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by Luigi Auriemma
e-mail: [email protected]
web: aluigi.org
home: http://quickbms.com
help: http://zenhax.com
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- Introduction
- Usage
- Reimporting the extracted files
- How to create scripts (for developers only!)
- Experimental input, output and other features
- Notes
- Support
- Additional credits
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QuickBMS is a multiplatform extractor engine programmed through some simple instructions contained in textual scripts, it's intended for extracting files and information from the archives and files of any software and, moreover, games.
The script language used in QuickBMS is an improvement of MexScript documented here: http://wiki.xentax.com/index.php/BMS QuickBMS is FULLY compatible with that original syntax and all the scripts that were created here: http://forum.xentax.com/viewtopic.php?t=1086
QuickBMS also supports most of the WCX plugins of Total Commander: http://www.totalcmd.net/directory/packer.html http://www.ghisler.com/plugins.htm
The original BMS language has been improved for:
- removing implied fields, like the file number in some commands
- adding new commands, like Encryption
- adding new behaviors and features, like negative GoTo These improvements allow QuickBMS to work with tons of simple and complex formats and even doing tasks like modifying files, creating new files with headers, converting files and reimporting the extracted files back in their original archives.
The tool is open source under the GPL 2.0 license and works on Windows, Linux and MacOSX, on both little and big endian platforms like Intel (littlen endian) and PPC (big endian). You can distribute the original quickbms.exe file as you desire but reusing its source code and/or modifying it may require the same or compatible open source license.
The official homepage of QuickBMS with all the scripts I have written from 2009 till now is (they are just links to the same website):
http://quickbms.com \ http://quickbms.aluigi.org \ http://aluigi.altervista.org/quickbms.htm \ http://aluigi.zenhax.com/quickbms.htm (rarely updated)
There is also an official forum where it's provided support for QuickBMS and help with file formats, it's also a very good and friendly free community for reverse engineering game files:
QuickBMS is perfect for those tasks in which you need a quick way to extract information from files and at the same time you would like to reinject them back without writing a standalone tool to do both the extraction and rebuilding jobs. This is particularly useful if you have 100 different types of archives to analyze (reverse engineering), parsing and then sharing your tools with your community. It's more easy to do that with some lines of text pasted on a forum or pastebin rather than writing 100 different standalone extraction tools plus other 100 standalone rebuilders.
For Linux and MacOSX users there is a Makefile in the src folder, the only requirements are openssl, zlib and bzip2 while the optional components are mcrypt and tomcrypt (uncomment the line near the end of the Makefile to enable them). If your distro supports apt-get and you have problems during the usage of "make", try the following:
apt-get install gcc g++ zlib1g-dev libssl-dev unicode
In case of problems on 64bit versions of Linux, try also to append a ":i386" to the previous dependencies, like:
apt-get install libssl-dev:i386
MacOSX users need to read the simple instructions written in the Makefile, just few steps for being able to compile QuickBMS easily without problems, anyway maybe try a "make" first because from version 0.8.1 it was rewritten to work easily. Updated static builds for Linux x86 and MacOSX are available on http://aluigi.altervista.org/quickbms.htm#builds
Feel free to contact me in case of problems or just post on https://zenhax.com
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Simple and quick:
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double-click on quickbms.exe
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select the script for the type of archive you want to extract, for example zip.bms if it's a zip file.
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select the input archive or multiple files. you can also select a whole folder by entering in it and then typing * (or "" on systems before Windows 7) in the "File name:" field, and then select Open. You can even use * to set wildcards, for example .txt or required_name or prefixsuffix
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select the output folder where extracting the files. you can specify any filename, it will be ignored because only the current selected directory is taken
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watch the progress status of the extraction and the final message
That's the simple "GUI" usage but QuickBMS can do various other things when launched from the console, in fact it supports many command-line options for advanced users and for who writes the scripts. You can view all the available options simply launching QuickBMS from command-line ("cmd.exe" on Windows) without arguments. The following is the current list of options:
Usage: quickbms.exe
[options]
<script.BMS>
<input_archive/folder>
[output_folder]
Options:
-l list the files without extracting them
-f W filter the files to extract using the W wildcards separated by comma or
semicolon, example -f "{}.mp3,{}.txt;{}myname{}"
if the filter starts with ! it's considered an ignore/exclusion filter,
if .txt it's read as text file with multiple filters, * and {} are same
example: quickbms -f "{}.mp3;!{}.ogg" script.bms archive.dat output
example: quickbms -f myfilters_list.txt script.bms archive.dat
use {} instead of * to avoid issues on Windows, multiple -f are ok too
-F W as above but works only with the files in the input folder (if used)
example: quickbms -F "{}.dat" script.bms input_folder output_folder
-o overwrite the output files without confirmation if they already exist
-k keep the current files if already exist without asking (skip all)
-K automatically rename the output files if duplicates already exist
-r experimental reimport option that should work with many archives:
quickbms script.bms archive.pak output_folder
modify the needed files in output_folder and maybe remove the others
quickbms -w -r script.bms archive.pak output_folder
you MUST read section 3 of quickbms.txt before using this feature,
use -r -r for the alternative and better REIMPORT2 mode
use -r -r -r for REIMPORT3 that shrinks/enlarges archive if no offset
-u check if there is a new version of QuickBMS available
-i generate an ISO9660 file instead of extracting every file, the name of
the ISO image will be the name of the input file or folder
-z exactly as above but it creates a ZIP file instead of an ISO image
Advanced options:
-d automatically create an additional output folder with the name of the
input folder and file processed, eg. models/mychar/mychar.arc/*,
-d works also if input and output folders are the same (rename folder)
-D like -d but without the folder with the filename, eg. models/mychar/*
-E automatically reverse the endianess of any input file by simply reading
each field and writing the reversed value, each Get produces a Put
-c quick list of basic BMS commands and some notes about this tool
-S CMD execute the command CMD on each file extracted, you must specify the
#INPUT# placeholder which will be replaced by the name of the file
example: -S "lame.exe -b 192 -t --quiet #INPUT#"
-Y automatically answer yes to any question
-O F redirect the concatenated extracted files to output file F, data is
appended if file F exists, optional F extensions supported: TAR
-s SF add a script file or command before the execution of the input script,
useful if an archive uses a different endianess or encryption and so on
SF can be a script or directly the bms instruction you want to execute
-. don't terminate QuickBMS if there is an error while parsing multiple
files (like wrong compression or small file), just continue with the
other files in the folder; useful also in rare cases in reimport mode
Debug and experimental options:
-v verbose debug script information, useful for verifying possible errors
-V alternative verbose info, useful for programmers and formats debugging
-q quiet, no *log information
-Q very quiet, no information displayed except the Print command
-L F dump the offset, size and name of the extracted files into the file F
-x use the hexadecimal notation in myitoa (debug)
-0 no extraction of files, useful for testing a script without using space
-R needed for programs that act as interface for QuickBMS and in batch
-a S pass arguments to the input script that will take the names
quickbms_arg1, quickbms_arg2, quickbms_arg3 and so on, note they are
handled as arguments so pay attention to spaces and commas, eg:
-a "arg1 \"arg 2\", arg3"
-a arg1 -a "\"arg 2\"" -a arg3
a full backup of the whole -a options is on the var quickbms_arg
-H experimental HTML hex viewer output, use it only with very small files!
-X experimental hex viewer output on the console (support Less-like keys)
-9 toggle XDBG_ALLOC_ACTIVE (enabled)
-8 toggle XDBG_ALLOC_INDEX (enabled)
-7 toggle XDBG_ALLOC_VERBOSE (disabled)
-6 toggle XDBG_HEAPVALIDATE (disabled)
-3 execute an INT3 before each CallDll, compression and encryption
-I toggle variable names case sensitivity (default insensitive)
-M F experimental compare and merge feature that allows to compare the
extracted files with those located in the folder F, currently this
experimental option will create files of 0 bytes if they are not
different, so it's not simple to identify what files were written
-Z input file cleaner, in reimport mode replaces all archived files with
zeroes, no matter if they exist or not in the folder, will be all zeroed
-P CP set the codepage to use (default utf8), it can be a number or string
-T do not delete the TEMPORARY_FILE at the end of the process
-N decimal names for files without a name: 0.dat instead of 00000000.dat
-e ignore the compression errors and dump the (wrong) output data anyway,
in reimport2 it disables the compression of the files (experimental)
-J all the constant strings are considered Java/C escaped strings (cstring)
-B debug option dumping all the non-parsed content of the open files, the
data will be saved in the output folder as QUICKBMS_DEBUG_FILE*
-W P experimental web API (P is the port) and pipe/mailslot IPC interface
-t N experimental tree-view of the extracted/listed files where N is:
0:text1, 1:text2, 2:text3, 3:json1, 4:json2, 5:web, 6:dos, 7:ls
-U [S] list of available compression algorithms, use S for searching names
-# in reimport mode checks if the archived files and those to reimport are
the same (hash), it's useful if you didn't remove the unmodified files
-j force UTF16 output in some functions, for example with SLog
-b C use C (char or hex) as filler in reimporting if the new file is smaller,
by default it's used space in SLog and 0 for Log and CLog
-y F experimental debug output to file F, supported formats on file extension
json, csv, yaml, c/java and so on
Features and security activation options:
-w enable the write mode required to write physical input files with Put*
-C enable the usage of CallDll without asking permission
-n enable the usage of network sockets
-p enable the usage of processes
-A enable the usage of audio device
-g enable the usage of video graphic device
-m enable the usage of Windows messages
-G force the GUI mode on Windows, it's automatically enabled if you
double-click on the QuickBMS executable
Remember that the script and the input archive/folder are ever REQUIRED and they must be specified at the end of the command-line.
The following is an example for listing all the mp3 files from the input archive:
quickbms -l -f "{}.mp3" zip.bms myfile.zip quickbms -l -f "{}.mp3;{}.ogg" zip.bms myfile.zip quickbms -l -f "{}.mp3;{}.ogg,{}filename{}" zip.bms myfile.zip quickbms -l -f file_containing_the_filters.txt zip.bms myfile.zip (file_containing_the_filters.txt has one filter per each line)
So -l for listing the files without extracting them, and -f for filtering the archived files. Regarding the -f and -F options it's worth to note that both * and {} are accepted as wildcards because the first pattern may be interpreted by the Windows console (my suggestion is to use ever {} to avoid problems).
QuickBMS supports also a folder as input which means that with a single command it's possible to unpack all the archives of a whole game directly using QuickBMS.
Imagine to use the zip.bms script with all the zip files located in the Program Files folder:
quickbms -F "{}.zip" zip.bms "c:\Program Files (x86)" c:\outfolder
Note: as said before, sometimes Windows doesn't like the * char even if used between quotes, so in case of problems with "*.zip" you can use {} instead of *, for example "{}.zip"
Except for -l, -f, -F and maybe -o and -s options, the others are intended for debugging, or they are special features or switches to enable/disabe some internals, so they should be ignored by the common users.
If output_folder is omitted, the current directory is used. From version 0.9.1, if output_folder is "", the same direcotyr of input file (or each file in case of input folder) is used.
If the extraction with a particular script is too slow or scanning a folder takes too much memory and time try using the -9 option that disables the memory protection.
You can apply these options directly in a shortcut to quickbms.exe in the Target field of its properties, so you can use the double-click "GUI" method and all the command-line options you desire without using the command-line.
In the quickbms.zip package you can also see quickbms_4gb_files.exe (previously known as quickms64_test.exe) which is an "experimental" version that uses 64bit numbers instead of the original 32 bits:
- it supports archives and files bigger than 4 gigabytes
- it may have problems to work with "some" scripts
- it's a native 32bit software so it works on both Windows 32 & 64
- it's experimental and partially supported, problems like crashes and incorrect math operations may happen often in some scripts
Advanced users could find useful also these specific options:
-d Automatically creates a folder with the name of the input file where placing all the files, it's useful if you have many small archives containing the same filenames and need to separate the extracted files without overwriting or renaming them.
-E If you have a bms script that simply reads a file format, you can change the endianess of all its numeric fields on the fly by simply using this option. For example if you have a "get SIZE long" a 32bit number will be read as usual and additionally it will be reversed (0x11223344 to 0x44332211 or viceversa) and placed at the same location. Remember that you need to specify also the -w option with physical files, alternatively you can save the whole file in a memory file and then dumping it so that -w is not necessary. With this option is really trivial to convert the endianess of files between different platforms, like Xbox 360 and PC.
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QuickBMS is mainly an extraction tool, but it supports also the -r option that converts the tool in a simple reimporter/reinjector and so it may be useful for modding or translating a game.
The idea consists of being able to reimport ("injecting back") the modified files in the original archives without editing the script, just reusing the same bms scripts that already exist!
Using this feature is really trivial and the following is a step-by-step example:
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Make a backup copy of the original archive!
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Extract the files or only those you want to modify (-f option) as you do normally via the GUI (double-click on quickbms.exe) OR via command-line like the following example:
quickbms script.bms archive.pak output_folder
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Modify the extracted files leaving their size unchanged or smaller than before. I suggest to delete the files that have not been modified so that the reimporting process will be faster and safer. In the folder leave only the files you modified. Remember that their size must be smaller/equal than the original!
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Reimport the files in the archive via the GUI by clicking on the file called "reimport.bat" OR via command-line:
quickbms -w -r script.bms archive.pak output_folder
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Test the game with the modified archive
Remember that you can use the GUI for the reimporting procedure, just click on "reimport.bat" found in the quickbms package, it contains the command: quickbms.exe -G -w -r.
IMPORTANT NOTE ABOUT "REIMPORT2" MODE From version 0.8.2 QuickBMS started to implement an additional alternative reimport mode enabled by using -r twice like:
quickbms -w -r -r script.bms archive.pak output_folder
or reimport2.bat
This mode can be used with many formats and offers the following advantages:
- no size limits with the imported files, the bigger files will be inserted (appended) at the end of the archive
- the fields "offset", "size" and "compressed size" are rewritten by matching the new imported file, that's useful with various size-dependent compression algorithms like lz4 The reimport2 method doesn't work if:
- the TOC is compressed or located on a MEMORY_FILE
- the TOC/magic is (relatively) located at the end of the archive
- the content is sequential, so there is no offset
- the 3 fields mentioned above are very different than those originally read from the TOC, in this mode only one maximum "math" operation is allowed on the variable which means that the following example works: get OFFSET long ; math OFFSET * 0x800 ; log NAME OFFSET SIZE while this example produces an incorrect OFFSET field: get OFFSET long ; math OFFSET * 0x800 ; math OFFSET + BASE_OFF ; log NAME OFFSET SIZE the same is valid for the size fields too, anyway note that "offset" is rewritten only if the new file is bigger than before
- the game strictly trusts the original size of the archive and ignores data appended to it, for example some archives may have a field in the TOC that specifies the size of the archive
- SLog is implemented but may not work with some archives
- the archive is subject to other limits described below, excluded the advantages listed before
From version 0.10.0 QuickBMS has an additional mode called REIMPORT3, it's identical to REIMPORT2 with the only difference that the archive is shrinked or enlarged if there is no offset field used in the archive and the size of the input file differs than the original. This method "may" be useful with some language files and some archives with sequential data.
Another example:
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First step, use QuickBMS as usual:
archive.pak -> file1.txt -> file2.dat -> file3.jpg
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Second step:
- delete file1.txt and file2.dat
- modify file3.jpg, for example adding a "smile" in it
- save file3.jpg and be sure that it's size is SMALLER or EQUAL than the original
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Third step, clink on the reimport.bat file provided in quickbms and select the SAME file and output folder you selected in the first step:
archive.pak <- file1.txt (doesn't exist so it's not reimported) <- file2.dat (doesn't exist so it's not reimported) <- file3.jpg (successfully reimported)
Some important notes about this particular reimporting process:
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you CANNOT increase the size of the files you want to reimport, so the new files must be smaller or equal than the original ones.
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the reimport process of compressed files may be very slow in some cases, for example with zlib, deflate, lzma and few others that are optimized to use less space as possible at cost of time. zlib/deflate is particular slow because QuickBMS uses different solutions to reduce the size as much as possible.
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for the maximum compatibility within the thousands of available file formats I decided to not use tricks for modifying the original size and compressed_size values. for example imagine those formats that use encrypted information tables or MEMORY_FILEs for such tables or that use things like "math SIZE *= 0x800". the reimport process must be generic, universal and without work-arounds.
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the script is just the same for both extraction and reimporting, it means that many of the scripts written by me and the other users already work, cool!
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the reimporting of compressed files is perfectly possible because the tool automatically switches to the relative compression algorithm if available (for example deflate -> deflate_compress), if an algorithm is not available in recompress mode then the reimporting will fail
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SLog is a new command that has been recently added to QuickBMS for dumping strings and texts, it works also in reimport mode but it's very limited and prone to errors. I suggest to check the manual for the SLog command (search slog in this text), but a generic universal rule is:
- keep the length of the edited line of text as the original
? if the original archive uses complex encryptions that require the usage of MEMORY_FILEs to perform temporary decryption, then it's NOT supported and the same is valid for chunked content (like those scripts that use the command Append) From version 0.6.6, QuickBMS has an experimental mode for reimporting chunked files, it works very well with files saved directly to disk and less well with those that use MEMORY_FILEs (most of my scripts). In my opinion this feature is great but don't expect much, with some scripts you can have success but many others may not work.
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FileXor, FileRot, Encryption and Filecrypt should work correctly
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things like CRCs and hashes can't be supported
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it's also possible to reimport the nameless files dumped with 'log "" OFFSET SIZE', the tool will automatically check for files in the folder with the same number so if the file was saved as 00000014.xml it will be reimported perfectly.
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the reimport mode doesn't work if you renamed the files with the same name during the extraction (for example using the 'r' choice), in this case there is no way for the tool to know the correct file to reimport and will reimport only the one with the same original name.
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the -Z option is a simple way to zero ALL the spaces of the archive occupied by the original files, the result will be a sort of "empty" archive. It "may" be useful for releasing the empty archive and the files separately and then reinjecting them in reimport mode with the option leaving out some unused files. Example:
- quickbms script.bms archive.ar output_folder
- quickbms -r -w -Z script.bms archive.ar output_folder (the content of output_folder is completely ignored in -Z)
- remove videos from output_folders
- compress archive.ar and output_folder, give them to a friend
- quickbms -r -w script.bms archive.ar output_folder
- now archive.ar all the files but the videos The behaviour of this feature may change in future depending by the feedback of the users, currently there is no real usage.
Please note that often the games are able to load the extracted files directly from their installation folder, sometimes directly maybe by just removing the original archive and other times by launching the game with specific command-line arguments. The reimport feature of QuickBMS has already allowed to slightly mod and translate various games, but it's meant as a quick or temporary solution till a proper stand-alone rebuilder tool is written by the community of the target game, due to the better benefits coming from a complete and specific solution. But if nobody is going to write a stand-alone rebuilder for a specific game, then the reimport feature of QuickBMS is a great and immediately available solution.
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Originally the tool was created just for myself to be able to write quick extractors for simple archives immediately without writing a new tool, but QuickBMS revealed to be a powerful tool that I use for many tasks, including the parsing of some protocols and much more.
So, how to write these scripts? Giving a look at http://wiki.xentax.com/index.php/BMS is a good first step to understand at least the basis of this language originally written by Mike Zuurman (alias Mr.Mouse of XeNTaX) in the far 1997. Then it's good to take a look at the various examples provided on http://quickbms.com and http://zenhax.com
A programming knowledge and background is not required but it's very useful for understanding the "logic" of the scripts and some terms. What is really necessary is the full knowledge of the format to implement: reverse engineering is ever useful for figuring the needed fields.
Luckily in the extraction process it's not needed to know all the fields of an archive, so a field like a CRC doesn't matter while the important fields to extract a file are ever the following:
- filename
- offset
- size
- optional compressed size if the file is compressed
If you don't have filename and size, it's not a problem. What's really necessary is knowing at least of the offsets of the files. If you check my scripts you can notice the name DUMMY assigned to the fields that are not useful for the extraction.
Note that I will try to keep the following documentation updated as much as I can, and also in sync with what happens inside QuickBMS for each command. The source code of the tool is not easy to understand so I hope that this documentation may be useful and complete.
The fields between [] are optional fields.
A quick and limited list of available commands is available when QuickBMS is launched with the -c option. Some important notes about the QuickBMS environment:
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Everything is handled as a variable except if it starts with a number in which case it's considered a numeric constant, so when in this document I talk about VAR, STRING and other types of data I refer EVER to both variables and constants because they are EXACTLY the SAME thing inside the tool.
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All the commands and the names of the variables are case INsensitive, "get OFFSET long" is the same as "GeT oFfSeT lOnG".
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Everything works with signed 32 bit numbers (-2147483648 to 2147483647) so QuickBMS may not work well with files over 2 Gb but it can seek on files of 4 Gb without problems. Consider the following limits:
- max 4gb size for archives
- max 2gb size for the archived files Try quickbms_4gb_files.exe when working with bigger archives.
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The constant strings depends by the context of the command, in fact in some commands they are handled as strings in C notation like "\x12\x34\hello"bye\0", in this case you must know how this representation works. This is a solution for using binary data in the textual script. The keyword is "C language escape characters" or escape sequences (or cstring), they are very simple, take a look here: https://docs.microsoft.com/en-us/cpp/c-language/escape-sequences From http://www.acm.uiuc.edu/webmonkeys/book/c_guide/1.1.html
Escape Name / Meaning \a Alert \b Backspace \f Form Feed \n New Line \r Carriage Return \t Horizontal Tab \v Vertical Tab ' Produces a single quote " Produces a double quote ? Produces a question mark \ Produces a single backslash \0 Produces a null character \ddd Defines one character by the octal digits (base-8) \xdd Defines one character by the hexadecimal digit (base-16)
ONLY some commands support this C string notation for the escape characters, a quick way to find them is searching the keyword "(cstring)" without quotes in this document. From version 0.8.2 exists the -J option that considers all the constant strings as escaped Java and C-like strings, so every string is a cstring when you use such option
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Both decimal and hexadecimal numbers are supported, the former is used if the number starts with 0x so 1234 and 0x4d2 are the same.
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Any operation made on fields bigger than 8 bits is controlled by the global endianess, it means that any number and unicode field is read in little endian by default otherwise it's valid the endianess specified with the Endian command.
