# Docker images for CI This folder contains a bunch of docker images used by the continuous integration (CI) of Rust. An script is accompanied (`run.sh`) with these images to actually execute them. To test out an image execute: ``` ./src/ci/docker/run.sh $image_name ``` for example: ``` ./src/ci/docker/run.sh x86_64-gnu ``` Images will output artifacts in an `obj` dir at the root of a repository. Note that the script will overwrite the contents of this directory. To match conditions in rusts CI, also set the environment variable `DEPLOY=1`, e.g.: ``` DEPLOY=1 ./src/ci/docker/run.sh x86_64-gnu ``` **NOTE**: Re-using the same `obj` dir with different docker images with the same target triple (e.g. `dist-x86_64-linux` and `dist-various-1`) may result in strange linker errors, due shared library versions differing between platforms. If you encounter any issues when using multiple Docker images, try deleting your `obj` directory before running your command. ## Filesystem layout - Each host architecture has its own `host-{arch}` directory, and those directories contain a subdirectory for each Docker image (plus the `disabled` subdirectory). - `host-{arch}/disabled` contains images that are not built on CI. - `scripts` contains files shared by multiple Docker images. ## Docker Toolbox on Windows For Windows before Windows 10, the docker images can be run on Windows via [Docker Toolbox]. There are several preparation needs to be made before running a Docker image. 1. Stop the virtual machine from the terminal with `docker-machine stop` 2. If your Rust source is placed outside of `C:\Users\**`, e.g. if you place the repository in the `E:\rust` folder, please add a shared folder from VirtualBox by: 1. Select the "default" virtual machine inside VirtualBox, then click "Settings" 2. Go to "Shared Folders", click "Add shared folder" (the folder icon with a plus sign), fill in the following information, then click "OK": * Folder path: `E:\rust` * Folder name: `e/rust` * Read-only: ☐ *unchecked* * Auto-mount: ☑ *checked* * Make Permanent: ☑ *checked* 3. VirtualBox might not support creating symbolic links inside a shared folder by default. You can enable it manually by running these from `cmd.exe`: ```bat cd "C:\Program Files\Oracle\VirtualBox" VBoxManage setextradata default VBoxInternal2/SharedFoldersEnableSymlinksCreate/e/rust 1 :: ^~~~~~ :: folder name ``` 4. Restart the virtual machine from terminal with `docker-machine start`. To run the image, 1. Launch the "Docker Quickstart Terminal". 2. Execute `./src/ci/docker/run.sh $image_name` as explained at the beginning. [Docker Toolbox]: https://www.docker.com/products/docker-toolbox ## Cross toolchains A number of these images take quite a long time to compile as they're building whole gcc toolchains to do cross builds with. Much of this is relatively self-explanatory but some images use [crosstool-ng] which isn't quite as self explanatory. Below is a description of where these `*.defconfig` files come form, how to generate them, and how the existing ones were generated. [crosstool-ng]: https://github.com/crosstool-ng/crosstool-ng ### Generating a `.defconfig` file **NOTE:** Existing Dockerfiles can also be a good guide for the process and order of script execution. If you have a `linux-cross` image lying around you can use that and skip the next two steps. - First we spin up a container and copy all scripts into it. All these steps are outside the container: ``` # Note: We use ubuntu:22.04 because that's the "base" of linux-cross Docker # image, or simply run ./src/ci/docker/run.sh once, which will download the correct # one and you can check it out with `docker images` $ docker run -it ubuntu:22.04 bash # in another terminal: $ docker ps CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES cfbec05ed730 ubuntu:22.04 "bash" 16 seconds ago Up 15 seconds drunk_murdock $ docker cp src/ci/docker/scripts drunk_murdock:/tmp/ ``` - Then inside the container we build crosstool-ng by simply calling the bash script we copied in the previous step: ``` $ cd /tmp/scripts # Download packages necessary for building $ bash ./cross-apt-packages.sh # Download and build crosstool-ng $ bash ./crosstool-ng.sh ``` - In case you want to adjust or start from an existing config, copy that to the container. `crosstool-ng` will automatically load `./.config` if present. Otherwise one can use the TUI to load any config-file. ``` $ docker cp arm-linux-gnueabi.defconfig drunk_murdock:/tmp/.config ``` - Now, inside the container run the following command to configure the toolchain. To get a clue of which options need to be changed check the next section and come back. ``` $ cd /tmp/ $ ct-ng olddefconfig $ ct-ng menuconfig $ ct-ng savedefconfig ``` - Finally, we retrieve the `defconfig` file from the container and give it a meaningful name. This is done outside the container. ``` $ docker