-            ftype = CFUNCTYPE(restype, *argtypes)
-            self._native = ftype(buf)
-
-        def __call__(self, *args):
-            return self._native(*args)
-
-        def __del__(self):
-            if self._buf is not None:
-                VirtualFree(self._buf)
-                self._buf = None
-
-    if struct.calcsize("P") == 4:
-        CPUID0_INSNS = (
-            "\x53"             # push   %ebx
-            "\x31\xc0"         # xor    %eax,%eax
-            "\x0f\xa2"         # cpuid
-            "\x8b\x44\x24\x08" # mov    0x8(%esp),%eax
-            "\x89\x18"         # mov    %ebx,0x0(%eax)
-            "\x89\x50\x04"     # mov    %edx,0x4(%eax)
-            "\x89\x48\x08"     # mov    %ecx,0x8(%eax)
-            "\x5b"             # pop    %ebx
-            "\xc3"             # ret
-        )
-        CPUID1_INSNS = (
-            "\x53"             # push   %ebx
-            "\x31\xc0"         # xor    %eax,%eax
-            "\x40"             # inc    %eax
-            "\x0f\xa2"         # cpuid
-            "\x5b"             # pop    %ebx
-            "\xc3"             # ret
-        )
-    else:
-        CPUID0_INSNS = (
-            "\x49\x89\xd8"     # mov    %rbx,%r8
-            "\x49\x89\xc9"     # mov    %rcx,%r9
-            "\x48\x31\xc0"     # xor    %rax,%rax
-            "\x0f\xa2"         # cpuid
-            "\x4c\x89\xc8"     # mov    %r9,%rax
-            "\x89\x18"         # mov    %ebx,0x0(%rax)
-            "\x89\x50\x04"     # mov    %edx,0x4(%rax)
-            "\x89\x48\x08"     # mov    %ecx,0x8(%rax)
-            "\x4c\x89\xc3"     # mov    %r8,%rbx
-            "\xc3"             # retq
-        )
-        CPUID1_INSNS = (
-            "\x53"             # push   %rbx
-            "\x48\x31\xc0"     # xor    %rax,%rax
-            "\x48\xff\xc0"     # inc    %rax
-            "\x0f\xa2"         # cpuid
-            "\x5b"             # pop    %rbx
-            "\xc3"             # retq
-        )
-
-    def cpuid0():
-        _cpuid0 = NativeFunction(None, [c_char_p], CPUID0_INSNS)
-        buf = create_string_buffer(12)
-        def cpuid0():
-            _cpuid0(buf)
-            return buf.raw
-        return cpuid0
-    cpuid0 = cpuid0()
-
-    cpuid1 = NativeFunction(c_uint, [], CPUID1_INSNS)
-
-    class DataBlob(Structure):
-        _fields_ = [('cbData', c_uint),
-                    ('pbData', c_void_p)]
-    DataBlob_p = POINTER(DataBlob)
-
-    def CryptUnprotectData():
-        _CryptUnprotectData = crypt32.CryptUnprotectData
-        _CryptUnprotectData.argtypes = [DataBlob_p, c_wchar_p, DataBlob_p,
-                                       c_void_p, c_void_p, c_uint, DataBlob_p]
-        _CryptUnprotectData.restype = c_uint
-        def CryptUnprotectData(indata, entropy):
-            indatab = create_string_buffer(indata)
-            indata = DataBlob(len(indata), cast(indatab, c_void_p))
-            entropyb = create_string_buffer(entropy)
-            entropy = DataBlob(len(entropy), cast(entropyb, c_void_p))
-            outdata = DataBlob()
-            if not _CryptUnprotectData(byref(indata), None, byref(entropy),
-                                       None, None, 0, byref(outdata)):
-                raise ADEPTError("Failed to decrypt user key key (sic)")
-            return string_at(outdata.pbData, outdata.cbData)
-        return CryptUnprotectData
-    CryptUnprotectData = CryptUnprotectData()
-
-    def retrieve_key(keypath):
-        if AES is None:
-            tkMessageBox.showerror(
-                "ADEPT Key",
-                "This script requires PyCrypto or OpenSSL which must be installed "
-                "separately.  Read the top-of-script comment for details.")
-            return False
-        root = GetSystemDirectory().split('\\')[0] + '\\'
-        serial = GetVolumeSerialNumber(root)
-        vendor = cpuid0()
-        signature = struct.pack('>I', cpuid1())[1:]
-        user = GetUserName()
-        entropy = struct.pack('>I12s3s13s', serial, vendor, signature, user)
-        cuser = winreg.HKEY_CURRENT_USER
-        try:
-            regkey = winreg.OpenKey(cuser, DEVICE_KEY_PATH)
-        except WindowsError:
-            raise ADEPTError("Adobe Digital Editions not activated")
-        device = winreg.QueryValueEx(regkey, 'key')[0]
-        keykey = CryptUnprotectData(device, entropy)
-        userkey = None
-        try:
-            plkroot = winreg.OpenKey(cuser, PRIVATE_LICENCE_KEY_PATH)
-        except WindowsError:
-            raise ADEPTError("Could not locate ADE activation")
-        for i in xrange(0, 16):
-            try:
-                plkparent = winreg.OpenKey(plkroot, "%04d" % (i,))
-            except WindowsError:
-                break
-            ktype = winreg.QueryValueEx(plkparent, None)[0]
-            if ktype != 'credentials':
-                continue
-            for j in xrange(0, 16):
-                try:
-                    plkkey = winreg.OpenKey(plkparent, "%04d" % (j,))
-                except WindowsError:
-                    break
-                ktype = winreg.QueryValueEx(plkkey, None)[0]
-                if ktype != 'privateLicenseKey':
-                    continue
-                userkey = winreg.QueryValueEx(plkkey, 'value')[0]
-                break
-            if userkey is not None:
-                break
-        if userkey is None:
-            raise ADEPTError('Could not locate privateLicenseKey')
-        userkey = userkey.decode('base64')
-        aes = AES(keykey)
-        userkey = aes.decrypt(userkey)
-        userkey = userkey[26:-ord(userkey[-1])]
-        with open(keypath, 'wb') as f:
-            f.write(userkey)
-        return True
-
-elif sys.platform.startswith('darwin'):
-    import xml.etree.ElementTree as etree
-    import Carbon.File
-    import Carbon.Folder
-    import Carbon.Folders
-    import MacOS
-
-    ACTIVATION_PATH = 'Adobe/Digital Editions/activation.dat'
-    NSMAP = {'adept': 'http://ns.adobe.com/adept',
-             'enc': 'http://www.w3.org/2001/04/xmlenc#'}
-
-    def find_folder(domain, dtype):
-        try:
-            fsref = Carbon.Folder.FSFindFolder(domain, dtype, False)
-            return Carbon.File.pathname(fsref)
-        except MacOS.Error:
-            return None
-
-    def find_app_support_file(subpath):
-        dtype = Carbon.Folders.kApplicationSupportFolderType
-        for domain in Carbon.Folders.kUserDomain, Carbon.Folders.kLocalDomain:
-            path = find_folder(domain, dtype)
-            if path is None:
-                continue
-            path = os.path.join(path, subpath)
-            if os.path.isfile(path):
-                return path
-        return None
-
-    def retrieve_key(keypath):
-        actpath = find_app_support_file(ACTIVATION_PATH)
-        if actpath is None:
-            raise ADEPTError("Could not locate ADE activation")
-        tree = etree.parse(actpath)
-        adept = lambda tag: '{%s}%s' % (NSMAP['adept'], tag)
-        expr = '//%s/%s' % (adept('credentials'), adept('privateLicenseKey'))
-        userkey = tree.findtext(expr)
-        userkey = userkey.decode('base64')
-        userkey = userkey[26:]
-        with open(keypath, 'wb') as f:
-            f.write(userkey)
-        return True
-
-elif sys.platform.startswith('cygwin'):
-    def retrieve_key(keypath):
-        tkMessageBox.showerror(
-            "ADEPT Key",
-            "This script requires a Windows-native Python, and cannot be run "
-            "under Cygwin.  Please install a Windows-native Python and/or "
-            "check your file associations.")
-        return False
-
-else:
-    def retrieve_key(keypath):
-        tkMessageBox.showerror(
-            "ADEPT Key",
-            "This script only supports Windows and Mac OS X.  For Linux "
-            "you should be able to run ADE and this script under Wine (with "
-            "an appropriate version of Windows Python installed).")
-        return False
-
-class ExceptionDialog(Tkinter.Frame):
-    def __init__(self, root, text):
-        Tkinter.Frame.__init__(self, root, border=5)
-        label = Tkinter.Label(self, text="Unexpected error:",
-                              anchor=Tkconstants.W, justify=Tkconstants.LEFT)
-        label.pack(fill=Tkconstants.X, expand=0)
-        self.text = Tkinter.Text(self)
-        self.text.pack(fill=Tkconstants.BOTH, expand=1)
-
-        self.text.insert(Tkconstants.END, text)
-
-
-def extractKeyfile(keypath):
-    try:
-        success = retrieve_key(keypath)
-    except ADEPTError, e:
-        print "Key generation Error: " + str(e)
-        return 1
-    except Exception, e:
-        print "General Error: " + str(e)
-        return 1
-    if not success:
-        return 1
-    return 0
-
-
-def cli_main(argv=sys.argv):
-    keypath = argv[1]
-    return extractKeyfile(keypath)
-
-
-def main(argv=sys.argv):
-    root = Tkinter.Tk()
-    root.withdraw()
-    progname = os.path.basename(argv[0])
-    keypath = 'adeptkey.der'
-    success = False
-    try:
-        success = retrieve_key(keypath)
-    except ADEPTError, e:
-        tkMessageBox.showerror("ADEPT Key", "Error: " + str(e))
-    except Exception:
-        root.wm_state('normal')
-        root.title('ADEPT Key')
-        text = traceback.format_exc()
-        ExceptionDialog(root, text).pack(fill=Tkconstants.BOTH, expand=1)
-        root.mainloop()
-    if not success:
-        return 1
-    tkMessageBox.showinfo(
-        "ADEPT Key", "Key successfully retrieved to %s" % (keypath))
-    return 0
-
-if __name__ == '__main__':
-    if len(sys.argv) > 1:
-        sys.exit(cli_main())
-    sys.exit(main())
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/k4mdumpkinfo.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/k4mdumpkinfo.py
@@ -1,333 +0,0 @@
-# engine to remove drm from Kindle for Mac books
-# for personal use for archiving and converting your ebooks
-#  PLEASE DO NOT PIRATE!
-# We want all authors and Publishers, and eBook stores to live long and prosperous lives
-#
-# it borrows heavily from works by CMBDTC, IHeartCabbages, skindle,
-#    unswindle, DiapDealer, some_updates and many many others
-
-from __future__ import with_statement
-
-class Unbuffered:
-    def __init__(self, stream):
-        self.stream = stream
-    def write(self, data):
-        self.stream.write(data)
-        self.stream.flush()
-    def __getattr__(self, attr):
-        return getattr(self.stream, attr)
-
-import sys
-sys.stdout=Unbuffered(sys.stdout)
-import os, csv, getopt
-from struct import pack
-from struct import unpack
-import zlib
-
-# for handling sub processes
-import subprocess
-from subprocess import Popen, PIPE, STDOUT
-import subasyncio
-from subasyncio import Process
-
-
-#Exception Handling
-class K4MDEDRMError(Exception):
-    pass
-class K4MDEDRMFatal(Exception):
-    pass
-
-#
-# crypto routines
-#
-import hashlib
-
-def MD5(message):
-    ctx = hashlib.md5()
-    ctx.update(message)
-    return ctx.digest()
-
-def SHA1(message):
-    ctx = hashlib.sha1()
-    ctx.update(message)
-    return ctx.digest()
-
-def SHA256(message):
-    ctx = hashlib.sha256()
-    ctx.update(message)
-    return ctx.digest()
-
-# interface to needed routines in openssl's libcrypto
-def _load_crypto_libcrypto():
-    from ctypes import CDLL, byref, POINTER, c_void_p, c_char_p, c_int, c_long, \
-        Structure, c_ulong, create_string_buffer, addressof, string_at, cast
-    from ctypes.util import find_library
-
-    libcrypto = find_library('crypto')
-    if libcrypto is None:
-        raise K4MDEDRMError('libcrypto not found')
-    libcrypto = CDLL(libcrypto)
-
-    AES_MAXNR = 14
-    c_char_pp = POINTER(c_char_p)
-    c_int_p = POINTER(c_int)
-
-    class AES_KEY(Structure):
-        _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))), ('rounds', c_int)]
-    AES_KEY_p = POINTER(AES_KEY)
-
-    def F(restype, name, argtypes):
-        func = getattr(libcrypto, name)
-        func.restype = restype
-        func.argtypes = argtypes
-        return func
-
-    AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',[c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p,c_int])
-
-    AES_set_decrypt_key = F(c_int, 'AES_set_decrypt_key',[c_char_p, c_int, AES_KEY_p])
-
-    PKCS5_PBKDF2_HMAC_SHA1 = F(c_int, 'PKCS5_PBKDF2_HMAC_SHA1',
-                                [c_char_p, c_ulong, c_char_p, c_ulong, c_ulong, c_ulong, c_char_p])
-
-    class LibCrypto(object):
-        def __init__(self):
-            self._blocksize = 0
-            self._keyctx = None
-            self.iv = 0
-        def set_decrypt_key(self, userkey, iv):
-            self._blocksize = len(userkey)
-            if (self._blocksize != 16) and (self._blocksize != 24) and (self._blocksize != 32) :
-                raise K4MDEDRMError('AES improper key used')
-                return
-            keyctx = self._keyctx = AES_KEY()
-            self.iv = iv
-            rv = AES_set_decrypt_key(userkey, len(userkey) * 8, keyctx)
-            if rv < 0:
-                raise K4MDEDRMError('Failed to initialize AES key')
-        def decrypt(self, data):
-            out = create_string_buffer(len(data))
-            rv = AES_cbc_encrypt(data, out, len(data), self._keyctx, self.iv, 0)
-            if rv == 0:
-                raise K4MDEDRMError('AES decryption failed')
-            return out.raw
-        def keyivgen(self, passwd):
-            salt = '16743'
-            saltlen = 5
-            passlen = len(passwd)
-            iter = 0x3e8
-            keylen = 80
-            out = create_string_buffer(keylen)
-            rv = PKCS5_PBKDF2_HMAC_SHA1(passwd, passlen, salt, saltlen, iter, keylen, out)
-            return out.raw
-    return LibCrypto
-
-def _load_crypto():
-    LibCrypto = None
-    try:
-        LibCrypto = _load_crypto_libcrypto()
-    except (ImportError, K4MDEDRMError):
-        pass
-    return LibCrypto
-
-LibCrypto = _load_crypto()
-
-#
-# Utility Routines
-#
-
-# uses a sub process to get the Hard Drive Serial Number using ioreg
-# returns with the first found serial number in that class
-def GetVolumeSerialNumber():
-    sernum = os.getenv('MYSERIALNUMBER')
-    if sernum != None:
-        return sernum
-    cmdline = '/usr/sbin/ioreg -l -S -w 0 -r -c AppleAHCIDiskDriver'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p = Process(cmdline, shell=True, bufsize=1, stdin=None, stdout=PIPE, stderr=PIPE, close_fds=False)
-    poll = p.wait('wait')
-    results = p.read()
-    reslst = results.split('\n')
-    cnt = len(reslst)
-    bsdname = None
-    sernum = None
-    foundIt = False
-    for j in xrange(cnt):
-        resline = reslst[j]
-        pp = resline.find('"Serial Number" = "')
-        if pp >= 0:
-            sernum = resline[pp+19:-1]
-            sernum = sernum.strip()
-        bb = resline.find('"BSD Name" = "')
-        if bb >= 0:
-            bsdname = resline[bb+14:-1]
-            bsdname = bsdname.strip()
-            if (bsdname == 'disk0') and (sernum != None):
-                foundIt = True
-                break
-    if not foundIt:
-        sernum = '9999999999'
-    return sernum
-
-# uses unix env to get username instead of using sysctlbyname
-def GetUserName():
-    username = os.getenv('USER')
-    return username
-
-MAX_PATH = 255
-
-#
-# start of Kindle specific routines
-#
-
-global kindleDatabase
-
-# Various character maps used to decrypt books. Probably supposed to act as obfuscation
-charMap1 = "n5Pr6St7Uv8Wx9YzAb0Cd1Ef2Gh3Jk4M"
-charMap2 = "ZB0bYyc1xDdW2wEV3Ff7KkPpL8UuGA4gz-Tme9Nn_tHh5SvXCsIiR6rJjQaqlOoM"
-charMap3 = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
-charMap4 = "ABCDEFGHIJKLMNPQRSTUVWXYZ123456789"
-
-# Encode the bytes in data with the characters in map
-def encode(data, map):
-    result = ""
-    for char in data:
-        value = ord(char)
-        Q = (value ^ 0x80) // len(map)
-        R = value % len(map)
-        result += map[Q]
-        result += map[R]
-    return result
-
-# Hash the bytes in data and then encode the digest with the characters in map
-def encodeHash(data,map):
-    return encode(MD5(data),map)
-
-# Decode the string in data with the characters in map. Returns the decoded bytes
-def decode(data,map):
-    result = ""
-    for i in range (0,len(data)-1,2):
-        high = map.find(data[i])
-        low = map.find(data[i+1])
-        if (high == -1) or (low == -1) :
-            break
-        value = (((high * len(map)) ^ 0x80) & 0xFF) + low
-        result += pack("B",value)
-    return result
-
-# implements an Pseudo Mac Version of Windows built-in Crypto routine
-def CryptUnprotectData(encryptedData):
-    sp = GetVolumeSerialNumber() + '!@#' + GetUserName()
-    passwdData = encode(SHA256(sp),charMap1)
-    crp = LibCrypto()
-    key_iv = crp.keyivgen(passwdData)
-    key = key_iv[0:32]
-    iv = key_iv[32:48]
-    crp.set_decrypt_key(key,iv)
-    cleartext = crp.decrypt(encryptedData)
-    return cleartext
-
-# Locate and open the .kindle-info file
-def openKindleInfo():
-    home = os.getenv('HOME')
-    kinfopath = home +  '/Library/Application Support/Amazon/Kindle/storage/.kindle-info'
-    if not os.path.exists(kinfopath):
-        kinfopath = home +  '/Library/Application Support/Amazon/Kindle for Mac/storage/.kindle-info'
-        if not os.path.exists(kinfopath):
-            raise K4MDEDRMError('Error: .kindle-info file can not be found')
-    return open(kinfopath,'r')
-
-# Parse the Kindle.info file and return the records as a list of key-values
-def parseKindleInfo():
-    DB = {}
-    infoReader = openKindleInfo()
-    infoReader.read(1)
-    data = infoReader.read()
-    items = data.split('[')
-    for item in items:
-        splito = item.split(':')
-        DB[splito[0]] =splito[1]
-    return DB
-
-# Get a record from the Kindle.info file for the key "hashedKey" (already hashed and encoded). Return the decoded and decrypted record
-def getKindleInfoValueForHash(hashedKey):
-    global kindleDatabase
-    encryptedValue = decode(kindleDatabase[hashedKey],charMap2)
-    cleartext = CryptUnprotectData(encryptedValue)
-    return decode(cleartext, charMap1)
-
-#  Get a record from the Kindle.info file for the string in "key" (plaintext). Return the decoded and decrypted record
-def getKindleInfoValueForKey(key):
-    return getKindleInfoValueForHash(encodeHash(key,charMap2))
-
-# Find if the original string for a hashed/encoded string is known. If so return the original string othwise return an empty string.
-def findNameForHash(hash):
-    names = ["kindle.account.tokens","kindle.cookie.item","eulaVersionAccepted","login_date","kindle.token.item","login","kindle.key.item","kindle.name.info","kindle.device.info", "MazamaRandomNumber"]
-    result = ""
-    for name in names:
-        if hash == encodeHash(name, charMap2):
-            result = name
-            break
-    return result
-
-# Print all the records from the kindle.info file (option -i)
-def printKindleInfo():
-    for record in kindleDatabase:
-        name = findNameForHash(record)
-        if name != "" :
-            print (name)
-            print ("--------------------------")
-        else :
-            print ("Unknown Record")
-        print getKindleInfoValueForHash(record)
-        print "\n"
-
-#
-# PID generation routines
-#
-
-# Returns two bit at offset from a bit field
-def getTwoBitsFromBitField(bitField,offset):
-    byteNumber = offset // 4
-    bitPosition = 6 - 2*(offset % 4)
-    return ord(bitField[byteNumber]) >> bitPosition & 3
-
-# Returns the six bits at offset from a bit field
-def getSixBitsFromBitField(bitField,offset):
-    offset *= 3
-    value = (getTwoBitsFromBitField(bitField,offset) <<4) + (getTwoBitsFromBitField(bitField,offset+1) << 2) +getTwoBitsFromBitField(bitField,offset+2)
-    return value
-
-# 8 bits to six bits encoding from hash to generate PID string
-def encodePID(hash):
-    global charMap3
-    PID = ""
-    for position in range (0,8):
-        PID += charMap3[getSixBitsFromBitField(hash,position)]
-    return PID
-
-
-#
-# Main
-#
-
-def main(argv=sys.argv):
-    global kindleDatabase
-
-    kindleDatabase = None
-
-    #
-    # Read the encrypted database
-    #
-
-    try:
-        kindleDatabase = parseKindleInfo()
-    except Exception, message:
-        print(message)
-
-    if kindleDatabase != None :
-        printKindleInfo()
-
-    return 0
-
-if __name__ == '__main__':
-    sys.exit(main())
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/k4mobidedrm.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/k4mobidedrm.py
@@ -1,223 +0,0 @@
-#!/usr/bin/env python
-
-from __future__ import with_statement
-
-# engine to remove drm from Kindle for Mac and Kindle for PC books
-# for personal use for archiving and converting your ebooks
-
-# PLEASE DO NOT PIRATE EBOOKS!