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Comments can be used in C (// and /* /) and BMS syntax (#), for example: get DUMMY long # this is a comment / this is a comment */
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The FILENUM (file number) field in the commands is set as a constant, it means that it cannot be modified at runtime using a variable, examples: get TMP string 0 # ok get TMP string VAR # wrong
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All the commands use variables for their arguments except those in which it's specified that a constant number or a string (STRING) is needed. For example the commands that use a C string (cstring) use constant strings and not variables, except some cases like the dictionary of ComType. Note that this behaviour may change in future or may have been already changed in some commands.
File numbers: Every file opened in QuickBMS has a number assigned to it, if this number is not specified it will be considered 0, the main input file. The first opened file is the input archive to which is assigned the number 0 (zero), the others must use the Open command. Negative numbers are considered MEMORY_FILEs, so -1 is MEMORY_FILE, -2 MEMORY_FILE2 and so on.
MEMORY_FILEs: This is a particular type of temporary file which resides in memory and works exactly like a normal temporary file. It's extremely useful for doing many operations and you can use multiple memory files: MEMORY_FILE, MEMORY_FILE2, MEMORY_FILE3 and so on. MEMORY_FILE and MEMORY_FILE1 are the same file. . If you need to work with chunked parts of a file to concatenate to the memory file, you need to use the following trick: . putvarchr MEMORY_FILE FINAL_SIZE 0 # allocate memory log MEMORY_FILE 0 0 # create the file . The first instruction allocates the memory for containing the final size of your chunks, and the second one is necessary for resetting the memory file (current offset and size, not the allocated size). If you need to create a MEMORY_FILE of 0x100 bytes set to zero to use in CallDLL use the following . log MEMORY_FILE 0 0 # create the file putvarchr MEMORY_FILE 0x100 0 # write 0x100+1 zeroes
TEMPORARY_FILE: This additional file called TEMPORARY_FILE resides physically on the target folder and has that exact name. Despite its "temporary" name, it's not deleted by the output folder and QuickBMS will ask to remove it at end of extraction. The file is created in any condition, even when it's used the -l (list) option for listing the files, so it's perfect in certain situations like when it's used a chunks based file system. The difference with the MEMORY_FILE is only related to the amount of memory available on the system because the previous file types uses the RAM while this one uses the disk, so use it if you need to create a temporary file bigger than 2 gigabytes. . For using the temporary file check this example: . log TEMPORARY_FILE 0 0 # reset it if it already exists append # enables the append mode ... log TEMPORARY_FILE OFFSET SIZE ... append # disable the append mode open "." TEMPORARY_FILE 1 # open temporary file as file 1 . Note that from version 0.6.8, QuickBMS automatically overwrites this file if it already exists.
The following is the list of types of variables supported, also know as datatypes or types. The list is ordered just like in defs.h:
BYTE 8 bit, 0 to 0xff
SIGNED_BYTE 0x99 is read as 0xffffff99
SHORT 16 bit (aka INT), 0 to 0xffff
SIGNED_SHORT 0x9999 is read as 0xffff9999
THREEBYTE 24 bit, 0 to 0xffffff
SIGNED_THREEBYTE
LONG 32 bit, 0 to 0xffffffff
SIGNED_LONG mainly useful in quickbms_4gb_files:
0x99999999 is read as 0xffffffff0x99999999
LONGLONG fake 64 bit, so only 0 to 0xffffffff but Get takes 8 bytes
FLOAT 32 bit, 123.345 is read as 123
From QuickBMS 0.10.1 floats (and doubles) are partially
handled in Get, Put, Math and Print commands.
DOUBLE 64 bit, 123.345 is read as 123
LONGDOUBLE 96 bit, 123.345 is read as 123
Note that size of long double is compiler dependent
STRING NUL delimited string (one byte for each char)
UNICODE special type used for unicode utf16 strings, the
endianess of the utf16 is the same used globally in the
script (watch the Endian command), it's used also for
converting an unicode string to an ascii one:
Set ASCII_STRING UNICODE UNICODE_STRING
unicode conversion is performed via Win32 API (CP_UTF8
and CP_ACP in case of 0xfffd chars) while on Linux it
uses iconv, fallback on mbtowc and byte=short
UTF32 experimental support for 32bit unicode (unicode32)
BINARY special type used for binary strings in C notation like
"\xff\x00\x12\x34", used mainly as a constant (cstring)
LINE special type used for carriage return/line feed delimited
string (so any string ending with a 0x00, 0x0a or 0x0d),
from version 0.6 the tool supports also strings that
have no delimiter at the end of file
ASIZE special type used to return the size of the opened file,
used only with the GET command
FILENAME special type used to return the name of the opened file
like "myfile.zip", used only with the GET command
BASENAME special type used to return the base name of the opened
file like "myfile", used only with the GET command
FILEPATH the folder of the file, like "c:\path\folder" for
"c:\path\folder\file.txt"
FULLBASENAME just like FULLNAME without extension
EXTENSION special type used to return the extension of the opened
file like "zip", used only with the GET command
FULLNAME full path of the file, in reality at the moment it returns
the same path used in the input filename
CURRENT_FOLDER the path from which has been launched QuickBMS
FILE_FOLDER the path of the loaded input file
OUTPUT_FOLDER the extraction folder (the last argument of QuickBMS)
INPUT_FOLDER same as above
BMS_FOLDER the folder where the bms script is located
EXE_FOLDER the folder where quickbms.exe is located
ALLOC a type used only in the Set command for creating a variable
with a specific allocated size
COMPRESSED a special type used for setting big strings and memory
files using a small amount of text, for using this type
you must take the original text/file, compress it with
zlib (you can use my packzip tool) and then encoding the
output file with base64 (you can use my bde64 tool) and
placing the result like the following:
set MEMORY_FILE compressed eNrtwbEJACAMBMBecIfvnMUxPuEJAe0UHN81LLzrbYKwDOjI96IN1cLveRfAGqYu
this type is very useful if you want to embed a dll inside
a script without wasting much space
You can create this variable using the following script:
http://aluigi.org/bms/file_compressed_var.bms
VARIABLE read byte per byte till the byte is negative
VARIABLE2 Unreal engine index numbers
VARIABLE3 used in various software
VARIABLE4 used in Battlefield 3 (Frostbite engine) and Rar
VARIABLE5 used in 7z archives
VARIABLE6 requires a ValueMax variable
VARIABLE7 similar to VARIABLE2
UNKNOWN use it to ask the user to insert the content of the variable
VARIANT VB/C++ variant type (http://en.wikipedia.org/wiki/Variant_type)
BITS read a specific amount of bits, QuickBMS and the
language are byte based but the "bits" method works
very well
TIME time_t Unix 32bit time
TIME64 64bit time used as FILETIME on Windows
CLSID ClassID like 00000000-0000-0001-0000-000000000000
IPV4 7f 00 00 01 = "127.0.0.1"
IPV6 like 2001:0db8:85a3:0000:0000:8a2e:0370:7334
ASM x86 assembly
ASM64 x86_x64 assembly
ASM16 x86 16bit assembly
ASM_??? arm, arm_thumb, arm64, mips, mips64, ppc,
ppc64, sparc, sysz, xcore
TCC a special type that compiles C text
??? the user will be asked to input a string that
will be the new value of the variable, prompt
from user / pause
Just for the record, the original MexScript probably contained some types of variables that have never been used and for which it's unknown what they should represent: PURETEXT, PURENUMBER, TEXTORNUMBER and FILENUMBER.
QuickBMS supports also the "experimental" multidimensional arrays inside the variables, for example:
for i = 0 < 10
get VAR[i] long
for j = 0 < 5
get VAR2[i][j] long
next j
next i
But it's possible to access that variable ONLY by specifying the original name and index, so:
print "%VAR[0]%" # fail!
print "%VAR[j]%" # fail!
math i = 0
print "%VAR[i]%" # ok
QuickBMS supports also embedded text like the following:
Set VAR string "
this is
a text with \"blah\" and 'blah'
and so on.
"
The following is the list of bms commands:
QuickBMSver VERSION
FindLoc VAR TYPE STRING [FILENUM] [ERR_VALUE] [END_OFF]
For [VAR] [OP] [VALUE] [COND] [VAR]
Next [VAR] [OP] [VALUE]
Get VAR TYPE [FILENUM] [OFFSET]
GetDString VAR LENGTH [FILENUM]
GoTo OFFSET [FILENUM] [TYPE]
IDString [FILENUM] STRING
Log NAME OFFSET SIZE [FILENUM] [XSIZE]
Clog NAME OFFSET ZSIZE SIZE [FILENUM] [XSIZE]
Math VAR OP VAR
XMath VAR INSTR
Open FOLDER NAME [FILENUM] [EXISTS]
SavePos VAR [FILENUM]
Set VAR [TYPE] VAR
Do
While VAR COND VAR
String VAR OP VAR
CleanExit
If VAR COND VAR [...]
[Elif VAR COND VAR]
[Else]
EndIf
GetCT VAR TYPE CHAR [FILENUM]
ComType ALGO [DICT] [DICT_SIZE]
ReverseShort VAR [ENDIAN]
ReverseLong VAR [ENDIAN]
ReverseLongLong VAR [ENDIAN]
Endian TYPE [VAR]
FileXOR SEQ [OFFSET] [FILENUM]
FileRot SEQ [OFFSET] [FILENUM]
FileCrypt SEQ [OFFSET] [FILENUM]
Strlen VAR VAR [SIZE]
GetVarChr VAR VAR OFFSET [TYPE]
PutVarChr VAR OFFSET VAR [TYPE]
Debug [MODE]
Padding VAR [FILENUM] [BASE_OFF]
Append [DIRECTION]
Encryption ALGO KEY [IVEC] [MODE] [KEYLEN]
Print MESSAGE
GetArray VAR ARRAY VAR_IDX
PutArray ARRAY VAR_IDX VAR
SortArray ARRAY [ALL]
SearchArray VAR ARRAY VAR
CallFunction NAME [KEEP_VAR] [ARG1] [ARG2] ... [ARGn]
StartFunction NAME
EndFunction
ScanDir PATH NAME SIZE [FILTER]
CallDLL DLLNAME FUNC/OFF CONV RET [ARG1] [ARG2] ... [ARGn]
Put VAR TYPE [FILENUM]
PutDString VAR LENGTH [FILENUM]
PutCT VAR TYPE CHAR [FILENUM]
GetBits VAR BITS [FILENUM]
PutBits VAR BITS [FILENUM]
Include FILENAME
NameCRC VAR CRC [LISTFILE] [TYPE] [POLYNOMIAL] [PARAMETERS]
Codepage VAR
SLog NAME OFFSET SIZE [TYPE] [FILENUM] [TAG]
Reimport [MODE]
ImpType MODE VAR [...]
CRCHash ALGO ARG1 ARG2
Label NAME
Break [NAME]
Continue [NAME]
The following is the description of bms commands:
...................................................................
QuickBMSver VERSION
Checks if the current version of QuickBMS is recent enough to
support the script. Mainly for scripts created after the
introduction of a new feature or an important fix.
The instruction also enables some command-line options.
Arguments:
VERSION Oldest version of QuickBMS for which the script was
created the script, it's just the version displayed
at runtime by the tool.
It's possible to add some command-line options too:
-64 force quickbms_4gb_files.exe
-9 disable the safe memory allocator
-I makes the variables case sensitive
-. useful in reimport mode with data builders
-N decimal names: 00000000.dat -> 0.dat
-q quiet
-T keep the temporary file if generated
-d useful with some formats and scripts
-D useful with some formats and scripts
-e doesn't quit if compression fails
-J all the strings are considered cstring
-32 checks if the user is using quickbms.exe
-F filter the input files
-x hexadecimal notation in myitoa (debug)
-j force UTF16 output in some functions
-b C use C (char or hex) as filler in reimport
if the new file is smaller
-c this is NOT related to the -c option at
command-line, it's a way to avoid being
prompted when using C structures in the bms
Examples:
QuickBMSver 0.2.4
QuickBMSver "0.5.14 -9"
QuickBMSver "-I -9"
...................................................................
FindLoc VAR TYPE STRING [FILENUM] [ERR_VALUE] [END_OFF]
It searches the first occurrence of a given string or number
from the current offset of the file, just by scanning it byte
per byte.
It's used in those cases when the format of the archive is not
known or it's a particular text file.
Arguments:
VAR The variable receiving the offset of the occurrence
TYPE Type of the data we want to search, supported:
- string
- binary, can include any bytes (NUL too), since
version 0.11 it can also contain wildcards like
"\x??" or "\x**" for a wildcard byte (they covers
only the first 32 bytes of the string)
- unicode, the search will be performed as utf16
with the data stored using the current endianess
- numeric type (byte, short, long ...), it searches
a number stored using the current endianess
- regex, experimental regular expression using a
limited set of features (no grouping and others):
https://github.com/kokke/tiny-regex-c
it also works on binary files (0x00 -> line feed)
findloc OFFSET regex "expression"
findloc OFFSET regex "START.*END"
STRING Must be a number if TYPE is a numeric type, or a
string in C notation (cstring) in the other cases
FILENUM Number of the file associated to the archive (0)
ERR_VALUE By default FindLoc terminates the script if no
string is found, if ERR_VALUE is set this value is
assigned to VAR without terminating when there are
no other occurrences, the suggested ERR_VALUE is ""
END_OFF Limit the scanning from current offset till this
offset, if END_OFF is lower than the current offset
then the scanning will be performed backward
Examples:
For
FindLoc OFFSET string "filename="
...
FindLoc OFFSET string "filename=" 0 ""
if OFFSET == ""
cleanexit
endif
# scan backward
goto 0 0 SEEK_END
findloc OFFSET string "filename=" 0 "" 0
FindLoc OFFSET string "file\x??am\x??"
Next
...................................................................
For [VAR] [OP] [VALUE] [COND] [VAR]
...
Next [VAR] [OP] [VALUE]
A classical "for" cycle with initializers, conditions and
incrementers.
There is also the Break instruction available to break the
cycle at any moment and the Continue instruction for skipping
the remaining part of the cycle.
"For" allows to perform an initial operation on a variable and
a check in each cycle to ensure a particular condition.
"Next" is the command which delimits the cycle and at the same
time increments the given variable if specified.
It's also possible to use a math operation in Next so that you
can increment, decrement or perform any other operation at the
end of each cycle.
All the parameters are optionals and must be inserted in the
specific order, so if there is no initialization you must use:
For OFFSET = OFFSET < 1000
For the record, there is also a "Prev" variant of the Next
command, it just decrements the variable at each cycle.
Arguments:
VAR Variable on which is performed the first math
operation and is checked for the condition
OP Any of the available Math operators (check Math)
VALUE Value to assign to the variable or part of the math
operation
COND Condition (check the If command)
VAR Second part of the condition
Examples:
For i = 0 < FILES
...
next i
For
# do what you want here, this is an endless loop
Next
For VAR1 = VAR1 != VAR2
# same of using while(VAR1 != VAR2) {...} in C
Next VAR2 /= 3
For OFFSET = OFFSET != ARCHIVE_SIZE
...
Savepos OFFSET
if OFFSET > 100
break
endif
Next
...................................................................
Get VAR TYPE [FILENUM]
It reads strings and numbers from the file.
It supports many types of input, they are listed at the
beginning of this documentat like byte, short, long, string,
unicode and so on.
The tool automatically terminates when there is no data or
partial data to read at the end of the file.
Arguments:
VAR Variable which will receive the read data
TYPE Check the description of the types explained before
FILENUM Number of the file associated to the archive (0)
Examples:
Get OFFSET long
Get NAME string
...................................................................
GetDString VAR LENGTH [FILENUM]
It reads a defined amount of data from the file and stores it
in the given variable.
It's useful with filenames and other strings that have a length
specified in a previous 8, 16 or 32 bit field.
Arguments:
VAR Variable which will receive the read data
LENGTH Amount of bytes to read.
There is also an experimental method in which you
can specify the elements and their size like
LENGTH*NUM, for example:
getdstring ARRAY NUMBERS*4
FILENUM Number of the file associated to the archive (0)
Examples:
GetDString NAME NAME_LENGTH
GetDString NAME 0x100
getdstring ARRAY ELEMENTS*4
...................................................................
GoTo OFFSET [FILENUM] [TYPE]
It changes the current position in the file, like fseek in C.
Arguments:
OFFSET Position to reach.
The offset "SEEK_SET" is offset 0.
The offset "SEEK_END" is the end of file.
If it's a constant negative it will be considered
the amount of bytes from the end of the file, so a
negative variable is considered as unsigned 32bit.
The offset depends also by the TYPE field.
FILENUM number of the file associated to the archive (0)
TYPE - SEEK_SET, absolute offset (default)
- SEEK_CUR, relative offset from current position
- SEEK_END, amount of bytes from the end, must be
negative or OFFSET will be converted to negative
Examples:
GoTo OFFSET
GoTo 0x100
GoTo -4 # 4 bytes before the end of the file
GoTo SEEK_SET # like goto 0
Goto SEEK_END # like goto 0 0 SEEK_END
...................................................................
IDString [FILENUM] STRING
It terminates the program if the magic/signature at the current
position of the file differs than the provided string.
If the string doesn't match and it's 4 bytes long QuickBMS will
automatically swap it and perform the comparison again and
change the endianess if it matches. This solution makes most of
the scripts written for an architecture (for example PC)
virtually compatible with others (for example Xbox360).
Pay attention to the FILENUM/VAR order different than other
commands, that's a rule of the original BMS syntax.
Arguments
FILENUM number of the file associated to the archive (0)
STRING string in C notation (cstring), it can also use
wildcard bytes like "\x??" (they covers only the
first 32 bytes of the string)
Examples:
IDString "PK\x03\x04"
IDString " KAP"
IDString MEMORY_FILE "hello"
IDString 1 "magic_on_file_one"
IDString "PK\x??\x??"
...................................................................
Log NAME OFFSET SIZE [FILENUM] [XSIZE]
It extracts the file, this operation doesn't change the current
position of the input file.
The content of the extracted file can be automatically
decrypted using the Encryption command before it.
If NAME is an empty string like "", QuickBMS will assign a
sequential hexadecimal number and will try to guess the
extension based on the content at the beginning of the file.
The extension will be automatically guessed and appended also
to all the files that terminate with a dot or an asterisk like
".", "*" or ".*" or if they point to folders like "folder/".
NAME can also be a special file like those that we will see
later like a socket, a process, an audio device and so on (they
require previous authorization by the user via command-line).
The filename will be automatically cleaned for dumping the file
without problems.
NAME can also be a MEMORY_FILE or a TEMPORARY_FILE.
If a file with the same name already exists, QuickBMS will ask
what action to take, the suggested one is the 'r' choice that
will allow to automatically rename all the files with the same
name without overwriting them.
If you have used the Append command, the data will be appended
to the existent file with the same name.
Log and Clog share the same code, so the compression is the only
difference.
Arguments:
NAME Name of the output file
OFFSET Position in the archive where is located the file
SIZE Amount of the data to extract
FILENUM Number of the file associated to the archive (0)
XSIZE Used with block encryptions, this value is the aligned
amount of data read from the disk, example for AES:
log NAME OFFSET 0x123 0 0x130
clog NAME OFFSET 0x123 SIZE 0 0x130
Examples:
Log NAME OFFSET SIZE
Log "dump.dat" 0 SIZE
Log "" 0 SIZE
Log "folder/name.*" 0 SIZE
...................................................................
Clog NAME OFFSET ZSIZE SIZE [FILENUM] [XSIZE]
It extracts the file decompressing it in real-time, this
operation doesn't change the current position of the file.
The decompression algorithm used in the operation is decided by
the ComType command which is zlib by default.
The content of the extracted file can be decrypted
automatically after decompression using the Encryption command.
For additional information please refer to the Log command.
Arguments:
NAME Name of the output file
OFFSET Position of the archive where is located the file
ZSIZE Size of the compressed data in the archive
SIZE Size of the uncompressed file, if you have used a
"_compress" algorithm then use SIZE equal to ZSIZE
because the tool will automatically calculate the
maximum amount of bytes taken for the compression
FILENUM Number of the file associated to the archive (0)
XSIZE Used with block encryptions like AES, just like Log
Examples:
Clog NAME OFFSET ZSIZE SIZE
Clog "dump.dat" 0 ZSIZE 10000000
# with some compression algorithms the file will have the
# real size while others will set it to 10000000
...................................................................
Math VAR OP VAR
Mathematical operation between two variables with the result
placed in the first one.
Note that due to compatibility all the operations are performed
using signed 32 bit numbers by default. It makes the difference
with some operations like shift and divisions, pay attention!
For unsigned operations add an 'u' before OP.
The additional '=' you see in many scripts and in the examples
is not needed, programmers are used to add it when the first
variable is both input and output, like in C: var += 123;.
Arguments
VAR Variable which acts as input and output
OP + sum
* multiplication
/ division
- substraction
^ xor
& and
| or
% modulus
! negation of var2 (0 becomes 1 and any other
value becomes 0)
~ complement of var2 (like "xor 0xffffffff")
< shift left (also <<)
> shift right (also >>)
l rotate left (also <<<)
r rotate right (also >>>)
s byte swapping, 2 for reverseshort and 4 for
reverselong
w bit swapping, reverse the amount of bits
specified in var2
= assign var2 to var1
n negative value of var2 (like var1 = -var2)
a absolute value of var2 (-10 = 10 and 10 = 10)
v radix (also //)
p power (also **)
x alignment/padding, examples:
var1=0 var2=16 result=0
var1=1 var2=16 result=16
var1=16 var2=16 result=16
var1=17 var2=16 result=32
y round, like var1=(var1/var2)*var2, examples:
var1=0 var2=16 result=0
var1=1 var2=16 result=0
var1=16 var2=16 result=16
var1=17 var2=16 result=16
z common bitswapping (also <>):
var1=0xab var2=4 result=0xba
var1=0xabcd var2=4 result=0xdc
var1=0xabcd var2=8 result=0xcdab
reverselong swap of 32bit variable
reverseshort swap of 16bit variable
reverselonglong swap of 64bit variable
binary convert from binary to decimal
octal convert from octal to decimal
hex convert from hexadecimal to decimal (this
is automatic, use it only if VAR2 doesn't
have a 0x prefix)
base* convert from base* to decimal, so base8 is
octal, base2 is binary, base16 is hex
Add a 'u' before or after OP for forcing the usage
of unsigned operations useful with shift, divisions
and possibly other operations.
Any operation starting with a '?' is considered a
verbose operator, for example ?add is the same of +.
QuickBMS supports also all the functions available in
math.h like ?sin, ?cos, ?atan and so on.
