397 lines
16 KiB
Markdown
397 lines
16 KiB
Markdown
[![builds.sr.ht status](https://builds.sr.ht/~motiejus/bazel-zig-cc.svg)](https://builds.sr.ht/~motiejus/bazel-zig-cc)
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# Bazel zig cc toolchain
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This is a C/C++ toolchain that can (cross-)compile C/C++ programs. It contains
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clang-13, musl, glibc 2-2.35, all in a ~40MB package. Read
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[here](https://andrewkelley.me/post/zig-cc-powerful-drop-in-replacement-gcc-clang.html)
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about zig-cc; the rest of the README will present how to use this toolchain
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from Bazel.
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Configuring toolchains in Bazel is complex, under-documented, and fraught with
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peril. I, the co-author of bazel-zig-cc, am still confused on how this all
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works, and often wonder why it works at all. That aside, we made the our best
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effort to make bazel-zig-cc usable for your C/C++/CGo projects, with as many
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guardrails as we could install.
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While copy-pasting the code in your project, attempt to read and understand the
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text surrounding the code snippets. This will save you hours of head
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scratching, I promise.
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# Usage
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Add this to your `WORKSPACE`:
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```
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BAZEL_ZIG_CC_VERSION = "v0.6.1"
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http_archive(
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name = "bazel-zig-cc",
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sha256 = "6969858b7f142a0629c61aea4338fca1c81f4e137892464a96bfe9a42ed74821",
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strip_prefix = "bazel-zig-cc-{}".format(BAZEL_ZIG_CC_VERSION),
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urls = ["https://git.sr.ht/~motiejus/bazel-zig-cc/archive/{}.tar.gz".format(BAZEL_ZIG_CC_VERSION)],
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)
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load("@bazel-zig-cc//toolchain:defs.bzl", zig_toolchains = "toolchains")
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# version, url_formats and host_platform_sha256 are optional, but highly
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# recommended. Zig SDK is by default downloaded from dl.jakstys.lt, which is a
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# tiny server in the closet of Yours Truly.
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zig_toolchains(
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version = "<...>",
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url_formats = [
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"https://example.org/zig/zig-{host_platform}-{version}.tar.xz",
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],
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host_platform_sha256 = { ... },
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)
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```
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And this to `.bazelrc`:
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```
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build --incompatible_enable_cc_toolchain_resolution
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```
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The snippets above will download the zig toolchain and make the bazel
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toolchains available for registration and usage. If you do nothing else, this
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may work. The `.bazelrc` snippet instructs Bazel to use the registered "new
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kinds of toolchains". All above are required regardless of how wants to use it.
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The next steps depend on how one wants to use bazel-zig-cc. The descriptions
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below is a gentle introduction to C++ toolchains from "user's perspective" too.
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## Use case: manually build a single target with a specific zig cc toolchain
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This option is least disruptive to the workflow compared to no hermetic C++
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toolchain, and works best when trying out or getting started with bazel-zig-cc
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for a subset of targets.
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To request Bazel to use a specific toolchain (compatible with the specified
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platform) for build/tests/whatever on linux-amd64-musl, do:
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```
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bazel build \
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--platforms @zig_sdk//platform:linux_arm64 \
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--extra_toolchains @zig_sdk//toolchain:linux_arm64_musl \
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//test/go:go
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```
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There are a few things going on here, let's try to dissect them.
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### Option `--platforms @zig_sdk//platform:linux_arm64`
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Specifies that the our target platform is `linux_arm64`, which resolves into:
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```
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$ bazel query --output=build @zig_sdk//platform:linux_arm64
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platform(
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name = "linux_arm64",
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generator_name = "linux_arm64",
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generator_function = "declare_platforms",
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generator_location = "platform/BUILD:7:18",
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constraint_values = ["@platforms//os:linux", "@platforms//cpu:aarch64"],
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)
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```
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`constraint_values` instructs Bazel to be looking for a **toolchain** that is
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compatible with (in Bazelspeak, `target_compatible_with`) **all of the**
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`["@platforms//os:linux", "@platforms//cpu:aarch64"]`.