-
-# We want all authors and publishers, and eBook stores to live
-# long and prosperous lives but at the same time  we just want to
-# be able to read OUR books on whatever device we want and to keep
-# readable for a long, long time
-
-#  This borrows very heavily from works by CMBDTC, IHeartCabbages, skindle,
-#    unswindle, DarkReverser, ApprenticeAlf, DiapDealer, some_updates
-#    and many many others
-
-
-__version__ = '4.4'
-
-class Unbuffered:
-    def __init__(self, stream):
-        self.stream = stream
-    def write(self, data):
-        self.stream.write(data)
-        self.stream.flush()
-    def __getattr__(self, attr):
-        return getattr(self.stream, attr)
-
-import sys
-import os, csv, getopt
-import string
-import re
-import traceback
-
-buildXML = False
-
-class DrmException(Exception):
-    pass
-
-if 'calibre' in sys.modules:
-    inCalibre = True
-else:
-    inCalibre = False
-
-if inCalibre:
-    from calibre_plugins.k4mobidedrm import mobidedrm
-    from calibre_plugins.k4mobidedrm import topazextract
-    from calibre_plugins.k4mobidedrm import kgenpids
-else:
-    import mobidedrm
-    import topazextract
-    import kgenpids
-
-
-# cleanup bytestring filenames
-# borrowed from calibre from calibre/src/calibre/__init__.py
-# added in removal of non-printing chars
-# and removal of . at start
-# convert underscores to spaces (we're OK with spaces in file names)
-def cleanup_name(name):
-    _filename_sanitize = re.compile(r'[\xae\0\\|\?\*<":>\+/]')
-    substitute='_'
-    one = ''.join(char for char in name if char in string.printable)
-    one = _filename_sanitize.sub(substitute, one)
-    one = re.sub(r'\s', ' ', one).strip()
-    one = re.sub(r'^\.+$', '_', one)
-    one = one.replace('..', substitute)
-    # Windows doesn't like path components that end with a period
-    if one.endswith('.'):
-        one = one[:-1]+substitute
-    # Mac and Unix don't like file names that begin with a full stop
-    if len(one) > 0 and one[0] == '.':
-        one = substitute+one[1:]
-    one = one.replace('_',' ')
-    return one
-
-def decryptBook(infile, outdir, k4, kInfoFiles, serials, pids):
-    global buildXML
-
-    # handle the obvious cases at the beginning
-    if not os.path.isfile(infile):
-        print >>sys.stderr, ('K4MobiDeDrm v%(__version__)s\n' % globals()) + "Error: Input file does not exist"
-        return 1
-
-    mobi = True
-    magic3 = file(infile,'rb').read(3)
-    if magic3 == 'TPZ':
-        mobi = False
-
-    bookname = os.path.splitext(os.path.basename(infile))[0]
-
-    if mobi:
-        mb = mobidedrm.MobiBook(infile)
-    else:
-        mb = topazextract.TopazBook(infile)
-
-    title = mb.getBookTitle()
-    print "Processing Book: ", title
-    filenametitle = cleanup_name(title)
-    outfilename = cleanup_name(bookname)
-    
-    # generate 'sensible' filename, that will sort with the original name,
-    # but is close to the name from the file.
-    outlength = len(outfilename)
-    comparelength = min(8,min(outlength,len(filenametitle)))
-    copylength = min(max(outfilename.find(' '),8),len(outfilename))
-    if outlength==0:
-        outfilename = filenametitle
-    elif comparelength > 0:
-    	if outfilename[:comparelength] == filenametitle[:comparelength]:
-        	outfilename = filenametitle
-        else:
-        	outfilename = outfilename[:copylength] + " " + filenametitle
-
-    # avoid excessively long file names
-    if len(outfilename)>150:
-        outfilename = outfilename[:150]
-
-    # build pid list
-    md1, md2 = mb.getPIDMetaInfo()
-    pidlst = kgenpids.getPidList(md1, md2, k4, pids, serials, kInfoFiles)
-
-    try:
-        mb.processBook(pidlst)
-
-    except mobidedrm.DrmException, e:
-        print >>sys.stderr, ('K4MobiDeDrm v%(__version__)s\n' % globals()) + "Error: " + str(e) + "\nDRM Removal Failed.\n"
-        return 1
-    except topazextract.TpzDRMError, e:
-        print >>sys.stderr, ('K4MobiDeDrm v%(__version__)s\n' % globals()) + "Error: " + str(e) + "\nDRM Removal Failed.\n"
-        return 1
-    except Exception, e:
-        print >>sys.stderr, ('K4MobiDeDrm v%(__version__)s\n' % globals()) + "Error: " + str(e) + "\nDRM Removal Failed.\n"
-        return 1
-
-    if mobi:
-        if mb.getPrintReplica():
-            outfile = os.path.join(outdir, outfilename + '_nodrm' + '.azw4')
-        elif mb.getMobiVersion() >= 8:
-            outfile = os.path.join(outdir, outfilename + '_nodrm' + '.azw3')
-        else:
-            outfile = os.path.join(outdir, outfilename + '_nodrm' + '.mobi')
-        mb.getMobiFile(outfile)
-        return 0
-
-    # topaz:
-    print "   Creating NoDRM HTMLZ Archive"
-    zipname = os.path.join(outdir, outfilename + '_nodrm' + '.htmlz')
-    mb.getHTMLZip(zipname)
-
-    print "   Creating SVG ZIP Archive"
-    zipname = os.path.join(outdir, outfilename + '_SVG' + '.zip')
-    mb.getSVGZip(zipname)
-
-    if buildXML:
-        print "   Creating XML ZIP Archive"
-        zipname = os.path.join(outdir, outfilename + '_XML' + '.zip')
-        mb.getXMLZip(zipname)
-
-    # remove internal temporary directory of Topaz pieces
-    mb.cleanup()
-
-    return 0
-
-
-def usage(progname):
-    print "Removes DRM protection from K4PC/M, Kindle, Mobi and Topaz ebooks"
-    print "Usage:"
-    print "    %s [-k <kindle.info>] [-p <pidnums>] [-s <kindleSerialNumbers>] <infile> <outdir>  " % progname
-
-#
-# Main
-#
-def main(argv=sys.argv):
-    progname = os.path.basename(argv[0])
-
-    k4 = False
-    kInfoFiles = []
-    serials = []
-    pids = []
-
-    print ('K4MobiDeDrm v%(__version__)s '
-           'provided by the work of many including DiapDealer, SomeUpdates, IHeartCabbages, CMBDTC, Skindle, DarkReverser, ApprenticeAlf, etc .' % globals())
-
-    try:
-        opts, args = getopt.getopt(sys.argv[1:], "k:p:s:")
-    except getopt.GetoptError, err:
-        print str(err)
-        usage(progname)
-        sys.exit(2)
-    if len(args)<2:
-        usage(progname)
-        sys.exit(2)
-
-    for o, a in opts:
-        if o == "-k":
-            if a == None :
-                raise DrmException("Invalid parameter for -k")
-            kInfoFiles.append(a)
-        if o == "-p":
-            if a == None :
-                raise DrmException("Invalid parameter for -p")
-            pids = a.split(',')
-        if o == "-s":
-            if a == None :
-                raise DrmException("Invalid parameter for -s")
-            serials = a.split(',')
-
-    # try with built in Kindle Info files
-    k4 = True
-    if sys.platform.startswith('linux'):
-        k4 = False
-        kInfoFiles = None
-    infile = args[0]
-    outdir = args[1]
-    return decryptBook(infile, outdir, k4, kInfoFiles, serials, pids)
-
-
-if __name__ == '__main__':
-    sys.stdout=Unbuffered(sys.stdout)
-    sys.exit(main())
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/k4mutils.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/k4mutils.py
@@ -1,749 +0,0 @@
-# standlone set of Mac OSX specific routines needed for KindleBooks
-
-from __future__ import with_statement
-
-import sys
-import os
-import os.path
-import re
-import copy
-import subprocess
-from struct import pack, unpack, unpack_from
-
-class DrmException(Exception):
-    pass
-
-
-# interface to needed routines in openssl's libcrypto
-def _load_crypto_libcrypto():
-    from ctypes import CDLL, byref, POINTER, c_void_p, c_char_p, c_int, c_long, \
-        Structure, c_ulong, create_string_buffer, addressof, string_at, cast
-    from ctypes.util import find_library
-
-    libcrypto = find_library('crypto')
-    if libcrypto is None:
-        raise DrmException('libcrypto not found')
-    libcrypto = CDLL(libcrypto)
-
-    # From OpenSSL's crypto aes header
-    #
-    # AES_ENCRYPT     1
-    # AES_DECRYPT     0
-    # AES_MAXNR 14 (in bytes)
-    # AES_BLOCK_SIZE 16 (in bytes)
-    # 
-    # struct aes_key_st {
-    #    unsigned long rd_key[4 *(AES_MAXNR + 1)];
-    #    int rounds;
-    # };
-    # typedef struct aes_key_st AES_KEY;
-    #
-    # int AES_set_decrypt_key(const unsigned char *userKey, const int bits, AES_KEY *key);
-    #
-    # note:  the ivec string, and output buffer are both mutable
-    # void AES_cbc_encrypt(const unsigned char *in, unsigned char *out,
-    #     const unsigned long length, const AES_KEY *key, unsigned char *ivec, const int enc);
-
-    AES_MAXNR = 14
-    c_char_pp = POINTER(c_char_p)
-    c_int_p = POINTER(c_int)
-
-    class AES_KEY(Structure):
-        _fields_ = [('rd_key', c_long * (4 * (AES_MAXNR + 1))), ('rounds', c_int)]
-    AES_KEY_p = POINTER(AES_KEY)
-
-    def F(restype, name, argtypes):
-        func = getattr(libcrypto, name)
-        func.restype = restype
-        func.argtypes = argtypes
-        return func
-
-    AES_cbc_encrypt = F(None, 'AES_cbc_encrypt',[c_char_p, c_char_p, c_ulong, AES_KEY_p, c_char_p,c_int])
-
-    AES_set_decrypt_key = F(c_int, 'AES_set_decrypt_key',[c_char_p, c_int, AES_KEY_p])
-
-    # From OpenSSL's Crypto evp/p5_crpt2.c
-    #
-    # int PKCS5_PBKDF2_HMAC_SHA1(const char *pass, int passlen,
-    #                        const unsigned char *salt, int saltlen, int iter,
-    #                        int keylen, unsigned char *out);
-
-    PKCS5_PBKDF2_HMAC_SHA1 = F(c_int, 'PKCS5_PBKDF2_HMAC_SHA1',
-                                [c_char_p, c_ulong, c_char_p, c_ulong, c_ulong, c_ulong, c_char_p])
-
-    class LibCrypto(object):
-        def __init__(self):
-            self._blocksize = 0
-            self._keyctx = None
-            self._iv = 0
-
-        def set_decrypt_key(self, userkey, iv):
-            self._blocksize = len(userkey)
-            if (self._blocksize != 16) and (self._blocksize != 24) and (self._blocksize != 32) :
-                raise DrmException('AES improper key used')
-                return
-            keyctx = self._keyctx = AES_KEY()
-            self._iv = iv
-            self._userkey = userkey
-            rv = AES_set_decrypt_key(userkey, len(userkey) * 8, keyctx)
-            if rv < 0:
-                raise DrmException('Failed to initialize AES key')
-
-        def decrypt(self, data):
-            out = create_string_buffer(len(data))
-            mutable_iv = create_string_buffer(self._iv, len(self._iv))
-            keyctx = self._keyctx
-            rv = AES_cbc_encrypt(data, out, len(data), keyctx, mutable_iv, 0)
-            if rv == 0:
-                raise DrmException('AES decryption failed')
-            return out.raw
-
-        def keyivgen(self, passwd, salt, iter, keylen):
-            saltlen = len(salt)
-            passlen = len(passwd)
-            out = create_string_buffer(keylen)
-            rv = PKCS5_PBKDF2_HMAC_SHA1(passwd, passlen, salt, saltlen, iter, keylen, out)
-            return out.raw
-    return LibCrypto
-
-def _load_crypto():
-    LibCrypto = None
-    try:
-        LibCrypto = _load_crypto_libcrypto()
-    except (ImportError, DrmException):
-        pass
-    return LibCrypto
-
-LibCrypto = _load_crypto()
-
-#
-# Utility Routines
-#
-
-# crypto digestroutines
-import hashlib
-
-def MD5(message):
-    ctx = hashlib.md5()
-    ctx.update(message)
-    return ctx.digest()
-
-def SHA1(message):
-    ctx = hashlib.sha1()
-    ctx.update(message)
-    return ctx.digest()
-
-def SHA256(message):
-    ctx = hashlib.sha256()
-    ctx.update(message)
-    return ctx.digest()
-
-# Various character maps used to decrypt books. Probably supposed to act as obfuscation
-charMap1 = "n5Pr6St7Uv8Wx9YzAb0Cd1Ef2Gh3Jk4M"
-charMap2 = "ZB0bYyc1xDdW2wEV3Ff7KkPpL8UuGA4gz-Tme9Nn_tHh5SvXCsIiR6rJjQaqlOoM"
-
-# For kinf approach of K4Mac 1.6.X or later
-# On K4PC charMap5 = "AzB0bYyCeVvaZ3FfUuG4g-TtHh5SsIiR6rJjQq7KkPpL8lOoMm9Nn_c1XxDdW2wE"
-# For Mac they seem to re-use charMap2 here
-charMap5 = charMap2
-
-# new in K4M 1.9.X
-testMap8 = "YvaZ3FfUm9Nn_c1XuG4yCAzB0beVg-TtHh5SsIiR6rJjQdW2wEq7KkPpL8lOoMxD"
-
-
-def encode(data, map):
-    result = ""
-    for char in data:
-        value = ord(char)
-        Q = (value ^ 0x80) // len(map)
-        R = value % len(map)
-        result += map[Q]
-        result += map[R]
-    return result
-
-# Hash the bytes in data and then encode the digest with the characters in map
-def encodeHash(data,map):
-    return encode(MD5(data),map)
-
-# Decode the string in data with the characters in map. Returns the decoded bytes
-def decode(data,map):
-    result = ""
-    for i in range (0,len(data)-1,2):
-        high = map.find(data[i])
-        low = map.find(data[i+1])
-        if (high == -1) or (low == -1) :
-            break
-        value = (((high * len(map)) ^ 0x80) & 0xFF) + low
-        result += pack("B",value)
-    return result
-
-# For K4M 1.6.X and later
-# generate table of prime number less than or equal to int n
-def primes(n):
-    if n==2: return [2]
-    elif n<2: return []
-    s=range(3,n+1,2)
-    mroot = n ** 0.5
-    half=(n+1)/2-1
-    i=0
-    m=3
-    while m <= mroot:
-        if s[i]:
-            j=(m*m-3)/2
-            s[j]=0
-            while j<half:
-                s[j]=0
-                j+=m
-        i=i+1
-        m=2*i+3
-    return [2]+[x for x in s if x]
-
-
-# uses a sub process to get the Hard Drive Serial Number using ioreg
-# returns with the serial number of drive whose BSD Name is "disk0"
-def GetVolumeSerialNumber():
-    sernum = os.getenv('MYSERIALNUMBER')
-    if sernum != None:
-        return sernum
-    cmdline = '/usr/sbin/ioreg -l -S -w 0 -r -c AppleAHCIDiskDriver'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p.communicate()
-    reslst = out1.split('\n')
-    cnt = len(reslst)
-    bsdname = None
-    sernum = None
-    foundIt = False
-    for j in xrange(cnt):
-        resline = reslst[j]
-        pp = resline.find('"Serial Number" = "')
-        if pp >= 0:
-            sernum = resline[pp+19:-1]
-            sernum = sernum.strip()
-        bb = resline.find('"BSD Name" = "')
-        if bb >= 0:
-            bsdname = resline[bb+14:-1]
-            bsdname = bsdname.strip()
-            if (bsdname == 'disk0') and (sernum != None):
-                foundIt = True
-                break
-    if not foundIt:
-        sernum = ''
-    return sernum
-
-def GetUserHomeAppSupKindleDirParitionName():
-    home = os.getenv('HOME')
-    dpath =  home + '/Library'
-    cmdline = '/sbin/mount'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p.communicate()
-    reslst = out1.split('\n')
-    cnt = len(reslst)
-    disk = ''
-    foundIt = False
-    for j in xrange(cnt):
-        resline = reslst[j]
-        if resline.startswith('/dev'):
-            (devpart, mpath) = resline.split(' on ')
-            dpart = devpart[5:]
-            pp = mpath.find('(')
-            if pp >= 0:
-                mpath = mpath[:pp-1]
-            if dpath.startswith(mpath):
-                disk = dpart
-    return disk
-
-# uses a sub process to get the UUID of the specified disk partition using ioreg
-def GetDiskPartitionUUID(diskpart):
-    uuidnum = os.getenv('MYUUIDNUMBER')
-    if uuidnum != None:
-        return uuidnum
-    cmdline = '/usr/sbin/ioreg -l -S -w 0 -r -c AppleAHCIDiskDriver'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p.communicate()
-    reslst = out1.split('\n')
-    cnt = len(reslst)
-    bsdname = None
-    uuidnum = None
-    foundIt = False
-    nest = 0
-    uuidnest = -1
-    partnest = -2
-    for j in xrange(cnt):
-        resline = reslst[j]
-        if resline.find('{') >= 0:
-            nest += 1
-        if resline.find('}') >= 0:
-            nest -= 1
-        pp = resline.find('"UUID" = "')
-        if pp >= 0:
-            uuidnum = resline[pp+10:-1]
-            uuidnum = uuidnum.strip()
-            uuidnest = nest
-            if partnest == uuidnest and uuidnest > 0:
-                foundIt = True
-                break
-        bb = resline.find('"BSD Name" = "')
-        if bb >= 0:
-            bsdname = resline[bb+14:-1]
-            bsdname = bsdname.strip()
-            if (bsdname == diskpart):
-                partnest = nest
-            else :
-                partnest = -2
-            if partnest == uuidnest and partnest > 0:
-                foundIt = True
-                break
-        if nest == 0:
-            partnest = -2
-            uuidnest = -1
-            uuidnum = None
-            bsdname = None
-    if not foundIt:
-        uuidnum = ''
-    return uuidnum
-
-def GetMACAddressMunged():
-    macnum = os.getenv('MYMACNUM')
-    if macnum != None:
-        return macnum
-    cmdline = '/sbin/ifconfig en0'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p.communicate()
-    reslst = out1.split('\n')
-    cnt = len(reslst)
-    macnum = None
-    foundIt = False
-    for j in xrange(cnt):
-        resline = reslst[j]
-        pp = resline.find('ether ')
-        if pp >= 0:
-            macnum = resline[pp+6:-1]
-            macnum = macnum.strip()
-            # print "original mac", macnum
-            # now munge it up the way Kindle app does
-            # by xoring it with 0xa5 and swapping elements 3 and 4
-            maclst = macnum.split(':')
-            n = len(maclst)
-            if n != 6:
-                fountIt = False
-                break
-            for i in range(6):
-                maclst[i] = int('0x' + maclst[i], 0)
-            mlst = [0x00, 0x00, 0x00, 0x00, 0x00, 0x00]
-            mlst[5] = maclst[5] ^ 0xa5
-            mlst[4] = maclst[3] ^ 0xa5
-            mlst[3] = maclst[4] ^ 0xa5
-            mlst[2] = maclst[2] ^ 0xa5
-            mlst[1] = maclst[1] ^ 0xa5
-            mlst[0] = maclst[0] ^ 0xa5
-            macnum = "%0.2x%0.2x%0.2x%0.2x%0.2x%0.2x" % (mlst[0], mlst[1], mlst[2], mlst[3], mlst[4], mlst[5])
-            foundIt = True
-            break
-    if not foundIt:
-        macnum = ''
-    return macnum
-
-
-# uses unix env to get username instead of using sysctlbyname
-def GetUserName():
-    username = os.getenv('USER')
-    return username
-
-def isNewInstall():
-    home = os.getenv('HOME')
-    # soccer game fan anyone
-    dpath = home + '/Library/Application Support/Kindle/storage/.pes2011'
-    # print dpath, os.path.exists(dpath)
-    if os.path.exists(dpath):
-        return True
-    dpath = home + '/Library/Containers/com.amazon.Kindle/Data/Library/Application Support/Kindle/storage/.pes2011'
-    # print dpath, os.path.exists(dpath)
-    if os.path.exists(dpath):
-        return True
-    return False
-
-
-def GetIDString():
-    # K4Mac now has an extensive set of ids strings it uses
-    # in encoding pids and in creating unique passwords
-    # for use in its own version of CryptUnprotectDataV2
-
-    # BUT Amazon has now become nasty enough to detect when its app
-    # is being run under a debugger and actually changes code paths
-    # including which one of these strings is chosen, all to try
-    # to prevent reverse engineering
-
-    # Sad really ... they will only hurt their own sales ...
-    # true book lovers really want to keep their books forever
-    # and move them to their devices and DRM prevents that so they
-    # will just buy from someplace else that they can remove
-    # the DRM from
-
-    # Amazon should know by now that true book lover's are not like
-    # penniless kids that pirate music, we do not pirate books
-
-    if isNewInstall():
-        mungedmac = GetMACAddressMunged()
-        if len(mungedmac) > 7:
-            print('Using Munged MAC Address for ID: '+mungedmac)
-            return mungedmac
-    sernum = GetVolumeSerialNumber()
-    if len(sernum) > 7:
-        print('Using Volume Serial Number for ID: '+sernum)
-        return sernum
-    diskpart = GetUserHomeAppSupKindleDirParitionName()
-    uuidnum = GetDiskPartitionUUID(diskpart)
-    if len(uuidnum) > 7:
-        print('Using Disk Partition UUID for ID: '+uuidnum)
-        return uuidnum
-    mungedmac = GetMACAddressMunged()
-    if len(mungedmac) > 7:
-        print('Using Munged MAC Address for ID: '+mungedmac)
-        return mungedmac
-    print('Using Fixed constant 9999999999 for ID.')
