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
This will enable layering multilibs on top of each other.
For example a multilib containing only a no-exceptions libc++ could be
layered on top of a multilib containing C libs. This avoids the need
to duplicate the C library for every libc++ variant.
This change doesn't expose the functionality externally, it only opens
the functionality up to be potentially used by ToolChain classes.
Differential Revision: https://reviews.llvm.org/D143059
Decouple the interface of the MultilibBuilder flag method from how flags
are stored internally. Likewise change the addMultilibFlag function.
Currently a multilib flag like "-fexceptions" means a multilib is
*incompatible* with the -fexceptions command line option, which is
counter-intuitive. This change is a step towards changing this scheme.
Differential Revision: https://reviews.llvm.org/D151437
All officially supported linkers should support response files and
this avoids issues when compiling on platforms such as Windows.
Differential Revision: https://reviews.llvm.org/D148763
The new algorithm is:
1. Find all multilibs with flags that are a subset of the requested
flags.
2. If more than one multilib matches, choose the last.
In addition a new selection mechanism is permitted via an overload of
MultilibSet::select() for which multiple multilibs are returned.
This allows layering multilibs on top of each other.
Since multilibs are now ordered within a list, they no longer need a
Priority field.
The new algorithm is different to the old algorithm, but in practise
the old algorithm was always used in such a way that the effect is the
same.
The old algorithm was to find the set intersection of the requested
flags (with the first character of each removed) with each multilib's
flags (ditto), and for that intersection check whether the first
character matched. However, ignoring the first characters, the
requested flags were always a superset of all the multilibs flags.
Therefore the new algorithm can be used as a drop-in replacement.
The exception is Fuchsia, which needs adjusting slightly to set both
fexceptions and fno-exceptions flags.
Differential Revision: https://reviews.llvm.org/D142905
The functionality in MultilibSet for creating it is tied to its current
implementation. Putting that code in a separate class is an enabler for
changing the MultilibSet implementation.
Differential Revision: https://reviews.llvm.org/D142893
This is a follow-up to 53c98d85a, which made the same change but only
for GNU. It seems that we should try to provide a consistent behavior
across all targets.
This fixes an issue where clang/test/Driver/nostdincxx.cpp would start
failing on non-GNU targets because that test was too loose in its checks.
It would only check that 'file not found' was part of the error message,
but didn't ensure that the file we had not found was <vector>.
Differential Revision: https://reviews.llvm.org/D138062
Clang already generates code that doesn't use writeable data in executable
sections so the linker flag is all that is necessary.
-Wl,--no-execute-only can be used to turn this default off.
Differential Revision: https://reviews.llvm.org/D134289
Based on the discussion at [1], this patch adds a Clang flag called
-fexperimental-library that controls whether experimental library
features are provided in libc++. In essence, it links against the
experimental static archive provided by libc++ and defines a feature
that can be picked up by libc++ to enable experimental features.
This ensures that users don't start depending on experimental
(and hence unstable) features unknowingly.
[1]: https://discourse.llvm.org/t/rfc-a-compiler-flag-to-enable-experimental-unstable-language-and-library-features
Differential Revision: https://reviews.llvm.org/D121141
No behavior change as GNU ld/gold/ld.lld ignore --dynamic-linker in -r mode.
This change makes the intention clearer as we already suppress --dynamic-linker
for -shared, -static, and -static-pie.
Reviewed by: MaskRay, phosek
Differential Revision: https://reviews.llvm.org/D129714
When targeting cortex-a53, set this linker flag rather than relying
on the toolchain users to do it in their build.
Differential Revision: https://reviews.llvm.org/D114023
Pass the --compress-debug-sections=zlib argument to the linker when
the use of compressed debug info is requested.
Differential Revision: https://reviews.llvm.org/D114115
Pass the --compress-debug-sections=zlib argument to the linker when
the use of compressed debug info is requested.
Differential Revision: https://reviews.llvm.org/D114115
Pass the --compress-debug-sections=zlib argument to the linker when
the use of compressed debug info is requested.