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### Option `--toolchains=@zig_sdk//toolchain:linux_arm64_musl`
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Inspect first:
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```
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$ bazel query --output=build @zig_sdk//toolchain:linux_arm64_musl
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toolchain(
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name = "linux_arm64_musl",
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generator_name = "linux_arm64_musl",
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generator_function = "declare_toolchains",
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generator_location = "toolchain/BUILD:7:19",
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toolchain_type = "@bazel_tools//tools/cpp:toolchain_type",
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target_compatible_with = [
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"@platforms//os:linux",
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"@platforms//cpu:aarch64",
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"@zig_sdk//libc:unconstrained",
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],
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toolchain = "@zig_sdk//private:aarch64-linux-musl_cc",
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)
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```
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The above means toolchain is compatible with platforms that include
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`@platforms//os:linux`, `@platforms//cpu:aarch64` (an alias to
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`@platforms//cpu:arm64`) and `@zig_sdk//libc:unconstrained`. For a platform to
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pick up the right toolchain, the toolchain's `target_compatible_with` must be
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equivalent or a superset to the platforms `constraint_values`. Since the
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toolchain is a superset (therefore, `libc:unconstrained` does not matter here),
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the platform is compatible with this toolchain. As a result, `--platforms
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@zig_sdk//platform:linux_amd64` causes Bazel to select a toolchain
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`@zig_sdk//platform:linux_arm64_musl` (because it satisfies all constraints),
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which will compile and link the C/C++ code with musl.
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`@zig_sdk//libc:unconstrained` will become important later.
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### Same as above, less typing (with `--config`)
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Specifying the platform and toolchain for every target may become burdensome,
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so they can be put used via `--config`. For example, append this to `.bazelrc`:
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```
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build:linux_arm64 --platforms @zig_sdk//platform:linux_arm64
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build:linux_arm64 --extra_toolchains @zig_sdk//toolchain:linux_arm64_musl
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```
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And then building to linux-arm64-musl boils down to:
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```
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bazel build --config=linux_arm64_musl //test/go:go
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```
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## Use case: always compile with zig cc
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Instead of adding the toolchains to `.bazelrc`, they can be added
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unconditionally. Append this to `WORKSPACE` after `zig_toolchains(...)`:
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```
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register_toolchains(
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"@zig_sdk//toolchain:linux_amd64_gnu.2.19",
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"@zig_sdk//toolchain:linux_arm64_gnu.2.28",
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"@zig_sdk//toolchain:darwin_amd64",
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"@zig_sdk//toolchain:darwin_arm64",
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)
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```
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Append this to `.bazelrc`:
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```
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build --action_env BAZEL_DO_NOT_DETECT_CPP_TOOLCHAIN=1
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```
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From Bazel's perspective, this is almost equivalent to always specifying
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`--extra_toolchains` on every `bazel <...>` command-line invocation. It also
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means there is no way to disable the toolchain with the command line. This is
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useful if you find bazel-zig-cc useful enough to compile for all of your
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targets and tools.
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With `BAZEL_DO_NOT_DETECT_CPP_TOOLCHAIN=1` Bazel stops detecting the default
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host toolchain. Configuring toolchains is complicated enough, and the
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auto-detection (read: fallback to non-hermetic toolchain) is a footgun best
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avoided. This option is not documented in bazel, so may break. If you intend to
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use the hermetic toolchain exclusively, it won't hurt.
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## Use case: zig-cc for targets for multiple libc variants
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When some targets need to be build with different libcs (either different
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versions of glibc or musl), use a linux toolchain from
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`@zig_sdk//libc_aware/toolchains:<...>`. The toolchain will only be selected
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when building for a specific libc. For example, in `WORKSPACE`:
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```
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register_toolchains(
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"@zig_sdk//libc_aware/toolchain:linux_amd64_gnu.2.19",
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"@zig_sdk//libc_aware/toolchain:linux_amd64_gnu.2.28",
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"@zig_sdk//libc_aware/toolchain:x86_64-linux-musl",
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)
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```
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What does `@zig_sdk//libc_aware/toolchain:linux_amd64_gnu.2.19` mean?