-    return '9999999999'
-
-
-# implements an Pseudo Mac Version of Windows built-in Crypto routine
-# used by Kindle for Mac versions < 1.6.0
-class CryptUnprotectData(object):
-    def __init__(self):
-        sernum = GetVolumeSerialNumber()
-        if sernum == '':
-            sernum = '9999999999'
-        sp = sernum + '!@#' + GetUserName()
-        passwdData = encode(SHA256(sp),charMap1)
-        salt = '16743'
-        self.crp = LibCrypto()
-        iter = 0x3e8
-        keylen = 0x80
-        key_iv = self.crp.keyivgen(passwdData, salt, iter, keylen)
-        self.key = key_iv[0:32]
-        self.iv = key_iv[32:48]
-        self.crp.set_decrypt_key(self.key, self.iv)
-
-    def decrypt(self, encryptedData):
-        cleartext = self.crp.decrypt(encryptedData)
-        cleartext = decode(cleartext,charMap1)
-        return cleartext
-
-
-# implements an Pseudo Mac Version of Windows built-in Crypto routine
-# used for Kindle for Mac Versions >= 1.6.0
-class CryptUnprotectDataV2(object):
-    def __init__(self):
-        sp = GetUserName() + ':&%:' + GetIDString()
-        passwdData = encode(SHA256(sp),charMap5)
-        # salt generation as per the code
-        salt = 0x0512981d * 2 * 1 * 1
-        salt = str(salt) + GetUserName()
-        salt = encode(salt,charMap5)
-        self.crp = LibCrypto()
-        iter = 0x800
-        keylen = 0x400
-        key_iv = self.crp.keyivgen(passwdData, salt, iter, keylen)
-        self.key = key_iv[0:32]
-        self.iv = key_iv[32:48]
-        self.crp.set_decrypt_key(self.key, self.iv)
-
-    def decrypt(self, encryptedData):
-        cleartext = self.crp.decrypt(encryptedData)
-        cleartext = decode(cleartext, charMap5)
-        return cleartext
-
-
-# unprotect the new header blob in .kinf2011
-# used in Kindle for Mac Version >= 1.9.0
-def UnprotectHeaderData(encryptedData):
-    passwdData = 'header_key_data'
-    salt = 'HEADER.2011'
-    iter = 0x80
-    keylen = 0x100
-    crp = LibCrypto()
-    key_iv = crp.keyivgen(passwdData, salt, iter, keylen)
-    key = key_iv[0:32]
-    iv = key_iv[32:48]
-    crp.set_decrypt_key(key,iv)
-    cleartext = crp.decrypt(encryptedData)
-    return cleartext
-
-
-# implements an Pseudo Mac Version of Windows built-in Crypto routine
-# used for Kindle for Mac Versions >= 1.9.0
-class CryptUnprotectDataV3(object):
-    def __init__(self, entropy):
-        sp = GetUserName() + '+@#$%+' + GetIDString()
-        passwdData = encode(SHA256(sp),charMap2)
-        salt = entropy
-        self.crp = LibCrypto()
-        iter = 0x800
-        keylen = 0x400
-        key_iv = self.crp.keyivgen(passwdData, salt, iter, keylen)
-        self.key = key_iv[0:32]
-        self.iv = key_iv[32:48]
-        self.crp.set_decrypt_key(self.key, self.iv)
-
-    def decrypt(self, encryptedData):
-        cleartext = self.crp.decrypt(encryptedData)
-        cleartext = decode(cleartext, charMap2)
-        return cleartext
-
-
-# Locate the .kindle-info files
-def getKindleInfoFiles(kInfoFiles):
-    home = os.getenv('HOME')
-    # search for any .kinf2011 files in new location (Sep 2012)
-    cmdline = 'find "' + home + '/Library/Containers/com.amazon.Kindle/Data/Library/Application Support" -name ".kinf2011"'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p1 = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p1.communicate()
-    reslst = out1.split('\n')
-    for resline in reslst:
-        if os.path.isfile(resline):
-            kInfoFiles.append(resline)
-            print('Found k4Mac kinf2011 file: ' + resline)
-            found = True
-   # search for any .kinf2011 files
-    cmdline = 'find "' + home + '/Library/Application Support" -name ".kinf2011"'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p1 = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p1.communicate()
-    reslst = out1.split('\n')
-    for resline in reslst:
-        if os.path.isfile(resline):
-            kInfoFiles.append(resline)
-            print('Found k4Mac kinf2011 file: ' + resline)
-            found = True
-    # search for any .kindle-info files
-    cmdline = 'find "' + home + '/Library/Application Support" -name ".kindle-info"'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p1 = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p1.communicate()
-    reslst = out1.split('\n')
-    kinfopath = 'NONE'
-    found = False
-    for resline in reslst:
-        if os.path.isfile(resline):
-            kInfoFiles.append(resline)
-            print('Found K4Mac kindle-info file: ' + resline)
-            found = True
-    # search for any .rainier*-kinf files
-    cmdline = 'find "' + home + '/Library/Application Support" -name ".rainier*-kinf"'
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p1 = subprocess.Popen(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    out1, out2 = p1.communicate()
-    reslst = out1.split('\n')
-    for resline in reslst:
-        if os.path.isfile(resline):
-            kInfoFiles.append(resline)
-            print('Found k4Mac kinf file: ' + resline)
-            found = True
-    if not found:
-        print('No k4Mac kindle-info/kinf/kinf2011 files have been found.')
-    return kInfoFiles
-
-# determine type of kindle info provided and return a
-# database of keynames and values
-def getDBfromFile(kInfoFile):
-    names = ["kindle.account.tokens","kindle.cookie.item","eulaVersionAccepted","login_date","kindle.token.item","login","kindle.key.item","kindle.name.info","kindle.device.info", "MazamaRandomNumber", "max_date", "SIGVERIF"]
-    DB = {}
-    cnt = 0
-    infoReader = open(kInfoFile, 'r')
-    hdr = infoReader.read(1)
-    data = infoReader.read()
-
-    if data.find('[') != -1 :
-
-        # older style kindle-info file
-        cud = CryptUnprotectData()
-        items = data.split('[')
-        for item in items:
-            if item != '':
-                keyhash, rawdata = item.split(':')
-                keyname = "unknown"
-                for name in names:
-                    if encodeHash(name,charMap2) == keyhash:
-                        keyname = name
-                        break
-                if keyname == "unknown":
-                    keyname = keyhash
-                encryptedValue = decode(rawdata,charMap2)
-                cleartext = cud.decrypt(encryptedValue)
-                DB[keyname] = cleartext
-                cnt = cnt + 1
-        if cnt == 0:
-            DB = None
-        return DB
-
-    if hdr == '/':
-
-        # else newer style .kinf file used by K4Mac >= 1.6.0
-        # the .kinf file uses "/" to separate it into records
-        # so remove the trailing "/" to make it easy to use split
-        data = data[:-1]
-        items = data.split('/')
-        cud = CryptUnprotectDataV2()
-
-        # loop through the item records until all are processed
-        while len(items) > 0:
-
-            # get the first item record
-            item = items.pop(0)
-
-            # the first 32 chars of the first record of a group
-            # is the MD5 hash of the key name encoded by charMap5
-            keyhash = item[0:32]
-            keyname = "unknown"
-
-            # the raw keyhash string is also used to create entropy for the actual
-            # CryptProtectData Blob that represents that keys contents
-            # "entropy" not used for K4Mac only K4PC
-            # entropy = SHA1(keyhash)
-
-            # the remainder of the first record when decoded with charMap5
-            # has the ':' split char followed by the string representation
-            # of the number of records that follow
-            # and make up the contents
-            srcnt = decode(item[34:],charMap5)
-            rcnt = int(srcnt)
-
-            # read and store in rcnt records of data
-            # that make up the contents value
-            edlst = []
-            for i in xrange(rcnt):
-                item = items.pop(0)
-                edlst.append(item)
-
-            keyname = "unknown"
-            for name in names:
-                if encodeHash(name,charMap5) == keyhash:
-                    keyname = name
-                    break
-            if keyname == "unknown":
-                keyname = keyhash
-
-            # the charMap5 encoded contents data has had a length
-            # of chars (always odd) cut off of the front and moved
-            # to the end to prevent decoding using charMap5 from
-            # working properly, and thereby preventing the ensuing
-            # CryptUnprotectData call from succeeding.
-
-            # The offset into the charMap5 encoded contents seems to be:
-            # len(contents) - largest prime number less than or equal to int(len(content)/3)
-            # (in other words split "about" 2/3rds of the way through)
-
-            # move first offsets chars to end to align for decode by charMap5
-            encdata = "".join(edlst)
-            contlen = len(encdata)
-
-            # now properly split and recombine
-            # by moving noffset chars from the start of the
-            # string to the end of the string
-            noffset = contlen - primes(int(contlen/3))[-1]
-            pfx = encdata[0:noffset]
-            encdata = encdata[noffset:]
-            encdata = encdata + pfx
-
-            # decode using charMap5 to get the CryptProtect Data
-            encryptedValue = decode(encdata,charMap5)
-            cleartext = cud.decrypt(encryptedValue)
-            DB[keyname] = cleartext
-            cnt = cnt + 1
-
-        if cnt == 0:
-            DB = None
-        return DB
-
-    # the latest .kinf2011 version for K4M 1.9.1
-    # put back the hdr char, it is needed
-    data = hdr + data
-    data = data[:-1]
-    items = data.split('/')
-
-    # the headerblob is the encrypted information needed to build the entropy string
-    headerblob = items.pop(0)
-    encryptedValue = decode(headerblob, charMap1)
-    cleartext = UnprotectHeaderData(encryptedValue)
-
-    # now extract the pieces in the same way
-    # this version is different from K4PC it scales the build number by multipying by 735
-    pattern = re.compile(r'''\[Version:(\d+)\]\[Build:(\d+)\]\[Cksum:([^\]]+)\]\[Guid:([\{\}a-z0-9\-]+)\]''', re.IGNORECASE)
-    for m in re.finditer(pattern, cleartext):
-        entropy = str(int(m.group(2)) * 0x2df) + m.group(4)
-
-    cud = CryptUnprotectDataV3(entropy)
-
-    # loop through the item records until all are processed
-    while len(items) > 0:
-
-        # get the first item record
-        item = items.pop(0)
-
-        # the first 32 chars of the first record of a group
-        # is the MD5 hash of the key name encoded by charMap5
-        keyhash = item[0:32]
-        keyname = "unknown"
-
-        # unlike K4PC the keyhash is not used in generating entropy
-        # entropy = SHA1(keyhash) + added_entropy
-        # entropy = added_entropy
-
-        # the remainder of the first record when decoded with charMap5
-        # has the ':' split char followed by the string representation
-        # of the number of records that follow
-        # and make up the contents
-        srcnt = decode(item[34:],charMap5)
-        rcnt = int(srcnt)
-
-        # read and store in rcnt records of data
-        # that make up the contents value
-        edlst = []
-        for i in xrange(rcnt):
-            item = items.pop(0)
-            edlst.append(item)
-
-        keyname = "unknown"
-        for name in names:
-            if encodeHash(name,testMap8) == keyhash:
-                keyname = name
-                break
-        if keyname == "unknown":
-            keyname = keyhash
-
-        # the testMap8 encoded contents data has had a length
-        # of chars (always odd) cut off of the front and moved
-        # to the end to prevent decoding using testMap8 from
-        # working properly, and thereby preventing the ensuing
-        # CryptUnprotectData call from succeeding.
-
-        # The offset into the testMap8 encoded contents seems to be:
-        # len(contents) - largest prime number less than or equal to int(len(content)/3)
-        # (in other words split "about" 2/3rds of the way through)
-
-        # move first offsets chars to end to align for decode by testMap8
-        encdata = "".join(edlst)
-        contlen = len(encdata)
-
-        # now properly split and recombine
-        # by moving noffset chars from the start of the
-        # string to the end of the string
-        noffset = contlen - primes(int(contlen/3))[-1]
-        pfx = encdata[0:noffset]
-        encdata = encdata[noffset:]
-        encdata = encdata + pfx
-
-        # decode using testMap8 to get the CryptProtect Data
-        encryptedValue = decode(encdata,testMap8)
-        cleartext = cud.decrypt(encryptedValue)
-        # print keyname
-        # print cleartext
-        DB[keyname] = cleartext
-        cnt = cnt + 1
-
-    if cnt == 0:
-        DB = None
-    return DB
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/k4pcutils.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/k4pcutils.py
@@ -1,437 +0,0 @@
-#!/usr/bin/env python
-# K4PC Windows specific routines
-
-from __future__ import with_statement
-
-import sys, os, re
-from struct import pack, unpack, unpack_from
-
-from ctypes import windll, c_char_p, c_wchar_p, c_uint, POINTER, byref, \
-    create_unicode_buffer, create_string_buffer, CFUNCTYPE, addressof, \
-    string_at, Structure, c_void_p, cast
-
-import _winreg as winreg
-MAX_PATH = 255
-kernel32 = windll.kernel32
-advapi32 = windll.advapi32
-crypt32 = windll.crypt32
-
-import traceback
-
-# crypto digestroutines
-import hashlib
-
-def MD5(message):
-    ctx = hashlib.md5()
-    ctx.update(message)
-    return ctx.digest()
-
-def SHA1(message):
-    ctx = hashlib.sha1()
-    ctx.update(message)
-    return ctx.digest()
-
-def SHA256(message):
-    ctx = hashlib.sha256()
-    ctx.update(message)
-    return ctx.digest()
-
-# For K4PC 1.9.X
-# use routines in alfcrypto:
-#    AES_cbc_encrypt
-#    AES_set_decrypt_key
-#    PKCS5_PBKDF2_HMAC_SHA1
-
-from alfcrypto import AES_CBC, KeyIVGen
-
-def UnprotectHeaderData(encryptedData):
-    passwdData = 'header_key_data'
-    salt = 'HEADER.2011'
-    iter = 0x80
-    keylen = 0x100
-    key_iv = KeyIVGen().pbkdf2(passwdData, salt, iter, keylen)
-    key = key_iv[0:32]
-    iv = key_iv[32:48]
-    aes=AES_CBC()
-    aes.set_decrypt_key(key, iv)
-    cleartext = aes.decrypt(encryptedData)
-    return cleartext
-
-
-# simple primes table (<= n) calculator
-def primes(n):
-    if n==2: return [2]
-    elif n<2: return []
-    s=range(3,n+1,2)
-    mroot = n ** 0.5
-    half=(n+1)/2-1
-    i=0
-    m=3
-    while m <= mroot:
-        if s[i]:
-            j=(m*m-3)/2
-            s[j]=0
-            while j<half:
-                s[j]=0
-                j+=m
-        i=i+1
-        m=2*i+3
-    return [2]+[x for x in s if x]
-
-
-# Various character maps used to decrypt kindle info values.
-# Probably supposed to act as obfuscation
-charMap2 = "AaZzB0bYyCc1XxDdW2wEeVv3FfUuG4g-TtHh5SsIiR6rJjQq7KkPpL8lOoMm9Nn_"
-charMap5 = "AzB0bYyCeVvaZ3FfUuG4g-TtHh5SsIiR6rJjQq7KkPpL8lOoMm9Nn_c1XxDdW2wE"
-# New maps in K4PC 1.9.0
-testMap1 = "n5Pr6St7Uv8Wx9YzAb0Cd1Ef2Gh3Jk4M"
-testMap6 = "9YzAb0Cd1Ef2n5Pr6St7Uvh3Jk4M8WxG"
-testMap8 = "YvaZ3FfUm9Nn_c1XuG4yCAzB0beVg-TtHh5SsIiR6rJjQdW2wEq7KkPpL8lOoMxD"
-
-class DrmException(Exception):
-    pass
-
-# Encode the bytes in data with the characters in map
-def encode(data, map):
-    result = ""
-    for char in data:
-        value = ord(char)
-        Q = (value ^ 0x80) // len(map)
-        R = value % len(map)
-        result += map[Q]
-        result += map[R]
-    return result
-
-# Hash the bytes in data and then encode the digest with the characters in map
-def encodeHash(data,map):
-    return encode(MD5(data),map)
-
-# Decode the string in data with the characters in map. Returns the decoded bytes
-def decode(data,map):
-    result = ""
-    for i in range (0,len(data)-1,2):
-        high = map.find(data[i])
-        low = map.find(data[i+1])
-        if (high == -1) or (low == -1) :
-            break
-        value = (((high * len(map)) ^ 0x80) & 0xFF) + low
-        result += pack("B",value)
-    return result
-
-
-# interface with Windows OS Routines
-class DataBlob(Structure):
-    _fields_ = [('cbData', c_uint),
-                ('pbData', c_void_p)]
-DataBlob_p = POINTER(DataBlob)
-
-
-def GetSystemDirectory():
-    GetSystemDirectoryW = kernel32.GetSystemDirectoryW
-    GetSystemDirectoryW.argtypes = [c_wchar_p, c_uint]
-    GetSystemDirectoryW.restype = c_uint
-    def GetSystemDirectory():
-        buffer = create_unicode_buffer(MAX_PATH + 1)
-        GetSystemDirectoryW(buffer, len(buffer))
-        return buffer.value
-    return GetSystemDirectory
-GetSystemDirectory = GetSystemDirectory()
-
-def GetVolumeSerialNumber():
-    GetVolumeInformationW = kernel32.GetVolumeInformationW
-    GetVolumeInformationW.argtypes = [c_wchar_p, c_wchar_p, c_uint,
-                                      POINTER(c_uint), POINTER(c_uint),
-                                      POINTER(c_uint), c_wchar_p, c_uint]
-    GetVolumeInformationW.restype = c_uint
-    def GetVolumeSerialNumber(path = GetSystemDirectory().split('\\')[0] + '\\'):
-        vsn = c_uint(0)
-        GetVolumeInformationW(path, None, 0, byref(vsn), None, None, None, 0)
-        return str(vsn.value)
-    return GetVolumeSerialNumber
-GetVolumeSerialNumber = GetVolumeSerialNumber()
-
-def GetIDString():
-    vsn = GetVolumeSerialNumber()
-    print('Using Volume Serial Number for ID: '+vsn)
-    return vsn
-
-def getLastError():
-    GetLastError = kernel32.GetLastError
-    GetLastError.argtypes = None
-    GetLastError.restype = c_uint
-    def getLastError():
-        return GetLastError()
-    return getLastError
-getLastError = getLastError()
-
-def GetUserName():
-    GetUserNameW = advapi32.GetUserNameW
-    GetUserNameW.argtypes = [c_wchar_p, POINTER(c_uint)]
-    GetUserNameW.restype = c_uint
-    def GetUserName():
-        buffer = create_unicode_buffer(2)
-        size = c_uint(len(buffer))
-        while not GetUserNameW(buffer, byref(size)):
-            errcd = getLastError()
-            if errcd == 234:
-                # bad wine implementation up through wine 1.3.21
-                return "AlternateUserName"
-            buffer = create_unicode_buffer(len(buffer) * 2)
-            size.value = len(buffer)
-        return buffer.value.encode('utf-16-le')[::2]
-    return GetUserName
-GetUserName = GetUserName()
-
-def CryptUnprotectData():
-    _CryptUnprotectData = crypt32.CryptUnprotectData
-    _CryptUnprotectData.argtypes = [DataBlob_p, c_wchar_p, DataBlob_p,
-                                   c_void_p, c_void_p, c_uint, DataBlob_p]
-    _CryptUnprotectData.restype = c_uint
-    def CryptUnprotectData(indata, entropy, flags):
-        indatab = create_string_buffer(indata)
-        indata = DataBlob(len(indata), cast(indatab, c_void_p))
-        entropyb = create_string_buffer(entropy)
-        entropy = DataBlob(len(entropy), cast(entropyb, c_void_p))
-        outdata = DataBlob()
-        if not _CryptUnprotectData(byref(indata), None, byref(entropy),
-                                   None, None, flags, byref(outdata)):
-            # raise DrmException("Failed to Unprotect Data")
-            return 'failed'
-        return string_at(outdata.pbData, outdata.cbData)
-    return CryptUnprotectData
-CryptUnprotectData = CryptUnprotectData()
-
-
-# Locate all of the kindle-info style files and return as list
-def getKindleInfoFiles(kInfoFiles):
-    regkey = winreg.OpenKey(winreg.HKEY_CURRENT_USER, "Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\Shell Folders\\")
-    path = winreg.QueryValueEx(regkey, 'Local AppData')[0]
-
-    # some 64 bit machines do not have the proper registry key for some reason
-    # or the pythonn interface to the 32 vs 64 bit registry is broken
-    if 'LOCALAPPDATA' in os.environ.keys():
-        path = os.environ['LOCALAPPDATA']
-
-    print('searching for kinfoFiles in ' + path)
-    found = False
-
-    # first look for older kindle-info files
-    kinfopath = path +'\\Amazon\\Kindle For PC\\{AMAwzsaPaaZAzmZzZQzgZCAkZ3AjA_AY}\\kindle.info'
-    if os.path.isfile(kinfopath):
-        found = True
-        print('Found K4PC kindle.info file: ' + kinfopath)
-        kInfoFiles.append(kinfopath)
-
-    # now look for newer (K4PC 1.5.0 and later rainier.2.1.1.kinf file
-
-    kinfopath = path +'\\Amazon\\Kindle For PC\\storage\\rainier.2.1.1.kinf'
-    if os.path.isfile(kinfopath):
-        found = True
-        print('Found K4PC 1.5.X kinf file: ' + kinfopath)
-        kInfoFiles.append(kinfopath)
-
-    # now look for even newer (K4PC 1.6.0 and later) rainier.2.1.1.kinf file
-    kinfopath = path +'\\Amazon\\Kindle\\storage\\rainier.2.1.1.kinf'
-    if os.path.isfile(kinfopath):
-        found = True
-        print('Found K4PC 1.6.X kinf file: ' + kinfopath)
-        kInfoFiles.append(kinfopath)
-
-    # now look for even newer (K4PC 1.9.0 and later) .kinf2011 file
-    kinfopath = path +'\\Amazon\\Kindle\\storage\\.kinf2011'
-    if os.path.isfile(kinfopath):
-        found = True
-        print('Found K4PC kinf2011 file: ' + kinfopath)
-        kInfoFiles.append(kinfopath)
-
-    if not found:
-        print('No K4PC kindle.info/kinf/kinf2011 files have been found.')
