Before this patch, open-source clang would consider
`-target x86_64-apple-darwin -mios-simulator-version-min=11.0` as
targeting the iOS simulator, due to the mios flag informing it
that we want to target iOS, and logic in the driver then realizing
that x86 iOS builds must be the simulator.
However, for `-target arm64-apple-darwin -mios-simulator-version-min=11.0`
that didn't work and clang thought that it's building for actual iOS,
and not for the simulator.
Due to this, building compiler-rt for arm64 iossim would lead to
all .o files in RTSanitizerCommonSymbolizer.iossim.dir being built
for iOS instead of for iOS simulator, and clang would ask ld64 to
link for iOS, but using the iPhoneSimulator sysroot. This would then
lead to many warnings from ld64 looking like:
ld: warning: building for iOS, but linking in .tbd file
(.../iPhoneSimulator.sdk/usr/lib/libc++abi.tbd) built for iOS Simulator
Worse, with ld64.lld, this diagnostic is currently an error instead
of a warning.
This patch makes it so that the presence of -mios-simulator-version-min=
now informs clang that we're building for simulator. That way, all the
.o files are built for simulator, the linker is informed that we're
building for simulator, and everything Just Works.
(Xcode's clang already behaves like this, so this makes open-source clang
match Xcode clang.)
We can now likely remove the hack to treat non-mac darwin x86 as
simulator, but doing that feels slightly risky, so I'm leaving that
for a follow-up patch.
(This patch is made necessary by the existence of arm64 macs.)
Differential Revision: https://reviews.llvm.org/D132258
* ld64.lld now completely supports -export_dynamic (D119372), so map -rdynamic
to -export_dynamic like already done for ld64
* ld64.lld has been supporting -object_path_lto for well over a year (D92537),
so pass it like already done for ld64
Differential Revision: https://reviews.llvm.org/D119612
This unifies a couple spots that did it manually by checking the
flag directly.
It does mean that we're now dropping the 5th component, but that's
not used in any of these checks, and to my knowledge it's never been
used in ld64.
This commit adds driver support for the Mac Catalyst target,
as supported by the Apple clang compile
Differential Revision: https://reviews.llvm.org/D105960
This reverts commit 05eeed9691 and after
fixing the impacted lldb tests in 5d1c43f333.
[Driver] Support default libc++ library location on Darwin
Darwin driver currently uses libc++ headers that are part of Clang
toolchain when available (by default ../include/c++/v1 relative to
executable), but it completely ignores the libc++ library itself
because it doesn't pass the location of libc++ library that's part
of Clang (by default ../lib relative to the exceutable) to the linker
always using the system copy of libc++.
This may lead to subtle issues when the compilation fails because the
headers that are part of Clang toolchain are incompatible with the
system library. Either the driver should ignore both headers as well as
the library, or it should always try to use both when available.
This patch changes the driver behavior to do the latter which seems more
reasonable, it makes it easy to test and use custom libc++ build on
Darwin while still allowing the use of system version. This also matches
the Clang driver behavior on other systems.
Differential Revision: https://reviews.llvm.org/D45639
This is another attempt to address the issue introduced in
ae8b2cab67.
We cannot capture InstalledDir because FileCheck doesn't handle
the backslashes correctly, so instead we just consume the entire
path prefix which is what other tests are doing.
Darwin driver currently uses libc++ headers that are part of Clang
toolchain when available (by default ../include/c++/v1 relative to
executable), but it completely ignores the libc++ library itself
because it doesn't pass the location of libc++ library that's part
of Clang (by default ../lib relative to the exceutable) to the linker
always using the system copy of libc++.
This may lead to subtle issues when the compilation fails because the
headers that are part of Clang toolchain are incompatible with the
system library. Either the driver should ignore both headers as well as
the library, or it should always try to use both when available.
This patch changes the driver behavior to do the latter which seems more
reasonable, it makes it easy to test and use custom libc++ build on
Darwin while still allowing the use of system version. This also matches
the Clang driver behavior on other systems.
Differential Revision: https://reviews.llvm.org/D45639
for device simulators
This change separates out the iOS/tvOS/watchOS simulator slices from the "libclang_rt.<os>.a"
fat archive, by moving them out to their own "libclang_rt.<os>sim.a" static archive.
This allows us to build and to link with an arm64 device simulator slice for the simulators running
on Apple Silicons, and to distribute it in one archive alongside the Intel simulator slices.
Differential Revision: https://reviews.llvm.org/D84564
GCC r187297 (2012-05) introduced `__gcov_dump` and `__gcov_reset`.
