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Hermetic CC toolchain

This is a C/C++ toolchain that can (cross-)compile C/C++ programs on top of zig cc. It contains clang-16, musl, glibc 2-2.34, all in a ~40MB package. Read here about zig-cc; the rest of the README will present how to use this toolchain from Bazel.

Configuring toolchains in Bazel is complex, under-documented, and fraught with peril. I, the co-author of hermetic_cc_toolchain, am still confused on how this all works, and often wonder why it works at all. That aside, we made the our best effort to make hermetic_cc_toolchain usable for your C/C++/CGo projects, with as many guardrails as we could install.

While copy-pasting the code in your project, attempt to read and understand the text surrounding the code snippets. This will save you hours of head scratching, I promise.

Project Origin

This repository is based on Adam Bouhenguel's bazel-zig-cc, later developed at sr.ht/~motiejus/bazel-zig-cc. After a while it was moved to github.com/uber and renamed to hermetic_cc_toolchain. Our special thanks to Adam for creating the original version and publishing it, his contribution helped make the idea to use Zig with Bazel at Uber a reality; now we all can benefit from it.

Previously communications were done in an email list; the past archive is in mailing-list-archive.mbox. It can be accessed like this:

mutt -f -R mailing-list-archive.mbox

Usage

Add this to your WORKSPACE:

HERMETIC_CC_TOOLCHAIN_VERSION = "v1.0.1"

http_archive(
    name = "hermetic_cc_toolchain",
    sha256 = "e9f82bfb74b3df5ca0e67f4d4989e7f1f7ce3386c295fd7fda881ab91f83e509",
    strip_prefix = "bazel-zig-cc-{}".format(HERMETIC_CC_TOOLCHAIN_VERSION),
    urls = [
        "https://mirror.bazel.build/github.com/uber/bazel-zig-cc/releases/download/{0}/{0}.tar.gz".format(HERMETIC_CC_TOOLCHAIN_VERSION),
        "https://github.com/uber/hermetic_cc_toolchain/releases/download/{0}/{0}.tar.gz".format(HERMETIC_CC_TOOLCHAIN_VERSION),
    ],
)

load("@hermetic_cc_toolchain//toolchain:defs.bzl", zig_toolchains = "toolchains")

# version, url_formats and host_platform_sha256 are optional for those who
# want to control their Zig SDK version.
zig_toolchains(
    version = "<...>",
    url_formats = [
        "https://example.org/zig/zig-{host_platform}-{version}.{_ext}",
    ],
    host_platform_sha256 = { ... },
)

And this to .bazelrc:

build --incompatible_enable_cc_toolchain_resolution

The snippets above will download the zig toolchain and make the bazel toolchains available for registration and usage. If you do nothing else, this may work. The .bazelrc snippet instructs Bazel to use the registered "new kinds of toolchains". All above are required regardless of how wants to use it. The next steps depend on how one wants to use hermetic_cc_toolchain. The descriptions below is a gentle introduction to C++ toolchains from "user's perspective" too.

Use case: manually build a single target with a specific zig cc toolchain

This option is least disruptive to the workflow compared to no hermetic C++ toolchain, and works best when trying out or getting started with hermetic_cc_toolchain for a subset of targets.

To request Bazel to use a specific toolchain (compatible with the specified platform) for build/tests/whatever on linux-amd64-musl, do:

bazel build \
    --platforms @zig_sdk//platform:linux_arm64 \
    --extra_toolchains @zig_sdk//toolchain:linux_arm64_musl \
    //test/go:go

There are a few things going on here, let's try to dissect them.

Option --platforms @zig_sdk//platform:linux_arm64

Specifies that the our target platform is linux_arm64, which resolves into:

$ bazel query --output=build @zig_sdk//platform:linux_arm64
platform(
  name = "linux_arm64",
  generator_name = "linux_arm64",
  generator_function = "declare_platforms",
  generator_location = "platform/BUILD:7:18",
  constraint_values = ["@platforms//os:linux", "@platforms//cpu:aarch64"],
)

constraint_values instructs Bazel to be looking for a toolchain that is compatible with (in Bazelspeak, target_compatible_with) all of the ["@platforms//os:linux", "@platforms//cpu:aarch64"].

Option --toolchains=@zig_sdk//toolchain:linux_arm64_musl

Inspect first (@platforms//cpu:aarch64 is an alias to @platforms//cpu:arm64):

$ bazel query --output=build @zig_sdk//toolchain:linux_arm64_musl
toolchain(
  name = "linux_arm64_musl",
  generator_name = "linux_arm64_musl",
  generator_function = "declare_toolchains",
  generator_location = "toolchain/BUILD:7:19",
  toolchain_type = "@bazel_tools//tools/cpp:toolchain_type",
  target_compatible_with = ["@platforms//os:linux", "@platforms//cpu:aarch64", "@zig_sdk//libc:unconstrained"],
  toolchain = "@zig_sdk//:aarch64-linux-musl_cc",
)

For a platform to pick up the right toolchain, the platform's constraint_values must be a subset1 of the toolchain's target_compatible_with. Since the platform is a subset (therefore, toolchain's @zig_sdk//libc:unconstrained does not matter), this toolchain is selected for this platform. As a result, --platforms @zig_sdk//platform:linux_amd64 causes Bazel to select a toolchain @zig_sdk//platform:linux_arm64_musl (because it satisfies all constraints), which will compile and link the C/C++ code with musl.