-    return kInfoFiles
-
-
-# determine type of kindle info provided and return a
-# database of keynames and values
-def getDBfromFile(kInfoFile):
-    names = ["kindle.account.tokens","kindle.cookie.item","eulaVersionAccepted","login_date","kindle.token.item","login","kindle.key.item","kindle.name.info","kindle.device.info", "MazamaRandomNumber", "max_date", "SIGVERIF"]
-    DB = {}
-    cnt = 0
-    infoReader = open(kInfoFile, 'r')
-    hdr = infoReader.read(1)
-    data = infoReader.read()
-
-    if data.find('{') != -1 :
-
-        # older style kindle-info file
-        items = data.split('{')
-        for item in items:
-            if item != '':
-                keyhash, rawdata = item.split(':')
-                keyname = "unknown"
-                for name in names:
-                    if encodeHash(name,charMap2) == keyhash:
-                        keyname = name
-                        break
-                if keyname == "unknown":
-                    keyname = keyhash
-                encryptedValue = decode(rawdata,charMap2)
-                DB[keyname] = CryptUnprotectData(encryptedValue, "", 0)
-                cnt = cnt + 1
-        if cnt == 0:
-            DB = None
-        return DB
-
-    if hdr == '/':
-        # else rainier-2-1-1 .kinf file
-        # the .kinf file uses "/" to separate it into records
-        # so remove the trailing "/" to make it easy to use split
-        data = data[:-1]
-        items = data.split('/')
-
-        # loop through the item records until all are processed
-        while len(items) > 0:
-
-            # get the first item record
-            item = items.pop(0)
-
-            # the first 32 chars of the first record of a group
-            # is the MD5 hash of the key name encoded by charMap5
-            keyhash = item[0:32]
-
-            # the raw keyhash string is used to create entropy for the actual
-            # CryptProtectData Blob that represents that keys contents
-            entropy = SHA1(keyhash)
-
-            # the remainder of the first record when decoded with charMap5
-            # has the ':' split char followed by the string representation
-            # of the number of records that follow
-            # and make up the contents
-            srcnt = decode(item[34:],charMap5)
-            rcnt = int(srcnt)
-
-            # read and store in rcnt records of data
-            # that make up the contents value
-            edlst = []
-            for i in xrange(rcnt):
-                item = items.pop(0)
-                edlst.append(item)
-
-            keyname = "unknown"
-            for name in names:
-                if encodeHash(name,charMap5) == keyhash:
-                    keyname = name
-                    break
-            if keyname == "unknown":
-                keyname = keyhash
-            # the charMap5 encoded contents data has had a length
-            # of chars (always odd) cut off of the front and moved
-            # to the end to prevent decoding using charMap5 from
-            # working properly, and thereby preventing the ensuing
-            # CryptUnprotectData call from succeeding.
-
-            # The offset into the charMap5 encoded contents seems to be:
-            # len(contents)-largest prime number <=  int(len(content)/3)
-            # (in other words split "about" 2/3rds of the way through)
-
-            # move first offsets chars to end to align for decode by charMap5
-            encdata = "".join(edlst)
-            contlen = len(encdata)
-            noffset = contlen - primes(int(contlen/3))[-1]
-
-            # now properly split and recombine
-            # by moving noffset chars from the start of the
-            # string to the end of the string
-            pfx = encdata[0:noffset]
-            encdata = encdata[noffset:]
-            encdata = encdata + pfx
-
-            # decode using Map5 to get the CryptProtect Data
-            encryptedValue = decode(encdata,charMap5)
-            DB[keyname] = CryptUnprotectData(encryptedValue, entropy, 1)
-            cnt = cnt + 1
-
-        if cnt == 0:
-            DB = None
-        return DB
-
-    # else newest .kinf2011 style .kinf file
-    # the .kinf file uses "/" to separate it into records
-    # so remove the trailing "/" to make it easy to use split
-    # need to put back the first char read because it it part
-    # of the added entropy blob
-    data = hdr + data[:-1]
-    items = data.split('/')
-
-    # starts with and encoded and encrypted header blob
-    headerblob = items.pop(0)
-    encryptedValue = decode(headerblob, testMap1)
-    cleartext = UnprotectHeaderData(encryptedValue)
-    # now extract the pieces that form the added entropy
-    pattern = re.compile(r'''\[Version:(\d+)\]\[Build:(\d+)\]\[Cksum:([^\]]+)\]\[Guid:([\{\}a-z0-9\-]+)\]''', re.IGNORECASE)
-    for m in re.finditer(pattern, cleartext):
-        added_entropy = m.group(2) + m.group(4)
-
-
-    # loop through the item records until all are processed
-    while len(items) > 0:
-
-        # get the first item record
-        item = items.pop(0)
-
-        # the first 32 chars of the first record of a group
-        # is the MD5 hash of the key name encoded by charMap5
-        keyhash = item[0:32]
-
-        # the sha1 of raw keyhash string is used to create entropy along
-        # with the added entropy provided above from the headerblob
-        entropy = SHA1(keyhash) + added_entropy
-
-        # the remainder of the first record when decoded with charMap5
-        # has the ':' split char followed by the string representation
-        # of the number of records that follow
-        # and make up the contents
-        srcnt = decode(item[34:],charMap5)
-        rcnt = int(srcnt)
-
-        # read and store in rcnt records of data
-        # that make up the contents value
-        edlst = []
-        for i in xrange(rcnt):
-            item = items.pop(0)
-            edlst.append(item)
-
-        # key names now use the new testMap8 encoding
-        keyname = "unknown"
-        for name in names:
-            if encodeHash(name,testMap8) == keyhash:
-                keyname = name
-                break
-
-        # the testMap8 encoded contents data has had a length
-        # of chars (always odd) cut off of the front and moved
-        # to the end to prevent decoding using testMap8 from
-        # working properly, and thereby preventing the ensuing
-        # CryptUnprotectData call from succeeding.
-
-        # The offset into the testMap8 encoded contents seems to be:
-        # len(contents)-largest prime number <=  int(len(content)/3)
-        # (in other words split "about" 2/3rds of the way through)
-
-        # move first offsets chars to end to align for decode by testMap8
-        # by moving noffset chars from the start of the
-        # string to the end of the string
-        encdata = "".join(edlst)
-        contlen = len(encdata)
-        noffset = contlen - primes(int(contlen/3))[-1]
-        pfx = encdata[0:noffset]
-        encdata = encdata[noffset:]
-        encdata = encdata + pfx
-
-        # decode using new testMap8 to get the original CryptProtect Data
-        encryptedValue = decode(encdata,testMap8)
-        cleartext = CryptUnprotectData(encryptedValue, entropy, 1)
-        DB[keyname] = cleartext
-        cnt = cnt + 1
-
-    if cnt == 0:
-        DB = None
-    return DB
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/kgenpids.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/kgenpids.py
@@ -1,276 +0,0 @@
-#!/usr/bin/env python
-
-from __future__ import with_statement
-import sys
-import os, csv
-import binascii
-import zlib
-import re
-from struct import pack, unpack, unpack_from
-
-class DrmException(Exception):
-    pass
-
-global charMap1
-global charMap3
-global charMap4
-
-if 'calibre' in sys.modules:
-    inCalibre = True
-else:
-    inCalibre = False
-
-if inCalibre:
-    if sys.platform.startswith('win'):
-        from calibre_plugins.k4mobidedrm.k4pcutils import getKindleInfoFiles, getDBfromFile, GetUserName, GetIDString
-
-    if sys.platform.startswith('darwin'):
-        from calibre_plugins.k4mobidedrm.k4mutils import getKindleInfoFiles, getDBfromFile, GetUserName, GetIDString
-else:
-    if sys.platform.startswith('win'):
-        from k4pcutils import getKindleInfoFiles, getDBfromFile, GetUserName, GetIDString
-
-    if sys.platform.startswith('darwin'):
-        from k4mutils import getKindleInfoFiles, getDBfromFile, GetUserName, GetIDString
-
-
-charMap1 = "n5Pr6St7Uv8Wx9YzAb0Cd1Ef2Gh3Jk4M"
-charMap3 = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
-charMap4 = "ABCDEFGHIJKLMNPQRSTUVWXYZ123456789"
-
-# crypto digestroutines
-import hashlib
-
-def MD5(message):
-    ctx = hashlib.md5()
-    ctx.update(message)
-    return ctx.digest()
-
-def SHA1(message):
-    ctx = hashlib.sha1()
-    ctx.update(message)
-    return ctx.digest()
-
-
-# Encode the bytes in data with the characters in map
-def encode(data, map):
-    result = ""
-    for char in data:
-        value = ord(char)
-        Q = (value ^ 0x80) // len(map)
-        R = value % len(map)
-        result += map[Q]
-        result += map[R]
-    return result
-
-# Hash the bytes in data and then encode the digest with the characters in map
-def encodeHash(data,map):
-    return encode(MD5(data),map)
-
-# Decode the string in data with the characters in map. Returns the decoded bytes
-def decode(data,map):
-    result = ""
-    for i in range (0,len(data)-1,2):
-        high = map.find(data[i])
-        low = map.find(data[i+1])
-        if (high == -1) or (low == -1) :
-            break
-        value = (((high * len(map)) ^ 0x80) & 0xFF) + low
-        result += pack("B",value)
-    return result
-
-#
-# PID generation routines
-#
-
-# Returns two bit at offset from a bit field
-def getTwoBitsFromBitField(bitField,offset):
-    byteNumber = offset // 4
-    bitPosition = 6 - 2*(offset % 4)
-    return ord(bitField[byteNumber]) >> bitPosition & 3
-
-# Returns the six bits at offset from a bit field
-def getSixBitsFromBitField(bitField,offset):
-    offset *= 3
-    value = (getTwoBitsFromBitField(bitField,offset) <<4) + (getTwoBitsFromBitField(bitField,offset+1) << 2) +getTwoBitsFromBitField(bitField,offset+2)
-    return value
-
-# 8 bits to six bits encoding from hash to generate PID string
-def encodePID(hash):
-    global charMap3
-    PID = ""
-    for position in range (0,8):
-        PID += charMap3[getSixBitsFromBitField(hash,position)]
-    return PID
-
-# Encryption table used to generate the device PID
-def generatePidEncryptionTable() :
-    table = []
-    for counter1 in range (0,0x100):
-        value = counter1
-        for counter2 in range (0,8):
-            if (value & 1 == 0) :
-                value = value >> 1
-            else :
-                value = value >> 1
-                value = value ^ 0xEDB88320
-        table.append(value)
-    return table
-
-# Seed value used to generate the device PID
-def generatePidSeed(table,dsn) :
-    value = 0
-    for counter in range (0,4) :
-        index = (ord(dsn[counter]) ^ value) &0xFF
-        value = (value >> 8) ^ table[index]
-    return value
-
-# Generate the device PID
-def generateDevicePID(table,dsn,nbRoll):
-    global charMap4
-    seed = generatePidSeed(table,dsn)
-    pidAscii = ""
-    pid = [(seed >>24) &0xFF,(seed >> 16) &0xff,(seed >> 8) &0xFF,(seed) & 0xFF,(seed>>24) & 0xFF,(seed >> 16) &0xff,(seed >> 8) &0xFF,(seed) & 0xFF]
-    index = 0
-    for counter in range (0,nbRoll):
-        pid[index] = pid[index] ^ ord(dsn[counter])
-        index = (index+1) %8
-    for counter in range (0,8):
-        index = ((((pid[counter] >>5) & 3) ^ pid[counter]) & 0x1f) + (pid[counter] >> 7)
-        pidAscii += charMap4[index]
-    return pidAscii
-
-def crc32(s):
-    return (~binascii.crc32(s,-1))&0xFFFFFFFF
-
-# convert from 8 digit PID to 10 digit PID with checksum
-def checksumPid(s):
-    global charMap4
-    crc = crc32(s)
-    crc = crc ^ (crc >> 16)
-    res = s
-    l = len(charMap4)
-    for i in (0,1):
-        b = crc & 0xff
-        pos = (b // l) ^ (b % l)
-        res += charMap4[pos%l]
-        crc >>= 8
-    return res
-
-
-# old kindle serial number to fixed pid
-def pidFromSerial(s, l):
-    global charMap4
-    crc = crc32(s)
-    arr1 = [0]*l
-    for i in xrange(len(s)):
-        arr1[i%l] ^= ord(s[i])
-    crc_bytes = [crc >> 24 & 0xff, crc >> 16 & 0xff, crc >> 8 & 0xff, crc & 0xff]
-    for i in xrange(l):
-        arr1[i] ^= crc_bytes[i&3]
-    pid = ""
-    for i in xrange(l):
-        b = arr1[i] & 0xff
-        pid+=charMap4[(b >> 7) + ((b >> 5 & 3) ^ (b & 0x1f))]
-    return pid
-
-
-# Parse the EXTH header records and use the Kindle serial number to calculate the book pid.
-def getKindlePid(pidlst, rec209, token, serialnum):
-    # Compute book PID
-    pidHash = SHA1(serialnum+rec209+token)
-    bookPID = encodePID(pidHash)
-    bookPID = checksumPid(bookPID)
-    pidlst.append(bookPID)
-
-    # compute fixed pid for old pre 2.5 firmware update pid as well
-    bookPID = pidFromSerial(serialnum, 7) + "*"
-    bookPID = checksumPid(bookPID)
-    pidlst.append(bookPID)
-
-    return pidlst
-
-
-# parse the Kindleinfo file to calculate the book pid.
-
-keynames = ["kindle.account.tokens","kindle.cookie.item","eulaVersionAccepted","login_date","kindle.token.item","login","kindle.key.item","kindle.name.info","kindle.device.info", "MazamaRandomNumber"]
-
-def getK4Pids(pidlst, rec209, token, kInfoFile):
-    global charMap1
-    kindleDatabase = None
-    try:
-        kindleDatabase = getDBfromFile(kInfoFile)
-    except Exception, message:
-        print(message)
-        kindleDatabase = None
-        pass
-
-    if kindleDatabase == None :
-        return pidlst
-
-    try:
-        # Get the Mazama Random number
-        MazamaRandomNumber = kindleDatabase["MazamaRandomNumber"]
-
-        # Get the kindle account token
-        kindleAccountToken = kindleDatabase["kindle.account.tokens"]
-    except KeyError:
-        print "Keys not found in " + kInfoFile
-        return pidlst
-
-    # Get the ID string used
-    encodedIDString = encodeHash(GetIDString(),charMap1)
-
-    # Get the current user name
-    encodedUsername = encodeHash(GetUserName(),charMap1)
-
-    # concat, hash and encode to calculate the DSN
-    DSN = encode(SHA1(MazamaRandomNumber+encodedIDString+encodedUsername),charMap1)
-
-    # Compute the device PID (for which I can tell, is used for nothing).
-    table =  generatePidEncryptionTable()
-    devicePID = generateDevicePID(table,DSN,4)
-    devicePID = checksumPid(devicePID)
-    pidlst.append(devicePID)
-
-    # Compute book PIDs
-
-    # book pid
-    pidHash = SHA1(DSN+kindleAccountToken+rec209+token)
-    bookPID = encodePID(pidHash)
-    bookPID = checksumPid(bookPID)
-    pidlst.append(bookPID)
-
-    # variant 1
-    pidHash = SHA1(kindleAccountToken+rec209+token)
-    bookPID = encodePID(pidHash)
-    bookPID = checksumPid(bookPID)
-    pidlst.append(bookPID)
-
-    # variant 2
-    pidHash = SHA1(DSN+rec209+token)
-    bookPID = encodePID(pidHash)
-    bookPID = checksumPid(bookPID)
-    pidlst.append(bookPID)
-
-    return pidlst
-
-def getPidList(md1, md2, k4, pids, serials, kInfoFiles):
-    pidlst = []
-    if kInfoFiles is None:
-        kInfoFiles = []
-    if k4:
-        kInfoFiles = getKindleInfoFiles(kInfoFiles)
-    for infoFile in kInfoFiles:
-        try:
-            pidlst = getK4Pids(pidlst, md1, md2, infoFile)
-        except Exception, message:
-            print("Error getting PIDs from " + infoFile + ": " + message)
-    for serialnum in serials:
-        try:
-            pidlst = getKindlePid(pidlst, md1, md2, serialnum)
-        except Exception, message:
-            print("Error getting PIDs from " + serialnum + ": " + message)
-    for pid in pids:
-        pidlst.append(pid)
-    return pidlst
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/kindlepid.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/kindlepid.py
@@ -1,91 +0,0 @@
-#!/usr/bin/python
-# Mobipocket PID calculator v0.2 for Amazon Kindle.
-# Copyright (c) 2007, 2009 Igor Skochinsky <skochinsky@mail.ru>
-# History:
-#  0.1 Initial release
-#  0.2 Added support for generating PID for iPhone (thanks to mbp)
-#  0.3 changed to autoflush stdout, fixed return code usage
-class Unbuffered:
-    def __init__(self, stream):
-        self.stream = stream
-    def write(self, data):
-        self.stream.write(data)
-        self.stream.flush()
-    def __getattr__(self, attr):
-        return getattr(self.stream, attr)
-
-import sys
-sys.stdout=Unbuffered(sys.stdout)
-
-import binascii
-
-if sys.hexversion >= 0x3000000:
-    print "This script is incompatible with Python 3.x. Please install Python 2.6.x from python.org"
-    sys.exit(2)
-
-letters = "ABCDEFGHIJKLMNPQRSTUVWXYZ123456789"
-
-def crc32(s):
-    return (~binascii.crc32(s,-1))&0xFFFFFFFF
-
-def checksumPid(s):
-    crc = crc32(s)
-    crc = crc ^ (crc >> 16)
-    res = s
-    l = len(letters)
-    for i in (0,1):
-        b = crc & 0xff
-        pos = (b // l) ^ (b % l)
-        res += letters[pos%l]
-        crc >>= 8
-
-    return res
-
-
-def pidFromSerial(s, l):
-    crc = crc32(s)
-
-    arr1 = [0]*l
-    for i in xrange(len(s)):
-        arr1[i%l] ^= ord(s[i])
-
-    crc_bytes = [crc >> 24 & 0xff, crc >> 16 & 0xff, crc >> 8 & 0xff, crc & 0xff]
-    for i in xrange(l):
-        arr1[i] ^= crc_bytes[i&3]
-
-    pid = ""
-    for i in xrange(l):
-        b = arr1[i] & 0xff
-        pid+=letters[(b >> 7) + ((b >> 5 & 3) ^ (b & 0x1f))]
-
-    return pid
-
-def main(argv=sys.argv):
-    print "Mobipocket PID calculator for Amazon Kindle. Copyright (c) 2007, 2009 Igor Skochinsky"
-    if len(sys.argv)==2:
-        serial = sys.argv[1]
-    else:
-        print "Usage: kindlepid.py <Kindle Serial Number>/<iPhone/iPod Touch UDID>"
-        return 1
-    if len(serial)==16:
-        if serial.startswith("B"):
-            print "Kindle serial number detected"
-        else:
-            print "Warning: unrecognized serial number. Please recheck input."
-            return 1
-        pid = pidFromSerial(serial,7)+"*"
-        print "Mobipocket PID for Kindle serial# "+serial+" is "+checksumPid(pid)
-        return 0
-    elif len(serial)==40:
-        print "iPhone serial number (UDID) detected"
-        pid = pidFromSerial(serial,8)
-        print "Mobipocket PID for iPhone serial# "+serial+" is "+checksumPid(pid)
-        return 0
-    else:
-        print "Warning: unrecognized serial number. Please recheck input."
-        return 1
-    return 0
-
-
-if __name__ == "__main__":
-    sys.exit(main())
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/libalfcrypto
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/libalfcrypto
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/libalfcrypto.dylib
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/libalfcrypto.dylib
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/libalfcrypto32.so
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/libalfcrypto32.so
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/libalfcrypto64.so
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/libalfcrypto64.so
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/pbkdf2.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/pbkdf2.py
@@ -1,68 +0,0 @@
-# A simple implementation of pbkdf2 using stock python modules. See RFC2898
-# for details. Basically, it derives a key from a password and salt.
-
-# Copyright 2004 Matt Johnston <matt @ ucc asn au>
-# Copyright 2009 Daniel Holth <dholth@fastmail.fm>
-# This code may be freely used and modified for any purpose.
-
-# Revision history
-# v0.1  October 2004    - Initial release
-# v0.2  8 March 2007    - Make usable with hashlib in Python 2.5 and use
-# v0.3  ""                 the correct digest_size rather than always 20
-# v0.4  Oct 2009        - Rescue from chandler svn, test and optimize.
-
-import sys
-import hmac
-from struct import pack
-try:
-    # only in python 2.5
-    import hashlib
-    sha = hashlib.sha1
-    md5 = hashlib.md5
-    sha256 = hashlib.sha256
-except ImportError: # pragma: NO COVERAGE
-    # fallback
-    import sha
-    import md5
-
-# this is what you want to call.
-def pbkdf2( password, salt, itercount, keylen, hashfn = sha ):
-    try:
-        # depending whether the hashfn is from hashlib or sha/md5
-        digest_size = hashfn().digest_size
-    except TypeError: # pragma: NO COVERAGE
-        digest_size = hashfn.digest_size
-    # l - number of output blocks to produce
-    l = keylen / digest_size
-    if keylen % digest_size != 0:
-        l += 1
-
-    h = hmac.new( password, None, hashfn )
-
-    T = ""
-    for i in range(1, l+1):
-        T += pbkdf2_F( h, salt, itercount, i )
-
-    return T[0: keylen]
-
-def xorstr( a, b ):
-    if len(a) != len(b):
-        raise ValueError("xorstr(): lengths differ")
-    return ''.join((chr(ord(x)^ord(y)) for x, y in zip(a, b)))
-
-def prf( h, data ):
-    hm = h.copy()
-    hm.update( data )
-    return hm.digest()
-
-# Helper as per the spec. h is a hmac which has been created seeded with the
-# password, it will be copy()ed and not modified.