Unfortunately it's not possible to list them here,
please check math_operations() and
old_set_math_operator() in the cmd.c source code.
VAR Second input variable
Examples:
Math SIZE * 0x100
Math OFFSET << 2
Math OFFSET u<< 2
Math TMP = SIZE
Math TMP ~ TMP
Math TMP n TMP
Math TMP2 a TMP
Math SIZE u/ 5
Math RADIX v 2
...................................................................
XMath VAR INSTR
Multiple mathematical operations in one line, just a way to
avoid the limitations of the original Math command.
Currently this command is just an experiment and supports only
the most simple operators named with a non-alphanumeric
character and applied to unsigned numbers:
~ ! < > & ^ | * / % - +
<<< shift left
>>> shift right
** power
// root
&& alignment
<> common bit swapping
%% percentage ("VAR %% 15" will return the 15% of VAR)
This command is directly derived from my calcc tool:
http://aluigi.org/mytoolz.htm#calcc
Please note that XMath is a lot slower than Math.
Do NOT use the unsigned labels or the additional '=' you use
with the Math command because they are NOT supported since all
operations are unsigned in XMath, so:
xmath TMP "TMP u<<= 5" is WRONG
xmath TMP "TMP << 5" is CORRECT
Arguments
VAR Variable that acts as output
INSTR The full instruction, the operator must never start
with a alphanumeric character because it would be
interpreted as a variable
Examples:
XMath VAR "1 + 2 - ((3 + 4) + VAR * VAR2)"
xmath VAR "VAR ?x 16"
xmath VAR "VAR ?align 16"
...................................................................
Open FOLDER NAME [FILENUM] [EXISTS]
It opens a file, basically it assigns a file number/id to an
existent file that you want to use.
If NAME is '?':
- and FOLDER is FDDE the user must type the extension of the
file to load, the name is the same of the one currently open
- and FOLDER is FDSE the user must type the name of the file
loaded from the same folder
- the user must type the full name of the file to load
From version 0.9 QuickBMS has introduced the emulated file
number 0, if you use "open MEMORY_FILE" or "open 1" then any
operation on the current file will be performed on the chosen
file, use "open 0" to restore it.
Arguments:
FOLDER FDDE, means that you want to open the file in the
same location of the input one which has the
extension provided with NAME, so FDDE is for the
extension only
FDSE, it will consider NAME as a file located in
the same folder of the input file (very useful)
FDDE2, like FDDE forcing the original input folder
FDSE2, like FDSE forcing the original input folder
any other value is considered the folder where is
located the file to load so use "." for the
current output folder
NAME Read above, NAME can also be a ? in which case
QuickBMS will ask the user to insert the name of
the file to open manually if NAME is "" then will
be performed a flush operation that could be useful
(or not?) only in write mode (debug)
FILENUM Number of the file associated to the archive (0)
EXISTS If the file doesn't exist this variable will be set
to 0 or 1 if it exists. By default QuickBMS
terminates with an error if the file doesn't exist.
Examples:
Open FDDE DAT 0
Open FDDE IDX 1
Open FDSE "myfile.zip"
Open "." TEMPORARY_FILE 1
...................................................................
SavePos VAR [FILENUM]
Current position of the file, like ftell in C.
Arguments:
VAR Variable which will contain the offset
FILENUM Number of the file associated to the archive (0)
Examples:
SavePos OFFSET
...................................................................
Set VAR [TYPE] VAR
Command for assigning a constant or a variable to another
variable with the possibility of changing its type, like utf8
to unicode and vice versa, and so on.
Arguments:
VAR Output variable or memory file
TYPE In general the type is not much important because
in QuickBMS there is almost no difference between
numbers and strings, these are the special types:
- unicode, unicode to utf8, endian dependent
set NAME unicode NAME
- to_unicode, utf8 to unicode, endian dependent
set NAME to_unicode NAME
- binary, C notation (cstring)
set MEMORY_FILE binary "\x11\x22\x00hello"
- alloc: allocates memory, something like
putvarchr VAR SIZE 0 ; set VAR alloc 0x1234
- filename: example that returns "myfile.txt":
set NAME filename "c:\folder\myfile.txt"
- basename: for example it returns "myfile"
- filepath
- fullbasename
- extension: the extension part from a string (txt)
- unknown: the user is prompted to insert the
content of the variable: set VAR ? ?
- signed_byte/short/threebyte/long
- unicode32: utf32
- strlen: just a wrapper for the Strlen command
set NAMESZ strlen NAME
VAR Variable or constant to assign
Examples:
Set i long 0
Set TMP long SIZE
Set TMPNAME NAME
Set MEMORY_FILE binary "\x12\x34\x56\x78"
Set ASCII_VAR unicode UNICODE_VAR # from unicode to string
Set VAR ? ? # the user is prompted to insert a filename
...................................................................
Do
...
While VAR COND VAR
A less useful type of cycle where the check of the condition is
performed at the end of the cycle... really rarely used.
If you need a C-like "while(...) {...}" use the For command.
Arguments:
VAR first part of the condition
COND condition, check the If command below for more info
VAR second part of the condition
Examples:
Do
...
While OFFSET < MAX_OFFSET
...................................................................
String VAR OP VAR
The equivalent of the Math command for the strings.
The first variable can be an input and output or only an output
depending by the operator.
You can use also a textual OP, this value is the one in the
first line of the operator seen below ("equal" is '=').
The string searching operators are quite confusing because the
tool didn't have this feature and they were implemented in the
String command later as experimental features.
The variables are used as NUL-delimited strings by default, but
from QuickBMS 0.11 you can use them in binary mode by prefixing
the operator with a zero ("0").
Arguments:
VAR Input and output variable
OP The following examples are based on these values:
VAR1 "MyStringExampleString!" (22 bytes)
1 VAR2 "STRING"
2 NUM2 3
3 NUM2 -3
= just a copy, if var2 is a number it's used as a
raw string, good for Long to String conversions:
var2="0x44434241", result="ABCD"
+ append
MyStringExampleString!STRING
MyStringExampleString!3
MyStringExampleString!-3
- remove, truncate
MyExample!
MyStringExampleStri
MyS
^ xor
.-.=<.=3.1/*#87.:5::5h
~J`GAZ]TvKR^C_V`GAZ]T.
`J~G_ZCThKL^]_H`YAD]J.
< strrstr + var2 (before)
MyStringExampleString
tringExampleString!
ng!
* replicate
MyString
MyStringExampleString!MyStringExampleString!MyStringExampleString!
MyStringExampleString!MyS
% strstr (before), truncate, mod
My
M
MyStringExampleString!
& strstr
StringExampleString!
MyStringExampleString!
MyStringExampleString!
| strstr + var2
ExampleString!
MyStringExampleString!
MyStringExampleString!
$ strrstr
String!
MyStringExampleString!
MyStringExampleString!
! strrstr + var2
!
MyStringExampleString!
MyStringExampleString!
> strrstr (before)
MyStringExample
MyStringExampleStri
MyStringExampleString!
r reverse
reversed string, "abcd" -> "dcba"
b byte2hex
byte2hex of var2: var2="abc", result="616263"
B byte2hex_string
as above but var2 is a NUL delimited string
h hex2byte
hex2byte of var2: var2="616263", result="abc"
e encrypt, encryption
experimental, based on the Encryption command
E encrypt_string
as above but var2 is a NUL delimited string
c compress, compression, comtype
experimental, based on the ComType command
C compress_string
as above but var2 is a NUL delimited string
u toupper
var2="hello", result="HELLO"
l tolower
var2="HELLO", result="hello"
R replace
replace chars: var1="helloworld", var2="world", var3="me", result="hellome"
p printf, sprintf
a printf-like experimental work-around
the format for float (f) and double (g) works
only for one element, so:
get VAR_LONG long
String TMP p "%10.10f" VAR_LONG # no VAR2 or VAR3
print "%TMP%"
P QuickBMS Print
same output of the Print command, for example:
string VAR P "hello %VAR1% test %VAR2|x%"
s sscanf
a sscanf-like experimental work-around, only
for numeric 32bit values
string "123:456" s "%d:%d" VAR1 VAR2
S split
it's like a sscanf for strings, both ' and "
are handled as quotes:
string ELEMENTS S "string1 \"string 2\" 'string3'" VAR1 VAR2 VAR3
x cstring
convert a C string (cstring) to the relative
string/binary:
string VAR x "\x78\x7a"
H string to cstring, all bytes escaped if with
"0" prefix
string VAR 0H "hello" # VAR = "\x68\x65\x6c\x6c\x6f"
f filter
filter the non alphanumeric chars by replacing
them with '_'
m math, xmath
math and xmath operation just like those in the
Encryption command
so #INPUT#+1 means that 0x01 will be added to each char of VAR
quick example: string VAR m "#INPUT#+1" # xmath if there is INPUT
string VAR m "+ 1" # math
w hex2uri
var2="%2fhello&", result="/hello&"
W uri2hex
var2="hello<>", result="hello%3c%3e"
t very basic html/xml tags remover, de_html
T html/xml, one tag or text per line, html_easy
_ trim, removes spaces from the beginning and end
J JSON formatter, json_viewer
X experimental parser for XML, JSON and other
formats (use option -9), xml_json_parser:
https://zenhax.com/viewtopic.php?t=4887&p=26349#p26349
currently it automatically escapes backslashes
and HTML tags (backslashes added in 0.11, in
theory the HTML tags are not in the standard)
nested elements are stored as variables: VAR[i]
so remember to use the "i" index to read them:
string RET X INPUT
for i = 0 < NAME[]
print "%NAME[i]%"
next i
v CSV with custom separators like "," or ",|;"
string ELEMENTS v "arg1,arg2, arg 3 , arg4" "," ARG1 ARG2 ARG3 ARG4
n byte2num
var2="abc", result="97 98 99"
N num2byte
var2="97 98 99" result="abc"
U base64/uudecode
Use an additional zero ("0") to return "" in case
of errors like when the operators that search
strings can't find the pattern (in which case will
be returned the original string by default), this
is very useful while playing with strings, so
"string VAR1 0strchr VAR2" will return "" if VAR2
is not found in VAR1 (instead of leaving VAR1
unchanged), another example: String VAR1 0$ VAR2
From version 0.11 the "0" prefix is also used for
working with binary strings.
VAR The second variable or string
Examples:
string FULLPATH + NAME
string FULLPATH + \
string NAME - ".zip"
string NAME - 4
string PATH R "." "/"
string FULLPATH p "c:\folder\%04x%04x.dat" VAR1 VAR2 # input
string FULLPATH s "c:\folder\%04x%04x.dat" VAR1 VAR2 # output
...................................................................
CleanExit
Terminates the script, it's possible also to use just Exit.
...................................................................
If VAR COND VAR [...]
...
[Elif VAR COND VAR]
...
[Else]
...
EndIf
It checks various conditions and performs the needed operation
when the condition is verified, in short:
- If is ever the first condition
- Elif is another condition and can be used endless times
- Else is the operation to do when no conditions are met, last
- EndIf delimits the If command statement
It's also possible to use multiple conditions (max 4) like:
if VAR1 < VAR2 && VAR3 > VAR4
elif VAR1 != 0 || VAR2 != 0
The 'u' added before the condition forces an unsigned
comparison with numbers and a case sensitive one with strings.
The condition is considered for both strings and numbers, for
more technical details check the check_condition() function
in the cmd.c source code.
Arguments:
VAR First part of the condition
COND Valid for both strings and numbers:
< minor, lower, below
> major, greater, above
!= different, <> !==
== equal, = === strcmp stricmp strcasecmp
>= major/equal
<= minor/equal
& string: var2 is included in var1 (strstr)
number: logical AND
^ string: equal
number: logical XOR
| number: logical OR
% number: modulus
/ number: division
<< number: shift left
>> number: shift right
! number: negation, not
!! number: true, use it to know if VAR is non-zero
~ number: complement
strncmp if "mystring" strncmp "myst"
ext compares the string after the last dot
basename compares the string before the last dot
filepath compares the part before the filenames,
you can force a folder without filename
by appending a slash: "c:\folder/"
instead of "c:\folder" (will be "c:")
any other operation supported by the Math command
(valid only for the numeric variables)
use 'u' before COND for forcing the usage of
unsigned operations useful with shift, divisions
and possibly other operations, if the variables
are strings then it will perform an case sensitive
comparison instead of the default insensitive one,
while the '0' prefix before COND works just like in
String performing a binary comparison
VAR Second part of the condition
Examples:
If NAME != ""
...
Endif
If MASK & 1
Elif MASK & 2
Elif MASK & 4
Elif MASK & 8
Else
Endif
...................................................................
GetCT VAR TYPE CHAR [FILENUM]
It reads a string till the reaching of the CHAR delimiter.
arguments
VAR Output variable
TYPE Only unicode is the alternative type, any other
value is just ignored because doesn't matter for
this operation
CHAR The delimiter character as 8bit number, if this
number is negative QuickBMS will convert it to
positive and read till the current byte is the
same (like skipping the same byte in a file)
FILENUM Number of the file associated to the archive (0)
Examples:
GetCT NAME string 0x0a
GetCT NAME string 0x3b
set DELIMITER_BYTE long 0x0a
GetCT NAME string DELIMITER_BYTE
GetCT NAME unicode 0x0a
...................................................................
ComType ALGO [DICT] [DICT_SIZE]
It selects a specific compression algorithm to use with the
Clog command.
It's also possible to choose a number as ALGO, this is a
feature coming from my project for a compression scanner and
brute-forcer able to guess the possible algorithm of an
unknown raw compressed data block by simply trying every
decompressor on the input (do NOT use it if you don't know what
you are doing! this is NOT offzip!):
http://aluigi.org/bms/comtype_scan2.bat
http://aluigi.org/bms/comtype_scan2.bms
comtype_scan2.bat comtype_scan2.bms input_file output_folder
comtype_scan2.bat comtype_scan2.bms input_file output_folder uncompressed_size
Note that some algorithms may work on Windows only.
if ALGO is "?", the user is prompted to type the desired
algorithm name.
Arguments:
ALGO copy, simple copy that useful in some rare cases
with data encrypted with block ciphers like AES
and blowfish so use comtype copy and encryption
zlib, RFC1950 (windowbit 15, data starts with 'x')
DICT supported
if DICT starts with "Z_FULL_FLUSH"
inflate/deflate will use Z_FULL_FLUSH
deflate, RFC1951 (windowbit -15) used in ZIP files
DICT supported
if DICT starts with "Z_FULL_FLUSH"
inflate/deflate will use Z_FULL_FLUSH
lzo1x
DICT supported
lzo1a till lzo2a, LZO (the most used is lzo1x!)
DICT supported
lzss, with default configuration (window of 4096)
this particular algorithm can be fully configured
setting the EI, EJ and P fields plus another
number rarely used:
EI, EJ, P, rless, init_chr
for setting them it's enough to use a DICT equal
to something like "12 4 2" which means
EI:12 (N:4096), EJ:4 (F:18), P:2
use a negative init_chr for different window
slide customization like -1 for Tales of Vesperia
the default character of lzss is a space (0x20),
but you can use the ALGO lzss0 or the dictionary
"12 4 2 2 0" to use 0x00
lzx, used by the old unlzx tool and on Amiga
gzip, automatic handling of gzip data, in this case
the uncompressed size is ignored and calculated
automatically so in CLog use ZSIZE ZSIZE
pkware, algorithm also known as blast, explode,
implode or DCL
lzma, 5 bytes + lzma (in some cases you may need to
use ZSIZE + 5)
lzma86head, 5 bytes + 8 bytes (size) + lzma
lzma86dec, 1 byte + 5 bytes + lzma (in some cases
you may need to use ZSIZE + 5)
lzma86dechead, 1 + 5 + 8 bytes (size) + lzma
lzmaefs, the format implemented in ZIP
bzip2
XMemDecompress, (xmemlzx) Xbox 360 LZX algorithm of
xcompress.lib use DICT to specify a custom
WindowSize and CompressionPartitionSize like
"131072 524288", the algorithm automatically
idenfities and extracts the LZXTDECODE and
LZXNATIVE files generated by xbcompress.exe
(0x0FF512ED / 0x0FF512EE)
hex, from "01234567" to bytes: 0x01 0x23 0x45 0x67
base64, from "aGVsbG8=" to "hello", also supports
the Gamespy and URL chars
uudecode
ascii85
yenc
COM_LZW_Decompress, used in Vietcong
milestone_lzw, lzw used in the Milestone games
lzxcab, lzx used in cab files (libmspack 21 0)
lzxchm, lzx used in chm files (libmspack 16 2)
rlew, 16 bit RLE algorithm used in AIM Racing
lzjb, a compression used in a file system for *nix
sfl_block, expand_block from iMatix SFL
sfl_rle, expand_rle from iMatix SFL
sfl_nulls, expand_nulls from iMatix SFL
sfl_bits, expand_bits from iMatix SFL
lzma2, 1 bytes + lzma2
lzma2_86head, 1 bytes + 8 bytes (size) + lzma2
lzma2_86dec, 1 byte + 1 bytes + lzma2
lzma2_86dechead, 1 + 1 + 8 bytes (size) + lzma2
nrv2b, UCL
nrv2d, UCL
nrv2e, UCL
huffboh, used in the Asura engine
uncompress, lzw used in the compress utility, use
dict for bits (the lzw data starts from offset 3
of the .Z files)
dmc, Dynamic Markov Compression (DMC)
lzhuf, aka LZH/LHA
lzari
rle7
rle0
rle
rlea, another generic rle decompressor
use DICT to choose the escape char
bpe, byte pair encoding
quicklz
q3huff, Adaptive Huffman used in the Quake 3 engine
unmeng, algorithm used in DreamKiller
lz2k, used in various games of Traveller's Tales
darksector, lzfx used in the game Dark Sector
mszh, used in the LossLess Codec Library
un49g, used in the games of 49Games
unthandor, used in the old game Thandor
doomhuff, huffman used in doom, hexen, skulltag and
other doom ports, the DICT field can be used to
specify a custom HuffFreq table (256 floats)
aplib
tzar_lzss, used in Tzar of HaemimontGames
DICT must contain the name of the variable with
the algorithm number to use, example:
ComType tzar_lzss MYVAR
lzf, aka fastlz
clz77, http://compressions.sf.net/about.html
lzrw1
dhuff, Huffman Decompression in LDS ("lossless
datacompression sources" kit 1.1)
fin, from LDS
lzah (not tested)
lzh12, aka -lh4-
lzh13, aka -lh5-
grzip, aka GRZipII
ckrle, Chilkat RLE
quad, raw data without the first 32bit field
balz, raw data without the first 9 bytes from files
deflate64
shrink (not tested)
z-base-32
base32hex
base32crockford
base32nintendo
base???, if ALGO starts with "base" then will be
taken its subsequent number (for example 32 if it
is "base32") and used for the conversion. the
function supports ANY base from 2 to 256.
for bases larger than 64 will be used a table
starting from byte 0x00 so base128 will have a
charset from 0 to 0x7f
brieflz
paq6, raw data block
shcodec
hstest_hs_unpack (never tested, may be removed)
hstest_unpackc (never tested, may be removed)
sixpack (never tested)
ashford (never tested, may be removed)
jcalg
jam
lzhlib
srank
zzip
scpack
DICT supported (for the SCPACK_TABLE field)
rle3
bpe2
bcl_huf, Basic Compression Library
bcl_lz, Basic Compression Library
bcl_rice, Basic Compression Library
you must use DICT to specify the format (1 to 8)
bcl_rle, Basic Compression Library
bcl_sf, Basic Compression Library
scz
szip
ppmd, ppmd var.i rev.1 with ZIP specifics so 2
bytes of info followed by the compressed data
ppmdi_raw
ppmdg
ppmdg_raw, requires DICT "SASize MaxOrder"
ppmdh
ppmdh_raw, requires DICT "SASize MaxOrder"
ppmdj
ppmdj_raw, requires DICT "SASize MaxOrder CutOff"
sr3c
huffmanlib
sfastpacker, smart+simple mode
sfastpacker2, smart-mode only
dk2, RefPack used in Dungeon Keeper 2 and other
Bullfrog/EA games
lz77wii, (use input size as output size in clog)
lz77wii_raw10, tag 0x10 lz77
darkstone, lz77 used in the game DarkStone
sfl_block_chunked, as sfl_block with automatic
handling of the chunks if used
yuke_bpe, used in the PS2 games developed by Yuke
stalker_lza, used in STALKER, use the output size
equal to the compressed one (handled by quickbms)
prs_8ing
puyo_cnx, raw compressed data from offset 0x10
puyo_cxlz, raw compressed data from offset 0x8
puyo_lz00, raw compressed data from offset 0x32
puyo_lz01, raw compressed data from offset 0x10
puyo_lzss, raw compressed data from offset 0x4
puyo_onz, raw compressed data from offset 0x4
puyo_prs
falcom
cpk, used by the CRI developers (LAYLA)
bzip2_file, exactly like bzip2 but it calculates
the output size, use ZSIZE ZSIZE in clog
lz77wii_raw11, tag 0x11 lzss
lz77wii_raw20, tag 0x20 huffman
lz77wii_raw30, tag 0x30 rle
lz77wii_raw40
pglz, postgresql compression (headerless)
UnPackSLZ
slz_01, used in tri-ace slz type 1
slz_02, used in tri-ace slz type 2
slz_03, used in tri-ace slz type 2
lzhl
d3101
squeeze
lzrw3
tdcb_ahuff
tdcb_arith
tdcb_arith1
tdcb_arith1e
tdcb_arithn
tdcb_compand
tdcb_huff
tdcb_lzss, dict for INDEX_BIT_COUNT,
LENGTH_BIT_COUNT, DUMMY9, END_OF_STREAM
tdcb_lzw12
tdcb_lzw15v
tdcb_silence
rdc
ilzr
dmc2
diffcomp
lzr
lzs (aka mppc but NOT exactly the same!)
lzs_big (aka mppc_big but NOT exactly the same!)
mohlzss
mohrle
yaz0 (aka szs)
byte2hex
un434a
xxdecode
pack, the one supported in gzip
unzip_dynamic, automatic zlib/deflate and output
size, please note that while zlib is almost error
free due to the checksum at its end, deflate
doesn't guarantee a valid output so, even if it
uncompresses the data, it may be invalid. use
zlib_noerror if you are 100% sure that the input
is zlib or plain, and deflate_noerror for deflate
zlib_noerror, as zlib but doesn't quit in case of
errors and automatically reserves the output size
deflate_noerror, as above but for deflate
ppmdh
ppmdh_raw
rnc
rnc_raw
pak_explode, alone in the dark
KENS_Nemesis
KENS_Kosinski
KENS_Kosinski_moduled
KENS_Enigma
KENS_Saxman
dragonballz (STPZ/0DCS/0LCS/STPK archives, Spyke?)
