This option was added so that changing CMake GCC_INSTALL_PREFIX would
not cause test failures or due to cargo culting. Setting
GCC_INSTALL_PREFIX leads to an error now and we should stop making our
tests ugly.
Android triples include a version number, which makes direct triple
comparisons for per-target runtime directory searching not always work.
Instead, look for the triple with the highest compatible version number
and use that per-target runtime directory instead. This maintains the
existing fallback to a triple without any version number, but I'm hoping
we can remove that in the future. https://discourse.llvm.org/t/62717
discusses this further.
The one remaining triple mismatch after this is that Android armv7
triples usually have an environment of `androideabi`, which Clang
normalizes to `android`. If you use the `androideabi` triple when
building the runtimes with a per-target runtimes dir, the directory will
get created with `androideabi` in its name, but Clang's triple search
uses the normalized triple and will look for an `android` directory
instead. https://reviews.llvm.org/D140925 will fix that by normalizing
triples when creating the per-target runtimes directories as well.
Reviewed By: phosek, pirama
Differential Revision: https://reviews.llvm.org/D158476
Searching for target-specific standard library header and library paths
should perform fallback searches for targets, the same way searching for
the runtime libraries does. It's important for the header and library
searches to be consistent, otherwise we could end up using mismatched
headers and libraries. (See also https://reviews.llvm.org/D146664.)
Reviewed By: phosek
Differential Revision: https://reviews.llvm.org/D159293
https://reviews.llvm.org/D71154 prevented Clang from search for libc++
headers installed alongside the driver when targeting Android. The
motivation was the NDK's use of a different libc++ inline namespace
(`__ndk1` instead of the standard `__1`), which made regular libc++
headers incompatible with the NDK's libc++ library.
Since then, libc++ has gained the ability to install its `__config_site`
header (which controls the inline namespace, among other things) to a
per-target include directory, which enables per-target customizations.
If this directory is present, the user has expressly built libc++ for
Android, and we should use those headers.
The motivation is that, with the current setup, if a user builds their
own libc++ for Android, they'll use the library they built themselves
but the NDK's headers instead of their own, which is surprising at best
and can cause all sorts of problems (e.g. if you built your own libc++
with a different ABI configuration). It's important to match the headers
and libraries in that scenario, and checking for an Android per-target
include directory lets us do so without regressing the original scenario
which https://reviews.llvm.org/D71154 was addressing.
While I'm here, switch to using sys::path::append instead of slashes
directly, to get system path separators on Windows, which is consistent
with how library paths are constructed (and that consistency will be
important in a follow-up, where we use a common search function for the
include and library path construction).
(As an aside, one of the motivations for https://reviews.llvm.org/D71154
was to support targeting both Android and Apple platforms, which
expected libc++ headers to be provided by the toolcain at the time.
Apple has since switched to including libc++ headers in the platform SDK
instead of in the toolchain, so that specific motivation no longer
applies either.)
Reviewed By: phosek
Differential Revision: https://reviews.llvm.org/D159292
Clang searches for runtimes (e.g. libclang_rt*) first in a
subdirectory named for the target triple (corresponding to
LLVM_ENABLE_PER_TARGET_RUNTIME_DIR=ON), then if it's not found uses
.../lib/<os>/libclang_rt* with a suffix corresponding to the arch and
environment name.
Android triples optionally include an API level indicating the minimum
Android version to be run on
(e.g. aarch64-unknown-linux-android21). When compiler-rt is built with
LLVM_ENABLE_PER_TARGET_RUNTIME_DIR=ON this API level is part of the
output path.
Linking code built for a later API level against a runtime built for
an earlier one is safe. In projects with several API level targets
this is desireable to avoid re-building the same runtimes many
times. This is difficult with the current runtime search method: if
the API levels don't exactly match Clang gives up on the per-target
runtime directory path.
To enable this more simply, this change tries target triple without
the API level before falling back on the old layout.
Another option would be to try every API level in the triple,
e.g. check aarch-64-unknown-linux-android21, then ...20, then ...19,
etc.
Differential Revision: https://reviews.llvm.org/D115049
This is a partial revert of b4537c3f51bc6c011ddd9c10b80043ac4ce16a01
based on the discussion in https://reviews.llvm.org/D101194. Rather
than using the getMultiarchTriple, we use the getTripleString.
The new layout more closely matches the layout used by other compilers.
This is only used when LLVM_ENABLE_PER_TARGET_RUNTIME_DIR is enabled.
Differential Revision: https://reviews.llvm.org/D100869
This is a follow up to r361432, changing the layout of per-target
runtimes to more closely resemble multiarch. While before, we used
the following layout:
[RESOURCE_DIR]/<target>/lib/libclang_rt.<runtime>.<ext>
Now we use the following layout:
[RESOURCE_DIR]/lib/<target>/libclang_rt.<runtime>.<ext>
This also more closely resembles the existing "non-per-target" layout:
[RESOURCE_DIR]/lib/<os>/libclang_rt.<runtime>-<arch>.<ext>
This change will enable further simplification of the driver logic
in follow up changes.
Differential Revision: https://reviews.llvm.org/D62469
llvm-svn: 361784
This is a follow up to r361432 and r361504 which addresses issues
introduced by those changes. Specifically, it avoids duplicating
file and runtime paths in case when the effective triple is the
same as the cannonical one. Furthermore, it fixes the broken multilib
setup in the Fuchsia driver and deduplicates some of the code.
Differential Revision: https://reviews.llvm.org/D62442
llvm-svn: 361709
This change is a consequence of the discussion in "RFC: Place libs in
Clang-dedicated directories", specifically the suggestion that
libunwind, libc++abi and libc++ shouldn't be using Clang resource
directory. Tools like clangd make this assumption, but this is
currently not true for the LLVM_ENABLE_PER_TARGET_RUNTIME_DIR build.
This change addresses that by moving the output of these libraries to
lib/$target/c++ and include/c++ directories, leaving resource directory
only for compiler-rt runtimes and Clang builtin headers.
Differential Revision: https://reviews.llvm.org/D59168
llvm-svn: 361432
This change is a consequence of the discussion in "RFC: Place libs in
Clang-dedicated directories", specifically the suggestion that
libunwind, libc++abi and libc++ shouldn't be using Clang resource
directory. Tools like clangd make this assumption, but this is
currently not true for the LLVM_ENABLE_PER_TARGET_RUNTIME_DIR build.
This change addresses that by moving the output of these libraries to
lib/<target> and include/ directories, leaving resource directory only
for compiler-rt runtimes and Clang builtin headers.
Differential Revision: https://reviews.llvm.org/D59013
llvm-svn: 355665
The resource dir path used for the multiarch runtimes support is
constructed in a platform independent way and therefore will use
native path separators on each platform. We need to make sure that
the per target runtime directory test handles both to not fail
when the test is being executed on Windows.
llvm-svn: 335810
This change adds a support for multiarch style runtimes layout, so in
addition to the existing layout where runtimes get installed to:
lib/clang/$version/lib/$os
Clang now allows runtimes to be installed to:
lib/clang/$version/$target/lib
This also includes libc++, libc++abi and libunwind; today those are
assumed to be in Clang library directory built for host, with the
new layout it is possible to install libc++, libc++abi and libunwind
into the runtime directory built for different targets.
The use of new layout is enabled by setting the
LLVM_ENABLE_RUNTIME_TARGET_DIR CMake variable and is supported by both
projects and runtimes layouts. The runtimes CMake build has been further
modified to use the new layout when building runtimes for multiple
targets.
Differential Revision: https://reviews.llvm.org/D45604
llvm-svn: 335809