-def pbkdf2_F( h, salt, itercount, blocknum ):
-    U = prf( h, salt + pack('>i',blocknum ) )
-    T = U
-
-    for i in range(2, itercount+1):
-        U = prf( h, U )
-        T = xorstr( T, U )
-
-    return T
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/scrolltextwidget.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/scrolltextwidget.py
@@ -1,27 +0,0 @@
-#!/usr/bin/env python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-
-import Tkinter
-import Tkconstants
-
-# basic scrolled text widget
-class ScrolledText(Tkinter.Text):
-    def __init__(self, master=None, **kw):
-        self.frame = Tkinter.Frame(master)
-        self.vbar = Tkinter.Scrollbar(self.frame)
-        self.vbar.pack(side=Tkconstants.RIGHT, fill=Tkconstants.Y)
-        kw.update({'yscrollcommand': self.vbar.set})
-        Tkinter.Text.__init__(self, self.frame, **kw)
-        self.pack(side=Tkconstants.LEFT, fill=Tkconstants.BOTH, expand=True)
-        self.vbar['command'] = self.yview
-        # Copy geometry methods of self.frame without overriding Text
-        # methods = hack!
-        text_meths = vars(Tkinter.Text).keys()
-        methods = vars(Tkinter.Pack).keys() + vars(Tkinter.Grid).keys() + vars(Tkinter.Place).keys()
-        methods = set(methods).difference(text_meths)
-        for m in methods:
-            if m[0] != '_' and m != 'config' and m != 'configure':
-                setattr(self, m, getattr(self.frame, m))
-
-    def __str__(self):
-        return str(self.frame)
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/subasyncio.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/subasyncio.py
@@ -1,148 +0,0 @@
-#!/usr/bin/env python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-
-import os, sys
-import signal
-import threading
-import subprocess
-from subprocess import Popen, PIPE, STDOUT
-
-# **heavily** chopped up and modfied version of asyncproc.py
-# to make it actually work on Windows as well as Mac/Linux
-# For the original see:
-# "http://www.lysator.liu.se/~bellman/download/"
-# author is  "Thomas Bellman <bellman@lysator.liu.se>"
-# available under GPL version 3 or Later
-
-# create an asynchronous subprocess whose output can be collected in
-# a non-blocking manner
-
-# What a mess!  Have to use threads just to get non-blocking io
-# in a cross-platform manner
-
-# luckily all thread use is hidden within this class
-
-class Process(object):
-    def __init__(self, *params, **kwparams):
-        if len(params) <= 3:
-            kwparams.setdefault('stdin', subprocess.PIPE)
-        if len(params) <= 4:
-            kwparams.setdefault('stdout', subprocess.PIPE)
-        if len(params) <= 5:
-            kwparams.setdefault('stderr', subprocess.PIPE)
-        self.__pending_input = []
-        self.__collected_outdata = []
-        self.__collected_errdata = []
-        self.__exitstatus = None
-        self.__lock = threading.Lock()
-        self.__inputsem = threading.Semaphore(0)
-        self.__quit = False
-
-        self.__process = subprocess.Popen(*params, **kwparams)
-
-        if self.__process.stdin:
-            self.__stdin_thread = threading.Thread(
-                name="stdin-thread",
-                target=self.__feeder, args=(self.__pending_input,
-                                            self.__process.stdin))
-            self.__stdin_thread.setDaemon(True)
-            self.__stdin_thread.start()
-
-        if self.__process.stdout:
-            self.__stdout_thread = threading.Thread(
-                name="stdout-thread",
-                target=self.__reader, args=(self.__collected_outdata,
-                                            self.__process.stdout))
-            self.__stdout_thread.setDaemon(True)
-            self.__stdout_thread.start()
-
-        if self.__process.stderr:
-            self.__stderr_thread = threading.Thread(
-                name="stderr-thread",
-                target=self.__reader, args=(self.__collected_errdata,
-                                            self.__process.stderr))
-            self.__stderr_thread.setDaemon(True)
-            self.__stderr_thread.start()
-
-    def pid(self):
-        return self.__process.pid
-
-    def kill(self, signal):
-        self.__process.send_signal(signal)
-
-    # check on subprocess (pass in 'nowait') to act like poll
-    def wait(self, flag):
-        if flag.lower() == 'nowait':
-            rc = self.__process.poll()
-        else:
-            rc = self.__process.wait()
-        if rc != None:
-            if self.__process.stdin:
-                self.closeinput()
-            if self.__process.stdout:
-                self.__stdout_thread.join()
-            if self.__process.stderr:
-                self.__stderr_thread.join()
-        return self.__process.returncode
-
-    def terminate(self):
-        if self.__process.stdin:
-            self.closeinput()
-        self.__process.terminate()
-
-    # thread gets data from subprocess stdout
-    def __reader(self, collector, source):
-        while True:
-            data = os.read(source.fileno(), 65536)
-            self.__lock.acquire()
-            collector.append(data)
-            self.__lock.release()
-            if data == "":
-                source.close()
-                break
-        return
-
-    # thread feeds data to subprocess stdin
-    def __feeder(self, pending, drain):
-        while True:
-            self.__inputsem.acquire()
-            self.__lock.acquire()
-            if not pending  and self.__quit:
-                drain.close()
-                self.__lock.release()
-                break
-            data = pending.pop(0)
-            self.__lock.release()
-            drain.write(data)
-
-    # non-blocking read of data from subprocess stdout
-    def read(self):
-        self.__lock.acquire()
-        outdata = "".join(self.__collected_outdata)
-        del self.__collected_outdata[:]
-        self.__lock.release()
-        return outdata
-
-    # non-blocking read of data from subprocess stderr
-    def readerr(self):
-        self.__lock.acquire()
-        errdata = "".join(self.__collected_errdata)
-        del self.__collected_errdata[:]
-        self.__lock.release()
-        return errdata
-
-    # non-blocking write to stdin of subprocess
-    def write(self, data):
-        if self.__process.stdin is None:
-            raise ValueError("Writing to process with stdin not a pipe")
-        self.__lock.acquire()
-        self.__pending_input.append(data)
-        self.__inputsem.release()
-        self.__lock.release()
-
-    # close stdinput of subprocess
-    def closeinput(self):
-        self.__lock.acquire()
-        self.__quit = True
-        self.__inputsem.release()
-        self.__lock.release()
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/topazextract.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/topazextract.py
@@ -1,482 +0,0 @@
-#!/usr/bin/env python
-
-class Unbuffered:
-    def __init__(self, stream):
-        self.stream = stream
-    def write(self, data):
-        self.stream.write(data)
-        self.stream.flush()
-    def __getattr__(self, attr):
-        return getattr(self.stream, attr)
-
-import sys
-
-if 'calibre' in sys.modules:
-    inCalibre = True
-else:
-    inCalibre = False
-
-buildXML = False
-
-import os, csv, getopt
-import zlib, zipfile, tempfile, shutil
-from struct import pack
-from struct import unpack
-from alfcrypto import Topaz_Cipher
-
-class TpzDRMError(Exception):
-    pass
-
-
-# local support routines
-if inCalibre:
-    from calibre_plugins.k4mobidedrm import kgenpids
-else:
-    import kgenpids
-
-# recursive zip creation support routine
-def zipUpDir(myzip, tdir, localname):
-    currentdir = tdir
-    if localname != "":
-        currentdir = os.path.join(currentdir,localname)
-    list = os.listdir(currentdir)
-    for file in list:
-        afilename = file
-        localfilePath = os.path.join(localname, afilename)
-        realfilePath = os.path.join(currentdir,file)
-        if os.path.isfile(realfilePath):
-            myzip.write(realfilePath, localfilePath)
-        elif os.path.isdir(realfilePath):
-            zipUpDir(myzip, tdir, localfilePath)
-
-#
-# Utility routines
-#
-
-# Get a 7 bit encoded number from file
-def bookReadEncodedNumber(fo):
-    flag = False
-    data = ord(fo.read(1))
-    if data == 0xFF:
-        flag = True
-        data = ord(fo.read(1))
-    if data >= 0x80:
-        datax = (data & 0x7F)
-        while data >= 0x80 :
-            data = ord(fo.read(1))
-            datax = (datax <<7) + (data & 0x7F)
-        data = datax
-    if flag:
-        data = -data
-    return data
-
-# Get a length prefixed string from file
-def bookReadString(fo):
-    stringLength = bookReadEncodedNumber(fo)
-    return unpack(str(stringLength)+"s",fo.read(stringLength))[0]
-
-#
-# crypto routines
-#
-
-# Context initialisation for the Topaz Crypto
-def topazCryptoInit(key):
-    return Topaz_Cipher().ctx_init(key)
-
-#     ctx1 = 0x0CAFFE19E
-#     for keyChar in key:
-#         keyByte = ord(keyChar)
-#         ctx2 = ctx1
-#         ctx1 = ((((ctx1 >>2) * (ctx1 >>7))&0xFFFFFFFF) ^ (keyByte * keyByte * 0x0F902007)& 0xFFFFFFFF )
-#     return [ctx1,ctx2]
-
-# decrypt data with the context prepared by topazCryptoInit()
-def topazCryptoDecrypt(data, ctx):
-    return Topaz_Cipher().decrypt(data, ctx)
-#     ctx1 = ctx[0]
-#     ctx2 = ctx[1]
-#     plainText = ""
-#     for dataChar in data:
-#         dataByte = ord(dataChar)
-#         m = (dataByte ^ ((ctx1 >> 3) &0xFF) ^ ((ctx2<<3) & 0xFF)) &0xFF
-#         ctx2 = ctx1
-#         ctx1 = (((ctx1 >> 2) * (ctx1 >> 7)) &0xFFFFFFFF) ^((m * m * 0x0F902007) &0xFFFFFFFF)
-#         plainText += chr(m)
-#     return plainText
-
-# Decrypt data with the PID
-def decryptRecord(data,PID):
-    ctx = topazCryptoInit(PID)
-    return topazCryptoDecrypt(data, ctx)
-
-# Try to decrypt a dkey record (contains the bookPID)
-def decryptDkeyRecord(data,PID):
-    record = decryptRecord(data,PID)
-    fields = unpack("3sB8sB8s3s",record)
-    if fields[0] != "PID" or fields[5] != "pid" :
-        raise TpzDRMError("Didn't find PID magic numbers in record")
-    elif fields[1] != 8 or fields[3] != 8 :
-        raise TpzDRMError("Record didn't contain correct length fields")
-    elif fields[2] != PID :
-        raise TpzDRMError("Record didn't contain PID")
-    return fields[4]
-
-# Decrypt all dkey records (contain the book PID)
-def decryptDkeyRecords(data,PID):
-    nbKeyRecords = ord(data[0])
-    records = []
-    data = data[1:]
-    for i in range (0,nbKeyRecords):
-        length = ord(data[0])
-        try:
-            key = decryptDkeyRecord(data[1:length+1],PID)
-            records.append(key)
-        except TpzDRMError:
-            pass
-        data = data[1+length:]
-    if len(records) == 0:
-        raise TpzDRMError("BookKey Not Found")
-    return records
-
-
-class TopazBook:
-    def __init__(self, filename):
-        self.fo = file(filename, 'rb')
-        self.outdir = tempfile.mkdtemp()
-        # self.outdir = 'rawdat'
-        self.bookPayloadOffset = 0
-        self.bookHeaderRecords = {}
-        self.bookMetadata = {}
-        self.bookKey = None
-        magic = unpack("4s",self.fo.read(4))[0]
-        if magic != 'TPZ0':
-            raise TpzDRMError("Parse Error : Invalid Header, not a Topaz file")
-        self.parseTopazHeaders()
-        self.parseMetadata()
-
-    def parseTopazHeaders(self):
-        def bookReadHeaderRecordData():
-            # Read and return the data of one header record at the current book file position
-            # [[offset,decompressedLength,compressedLength],...]
-            nbValues = bookReadEncodedNumber(self.fo)
-            values = []
-            for i in range (0,nbValues):
-                values.append([bookReadEncodedNumber(self.fo),bookReadEncodedNumber(self.fo),bookReadEncodedNumber(self.fo)])
-            return values
-        def parseTopazHeaderRecord():
-            # Read and parse one header record at the current book file position and return the associated data
-            # [[offset,decompressedLength,compressedLength],...]
-            if ord(self.fo.read(1)) != 0x63:
-                raise TpzDRMError("Parse Error : Invalid Header")
-            tag = bookReadString(self.fo)
-            record = bookReadHeaderRecordData()
-            return [tag,record]
-        nbRecords = bookReadEncodedNumber(self.fo)
-        for i in range (0,nbRecords):
-            result = parseTopazHeaderRecord()
-            # print result[0], result[1]
-            self.bookHeaderRecords[result[0]] = result[1]
-        if ord(self.fo.read(1))  != 0x64 :
-            raise TpzDRMError("Parse Error : Invalid Header")
-        self.bookPayloadOffset = self.fo.tell()
-
-    def parseMetadata(self):
-        # Parse the metadata record from the book payload and return a list of [key,values]
-        self.fo.seek(self.bookPayloadOffset + self.bookHeaderRecords["metadata"][0][0])
-        tag = bookReadString(self.fo)
-        if tag != "metadata" :
-            raise TpzDRMError("Parse Error : Record Names Don't Match")
-        flags = ord(self.fo.read(1))
-        nbRecords = ord(self.fo.read(1))
-        # print nbRecords
-        for i in range (0,nbRecords) :
-            keyval = bookReadString(self.fo)
-            content = bookReadString(self.fo)
-            # print keyval
-            # print content
-            self.bookMetadata[keyval] = content
-        return self.bookMetadata
-
-    def getPIDMetaInfo(self):
-        keysRecord = self.bookMetadata.get('keys','')
-        keysRecordRecord = ''
-        if keysRecord != '':
-            keylst = keysRecord.split(',')
-            for keyval in keylst:
-                keysRecordRecord += self.bookMetadata.get(keyval,'')
-        return keysRecord, keysRecordRecord
-
-    def getBookTitle(self):
-        title = ''
-        if 'Title' in self.bookMetadata:
-            title = self.bookMetadata['Title']
-        return title
-
-    def setBookKey(self, key):
-        self.bookKey = key
-
-    def getBookPayloadRecord(self, name, index):
-        # Get a record in the book payload, given its name and index.
-        # decrypted and decompressed if necessary
-        encrypted = False
-        compressed = False
-        try:
-            recordOffset = self.bookHeaderRecords[name][index][0]
-        except:
-            raise TpzDRMError("Parse Error : Invalid Record, record not found")
-
-        self.fo.seek(self.bookPayloadOffset + recordOffset)
-
-        tag = bookReadString(self.fo)
-        if tag != name :
-            raise TpzDRMError("Parse Error : Invalid Record, record name doesn't match")
-
-        recordIndex = bookReadEncodedNumber(self.fo)
-        if recordIndex < 0 :
-            encrypted = True
-            recordIndex = -recordIndex -1
-
-        if recordIndex != index :
-            raise TpzDRMError("Parse Error : Invalid Record, index doesn't match")
-
-        if (self.bookHeaderRecords[name][index][2] > 0):
-            compressed = True
-            record = self.fo.read(self.bookHeaderRecords[name][index][2])
-        else:
-            record = self.fo.read(self.bookHeaderRecords[name][index][1])
-
-        if encrypted:
-            if self.bookKey:
-                ctx = topazCryptoInit(self.bookKey)
-                record = topazCryptoDecrypt(record,ctx)
-            else :
-                raise TpzDRMError("Error: Attempt to decrypt without bookKey")
-
-        if compressed:
-            record = zlib.decompress(record)
-
-        return record
-
-    def processBook(self, pidlst):
-        raw = 0
-        fixedimage=True
-        try:
-            keydata = self.getBookPayloadRecord('dkey', 0)
-        except TpzDRMError, e:
-            print "no dkey record found, book may not be encrypted"
-            print "attempting to extrct files without a book key"
-            self.createBookDirectory()
-            self.extractFiles()
-            print "Successfully Extracted Topaz contents"
-            if inCalibre:
-                from calibre_plugins.k4mobidedrm import genbook
-            else:
-                import genbook
-            
-            rv = genbook.generateBook(self.outdir, raw, fixedimage)
-            if rv == 0:
-                print "\nBook Successfully generated"
-            return rv
-
-        # try each pid to decode the file
-        bookKey = None
-        for pid in pidlst:
-            # use 8 digit pids here
-            pid = pid[0:8]
-            print "\nTrying: ", pid
-            bookKeys = []
-            data = keydata
-            try:
-                bookKeys+=decryptDkeyRecords(data,pid)
-            except TpzDRMError, e:
-                pass
-            else:
-                bookKey = bookKeys[0]
-                print "Book Key Found!"