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```
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$ bazel query --output=build @zig_sdk//libc_aware/toolchain:linux_amd64_gnu.2.19 |& grep target
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target_compatible_with = ["@platforms//os:linux", "@platforms//cpu:x86_64", "@zig_sdk//libc:gnu.2.19"],
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```
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To see how this relates to the platform:
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```
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$ bazel query --output=build @zig_sdk//libc_aware/platform:linux_amd64_gnu.2.19 |& grep constraint
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constraint_values = ["@platforms//os:linux", "@platforms//cpu:x86_64", "@zig_sdk//libc:gnu.2.19"],
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```
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In this case, the platform's `constraint_values` and toolchain's
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`target_compatible_with` are identical, causing Bazel to select the right
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toolchain for the requested platform. With these toolchains registered, one can
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build a project for a specific libc-aware platform; it will select the
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appropriate toolchain:
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```
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$ bazel run --platforms @zig_sdk//libc_aware/platform:linux_amd64_gnu.2.19 //test/c:which_libc
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glibc_2.19
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$ bazel run --platforms @zig_sdk//libc_aware/platform:linux_amd64_gnu.2.28 //test/c:which_libc
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glibc_2.28
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$ bazel run --platforms @zig_sdk//libc_aware/platform:linux_amd64_musl //test/c:which_libc
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non_glibc
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$ bazel run --run_under=file --platforms @zig_sdk//libc_aware/platform:linux_arm64_gnu.2.28 //test/c:which_libc
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which_libc: ELF 64-bit LSB executable, ARM aarch64, version 1 (SYSV), dynamically linked, interpreter /lib/ld-linux-aarch64.so.1, for GNU/Linux 2.0.0, stripped
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```
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To the list of libc aware toolchains and platforms:
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```
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$ bazel query @zig_sdk//libc_aware/toolchain/...
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$ bazel query @zig_sdk//libc_aware/platform/...
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```
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Libc-aware toolchains are especially useful when relying on
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[transitions][transitions], as transitioning `extra_platforms` will cause the
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host tools to be rebuilt with the specific libc version, which takes time; also
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the build host may not be able to run them if, say, target glibc version is
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newer than on the host. Some tests in this repository (under `test/`) are using
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transitions; you may check out how it's done.
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The `@zig_sdk//libc:variant` constraint is necessary to select a matching
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toolchain. Remember: the toolchain's `target_compatible_with` must be
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equivalent or a superset of the platform's `constraint_values`. This is why
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both libc-aware platforms and libc-aware toolchains reside in their own
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namespace; if we try to mix non-libc-aware to libc-aware, confusion ensues.
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To use the libc constraints in the project's platform definitions, add a
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`@zig_sdk//libc:variant` constraint to them. See the list of available values:
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```
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$ bazel query "attr(constraint_setting, @zig_sdk//libc:variant, @zig_sdk//...)"
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```
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`@zig_sdk//libc:unconstrained` is a special value that indicates that no value
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for the constraint is specified. The non libc aware linux toolchains are only
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compatible with this value to prevent accidental silent fallthrough to them.
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This is a guardrail. Thanks, future me!
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# Note: Naming
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Both Go and Bazel naming schemes are accepted. For convenience with
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Go, the following Go-style toolchain aliases are created:
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|Bazel (zig) name | Go name |
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|---------------- | -------- |
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|`x86_64` | `amd64` |
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|`aarch64` | `arm64` |
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|`macos` | `darwin` |
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For example, the toolchain `linux_amd64_gnu.2.28` is aliased to
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`x86_64-linux-gnu.2.28`. To find out which toolchains can be registered or
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used, run:
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```
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$ bazel query @zig_sdk//toolchain/...
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```
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# Note: UBSAN and "SIGILL: Illegal Instruction"
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`zig cc` differs from "mainstream" compilers by [enabling UBSAN by
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default][ubsan1]. Which means your program may compile successfully and crash
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with:
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```
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SIGILL: illegal instruction
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```
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This is by design: it encourages program authors to fix the undefined behavior.
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There are [many ways][ubsan2] to find the undefined behavior.
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# Known Issues In bazel-zig-cc
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These are the things you may stumble into when using bazel-zig-cc. I am
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unlikely to implement them any time soon, but patches implementing those will
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be accepted. See [Questions & Contributions](#questions-amp-contributions) on
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how to contribute.
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## Zig cache
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Currently zig cache is in `$HOME`, so `bazel clean --expunge` does not clear
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the zig cache. Zig's cache should be stored somewhere in the project's path.
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## OSX: sysroot
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For non-trivial programs (and for all darwin/arm64 cgo programs) MacOS SDK may
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be necessary. Read [Jakub's comment][sysroot] about it. Support for OSX sysroot
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is currently not implemented.
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## OSX: different OS targets (Catalina -- Monterey)
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[Zig 0.9.0](https://ziglang.org/download/0.9.0/release-notes.html#macOS) may
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target macos.10 (Catalina), macos.11 (Big Sur) or macos.12 (Monterey). It
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currently targets the lowest version, without ability to change it.
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# Known Issues In Upstream
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This section lists issues that I've stumbled into when using `zig cc`, and is
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outside of bazel-zig-cc's control.