NitroSDK (nitroCompLib)
zdaemon, like doomhuff but different freq table
skulltag, like doomhuff but different freq table
msf, headerless lzma same as lzma_0
stargunner
ntcompress
crle
ctw
DACT_DELTA
DACT_MZLIB2
DACT_MZLIB
DACT_RLE
DACT_SNIBBLE
DACT_TEXT
DACT_TEXTRLE
EXECUTE:
use DICT to specify the command to execute using
#INPUT# instead of input filename and #OUTPUT#
for the output one and the various variables like
you do for the Print command, example:
comtype EXECUTE "ctw.exe d #INPUT# #OUTPUT#"
comtype EXECUTE "ctw.exe d #INPUT# %NAME%"
clog "output.dat" 0 ZSIZE ZSIZE # no need SIZE
CALLDLL:
as above but allows to specify a calldll command
executed on input: "#INPUT#", "#INPUT_SIZE#",
"#OUTPUT#", "#OUTPUT_SIZE#" and %VAR%
full support also for pointers using the '&' or
'*' prefix like &MEMORY_FILE, &VAR, &#INPUT#,
&INPUT_SIZE
lz77_0
lzbss
bpaq0
lzpx, lzpxj
mar_rle
gdcm_rle
lzmat
dict
rep
lzp (it's a preprocessor, not a real compression)
elias_delta
elias_gamma
elias_omega
packbits
darksector_nochunks, aka lzf or lzfx
enet
eduke32, lzwuncompress
xu4_rle
rvl, lemur int compression
lzfu, MS RTF
lzfu_raw
xu4_lzw, Ultima 4
he3, without the HE3\x0d signature and output size
iris, Ultima Online algorithms
iris_huffman
iris_uo_huffman
ntfs
pdb
COMPRLIB_SPREAD
COMPRLIB_RLE1
COMPRLIB_RLE2
COMPRLIB_RLE3
COMPRLIB_RLE4
COMPRLIB_ARITH
COMPRLIB_SPLAY
cabextract, it may be the same lzx of mspack
mrci
hd2_01
hd2_08
hd2_01raw
rtl_lznt1
rtl_xpress, looks not supported by XP/7
rtl_xpress_huff, looks not supported by XP/7
prs
sega_lz77
saint_seya, used for GMI compression
ntcompress30
ntcompress40
yakuza, used by SEGA CS1 team
lz4 (the algorithm of lz4hc is the same)
snappy
lunar_lz1 to lunar_lz19
lunar_rle1 to lunar_rle4
goldensun
luminousarc
lzv1
fastlzah, it should be identical to lzf and lzfx
zax
shrinker
mmini_huffman
mmini_lz1
mmini
clzw
lzham, use the dictionary to specify the following
fields: m_dict_size_log2, m_table_update_rate,
m_decompress_flags, m_table_max_update_interval,
m_table_update_interval_slow_rate
it will try to brute force the first 3 fields
lpaq8
sega_lzs2, automatic CM/lzs2 and decompressed size
wolf
coreonline
mszip, "CK" included (from libmspack)
qtm, (from libmspack)
mslzss, (from libmspack)
mslzss1, (from libmspack)
mslzss2, (from libmspack)
kwaj, mslzh (from libmspack)
lzlib (lzip)
dflt
lzma_dynamic, automatic output size and automatic
scanning of any supported flag, so it should
blindly work against any compressed lzma input.
if it's not compressed, the input will be copied
on the output.
while "lzma" returns an error if the input buffer
doesn't have other compressed bytes
(LZMA_STATUS_NEEDS_MORE_INPUT), lzma_dynamic
gives the ok, this is useful with some rare cases
like Far Cry 3 (fat2_fat3.bms)
lzma2_dynamic, automatic output size
lzma2_efs
lzxcab_delta
lzxchm_delta
ffce
SCUMMVM1 -> SCUMMVM53, many algos used in Scummvm
lzs_unzip, PSP_Nanoha
legend_of_mana
dizzy
edl1
edl2
dungeon_kid
frontmission2
rleinc1
rleinc2
evolution, aka lzf or lzfx
puyo_lz10
puyo_lz11
nislzs
unknown1 -> unknown19
blackdesert
blackdesert_raw
pucrunch
zpaq
zyxel_lzs
blosc
gipfeli
crush
yappy
lzg
doboz
tornado
xpksqsh
amiga_unsquash
amiga_bytekiller
amiga_flashspeed
amiga_iamice
amiga_iamatm
amiga_isc1p
amiga_isc2p
amiga_isc3p
amiga_upcomp
amiga_uphd
amiga_bytekiller3
amiga_bytekiller2
amiga_crunchmania17b
amiga_powerpacker
amiga_stonecracker2
amiga_stonecracker3
amiga_stonecracker4
amiga_crunchmaster
amiga_crunchmania
amiga_crunchmaniah
amiga_crunchomatic
amiga_discovery
amiga_lightpack
amiga_mastercruncher
amiga_maxpacker
amiga_megacruncher
amiga_packit
amiga_spikecruncher
amiga_tetrapack
amiga_timedecrunch
amiga_tryit
amiga_tuc
amiga_turbosqueezer61
amiga_turbosqueezer80
amiga_turtlesmasher
amiga_dms
amiga_packfire
alba_bpe
alba_bpe2
flzp
sr2
sr3
bpe2v3
bpe_alt1
bpe_alt2
cbpe
scpack0
LZMA_0, headerless lzma, use the dictionary to
specify the dictionary size IF necessary
LZMA_86HEAD0
LZMA_86DEC0
LZMA_86DECHEAD0
LZMA_EFS0
LZMA2_0
LZMA2_86HEAD0
LZMA2_86DEC0
LZMA2_86DECHEAD0
LZMA2_EFS0
lzovl
NITROSDK_DIFF8
NITROSDK_DIFF16
NITROSDK_HUFF8
NITROSDK_HUFF16
NITROSDK_LZ
NITROSDK_RL
qcmp
sparse
stormhuff
gzip_strict, gzip without autoguessing the presence
of crc32 and isize at the end, use this if the
file is a real 100% gzip file
CT_HughesTransform
CT_LZ77
CT_ELSCoder
CT_RefPack
qfs, same as dk2
PXP
BOH
GRC
ZEN
LZHUFXR
FSE
FSE_RLE
ZSTD, automatically supports all the legacy algos
CSC
RNCb
RNCb_RAW
RNCc_RAW
AZO
PP20
DS_BLZ
DS_HUF
DS_LZE
DS_LZS
DS_LZX
DS_RLE
FAB
LZ4F
PCLZFG
LZOO
DELZC
DEHUFF
HEATSHRINK
NEPTUNIA
SMAZ
LZFX
PITHY
ZLING
DENSITY
BROTLI
RLE32
RLE35
BSC
SHOCO
WFLZ
FASTARI
RLE_ORCOM
DICKY
SQUISH
LZNT1
XPRESS
XPRESS_HUFF
LZJODY
TRLE
SRLE
MRLE
JCH
LZRW1KH
LZSS0
LHA_lz5
LHA_lzs
LHA_lh1
LHA_lh4
LHA_lh5
LHA_lh6
LHA_lh7
LHA_lhx
LHA_pm1
LHA_pm2
SQX1, currently it doesn't work at 100%
MDIP_ARAD
MDIP_ARST
MDIP_DELTA
MDIP_FREQ
MDIP_HUFFMAN
MDIP_CANONICAL
MDIP_LZSS
MDIP_LZW
MDIP_RICE
MDIP_RLE
MDIP_VPACKBITS
bizarre
bizarre_skip
lzssx
ash
YAY0
DSTACKER
DSTACKER_SD3
DSTACKER_SD4
DBLSPACE
DBLSPACE_JM
XREFPACK, just another dk2/refpack
XREFPACK0, as above but without handling of header
qcmp2, UFG::qDecompressLZ probably the same of qcmp
deflatex, deflate used in Aeriagames pkg.idx, DICT
for btype order ("012")
zlibx, as above but skips the first 2 bytes
lzrw1a
lzrw2
lzrw3a
lzrw5
LEGO_IXS
mcomp, libmcomp / MCMQ / MCMP
mcomp0, rolz
mcomp1, rolz3 (or deflate fast on mcomp.exe)
mcomp2, lz
mcomp3, deflate
mcomp4, deflate64
mcomp5, bzip2
mcomp6, ppmdj
mcomp7, sl
mcomp8, sm
mcomp9, dmc
mcomp10, ??? (10,11,12,18,19,20 are all the same)
mcomp13, fpw1
mcomp14, fpw2
mcomp15, fpw3
mcomp16, fpw4
mcomp17, pwcm
irolz
irolz2
uclpack
ace
ea_comp
ea_huff
ea_jdlz
tornado_byte
tornado_bit
tornado_huf
tornado_ari
lbalzss1
lbalzss2
dbpf, Maxis DBPF
TITUS_LZW
TITUS_HUFFMAN
KB_LZW
KB_DOSLZW
CARMACK
MBASH
DDAVE
GOT
SKYROADS
ZONE66
EXEPACK
DE_LZW
JJRLE
K13RLE
SFRLC
WESTWOOD1
WESTWOOD3
WESTWOOD3b
WESTWOOD40
WESTWOOD80
PKWARE_DCL
TERSE
TERSE_SPACK_RAW
TERSE_PACK_RAW
REDUCE1
REDUCE2
REDUCE3
REDUCE4
LZW_ENGINE, requires the following parameters:
- initial codeword length (in bits)
- maximum codeword length (in bits)
- first valid codeword
- EOF codeword is first codeword
- reset codeword is shared with EOF
- flags (check src/compression/filter-lzw.h)
LZW_BASH
LZW_EPFS
LZW_STELLAR7
ULTIMA6
LZ5
LZ5F
YALZ77
LZKN1
LZKN2
LZKN3
TFLZSS
SYNLZ1
SYNLZ1b
SYNLZ1partial
SYNLZ2
PPMZ2
OPENDARK
DSLZSS
KOF, not working at 100%
KOF1, not working at 100%
RFPK
WP16
LZ4_STREAM
OODLE
OODLE_LZH
OODLE_LZHLW
OODLE_LZNIB
OODLE_LZB16
OODLE_LZBLW
OODLE_LZNA
OODLE_BitKnit
OODLE_LZA
OODLE_LZQ1, OODLE_kraken
OODLE_LZNIB2, OODLE_Mermaid
SEGS
OODLE_Selkie
OODLE_Akkorokamui
ALZ
REVELATION_ONLINE
ps_lz77
lzfse
zle
KOF2, not working at 100%
KOF3, not working at 100%
HSQ
FACT5LZ
LZCAPTSU
TF3_RLE
WINIMPLODE
DZIP
DZIP_COMBUF, just a placeholder, doesn't work
LBALZSS1X, first version of LBALZSS1 (then fixed)
LBALZSS2X, first version of LBALZSS2 (then fixed)
GHIREN
FALCOM_DIN, automatically parses the chunks
FALCOM_DIN1, just input->output
FALCOM_DIN0, mode 0
FALCOM_DINX, mode X
GLZA
M99CODER
LZ4X
TAIKO
LZ77EA_970
DRV3_SRD
RECET
LIZARD, it's just the new name/version of LZ5
MICROVISION
DR12AE
MSPACK, requires parameters
KONAMIAC
WOLF0, just WOLF without header
ARTSTATION
LEVEL5
ZENPXP, dict must contain 0, 1, 2, 3, 4, 0xd, 0xe
or others supported
ZENPXP1, raw algo 1 of zenpxp
ZENPXP2, raw algo 2 of zenpxp
ZENPXP34, raw algo 3,4 of zenpxp
ZENPXPde, raw algo d,e of zenpxp
liblzs
SHREK
EA_MADDEN
nvcache, used by NVIDIA NV_Cache bin/toc
DE_HTML, same as the String command
HTML_EASY, same as the String command
JSON_VIEWER, same as the String command
XML_JSON_PARSER, same as the String command
OodleNetwork1UDP_State_Uncompact
OodleNetwork1_Shared_SetWindow, dict number of bits
OodleNetwork1UDP_Decode, requires the previous
usage of OodleNetwork1_Shared_SetWindow and
OodleNetwork1UDP_State_Uncompact
OodleNetwork1UDP_Encode
qcmp1, raw algorithm used in Sleeping Dogs
ykcmp
lzwab
ncompress, like uncompress plus the 3 bytes header
swzap
mzx
LZRRV
BCM
ULZ
SLZ_ROF, untested probably not working
LZ4X_NEW
COPY2
SLZ_03b
MPPC
MPPC_BIG
alzss
clz
GTC
ANCO
ANCO0
ANCO1
ANCO2
ANCO3
ANCO4
ANCO5
konami_lz77
vct_lzs
umesoft
systemaqua_catf
sogma
pac_ads
ail_lzs
agsi
foster_fa2
an21
arc_link
maika_bk
maika_mk2
propeller_mgr
qlie
avg32_seen
sas5_iar
seraphim_scn
ugos_det
aaru_fl4
inspire_ida
kurumi_mpk
dice_rlz
pulltop
vnsystem
QlzUnpack
umesoft_pk
tomcat_tcd
tail_pren
tail_crp0
tail_hp
tactics_arc
sviu_pkz
nekox_gpc
rec_arc
warc
warc10
warc_ylz
warc_huff
sh_him
pandora_pbx
origin_lz
origin_huffman
origin_rle
origin_alphav2
garbro_huffman
ankh_grp
ankh_hdj
caramelbox_arc3
caramelbox_arc4
circus_V1
circus_V2
circus_V3
cmvs_cpz
daisystem_pac
ethornell_bgi
fc01_mrg
fc01_mrg_quant
fc01_pak_lz
favorite_lzw
frontwing_rle
frontwing_huffman
g2_gcex
gss_arc
hypatia_mariel
interheart_fpk
kaguya_ari
kaguya_lin2
kaguya_link
kaguya_uf
kid_dat
lambda_lax
microvision_arc
moonhir_fpk
spack
azsys
dxlib
glibg
gamesystem_cmp
puremail
groover_pcg
mnp_mma
strikes_pck
sega_lz77x
neptunia0, headerless chunk
puff8
lzh8
romchu
lzsd_of
lzsd_gfd
lzsd_gba2
pzz
SL01
rage_xfs
wangan1
wangan2
wangan3
wangan5
LZ48
exo_decrunch
exo_decrunch_new
bitbuster
lazy
nibrans
LZRS_ASOBO
lzrhys
lze
zx0
zx1
zx2
zx5
rzip
melt1
melt2
--------------------------------
--- recompression algorithms ---
--------------------------------
zlib_compress
deflate_compress
lzo1_compress
lzo1x_compress
lzo2a_compress
xmemlzx_compress
bzip2_compress
gzip_compress
lzss_compress
sfl_block_compress
sfl_rle_compress
sfl_nulls_compress
sfl_bits_compress
lzf_compress
brieflz_compress
jcalg_compress
bcl_huf_compress
bcl_lz_compress
bcl_rice_compress
bcl_rle_compress
bcl_sf_compress
szip_compress
huffmanlib_compress
lzma_compress
lzma_86head_compress
lzma_86dec_compress
lzma_86dechead_compress
lzma_efs_compress
falcom_compress
kzip_zlib_compress
kzip_deflate_compress
prs_compress
rnc_compress
lz4_compress
sfl_block_chunked_compress
snappy_compress
zpaq_compress
blosc_compress
gipfeli_compress
yappy_compress
lzg_compress
doboz_compress
nitrosdk_compress
hex_compress
base64_compress
lzma2_compress
lzma2_86head_compress
lzma2_86dec_compress
lzma2_86dechead_compress
lzma2_efs_compress
lzma_0_compress
lzma2_0_compress
stormhuff_compress
CT_HughesTransform_compress
CT_LZ77_compress
CT_ELSCoder_compress
CT_RefPack_compress
dk2_compress, also as ea_compress, refpack_compress
qfs_compress, same as dk2_compress
LZHUFXR_COMPRESS, aka STALKER_LZA_COMPRESS
FSE_COMPRESS
ZSTD_COMPRESS, only current algorithm, no legacy
DS_BLZ_COMPRESS
DS_HUF_COMPRESS
DS_LZE_COMPRESS
DS_LZS_COMPRESS
DS_LZX_COMPRESS
DS_RLE_COMPRESS
HEATSHRINK_COMPRESS
SMAZ_COMPRESS
LZFX_COMPRESS, DARKSECTOR_NOCHUNKS_COMPRESS,
FASTLZAH_COMPRESS, EVOLUTION_COMPRESS,
UNKNOWN6_COMPRESS
PITHY_COMPRESS
ZLING_COMPRESS
DENSITY_COMPRESS
BSC_COMPRESS
SHOCO_COMPRESS
WFLZ_COMPRESS
FASTARI_COMPRESS
DICKY_COMPRESS
SQUISH_COMPRESS
LZHL_COMPRESS
LZHAM_COMPRESS
TRLE_COMPRESS
SRLE_COMPRESS
MRLE_COMPRESS
CPK_COMPRESS, note that in reimport mode it may not
work because the decompression is size
dependent so the compressed size will probably
change but the value will not be modified in
the original archive (the reimport mode changes
only the data of the files).
if you want it to work you have to manually
edit the value from the archive, launch
quickbms -V and search something like:
. 00000eef get value 0x0000e548 4
. 00000023 get column_name "FileSize" -1
in that example you have to set the new value
at offset 0xeef, but note that the new
compressed size is not displayed by quickbms
LZRW1KH_COMPRESS
BPE_COMPRESS
NRV2b_COMPRESS
NRV2d_COMPRESS
NRV2e_COMPRESS
LZSS0_COMPRESS, aka PUYO_LZ01_COMPRESS
CLZW_COMPRESS
QUICKLZ_COMPRESS
ZOPFLI_ZLIB_COMPRESS
ZOPFLI_DEFLATE_COMPRESS
PKWARE_DCL_COMPRESS
LZ5_COMPRESS
YALZ77_COMPRESS
SYNLZ1_COMPRESS
SYNLZ2_COMPRESS
PPMZ2_COMPRESS
EA_JDLZ_COMPRESS
OODLE_COMPRESS
LZFSE_COMPRESS
M99CODER_COMPRESS
LZ4X_COMPRESS
YUKE_BPE_COMPRESS
LZO1A_COMPRESS
LZO1B_COMPRESS
LZO1C_COMPRESS
LZO1F_COMPRESS
LZO1Y_COMPRESS
LZO1Z_COMPRESS
LIZARD_COMPRESS
LIBLZS_COMPRESS
dizzy_compress
level5_compress
brotli_compress
DRV3_SRD_COMPRESS
YAZ0_COMPRESS
BIZARRE_COMPRESS
BIZARRE_SKIP_COMPRESS
BLACKDESERT_COMPRESS
DR12AE_COMPRESS
EA_COMP_COMPRESS
LBALZSS_COMPRESS
MOHLZSS_COMPRESS
MOHRLE_COMPRESS
NISLZS_COMPRESS
QCMP1_COMPRESS
RFPK_COMPRESS
RLEW_COMPRESS
SAINT_SEYA_COMPRESS
SHREK_COMPRESS
SLZ_01_COMPRESS
SLZ_02_COMPRESS
SLZ_03_COMPRESS
UCLPACK_COMPRESS
SEGA_LZS2_COMPRESS
WOLF_COMPRESS
YAKUZA_COMPRESS
YKCMP_COMPRESS
LZWAB_COMPRESS
NCOMPRESS_COMPRESS
UNCOMPRESS_COMPRESS
LZ4X_NEW_COMPRESS
DRAGONBALLZ_COMPRESS
MPPC_COMPRESS
MPPC_BIG_COMPRESS
ZLIBX_COMPRESS, just same as zlib_compress
DEFLATEX_COMPRESS, just same as deflate_compress
LZ77WII_COMPRESS, use dictionary for cmd, default
is 0x40 of DS_LZX_COMPRESS
APLIB_COMPRESS
LZ4F_COMPRESS
LZ5F_COMPRESS
ppmdh_compress
ppmdi_compress
lunar_lz1_compress to lunar_lz19_compress
lunar_rle1_compress to lunar_rle4_compress
coreonline_compress
*note: the updated list is available in comtype.h
DICT an optional C string containing the bytes of the
dictionary (cstring) or particular parameters
depending by the chosen algorithm.
Note that DICT can be:
- a cstring
comtype algo "\x11\x22\x33" // static binary dict
- a variable for which, often, you must specify
also a length
comtype algo DICT DICT_SIZE // variable dict
...................................................................
ReverseShort VAR [ENDIAN]
Classical swap that inverts a 16bit variable from 0x2211 to
0x1122
and vice versa.
Arguments:
VAR variable to flip
ENDIAN desired endianess like little or big
...................................................................
ReverseLong VAR [ENDIAN]
Classical swap that inverts a 32bit variable from 0x44332211 to
0x11223344 and vice versa.
Arguments:
VAR variable to flip
ENDIAN desired endianess like little or big
...................................................................
ReverseLongLong VAR [ENDIAN]
Classical swap that inverts a 32bit variable from
0x8877665544332211 to 0x1122334455667788 and vice versa.
This command works only with quickbms_4gb_files.exe
Arguments:
VAR variable to flip
ENDIAN desired endianess like little or big
...................................................................
Endian TYPE [VAR]
It changes the current global endianess of the read/written
data, the default one is little endian.
Arguments:
TYPE - little, intel
0x11223344 is stored as 44 33 22 11
- big, network
0x11223344 is stored as 11 22 33 44
- swap, change, invert
swap the current endianess, big <-> little
- guess
followed by a 32bit number. The function swaps
the number and compares it with the original one
so if the number is 0x04000000 then the swapped
one will be 0x4 and the tool will change the
global endianess and the one of the variable
- guess16
followed by a 16bit number
- guess64
followed by a 64bit number
- guess24
followed by a 24bit number
- save, store
stores the current endian in VAR: 1=big, 0=little
Examples:
print "little endian"
endian big
print "big endian"
endian little
print "little endian"
endian change
print "little->big endian"
endian guess 0x04000000
print "guess endian"
endian save CURRENT_ENDIAN
if CURRENT_ENDIAN == 0
print "little endian"
else
print "big endian"
endif
endian set CURRENT_ENDIAN
...................................................................