-                break
-
-        if not bookKey:
-            raise TpzDRMError('Decryption Unsucessful; No valid pid found')
-
-        self.setBookKey(bookKey)
-        self.createBookDirectory()
-        self.extractFiles()
-        print "Successfully Extracted Topaz contents"
-        if inCalibre:
-            from calibre_plugins.k4mobidedrm import genbook
-        else:
-            import genbook
-        
-        rv = genbook.generateBook(self.outdir, raw, fixedimage)
-        if rv == 0:
-            print "\nBook Successfully generated"
-        return rv
-
-    def createBookDirectory(self):
-        outdir = self.outdir
-        # create output directory structure
-        if not os.path.exists(outdir):
-            os.makedirs(outdir)
-        destdir =  os.path.join(outdir,'img')
-        if not os.path.exists(destdir):
-            os.makedirs(destdir)
-        destdir =  os.path.join(outdir,'color_img')
-        if not os.path.exists(destdir):
-            os.makedirs(destdir)
-        destdir =  os.path.join(outdir,'page')
-        if not os.path.exists(destdir):
-            os.makedirs(destdir)
-        destdir =  os.path.join(outdir,'glyphs')
-        if not os.path.exists(destdir):
-            os.makedirs(destdir)
-
-    def extractFiles(self):
-        outdir = self.outdir
-        for headerRecord in self.bookHeaderRecords:
-            name = headerRecord
-            if name != "dkey" :
-                ext = '.dat'
-                if name == 'img' : ext = '.jpg'
-                if name == 'color' : ext = '.jpg'
-                print "\nProcessing Section: %s " % name
-                for index in range (0,len(self.bookHeaderRecords[name])) :
-                    fnum = "%04d" % index
-                    fname = name + fnum + ext
-                    destdir = outdir
-                    if name == 'img':
-                        destdir =  os.path.join(outdir,'img')
-                    if name == 'color':
-                        destdir =  os.path.join(outdir,'color_img')
-                    if name == 'page':
-                        destdir =  os.path.join(outdir,'page')
-                    if name == 'glyphs':
-                        destdir =  os.path.join(outdir,'glyphs')
-                    outputFile = os.path.join(destdir,fname)
-                    print ".",
-                    record = self.getBookPayloadRecord(name,index)
-                    if record != '':
-                        file(outputFile, 'wb').write(record)
-        print " "
-
-    def getHTMLZip(self, zipname):
-        htmlzip = zipfile.ZipFile(zipname,'w',zipfile.ZIP_DEFLATED, False)
-        htmlzip.write(os.path.join(self.outdir,'book.html'),'book.html')
-        htmlzip.write(os.path.join(self.outdir,'book.opf'),'book.opf')
-        if os.path.isfile(os.path.join(self.outdir,'cover.jpg')):
-            htmlzip.write(os.path.join(self.outdir,'cover.jpg'),'cover.jpg')
-        htmlzip.write(os.path.join(self.outdir,'style.css'),'style.css')
-        zipUpDir(htmlzip, self.outdir, 'img')
-        htmlzip.close()
-
-    def getSVGZip(self, zipname):
-        svgzip = zipfile.ZipFile(zipname,'w',zipfile.ZIP_DEFLATED, False)
-        svgzip.write(os.path.join(self.outdir,'index_svg.xhtml'),'index_svg.xhtml')
-        zipUpDir(svgzip, self.outdir, 'svg')
-        zipUpDir(svgzip, self.outdir, 'img')
-        svgzip.close()
-    
-    def getXMLZip(self, zipname):
-        xmlzip = zipfile.ZipFile(zipname,'w',zipfile.ZIP_DEFLATED, False)
-        targetdir = os.path.join(self.outdir,'xml')
-        zipUpDir(xmlzip, targetdir, '')
-        zipUpDir(xmlzip, self.outdir, 'img')
-        xmlzip.close()
-
-    def cleanup(self):
-        if os.path.isdir(self.outdir):
-            shutil.rmtree(self.outdir, True)
-
-def usage(progname):
-    print "Removes DRM protection from Topaz ebooks and extract the contents"
-    print "Usage:"
-    print "    %s [-k <kindle.info>] [-p <pidnums>] [-s <kindleSerialNumbers>] <infile> <outdir>  " % progname
-
-
-# Main
-def main(argv=sys.argv):
-    global buildXML
-    progname = os.path.basename(argv[0])
-    k4 = False
-    pids = []
-    serials = []
-    kInfoFiles = []
-
-    try:
-        opts, args = getopt.getopt(sys.argv[1:], "k:p:s:")
-    except getopt.GetoptError, err:
-        print str(err)
-        usage(progname)
-        return 1
-    if len(args)<2:
-        usage(progname)
-        return 1
-
-    for o, a in opts:
-        if o == "-k":
-            if a == None :
-                print "Invalid parameter for -k"
-                return 1
-            kInfoFiles.append(a)
-        if o == "-p":
-            if a == None :
-                print "Invalid parameter for -p"
-                return 1
-            pids = a.split(',')
-        if o == "-s":
-            if a == None :
-                print "Invalid parameter for -s"
-                return 1
-            serials = a.split(',')
-    k4 = True
-
-    infile = args[0]
-    outdir = args[1]
-
-    if not os.path.isfile(infile):
-        print "Input File Does Not Exist"
-        return 1
-
-    bookname = os.path.splitext(os.path.basename(infile))[0]
-
-    tb = TopazBook(infile)
-    title = tb.getBookTitle()
-    print "Processing Book: ", title
-    keysRecord, keysRecordRecord = tb.getPIDMetaInfo()
-    pidlst = kgenpids.getPidList(keysRecord, keysRecordRecord, k4, pids, serials, kInfoFiles)
-
-    try:
-        print "Decrypting Book"
-        tb.processBook(pidlst)
-
-        print "   Creating HTML ZIP Archive"
-        zipname = os.path.join(outdir, bookname + '_nodrm' + '.htmlz')
-        tb.getHTMLZip(zipname)
-
-        print "   Creating SVG ZIP Archive"
-        zipname = os.path.join(outdir, bookname + '_SVG' + '.zip')
-        tb.getSVGZip(zipname)
-
-        if buildXML:
-            print "   Creating XML ZIP Archive"
-            zipname = os.path.join(outdir, bookname + '_XML' + '.zip')
-            tb.getXMLZip(zipname)
-
-        # removing internal temporary directory of pieces
-        tb.cleanup()
-
-    except TpzDRMError, e:
-        print str(e)
-        # tb.cleanup()
-        return 1
-
-    except Exception, e:
-        print str(e)
-        # tb.cleanup
-        return 1
-
-    return 0
-
-
-if __name__ == '__main__':
-    sys.stdout=Unbuffered(sys.stdout)
-    sys.exit(main())
--- a/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/zipfix.py
+++ b/DeDRM_Macintosh_Application/DeDRM.app/Contents/Resources/zipfix.py
@@ -1,154 +0,0 @@
-#!/usr/bin/env python
-
-import sys
-import zlib
-import zipfile
-import os
-import os.path
-import getopt
-from struct import unpack
-
-
-_FILENAME_LEN_OFFSET = 26
-_EXTRA_LEN_OFFSET = 28
-_FILENAME_OFFSET = 30
-_MAX_SIZE = 64 * 1024
-_MIMETYPE = 'application/epub+zip'
-
-class ZipInfo(zipfile.ZipInfo):
-    def __init__(self, *args, **kwargs):
-        if 'compress_type' in kwargs:
-            compress_type = kwargs.pop('compress_type')
-        super(ZipInfo, self).__init__(*args, **kwargs)
-        self.compress_type = compress_type
-
-class fixZip:
-    def __init__(self, zinput, zoutput):
-        self.ztype = 'zip'
-        if zinput.lower().find('.epub') >= 0 :
-            self.ztype = 'epub'
-        self.inzip = zipfile.ZipFile(zinput,'r')
-        self.outzip = zipfile.ZipFile(zoutput,'w')
-        # open the input zip for reading only as a raw file
-        self.bzf = file(zinput,'rb')
-
-    def getlocalname(self, zi):
-        local_header_offset = zi.header_offset
-        self.bzf.seek(local_header_offset + _FILENAME_LEN_OFFSET)
-        leninfo = self.bzf.read(2)
-        local_name_length, = unpack('<H', leninfo)
-        self.bzf.seek(local_header_offset + _FILENAME_OFFSET)
-        local_name = self.bzf.read(local_name_length)
-        return local_name
-
-    def uncompress(self, cmpdata):
-        dc = zlib.decompressobj(-15)
-        data = ''
-        while len(cmpdata) > 0:
-            if len(cmpdata) > _MAX_SIZE :
-                newdata = cmpdata[0:_MAX_SIZE]
-                cmpdata = cmpdata[_MAX_SIZE:]
-            else:
-                newdata = cmpdata
-                cmpdata = ''
-            newdata = dc.decompress(newdata)
-            unprocessed = dc.unconsumed_tail
-            if len(unprocessed) == 0:
-                newdata += dc.flush()
-            data += newdata
-            cmpdata += unprocessed
-            unprocessed = ''
-        return data
-
-    def getfiledata(self, zi):
-        # get file name length and exta data length to find start of file data
-        local_header_offset = zi.header_offset
-
-        self.bzf.seek(local_header_offset + _FILENAME_LEN_OFFSET)
-        leninfo = self.bzf.read(2)
-        local_name_length, = unpack('<H', leninfo)
-
-        self.bzf.seek(local_header_offset + _EXTRA_LEN_OFFSET)
-        exinfo = self.bzf.read(2)
-        extra_field_length, = unpack('<H', exinfo)
-
-        self.bzf.seek(local_header_offset + _FILENAME_OFFSET + local_name_length + extra_field_length)
-        data = None
-
-        # if not compressed we are good to go
-        if zi.compress_type == zipfile.ZIP_STORED:
-            data = self.bzf.read(zi.file_size)
-
-        # if compressed we must decompress it using zlib
-        if zi.compress_type == zipfile.ZIP_DEFLATED:
-            cmpdata = self.bzf.read(zi.compress_size)
-            data = self.uncompress(cmpdata)
-
-        return data
-
-
-
-    def fix(self):
-        # get the zipinfo for each member of the input archive
-        # and copy member over to output archive
-        # if problems exist with local vs central filename, fix them
-
-        # if epub write mimetype file first, with no compression
-        if self.ztype == 'epub':
-            nzinfo = ZipInfo('mimetype', compress_type=zipfile.ZIP_STORED)
-            self.outzip.writestr(nzinfo, _MIMETYPE)
-
-        # write the rest of the files
-        for zinfo in self.inzip.infolist():
-            if zinfo.filename != "mimetype" or self.ztype == '.zip':
-                data = None
-                nzinfo = zinfo
-                try:
-                    data = self.inzip.read(zinfo.filename)
-                except zipfile.BadZipfile or zipfile.error:
-                    local_name = self.getlocalname(zinfo)
-                    data = self.getfiledata(zinfo)
-                    nzinfo.filename = local_name
-
-                nzinfo.date_time = zinfo.date_time
-                nzinfo.compress_type = zinfo.compress_type
-                nzinfo.flag_bits = 0
-                nzinfo.internal_attr = 0
-                self.outzip.writestr(nzinfo,data)
-
-        self.bzf.close()
-        self.inzip.close()
-        self.outzip.close()
-
-
-def usage():
-    print """usage: zipfix.py inputzip outputzip
-     inputzip is the source zipfile to fix
-     outputzip is the fixed zip archive
-    """
-
-
-def repairBook(infile, outfile):
-    if not os.path.exists(infile):
-        print "Error: Input Zip File does not exist"
-        return 1
-    try:
-        fr = fixZip(infile, outfile)
-        fr.fix()
-        return 0
-    except Exception, e:
-        print "Error Occurred ", e
-        return 2
-
-
-def main(argv=sys.argv):
-    if len(argv)!=3:
-        usage()
-        return 1
-    infile = argv[1]
-    outfile = argv[2]
-    return repairBook(infile, outfile)
-
-
-if __name__ == '__main__' :
-    sys.exit(main())
--- a/DeDRM_Windows_Application/DeDRM_ReadMe.txt
+++ b/DeDRM_Windows_Application/DeDRM_ReadMe.txt
@@ -1,51 +0,0 @@
-ReadMe_DeDRM_v5.3_WinApp
-----------------------
-
-DeDRM_v5.3_WinApp is a pure python drag and drop application that allows users to drag and drop ebooks or folders of ebooks onto the DeDRM_Drop_Target to have the DRM removed.  It repackages the"tools" python software in one easy to use program that remembers preferences and settings.
-
-It should work out of the box with Kindle for PC ebooks and Adobe Adept epub and pdf ebooks.
-
-To remove the DRM from standalone Kindle ebooks, eReader pdb ebooks, Barnes and Noble epubs, and Mobipocket ebooks requires the user to double-click the DeDRM_Drop_Target and set some additional Preferences including:
-
-eInk Kindle: 16 digit Serial Number
-Barnes & Noble: key file (bnepubkey.b64)
-eReader Social DRM: Name:Last 8 digits of CC number
-MobiPocket: 10 digit PID 
-
-Once these preferences have been set, the user can simply drag and drop ebooks onto the DeDRM_Drop_Target to remove the DRM.
-
-This program requires that the proper 32 bit version of Python 2.X (tested with Python 2.5 through Python 2.7) and PyCrypto be installed on your computer before it will work.  See below for where to get theese programs for Windows.
-
-Installation
------------
-
-1. In tools_v5.3\DeDRM_Applications\Windows, right click on DeDRM_5.3_Win.zip and fully extract its contents using "Extract All...", saving to your "My Documents" folder.
-
-2. Open the DeDRM_5.3_Win folder you've just created, and make a short-cut of the DeDRM_Drop_Target.bat file (right-click/Create Shortcut). Drag the shortcut file onto your Desktop.
-
-3. To set the preferences simply double-click on your just created short-cut.
-
-If you already have a correct version of Python and PyCrypto installed and in your path, you are ready to go!
-
-If not, see below.
-
-
-Installing Python on Windows
----------------------------
-I strongly recommend fully installing ActiveState’s Active Python, free Community Edition for Windows (x86) 32 bits. This is a free, full version of the Python.  It comes with some important additional modules that are not included in the bare-bones version from www.python.org unless you choose to install everything.
-
-1. Download ActivePython 2.7.X for Windows (x86) (or later 2.7 version for Windows (x86) ) from http://www.activestate.com/activepython/downloads. Do not download the ActivePython 2.7.X for Windows (64-bit, x64) verson, even if you are running 64-bit Windows.
-
-2. When it has finished downloading, run the installer. Accept the default options.
-
-
-Installing PyCrypto on Windows
------------------------------
-PyCrypto is a set of encryption/decryption routines that work with Python. The sources are freely available, and compiled versions are available from several sources. You must install a version that is for 32-bit Windows and Python 2.7. I recommend the installer linked from Michael Foord’s blog.
-
-1. Download PyCrypto 2.1 for 32bit Windows and Python 2.7 from http://www.voidspace.org.uk/python/modules.shtml#pycrypto
-
-2. When it has finished downloading, unzip it. This will produce a file “pycrypto-2.1.0.win32-py2.7.exe”.
-
-3. Double-click “pycrypto-2.1.0.win32-py2.7.exe” to run it. Accept the default options.
-
--- a/DeDRM_Windows_Application/DeDRM_WinApp/DeDRM_Drop_Target.bat
+++ b/DeDRM_Windows_Application/DeDRM_WinApp/DeDRM_Drop_Target.bat
@@ -1,4 +0,0 @@
-echo off
-set PWD=%~dp0
-cd /d %PWD%\DeDRM_lib && start /min python DeDRM_app.pyw %*
-exit
--- a/DeDRM_Windows_Application/DeDRM_WinApp/DeDRM_lib/DeDRM_app.pyw
+++ b/DeDRM_Windows_Application/DeDRM_WinApp/DeDRM_lib/DeDRM_app.pyw
@@ -1,594 +0,0 @@
-#!/usr/bin/env python
-# vim:ts=4:sw=4:softtabstop=4:smarttab:expandtab
-
-import sys
-import os, os.path
-sys.path.append(sys.path[0]+os.sep+'lib')
-os.environ['PYTHONIOENCODING'] = "utf-8"
-
-import shutil
-import Tkinter
-from Tkinter import *
-import Tkconstants
-import tkFileDialog
-from scrolltextwidget import ScrolledText
-from activitybar import ActivityBar
-import subprocess
-from subprocess import Popen, PIPE, STDOUT
-import subasyncio
-from subasyncio import Process
-import re
-import simpleprefs
-
-
-__version__ = '5.2'
-
-class DrmException(Exception):
-    pass
-
-class MainApp(Tk):
-    def __init__(self, apphome, dnd=False, filenames=[]):
-        Tk.__init__(self)
-        self.withdraw()
-        self.dnd = dnd
-        self.apphome = apphome
-        # preference settings
-        # [dictionary key, file in preferences directory where info is stored]
-        description = [ ['pids'   , 'pidlist.txt'   ],
-                        ['serials', 'seriallist.txt'],
-                        ['sdrms'  , 'sdrmlist.txt'  ],
-                        ['outdir' , 'outdir.txt'    ]]
-        self.po = simpleprefs.SimplePrefs("DeDRM",description)
-        if self.dnd:
-            self.cd = ConvDialog(self)
-            prefs = self.getPreferences()
-            self.cd.doit(prefs, filenames)
-        else:
-            prefs = self.getPreferences()
-            self.pd = PrefsDialog(self, prefs)
-            self.cd = ConvDialog(self)
-            self.pd.show()
-
-    def getPreferences(self):
-        prefs = self.po.getPreferences()
-        prefdir = prefs['dir']
-        keyfile = os.path.join(prefdir,'adeptkey.der')
-        if not os.path.exists(keyfile):
-            import ineptkey
-            try:
-                ineptkey.extractKeyfile(keyfile)
-            except:
-                pass
-        return prefs
-
-    def setPreferences(self, newprefs):
-        prefdir = self.po.prefdir
-        if 'adkfile' in newprefs:
-            dfile = newprefs['adkfile']
-            fname = os.path.basename(dfile)
-            nfile = os.path.join(prefdir,fname)
-            if os.path.isfile(dfile):
-                shutil.copyfile(dfile,nfile)
-        if 'bnkfile' in newprefs:
-            dfile = newprefs['bnkfile']
-            fname = os.path.basename(dfile)
-            nfile = os.path.join(prefdir,fname)
-            if os.path.isfile(dfile):
-                shutil.copyfile(dfile,nfile)
-        if 'kinfofile' in newprefs:
-            dfile = newprefs['kinfofile']
-            fname = os.path.basename(dfile)
-            nfile = os.path.join(prefdir,fname)
-            if os.path.isfile(dfile):
-                shutil.copyfile(dfile,nfile)
-        self.po.setPreferences(newprefs)
-        return
-
-    def alldone(self):
-        if not self.dnd:
-            self.pd.enablebuttons()
-        else:
-            self.destroy()
-
-class PrefsDialog(Toplevel):
-    def __init__(self, mainapp, prefs_array):
-        Toplevel.__init__(self, mainapp)
-        self.withdraw()
-        self.protocol("WM_DELETE_WINDOW", self.withdraw)
-        self.title("DeDRM " + __version__)
-        self.prefs_array = prefs_array
-        self.status = Tkinter.Label(self, text='Setting Preferences')
-        self.status.pack(fill=Tkconstants.X, expand=1)
-        body = Tkinter.Frame(self)
-        self.body = body
-        body.pack(fill=Tkconstants.X, expand=1)
-        sticky = Tkconstants.E + Tkconstants.W
-        body.grid_columnconfigure(1, weight=2)
-
-        Tkinter.Label(body, text='Adept Key file (adeptkey.der)').grid(row=0, sticky=Tkconstants.E)
-        self.adkpath = Tkinter.Entry(body, width=50)
-        self.adkpath.grid(row=0, column=1, sticky=sticky)
-        prefdir = self.prefs_array['dir']
-        keyfile = os.path.join(prefdir,'adeptkey.der')
-        if os.path.isfile(keyfile):
-            path = keyfile
-            self.adkpath.insert(0, path)
-        button = Tkinter.Button(body, text="...", command=self.get_adkpath)
-        button.grid(row=0, column=2)
-
-        Tkinter.Label(body, text='Barnes and Noble Key file (bnepubkey.b64)').grid(row=1, sticky=Tkconstants.E)
-        self.bnkpath = Tkinter.Entry(body, width=50)
-        self.bnkpath.grid(row=1, column=1, sticky=sticky)
-        prefdir = self.prefs_array['dir']
-        keyfile = os.path.join(prefdir,'bnepubkey.b64')
-        if os.path.isfile(keyfile):
-            path = keyfile
-            self.bnkpath.insert(0, path)
-        button = Tkinter.Button(body, text="...", command=self.get_bnkpath)
-        button.grid(row=1, column=2)
-
-        Tkinter.Label(body, text='Additional kindle.info or .kinf file').grid(row=2, sticky=Tkconstants.E)
-        self.altinfopath = Tkinter.Entry(body, width=50)
-        self.altinfopath.grid(row=2, column=1, sticky=sticky)
-        prefdir = self.prefs_array['dir']
-        path = ''
-        infofile = os.path.join(prefdir,'kindle.info')
-        ainfofile = os.path.join(prefdir,'.kinf')
-        if os.path.isfile(infofile):
-            path = infofile
-        elif os.path.isfile(ainfofile):
-            path = ainfofile
-        self.altinfopath.insert(0, path)
-        button = Tkinter.Button(body, text="...", command=self.get_altinfopath)
-        button.grid(row=2, column=2)
-
-        Tkinter.Label(body, text='PID list (10 characters, no spaces, comma separated)').grid(row=3, sticky=Tkconstants.E)
-        self.pidnums = Tkinter.StringVar()
-        self.pidinfo = Tkinter.Entry(body, width=50, textvariable=self.pidnums)
-        if 'pids' in self.prefs_array:
-            self.pidnums.set(self.prefs_array['pids'])
-        self.pidinfo.grid(row=3, column=1, sticky=sticky)
-
-        Tkinter.Label(body, text='Kindle Serial Number list (16 characters, no spaces, comma separated)').grid(row=4, sticky=Tkconstants.E)
-        self.sernums = Tkinter.StringVar()
-        self.serinfo = Tkinter.Entry(body, width=50, textvariable=self.sernums)
-        if 'serials' in self.prefs_array:
-            self.sernums.set(self.prefs_array['serials'])
-        self.serinfo.grid(row=4, column=1, sticky=sticky)
-
-        Tkinter.Label(body, text='eReader data list (name:last 8 digits on credit card, comma separated)').grid(row=5, sticky=Tkconstants.E)
-        self.sdrmnums = Tkinter.StringVar()
-        self.sdrminfo = Tkinter.Entry(body, width=50, textvariable=self.sdrmnums)
-        if 'sdrms' in self.prefs_array:
-            self.sdrmnums.set(self.prefs_array['sdrms'])
-        self.sdrminfo.grid(row=5, column=1, sticky=sticky)
-
-        Tkinter.Label(body, text="Output Folder (if blank, use input ebook's folder)").grid(row=6, sticky=Tkconstants.E)
-        self.outpath = Tkinter.Entry(body, width=50)
-        self.outpath.grid(row=6, column=1, sticky=sticky)
-        if 'outdir' in self.prefs_array:
-            dpath = self.prefs_array['outdir']
-            self.outpath.insert(0, dpath)
-        button = Tkinter.Button(body, text="...", command=self.get_outpath)
-        button.grid(row=6, column=2)
-
-        Tkinter.Label(body, text='').grid(row=7, column=0, columnspan=2, sticky=Tkconstants.N)
-
-        Tkinter.Label(body, text='Alternatively Process an eBook').grid(row=8, column=0, columnspan=2, sticky=Tkconstants.N)
-
-        Tkinter.Label(body, text='Select an eBook to Process*').grid(row=9, sticky=Tkconstants.E)
-        self.bookpath = Tkinter.Entry(body, width=50)
-        self.bookpath.grid(row=9, column=1, sticky=sticky)
-        button = Tkinter.Button(body, text="...", command=self.get_bookpath)
-        button.grid(row=9, column=2)
-
-        Tkinter.Label(body, font=("Helvetica", "10", "italic"), text='*To DeDRM multiple ebooks simultaneously, set your preferences and quit.\nThen drag and drop ebooks or folders onto the DeDRM_Drop_Target').grid(row=10, column=1, sticky=Tkconstants.E)
-
-        Tkinter.Label(body, text='').grid(row=11, column=0, columnspan=2, sticky=Tkconstants.E)
-
-        buttons = Tkinter.Frame(self)
-        buttons.pack()
-        self.sbotton = Tkinter.Button(buttons, text="Set Prefs", width=14, command=self.setprefs)
-        self.sbotton.pack(side=Tkconstants.LEFT)
-
-        buttons.pack()
-        self.pbotton = Tkinter.Button(buttons, text="Process eBook", width=14, command=self.doit)
-        self.pbotton.pack(side=Tkconstants.LEFT)
-        buttons.pack()
-        self.qbotton = Tkinter.Button(buttons, text="Quit", width=14, command=self.quitting)
-        self.qbotton.pack(side=Tkconstants.RIGHT)
-        buttons.pack()
-
-    def disablebuttons(self):
-        self.sbotton.configure(state='disabled')
-        self.pbotton.configure(state='disabled')
-        self.qbotton.configure(state='disabled')
-
-    def enablebuttons(self):
-        self.sbotton.configure(state='normal')
-        self.pbotton.configure(state='normal')
-        self.qbotton.configure(state='normal')
-
-    def show(self):
-        self.deiconify()
-        self.tkraise()
-
-    def hide(self):
-        self.withdraw()
-
-    def get_outpath(self):
-        cpath = self.outpath.get()
-        outpath = tkFileDialog.askdirectory(
-            parent=None, title='Folder to Store Unencrypted file(s) into',
-            initialdir=cpath, initialfile=None)
-        if outpath:
-            outpath = os.path.normpath(outpath)
-            self.outpath.delete(0, Tkconstants.END)
-            self.outpath.insert(0, outpath)
-        return
-
-    def get_adkpath(self):
-        cpath = self.adkpath.get()
-        adkpath = tkFileDialog.askopenfilename(initialdir = cpath, parent=None, title='Select Adept Key file',
-            defaultextension='.der', filetypes=[('Adept Key file', '.der'), ('All Files', '.*')])
-        if adkpath:
-            adkpath = os.path.normpath(adkpath)
-            self.adkpath.delete(0, Tkconstants.END)
-            self.adkpath.insert(0, adkpath)
-        return
-
-    def get_bnkpath(self):
-        cpath = self.bnkpath.get()
-        bnkpath = tkFileDialog.askopenfilename(initialdir = cpath, parent=None, title='Select Barnes and Noble Key file',
-            defaultextension='.b64', filetypes=[('Barnes and Noble Key file', '.b64'), ('All Files', '.*')])
-        if bnkpath:
-            bnkpath = os.path.normpath(bnkpath)
-            self.bnkpath.delete(0, Tkconstants.END)
-            self.bnkpath.insert(0, bnkpath)
-        return
-
-    def get_altinfopath(self):
-        cpath = self.altinfopath.get()
-        altinfopath = tkFileDialog.askopenfilename(parent=None, title='Select Alternative kindle.info or .kinf File',
-            defaultextension='.info', filetypes=[('Kindle Info', '.info'),('Kindle KInf','.kinf')('All Files', '.*')],
-            initialdir=cpath)
-        if altinfopath:
-            altinfopath = os.path.normpath(altinfopath)
-            self.altinfopath.delete(0, Tkconstants.END)
-            self.altinfopath.insert(0, altinfopath)
-        return
-
-    def get_bookpath(self):
-        cpath = self.bookpath.get()
-        bookpath = tkFileDialog.askopenfilename(parent=None, title='Select eBook for DRM Removal',
-            filetypes=[('ePub Files','.epub'),
-                       ('Kindle','.azw'),
-                       ('Kindle','.azw1'),
-                       ('Kindle','.azw3'),
-                       ('Kindle','.azw4'),
-                       ('Kindle','.tpz'),
-                       ('Kindle','.mobi'),
-                       ('Kindle','.prc'),
-                       ('eReader','.pdb'),
-                       ('PDF','.pdf'),
-                       ('All Files', '.*')],
-            initialdir=cpath)
-        if bookpath:
-            bookpath = os.path.normpath(bookpath)
-            self.bookpath.delete(0, Tkconstants.END)
-            self.bookpath.insert(0, bookpath)
-        return
-
-    def quitting(self):
-        self.master.destroy()
-
-    def setprefs(self):
-        # setting new prefereces
-        new_prefs = {}
-        prefdir = self.prefs_array['dir']
-        new_prefs['dir'] = prefdir
-        new_prefs['pids'] = self.pidinfo.get().strip()
-        new_prefs['serials'] = self.serinfo.get().strip()
-        new_prefs['sdrms'] = self.sdrminfo.get().strip()
-        new_prefs['outdir'] = self.outpath.get().strip()
-        adkpath = self.adkpath.get()
-        if os.path.dirname(adkpath) != prefdir:
-            new_prefs['adkfile'] = adkpath
-        bnkpath = self.bnkpath.get()
-        if os.path.dirname(bnkpath) != prefdir:
-            new_prefs['bnkfile'] = bnkpath
-        altinfopath = self.altinfopath.get()
-        if os.path.dirname(altinfopath) != prefdir:
-            new_prefs['kinfofile'] = altinfopath
-        self.master.setPreferences(new_prefs)
-
-    def doit(self):
-        self.disablebuttons()
-        filenames=[]
-        bookpath = self.bookpath.get()
-        bookpath = os.path.abspath(bookpath)
-        filenames.append(bookpath)
-        self.master.cd.doit(self.prefs_array,filenames)
-
-
-
-class ConvDialog(Toplevel):
-    def __init__(self, master, prefs_array={}, filenames=[]):
-        Toplevel.__init__(self, master)
-        self.withdraw()
-        self.protocol("WM_DELETE_WINDOW", self.withdraw)
-        self.title("DeDRM Processing")
-        self.master = master
-        self.apphome = self.master.apphome
-        self.prefs_array = prefs_array
-        self.filenames = filenames
-        self.interval = 50
-        self.p2 = None
-        self.running = 'inactive'
-        self.numgood = 0
-        self.numbad = 0
-        self.log = ''
-        self.status = Tkinter.Label(self, text='DeDRM processing...')