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## using glibc 2.27 or older
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**Severity: Low**
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Task: [ziglang/zig #9485 glibc 2.27 or older: fcntl64 not found, but zig's glibc headers refer it](https://github.com/ziglang/zig/issues/9485)
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Background: when glibc 2.27 or older is selected, it may miss `fcntl64`. A
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workaround is applied for `x86_64`, but not for aarch64. The same workaround
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may apply to aarch64, but the author didn't find a need to test it (yet).
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# Closed Upstream Issues
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- [ziglang/zig #10386 zig cc regression in 0.9.0](https://github.com/ziglang/zig/issues/10386)(CLOSED, thanks Xavier)
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- [ziglang/zig #10312 macho: fail if requested -framework is not found](https://github.com/ziglang/zig/pull/10312) (CLOSED, thanks kubkon)
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- [ziglang/zig #10299 [darwin aarch64 cgo] regression](https://github.com/ziglang/zig/issues/10299) (CLOSED, thanks kubkon)
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- [ziglang/zig #10297 [darwin x86_64 cgo] regression](https://github.com/ziglang/zig/issues/10297) (CLOSED, thanks kubkon)
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- [ziglang/zig #9431 FileNotFound when compiling macos](https://github.com/ziglang/zig/issues/9431) (CLOSED, thanks andrewrk)
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- [ziglang/zig #9139 zig c++ hanging when compiling in parallel](https://github.com/ziglang/zig/issues/9139) (CLOSED, thanks andrewrk)
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- [ziglang/zig #9050 golang linker segfault](https://github.com/ziglang/zig/issues/9050) (CLOSED, thanks kubkon)
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- [ziglang/zig #7917 [meta] better c/c++ toolchain compatibility](https://github.com/ziglang/zig/issues/7917) (CLOSED, thanks andrewrk)
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- [ziglang/zig #7915 ar-compatible command for zig cc](https://github.com/ziglang/zig/issues/7915) (CLOSED, thanks andrewrk)
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- [ziglang/zig #7667 misplaced relocated glibc stubs (pthread_sigmask)](https://github.com/ziglang/zig/issues/7667) (CLOSED, thanks mjonaitis and andrewrk)
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- [rules/go #2894 Per-arch_target linker flags](https://github.com/bazelbuild/rules_go/issues/2894) (CLOSED, thanks mjonaitis)
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- [golang/go #46644 cmd/link: with CC=zig: SIGSERV when cross-compiling to darwin/amd64](https://github.com/golang/go/issues/46644) (CLOSED, thanks kubkon)
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# Testing
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## Transient docker environment
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First of all, make sure that your kernel is configured to run arm64 binaries.
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You can either `apt install qemu-user-static binfmt-support`; this should setup
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`binfmt_misc` to handle arm64 binaries. Or you can use this handy dockerized
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script `docker run --rm --privileged multiarch/qemu-user-static --reset -p yes`.
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```
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$ docker run -e CC=/usr/bin/false -ti --rm -v $(git rev-parse --show-toplevel):/x -w /x debian:bullseye-slim
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# dpkg --add-architecture arm64 && apt update && apt install -y direnv git shellcheck libc6:arm64
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# . .envrc
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# ./ci/test
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# ./ci/lint
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```
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See `ci/test` for how tests are run.
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# Questions & Contributions
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Project's mailing list is [~motiejus/bazel-zig-cc][mailing-list]. The mailing
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list is used for:
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- announcements (I am aiming to send an email with every release).
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- user discussions.
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- raising issues.
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- contributions.
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I will generally respond to emails about issues. I may even be able to fix
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them. However, no promises: you are much more likely (and welcome!) to get it
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fixed by submitting a patch.
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To contribute, send your patches to the mailing list, as described in
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[git-send-email.io][git-send-email] or via [Sourcehut web UI][video].
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Copyright is retained by the contributors.
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# Thanks
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Many thanks to Adam Bouhenguel and his [bazel-zig-cc][ajbouh], the parent of
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this repository. Also, the Zig team for making this all possible and handling
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the issues promptly.
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[mailing-list]: https://lists.sr.ht/~motiejus/bazel-zig-cc
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[ajbouh]: https://github.com/ajbouh/bazel-zig-cc/
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[git-send-email]: https://git-send-email.io/
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[video]: https://spacepub.space/w/no6jnhHeUrt2E5ST168tRL
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[sysroot]: https://github.com/ziglang/zig/issues/10299#issuecomment-989153750
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[ubsan1]: https://github.com/ziglang/zig/issues/4830#issuecomment-605491606
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[ubsan2]: https://github.com/ziglang/zig/issues/5163
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[transitions]: https://docs.bazel.build/versions/main/skylark/config.html#user-defined-transitions
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