FileXOR SEQ [OFFSET] [FILENUM]
Any read operation (Get, *Log and so on) on any file will
also perform the XORing of the read data with the numbers
contained in the given string or in the given variable.
The OFFSET field by default is zero which means that if the
data must be xored with more than one byte (a "xor key") the
first byte of the key is the first byte at OFFSET which is 0
by default (beginning of the file).
Recap: the FileXOR command works with ANY file access.
Arguments:
SEQ Sequence of space-separated 8bit numbers, like:
- asequence of bytes separated by space like 0x12
or "0x12 0x34 0x56" or directly a C hex string
like "\x12\x34\x56" (NOT a C notation!)
- a numeric variable like MYXORKEY
- a string not starting with numbers, '\' or '-'
Currently it's not possible to use a key in string
mode and use the Encryption command for doing it,
so if you have a string convert it to a numeric
sequence first or be sure that it doesn't start
with the chars shown above.
Set it to 0 or "" for disabling the xor.
Note that SEQ can be also a 32bit signed number
like filexor 0x11223344 but the size is decided by
value so 0x00000022 is 8 bit and not 32, while
-0x20 is considered 8bit and 0x80112233 a 32bit.
OFFSET Needed only for the xor key offset.
If the archive is xored with a xor key from its
beginning (so first byte of the archive xored with
the first one of the key) this argument is usually
not necessary
Instead if only the file to extract is xored, this
argument must have the same offset of the file (so
just reuse the same OFFSET used in Log)
FILENUM By default FileXOR is applied to ALL the files and
OFFSET (if specified) is referred to file 0.
When FILENUM is specified, it will only be applied
to that specific file.
Examples:
filexor 0xff
filexor -0x20
filexor 0x1122 # 32bit
filexor -0x1122 # 32bit
filexor "0x12 0x34 123 255"
filexor MYXORBYTE
saepos OFFSET
filexor "0x12 0x34 123 255" OFFSET
filexor "\x12\x34\x7b\xff"
Log NAME OFFSET SIZE
...................................................................
FileRot SEQ [OFFSET] [FILENUM]
Exactly as for FileXOR but it performs a sum operation.
For example if SEQ is 0x01 and the file contains "hello" it
will become "ifmmp" while if SEQ is -1 or 0xff it will become
"gdkkn".
-1 and 0xff are the same because it's a 8 bit number while
0x100 or -0x100 are considered 32bit.
Recap: the FileRot command works with ANY file access
Watch the previous arguments and examples.
...................................................................
FileCrypt SEQ [OFFSET] [FILENUM]
Experimental, it works only if has been already specified and
enabled the Encryption command and basically applies those
algorithms to the normal file reading operations.
Note that at the moment OFFSET is unused and SEQ can be only 1
for activating it and "" to disable it ("" and NOT 0!).
Remember that the encryption algorithms usually work on blocks
of data so this command is probably useless.
Full example:
get NAMESZ long
encryption xor "\x11\x22\x33\x44"
filecrypt 1
getdstring NAME NAMESZ
filecrypt ""
encryption "" ""
...................................................................
Strlen VAR VAR [SIZE]
It calculates the length of the second variable (as string) and
stores it in the first one.
The length is the amount of consecutive non-zero bytes, so it
doesn't work with unicode strings, maybe only if SIZE is set.
Note that for practical reasons this command can be emulated
also using "set VAR strlen VAR".
arguments
VAR Destination variable which will contain the length
VAR Variable of which calculating the length
SIZE set it to 1 to receive the size of the variable
instead of its NUL delimited lenght, may be useful
in some situations where you need to ignore the
0x00 bytes
examples
strlen NAME_LENGTH NAME
strlen NAMESZ NAME
strlen RAW_NAMESZ NAME 1
...................................................................
GetVarChr VAR VAR OFFSET [TYPE]
A particular and sometimes very useful command which works
exactly like accessing an array of elements contained in the
second variable, for example a string or a memory file.
It can be compared to C as: var1 = var2[offset];
This simple and effective method allows the manipulation of
strings and variables for creating custom headers (like a DDS)
and moreover for performing operations on a piece of the
memory, like a custom encryption algorithm.
Some real examples are my Deer Hunter 2004/2005 scripts.
Arguments:
VAR Destination variable that will contain the element
VAR Variable or memory file from which you want to get
the element
OFFSET Position of the element in the second variable
TYPE Type of the element to read and assign to the first
variable, if not specified it's a BYTE (8bit).
You can specify most of the available datatypes
like short, long, longlong and so on
Examples:
For i = 0 < SIZE
GetVarChr TMP MEMORY_FILE i
GetVarChr TMP MEMORY_FILE i long
# GetVarChr TMP MEMORY_FILE i string
Next i
...................................................................
PutVarChr VAR OFFSET VAR [TYPE]
The "write-mode" alternative of the previous command which
allows to perform various complex operations with custom
algorithms (like in my Deer Hunter 2004/2005 scripts).
It can be compared to C as: var1[offset] = var2;
Note that PutVarChr can be also used as an allocator of memory
that is often useful in the implementation of custom
decompression algorithms or, moreover, for pre-allocating a
MEMORY_FILE for storing chunks. This is useful to avoid wasting
time and memory with the incremental allocation, remember only
to use the command "Log MEMORY_FILE 0 0" after it for resetting
the position of the MEMORY_FILE.
arguments
VAR Variable or memory file in which you want to put
the element
OFFSET Position of the output where placing the element,
it can also be negative in which case it will work
from the end of the variable (may not work in some
conditions)
VAR Source variable which will contain the element to
write, it's also possible to store the address of
the variable which may be useful with external DLLs
TYPE Type of the element to read and assign to the first
variable, if not specified it's a BYTE (8bit).
You can specify most of the available datatypes
like short, long, longlong and so on.
Examples:
For i = 0 < SIZE
GetVarChr TMP MEMORY_FILE i
Math TMP ^= 0xff
PutVarChr MEMORY_FILE i TMP
Next i
...................................................................
Debug [MODE]
Switch command that enables the -v option in real-time for a
specific portion of the script, used only for debugging.
If MODE is specified and it's a positive number, QuickBMS will
only display the content of the variables read/written with the
Get/Put commands. This is very useful and cool for debugging
file formats and protocols in an easy way just like -V.
If MODE is negative, it will disable the verbose mode.
Examples:
debug # like -v
debug 0 # like -v
debug 1 # like -V
debug -1 # disable -v/V
...................................................................
Padding VAR [FILENUM] [BASE_OFF]
When called it performs an automatic GoTo to the next position
of the file skipping the aligned data.
Imagine to have a file where it's used an alignment of 4 bytes
and your current file offset is 0x39, if you use Padding 4 the
offset will be automatically changed to 0x3c.
By default the padding is referred to the beginning of the file
(offset 0).
Arguments:
VAR Size of the alignment, like 4 or 16 and so on
FILENUM Number of the file associated to the archive (0)
BASE_OFF base offset from where calculating the padding (0)
Examples:
Get NAME string
Padding 4
get OFFSET long
...................................................................
Append [DIRECTION]
Command to enable the append mode in the *Log commands, so if
the output filename already exists it will not be overwritten,
the new content is concatenated (appended) to the existent one.
Note that with real files (not memory files) the user may be
prompted before writing the output file if it already existed
before the running of the script.
Note that the reimport mode may not work correctly when you use
a combo of MEMORY_FILE and Append, so the direct and more
simple Log to file + Append is suggested.
Note that from QuickBMS 0.11 the Append command also affects
the Put* commands (Put/PutDString/PutCT).
Arguments:
DIRECTION This is a new optional argument that allows to
specify where placing the new content:
-1 prefix:
a negative value means that the new content
will be placed before the current file, so the
old content will be appended to the new one
0 append:
the new content will be appended to the current
one (default, just like without DIRECTION)
1 overwrite:
the new content will overwrite the current one
without changing the file size if the new one
is smaller, use goto to set the offset where
placing the new content.
2 insert:
the new content will be inserted in the current
position (size = position + data + remaining)
Examples:
append
Log "dump.dat" 0 0x10
Log "dump.dat" 0x10 0x100
The following is a particular example for allocating a
MEMORY_FILE and using it instead of TEMPORARY_FILE saving space
on the disk and performances:
math TMP = CHUNKS
math TMP *= 0x8000
log MEMORY_FILE 0 0
putvarchr MEMORY_FILE TMP 0 # pre-allocation for speed
log MEMORY_FILE 0 0 # reset the position and size
append
for i = 0 < CHUNKS
...
clog MEMORY_FILE OFFSET ZSIZE 0x8000
next i
append
get SIZE asize MEMORY_FILE
...................................................................
Encryption ALGO KEY [IVEC] [MODE] [KEYLEN]
One of the most interesting commands which allows to set a
decryption algorithm used for the Log and CLog command.
QuickBMS supports also the hashing algorithms of OpenSSL, the
binary hash will be placed in the variable QUICKBMS_HASH while
the hexadecimal hash in QUICKBMS_HEXHASH (capital letters) and
QUICKBMS_HEXHASHL (low).
Note that the hashing algorithms don't need a key, but you can
use that field for performing a direct hash operation on the
provided key without using the log command, eg: encryption sha1
"mystring".
You can also specify the size in case it's a binary variable,
eg: encryption md5 "mystring" "" 0 8
For the HMAC hash algorithm you must use the IVEC field, anyway
remember that this feature is just optional.
Regarding the OpenSSL algorithms, it's possible to enable the
"Final" mode by using one of the following prefixes:
CipherFinal, DecryptFinal or EncryptFinal (it's a way used by
OpenSSL to get the original size from block-cipher data).
Arguments:
ALGO aes, Rijndael
blowfish, you should try also bf_ecb if the result
is not the expected one
des
3des-112
3des-168
rc4
tea, use IVEC to specify custom delta, sum, endian
(0/1), cycles and if_invert_delta_operation
xtea, use IVEC to specify custom delta, endian
(0/1), cycles and if_invert_delta_operation
xxtea, use IVEC to specify custom delta, endian
(0/1), cycles and if_invert_delta_operation
idea
swap, use the bytes to swap as key, it works just
like reverseshort and reverselong:
encryption swap 2: 2211 -> 1122
reverseshort, swap 2
reverselong, swap 4
math, exactly like the bms command plus the size of
the numbers:
encryption math "^u= 0x11223344 1" 32
encryption math "n #INPUT#" # decrypt = -encrypt
it means that this encryption can do tons of
operations including xor, rot, rotate and so on.
the "1" after the math operation means if we want
to respect the exact size of each element like a
sort of AND SIZE (default ignore).
ivec is the size of each element (8bits default)
xmath, key is the operation to perform for each
element, ivec is the size of each element (8 bits
default)
use #INPUT# to identify the element in the data:
encryption xmath "((#INPUT# + 1) << 2) + #INPUT#" 8
random, pseudo random incrementer (Linear
congruential generator) xored with the input key
contains a number corresponding to the algorithms
listed on
http://en.wikipedia.org/wiki/Linear%5Fcongruential%5Fgenerator#Parameters_in_common_use
(0 is the first one) plus other algorithms like
mersenne and so on.
the second parameter in the key is the seed.
the third one is the mask of bits of the key to
use for the operation.
ivec is the size of each element (8bits default).
encryption random "0 0x12345678"
encryption random "0 0x12345678" 32 # 32bit values
encryption random "0 0x12345678 0x7fff0000" # value ^ ((key >> 16) & 0x7fff)
you must check the src\myenc.c source code to
have the full list, currently over 17 implemented
xor
rot
rotate, an 8/16/32/64bit ror or any other bit as
key, element size as ivec
reverse, flip the file from the end to beginning
flip, flip the bits of input file, reverse flip 8
incremental,
# 8bit xor incremented by 1 each time
encryption "incremental xor" 0 0x01
# 32bit rot starting from 0x100 incremented by
# 0x11223344 each time, if the initial value
# is <= 0xffff it's a 16bit, <= 0xff is 8bit,
# the increment is checked too for guessing
encryption "incremental rot" 0x12345 0x11223344
# forced 32bit
encryption "incremental rot32" 0x12345 0x11223344
charset, the substitution algorithm which uses a
charset of 256 chars
charset2, as above but substitution is inverted
twofish
cast5
seed
serpent
ice
icecrypt, ICE algorithm with key implemented as in
the homonym program, the difference with "ice" is
ONLY in the key
rotor, ivec contains the number of rotors (6 by
default, it was 12 till version 0.10.0)
ssc, Leverage SSC
wincrypt, aka cryptdecrypt or cryptencrypt
use the ivec field to specify:
(only those you need, not all are necessary):
- the hashing algorithm - CryptCreateHash, you
can find the key here
- the encryption algorithm - CryptDeriveKey
- the provider type - CryptAcquireContext
- Microsoft provider name, like MS_DEF_DH_SCHANNEL_PROV
- CryptDeriveKey flags, like CRYPT_CREATE_SALT
- CryptDecrypt flags, like CRYPT_OAEP
example:
encryption CryptDecrypt "mykey" "CALG_MD5 CALG_RC4 PROV_RSA_FULL"
encryption CryptDecrypt "1111" "CALG_MD5 CALG_RC4 PROV_RSA_FULL CRYPT_CREATE_SALT CRYPT_OAEP"
cryptunprotect, key is used to specify the entropy
so the default is ""
zipcrypto, the first 12 bytes are the encryption
header set the ivec to 1 for automatically
cutting the first 12 bytes
md_null, from OpenSSL (does nothing)
md2, from OpenSSL (not available)
md4, from OpenSSL
md5, from OpenSSL
sha, from OpenSSL
sha1, from OpenSSL
dss, from OpenSSL
dss1, from OpenSSL
ecdsa, from OpenSSL
sha224, from OpenSSL
sha256, from OpenSSL
sha384, from OpenSSL
sha512, from OpenSSL
mdc2, from OpenSSL
ripemd160, from OpenSSL
whirlpool, from OpenSSL
hmac ..., hmac plus an OpenSSL hash algorithm, it's
an encrypted hash so you must provide a key.
example for a hmac sha1 on the fly:
encryption "hmac sha1" "mykey" "mydata"
or
encryption "hmac sha1" "mykey"
log MEMORY_FILE 0 SIZE
print "%QUICKBMS_HEXHASH%"
enc_null, from OpenSSL (does nothing)
des_ecb, from OpenSSL
des_ede, from OpenSSL
des_ede3, from OpenSSL
des_ede_ecb, from OpenSSL
des_ede3_ecb, from OpenSSL
des_cfb64, from OpenSSL
des_cfb1, from OpenSSL
des_cfb8, from OpenSSL
des_ede_cfb64, from OpenSSL
des_ede_cfb1, from OpenSSL
des_ede_cfb8, from OpenSSL
des_ede3_cfb64, from OpenSSL
des_ede3_cfb1, from OpenSSL
des_ede3_cfb8, from OpenSSL
des_ofb, from OpenSSL
des_ede_ofb, from OpenSSL
des_ede3_ofb, from OpenSSL
des_cbc, from OpenSSL
des_ede_cbc, from OpenSSL
des_ede3_cbc, from OpenSSL
desx_cbc, from OpenSSL
dev_crypto_des_ede3_cbc, from OpenSSL
dev_crypto_rc4, from OpenSSL
dev_crypto_md5, from OpenSSL
rc4, from OpenSSL
rc4_40, from OpenSSL
idea_ecb, from OpenSSL
idea_cfb64, from OpenSSL
idea_ofb, from OpenSSL
idea_cbc, from OpenSSL
rc2_ecb, from OpenSSL
rc2_cbc, from OpenSSL
rc2_40_cbc, from OpenSSL
rc2_64_cbc, from OpenSSL
rc2_cfb64, from OpenSSL
rc2_ofb, from OpenSSL
bf_ecb, from OpenSSL (bf stands for blowfish)
the result is different than the "blowfish" type
because the other uses big endian, try both
bf_cbc, from OpenSSL
bf_cfb64, from OpenSSL
bf_ofb, from OpenSSL
cast5_ecb, from OpenSSL
cast5_cbc, from OpenSSL
cast5_cfb64, from OpenSSL
cast5_ofb, from OpenSSL
rc5_32_12_16_cbc, from OpenSSL (not available)
rc5_32_12_16_ecb, from OpenSSL (not available)
rc5_32_12_16_cfb64, from OpenSSL (not available)
rc5_32_12_16_ofb, from OpenSSL (not available)
aes_128_ecb, from OpenSSL
aes_128_cbc, from OpenSSL
aes_128_cfb1, from OpenSSL
aes_128_cfb8, from OpenSSL
aes_128_cfb128, from OpenSSL
aes_128_ofb, from OpenSSL
aes_128_ctr, from OpenSSL
aes_192_ecb, from OpenSSL
aes_192_cbc, from OpenSSL
aes_192_cfb1, from OpenSSL
aes_192_cfb8, from OpenSSL
aes_192_cfb128, from OpenSSL
aes_192_ofb, from OpenSSL
aes_192_ctr, from OpenSSL
aes_256_ecb, from OpenSSL
aes_256_cbc, from OpenSSL
aes_256_cfb1, from OpenSSL
aes_256_cfb8, from OpenSSL
aes_256_cfb128, from OpenSSL
aes_256_ofb, from OpenSSL
aes_256_ctr, from OpenSSL
camellia_128_ecb, from OpenSSL
camellia_128_cbc, from OpenSSL
camellia_128_cfb1, from OpenSSL
camellia_128_cfb8, from OpenSSL
camellia_128_cfb128, from OpenSSL
camellia_128_ofb, from OpenSSL
camellia_192_ecb, from OpenSSL
camellia_192_cbc, from OpenSSL
camellia_192_cfb1, from OpenSSL
camellia_192_cfb8, from OpenSSL
camellia_192_cfb128, from OpenSSL
camellia_192_ofb, from OpenSSL
camellia_256_ecb, from OpenSSL
camellia_256_cbc, from OpenSSL
camellia_256_cfb1, from OpenSSL
camellia_256_cfb8, from OpenSSL
camellia_256_cfb128, from OpenSSL
camellia_256_ofb, from OpenSSL
seed_ecb, from OpenSSL
seed_cbc, from OpenSSL
seed_cfb128, from OpenSSL
seed_ofb, from OpenSSL
mcrypt blowfish
mcrypt des
mcrypt tripledes
mcrypt threeway
mcrypt gost
mcrypt safer-sk64
mcrypt safer-sk128
mcrypt cast-128
mcrypt xtea
mcrypt rc2
mcrypt twofish
mcrypt cast-256
mcrypt saferplus
mcrypt loki97
mcrypt serpent
mcrypt rijndael-128
mcrypt rijndael-192
mcrypt rijndael-256
mcrypt enigma
mcrypt arcfour
mcrypt wake
note that for the algorithms supported by mcrypt
you can force their loading by preceeding ALGO
with "mcrypt" like "mcrypt_enigma" and you can
decide also their mode like "mcrypt_enigma_ecb"
or "mcrypt_enigma_cbc", list:
cbc, ecb, cfb, ofb and nofb
3way
skipjack
anubis
aria
crypton
frog
gost
lucifer
mars
misty1
noekeon
seal
safer
kirk, used in PSP eboot encryption, use the ivec to
specify the keys/encryption (default is 1, refer
to libkirk for more information)
pc1, automatic 128/256 bit selection on key length
blake224
blake256
blake384
blake512
bmw224
bmw256
bmw384
bmw512
cubehash224
cubehash256
cubehash384
cubehash512
echo224
echo256
echo384
echo512
fugue224
fugue256
fugue384
fugue512
groestl224
groestl256
groestl384
groestl512
hamsi224
hamsi256
hamsi384
hamsi512
haval128_3
haval128_4
haval128_5
haval160_3
haval160_4
haval160_5
haval192_3
haval192_4
haval192_5
haval224_3
haval224_4
haval224_5
haval256_3
haval256_4
haval256_5
jh224
jh256
jh384
jh512
keccak224
keccak256
keccak384
keccak512
luffa224
luffa256
luffa384
luffa512
md2
md4
md5
panama
radiogatun32
radiogatun64
ripemd
ripemd128
ripemd160
sha0
sha1
sha224
sha256
sha384
sha512
shabal192
shabal224
shabal256
shabal384
shabal512
shavite224
shavite256
shavite384
shavite512
simd224
simd256
simd384
simd512
skein224
skein256
skein384
skein512
tiger
tiger2
whirlpool
whirlpool0
whirlpool1
sph
mpq
rc6
xor_prev < data[i] ^= data[i - 1] use key + or - to use operations
different than xor and the value to
use for the last byte, "^ 0x8e"
xor_prev2 < data[i] ^= data[i + 1] "
xor_next > data[i] ^= data[i - 1] "
xor_next2 > data[i] ^= data[i + 1] "
PKCS5_PBKDF2_HMAC, example PKCS5_PBKDF2_HMAC_sha1
Rfc2898DeriveBytes
BytesToKey, example "BytesToKey_sha1 aes"
ZIP_AES followed by 128, 192 or 256 (gladman cwc)
rsa
rsa_tomcrypt
modpow, just a simple RSA BN_mod_exp performed on
chunks of 256 bytes
modpow_zed
abc
achterbahn
achterbahn128
cryptmt
dicing
dragon
edon80
ffcsr8
fubuki
grain
grain128
hc128
hc256
hermes128
hermes80
lex
mag
mickey
mickey128
mir1
mosquito
moustique
nls
polarbear
pomaranch
py
rabbit
salsa20
sfinks
sosemanuk
sss
trivium
tsc3
tsc4
wg
yamb
aes_ige
aes_bi_ige
aes_heat, used in the game Heat Online
isaac
isaac_vernam
isaac_caesar
hsel
rng, just random data, useful with filecrypt for
generating (read/write) random fields, currently
key is ignored so use ""
bcrypt, it supports various options like:
encryption "bcrypt aes cbc block_padding" KEY IVEC
molebox
replace, replace the bytes of KEY with IVEC
(currently must be smaller or equal)
rc4_nokey, the specified key will be used directly
as the 256-bytes context
d3des
spookyhash, 32/64/128
murmurhash, qhashfnv1_32, qhashfnv1_64,
qhashmurmur3_32, qhashmurmur3_128
xxhash, XXH32, XXH3_64bits_withSecret,
XXH3_128bits_withSecret, XXH3_128bits_withSecret,
XXH128, XXH3_64bits_withSecret, XXH64
tomcrypt
modes: ecb, cfb, ofb, cbc, ctr, lrw, f8, xts,
hmac, omac, pmac, eax, ocb3, ocb, ccm, gcm,
pelican, xcbc, f9, poly1305, chacha20poly1305,
blake2smac, blake2bmac
encryptions: blowfish, rc5, rc6, rc2, saferp,
safer_k64, safer_k128, safer_sk64, safer_sk128,
rijndael, aes, rijndael_enc, aes_enc, xtea,
twofish, des, des3, cast5, noekeon, skipjack,
khazad, anubis, kseed, kasumi, camellia
hashing: multi2, chc, whirlpool, sha512,
sha512-256, sha512-224, sha384, sha256, sha224,
sha1, md5, md4, md2, tiger, rmd128, rmd160,
rmd256, rmd320
example:
Encryption "tomcrypt rijndael ecb" "0123456789abcdef"
PBKDF1
PBKDF1_openssl
PBKDF2
crc, a complete and powerful checksum function that
can be fully configured:
- key is the polynomial ("" for crc32 0x77073096)
- ivec contains:
- size of the crc (8/16/32/64)
- initial value (like -1)
- final xor value (-1, the complement)
- type, many types listed in crc_calc in crc.c,
it also includes qhashmurmur3_32, qhashfnv1_32,
qhashfnv1_64, jenkins_one_at_a_time_hash,
XXH32, XXH64, xPear16, CityHash32, CityHash64,
CityHash64WithSeed, StormHash,
jenkins_hashlittle, adler32, fnv32, UHash,
spookyhash_32, spookyhash_64
- reverse/reflect mode for generating the table
(0 or 1)
- bitmask_side (0 or 1, latter is most used)
default values: 0xedb88320 32 -1 -1 0 0 1
if you need the classical crc16 (0xc0c1) use:
encryption crc 0xa001 "16 0 0 0 0 1"
or
encryption crc "" 16
the result is placed in the variable QUICKBMS_CRC
example for type 39:
encryption crc 0 "0 0 0 39 0 1"
for additional info:
http://aluigi.org/bms/quickbms_crc_engine.txt
for technical information about the operations
check the crc_calc function in crc.c, it's quite
easy to understand because it contains the simple
operations performed in each cycle, copy below:
0 table[(BYTE ^ CRC) & 0xff] ^ (CRC >> 8)
1 table[(BYTE ^ (CRC >> (bits - 8))) & 0xff] ^ (CRC << 8)
2 ((CRC << 8) | BYTE) ^ table[(CRC >> (bits - 8)) & 0xff]
3 ((CRC >> 1) + ((CRC & 1) << (bits - 1))) + BYTE
4 crc_in_cksum(CRC)
5 CRC ^ BYTE
6 CRC + BYTE // lose lose
7 table[(BYTE ^ CRC) & 0xff] ^ CRC
8 table[(BYTE ^ CRC) & 0xff] ^ (CRC >> (bits - 8))
9 (CRC << 1) ^ BYTE
10 (CRC << 1) + BYTE
11 rol(CRC, 1, 0) ^ BYTE
12 rol(CRC, 1, 0) + BYTE
13 ror(CRC, 1, 0) ^ BYTE
14 ror(CRC, 1, 0) + BYTE
15 (CRC << 5) + CRC + BYT) // djb2 5381
16 (CRC * poly) + BYTE // djb2 and sdbm
17 (CRC * poly) ^ BYTE // djb2 and FNV-1
18 (CRC ^ BYTE) * poly) // FNV-1a
19 BYTE + (CRC << 6) + (CRC << 16) - CRC // sdbm 65599
20 poly * (CRC + BYTE * (i + 1))
21 qhashmurmur3_32
22 qhashfnv1_32
23 qhashfnv1_64
24 XXH32(poly)
25 XXH64(, poly)
26 jenkins_one_at_a_time_hash
27 xPear16
28 CityHash32
29 CityHash64
30 CityHash64WithSeed(poly)
31 StormHash(MPQ_HASH_TABLE_INDEX)
32 StormHash(MPQ_HASH_NAME_A)
33 StormHash(MPQ_HASH_NAME_B)
34 StormHash(MPQ_HASH_FILE_KEY)
35 StormHash(MPQ_HASH_KEY2_MIX)
36 jenkins_hashlittle(poly)
37 adler32
38 fnv32(crc ? crc : 0x811c9dc5)
39 UHash(crc, poly, 0x7fffffff)
40 spookyhash_32(poly)
41 spookyhash_64(poly)
42 XXH3_64bits
43 XXH3_64bits_withSeed(poly)
note that some crc types use the polynomial value
as constant in each cycle
crc64 and 64bit crc are only supported by
quickbms_4gb_files.exe
if you are a dev and need the generated table,
use the following command with quickbms -V or -v:
print "%QUICKBMS_CRC_TABLE%"
EXECUTE:
use KEY to specify the command to execute with
#INPUT# instead of input filename and #OUTPUT#
for the output one, you can also specify a
variable by using the %VAR% notation.