`__gcov_flush = __gcov_dump + __gcov_reset`
The resolution to https://gcc.gnu.org/PR93623 ("No need to dump gcdas when forking" target GCC 11.0) removed the unuseful and undocumented __gcov_flush.
Close PR38064.
Reviewed By: calixte, serge-sans-paille
Differential Revision: https://reviews.llvm.org/D83149
clang with -flto does not handle -foptimization-record-path=<path>
This dulicates the code from ToolChains/Clang.cpp with modifications to
support everything in the same fashion.
In Xcode 11, ld added a new flag called -platform_version that can be used instead of the old -<platform>_version_min flags.
The new flag allows Clang to pass the SDK version from the driver to the linker.
This patch adopts the new -platform_version flag in Clang, and starts using it by default,
unless a linker version < 520 is passed to the driver.
Differential Revision: https://reviews.llvm.org/D71579
Add support for continuously syncing profile counter updates to a file.
The motivation for this is that programs do not always exit cleanly. On
iOS, for example, programs are usually killed via a signal from the OS.
Running atexit() handlers after catching a signal is unreliable, so some
method for progressively writing out profile data is necessary.
The approach taken here is to mmap() the `__llvm_prf_cnts` section onto
a raw profile. To do this, the linker must page-align the counter and
data sections, and the runtime must ensure that counters are mapped to a
page-aligned offset within a raw profile.
Continuous mode is (for the moment) incompatible with the online merging
mode. This limitation is lifted in https://reviews.llvm.org/D69586.
Continuous mode is also (for the moment) incompatible with value
profiling, as I'm not sure whether there is interest in this and the
implementation may be tricky.
As I have not been able to test extensively on non-Darwin platforms,
only Darwin support is included for the moment. However, continuous mode
may "just work" without modification on Linux and some UNIX-likes. AIUI
the default value for the GNU linker's `--section-alignment` flag is set
to the page size on many systems. This appears to be true for LLD as
well, as its `no_nmagic` option is on by default. Continuous mode will
not "just work" on Fuchsia or Windows, as it's not possible to mmap() a
section on these platforms. There is a proposal to add a layer of
indirection to the profile instrumentation to support these platforms.
rdar://54210980
Differential Revision: https://reviews.llvm.org/D68351
When the %m filename pattern is used, the filename is unique to each
image, so the cached value is wrong.
It struck me that the full filename isn't something that's recomputed
often, so perhaps it doesn't need to be cached at all. David Li pointed
out we can go further and just hide lprofCurFilename. This may regress
workflows that depend on using the set-filename API to change filenames
across all loaded DSOs, but this is expected to be very rare.
rdar://55137071
Differential Revision: https://reviews.llvm.org/D69137
llvm-svn: 375301
Summary:
question-mark is not a BRE special character.
POSIX.1-2017 XBD Section 9.3.2 indicates that the interpretation of `\?`
as used by rC366282 is undefined. This patch uses an ERE instead.
Reviewers: rnk, daltenty, xingxue, jasonliu
Reviewed By: rnk
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D65668
llvm-svn: 367709
Use -fsave-optimization-record=<format> to specify a different format
than the default, which is YAML.
For now, only YAML is supported.
llvm-svn: 363573
Since AArch64 has default outlining behaviour, we need to make sure that
-mno-outline is actually passed along to the linker in this case. Otherwise,
it will run by default on minsize functions even when -mno-outline is specified.
Also fix the darwin-ld test for this, which wasn't actually doing anything.
llvm-svn: 357031
Currently we have -Rpass for filtering the remarks that are displayed as
diagnostics, but when using -fsave-optimization-record, there is no way
to filter the remarks while generating them.
This adds support for filtering remarks by passes using a regex.
Ex: `clang -fsave-optimization-record -foptimization-record-passes=inline`
will only emit the remarks coming from the pass `inline`.
This adds:
* `-fsave-optimization-record` to the driver
* `-opt-record-passes` to cc1
* `-lto-pass-remarks-filter` to the LTOCodeGenerator
* `--opt-remarks-passes` to lld
* `-pass-remarks-filter` to llc, opt, llvm-lto, llvm-lto2
* `-opt-remarks-passes` to gold-plugin
Differential Revision: https://reviews.llvm.org/D59268
Original llvm-svn: 355964
llvm-svn: 355984
Currently we have -Rpass for filtering the remarks that are displayed as
diagnostics, but when using -fsave-optimization-record, there is no way
to filter the remarks while generating them.
