This is a partial revert of b4537c3f51
based on the discussion in https://reviews.llvm.org/D101194. Rather
than using the getMultiarchTriple, we use the getTripleString.
Different platforms use different rules for multiarch triples so
it's difficult to provide a single method for all platforms. We
instead move the getMultiarchTriple to the ToolChain class and let
individual platforms override it and provide their custom logic.
Differential Revision: https://reviews.llvm.org/D101194
Since we have a tool to detect cycles now; and since we're entering
a phase where people can easily introduce cycles by accident (D100682)
or by request (D90999), I think it's increasingly important to shift
the burden of detecting these cycles onto the buildbot instead of
the poor human reviewer.
Also, grep for non-ASCII characters (such as U+200B and U+00AD)
and hard tabs; don't let those get checked in.
Differential Review: https://reviews.llvm.org/D100703
This adds a CI job validating that the output of
utils/generate_feature_test_macro_components.py,
libcxx/utils/generate_header_inclusion_tests.py, and
utils/generate_header_tests.py are up to date.
The validation method has been copied from the Format job.
Differential Revision: https://reviews.llvm.org/D99862
Prior to this patch, we would generate a fancy <__config> header by
concatenating <__config_site> and <__config>. This complexifies the
build system and also increases the difference between what's tested
and what's actually installed.
This patch removes that complexity and instead simply installs <__config_site>
alongside the libc++ headers. <__config_site> is then included by <__config>,
which is much simpler. Doing this also opens the door to having different
<__config_site> headers depending on the target, which was impossible before.
It does change the workflow for testing header-only changes to libc++.
Previously, we would run `lit` against the headers in libcxx/include.
After this patch, we run it against a fake installation root of the
headers (containing a proper <__config_site> header). This makes use
closer to testing what we actually install, which is good, however it
does mean that we have to update that root before testing header changes.
Thus, we now need to run `ninja check-cxx-deps` before running `lit` by
hand.
Differential Revision: https://reviews.llvm.org/D97572
Download older roots from Dropbox instead of Green Dragon, which is too
unreliable. Also XFAIL tests that were broken for back-deployment
configurations by D98097.
Differential Revision: https://reviews.llvm.org/D99359
Instead of setting mcpu like the previous bots,
set the target triple.
Each config builds either Arm only or Thumb only
code. This gives us some coverage of thumb specific
issues.
The new agents on Linaro's side are running on v8 hardware
so will report arch "armv8l" just like the v8 bots.
(and buildkite can choose any of them for v7/v8 jobs)
Reviewed By: #libc, curdeius, Mordante
Differential Revision: https://reviews.llvm.org/D98019
Apple back-deployment testing is currently failing because Green Dragon
is down. To avoid stalling the whole CI pipeline because of that, I am
temporarily disabling those jobs until Green Dragon is back, or even
better we have found a different way to store those small artifacts.
Several contributors have been asking me how to reproduce the CI
environment locally. This is the last step towards making that work
out-of-the-box. Basically, just run `libcxx/utils/ci/run-buildbot-container`
and you're good to go.
Differential Revision: https://reviews.llvm.org/D97782
Before this patch, we could only link against the back-deployment libc++abi
dylib. This patch allows linking against the just-built libc++abi, but
running against the back-deployment one -- just like we do for libc++.
Also, add XFAIL markup to flag expected errors.
Differential Revision: https://reviews.llvm.org/D91069
Xcode does bundle Ninja, so we can use that Ninja if there's no system-wide
Ninja installed. This is useful on some CI bots we have that don't come
with Ninja pre-installed.
This fixes building libunwind with a new enough version of cmake.
(libunwind treats its asm sources as C depending on the cmake version
on some platforms; this fixes builds when such workarounds aren't used,
when cmake treats asm correctly on its own.)
Differential Revision: https://reviews.llvm.org/D97399
Note: contrary to what I said previously, I didn't change .clang-format nor utils/generate_feature_test_macro_components.py script.
Reviewed By: ldionne, #libc
Differential Revision: https://reviews.llvm.org/D92229
This will allow running back-deployment testing on macOS only on systems
running the right version of macOS. For the time being, we're cheating
because we don't have actual machines running older than 10.15.
Previously, LIBCXX_ENABLE_FILESYSTEM controlled only whether the filesystem
support was compiled into libc++'s library. This commit promotes the
setting to a first-class option like LIBCXX_ENABLE_LOCALIZATION, where
the whole library is aware of the setting and features that depend on
<filesystem> won't be provided at all. The test suite is also properly
annotated such that tests that depend on <filesystem> are disabled when
the library doesn't support it.