IMPORTANT NOTE: do NOT use "encryption execute"
if the output will be bigger than the input, use
Clog in that case!
example:
encryption EXECUTE "mycrypt.exe d #INPUT# #OUTPUT#"
another full example:
get SIZE asize
encryption EXECUTE "lame.exe -V 4 #INPUT# #OUTPUT#"
log "newfile.mp3" 0 SIZE
encryption EXECUTE "otherprog.exe #INPUT# #OUTPUT# %SIZE%"
log "newfile2.mp3" 0 SIZE
CALLDLL:
exactly as above except that the variables don't
need to be specified within '%' because calldll
already handles them, but don't worry because even
if you do that the result should not change:
encryption calldll "test.dll myfunction cdecl RET #INPUT# #INPUT_SIZE# MYVAR"
get SIZE asize
log "newfile.mp3" 0 SIZE
full support also for pointers using the '&' or
'*' prefix like &MEMORY_FILE, &VAR, &#INPUT#,
&INPUT_SIZE
"" "", disable the encryption
KEY The key to use with escapes like "\x11\x22\x33\x44"
or "this is my key" (cstring)
This value can be also a variable or a memory file
set ALGO and KEY to "" for disabling the encryption
IVEC The ivec to use in C notation (cstring), an ivec is
an additional key used for increasing the security
of encryption algorithms that are usually defined
as ECB without ivec and CBC (and others) with ivec
MODE 0 for decryption (default), 1 for forcing the
encryption mode, if no ivec is used remember to
place a "" at its place
KEYLEN Forces the usage of a certain length of the key,
this one has been introduced only for avoiding the
problem of using a variable as KEY containing
zeroes in it and for the non-block ciphers when you
use KEY as a variable in which a certain length is
used and not strlen. KEYLEN is also necessary with
some algorithms when you set the key as a "string"
variable (Set KEY string "blah"), that's because
QuickBMS will pass a different larger length to the
algorithm
Examples:
Encryption aes "0123456789abcdef" "" 1 # encrypt without ivec
Log MEMORY_FILE 0 SIZE
Encryption aes "0123456789abcdef" # decrypt without ivec
Log "redecrypted_file.dat" 0 SIZE MEMORY_FILE
Encryption aes "\x12\x34\x56\x78"
set MEMORY_FILE binary "\x12\x34\x56\x78"
Encryption aes MEMORY_FILE
Encryption aes MY_VARIABLE
Encryption md5 ""
...................................................................
Print MESSAGE
It prints a string in C notation with the values of the
variables if their names are specified between '%' chars.
It's also possible to specify the maximum amount of bytes to
visualize (or a variable containing such value) and if they
must be displayed in hex or dump mode specifying some flags
after a '|' like
in the examples:
- x/h/hex: hexadecimal numbers and chars
- dump: hexadecimal dump, left in hex and right in chars
- number: amount of bytes to show
- var: variable containing the amount of bytes to show
Arguments:
MESSAGE C notation string, each %VAR% word is converted to
its value (cstring)
From version 0.11 it also supports combinations of
colors using the {FB} notation for Foreground and
Background color using ANSI notation (it also
supports the full name):
0: Black 8: Bright Black
1: Red 9: Bright Red
2: Green a: Bright Green
3: Yellow b: Bright Yellow
4: Blue c: Bright Blue
5: Magenta d: Bright Magenta
6: Cyan e: Bright Cyan
7: White f: Bright White
Examples:
print "the variable OFFSET of the file %FILENAME% has the value %OFFSET|x%"
print "this is the first line\nthis is the second line\n"
print "variable %VAR% and %VAR2%"
print "variable %VAR|h% and %VAR2|hex%"
print "variable %VAR|3% and %VAR2|4%"
print "variable %VAR|3h% and %VAR2|h4%"
print "variable %VAR|dump16%"
print "variable %VAR|dumpVARSZ%"
print "\x68\x65\x6c\x6c\x6f"
print "Hello, {1}how are you?{}\n{f}Fine!{} ... {0f}also this {green}closing{/green} works"
...................................................................
GetArray VAR ARRAY VAR_IDX
...
PutArray ARRAY VAR_IDX VAR
Commands to store variables in bidimensional arrays.
They work on a dynamic array where it's possible to store the
variables. Something like a temporary place or a stack.
It's highly suggested to pre-allocate the array if you know
the max value, example: PutArray 0 FILES 0
If the array index (VAR_IDX) is negative like -1:
- getarray will take the element located at that position from
the end of the array, so "getarray VAR 0 -1" will take the
last element while "getarray VAR 0 -2" will take the one
before
- putarray will ever append the element at the end of the
array, currently there is no difference if you use VAR_IDX
-1, -2, -1000
- getarray will return the number of elements in the array if
the negative amount is bigger than the elements... a sort of
work-around like: getarray ELEMENTS 0 -0x80000000
Examples:
PutArray 0 0 FIRST_VAR
PutArray 0 1 SECOND_VAR
GetArray FIRST_VAR 0 0
GetArray SECOND_VAR 0 1
getarray FILES 0 -0x80000000
for i = 0 < FILES
putarray 0 -1 VAR
next i
Note: since quickbms 0.11 both getarray and putarray also
support multiple variables, for example:
putarray 0 i NAME OFFSET SIZE
getarray NAME OFFSET SIZE 0 i
it's the same of:
putarray 0 i NAME
putarray 1 i OFFSET
putarray 2 i SIZE
getarray NAME 0 i
getarray OFFSET 1 i
getarray SIZE 2 i
...................................................................
SortArray ARRAY [ALL]
Experimental sorting of the arrays in ascending order (like 0
to 99) based on the values in ARRAY.
If ALL is a number different than zero, the sorting will affect
ALL the available arrays created till that moment, which means
that their positions will match those of the sorted array, so
if the array 0 was "1" "3" "2" and array 1 was "hello" "test"
"bye", with ALL set to 1 you will have 1 2 3 and "hello" "bye"
"test".
From QuickBMS 0.7.7 the sorting is unsigned, so -1 is handled
as 0xffffffff, the highest element of the array.
Examples:
putarray 0 0 "zzz"
putarray 0 1 "aaa"
putarray 0 2 "bbb"
sortarray 0
for i = 0 < 3
getarray TMP 0 i
print "%TMP%"
next i
...................................................................
SearchArray VAR ARRAY VAR
Experimental search in arrays.
Examples:
searcharray IDX 0 "search value"
searcharray IDX 0 0x11223344
...................................................................
CallFunction NAME [KEEP_VAR] [ARG1] [ARG2] ... [ARGn]
StartFunction NAME
...
EndFunction
Calling and declaration of a function identified by NAME where
the values of the variables are backed up till the termination
of the function when they are restored.
It works very well for recursive/nested archives like those
used by "The Void" and "Another Day".
If KEEP_VAR is not specified or zero, QuickBMS will make a
backup of the current values and the function will work on a
copy, when the function terminates the variables will be
restored to their backup.
If KEEP_VAR is set to 1, there will be no backup and any change
made in the function will remain when it terminates.
Do not use KEEP_VAR if you are working on a nested/recursive
file table, use it to 1 if you are creating a macro or a
function called many times to perform a task.
It's a good idea to place all the functions (from StartFunction
till EndFunction) at the end of the scripts.
It's also possible to pass optional arguments to the function,
they will have the name of the function plus ARGnumber, eg:
MYFUNCTION_ARG1 and MYFUNCTION_ARG2.
Doesn't exist a return value at the moment but it's possible to
do it in other ways like saving the value in an array or on a
MEMORY_FILE.
Arguments:
NAME Name assigned to the function
KEEP_VAR Set to 1 if you want to keep the content of the
variables without resetting them, in short words:
0 = for recursive functions (default)
1 = for normal functions that change variables,
this is faster and suggested in most cases
ARGs Arguments, they are seen inside the function as
"name of the function" + ARG + argument_number
Examples:
http://aluigi.org/bms/thevoid.bms
http://aluigi.org/bms/fear.bms
...................................................................
ScanDir PATH NAME SIZE [FILTER]
Function without a real usage, it simply scans the PATH folder
and fills the NAME and SIZE variables with the name and the
size of each file found.
Currently this function doesn't have a purpose so ignore it.
If you want to filter the scanned files located in the folder
you specified as input, use the -F option of quickbms (I tell
this information because some users may think to "wrongly" use
this command for that purpose).
Arguments:
PATH Must be ".", the current folder and the returned
filenames will start with ./
From quickbms 0.9.1 you can just use ""
There are also some "experimental" values not meant
for normal usage, with optional file number after
"://" (heap://10 will work on the file number 10):
process:// processes on the system: NAME=process SIZE=pid
module:// modules in the opened process: NAME=address SIZE=size
memory:// allocated blocks of memory: NAME=address SIZE=size
heap:// every single allocated heap (slow!): NAME=address SIZE=size
NAME Output variable receiving the name of the file, it
will be "" when there are no other files
SIZE Output variable receiving the size of the file, it
will be -1 when there are no other files
FILTER Same job as -F, this filter is valid only if -F
wasn't specified
Examples:
For
ScanDir "." NAME SIZE
if NAME == ""
cleanexit
endif
Next
...
For
ScanDir "." NAME SIZE "*.jpg"
if NAME == ""
cleanexit
endif
Next
...................................................................
CallDLL DLLNAME FUNC/OFF CONV RET [ARG1] [ARG2] ... [ARGn]
Command that allows to use plugins inside QuickBMS.
The idea came from the possibility of using the custom
decompression and decryption functions located in executables
and DLLs avoiding the boring reverse engineering of all the
functions.
It works with both real files and MEMORY_FILEs (even if they
contain dll data!).
Unfortunately this is not much possible with the functions got
from executables where are used static variables due to some
technical reasons, in fact it's not possible to relocate them
in memory.
For example if the function uses the memory between 006c0000
and 006d0000 it's highly possible that such range of memory is
not allocated or is already in use because the executable has
not been loaded (LoadLibrary) in its original address, that
space is already occupied.
There are no problems with DLLs, they are made to be relocated.
You can even use a dll inside a MEMORY_FILE but be sure it's
not packed because it may not work.
And it's also possible to use a raw data containing maching
instructions, basically you can dump a function "as is" and
putting it in a MEMORY_FILE.
That means that the following situations are OK:
- raw dumped functions or static memory
- DLLs
- "maybe" some executables loaded as DLLs
Arguments:
DLLNAME Name of the dll, executable, file or MEMORY_FILE
where is located the function, example "mylib.dll"
FUNC/OFF It can be the name of the function to import in
which case it must be exported by the dll/exe with
a name (pay attention to mangled names!)
Or the relative offset where is located the
function, remember that the relative offset is NOT
the absolute one but it's the offset related to the
image base of the exe/dll, so if normally the dll
loads at offset 10000000 and the function is at
10012345 then the offset is 0x12345
CONV Calling convention, check calling_convention.h:
usercall: allows to set all the 6 x86 registers,
any argument after 6th will be pushed on stack
cdecl: used by default in many C/C++ compiler
stdcall: aka winapi, used by default in Visual C
thiscall
msfastcall: Microsoft fastcall
fastcall: native fastcall
borland: the fastcall convention used by the
Borland compilers like Delphi
pascal
watcom
safecall
syscall
optlink
carion
tcc: use this type to compile the text of the
input memory file like a C source code, it
automatically wraps the file operations like
fgetc/fputc/fread/fwrite on the input/output
python: use the memory file like a python script
and invoking its functions, QuickBMS variables
are globally visible in the script (read-only
numbers, writable strings and data)
lua: Lua script
imagebase: address where the code/dll is loaded
address: just imagebase plus OFF
entrypoint: the entry point of the executable
file2rva: relative virtual address of OFF
file2va: imagebase plus file2rva
rva2file: file offset of the provided RVA
va2file: file offset of the virtual address
RET The variable which will contain the value returned
by the function, use "" if there is no return value
If you use *RET or &RET then the return value will
be copied in the RET variable as a string
[ARGS] All the arguments of the function, it's also
possible to use pointers to arguments if they are
preceded by a & or a * like &SIZE which means that
the dll/code receives the address of that variable
and can modify its content. It works only with
numeric variables
Examples:
idstring LZ2K
get SIZE long
get ZSIZE long
log MEMORY_FILE 0xc ZSIZE
putvarchr MEMORY_FILE2 SIZE 0 # like malloc
#calldll "TransformersDemo.exe" 0x263c50 cdecl "" MEMORY_FILE MEMORY_FILE2 ZSIZE SIZE # 00663C50
calldll "unlzk.dll" "unlz2k" cdecl SIZE MEMORY_FILE MEMORY_FILE2 ZSIZE SIZE
log "dump.dat" 0 SIZE MEMORY_FILE2
set MEMORY_FILE binary "
int foo(int n)
{
return n * 1234;
};
"
calldll MEMORY_FILE "foo" "tcc" RET 100
...................................................................
Put VAR TYPE [FILENUM]
...
PutDString VAR LENGTH [FILENUM]
...
PutCT VAR TYPE CHAR [FILENUM]
...
These commands are EXACTLY like the Get* functions except for
the fact that they perform write operations.
For using these commands on a physical file (so MEMORY_FILEs
excluded) the user MUST use the -w option at runtime, that's
necessary for both technical and security reasons.
If you want to write a string without the NULL delimiter use:
putct "your_string" string -1
...................................................................
GetBits VAR BITS [FILENUM]
Function for reading bits from the files.
When you use a GoTo function or change the current offset of
the file with a Get* command, the variable containing the bit
position (basically the amount of bits read from the previously
byte taken from the file) will be reset to 0.
Note that the function is 100% endian compatible so the result
changes if you choose the little or big endian mode, remember
it in case the results don't match what you expected.
Arguments:
VAR Destination variable, can be a number if the bits
are from 0 to 32 or a string for bigger sizes
BITS Number of bits to read
FILENUM Number of the file associated to the archive (0)
...................................................................
PutBits VAR BITS [FILENUM]
Write mode, same format as GetBits
...................................................................
Include FILENAME
This command loads another script in the current one, it can be
useful if you have many general functions and you want to avoid
to copy&paste them in any new script.
You can place it in any part of your script.
include "general.bms"
->
load the part of the current script till "include"
load general.bms
load the remaining part of the current script after "include"
...................................................................
NameCRC VAR CRC [LISTFILE] [TYPE] [POLYNOMIAL] [PARAMETERS]
It's not rare to have archives containing files without names,
just a crc (checksum) calculated on the original filename to
identify it.
The NameCRC command exists just in these situations, where you
have a file containing a list of filenames (maybe collected
with a debugger or via hooking) and you want to assign them to
the output files.
What this command does is just loading the names in LISTFILE,
calculating some checksums on them using the provided crc
parameters, and compare the CRC field read in the archive with
the calculated ones.
When a crc matches the one in the database, the original
filename is moved in the VAR variable.
Note that QuickBMS will automatically calculate various CRC for
the same filename, by using only slash or backslahs, or all the
chars to lower or upper case, by removing any "\/.:" char from
the beginning of the name and so on. This is necessary to grant
the catching of the right filename in any situation.
The feature is very fast and the "database" is not so big, so
you will notice almost no performance issues while using this
command.
The function must be used before the *log operations and it can
be used as initializer at the beginning of the script and then
with only the first mandatory arguments to retrieve the
filenames matching the provided crc, for example:
namecrc DUMMY 0 "names.list" 32
...
get NAME_CRC long
namecrc NAME NAME_CRC
log NAME OFFSET SIZE
Or you can just use it with all the arguments:
...
get NAME_CRC long
namecrc NAME NAME_CRC "names.list" 32
log NAME OFFSET SIZE
Arguments
VAR Destination variable that will contain the filename
or just a "" in case no name has been found (it
will use a particular variable called
QUICKBMS_FILENAME).
If VAR is "" then you can use *log "" and the
retrieved filename will be automatically applied to
the output file.
This behaviour has been thought to write scripts
easily without providing a NAME variable.
CRC This is the CRC field read from the file.
It must be a HEXADECIMAL value, decimal are no
longer supported by default.
Remember, quickbms.exe reads longlong as a 32bit
field, you must use quickbms_4gb_files.exe to read
real 64bit fields.
If necessary, in future will be supported also hash
algorithms.
LISTF The name of the file that contains the filenames,
each name must be on a new line.
QuickBMS automatically recognize if the entry is
just the name or contains also a pre-calculated
crc, for example:
path\folder\file.txt
0x11223344 path\folder\file.txt
287454020 path\folder\file.txt
# path\folder\file.txt
The list file will be automatically searched and
loaded from the input and output folders, till it's
found.
The filenames located after a comment are good to
use the same bms script as a file list.
You can also specify a memory file, good it's a
compressed type, set MEMORY_FILE10 compressed "..."
TYPE Currently only CRC is supported:
crc32 (default), crc8, crc16 and crc64
POLY Polynomial value used to calculate the CRC tables
PARAM Both POLY and PARAM work in the same way you can
set the CRC in the Encryption command through KEY
and IVEC, so refer to that command for additional
information and example.
Anyway PARAM contains:
BITS, INIT, FINAL, TYPE, REVER and BITMASK_SIDE
If you are a developer and wants to have a full
understanding of what you can customize, please
check the crc_calc function in crc.c, it's very
simple and self explanatory.
Example for fnv32:
namecrc DUMMY 0 "names.list" 32 "" "32 0 0 38 0 1"
...................................................................
Codepage VAR
Allows to specify a codepage/charset (number or name) for the
unicode operations like:
getdstring VAR2 SIZE ; Set VAR1 unicode VAR2
Currently it works only on Windows and the full list of
codepages is available at:
https://msdn.microsoft.com/en-us/library/windows/desktop/dd317756%28v=vs.85%29.aspx
Arguments
VAR the codepage, like utf8 or 950 and so on.