-        self.status.pack(fill=Tkconstants.X, expand=1)
-        body = Tkinter.Frame(self)
-        body.pack(fill=Tkconstants.X, expand=1)
-        sticky = Tkconstants.E + Tkconstants.W
-        body.grid_columnconfigure(1, weight=2)
-
-        Tkinter.Label(body, text='Activity Bar').grid(row=0, sticky=Tkconstants.E)
-        self.bar = ActivityBar(body, length=80, height=15, barwidth=5)
-        self.bar.grid(row=0, column=1, sticky=sticky)
-
-        msg1 = ''
-        self.stext = ScrolledText(body, bd=5, relief=Tkconstants.RIDGE, height=4, width=80, wrap=Tkconstants.WORD)
-        self.stext.grid(row=2, column=0, columnspan=2,sticky=sticky)
-        self.stext.insert(Tkconstants.END,msg1)
-
-        buttons = Tkinter.Frame(self)
-        buttons.pack()
-        self.qbutton = Tkinter.Button(buttons, text="Quit", width=14, command=self.quitting)
-        self.qbutton.pack(side=Tkconstants.BOTTOM)
-        self.status['text'] = ''
-
-    def show(self):
-        self.deiconify()
-        self.tkraise()
-
-    def hide(self):
-        self.withdraw()
-
-    def doit(self, prefs, filenames):
-        self.running = 'inactive'
-        self.prefs_array = prefs
-        self.filenames = filenames
-        self.show()
-        self.processBooks()
-
-    def conversion_done(self):
-        self.hide()
-        self.master.alldone()
-
-    def processBooks(self):
-        while self.running == 'inactive':
-            rscpath = self.prefs_array['dir']
-            filename = None
-            if len(self.filenames) > 0:
-                filename = self.filenames.pop(0)
-            if filename == None:
-                msg = '\nComplete:  '
-                msg += 'Successes: %d, ' % self.numgood
-                msg += 'Failures: %d\n' % self.numbad
-                self.showCmdOutput(msg)
-                if self.numbad == 0:
-                    self.after(2000,self.conversion_done())
-                logfile = os.path.join(rscpath,'dedrm.log')
-                file(logfile,'w').write(self.log)
-                return
-            infile = filename
-            bname = os.path.basename(infile)
-            msg = 'Processing: ' + bname + ' ... '
-            self.log += msg
-            self.showCmdOutput(msg)
-            outdir = os.path.dirname(filename)
-            if 'outdir' in self.prefs_array:
-                dpath = self.prefs_array['outdir']
-                if dpath.strip() != '':
-                    outdir = dpath
-            rv = self.decrypt_ebook(infile, outdir, rscpath)
-            if rv == 0:
-                self.bar.start()
-                self.running = 'active'
-                self.processPipe()
-            else:
-                msg = 'Unknown File: ' + bname + '\n'
-                self.log += msg
-                self.showCmdOutput(msg)
-                self.numbad += 1
-
-    def quitting(self):
-        # kill any still running subprocess
-        self.running = 'stopped'
-        if self.p2 != None:
-            if (self.p2.wait('nowait') == None):
-                self.p2.terminate()
-        self.conversion_done()
-
-    # post output from subprocess in scrolled text widget
-    def showCmdOutput(self, msg):
-        if msg and msg !='':
-            if sys.platform.startswith('win'):
-                msg = msg.replace('\r\n','\n')
-            self.stext.insert(Tkconstants.END,msg)
-            self.stext.yview_pickplace(Tkconstants.END)
-        return
-
-    # read from subprocess pipe without blocking
-    # invoked every interval via the widget "after"
-    # option being used, so need to reset it for the next time
-    def processPipe(self):
-        if self.p2 == None:
-            # nothing to wait for so just return
-            return
-        poll = self.p2.wait('nowait')
-        if poll != None:
-            self.bar.stop()
-            if poll == 0:
-                msg = 'Success\n'
-                self.numgood += 1
-                text = self.p2.read()
-                text += self.p2.readerr()
-                self.log += text
-                self.log += msg
-            if poll != 0:
-                msg = 'Failed\n'
-                text = self.p2.read()
-                text += self.p2.readerr()
-                msg += text
-                msg += '\n'
-                self.numbad += 1
-                self.log += msg
-            self.showCmdOutput(msg)
-            self.p2 = None
-            self.running = 'inactive'
-            self.after(50,self.processBooks)
-            return
-        # make sure we get invoked again by event loop after interval
-        self.stext.after(self.interval,self.processPipe)
-        return
-
-    def decrypt_ebook(self, infile, outdir, rscpath):
-        apphome = self.apphome
-        rv = 1
-        name, ext = os.path.splitext(os.path.basename(infile))
-        ext = ext.lower()
-        if ext == '.epub':
-            self.p2 = processEPUB(apphome, infile, outdir, rscpath)
-            return 0
-        if ext == '.pdb':
-            self.p2 = processPDB(apphome, infile, outdir, rscpath)
-            return 0
-        if ext in ['.azw', '.azw1', '.azw3', '.azw4', '.prc', '.mobi', '.tpz']:
-            self.p2 = processK4MOBI(apphome, infile, outdir, rscpath)
-            return 0
-        if ext == '.pdf':
-            self.p2 = processPDF(apphome, infile, outdir, rscpath)
-            return 0
-        return rv
-
-
-# run as a subprocess via pipes and collect stdout, stderr, and return value
-def runit(apphome, ncmd, nparms):
-    pengine = sys.executable
-    if pengine is None or pengine == '':
-        pengine = 'python'
-    pengine = os.path.normpath(pengine)
-    cmdline = pengine + ' "' + os.path.join(apphome, ncmd) + '" '
-    # if sys.platform.startswith('win'):
-    #     search_path = os.environ['PATH']
-    #     search_path = search_path.lower()
-    #     if search_path.find('python') < 0:
-    #        # if no python hope that win registry finds what is associated with py extension
-    #        cmdline = pengine + ' "' + os.path.join(apphome, ncmd) + '" '
-    cmdline += nparms
-    cmdline = cmdline.encode(sys.getfilesystemencoding())
-    p2 = subasyncio.Process(cmdline, shell=True, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, close_fds=False)
-    return p2
-
-def processK4MOBI(apphome, infile, outdir, rscpath):
-    cmd = os.path.join('lib','k4mobidedrm.py')
-    parms = ''
-    pidnums = ''
-    pidspath = os.path.join(rscpath,'pidlist.txt')
-    if os.path.exists(pidspath):
-        pidnums = file(pidspath,'r').read()
-        pidnums = pidnums.rstrip(os.linesep)
-    if pidnums != '':
-        parms += '-p "' + pidnums + '" '
-    serialnums = ''
-    serialnumspath = os.path.join(rscpath,'seriallist.txt')
-    if os.path.exists(serialnumspath):
-        serialnums = file(serialnumspath,'r').read()
-        serialnums = serialnums.rstrip(os.linesep)
-    if serialnums != '':
-        parms += '-s "' + serialnums + '" '
-
-    files = os.listdir(rscpath)
-    filefilter = re.compile("\.info$|\.kinf$", re.IGNORECASE)
-    files = filter(filefilter.search, files)
-    if files:
-        for filename in files:
-            dpath = os.path.join(rscpath,filename)
-            parms += '-k "' + dpath + '" '
-    parms += '"' + infile +'" "' + outdir + '"'
-    p2 = runit(apphome, cmd, parms)
-    return p2
-
-def processPDF(apphome, infile, outdir, rscpath):
-    cmd = os.path.join('lib','decryptpdf.py')
-    parms =  '"' + infile + '" "' + outdir + '" "' + rscpath + '"'
-    p2 = runit(apphome, cmd, parms)
-    return p2
-
-def processEPUB(apphome, infile, outdir, rscpath):
-    # invoke routine to check both Adept and Barnes and Noble
-    cmd = os.path.join('lib','decryptepub.py')
-    parms = '"' + infile + '" "' + outdir + '" "' + rscpath + '"'
-    p2 = runit(apphome, cmd, parms)
-    return p2
-
-def processPDB(apphome, infile, outdir, rscpath):
-    cmd = os.path.join('lib','decryptpdb.py')
-    parms = '"' + infile + '" "' + outdir + '" "' + rscpath + '"'
-    p2 = runit(apphome, cmd, parms)
-    return p2
-
-
-def main(argv=sys.argv):
-    apphome = os.path.dirname(sys.argv[0])
-    apphome = os.path.abspath(apphome)
-
-    # windows may pass a spurious quoted null string as argv[1] from bat file
-    # simply work around this until we can figure out a better way to handle things
-    if len(argv) == 2:
-        temp = argv[1]
-        temp = temp.strip('"')
-        temp = temp.strip()
-        if temp == '':
-            argv.pop()
-
-    if len(argv) == 1:
-        filenames = []
-        dnd = False
-
-    else : # processing books via drag and drop
-        dnd = True
-        # build a list of the files to be processed
-        infilelst = argv[1:]
-        filenames = []
-        for infile in infilelst:
-            infile = infile.decode(sys.getfilesystemencoding())
-            print infile
-            infile = infile.replace('"','')
-            infile = os.path.abspath(infile)
-            if os.path.isdir(infile):
-                bpath = infile
-                filelst = os.listdir(infile)
-                for afile in filelst:
-                    if not afile.startswith('.'):
-                        filepath = os.path.join(bpath,afile)
-                        if os.path.isfile(filepath):
-                            filenames.append(filepath)
-            else :
-                afile = os.path.basename(infile)
-                if not afile.startswith('.'):
-                    if os.path.isfile(infile):
-                        filenames.append(infile)
-
-    # start up gui app
-    app = MainApp(apphome, dnd, filenames)
-    app.mainloop()
-    return 0
-
-
-if __name__ == "__main__":
-    sys.exit(main())
--- a/DeDRM_Windows_Application/DeDRM_WinApp/DeDRM_lib/lib/aescbc.py
+++ b/DeDRM_Windows_Application/DeDRM_WinApp/DeDRM_lib/lib/aescbc.py
@@ -1,568 +0,0 @@
-#! /usr/bin/env python
-
-"""
-    Routines for doing AES CBC in one file
-
-    Modified by some_updates to extract
-    and combine only those parts needed for AES CBC
-    into one simple to add python file
-
-    Original Version
-    Copyright (c) 2002 by Paul A. Lambert
-    Under:
-    CryptoPy Artisitic License Version 1.0
-    See the wonderful pure python package cryptopy-1.2.5
-    and read its LICENSE.txt for complete license details.
-"""
-
-class CryptoError(Exception):
-    """ Base class for crypto exceptions """
-    def __init__(self,errorMessage='Error!'):
-        self.message = errorMessage
-    def __str__(self):
-        return self.message
-
-class InitCryptoError(CryptoError):
-    """ Crypto errors during algorithm initialization """
-class BadKeySizeError(InitCryptoError):
-    """ Bad key size error """
-class EncryptError(CryptoError):
-    """ Error in encryption processing """
-class DecryptError(CryptoError):
-    """ Error in decryption processing """
-class DecryptNotBlockAlignedError(DecryptError):
-    """ Error in decryption processing """
-
-def xorS(a,b):
-    """ XOR two strings """
-    assert len(a)==len(b)
-    x = []
-    for i in range(len(a)):
-        x.append( chr(ord(a[i])^ord(b[i])))
-    return ''.join(x)
-
-def xor(a,b):
-    """ XOR two strings """
-    x = []
-    for i in range(min(len(a),len(b))):
-        x.append( chr(ord(a[i])^ord(b[i])))
-    return ''.join(x)
-
-"""
-    Base 'BlockCipher' and Pad classes for cipher instances.
-    BlockCipher supports automatic padding and type conversion. The BlockCipher
-    class was written to make the actual algorithm code more readable and
-    not for performance.
-"""
-
-class BlockCipher:
-    """ Block ciphers """
-    def __init__(self):
-        self.reset()
-
-    def reset(self):
-        self.resetEncrypt()
-        self.resetDecrypt()
-    def resetEncrypt(self):
-        self.encryptBlockCount = 0
-        self.bytesToEncrypt = ''
-    def resetDecrypt(self):
-        self.decryptBlockCount = 0
-        self.bytesToDecrypt = ''
-
-    def encrypt(self, plainText, more = None):
-        """ Encrypt a string and return a binary string """
-        self.bytesToEncrypt += plainText  # append plainText to any bytes from prior encrypt
-        numBlocks, numExtraBytes = divmod(len(self.bytesToEncrypt), self.blockSize)
-        cipherText = ''
-        for i in range(numBlocks):
-            bStart = i*self.blockSize
-            ctBlock = self.encryptBlock(self.bytesToEncrypt[bStart:bStart+self.blockSize])
-            self.encryptBlockCount += 1
-            cipherText += ctBlock
-        if numExtraBytes > 0:        # save any bytes that are not block aligned
-            self.bytesToEncrypt = self.bytesToEncrypt[-numExtraBytes:]
-        else:
-            self.bytesToEncrypt = ''
-
-        if more == None:   # no more data expected from caller
-            finalBytes = self.padding.addPad(self.bytesToEncrypt,self.blockSize)
-            if len(finalBytes) > 0:
-                ctBlock = self.encryptBlock(finalBytes)
-                self.encryptBlockCount += 1
-                cipherText += ctBlock
-            self.resetEncrypt()
-        return cipherText
-
-    def decrypt(self, cipherText, more = None):
-        """ Decrypt a string and return a string """
-        self.bytesToDecrypt += cipherText  # append to any bytes from prior decrypt
-
-        numBlocks, numExtraBytes = divmod(len(self.bytesToDecrypt), self.blockSize)
-        if more == None:  # no more calls to decrypt, should have all the data
-            if numExtraBytes  != 0:
-                raise DecryptNotBlockAlignedError, 'Data not block aligned on decrypt'
-
-        # hold back some bytes in case last decrypt has zero len
-        if (more != None) and (numExtraBytes == 0) and (numBlocks >0) :
-            numBlocks -= 1
-            numExtraBytes = self.blockSize
-
-        plainText = ''
-        for i in range(numBlocks):
-            bStart = i*self.blockSize
-            ptBlock = self.decryptBlock(self.bytesToDecrypt[bStart : bStart+self.blockSize])
-            self.decryptBlockCount += 1
-            plainText += ptBlock
-
-        if numExtraBytes > 0:        # save any bytes that are not block aligned
-            self.bytesToEncrypt = self.bytesToEncrypt[-numExtraBytes:]
-        else:
-            self.bytesToEncrypt = ''
-
-        if more == None:         # last decrypt remove padding
-            plainText = self.padding.removePad(plainText, self.blockSize)
-            self.resetDecrypt()
-        return plainText
-
-
-class Pad:
-    def __init__(self):
-        pass              # eventually could put in calculation of min and max size extension
-
-class padWithPadLen(Pad):
-    """ Pad a binary string with the length of the padding """
-
-    def addPad(self, extraBytes, blockSize):
-        """ Add padding to a binary string to make it an even multiple
-            of the block size """
-        blocks, numExtraBytes = divmod(len(extraBytes), blockSize)
-        padLength = blockSize - numExtraBytes
-        return extraBytes + padLength*chr(padLength)
-
-    def removePad(self, paddedBinaryString, blockSize):
-        """ Remove padding from a binary string """
-        if not(0<len(paddedBinaryString)):
-            raise DecryptNotBlockAlignedError, 'Expected More Data'
-        return paddedBinaryString[:-ord(paddedBinaryString[-1])]
-
-class noPadding(Pad):
-    """ No padding. Use this to get ECB behavior from encrypt/decrypt """
-
-    def addPad(self, extraBytes, blockSize):
-        """ Add no padding """
-        return extraBytes
-
-    def removePad(self, paddedBinaryString, blockSize):
-        """ Remove no padding """
-        return paddedBinaryString
-
-"""
-    Rijndael encryption algorithm
-    This byte oriented implementation is intended to closely
-    match FIPS specification for readability.  It is not implemented
-    for performance.
-"""
-
-class Rijndael(BlockCipher):
-    """ Rijndael encryption algorithm """
-    def __init__(self, key = None, padding = padWithPadLen(), keySize=16, blockSize=16 ):
-        self.name       = 'RIJNDAEL'
-        self.keySize    = keySize
-        self.strength   = keySize*8
-        self.blockSize  = blockSize  # blockSize is in bytes
-        self.padding    = padding    # change default to noPadding() to get normal ECB behavior
-
-        assert( keySize%4==0 and NrTable[4].has_key(keySize/4)),'key size must be 16,20,24,29 or 32 bytes'
-        assert( blockSize%4==0 and NrTable.has_key(blockSize/4)), 'block size must be 16,20,24,29 or 32 bytes'
-
-        self.Nb = self.blockSize/4          # Nb is number of columns of 32 bit words
-        self.Nk = keySize/4                 # Nk is the key length in 32-bit words
-        self.Nr = NrTable[self.Nb][self.Nk] # The number of rounds (Nr) is a function of
-                                            # the block (Nb) and key (Nk) sizes.