@zig_sdk//libc:unconstrained will become important later.

Same as above, less typing (with --config)

Specifying the platform and toolchain for every target may become burdensome, so they can be put used via --config. For example, append this to .bazelrc:

build:linux_arm64 --platforms @zig_sdk//platform:linux_arm64
build:linux_arm64 --extra_toolchains @zig_sdk//toolchain:linux_arm64_musl

And then building to linux-arm64-musl boils down to:

bazel build --config=linux_arm64_musl //test/go:go

Use case: always compile with zig cc

Instead of adding the toolchains to .bazelrc, they can be added unconditionally. Append this to WORKSPACE after zig_toolchains(...):

register_toolchains(
    "@zig_sdk//toolchain:linux_amd64_gnu.2.19",
    "@zig_sdk//toolchain:linux_arm64_gnu.2.28",
    "@zig_sdk//toolchain:darwin_amd64",
    "@zig_sdk//toolchain:darwin_arm64",
    "@zig_sdk//toolchain:windows_amd64",
    "@zig_sdk//toolchain:windows_arm64",
)

Append this to .bazelrc:

build --action_env BAZEL_DO_NOT_DETECT_CPP_TOOLCHAIN=1

From Bazel's perspective, this is almost equivalent to always specifying --extra_toolchains on every bazel <...> command-line invocation. It also means there is no way to disable the toolchain with the command line. This is useful if you find hermetic_cc_toolchain useful enough to compile for all of your targets and tools.

With BAZEL_DO_NOT_DETECT_CPP_TOOLCHAIN=1 Bazel stops detecting the default host toolchain. Configuring toolchains is complicated enough, and the auto-detection (read: fallback to non-hermetic toolchain) is a footgun best avoided. This option is not documented in bazel, so may break. If you intend to use the hermetic toolchain exclusively, it won't hurt.

Use case: zig-cc for targets for multiple libc variants

When some targets need to be build with different libcs (either different versions of glibc or musl), use a linux toolchain from @zig_sdk//libc_aware/toolchains:<...>. The toolchain will only be selected when building for a specific libc. For example, in WORKSPACE:

register_toolchains(
    "@zig_sdk//libc_aware/toolchain:linux_amd64_gnu.2.19",
    "@zig_sdk//libc_aware/toolchain:linux_arm64_gnu.2.28",
    "@zig_sdk//libc_aware/toolchain:x86_64-linux-musl",
)

What does @zig_sdk//libc_aware/toolchain:linux_amd64_gnu.2.19 mean?

$ bazel query --output=build @zig_sdk//libc_aware/toolchain:linux_amd64_gnu.2.19 |& grep target
  target_compatible_with = ["@platforms//os:linux", "@platforms//cpu:x86_64", "@zig_sdk//libc:gnu.2.19"],

To see how this relates to the platform:

$ bazel query --output=build @zig_sdk//libc_aware/platform:linux_amd64_gnu.2.19 |& grep constraint
  constraint_values = ["@platforms//os:linux", "@platforms//cpu:x86_64", "@zig_sdk//libc:gnu.2.19"],

In this case, the platform's constraint_values and toolchain's target_compatible_with are identical, causing Bazel to select the right toolchain for the requested platform. With these toolchains registered, one can build a project for a specific libc-aware platform; it will select the appropriate toolchain:

$ bazel run --platforms @zig_sdk//libc_aware/platform:linux_amd64_gnu.2.19 //test/c:which_libc
glibc_2.19
$ bazel run --platforms @zig_sdk//libc_aware/platform:linux_amd64_gnu.2.28 //test/c:which_libc
glibc_2.28
$ bazel run --platforms @zig_sdk//libc_aware/platform:linux_amd64_musl //test/c:which_libc
non_glibc
$ bazel run --run_under=file --platforms @zig_sdk//libc_aware/platform:linux_arm64_gnu.2.28 //test/c:which_libc
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

To the list of libc aware toolchains and platforms:

$ bazel query @zig_sdk//libc_aware/toolchain/...
$ bazel query @zig_sdk//libc_aware/platform/...

Libc-aware toolchains are especially useful when relying on transitions, as transitioning extra_platforms will cause the host tools to be rebuilt with the specific libc version, which takes time; also the build host may not be able to run them if, say, target glibc version is newer than on the host. Some tests in this repository (under test/) are using transitions; you may check out how it's done.

The @zig_sdk//libc:variant constraint is necessary to select a matching toolchain. Remember: the toolchain's target_compatible_with must be equivalent or a superset of the platform's constraint_values. This is why both libc-aware platforms and libc-aware toolchains reside in their own namespace; if we try to mix non-libc-aware to libc-aware, confusion ensues.