Example for converting a string from JIS (932) to UTF8:
get NAME string # read it as a sequence of bytes
codepage 932
codepage cp932
set NAME to_unicode NAME # jis -> utf16 (unicode)
codepage "utf8"
set NAME unicode NAME # utf16 -> utf8
...................................................................
SLog NAME OFFSET SIZE [TYPE] [FILENUM] [ID]
This command allows to export strings to an output file and
being able to reimport them later with reimport.bat.
The reimporting feature of this command has the same
limitations of the global one, so you cannot reimport strings
that are longer than the original.
Currently QuickBMS will simply tell you that the new string is
longer without interrupting the importing so pay attention.
The space between the end of the new and old string will be
filled with zeroes but this behaviour "may" be changed in
future to avoid situations in which there are sequential NUL
delimited strings and using zeroes will causes problems in the
software that reads the file.
Anyway in these situations you can just insert the spaces by
yourself in the new string.
The dumped strings are handles as C strings, basically the '\'
char (backslash) is an escape that allows you to specify any
byte you desire, the \r and \n you will see are just the 0x0d
and 0x0a bytes that allow to insert the whole multiline string
in one line.
Each line is an exported string.
Notepad++ is highly suggested to avoid mistakes.
Small tip: Use INS (the replace character) mode of your text
editor for editing the string file to reimport so that you will
have no problems with longer new strings.
The SLog function is new so any feedback and suggestion is
highly appreciated.
Arguments:
NAME Name of the output file. It will be created from
scratch the first time and then will be used in
append mode from the second line on. Automatic,
simple and error-proof.
The output file is just in UTF-8 with Windows line
feeds ("\r\n") and the conversion of unicode
strings is performed by QuickBMS automatically with
the codepage in use.
Set it to "" for automatic output filename.
OFFSET Offset where is located the string you want to dump
>=0 works just like the other *log commands and
dumps the string located at that OFFSET, it
doesn't change the current offset
<0 dumps the string at the current offset and
updates it, so it advances in the file
SIZE >=0 it works just like the Getdstring command
allowing you to dump a string of a certain
amount of bytes
<0 just like the Get command
TYPE This is the type of data to read just like the Get
command, if not specified it's considered String.
You can dump most of the types and even the
non-string ones so if you use the Long type you
will have the decimal value easy to edit inside the
output file
FILENUM the input file
ID if specified:
"" output: ID_NUMBER=String read from file
VAR output: VAR=String read from file
only the strings matching the current ID (which is
a sequential number if "" or a variable if VAR is
used) will be reimported, so you can delete all the
other strings and keep only those you edited
Examples:
# the test file is available here http://aluigi.org/bms/slog_test.dat
set STRINGS_FILE string "strings.txt"
slog STRINGS_FILE -1 0xb string
slog STRINGS_FILE -1 -1
slog STRINGS_FILE -1 -1 long
endian big
#slog STRINGS_FILE -1 -1 unicode
slog STRINGS_FILE -1 0x18 unicode
slog STRINGS_FILE 0x2e -1
...................................................................
Reimport [MODE]
Just a way for enabling and disabling the reimport mode inside
the script in specific moments.
It's experimental and the files will be collected from the
output folder, therefore they must be already there.
Remember that you need to use the -w option for activating the
writing mode.
The variable QUICKBMS_REIMPORT contains the current mode, check
it at runtime if you need different actions.
Arguments:
MODE if not set, it will just switch the current
mode between 0 (disabled) and reimport mode 1
0 disabled
1 like reimport.bat
2 like reimport2.bat
3 reimport 3
...................................................................
ImpType MODE VAR [...]
This is an experimental expansion of a command that existed in
the original MultiEx language but wasn't needed in QuickBMS.
It's a way for replacing and updating any field of the file in
reimport mode and it's unrelated to any *Log operation.
Arguments and examples:
imptype var ORIGINAL_VAR NEW_VALUE
put NEW_VALUE at the location of ORIGINAL_VAR field
imptype var ORIGINAL_VAR
update the field where ORIGINAL_VAR was read with its
current value
imptype off -16 NEW_VALUE
put NEW_VALUE at the offset 16 bytes at the end of the
file, its size is the same of the field that has been
read at that location or a 32bit LONG if never read
imptype off 16 NEW_VALUE
as above but it's at offset 16
imptype crc ORIGINAL_VAR
replace the field of ORIGINAL_VAR with the current
content of QUICKBMS_CRC or QUICKBMS_HASH, it requires
the usage of Encryption with the relative crc/hash
algorithm used in the *Log operation
this command must be used AFTER *Log
imptype crc ORIGINAL_VAR ALGO ...
replace the field of ORIGINAL_VAR with the crc or hash
calculated during a *Log operation and based on the
chosen ALGO and its parameters, SAME as Encryption.
this command must be used BEFORE *Log.
the crc/hash is calculated on the data before
encryption and before compression
Example:
get MYCRC long # read the field
imptype crc MYCRC md5 ""
comtype zlib
encryption xor "mykey" # compatible with imptype
clog NAME OFFSET ZSIZE SIZE
imptype crc "" # optional disable
...................................................................
CRCHash ALGO ARG1 ARG2
Experimental and unsupported command working just like
Encryption but meant mainly for hashing algorithms and
performed in different moments, it was meant to help in some
cases in reimport mode for example when both an encryption and
an hashing operation are necessary.
The command was introduced for testing the new behavior of
imptype and the different order of encryption and hashing in
reimport mode:
extraction: decryption + crchash + decompression
reimport: crchash + compression + encryption
...................................................................
NAME: # it works like the labels in C
Label NAME # it works like the labels in C
Break # used in cycles
Break NAME # it works like goto in C
Continue # used in cycles
Continue NAME # it works like goto in C
Example:
print "000"
test:
print "AAA"
continue test2
print "BBB"
label test2 # "test2:" or "label test2" is the same
print "CCC"
continue test
...................................................................
QuickBMS can handle also some minimalistic and experimental C structures like:
debug 1 # needed to show the collected information
struct test {
int var1;
char var2;
char *mystring;
uint8_t data[10];
}
These operations are all converted to Get* commands while they are converted in Put* if there is a '=' after them, like:
debug 1
struct test {
int var1 = 0x11111111;
char var2 = 0x22;
char *mystring = "hello";
uint8_t data[10] = OTHER_VAR;
}
Maybe in future versions it could be improved but at the moment it's tagged as an experimental and alternative feature only in case you don't know the bms syntax or it takes time to convert a C struct in bms language.
Example of -s option, zlib decompression in one command-line without using script files:
quickbms.exe -s "comtype zlib ; get ZSIZE asize ; xmath SIZE \"ZSIZE * 10\" ; clog \"dump.dat\" 0 ZSIZE SIZE" "" input_file.dat output_folder
quickbms.exe -s "comtype gzip_compress ; get SIZE asize ; clog new.gz 0 SIZE SIZE" "" YOUR_INPUT_FILE
###################################################################
From version 0.5.1 of QuickBMS I started to implement some alternative input/output methods. At the moment these alternatives cover the following operations:
-
Network socket operations specified by an URL like udp:// and tcp:// so the tool can be used to send custom packets and data via TCP and UDP to one or more network hosts. Required command-line option: -n or -network URL format: tcp://host:port tcp://host:port,ssl,force_new_socket
-
Process operations specified by an URL like process:// or memory:// and allow to read and write the various processes running on the system. Required command-line option: -p or -process URL format: process://process_name process://pid process://pid:module_name
Experimental debug mode available by adding "debug" after the parameters: process://pid/debug In this way the process will be debugged by QuickBMS and when there is a breakpoint or an exception the process will be freezed and all the registers dumped in variables with their names. additionally QuickBMS will keep in memory all the INT3 you set and automatically restore them when you want to continue the execution. You can find an example script here: http://aluigi.org/bms/simraceway_getkey.bms
-
Audio operations specified by an URL like audio:// or wave:// and allow to record audio from the default input device (like microphone) and play. Currently the "device" parameter is not used. Required command-line option: -A or -audio URL format: audio://device,sample_rate,channels,bits
-
Video operations specified by an URL like video:// or graphic:// and allow to grab the screen and display the images. set window_name to null or none for using the whole screen in read mode. Required command-line option: -g or -video URL format: video://window_name,width,height,bits
-
Windows messages specified by an URL like winmsg:// but at the moment it's possible only to send messages and using 3 long numbers: message, wparam and lparam. Required command-line option: -m or -winmsg URL format: winmsg://window_name
I had this crazy idea in my mind for over one year and I decided to implement it now just because it's completely crazy and can work only if the user uses the needed options at command-line for security reasons.
After all QuickBMS implements a lot of algorithms so for me it's a lot more comfortable to be able to use it for my tests with the network data and I guess some modders could find useful the process operations for dumping textures and other models directly from the memory. Anyway keep in mind that this is all experimental stuff.
The following is an example script for the network operations:
log MEMORY_FILE 0 0
put 0x11111111 long MEMORY_FILE
put 0x22222222 long MEMORY_FILE
put 0x33333333 long MEMORY_FILE
put "hello" string MEMORY_FILE
put 0x44444444 long MEMORY_FILE
get SIZE asize MEMORY_FILE
log "tcp://127.0.0.1:1234" 0 SIZE MEMORY_FILE
log "udp://localhost:1234" 0 SIZE MEMORY_FILE
or
log MEMORY_FILE 0 0
put "GET / HTTP/1.0" line MEMORY_FILE
put "User-Agent: Mozilla" line MEMORY_FILE
put "Referer: http://localhost/test.htm" line MEMORY_FILE
put "" line MEMORY_FILE
get SIZE asize MEMORY_FILE
log "tcp://127.0.0.1:80" 0 SIZE MEMORY_FILE
Command-line:
quickbms -n script.bms "" ""
While the following is a simple HTTP download to use with:
quickbms -n script.bms "tcp://aluigi.org:80" "" > output.htm
get HOST filename
string HOST p= "Host: %s" HOST
put "GET / HTTP/1.1" line
put HOST line
put "User-Agent: Mozilla" line
put "Connection: close" line
put "" line
for
get DATA line
print "%DATA%"
next
Example of results from "get" when used on a http:// input file in QuickBMS 0.11 (older versions were different):
filename file.php
fullname https://zenhax.com/download/file.php?id=9002
basename file
extension php
fullbasename download/file
filepath download
Funny example that inverts the colors of the first notepad window:
set NAME string "video://notepad"
open "" NAME
get SIZE asize
filexor 0xff
log NAME 0 SIZE
Launch notepad and then run:
quickbms -g script.bms "" ""
How to close Firefox:
put 18 long # WM_QUIT
put 0 long # wParam
put 0 long # lParam
quickbms -m script.bms "winmsg://firefox" ""
In future I could decide to add other operations and I'm interested in any other idea.
Other experimental features are the support of most of the commands used in templates of WinHEX: http://www.x-ways.net/winhex/templates/index.html
Usually these templates work immediately while sometimes it's only necessary to manually separate some arguments like "arg1""arg2" into "arg1" "arg2".
QuickBMS has also the great feature of dumping an HTML file with the parsed format highlighted through the option -H. This is a very cool feature that can help many people and doesn't require additional modifications, just use the original BMS scripts as usual. Unfortunately the generated HTML file is not optimized yet and so it takes lot of memory and CPU to be loaded.
The QuickBMS process supports some return code numbers used when the tool terminates due to a success or a fail, you can find the list at the beginning of src\defs.h. QUICKBMS_OK (success) is ever 0 while QUICKBMS_ERROR_* are referred to problems.
In response to a request of a modder, I have decided to add a simple feature to allow modders and modkits developers to embed a script in quickbms.exe when they distribute it in their products, so the user will not be asked to select the script.
How to do it:
-
open quickbms.exe with a hex editor
-
search the string "SET THIS BYTE X TO 0x00"
-
replace the 'X' (0x58) with a NULL (0x00):
53 45 54 20 54 48 49 53 20 42 59 54 45 20 58 20 SET THIS BYTE X 53 45 54 20 54 48 49 53 20 42 59 54 45 20 00 20 SET THIS BYTE
-
upx.exe -9 quickbms.exe
-
copy /b quickbms.exe + script.bms output.exe
That's all, anyway if you want to use the "classical" way and being able to specify options, input file and output folder, it's better to use the BAT solution with the -G option for the GUI mode:
EXTRACT.BAT:
quickbms.exe -G OPTIONS SCRIPT INPUT OUTPUT
The -W command-line option starts the IPC mode which includes:
- web api running on the port specified with the -W option, if the port is negative (like -1) there will be no web API running
- named pipe IPC in byte mode on \.\pipe\quickbms_byte
- named pipe IPC in message mode on \.\pipe\quickbms
- mailslot IPC on \.\mailslot\quickbms\send with \.\mailslot\quickbms\recv open in write mode (create it on your tool)
These interfaces have been successfully tested on both Windows and Linux and the following is a quick set of examples for how using them for decompressing data, those 302 and 1028 are only an example of input and output size:
Example of web API /compress:
POST http://127.0.0.1:1234/compress?algo=zlib&size=1028
Content is compressed input "as-is" (application/octet-stream)
Example of web API /crypt:
POST http://127.0.0.1:1234/crypt?algo=aes&key=0123456789abcdef
Content is the encrypted input "as-is" (application/octet-stream)
Example of web API /crypt (base64):
POST http://127.0.0.1:1234/crypt?algo=aes&key64=MDEyMzQ1Njc4OWFiY2RlZg==&ivec64=MDEyMzQ1Njc4OWFiY2RlZg==&mode=1
Content is the encrypted input "as-is" (application/octet-stream)
Example of Named pipe (byte mode):
CreateFile \\.\pipe\quickbms_byte
send: "comtype zlib\n"
send: "302\n"
send: 302 bytes of compressed data
send: "1028\n"
recv: "1028\n"
recv: 1028 bytes of decompressed data
Example of Named pipe (message mode):
CreateFile \\.\pipe\quickbms
send: "comtype zlib"
send: "302"
send: 302 bytes of compressed data
send: "1028"
recv: "1028"
recv: 1028 bytes of decompressed data
Example of Mailslot:
CreateFile \\.\mailslot\quickbms\send GENERIC_WRITE
send: "comtype zlib"
send: "302"
send: 302 bytes of compressed data
send: "1028"
CreateMailslot \\.\mailslot\quickbms\recv
recv: "1028"
recv: 1028 bytes of decompressed data
The IPC interface supports the encryption command too and other features and commands may be added in future. Currently the web API supports also /script and /file that are meant mainly for debugging an input script and an input file based on the script previously provided. In the latter case there will be no output file generated just like with the -0 option (the TEMPORARY_FILE may be the only exception). Please remember that it's all meant to be used in a single-thread environment since quickbms can only handle one operation at time, so two concurrent queries will make some mess.
Examples for IPC (two named pipes and mailslot) and quickbms.dll: https://zenhax.com/viewtopic.php?p=35965#p35965
http://aluigi.org/papers/quickbms_dll.zip
At that location you should be able to download quickbms.dll, I'm not sure if I will continue to support this feature in future but currently it's just the whole quickbms built as a shared library for calling its decompression and encryption algorithms inside other programs. The dll exports all the functions of quickbms (cdecl) and its libraries but the following are functions meant specifically for external programs:
int __stdcall quickbms_compression2(char *algo, void *dictionary, int dictionary_len, void *in, int zsize, void *out, int size);
int __stdcall quickbms_compression(char *algo, void *in, int zsize, void *out, int size);
int __stdcall quickbms_encryption(char *algo, void *key, int keysz, void *ivec, int ivecsz, int mode, void *data, int size);
Due to the huge size of the dll it's not suggested to use it, better to implement the necessary algorithms (usually just one) inside the own program.
###################################################################
The following are some exceptions in the usage of QuickBMS. They are not real bugs, rather they are things that can't work (at least at the moment) due to the very flexible nature of the tool or things that it's useful or interesting to know:
Number and strings, due to the usage of the optimizations the following script will NOT result in "mytest46600x12349999999999", the result will be "mytest4660-1717986919":
set NAME string "mytest"
set NUM long 0x1234
string NAME += NUM
print "%NAME%"
set NUM string "0x12349999999999"
string NAME += NUM
print "%NAME%"
This is a good compromise because the previous situation is very very "rare" and in any case can be bypassed using multiple "string NAME += chr" and the gain in performance is incredible for the multiple in-script operations, so it's the best solution. Additionally you can use the printf-like string command and the binary type with Set:
set NAME string "mytest"
set NUM1 long 0x1234
set NUM2 binary "0x12349999999999"
string NAME p= "%s0x%x%s" NAME NUM1 NUM2
print "%NAME%"
-
Any Clog operation with a compressed or uncompressed size minor/equal than zero produces a file with a zero size, but this is not a problem of the tool because it's the perfectly logical behavior in these situations.
If it's necessary to use a compression which gets the SIZE value automatically (like base64 or stalker_lza) is enough to specify the compressed size as uncompressed size:
clog NAME OFFSET ZSIZE ZSIZE
or
clog NAME OFFSET ZSIZE 1
-
The tool has been created to be 100% compatible with the original MexScript language and its syntax/logic, so I tried to add not many new commands and, if possible, providing an alternative using the original set of commands (for example the Strlen command and "Set VAR strlen VAR"). I tried also to maintain the logic of the program (for example encryptions/compressions applied in the file operations only). If something looks complex or senseless, it has been made for matching the original structure and logic of the language.
-
QuickBMS grants compatibility with the original MexScript language that implements also some static and partially undocumented variables like:
EXTRCNT, BytesRead, NotEOF, SOF, EOF
If you are writing a script for QuickBMS try to avoid these variable names except if you really need and know what they do.
-
QuickBMS uses many third party code and, even if I tried to adjust them a bit where possible, unfortunately many of these external functions were a disaster or missed any security requirement. That's the reason why the comtype scanning feature causes so many crashes with invalid data. From version 0.5.5 I added a particular type of allocation management that allows a better debugging of the code and at the same time protects the heap from contiguous buffer overflow and underflow (so it can do nothing against "buff[0x11223344] = 'a'). It's not a solution but at least helps me a lot and limits the problems caused by third party non-safe code. The only protection of the stack is provided by the -fstack-protector-all compiler option of Gcc.
-
Security: It's hard to make the tool completely safe, anyway the following are some notes and solutions:
- allocated memory set as read/write only with guarded page before and after the buffer, they act like a "cage" that delimits the buffer
- usage of Gcc -fstack-protector-all
- the user is EVER prompted of activating dangerous features like the usage of dlls and the calling of external executables
- some checks to avoid the problems caused by the big redundant code of which QuickBMS is full (unfortunately, sorry for that)
- keep in mind that QuickBMS is mainly a testing tool in which I preferred to insert strange and particular features rather than making it "secure" for any user, it's the responsibility of the user to use only trusted scripts and paying attention to the warnings displayed by the tool
-
The EXECUTE mode of ComType and Encryption grants compatibility with any compression and encryption tool (command-line) based on algorithms not yet supported by QuickBMS, and at the same time avoids the rush of trying to implement "everything" as soon as possible. I used system() for this command just because I want that it's compatible with any possible program included those which require input from stdin and output to console (stdout). Example: "file.exe < #INPUT# > #OUTPUT#"
All the extracted files are loaded completely in memory before being dumped for various technical reasons, so if the file to dump has a size of 800 megabytes this is the same size which will be allocated in memory or even double or more if the file must be decompressed, so it's good to have a large amount of free RAM when handling big archives or a large virtual memory/swap space. This mechanism is not used for files that don't require encryption and compression in which case the operation is performed 1:1 using a temporary buffer of only 1 megabyte.
Log "123.txt" OFFSET SIZE It creates the file 123 and not 123.txt, this happens because "123.txt" is considered a constant number due to the rule that everything starting with a number (or a '-') is handled as a constant number. This behavior didn't happen with the previous versions of the tool because wasn't used the number optimization which saves tons of CPU cycles in some scripts.
- From version 0.3.12 I decided to implement the full verification of the string to know if it's a number or a string, luckily there is almost no loss of performances
The following do NOT work because the QuickBMS variables are case INsensitive: if SIGN == "test" # u== is the same elif SIGN == "TeSt" ... set SIGN1 binary "test" set SIGN2 binary "TeSt" if SIGN == SIGN1 # u== is the same elif SIGN == SIGN2 ... The only way to fix it would be to make quickbms case SENSITIVE, this change should give no problems if you have written the scripts correctly but exists a 1% of possible issues, currently I don't know what to do. .
- From QuickBMS 0.5.31 you can use the -I option to force the case sensitive mode on variable names
set NAME string MEMORY_FILE
log NAME 0 0
It produces no physical file because it's considered a MEMORY_FILE, it happens because the dumping function receives "MEMORY_FILE" as output file name. At the moment there is no fix anyway it's a very very rare event (never happened to find an archive containing a file with that name) and so not a priority.
- Fixed in version 0.5.17 by checking if the name of the file is the name of a variable or its content.
Crash caused by HsSrv.dll. The Asus Xonar and Unixonar drivers cause the crash of QuickBMS for the following reason: HsSrv.dll is automatically injected in any process and this dll checks all the allocated memory for the presence of a "MZ" signature (the one used for the executables): 1000B462 CALL DWORD PTR DS:[<&KERNEL32.VirtualQuery>] 1000B468 TEST EAX,EAX 1000B46A JBE SHORT 1000B4BE 1000B46C CMP DWORD PTR SS:[EBP-24],1000 ; check if State is MEM_COMMIT 1000B473 JNE SHORT 1000B48B 1000B475 TEST WORD PTR SS:[EBP-20],0100 ; check if Protect contains PAGE_GUARD 1000B47B JNZ SHORT 1000B48B 1000B47D AND DWORD PTR SS:[EBP-4],00000000 1000B481 CMP WORD PTR DS:[ESI],5A4D ; check if the buffer starts with MZ QuickBMS uses a particular memory protection mechanism that in the recent versions switched from PAGE_GUARD to PAGE_NOACCESS, that's why HsSrv.dll crashes: if Protect contains PAGE_GUARD then it skips the MZ check but now it's PAGE_NOACCESS. Using MEM_COMMIT | MEM_RESERVE doesn't help to skip the code with the first check because VirtualQuery returns only MEM_COMMIT. Asus should fix the bug by checking if Protect is set to a non-readable flag, I have NOT contacted them. Some possible solutions are the following:
- disable the GX mode (emulated EAX) of the Asus driver
- disable the Asus HookSupport Manager application (HsMgr.exe)
- start QuickBMS with the -9 option (create a shortcut)
- contact Asus! :) Note that the problem seems to happen only when QuickBMS is launched with the GUI (double-click) while it's calling the Windows API GetOpenFileName.
