What's the best way to go about making a patch for a binary file?
I want it to be simple for users to apply (a simple
patch application would be nice). Running diff on the file just gives
Binary files [...] differ.
To install this tool:
Courgette, by the Google Chrome team, looks like most efficient tool for binary patching executables.
To quote their data:
Here are the sizes for the recent 190.1 -> 190.4 update on the developer channel:
- Full update: 10,385,920 bytes
- bsdiff update: 704,512 bytes
- Courgette update: 78,848 bytes
xdelta -e -s old_file new_file delta_file
xdelta -d -s old_file delta_file decoded_new_file
choco install xdelta3
brew install xdelta
xdelta3in your package manager.
For small, simple patches, it's easiest just to tell diff to treat the files as text with the -a (or --text) option. As far as I understand, more complicated binary diffs are only useful for reducing the size of patches.
$ man diff | grep -B1 "as text" -a, --text treat all files as text $ diff old new Binary files old and new differ $ diff -a old new > old.patch $ patch < old.patch old patching file old $ diff old new $
If the files are the same size and the patch just modifies a few bytes, you can use xxd, which is commonly installed with the OS. The following converts each file to a hex representation with one byte per line, then diffs the files to create a compact patch, then applies the patch.
$ xxd -c1 old > old.hex $ xxd -c1 new > new.hex $ diff -u old.hex new.hex | grep "^+" | grep -v "^++" | sed "s/^+//" > old.hexpatch $ xxd -c1 -r old.hexpatch old $ diff old new $
For shells that support process substitution such as bash and zsh, there is a simpler method available:
$ comm -13 <(xxd -c1 old) <(xxd -c1 new) > old.hexpatch $ xxd -c1 -r old.hexpatch old $ diff old new $
Here the comm -13 removes lines that appear only in the first input as well as lines that appear in both inputs, leaving only the lines exclusive to the second input.
Modern port: Very useful .NET port for bsdiff/bspatch:
My personal choice.
I tested it, and it was the only one of all links. Out of the box I was able to compile it (with Visual Studio, e.g., Visual Studio 2013). (The C++ source elsewhere is a bit outdated and needs at least a bit polishing and is only 32 bit which sets real memory (diff source size) limits. This is a port of this C++ code bsdiff and even tests if the patch results are identical to original code.)
Further idea: With .NET 4.5 you could even get rid of the #Zip library, which is a dependency here.
I haven't measured if it is slightly slower than the C++ code, but it worked fine for me, (bsdiff: 90 MB file in 1-2 minutes), and time-critical for me is only the bspatch, not the bsdiff.
I am not really sure, if the whole memory of a x64 machine is used, but I assume it. The x64 capable build ("Any CPU") works at least. I tried with a 100 MB file.
- Besides: The cited Google project 'Courgette' may be the best choice if your main target are executable files. But it is work to build it (for Windows measures, at least), and for binary files it is also using pure bsdiff/bspatch, as far as I have understood the documentation.
HDiffPatch can run on Windows, macOS, Linux, and Android.
It supports diffs between binary files or directories;
Creating a patch:
hdiffz [-m|-s-64] [-c-lzma2] old_path new_path out_delta_file
Applying a patch:
hpatchz old_path delta_file out_new_path
Download from last release, or download the source code &
Jojos Binary Diff is another good binary diff algorithm;
https://github.com/reproteq/DiffPatchWpf DiffPatchWpf DiffPatchWpf simple binary patch maker tool.
Compare two binary files and save the differences between them in new file patch.txt
Apply the patch in another binary fast and easy.
Now you can apply the differences in another binary quickly and easily.
1- Load file Aori.bin
2- Load file Amod.bin
3- Compare and save Aori-patch.txt
4- Load file Bori.bin
5- Load patch Aori-patch.txt
6- Apply patch and save file Bori-patched.bin
Microsoft Visual Studio Community 2019
Tested in windows 10x64bits
Assuming you know the structure of the file you could use a C / C++ program to modify it byte by byte:
Just read in the old file, and write out a new one modified as you like.
Don't forget to include a file format version number in the file so you know how to read any given version of the file format.