Don't use std::filesystem APIs for CWDGuard, use POSIX functions
instead. This way the tests don't rely on the correctness of
the functionality they're testing.
Differential Revision: https://reviews.llvm.org/D78200
Summary:
Instead of storing `static_test_env` (with all the symlinks) in the repo, we create it on the fly to be cross-toolchain-friendly. The primary use case for this are Windows-hosted cross-toolchains. Windows doesn't really have a concept of symlinks. So, when the monorepo is cloned, those symlinks turn to ordinary text files. Previously, if we cross-compiled libc++ for some symlink-friendly system (e. g. Linux) and ran tests on the target system, some tests would fail. This patch makes them pass.
Reviewers: ldionne, #libc
Reviewed By: ldionne, #libc
Subscribers: EricWF, dexonsmith, libcxx-commits
Tags: #libc
Differential Revision: https://reviews.llvm.org/D78200
Instead of storing static_test_env (with all the symlinks) in the repo,
we create it on the fly to be cross-toolchain-friendly. The primary
use case for this are Windows-hosted cross-toolchains. Windows doesn't
really have a concept of symlinks. So, when the monorepo is cloned,
those symlinks turn to ordinary text files. Previously, if we
cross-compiled libc++ for some symlink-friendly system (e. g. Linux) and
ran tests on the target system, some tests would fail. This patch makes
them pass.
Differential Revision: https://reviews.llvm.org/D78200
Instead of hardcoding absolute paths on the build-host in the executables,
use relative paths from the current working directory. Also, use
FILE_DEPENDENCIES to mark the static test env as being required by
the relevant tests.
Given a SSH executor that copies the files to the remote host properly,
the tests can be run on that remote host.
This patch reimplements the dynamic filesystem helper using Posix
functionality instead of relying on Python. The primary reason for
doing this is that it allows running the libc++ test suite on devices
that do not have Python.
Differential Revision: https://reviews.llvm.org/D77140
Based on the current discussion in https://llvm.org/PR45307, it seems
that it's legitimate for `temp_directory_path()` to return a path with
a trailing slash. Since `p.parent_path()` will never contain a trailing
slash, comparing it to the result of `temp_directory_path()` will fail
depending on whether `temp_directory_path()` returns a trailing slash
or not.
Otherwise, trying to reproduce a failing filesystem test by copy-pasting
the command-line used and running that in the shell won't work, because
the shell will eat quoting around the define and we'll end up with a
non-stringized path in the .cpp file.
Previously, filesystem tests would require LIBCXX_FILESYSTEM_DYNAMIC_TEST_ROOT
to be present in the environment and to match the value provided when
compiling, as a macro. This has the problem that it only allows for the
filesystem tests to be run on the same machine they are created.
Instead, we create a temporary directory for each test. Technically,
this is tricky to do because we're relying on some of the code that
we're testing to do this. However, there's no other portable way of
creating temporary direcories in C++, so this is difficult to avoid.
Differential Revision: https://reviews.llvm.org/D76731
Sergej Jaskiewicz