Differential Revision: https://reviews.llvm.org/D114115
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
The driver uses class SanitizerArgs to store parsed sanitizer arguments. It keeps a cached
SanitizerArgs object in ToolChain and uses it for different jobs. This does not work if
the sanitizer options are different for different jobs, which could happen when an
offloading toolchain translates the options for different jobs.
To fix this, SanitizerArgs should be created by using the actual arguments passed
to jobs instead of the original arguments passed to the driver, since the toolchain
may change the original arguments. And the sanitizer arguments should be diagnose
once.
This patch also fixes HIP toolchain for handling -fgpu-sanitize: a warning is emitted
for GPU's not supporting sanitizer and skipped. This is for backward compatibility
with existing -fsanitize options. -fgpu-sanitize is also turned on by default.
Reviewed by: Artem Belevich, Evgenii Stepanov
Differential Revision: https://reviews.llvm.org/D111443
Fuchsia already supports the more compact relocation format.
Make it the default.
Reviewed By: phosek
Differential Revision: https://reviews.llvm.org/D113136
This reverts commit 03142c5f67788bcc1573f76732d0fccd75c6b965.
Breaks check-asan if system ld doesn't support --push-state, even
if lld was built and is used according to lit's output.
See comments on https://reviews.llvm.org/D110128
When statically linking C++ standard library, we shouldn't add -Bdynamic
after including the library on the link line because that might override
user settings like -static and -static-pie. Rather, we should surround
the library with --push-state/--pop-state to make sure that -Bstatic
only applies to C++ standard library and nothing else. This has been
supported since GNU ld 2.25 (2014) so backwards compatibility should
no longer be a concern.
Differential Revision: https://reviews.llvm.org/D110128
This reverts commit 5e28c892d06f95600f8b6290ad4de38bfe142637 as
the linker on the clang-ppc64le-rhel bot doesn't seem to support
--push-state/--pop-state.
When statically linking C++ standard library, we shouldn't add -Bdynamic
after including the library on the link line because that might override
user settings like -static and -static-pie. Rather, we should surround
the library with --push-state/--pop-state to make sure that -Bstatic
only applies to C++ standard library and nothing else. This has been
supported since GNU ld 2.25 (2014) so backwards compatibility should
no longer be a concern.
Differential Revision: https://reviews.llvm.org/D110128
When none of the translation units in the binary have been instrumented
we shouldn't need to link the profile runtime. However, because we pass
-u__llvm_profile_runtime on Linux and Fuchsia, the runtime would still
be pulled in and incur some overhead. On Fuchsia which uses runtime
counter relocation, it also means that we cannot reference the bias
variable unconditionally.
This change modifies the InstrProfiling pass to pull in the profile
runtime only when needed by declaring the __llvm_profile_runtime symbol
in the translation unit only when needed. For now we restrict this only
for Fuchsia, but this can be later expanded to other platforms. This
approach was already used prior to 9a041a75221ca, but we changed it
to always generate the __llvm_profile_runtime due to a TAPI limitation,
but that limitation may no longer apply, and it certainly doesn't apply
on platforms like Fuchsia.
Differential Revision: https://reviews.llvm.org/D98061
This is mostly a mechanical change, but a testcase that contains
parts of the StringRef class (clang/test/Analysis/llvm-conventions.cpp)
isn't touched.
These are GCC-compatible multilibs that use the generic Itanium C++ ABI
instead of the Fuchsia C++ ABI.
Differential Revision: https://reviews.llvm.org/D102030
When using the per-target runtime build, it may be desirable to have
different __config_site headers for each target where all targets cannot
share a single configuration.
The layout used for libc++ headers after this change is:
```
include/
c++/
v1/
<libc++ headers except for __config_site>
<target1>/
c++/
v1/
__config_site
<target2>/
c++/
v1/
__config_site
<other targets>
```
This is the most optimal layout since it avoids duplication, the only
headers that's per-target is __config_site, all other headers are
shared across targets. This also means that we no need two
-isystem flags: one for the target-agnostic headers and one for
the target specific headers.
Differential Revision: https://reviews.llvm.org/D89013
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.
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
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 helper method is useful even outside of Gnu toolchains, so move
it to ToolChain so it can be reused in other toolchains such as Fuchsia.
Differential Revision: https://reviews.llvm.org/D88452