This is an alternative to https://llvm.org/D94824, but also an improvement
along the lines of LIBCXX_ENABLE_LOCALIZATION that I had been wanting to
make for a while.
Differential Revision: https://reviews.llvm.org/D94921
cmake_minimum_required(VERSION) calls cmake_policy(VERSION),
which sets all policies up to VERSION to NEW.
LLVM started requiring CMake 3.13 last year, so we can remove
a bunch of code setting policies prior to 3.13 to NEW as it
no longer has any effect.
Reviewed By: phosek, #libunwind, #libc, #libc_abi, ldionne
Differential Revision: https://reviews.llvm.org/D94374
* The only exception is that the flag -std=c++2a is still used not to break compatibility with older compilers (clang <= 9, gcc <= 9).
* Bump _LIBCPP_STD_VER for C++20 to 20 and use 21 for the future standard (C++2b).
That's a preparation step to add c++2b support to libc++.
Reviewed By: ldionne, #libc
Differential Revision: https://reviews.llvm.org/D93383
Installing clang-format-11 doesn't seem to work if it's done before
we've installed LLVM. I must admit I didn't try to get to the bottom
of the issue, since installing it after seems to work.
Two problems fixed:
* an old version of clang-format get installed by default (6.0).
* git-clang-format is not present, only git-clang-format-<version> (e.g. git-clang-format-6.0).
Solution:
* install clang-format-11 with explicit version
* make symlink git-clang-format to the latest version of git-clang-format-<version>
Differential Revision: https://reviews.llvm.org/D93201
The goal was to add coverage for back-deployment over the filesystem
library, but it was added in macOS 10.15, not 10.14.
Differential Revision: https://reviews.llvm.org/D92937
It adds coverage for back-deploying to a system that contains the
filesystem library, which 10.9 (currently our only back-deployment
target in the CI) does not have.
Differential Revision: https://reviews.llvm.org/D92794
By encoding ABI-affecting properties in the name of the ABI list, it
makes it clear when an ABI list test should or should not be available,
and what results we should expect.
Note that we clearly don't encode all ABI-affecting parameters in the
name right now -- I just ported over what we supported in the code that
was there previously. As we encounter configurations that we wish to
support but produce different ABI lists, we can add those to the ABI
identifier and start supporting them.
This commit also starts checking the ABI list in the CI jobs that run
a supported configuration. Eventually, all configurations should have
a generated ABI list and the test should even run implicitly as part of
the Lit test suite.
Differential Revision: https://reviews.llvm.org/D92194
Summary:
Before this patch, we could only link against the back-deployment libc++abi
dylib. This patch allows linking against the just-built libc++abi, but
running against the back-deployment one -- just like we do for libc++.
Also, add XFAIL markup to flag expected errors.
The current way we test this is pretty cheap, i.e. we download previously
released macOS dylibs and run against that. Ideally, we would require a
full host running the appropriate version of macOS, and we'd execute the
tests using SSH on that host. But since we don't have such hosts available
easily for now, this is better than nothing.
At the same time, also fix some tests that were failing when back
deploying.
Differential Revision: https://reviews.llvm.org/D90869
Remove Phabricator, which isn't needed anymore since we don't report
the job results ourselves. Also, install python3-sphinx instead of
sphinx-doc, since the latter doesn't provide the sphinx-build binary.
When porting libc++ to embedded systems, it can be useful to drop support
for localization, which these systems don't implement or care about.
Differential Revision: https://reviews.llvm.org/D90072
Now libc++ pipeline will be triggered from the "premerge-checks" and the
combined result are going to be returned to Harbormaster.
Reviewed-by: ldionne
Differential Revision: https://reviews.llvm.org/D89113
Define all the fuzzing tests in libcxx/test/libcxx/fuzzing, and get
rid of the ad-hoc libcxx/fuzzing directory, which wasn't properly
integrated with the build system or test suite.
As a fly-by change, this also reduces the dependencies of fuzzing tests
on large library components like <iostream>, to make them work on more
platforms.
Some platforms, like several embedded platforms, do not provide a source
of randomness through a random device. This commit makes it possible to
build and test libc++ for such platforms, i.e. without std::random_device.
Surprisingly, the only functionality that doesn't work on such platforms
is std::random_device itself -- everything else in <random> still works,
one just has to find alternative ways to seed the PRNGs.
Some libc++ builds may want to disable support for the debug mode,
for example to reduce code size or because the current implementation
of the debug mode requires a global map. This commit adds the
LIBCXX_ENABLE_DEBUG_MODE CMake option and ties it into the test
suite.
It also adds a CI job to test this configuration going forward.