cp drunk_murdock:/tmp/defconfig arm-linux-gnueabi.defconfig ``` - Now you can shutdown the container or repeat the two last steps to generate a new `.defconfig` file. ### Toolchain configuration Changes on top of the default toolchain configuration used to generate the `.defconfig` files in this directory. The changes are formatted as follows: ``` $category > $option = $value -- $comment ``` ### `arm-linux-gnueabi.defconfig` For targets: `arm-unknown-linux-gnueabi` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Target options > Target Architecture = arm - Target options > Architecture level = armv6 -- (+) - Target options > Floating point = software (no FPU) -- (\*) - Operating System > Target OS = linux - Operating System > Linux kernel version = 3.2.101 - Binary utilities > Version of binutils = 2.32 - C-library > glibc version = 2.17.0 - C compiler > gcc version = 8.5.0 - C compiler > C++ = ENABLE -- to cross compile LLVM ### `arm-linux-gnueabihf.defconfig` For targets: `arm-unknown-linux-gnueabihf` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Target options > Target Architecture = arm - Target options > Architecture level = armv6 -- (+) - Target options > Use specific FPU = vfp -- (+) - Target options > Floating point = hardware (FPU) -- (\*) - Target options > Default instruction set mode = arm -- (+) - Operating System > Target OS = linux - Operating System > Linux kernel version = 3.2.101 - Binary utilities > Version of binutils = 2.32 - C-library > glibc version = 2.17.0 - C compiler > gcc version = 8.5.0 - C compiler > C++ = ENABLE -- to cross compile LLVM ### `armv7-linux-gnueabihf.defconfig` For targets: `armv7-unknown-linux-gnueabihf` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Target options > Target Architecture = arm - Target options > Suffix to the arch-part = v7 - Target options > Architecture level = armv7-a -- (+) - Target options > Use specific FPU = vfpv3-d16 -- (\*) - Target options > Floating point = hardware (FPU) -- (\*) - Target options > Default instruction set mode = thumb -- (\*) - Operating System > Target OS = linux - Operating System > Linux kernel version = 3.2.101 - Binary utilities > Version of binutils = 2.32 - C-library > glibc version = 2.17.0 - C compiler > gcc version = 8.5.0 - C compiler > C++ = ENABLE -- to cross compile LLVM (\*) These options have been selected to match the configuration of the arm toolchains shipped with Ubuntu 15.10 (+) These options have been selected to match the gcc flags we use to compile C libraries like jemalloc. See the mk/cfg/arm(v7)-unknown-linux-gnueabi{,hf}.mk file in Rust's source code. ### `aarch64-linux-gnu.defconfig` For targets: `aarch64-unknown-linux-gnu` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Target options > Target Architecture = arm - Target options > Bitness = 64-bit - Operating System > Target OS = linux - Operating System > Linux kernel version = 4.1.49 - Binary utilities > Version of binutils = 2.29.1 - C-library > glibc version = 2.17 -- aarch64 support was introduced in this version - C compiler > gcc version = 8.5.0 - C compiler > C++ = ENABLE -- to cross compile LLVM ### `i586-linux-gnu.defconfig` For targets: `i586-unknown-linux-gnu` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Target options > Target Architecture = x86 - Target options > Architecture level = i586 - Target options > Target CFLAGS = -Wa,-mrelax-relocations=no - Operating System > Target OS = linux - Operating System > Linux kernel version = 3.2.101 - Binary utilities > Version of binutils = 2.32 - Binary utilities > binutils extra config = --enable-compressed-debug-sections=none -- (\*) - C-library > glibc version = 2.17.0 - C compiler > gcc version = 8.5.0 - C compiler > C++ = ENABLE (\*) Compressed debug is enabled by default for gas (assembly) on Linux/x86 targets, but that makes our `compiler_builtins` incompatible with binutils < 2.32. ### `loongarch64-linux-gnu.defconfig` For targets: `loongarch64-unknown-linux-gnu` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Target options > Target Architecture = loongarch - Target options > Bitness = 64-bit - Operating System > Target OS = linux - Operating System > Linux kernel version = 5.19.16 - Binary utilities > Version of binutils = 2.40 - C-library > glibc version = 2.36 - C compiler > gcc version = 13.1.0 - C compiler > C++ = ENABLE -- to cross compile LLVM ### `mips-linux-gnu.defconfig` For targets: `mips-unknown-linux-gnu` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Path and misc options > Patches origin = Bundled, then local - Path and misc options > Local patch directory = /tmp/patches - Target options > Target Architecture = mips - Target options > ABI = o32 - Target options > Endianness = Big endian - Target options > Bitness = 32-bit - Target options > Architecture level = mips32r2 - Operating System > Target OS = linux - Operating