-        if key != None:
-            self.setKey(key)
-
-    def setKey(self, key):
-        """ Set a key and generate the expanded key """
-        assert( len(key) == (self.Nk*4) ), 'Key length must be same as keySize parameter'
-        self.__expandedKey = keyExpansion(self, key)
-        self.reset()                   # BlockCipher.reset()
-
-    def encryptBlock(self, plainTextBlock):
-        """ Encrypt a block, plainTextBlock must be a array of bytes [Nb by 4] """
-        self.state = self._toBlock(plainTextBlock)
-        AddRoundKey(self, self.__expandedKey[0:self.Nb])
-        for round in range(1,self.Nr):          #for round = 1 step 1 to Nr
-            SubBytes(self)
-            ShiftRows(self)
-            MixColumns(self)
-            AddRoundKey(self, self.__expandedKey[round*self.Nb:(round+1)*self.Nb])
-        SubBytes(self)
-        ShiftRows(self)
-        AddRoundKey(self, self.__expandedKey[self.Nr*self.Nb:(self.Nr+1)*self.Nb])
-        return self._toBString(self.state)
-
-
-    def decryptBlock(self, encryptedBlock):
-        """ decrypt a block (array of bytes) """
-        self.state = self._toBlock(encryptedBlock)
-        AddRoundKey(self, self.__expandedKey[self.Nr*self.Nb:(self.Nr+1)*self.Nb])
-        for round in range(self.Nr-1,0,-1):
-            InvShiftRows(self)
-            InvSubBytes(self)
-            AddRoundKey(self, self.__expandedKey[round*self.Nb:(round+1)*self.Nb])
-            InvMixColumns(self)
-        InvShiftRows(self)
-        InvSubBytes(self)
-        AddRoundKey(self, self.__expandedKey[0:self.Nb])
-        return self._toBString(self.state)
-
-    def _toBlock(self, bs):
-        """ Convert binary string to array of bytes, state[col][row]"""
-        assert ( len(bs) == 4*self.Nb ), 'Rijndarl blocks must be of size blockSize'
-        return [[ord(bs[4*i]),ord(bs[4*i+1]),ord(bs[4*i+2]),ord(bs[4*i+3])] for i in range(self.Nb)]
-
-    def _toBString(self, block):
-        """ Convert block (array of bytes) to binary string """
-        l = []
-        for col in block:
-            for rowElement in col:
-                l.append(chr(rowElement))
-        return ''.join(l)
-#-------------------------------------
-"""    Number of rounds Nr = NrTable[Nb][Nk]
-
-            Nb  Nk=4   Nk=5   Nk=6   Nk=7   Nk=8
-            -------------------------------------   """
-NrTable =  {4: {4:10,  5:11,  6:12,  7:13,  8:14},
-            5: {4:11,  5:11,  6:12,  7:13,  8:14},
-            6: {4:12,  5:12,  6:12,  7:13,  8:14},
-            7: {4:13,  5:13,  6:13,  7:13,  8:14},
-            8: {4:14,  5:14,  6:14,  7:14,  8:14}}
-#-------------------------------------
-def keyExpansion(algInstance, keyString):
-    """ Expand a string of size keySize into a larger array """
-    Nk, Nb, Nr = algInstance.Nk, algInstance.Nb, algInstance.Nr # for readability
-    key = [ord(byte) for byte in keyString]  # convert string to list
-    w = [[key[4*i],key[4*i+1],key[4*i+2],key[4*i+3]] for i in range(Nk)]
-    for i in range(Nk,Nb*(Nr+1)):
-        temp = w[i-1]        # a four byte column
-        if (i%Nk) == 0 :
-            temp     = temp[1:]+[temp[0]]  # RotWord(temp)
-            temp     = [ Sbox[byte] for byte in temp ]
-            temp[0] ^= Rcon[i/Nk]
-        elif Nk > 6 and  i%Nk == 4 :
-            temp     = [ Sbox[byte] for byte in temp ]  # SubWord(temp)
-        w.append( [ w[i-Nk][byte]^temp[byte] for byte in range(4) ] )
-    return w
-
-Rcon = (0,0x01,0x02,0x04,0x08,0x10,0x20,0x40,0x80,0x1b,0x36,     # note extra '0' !!!
-        0x6c,0xd8,0xab,0x4d,0x9a,0x2f,0x5e,0xbc,0x63,0xc6,
-        0x97,0x35,0x6a,0xd4,0xb3,0x7d,0xfa,0xef,0xc5,0x91)
-
-#-------------------------------------
-def AddRoundKey(algInstance, keyBlock):
-    """ XOR the algorithm state with a block of key material """
-    for column in range(algInstance.Nb):
-        for row in range(4):
-            algInstance.state[column][row] ^= keyBlock[column][row]
-#-------------------------------------
-
-def SubBytes(algInstance):
-    for column in range(algInstance.Nb):
-        for row in range(4):
-            algInstance.state[column][row] = Sbox[algInstance.state[column][row]]
-
-def InvSubBytes(algInstance):
-    for column in range(algInstance.Nb):
-        for row in range(4):
-            algInstance.state[column][row] = InvSbox[algInstance.state[column][row]]
-
-Sbox =    (0x63,0x7c,0x77,0x7b,0xf2,0x6b,0x6f,0xc5,
-           0x30,0x01,0x67,0x2b,0xfe,0xd7,0xab,0x76,
-           0xca,0x82,0xc9,0x7d,0xfa,0x59,0x47,0xf0,
-           0xad,0xd4,0xa2,0xaf,0x9c,0xa4,0x72,0xc0,
-           0xb7,0xfd,0x93,0x26,0x36,0x3f,0xf7,0xcc,
-           0x34,0xa5,0xe5,0xf1,0x71,0xd8,0x31,0x15,
-           0x04,0xc7,0x23,0xc3,0x18,0x96,0x05,0x9a,
-           0x07,0x12,0x80,0xe2,0xeb,0x27,0xb2,0x75,
-           0x09,0x83,0x2c,0x1a,0x1b,0x6e,0x5a,0xa0,
-           0x52,0x3b,0xd6,0xb3,0x29,0xe3,0x2f,0x84,
-           0x53,0xd1,0x00,0xed,0x20,0xfc,0xb1,0x5b,
-           0x6a,0xcb,0xbe,0x39,0x4a,0x4c,0x58,0xcf,
-           0xd0,0xef,0xaa,0xfb,0x43,0x4d,0x33,0x85,
-           0x45,0xf9,0x02,0x7f,0x50,0x3c,0x9f,0xa8,
-           0x51,0xa3,0x40,0x8f,0x92,0x9d,0x38,0xf5,
-           0xbc,0xb6,0xda,0x21,0x10,0xff,0xf3,0xd2,
-           0xcd,0x0c,0x13,0xec,0x5f,0x97,0x44,0x17,
-           0xc4,0xa7,0x7e,0x3d,0x64,0x5d,0x19,0x73,
-           0x60,0x81,0x4f,0xdc,0x22,0x2a,0x90,0x88,
-           0x46,0xee,0xb8,0x14,0xde,0x5e,0x0b,0xdb,
-           0xe0,0x32,0x3a,0x0a,0x49,0x06,0x24,0x5c,
-           0xc2,0xd3,0xac,0x62,0x91,0x95,0xe4,0x79,
-           0xe7,0xc8,0x37,0x6d,0x8d,0xd5,0x4e,0xa9,
-           0x6c,0x56,0xf4,0xea,0x65,0x7a,0xae,0x08,
-           0xba,0x78,0x25,0x2e,0x1c,0xa6,0xb4,0xc6,
-           0xe8,0xdd,0x74,0x1f,0x4b,0xbd,0x8b,0x8a,
-           0x70,0x3e,0xb5,0x66,0x48,0x03,0xf6,0x0e,
-           0x61,0x35,0x57,0xb9,0x86,0xc1,0x1d,0x9e,
-           0xe1,0xf8,0x98,0x11,0x69,0xd9,0x8e,0x94,
-           0x9b,0x1e,0x87,0xe9,0xce,0x55,0x28,0xdf,
-           0x8c,0xa1,0x89,0x0d,0xbf,0xe6,0x42,0x68,
-           0x41,0x99,0x2d,0x0f,0xb0,0x54,0xbb,0x16)
-
-InvSbox = (0x52,0x09,0x6a,0xd5,0x30,0x36,0xa5,0x38,
-           0xbf,0x40,0xa3,0x9e,0x81,0xf3,0xd7,0xfb,
-           0x7c,0xe3,0x39,0x82,0x9b,0x2f,0xff,0x87,
-           0x34,0x8e,0x43,0x44,0xc4,0xde,0xe9,0xcb,
-           0x54,0x7b,0x94,0x32,0xa6,0xc2,0x23,0x3d,
-           0xee,0x4c,0x95,0x0b,0x42,0xfa,0xc3,0x4e,
-           0x08,0x2e,0xa1,0x66,0x28,0xd9,0x24,0xb2,
-           0x76,0x5b,0xa2,0x49,0x6d,0x8b,0xd1,0x25,
-           0x72,0xf8,0xf6,0x64,0x86,0x68,0x98,0x16,
-           0xd4,0xa4,0x5c,0xcc,0x5d,0x65,0xb6,0x92,
-           0x6c,0x70,0x48,0x50,0xfd,0xed,0xb9,0xda,
-           0x5e,0x15,0x46,0x57,0xa7,0x8d,0x9d,0x84,
-           0x90,0xd8,0xab,0x00,0x8c,0xbc,0xd3,0x0a,
-           0xf7,0xe4,0x58,0x05,0xb8,0xb3,0x45,0x06,
-           0xd0,0x2c,0x1e,0x8f,0xca,0x3f,0x0f,0x02,
-           0xc1,0xaf,0xbd,0x03,0x01,0x13,0x8a,0x6b,
-           0x3a,0x91,0x11,0x41,0x4f,0x67,0xdc,0xea,
-           0x97,0xf2,0xcf,0xce,0xf0,0xb4,0xe6,0x73,
-           0x96,0xac,0x74,0x22,0xe7,0xad,0x35,0x85,
-           0xe2,0xf9,0x37,0xe8,0x1c,0x75,0xdf,0x6e,
-           0x47,0xf1,0x1a,0x71,0x1d,0x29,0xc5,0x89,
-           0x6f,0xb7,0x62,0x0e,0xaa,0x18,0xbe,0x1b,
-           0xfc,0x56,0x3e,0x4b,0xc6,0xd2,0x79,0x20,
-           0x9a,0xdb,0xc0,0xfe,0x78,0xcd,0x5a,0xf4,
-           0x1f,0xdd,0xa8,0x33,0x88,0x07,0xc7,0x31,
-           0xb1,0x12,0x10,0x59,0x27,0x80,0xec,0x5f,
-           0x60,0x51,0x7f,0xa9,0x19,0xb5,0x4a,0x0d,
-           0x2d,0xe5,0x7a,0x9f,0x93,0xc9,0x9c,0xef,
-           0xa0,0xe0,0x3b,0x4d,0xae,0x2a,0xf5,0xb0,
-           0xc8,0xeb,0xbb,0x3c,0x83,0x53,0x99,0x61,
-           0x17,0x2b,0x04,0x7e,0xba,0x77,0xd6,0x26,
-           0xe1,0x69,0x14,0x63,0x55,0x21,0x0c,0x7d)
-
-#-------------------------------------
-""" For each block size (Nb), the ShiftRow operation shifts row i
-    by the amount Ci.  Note that row 0 is not shifted.
-                 Nb      C1 C2 C3
-               -------------------  """
-shiftOffset  = { 4 : ( 0, 1, 2, 3),
-                 5 : ( 0, 1, 2, 3),
-                 6 : ( 0, 1, 2, 3),
-                 7 : ( 0, 1, 2, 4),
-                 8 : ( 0, 1, 3, 4) }
-def ShiftRows(algInstance):
-    tmp = [0]*algInstance.Nb   # list of size Nb
-    for r in range(1,4):       # row 0 reamains unchanged and can be skipped
-        for c in range(algInstance.Nb):
-            tmp[c] = algInstance.state[(c+shiftOffset[algInstance.Nb][r]) % algInstance.Nb][r]
-        for c in range(algInstance.Nb):
-            algInstance.state[c][r] = tmp[c]
-def InvShiftRows(algInstance):
-    tmp = [0]*algInstance.Nb   # list of size Nb
-    for r in range(1,4):       # row 0 reamains unchanged and can be skipped
-        for c in range(algInstance.Nb):
-            tmp[c] = algInstance.state[(c+algInstance.Nb-shiftOffset[algInstance.Nb][r]) % algInstance.Nb][r]
-        for c in range(algInstance.Nb):
-            algInstance.state[c][r] = tmp[c]
-#-------------------------------------
-def MixColumns(a):
-    Sprime = [0,0,0,0]
-    for j in range(a.Nb):    # for each column
-        Sprime[0] = mul(2,a.state[j][0])^mul(3,a.state[j][1])^mul(1,a.state[j][2])^mul(1,a.state[j][3])
-        Sprime[1] = mul(1,a.state[j][0])^mul(2,a.state[j][1])^mul(3,a.state[j][2])^mul(1,a.state[j][3])
-        Sprime[2] = mul(1,a.state[j][0])^mul(1,a.state[j][1])^mul(2,a.state[j][2])^mul(3,a.state[j][3])
-        Sprime[3] = mul(3,a.state[j][0])^mul(1,a.state[j][1])^mul(1,a.state[j][2])^mul(2,a.state[j][3])
-        for i in range(4):
-            a.state[j][i] = Sprime[i]
-
-def InvMixColumns(a):
-    """ Mix the four bytes of every column in a linear way
-        This is the opposite operation of Mixcolumn """
-    Sprime = [0,0,0,0]
-    for j in range(a.Nb):    # for each column
-        Sprime[0] = mul(0x0E,a.state[j][0])^mul(0x0B,a.state[j][1])^mul(0x0D,a.state[j][2])^mul(0x09,a.state[j][3])
-        Sprime[1] = mul(0x09,a.state[j][0])^mul(0x0E,a.state[j][1])^mul(0x0B,a.state[j][2])^mul(0x0D,a.state[j][3])
-        Sprime[2] = mul(0x0D,a.state[j][0])^mul(0x09,a.state[j][1])^mul(0x0E,a.state[j][2])^mul(0x0B,a.state[j][3])
-        Sprime[3] = mul(0x0B,a.state[j][0])^mul(0x0D,a.state[j][1])^mul(0x09,a.state[j][2])^mul(0x0E,a.state[j][3])
-        for i in range(4):
-            a.state[j][i] = Sprime[i]
-
-#-------------------------------------
-def mul(a, b):
-    """ Multiply two elements of GF(2^m)
-        needed for MixColumn and InvMixColumn """
-    if (a !=0 and  b!=0):
-        return Alogtable[(Logtable[a] + Logtable[b])%255]
-    else:
-        return 0
-
-Logtable = ( 0,   0,  25,   1,  50,   2,  26, 198,  75, 199,  27, 104,  51, 238, 223,   3,
-           100,   4, 224,  14,  52, 141, 129, 239,  76, 113,   8, 200, 248, 105,  28, 193,
-           125, 194,  29, 181, 249, 185,  39, 106,  77, 228, 166, 114, 154, 201,   9, 120,
-           101,  47, 138,   5,  33,  15, 225,  36,  18, 240, 130,  69,  53, 147, 218, 142,
-           150, 143, 219, 189,  54, 208, 206, 148,  19,  92, 210, 241,  64,  70, 131,  56,
-           102, 221, 253,  48, 191,   6, 139,  98, 179,  37, 226, 152,  34, 136, 145,  16,
-           126, 110,  72, 195, 163, 182,  30,  66,  58, 107,  40,  84, 250, 133,  61, 186,
-            43, 121,  10,  21, 155, 159,  94, 202,  78, 212, 172, 229, 243, 115, 167,  87,
-           175,  88, 168,  80, 244, 234, 214, 116,  79, 174, 233, 213, 231, 230, 173, 232,
-            44, 215, 117, 122, 235,  22,  11, 245,  89, 203,  95, 176, 156, 169,  81, 160,
-           127,  12, 246, 111,  23, 196,  73, 236, 216,  67,  31,  45, 164, 118, 123, 183,
-           204, 187,  62,  90, 251,  96, 177, 134,  59,  82, 161, 108, 170,  85,  41, 157,
-           151, 178, 135, 144,  97, 190, 220, 252, 188, 149, 207, 205,  55,  63,  91, 209,
-            83,  57, 132,  60,  65, 162, 109,  71,  20,  42, 158,  93,  86, 242, 211, 171,
-            68,  17, 146, 217,  35,  32,  46, 137, 180, 124, 184,  38, 119, 153, 227, 165,
-           103,  74, 237, 222, 197,  49, 254,  24,  13,  99, 140, 128, 192, 247, 112,   7)
-
-Alogtable= ( 1,   3,   5,  15,  17,  51,  85, 255,  26,  46, 114, 150, 161, 248,  19,  53,
-            95, 225,  56,  72, 216, 115, 149, 164, 247,   2,   6,  10,  30,  34, 102, 170,
-           229,  52,  92, 228,  55,  89, 235,  38, 106, 190, 217, 112, 144, 171, 230,  49,
-            83, 245,   4,  12,  20,  60,  68, 204,  79, 209, 104, 184, 211, 110, 178, 205,
-            76, 212, 103, 169, 224,  59,  77, 215,  98, 166, 241,   8,  24,  40, 120, 136,
-           131, 158, 185, 208, 107, 189, 220, 127, 129, 152, 179, 206,  73, 219, 118, 154,
-           181, 196,  87, 249,  16,  48,  80, 240,  11,  29,  39, 105, 187, 214,  97, 163,
-           254,  25,  43, 125, 135, 146, 173, 236,  47, 113, 147, 174, 233,  32,  96, 160,
-           251,  22,  58,  78, 210, 109, 183, 194,  93, 231,  50,  86, 250,  21,  63,  65,
-           195,  94, 226,  61,  71, 201,  64, 192,  91, 237,  44, 116, 156, 191, 218, 117,
-           159, 186, 213, 100, 172, 239,  42, 126, 130, 157, 188, 223, 122, 142, 137, 128,
-           155, 182, 193,  88, 232,  35, 101, 175, 234,  37, 111, 177, 200,  67, 197,  84,
-           252,  31,  33,  99, 165, 244,   7,   9,  27,  45, 119, 153, 176, 203,  70, 202,
-            69, 207,  74, 222, 121, 139, 134, 145, 168, 227,  62,  66, 198,  81, 243,  14,
-            18,  54,  90, 238,  41, 123, 141, 140, 143, 138, 133, 148, 167, 242,  13,  23,
-            57,  75, 221, 124, 132, 151, 162, 253,  28,  36, 108, 180, 199,  82, 246,   1)
-
-
-
-
-"""
-    AES Encryption Algorithm
-    The AES algorithm is just Rijndael algorithm restricted to the default
-    blockSize of 128 bits.
-"""
-
-class AES(Rijndael):
-    """ The AES algorithm is the Rijndael block cipher restricted to block
-        sizes of 128 bits and key sizes of 128, 192 or 256 bits
-    """
-    def __init__(self, key = None, padding = padWithPadLen(), keySize=16):
-        """ Initialize AES, keySize is in bytes """
-        if  not (keySize == 16 or keySize == 24 or keySize == 32) :
-            raise BadKeySizeError, 'Illegal AES key size, must be 16, 24, or 32 bytes'
-
-        Rijndael.__init__( self, key, padding=padding, keySize=keySize, blockSize=16 )
-
-        self.name       = 'AES'
-
-
-"""
-    CBC mode of encryption for block ciphers.
-    This algorithm mode wraps any BlockCipher to make a
-    Cipher Block Chaining mode.
-"""
-from random             import Random  # should change to crypto.random!!!
-
-
-class CBC(BlockCipher):
-    """ The CBC class wraps block ciphers to make cipher block chaining (CBC) mode
-        algorithms.  The initialization (IV) is automatic if set to None.  Padding
-        is also automatic based on the Pad class used to initialize the algorithm
-    """
-    def __init__(self, blockCipherInstance, padding = padWithPadLen()):
-        """ CBC algorithms are created by initializing with a BlockCipher instance """
-        self.baseCipher = blockCipherInstance
-        self.name       = self.baseCipher.name + '_CBC'
-        self.blockSize  = self.baseCipher.blockSize
-        self.keySize    = self.baseCipher.keySize
-        self.padding    = padding
-        self.baseCipher.padding = noPadding()   # baseCipher should NOT pad!!
-        self.r          = Random()            # for IV generation, currently uses
-                                              # mediocre standard distro version     <----------------
-        import time
-        newSeed = time.ctime()+str(self.r)    # seed with instance location
-        self.r.seed(newSeed)                  # to make unique
-        self.reset()
-
-    def setKey(self, key):
-        self.baseCipher.setKey(key)
-
-    # Overload to reset both CBC state and the wrapped baseCipher
-    def resetEncrypt(self):
-        BlockCipher.resetEncrypt(self)  # reset CBC encrypt state (super class)
-        self.baseCipher.resetEncrypt()  # reset base cipher encrypt state
-
-    def resetDecrypt(self):
-        BlockCipher.resetDecrypt(self)  # reset CBC state (super class)
-        self.baseCipher.resetDecrypt()  # reset base cipher decrypt state
-
-    def encrypt(self, plainText, iv=None, more=None):
-        """ CBC encryption - overloads baseCipher to allow optional explicit IV
-            when iv=None, iv is auto generated!
-        """
-        if self.encryptBlockCount == 0:
-            self.iv = iv
-        else:
-            assert(iv==None), 'IV used only on first call to encrypt'
-
-        return BlockCipher.encrypt(self,plainText, more=more)
-
-    def decrypt(self, cipherText, iv=None, more=None):
-        """ CBC decryption - overloads baseCipher to allow optional explicit IV
-            when iv=None, iv is auto generated!
-        """
-        if self.decryptBlockCount == 0:
-            self.iv = iv
-        else:
-            assert(iv==None), 'IV used only on first call to decrypt'
-
-        return BlockCipher.decrypt(self, cipherText, more=more)
-
-    def encryptBlock(self, plainTextBlock):
-        """ CBC block encryption, IV is set with 'encrypt' """
-        auto_IV = ''
-        if self.encryptBlockCount == 0:
-            if self.iv == None:
-                # generate IV and use
-                self.iv = ''.join([chr(self.r.randrange(256)) for i in range(self.blockSize)])
-                self.prior_encr_CT_block = self.iv
-                auto_IV = self.prior_encr_CT_block    # prepend IV if it's automatic
-            else:                       # application provided IV
-                assert(len(self.iv) == self.blockSize ),'IV must be same length as block'
-                self.prior_encr_CT_block = self.iv
-        """ encrypt the prior CT XORed with the PT """
-        ct = self.baseCipher.encryptBlock( xor(self.prior_encr_CT_block, plainTextBlock) )
-        self.prior_encr_CT_block = ct
-        return auto_IV+ct
-
-    def decryptBlock(self, encryptedBlock):
-        """ Decrypt a single block """
-
-        if self.decryptBlockCount == 0:   # first call, process IV
-            if self.iv == None:    # auto decrypt IV?
-                self.prior_CT_block = encryptedBlock
-                return ''
-            else:
-                assert(len(self.iv)==self.blockSize),"Bad IV size on CBC decryption"
-                self.prior_CT_block = self.iv
-
-        dct = self.baseCipher.decryptBlock(encryptedBlock)
-        """ XOR the prior decrypted CT with the prior CT """
-        dct_XOR_priorCT = xor( self.prior_CT_block, dct )
-
-        self.prior_CT_block = encryptedBlock
-
-        return dct_XOR_priorCT
-
-
-"""
-    AES_CBC Encryption Algorithm
-"""
-
-class AES_CBC(CBC):
-    """ AES encryption in CBC feedback mode """
-    def __init__(self, key=None, padding=padWithPadLen(), keySize=16):
-        CBC.__init__( self, AES(key, noPadding(), keySize), padding)
-        self.name       = 'AES_CBC'
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