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Use posix versions of mingw toolchains, which say: > This package contains the C++ compiler, supporting cross-compiling to 64-bit MinGW-w64 targets, using the POSIX threading model. Fix build failure saying that std::mutex was not declared |
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build.sh | ||
README.md |
Cross-compile from Linux to Windows
Intro
Following these instructions you will be able to cross-compile qTox for Windows.
This script can be used by qTox users and devs to compile qTox for Windows themselves.
Please note that the compilation script doesn't build the updater.
Usage
Create 2 directories:
-
workspace
-- a directory that will contain a cache of qTox dependencies and the final qTox cross-compilation build. You should create this directory. -
qtox
-- the root directory of a qTox repository. This directory must contain the qTox source code that will be cross-compiled.
These directories will be mounted inside a Docker container at /workspace
and
/qtox
.
Note: The contents of
qtox
directory are not modified during compilation. Thebuild.sh
script makes a temporary copy of theqtox
directory for the compilation.
Once you sort out the directories, you are ready to run the build.sh
script
in a Docker container.
Note: The
build.sh
script takes 2 arguments: architecture and build type. Valid values for the architecture arei686
for 32-bit andx86_64
for 64-bit. Valid values for the build type arerelease
anddebug
. All case sensitive.
To start cross-compiling for 32-bit release version of qTox run:
sudo docker run --rm \
-v /absolute/path/to/your/workspace:/workspace \
-v /absolute/path/to/your/qtox:/qtox \
debian:bullseye-slim \
/bin/bash /qtox/windows/cross-compile/build.sh i686 release
If you want to debug some compilation issue, you might want to instead run:
# Get shell inside Debian Bullseye container so that you can poke around if needed
sudo docker run -it \
--rm \
-v /absolute/path/to/your/workspace:/workspace \
-v /absolute/path/to/your/qtox:/qtox \
debian:bullseye-slim \
/bin/bash
# Run the script
bash /qtox/windows/cross-compile/build.sh i686 release
These will cross-compile all of the qTox dependencies and qTox itself, storing
them in the workspace
directory. The first time you run it for each
architecture, it will take a long time for the cross-compilation to finish, as
qTox has a lot of dependencies that need to be cross-compiled. But once you do
it once for each architecture, the dependencies will get cached inside the
workspace
directory, and the next time you build qTox, the build.sh
script
will skip recompiling them, going straight to compiling qTox, which is a lot
faster.
Note: On a certain Intel Core i7 processor, a fresh build takes about 125 minutes on a single core, and about 30 minutes using all 8 hyperthreads. Once built, however, it takes about 8 minutes on a single core and 2 minutes using 8 hyperthreads to rebuild using the cached dependencies.
After cross-compiling has finished, you should find the comiled qTox in a
workspace/i686/qtox
or workspace/x86_64/qtox
directory, depending on the
architecture.
You will also find workspace/dep-cache
directory, where all the
cross-compiled qTox dependencies will be cached for the future builds. You can
remove any directory inside the dep-cache
, which will result in the
build.sh
re-compiling the removed dependency only.
The workspace
direcory structure for reference:
workspace
├── i686
│ ├── dep-cache
│ │ ├── libexif
│ │ ├── libffmpeg
│ │ ├── libopenal
│ │ ├── libopenssl
│ │ ├── libopus
│ │ ├── libqrencode
│ │ ├── libqt5
│ │ ├── libsodium
│ │ ├── libsqlcipher
│ │ ├── libtoxcore
│ │ ├── libvpx
│ │ ├── mingw-w64-debug-scripts
│ │ └── nsis_shellexecuteasuser
│ └── qtox
│ ├── debug
│ └── release
└── x86_64
├── dep-cache
│ ├── libexif
│ ├── libffmpeg
│ ├── libopenal
│ ├── libopenssl
│ ├── libopus
│ ├── libqrencode
│ ├── libqt5
│ ├── libsodium
│ ├── libsqlcipher
│ ├── libtoxcore
│ ├── libvpx
│ ├── mingw-w64-debug-scripts
│ └── nsis_shellexecuteasuser
└── qtox
├── debug
└── release