- From version 0.5.25c I use PAGE_GUARD to avoid any problem with buggy third party drivers.
? When you assign a string to a variable pay attention to the
backslash char:
It's used as escape when parsing the bms script and a quoted
string is found, like "test".
The only limitation is caused by the presence of the same quote
char after the backslash so the following command is wrongly
interpreted:
string VAR R "test1 and test2" "/"
In that case the " is interpreted as " without terminating the
handling of the quote string.
For that specific case there is no solution at the moment because
\ is interpreted as \ and not as .
Consider that this is a very rare case and if you want to replace
the backslash with slashes it's enough to use:
string VAR R \ /
Other things to know or strange behaviors will be listed when I will figure and remember them.
A curiosity for who is crazy for the optimizations of compilers: the PPMD (ppmd var.i rev.1) algorithm compiled with -O3 (Gcc) is a lot slower than if compiled with -O2 and a similar situation is valid also for other algorithms. With -Os the code is smaller (about 300kb the Windows exe of an old quickbms version) but there is a loss of performances of max 15/20% with some algorithms (like PPMD) and scripts with many getvarchr, putvarchr and math operations.
###################################################################
QuickBMS, like many of my projects, is fully supported by me and is ever in active development for adding new encryption and compression algorithms, adding new features, fixing bugs and other improvements. I'm the first and biggest user of this tool, so I have a direct interest in maintaining it.
The latest version is available on the following website:
RSS feeds available on my website so stay tuned for any update of QuickBMS and my other tools:
Remember to contact me for any doubt or new idea regarding QuickBMS by e-mail at [email protected] or on the forum in this topic http://zenhax.com/viewtopic.php?f=13&t=556
You are also invited to post your doubts, feedback and suggestions on the official support forum called ZenHAX: http://zenhax.com It's a community where the users can write about game research, file format reversing, game internals and security.
My old forum on http://forum.aluigi.org is no longer supported from 2011 but it contains some additional old information and examples.
QuickBMS is a free project, no donations or money are accepted. If you like it feel free to spread the word about it. You may also like to make tutorials and videos, they are welcome so more people can learn to use it.
QuickBMS wants to be THE EXTRACTION TOOL for almost any game related task so "help it to help yourself" :)
###################################################################
QuickBMS uses various public-domain code and code released under GPL/LGPL or other open source and free licenses.
Compression:
- zlib, inflateback9 (for deflate64) and blast of Jean-loup Gailly and Mark Adler http://www.zlib.net
- LZO of Markus F.X.J. Oberhumer http://www.oberhumer.com/opensource/lzo/
- LZSS, LZARI, LZHUF of Haruhiko Okumura
- unlzx.c of Erik Meusel
- LZMA and LZMA2 of Igor Pavlov http://www.7-zip.org/sdk.html
- bzip2 of Julian Seward https://www.sourceware.org/bzip2/
- ascii85 partially derived from http://www.stillhq.com/svn/trunk/ascii85/decode85.c
- libmspack of Stuart Caie http://www.cabextract.org.uk/libmspack/
- lzjb from http://cvs.opensolaris.org/source/xref/onnv/onnv-gate/usr/src/uts/common/fs/zfs/lzjb.c
- iMatix Standard Function Library compression http://download.imatix.com/pub/
- UCL of Markus F.X.J. Oberhumer http://www.oberhumer.com/opensource/lzo/
- code from the uncompress utility of "The Regents of the University of California"
- Dynamic Markov Compression implementation of Gordon V. Cormack http://plg1.cs.uwaterloo.ca/~ftp/dmc/dmc.c
- many algorithms from ScummVM http://scummvm.sourceforge.net
- bpe of Philip Gage http://www.csse.monash.edu.au/cluster/RJK/Compress/bpd.c
- QuickLZ of Lasse Mikkel Reinhold http://www.quicklz.com
- Quake 3 Huffman code of Id Software http://www.idsoftware.com
- mszh from the LossLess Codec Library
- Doom Huffman code from the Doom/Hexen source code
- aPLib of Jorgen Ibsen http://www.ibsensoftware.com/products_aPLib.html
- LZF of Marc Alexander Lehmann http://home.schmorp.de/marc/liblzf.html
- LZ77 of Arkadi Kagan http://compressions.sourceforge.net/about.html
- LZRW algorithms of Ross Williams http://www.ross.net/compression/
- an Huffman implementation of Bill Demas on LDS
- the FIN algorithm (useless and very close to LZSS) on LDS
- LZAH/LZH12/13 of Dik T. Winter http://homepages.cwi.nl/~dik/english/ftp.html
- GRZipII/libGRZip of Grebnov Ilya (only the win32 code is linked to it) because it's composed by many files and it's not a priority)
- rle of Chilkat Software http://www.chilkatsoft.com/chilkatdx/ck_rle.htm#source
- Quad of Ilia Muraviev http://quad.sourceforge.net
- Balz of Ilia Muraviev http://balz.sourceforge.net
- unshrink of Info-Zip http://www.info-zip.org/UnZip.html
- PPMd algorithms of Dmitry Shkarin http://compression.ru/ds/
- BriefLZ of Jorgen Ibsen http://www.ibsensoftware.com/download.html
- PAQ6 of Matt Mahoney http://cs.fit.edu/~mmahoney/compression/paq.html#paq6
- shcodec of Simakov Alexander http://webcenter.ru/~xander/
- hstest of tom ehlert
- SixPack of Philip G. Gage
- ashford of Charles Ashford
- JCALG1 of Jeremy Collake http://www.bitsum.com/jcalg1.htm
- jam/unjam of W. Jiang
- lzhlib of Haruhiko Okumura and Kerwin F. Medina for the adaptation of the code
- Srank P M Fenwick http://www.cs.auckland.ac.nz/~peter-f/FTPfiles/srank.c
- Zziplib/Zzlib of Damien Debin http://damiendebin.net/archives/zzip/download.php#zzlib
- scpack of Philip Gage
- rle3 and bpe2: http://musyozoku211.blog118.fc2.com/blog-entry-13.html http://blog-imgs-17.fc2.com/m/u/s/musyozoku211/bpe2.txt http://blog-imgs-17.fc2.com/m/u/s/musyozoku211/rle3.txt
- Basic Compression Library of Marcus Geelnard http://bcl.comli.eu
- SCZ of Carl Kindman http://scz-compress.sourceforge.net
- szip of HDF Group http://www.hdfgroup.org/doc_resource/SZIP/
- sr3c of Kenneth Oksanen http://cessu.blogspot.com
- Huffman library of Douglas Ryan Richardson http://huffman.sourceforge.net
- SFastPacker of Aleksey Kuznetsov http://www.utilmind.com/delphi3.html
- lz77wii of Hector Martin http://wiibrew.org/wiki/Wii.py
- prs 8ing code posted by tpu http://forum.xentax.com/viewtopic.php?p=30387#p30387
- puyo compressions of not.nmn and nickwor https://github.com/nickworonekin/puyotools
- falcom compression of http://www.geocities.jp/pokan_chan/
- cpk of hcs http://hcs64.com/files/utf_tab04.zip
- DSDecmp/goldensun/luminousarc of Barubary http://code.google.com/p/dsdecmp/
- pglz_decompress PostgreSQL Global Development Group http://www.postgresql.org/
- SLZ: versions of Adisak Pochanayon and CUE
- LZH-Light of Sergey Ignatchenko ftp://66.77.27.238/sourcecode/cuj/1998/cujoct98.zip
- d3101 of Advanced Hardware Architectures/HP
- squeeze (R. Greenlaw, Amiga port by Rick Schaeffer ???)
- some algorithms of Mark Nelson & Jean-loup Gailly from The Data Compression Book
- Ed Ross Data Compression
- ilzr of Jose Renau Ardevol
- some code from the C User's Journal
- dmc by T.L. Yu
- 'Uses libLZR by BenHur' http://www.psp-programming.com/benhur/
- lzs of Matthew Chapman http://www.rdesktop.org
- yaz0 of thakis (http://www.amnoid.de/gc/)
- RNC by Jon http://www.yoda.arachsys.com/dk/ or fork by Simon Tatham
- PAK_explode of Cyril VOILA
- The KENS Project Development Team
- dragonballz by Geoffrey W. Curtis
- unstargun by Adam Nielsen / The_coder
- ntcompress from Nintendo Wii Revolution SDK
- crle of Arkadi Kagan http://compressions.sourceforge.net/about.html
- CTW by Frans Willems http://www.ele.tue.nl/ctw
- DACT by Roy Keene http://www.rkeene.org/oss/dact/
- algorithms by Brendan G Bohannon http://bgb-sys.sourceforge.net
- lzpxj by Ilia Muraviev and Jan Ondrus http://sourceforge.net/projects/lzpx/
- rle from ftp://ftp.elf.stuba.sk/pub/pc/pack/mar.rar
- rle from http://gdcm.sourceforge.net
- lzmat of Vitaly Evseenko
- dict from http://freearc.org/download/research/dict.zip
- rep from http://freearc.org/download/research/rep.zip
- lzp by Dmitry Shkarin http://www.compression.ru/ds/lzp.rar
- kzip by Ken Silverman http://advsys.net/ken/utils.htm
- enet http://enet.bespin.org
- eduke32 http://eduke32.com
- xu4 - Ultima IV recreated http://sourceforge.net/projects/xu4/
- Lemur http://www.lemurproject.org
- lzfu by Dave Smith and Carl Byington http://www.five-ten-sg.com/libpst/
- he3 by Eric Prevoteau http://savannah.nongnu.org/projects/dctc/
- Ultima Iris http://www.iris2.de http://ultimairis.sourceforge.net
- http://sourceforge.net/projects/linux-ntfs/
- pdb2txt http://code.google.com/p/pdb2txt/
- Comprlib http://sourceforge.net/projects/comprlib/
- prs by Fuzziqer http://www.fuzziqersoftware.com/projects.html
- sega_lz77 converted from an ICE decompression tool developed by scriptkiddie (XentaX's forum)
- saint_seya compression by MrAdults (Senor Casaroja's Noesis) http://forum.xentax.com/viewtopic.php?p=52279#p52279
- lz4 by Yann Collet https://github.com/Cyan4973/lz4
- Snappy http://google.github.io/snappy/
- Lunar compression dll by FuSoYa http://fusoya.eludevisibility.org
- lzv1 by Hermann Vogt
- FastLZ by Ariya Hidayat http://fastlz.org
- zax http://code.google.com/p/zax/
- data-shrinker by fusiyuan http://code.google.com/p/data-shrinker/
- mmini by Adam Ierymenko http://code.google.com/p/mmini/
- clzw by Vladimir Antonenko http://code.google.com/p/clzw/ - http://sourceforge.net/projects/clzw/
- lzham by Richard Geldreich https://github.com/richgel999/lzham_codec
- lpaq8 by Matt Mahoney http://www.cs.fit.edu/~mmahoney/compression/
- sega_lzs2 by Treeki
- Core Online decompression by Ekey http://www.progamercity.net
- lzlib http://lzip.nongnu.org/lzlib.html
- some compression tools from http://www.romhacking.net
- pucrunch by Pasi 'Albert' Ojala
- libzpaq by Matt Mahoney http://mattmahoney.net/dc/zpaq.html
- zyxel-revert http://git.kopf-tisch.de/?p=zyxel-revert
- Blosc https://github.com/Blosc/c-blosc
- Gipfeli by Jyrki Alakuijala https://github.com/google/gipfeli
- Crush, Balz, BCM and possibly others by Ilya Muravyov http://sourceforge.net/projects/crush/
- Yappy https://raw.github.com/richard-sim/Compression-Test-Suite/master/CompressionSuite/Yappy/yappy.cpp
- liblzg by Marcus Geelnard http://liblzg.bitsnbites.eu/
- Doboz by Attila T. Afra https://bitbucket.org/attila_afra/doboz
- XPK http://www.jormas.com/~vesuri/xpk/
- http://www.amiga-stuff.com/crunchers-download.html
- http://aminet.net/package/util/libs/ulib4271
- PackFire by Neural http://www.pouet.net/prod.php?which=54840
- Matt Mahoney for various compression algorithms
- http://blog-imgs-17.fc2.com/m/u/s/musyozoku211/bpe.txt
- CBPE by Izaya http://izaya.blog38.fc2.com/blog-entry-374.html
- Alba by xezz http://encode.ru/threads/1874-Alba?p=36612&viewfull=1#post36612
- http://download.wcnews.com/files/documents/sourcecode/shadowforce/transfer/asommers/mfcapp_src/engine/compress/
- QFS https://raw.githubusercontent.com/wouanagaine/SC4Mapper-2013/master/Modules/qfs.c
- Zen Studios decompression by Ekey http://www.progamercity.net
- OpenXRay https://github.com/OpenXRay/xray-16/blob/master/src/xrCore/LzHuf.cpp
- ZSTD https://github.com/Cyan4973/zstd
- AZO http://www.altools.com/ALTools/ALZip/Egg-format.aspx
- PowerPacker from libsidtune https://github.com/bithorder/sidplayer/blob/master/jni/libsidplay2/sidtune/PP20.cpp
- Nintendo DS/GBA compressions by CUE http://www.romhacking.net/utilities/826/
- pclzfg http://www.embedded-os.de/en/pclzfg.shtml
- Heatshrink https://github.com/atomicobject/heatshrink
- TurboRLE https://github.com/powturbo/TurboRLE
- Smaz https://github.com/antirez/smaz
- lzfx http://code.google.com/p/lzfx/
- Pithy https://github.com/johnezang/pithy
- libzling https://github.com/richox/libzling
- Density https://github.com/centaurean/density
- Brotli https://github.com/google/brotli
- code by Gerald Tamayo
- libbsc http://libbsc.com/
- Shoco https://ed-von-schleck.github.io/shoco/
- WFLZ https://github.com/ShaneWF/wflz
- FastAri https://github.com/davidcatt/FastARI
- Dicky https://github.com/jedisct1/Dicky
- Squish https://github.com/Bananattack/squish
- lzjody https://github.com/jbruchon/lzjody
- ms-compress https://github.com/coderforlife/ms-compress
- yay0dec by thakis http://www.amnoid.de/gc/
- dmsdos http://cmp.felk.cvut.cz/~pisa/dmsdos/
- iROLZ http://ezcodesample.com/rolz/rolz_article.html
- Mcomp http://msoftware.co.nz
- SimPE http://sims.ambertation.de/
- Adam Nielsen for Camoto http://www.shikadi.net/camoto
- OpenKB http://openkb.sourceforge.net/
- OpenTitus http://opentitus.sourceforge.net/
- deLZW http://cnub.ddns.net/deLZW.ashx
- various pseudocode from http://www.shikadi.net/moddingwiki/Category:Compression_algorithms
- Ladislav Zezula for PKLib
- Marc Winterrowd http://nodling.nullneuron.net/ultima/ultima.html
- tkatchev https://bitbucket.org/tkatchev/yalz77
- LZ5/Lizard https://github.com/inikep/lz5
- various compression algorithms from Lab313 https://github.com/lab313ru
- LZSS http://www.metroid2002.com/retromodding/wiki/LZSS_Compression
- SynLZ https://raw.githubusercontent.com/synopse/mORMot/master/SynLZ.pas
- PPMZ2 http://www.cbloom.com/src/ppmz.html
- OpenDark http://sourceforge.net/projects/dark/
- Oodle http://www.radgametools.com/oodle.htm (DLL from Warframe)
- jdlz recompressor http://encode.ru/threads/2417-Creating-A-Compressor-for-JDLZ?p=46247&viewfull=1#post46247
- rfpk http://www.rockraidersunited.com/topic/6675-is-there-a-way-i-could-rip-files-of-lego-city-undercovers-disc/#comment-120442
- wp16 http://romxhack.esforos.com/compresion-de-final-fantasy-1-de-psp-la-famosa-wp16-t44
- Nisto https://github.com/Nisto/bio-tools/tree/master/bio0/alz-tool
- Ekey for Revelation Online / TianYu
- ps_lz77 by TheUkrainianBard http://zenhax.com/viewtopic.php?p=14313#p14313
- lzfse https://github.com/lzfse/lzfse
- dzip https://www.madewithmarmalade.com/developer
- CSC https://github.com/fusiyuan2010/CSC
- Gundam Ghiren converted to C http://zenhax.com/viewtopic.php?p=18646#p18646
- glza by Kennon Conrad http://encode.ru/threads/1909-Tree-alpha-v0-1-download?p=50293&viewfull=1#post50293
- m99coder by Yuta Mori
- https://github.com/solaris573/taikotools
- https://github.com/nekomiko/recetunpack/blob/master/data_ext.c
- https://github.com/BlackDragonHunt/Danganronpa-Tools/blob/master/drv3/drv3_dec.py
- https://github.com/gildor2/UModel/blob/master/Unreal/UnCoreCompression.cpp
- https://forum.xentax.com/viewtopic.php?p=119352#p119352
- https://encode.ru/threads/2772-Finding-custom-lzss-on-arcade-game-dat-file?p=52946&viewfull=1#post52946
- liblzs by Craig McQueen https://github.com/cmcqueen/lzs-compression
- shrek decompression by ShrekBoards https://github.com/ShrekBoards/shrek-decompress
- qcmp converted from https://github.com/gibbed/Gibbed.SleepingDogs/blob/master/Gibbed.SleepingDogs.FileFormats/QuickCompression.cs
- ykcmp converted from https://github.com/Xkeeper0/disgaea-pc-tools/blob/master/disgaea/compressionhandler.php
- swzap https://github.com/wasaylor/unzap
- mzx converted from https://github.com/Hintay/PS-HuneX_Tools/blob/master/tools/mzx/decomp_mzx0.py
- lzrrv by bnm
- SLZ3 by akderebur
- mppc by Marc-Andre Moreau
- ALZSS by Elijah H. Brolijah https://github.com/Brolijah/Aqualead_LZSS
- CLZ by https://github.com/sukharah/CLZ-Compression
- https://raw.githubusercontent.com/zhaihj/konami-lz77/master/src/lz77.rs
- GARBro by morkt https://github.com/morkt/GARbro
- HCS for puff8, lzh8 and romchu: https://hcs64.com/vgm_ripping.html
- Inuk Syooperstar for Okage XPK compression
- Nisto https://github.com/Nisto/lzsd
- infval https://github.com/infval/pzzcompressor_jojo
- libdeflate https://github.com/ebiggers/libdeflate
- zopfli https://github.com/google/zopfli
- https://github.com/powzix/ooz
- rage_xfs by Benjamin Haisch
- Allen for Wangan decompressions
- Exo Decrunch by Magnus Lind https://bitbucket.org/magli143/exomizer/wiki/Home
- BitBuster https://www.teambomba.net/bombaman/downloadd26a.html
- nibrans by BareRose https://github.com/BareRose/nibrans
- lze by GORRY https://gorry.haun.org/pw/?lze
- Shelwien of encode.su
- Bitbuster of Team Bomba https://www.teambomba.net/bombaman/downloadd26a.html
- lz48 by roudoudou
- ZX compressions by Einar Saukas https://github.com/einar-saukas/ZX0
Encryption:
- all the algorithms provided by OpenSSL http://www.openssl.org
- xtea from PolarSSL http://www.polarssl.org
- some encryption algorithms from GnuPG and libgcrypt http://www.gnupg.org
- ICE of Matthew Kwan http://www.darkside.com.au/ice/index.html
- Rotor module from the Python source code
- http://mcrypt.sourceforge.net
- all the various public algorithms implemented in version 0.4.1 like 3way, anubis, gost, skipjack and so on
- libkirk of Draan http://code.google.com/p/kirk-engine/
- PC1 Encryption Algorithm of Alexander Pukall http://membres.multimania.fr/pc1/
- LibTomCrypt https://github.com/libtom/libtomcrypt
- LibTomMath https://github.com/libtom/libtommath
- libmcrypt http://sourceforge.net/projects/mcrypt/files/Libmcrypt/
- sphlib http://www.saphir2.com/sphlib/
- cityhash https://code.google.com/p/cityhash/
- xxhash https://github.com/Cyan4973/xxHash
- qLibc https://github.com/wolkykim/qlibc
- StormLib https://github.com/ladislav-zezula/StormLib
- insane coder http://insanecoding.blogspot.com/
Others:
- MemoryModule of Joachim Bauch https://github.com/fancycode/MemoryModule
- various signatures from http://mark0.net/soft-trid-e.html
- various signatures from http://toorcon.techpathways.com/uploads/headersig.txt
- Capstone engine http://www.capstone-engine.org/
- Ollydbg disasm library http://www.ollydbg.de
- optional BeaEngine dissassembler library http://www.beaengine.org
- uthash and utlist http://troydhanson.github.io/uthash/
- TinyCC http://bellard.org/tcc/
- tiny-regex-c https://github.com/kokke/tiny-regex-c
Notes:
-
Some (many?) of the original codes have been modified a bit to make them usable in QuickBMS for the memory2memory (in-memory) decompression and for other possible fixes or for decreasing the amount of code, for example removing the compression routine leaving only the decompression one. Note that I avoided to make this third-party code more secure because it's not the job of QuickBMS, so almost all the code (except some rare cases) has been used "as-is", the only security protections come from the general protection mechanisms adopted in QuickBMS like my own heap handling and -fstack-protector-all.
-
The files/libraries which have been modified have the header "// modified by Luigi Auriemma" which is meant just to show that it's not the 100% original code and it must be NOT considered like a credit. I claim nothing about them, the original license and authors are still untouched.
-
If the files have been modified or don't have the original license information (may happen only with small functions that didn't contain a license header in origin) please follow the provided links for more details.
-
Almost all the algorithms implemented here have been selected by me because they:
- have been used
- "may" have been used
- it has been claimed to have been used in real software and games, or they are enough known and famous to deserve their implementation in QuickBMS. Personally I prefer to have many algorithms implemented also to help my compression and encryption scanners: comtype_scan2.bat/bms and encryption_scan.bat/bms).
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Tell me if I forgot someone or something in this section, it may be possible that some credits are not complete. And tell me also if it's necessary to include other files or comments inside these third-party files or about them. I included the list to the original websites as additional reference also for having more information about their license in case the included files don't have it in their comments (/* */).
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