To use the libc constraints in the project's platform definitions, add a @zig_sdk//libc:variant constraint to them. See the list of available values:

$ bazel query "attr(constraint_setting, @zig_sdk//libc:variant, @zig_sdk//...)"

@zig_sdk//libc:unconstrained is a special value that indicates that no value for the constraint is specified. The non libc aware linux toolchains are only compatible with this value to prevent accidental silent fallthrough to them. This is a guardrail. Thanks, future me!

Note: Naming

Both Go and Bazel naming schemes are accepted. For convenience with Go, the following Go-style toolchain aliases are created:

Bazel (zig) name Go name
x86_64 amd64
aarch64 arm64
macos darwin

For example, the toolchain linux_amd64_gnu.2.28 is aliased to x86_64-linux-gnu.2.28. To find out which toolchains can be registered or used, run:

$ bazel query @zig_sdk//toolchain/...

Incompatibilities with clang and gcc

zig cc is almost a drop-in replacement for clang/gcc. This section lists some of the discovered differences and ways to live with them.

UBSAN and "SIGILL: Illegal Instruction"

zig cc differs from "mainstream" compilers by enabling UBSAN by default. Which means your program may compile successfully and crash with:

SIGILL: illegal instruction

This flag encourages program authors to fix the undefined behavior. There are many ways to find the undefined behavior.

Known Issues In hermetic_cc_toolchain

These are the things you may stumble into when using hermetic_cc_toolchain. I am unlikely to implement them any time soon, but patches implementing those will be accepted. See Questions & Contributions on how to contribute.

Zig cache location

Currently zig cache is in $HOME, so bazel clean --expunge does not clear the zig cache. Zig's cache should be stored somewhere in the project's path.

zig cc concurrency

  • Bazel spawns up to nproc workers.
  • For each of those, Go may spawn up to nproc processes while compiling.
  • Zig may do the same.

... causing explosion of heavy compiler processes. This causes CPU to spike. Tracked in ziglang/zig #12101 RFC: -j/--jobs for zig subcommands.

OSX: sysroot

For non-trivial programs (and for all darwin/arm64 cgo programs) MacOS SDK may be necessary. Read Jakub's comment about it. Support for OSX sysroot is currently not implemented.

OSX: different OS targets (Catalina -- Monterey)

Zig 0.9.0 may target macos.10 (Catalina), macos.11 (Big Sur) or macos.12 (Monterey). It currently targets the lowest version, without ability to change it.

Known Issues In Upstream

This section lists issues that I've stumbled into when using zig cc, and is outside of hermetic_cc_toolchain's control.

using glibc 2.27 or older

Severity: Medium

Task: ziglang/zig #9485 glibc 2.27 or older: fcntl64 not found, but zig's glibc headers refer it

Background: when glibc 2.27 or older is selected, it may miss fcntl64. A workaround is applied for x86_64, but not for aarch64. The same workaround may apply to aarch64, but the author didn't find a need to test it (yet).

In September 2022 the severity has been bumped to Medium, because glibc header updates cause a lot of churn when upgrading the SDK, when it shouldn't cause any at all.

Feel free to track Universal headers project for a fix.

Number of libc stubs with Go 1.20+

Until Go 1.19 the number of glibc stubs that needed to be compiled was strictly controlled. Go 1.20 no longer ships with pre-compiled archive files for the standard library, and it generates them on the fly, causing many extraneous libc stubs. Therefore, the initial compilation will take longer until those stubs are pre-cached.

Closed Upstream Issues

... and more.

Host Environments

This repository is used on the following (host) platforms:

  • linux_amd64, a.k.a. x86_64.
  • linux_arm64, a.k.a. AArch64.
  • darwin_amd64, the 64-bit post-PowerPC models.
  • darwin_arm64, the M1.
  • windows_amd64, a.k.a. x64.

The tests are running (CId) on linux-amd64.

Transient docker environment

A standalone Docker environment to play with hermetic_cc_toolchain:

$ docker run -e CC=/usr/bin/false -ti --rm -v "$PWD:/x" -w /x debian:bullseye-slim
# apt update && apt install --no-install-recommends -y shellcheck ca-certificates python3
# ./ci/lint
# ./ci/launcher
# ./ci/test

Communication

We maintain two channels for comms:

  • Github issues and pull requests.
  • Slack: #zig in bazel.slack.com.

Maintainers

This section lists the driving forces behind hermetic_cc_toolchain. Committers have push access, maintainers have their areas. Should make it easier to understand our interests when reading patches or mailing lists.

  • Maintainers: Motiejus Jakštys, Laurynas Lubys, Zhongpeng Lin and Sung Yoon Whang.
  • Committer for Windows: Fabian Hahn. If you make a change that breaks Windows, Fabian will find you. Please don't break Windows, so Fabian doesn't have to look for you. Instead, send him your patches first.

You may find contact information of the individuals in the commit logs.

Publicity

This section lists notable uses or mentions of bazel-zig-cc (before the rename) and afterwards of the hermetic_cc_toolchain.


  1. a mathematical subset: both can be equal. ↩︎