System > Linux kernel version = 4.4.302 - Binary utilities > Version of binutils = 2.32 - C-library > glibc version = 2.23 - C compiler > gcc version = 8.5.0 - C compiler > gcc extra config = --with-fp-32=xx --with-odd-spreg-32=no - C compiler > C++ = ENABLE -- to cross compile LLVM ### `mipsel-linux-gnu.defconfig` For targets: `mipsel-unknown-linux-gnu` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Path and misc options > Patches origin = Bundled, then local - Path and misc options > Local patch directory = /tmp/patches - Target options > Target Architecture = mips - Target options > ABI = o32 - Target options > Endianness = Little endian - Target options > Bitness = 32-bit - Target options > Architecture level = mips32r2 - Operating System > Target OS = linux - Operating System > Linux kernel version = 4.4.302 - Binary utilities > Version of binutils = 2.32 - C-library > glibc version = 2.23 - C compiler > gcc version = 8.5.0 - C compiler > gcc extra config = --with-fp-32=xx --with-odd-spreg-32=no - C compiler > C++ = ENABLE -- to cross compile LLVM ### `mips64-linux-gnu.defconfig` For targets: `mips64-unknown-linux-gnuabi64` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Path and misc options > Patches origin = Bundled, then local - Path and misc options > Local patch directory = /tmp/patches - Target options > Target Architecture = mips - Target options > ABI = n64 - Target options > Endianness = Big endian - Target options > Bitness = 64-bit - Target options > Architecture level = mips64r2 - Operating System > Target OS = linux - Operating System > Linux kernel version = 4.4.302 - Binary utilities > Version of binutils = 2.32 - C-library > glibc version = 2.23 - C compiler > gcc version = 8.5.0 - C compiler > C++ = ENABLE -- to cross compile LLVM ### `mips64el-linux-gnu.defconfig` For targets: `mips64el-unknown-linux-gnuabi64` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Path and misc options > Patches origin = Bundled, then local - Path and misc options > Local patch directory = /tmp/patches - Target options > Target Architecture = mips - Target options > ABI = n64 - Target options > Endianness = Little endian - Target options > Bitness = 64-bit - Target options > Architecture level = mips64r2 - Operating System > Target OS = linux - Operating System > Linux kernel version = 4.4.302 - Binary utilities > Version of binutils = 2.32 - C-library > glibc version = 2.23 - C compiler > gcc version = 8.5.0 - C compiler > C++ = ENABLE -- to cross compile LLVM ### `powerpc-linux-gnu.defconfig` For targets: `powerpc-unknown-linux-gnu` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Target options > Target Architecture = powerpc - Target options > Emit assembly for CPU = powerpc -- pure 32-bit PowerPC - Operating System > Target OS = linux - Operating System > Linux kernel version = 3.2.101 - Binary utilities > Version of binutils = 2.30 - C-library > glibc version = 2.17 -- ~RHEL7 glibc - C compiler > gcc version = 8.5.0 - C compiler > C++ = ENABLE -- to cross compile LLVM ### `powerpc64-linux-gnu.defconfig` For targets: `powerpc64-unknown-linux-gnu` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Target options > Target Architecture = powerpc - Target options > Bitness = 64-bit - Target options > Emit assembly for CPU = power4 -- (+) - Target options > Tune for CPU = power6 -- (+) - Operating System > Target OS = linux - Operating System > Linux kernel version = 3.2.101 - Binary utilities > Version of binutils = 2.32 - C-library > glibc version = 2.17 -- ~RHEL7 glibc - C compiler > gcc version = 8.5.0 - C compiler > C++ = ENABLE -- to cross compile LLVM (+) These CPU options match the configuration of the toolchains in RHEL6. ### `riscv64-unknown-linux-gnu.defconfig` For targets: `riscv64-unknown-linux-gnu` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Target options > Target Architecture = riscv - Target options > Bitness = 64-bit - Operating System > Target OS = linux - Operating System > Linux kernel version = 4.20.17 - Binary utilities > Version of binutils = 2.32 - C-library > glibc version = 2.29 - C compiler > gcc version = 8.5.0 - C compiler > C++ = ENABLE -- to cross compile LLVM ### `s390x-linux-gnu.defconfig` For targets: `s390x-unknown-linux-gnu` - Path and misc options > Prefix directory = /x-tools/${CT\_TARGET} - Path and misc options > Use a mirror = ENABLE - Path and misc options > Base URL = https://ci-mirrors.rust-lang.org/rustc - Target options > Target Architecture = s390 - Target options > Bitness = 64-bit - Operating System > Target OS = linux - Operating System > Linux kernel version = 3.2.101 - Binary utilities > Version of binutils = 2.32 - C-library > glibc version = 2.17 -- ~RHEL7 glibc - C compiler > gcc version = 8.5.0 - C compiler > gcc extra config = --with-arch=z10 -- LLVM's minimum support - C compiler > C++ = ENABLE -- to cross compile LLVM