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Compilation sk SK
Compilation is the process of creating executable file. This is what you want to do if you want to add your own changes to ASF, or if you for whatever reason don't trust executable files provided in official releases. If you're user and not a developer, most likely you want to use already precompiled binaries, but if you'd like to use your own ones, or learn something new, continue reading.
ASF can be compiled on any currently supported platform, as long as you have all needed tools to do so.
Regardless of platform, you need full .NET SDK (not just runtime) in order to compile ASF. Installation instructions can be found on .NET download page. You need to install appropriate .NET SDK version for your OS. After successful installation, dotnet
command should be working and operative. You can verify if it works with dotnet --info
. Also ensure that your .NET SDK matches ASF runtime requirements.
Assuming you have .NET SDK operative and in appropriate version, simply navigate to source ASF directory (cloned or downloaded and unpacked ASF repo) and execute:
dotnet publish ArchiSteamFarm -c "Release" -o "out/generic"
If you're using Linux/macOS, you can instead use cc.sh
script which will do the same, in a bit more complex manner.
If compilation ended successfully, you can find your ASF in source
flavour in out/generic
directory. This is the same as official generic
ASF build, but it has forced UpdateChannel
and UpdatePeriod
of 0
, which is appropriate for self-builds.
You can also generate OS-specific .NET package if you have a specific need. In general you shouldn't do that because you've just compiled generic
flavour that you can run with your already-installed .NET runtime that you've used for the compilation in the first place, but just in case you want to:
dotnet publish ArchiSteamFarm -c "Release" -o "out/linux-x64" -r "linux-x64"
Of course, replace linux-x64
with OS-architecture that you want to target, such as win-x64
. This build will also have updates disabled.
While the above steps are everything that is required to have a fully working build of ASF, you may also be interested in building ASF-ui, our graphical web interface. From ASF side, all you need to do is dropping ASF-ui build output in standard ASF-ui/dist
location, then building ASF with it (again, if needed).
ASF-ui is part of ASF's source tree as a git submodule, ensure that you've cloned the repo with git clone --recursive
, as otherwise you'll not have the required files. You'll also need a working NPM, Node.js comes with it. If you're using Linux/macOS, we recommend our cc.sh
script, which will automatically cover building and shipping ASF-ui (if possible, that is, if you're meeting the requirements we've just mentioned).
In addition to the cc.sh
script, we also attach the simplified build instructions below, refer to ASF-ui repo for additional documentation. From ASF's source tree location, so as above, execute the following commands:
rm -rf "ASF-ui/dist" # ASF-ui doesn't clean itself after old build
npm ci --prefix ASF-ui
npm run-script deploy --prefix ASF-ui
rm -rf "out/generic/www" # Ensure that our build output is clean of the old files
dotnet publish ArchiSteamFarm -c "Release" -o "out/generic" # Or accordingly to what you need as per the above
You should now be able to find the ASF-ui files in your out/generic/www
folder. ASF will be able to serve those files to your browser.
Alternatively, you can simply build ASF-ui, whether manually or with the help of our repo, then copy the build output over to ${OUT}/www
folder manually, where ${OUT}
is the output folder of ASF that you've specified with -o
parameter. This is exactly what ASF is doing as part of the build process, it copies ASF-ui/dist
(if exists) over to ${OUT}/www
, nothing fancy.
If you'd like to edit ASF code, you can use any .NET compatible IDE for that purpose, although even that is optional, since you can as well edit with a notepad and compile with dotnet
command described above. Still, for Windows we recommend latest Visual Studio (free community version is more than enough).
If you'd like to work with ASF code on Linux/macOS instead, we recommend latest Visual Studio Code. It's not as rich as classic Visual Studio, but it's good enough.
Of course all suggestions above are only recommendations, you can use whatever you want to, it comes down to dotnet build
command anyway. We use JetBrains Rider for ASF development, although it's not a free solution.
main
branch is not guaranteed to be in a state that allows successful compilation or flawless ASF execution in the first place, since it's development branch just like stated in our release cycle. If you want to compile or reference ASF from source, then you should use appropriate tag for that purpose, which guarantees at least successful compilation, and very likely also flawless execution (if build was marked as stable release). In order to check the current "health" of the tree, you can use our CI - GitHub.
Official ASF releases are compiled by GitHub, with latest .NET SDK that matches ASF runtime requirements. After passing tests, all packages are deployed as the release, also on GitHub. This also guarantees transparency, since GitHub always uses official public source for all builds, and you can compare checksums of GitHub artifacts with GitHub release assets. ASF developers do not compile or publish builds themselves, except for private development process and debugging.
In addition to the above, ASF maintainers manually validate and publish build checksums on independent from GitHub, remote ASF server, as additional security measure. This step is mandatory for existing ASFs to consider the release as a valid candidate for auto-update functionality.
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