Android Clang/LLVM Toolchain
For the latest version of this doc, please make sure to visit: Android Clang/LLVM Toolchain Readme Doc
You can also visit the Android Clang/LLVM Prebuilts Readme Doc for more information about our prebuilt toolchains (and what versions they are based upon).
Build Instructions
$ mkdir llvm-toolchain && cd llvm-toolchain
$ repo init -u https://android.googlesource.com/platform/manifest -b llvm-toolchain
$ repo sync -c
$ python toolchain/llvm_android/build.py
The built toolchain will be installed to out/install/$HOST/clang-dev
.
MLGO
The Android LLVM team has an internal docker image with dependencies required to build LLVM with MLGO. External users can create a docker image with this configuration from scratch:
# Googlers
$ toolchain/llvm_android/docker/prod_env.sh
# Other users
$ toolchain/llvm_android/docker/test_env.sh
# Build toolchain with mlgo
$ toolchain/llvm_android/build.py --mlgo
Use
--no-mlgo
option to build without MLGO. Building Android with this toolchain will fail withRequested regalloc eviction advisor analysis could not be created.
. Usem THINLTO_USE_MLGO=false
to bypass this error.
Convenience Options
Some common options to build.py
. Use build.py --help
for an updated list
of convenience options:
- --no-build windows
skips building clang for Windows (relevant when building
on Linux).
- --skip-tests
skips running tests in the LLVM projects.
- --lto
to build with ThinLTO. LTO is enabled in official Android Clang/LLVM
prebuilts but the flag is off by default. This option only affects the second
stage Clang toolchain and not the on-device targets (compiler-rt, lldb-server etc).
- --no-mlgo
to disable MLGO support (see MLGO).
If you have an additional llvm tree built and present in your $PATH
, then
build.py
might fail during the Windows build of libcxxabi with the error
'libstdc++ version must be at least 4.8.'
. The solution is to remove that
path from your $PATH
before invoking build.py
.
Instructions to rebuild a particular toolchain release
To rebuild a particular toolchain, find the manifest file for that release:
$ $TOOLCHAIN_DIR/bin/clang -v
Android (6317467 based on r365631c1) clang version 9.0.8...
The build number for that toolchain is 6317467
and the manifest is found in
$TOOLCHAIN_DIR/manifest_6317467.xml
Rebuild the toolchain with that manifest:
$ mkdir llvm-toolchain && cd llvm-toolchain
$ repo init -u https://android.googlesource.com/platform/manifest -b llvm-toolchain
$ cp $TOOLCHAIN_DIR/manifest_6317467.xml .repo/manifests
$ repo init -m manifest_6317467.xml
$ repo sync -c
# Optional: Apply any LLVM/Clang modifications to toolchain/llvm-project
$ python toolchain/llvm_android/build.py
Compiler Update Steps
This section is out-of-date. The source of truth is moved to http://go/android-llvm-update-process
Step 1: Update source code
- Download source code.
We can use either llvm-toolchain or master-plus-llvm branch. master-plus-llvm branch is a combination of llvm-toolchain and aosp-master, which can test building platform and create the build switch CL in the same tree. llvm-toolchain is more suitable when trying to reproduce a toolchain from a different release.
$ mkdir master-plus-llvm && cd master-plus-llvm
$ repo init -u https://android.googlesource.com/platform/manifest -b master-plus-llvm
$ repo sync -c
- Update toolchain/llvm-project.
# replace r407598 with the update version
$ export NEW_REVISION=r407598
$ cd toolchain/llvm_android
$ ./merge_from_upstream.py --rev $NEW_REVISION
- Update build version.
In android_version.py: _patch_level = '1' _svn_revision = $NEW_REVISION
- Test build.
$ ./build.py
- Submit CLs in toolchain/llvm_android and toolchain/llvm-project together.
Examples are in aosp/1515350 and aosp/1515697.
Step 2. Update profdata
It is to speed up compile time for the new compiler. The profdata is generated in go/ab/aosp-master-plus-llvm, target Clang-PGO.
An example is in aosp/1513058.
Step 3: Cherry pick patches
Use cherrypick_cl.py to cherry pick upstream patches:
$ ./cherrypick_cl.py --sha <upstream_patch1_sha> <upstream_patch2_sha> ... --verify-merge --create-cl
We want to find all patches before $NEW_REVISION but reverted after $NEW_REVISION in upstream. Search "revert-checker/android" emails to find candidates, and cherry pick them.
We may revert upstream patches locally or add local patches. Put patch files in patches/, and add patch info at the end of patches/PATCHES.json.
An example is in aosp/1556717.
Step 4: Generate prebuilts
Clang prebuilts are generated in go/ab/aosp-llvm-toolchain. Use update-prebuilts.py to download them.
$ ./update-prebuilts.py <build_number from aosp-llvm-toolchain>
Then upload clang prebuilts in prebuilts/clang/host/linux-x86, prebuilts/clang/host/darwin-x86, and prebuilts/clang/host/windows-x86 for testing.
An example is in aosp/1532505.
Step 5: Test prebuilts
- Upload switch CL in build/soong.
In build/soong/cc/config/global.go:
ClangDefaultVersion = "clang-$NEW_VERSION"
ClangDefaultShortVersion = "
If ther are new compiler warnings we need to suppress, add them at the end of ClangExtraNoOverrideCflags in build/soong/cc/config/clang.go.
If there are new sanitizer flags we need to suppress, add them in build/soong/cc/sanitize.go.
An example is in aosp/1541244.
-
Put clang linux-x86 prebuilt CL and soong CL in the same topic. Run presubmit check.
-
Cherry pick the prebuilt and soong CLs to internal main, and run presubmit check. Some tests (like bionic fortify tests) only run there.
-
Use toolchain/llvm_android/test/scripts/test_prebuilts.py.
$ test/scripts/test_prebuilts.py --prebuilt_cl <linux-x86 cl no> --soong_cl <soong cl no> \
--tag "test_clang_${NEW_VERSION}_v1" --test_kind platform --build <build_number of prebuilts> \
--verbose
The test results are shown in go/forrest.
After all tests complete. Run test/scripts/update_results.py
to upload results to
go/android-llvm-testing-dashboard.
Some device_boot_health_check tests are flaky. So it is unlikely to get fully green results.
- Manually test on linux.
Below tests have been affected by compiler updates. It's better to test them manually on all architectures (arm, arm64, x86, x86_64). bionic_unit_tests or CtsBionicTestCases CtsNNAPITestCases CtsMediaV2TestCases
- Manually test on windows.
Run on wine using test/platform/run_windows_tests.sh.
- Manually test on darwin.
We used to build platform on darwin. But probably we will change to only build and run selected tests.
Step 6: Submit prebuilts
Currently we submit prebuilts before the soong CL. This usually needs the soong CL to wait for at least six hours to pass presubmit check. Maybe we can submit them together if that is supported by RBE.
Step 7: Switch to the new compiler
All places need to switch to the new compiler are listed in https://android.googlesource.com/platform/prebuilts/clang/host/linux-x86/+/main/README.md.
The updates in the kernel and NDK are done separately.
After switching, we also need to update the doc.
More Information
We have a public mailing list that you can subscribe to: android-llvm@googlegroups.com