Provides hermetic Bazel C/C toolchains from ARM.
To incorporate bazel_arm_toolchains
toolchains into your project, copy the following into your
WORKSPACE
file.
load("@bazel_tools//tools/build_defs/repo:http.bzl", "http_archive")
http_archive(
name = "bazel_arm_toolchains",
# See release page for latest version url and sha.
)
load("@bazel_arm_toolchains//toolchains:toolchains.bzl", "all_toolchain_deps")
all_toolchain_deps()
This will bring all of the available toolchains (and their associated
platform
definitions) into your project. The toolchains will
only be downloaded when actually utilized, but if you prefer, you can only import a specific
toolchain:
load("@bazel_arm_toolchains//toolchains:toolchains.bzl", "toolchain_deps")
toolchain_deps(
host_arch = "x86_64",
host_os = "linux",
target = "arm-none-eabi",
version = "12.3.rel1",
)
host_arch
, host_os
, target
, and version
should match the naming convention of the
ARM pre-built toolchains.
NOTE: The linux
host OS is omitted from the ARM toolchain name.
Currently bazel_arm_toolchains
provides the following toolchains:
Host Architecture | Host OS | Target | Version |
---|---|---|---|
x86_64 |
linux |
arm-none-eabi |
12.3.rel1 |
and the following CPUs:
CPU |
---|
cortex-m0 |
cortex-m0plus |
cortex-m1 |
cortex-m3 |
cortex-m4 |
cortex-m7 |
cortex-m7 nofp.dp |
cortex-a8 |
cortex-a9 |
Available options match the -mpu=
GCC flags.
These lists are easily expanded. If a toolchain or CPU of interest isn't available feel free to
submit and issue, or alternatively take a look
at _AVAILABLE_TOOLCHAINS
in setup_toolchains.py
and create a pull
request. Don't forget to actually run setup_toolchains.py
after adding a toolchain and before
submitting a PR:
bazel run //:setup_toolchains
bazel_arm_toolchains
defines a different platform
for each
toolchain, CPU combo:
native.platform(
name = {cpu}-{target_os}-{version},
constraint_values = [
"//platforms/cpu:{cpu}",
"@platforms//os:{target_os}",
"//platforms/toolchain_version:{version}",
],
visibility = ["//visibility:public"],
)
To see all available platforms run:
bazel query @bazel_arm_toolchains//platforms:*
In order to enable toolchain selection via platforms, Bazel requires a special flag along with the target platform:
bazel build --incompatible_enable_cc_toolchain_resolution --platforms=@bazel_arm_toolchains//platforms:{cpu}-{target_os}-{version} //...
The host architecture and OS will be derived automatically and the correct toolchain used.
The ergonomics can be improved by placing the flags in a
.bazelrc
file:
build --incompatible_enable_cc_toolchain_resolution
build --platforms=@bazel_arm_toolchains//platforms:{cpu}-{target_os}-{version}
Then a simple bazel build //...
will utilize the desired toolchain.
Direct access to the various tools (gdb
, objdump
, readelf
, etc.) can be achieved through the
various wrapper targets in toolchains/tool_wrappers
. For example:
bazel run @bazel_arm_toolchains//toolchains/tool_wrappers/x86_64/linux/arm-none-eabi/12.3.rel1:readelf
Creating alias targets in your project may aid ergonomics:
alias(
name = "objdump",
actual = "@bazel_arm_toolchains//toolchains/tool_wrappers/x86_64/linux/arm-none-eabi/12.3.rel1:objdump",
)
These tools can also be utilized indirectly via genrules:
genrule(
name = "objdump_output",
srcs = [":binary"],
outs = ["objdump_output.txt"],
cmd = "$(location :objdump) -x $< > $@",
tools = [":objdump"],
)