Differential Revision: https://reviews.llvm.org/D88923
The CONDUIT_TOKEN is already taken from the environment. Also, disable
reporting back to Phabricator for now until we're ready to start spamming
the results back. This still needs a bit of testing.
This commit adds basic files and scripts that are used for the Buildkite
pre-commit CI setup. This was tested to mostly work on a fork of llvm-project,
however some adjustments will have to be made as we complete the real
setup.
The needs of back-deployment testing currently require two different
ways of running the test suite: one based on the deployment target,
and one based on the target triple. Since the triple includes all the
information we need, it's better to have just one way of doing things.
Furthermore, `--param platform=XXX` is also supersedded by using the
target triple. Previously, this parameter would serve the purpose of
controling XFAILs for availability markup errors, however it is possible
to achieve the same thing by using with_system_cxx_lib only and using
.verify.cpp tests instead, as explained in the documentation changes.
The motivation for this change is twofold:
1. This part of the Lit config has always been really confusing and
complicated, and it has been a source of bugs in the past. I have
simplified it iteratively in the past, but the complexity is still
there.
2. The deployment-target detection started failing in weird ways in
recent Clangs, breaking our CI. Instead of band-aid patching the
issue, I decided to remove the complexity altogether by using target
triples even on Apple platforms.
A follow-up to this commit will bring the test suite in line with
the recommended way of handling availability markup tests.
Since we're using an empty top-level CMakeLists.txt instead of the CMakeLists.txt
inside llvm/, we don't need to specify LLVM_INCLUDE_BENCHMARKS anymore.
Instead of linking the tests against a library in some version of the
SDK, always link against the latest library, but still run against the
specified back-deployment target dylib.
This makes more sense since what we're really trying to test is that
the current library can be used to produce binaries that run on some
deployment target -- not that linking against the library in some
previous SDK makes that possible.
This solves an additional issue that when linking against a system dylib,
the -rpath argument given to the tests is ignored because the install_name
of the system library we link against is absolute.
rdar://63241847
This is already handled by setting cxx_runtime_root instead -- I don't
see a reason to have two ways of setting the runtime path of the library
we're running against.
Otherwise, specifying (for example) the libc++.dylib from macos10.13
but the libc++abi.dylib from macos10.12 would end up adding library
paths for both the 10.12 and 10.13 dylibs, which would each contain
a copy of both libc++abi.dylib and libc++.dylib. By using a separate
directory for libc++.dylib and libc++abi.dylib, those do not conflict
anymore.
The back-deployment roots were updated to match this change.
Instead of using the libc++ headers provided alongside the toolchain,
use those in the sibling libcxx directory that we know is checked out.
Before the days of the monorepo, we couldn't assume that the libc++
repository was present when building libcxxabi. Since we can now make
that assumption, it's always better to use the version of libc++ that
is in lockstep with libc++abi, to avoid subtle bugs.
We used to do it against the current system's libc++abi, which is not as
good as doing it with the libc++abi that matches the libc++ we're running
against.
Note that I made sure we were indeed picking up the provided libc++abi
by replacing it by something that doesn't work and watching it burn.
llvm-svn: 358294
Summary:
This patch treats <filesystem> as a first-class citizen of the dylib,
like all other sub-libraries (e.g. <chrono>). As such, it also removes
all special handling for installing the filesystem library separately
or disabling part of the test suite from the lit command line.
Unlike the previous attempt (r356500), this doesn't remove all the
filesystem tests.
Reviewers: mclow.lists, EricWF, serge-sans-paille
Subscribers: mgorny, christof, jkorous, dexonsmith, jfb, jdoerfert, libcxx-commits
Differential Revision: https://reviews.llvm.org/D59152
llvm-svn: 356518
When I applied r356500 (https://reviews.llvm.org/D59152), I somehow
deleted all of filesystem's tests. I will revert r356500 and re-apply
it properly.
llvm-svn: 356505
Summary:
This patch treats <filesystem> as a first-class citizen of the dylib,
like all other sub-libraries (e.g. <chrono>). As such, it also removes
all special handling for installing the filesystem library separately
or disabling part of the test suite from the lit command line.
Reviewers: mclow.lists, EricWF, serge-sans-paille
Subscribers: mgorny, christof, jkorous, dexonsmith, jfb, jdoerfert, libcxx-commits
Differential Revision: https://reviews.llvm.org/D59152
llvm-svn: 356500
This script can be used by CI systems to test things like availability
markup and binary compatibility on older MacOS versions. This is still
a bit rough on the edges, for example we don't test libc++abi yet.
llvm-svn: 350752
Petr Hosek