This adds support for filtering remarks by passes using a regex.
Ex: `clang -fsave-optimization-record -foptimization-record-passes=inline`
will only emit the remarks coming from the pass `inline`.
This adds:
* `-fsave-optimization-record` to the driver
* `-opt-record-passes` to cc1
* `-lto-pass-remarks-filter` to the LTOCodeGenerator
* `--opt-remarks-passes` to lld
* `-pass-remarks-filter` to llc, opt, llvm-lto, llvm-lto2
* `-opt-remarks-passes` to gold-plugin
Differential Revision: https://reviews.llvm.org/D59268
llvm-svn: 355964
Instead of letting a program fail at runtime, emit an error during
compilation.
rdar://problem/12206955
Reviewers: dexonsmith, bob.wilson, steven_wu
Reviewed By: steven_wu
Subscribers: jkorous, cfe-commits
Differential Revision: https://reviews.llvm.org/D57991
llvm-svn: 354084
Make sure that symbols needed to implement runtime support for gcov are
exported when using an export list on Darwin.
Without the clang driver exporting these symbols, the linker hides them,
resulting in tapi verification failures.
rdar://45944768
Differential Revision: https://reviews.llvm.org/D55151
llvm-svn: 348187
In r339807, I broke linking the builtins libraries for simulator targets, which itself was bad, but turns out it was all completely untested and marked with FIXME in the test suite.
This fixes all the test cases so they actually work, and fixes the bug I introduced in r339807.
llvm-svn: 339829
This moves the LTO-specific code for outlining from ToolChains/Clang.cpp to
ToolChains/Darwin.cpp. Passing -mllvm flags isn't sufficient for making sure
that the specified pass will actually run in LTO. This makes sure that when
-moutline is passed, the MachineOutliner will actually be added to the LTO
pass pipeline as expected.
llvm-svn: 336471
Remove _VPMergeHook from Darwin's automatically-exported symbol list for
PGO. As of r328987 this symbol is no longer weak.
An integration test in compiler-rt will follow.
rdar://41470205
llvm-svn: 335890
When profiling is enabled and -exported_symbols_list is specified for
the Darwin linker, export the requisite set of profiling symbols.
rdar://39427167
llvm-svn: 330077
Apple's API verification tool (tapi) checks that the symbols exported
from a program match a whitelist. When the program uses the profile
runtime, some additional symbols which are typically not part of the
regular whitelist must be exported.
If we're using symbol export directives along with the profile runtime
on Darwin, the driver needs to export the additional symbols to avoid
verification failures.
rdar://problem/30067753
llvm-svn: 315518
While building a project with code coverage enabled, we can link in
dependencies which export a weak definition of __llvm_profile_filename.
After r306710, linking in the profiling runtime could pull in a weak
definition of this symbol from a dependency, instead of from within the
runtime's archive.
This inconsistency causes issues during API verification, and is also a
practical problem (the symbol would go missing were the dependent dylib
to be switched out). Introduce a LinkFirst runtime link option to make
sure we always search the profiling runtime for this symbol first.
rdar://problem/33271080
Differential Revision: https://reviews.llvm.org/D35385
llvm-svn: 313065
This is to match the behavior of non-LTO;
when -fsave-optimization-record is passed and PGO is available we enable
the generation of hotness information in the optimization records.
Differential Revision: https://reviews.llvm.org/D27332
llvm-svn: 288520
The builtin library isn't added by the driver unless it exists, so we shouldn't check for it. I've marked this as a FIXME, because we probably should have a way to test this.
llvm-svn: 263568
Summary: isTarget*() calls are order-dependent. This is because iOS Sim *is* iOS. This means checks for the simulator version of the platform must always be ahead of checks for the embedded platform.
Reviewers: zaks.anna, bogner
Subscribers: cfe-commits
Differential Revision: http://reviews.llvm.org/D17947
llvm-svn: 263567
This patch should add support for almost all command-line options and
driver tinkering necessary to produce a correct "clang -cc1"
invocation for watchOS and tvOS.
llvm-svn: 251706
Usually, when using LTO with a clang installation newer than the
system's one, there's a libLTO.dylib version mismatch and LTO fails. One
solution to this is to make ld point to the right libLTO.dylib by
changing DYLD_LIBRARY_PATH.
However, ld64 supports specifying the complete path to the desired
libLTO.dylib through the -lto_library option. This commit adds support
for the clang driver to use this option whenever it's capable of finding
a libLTO.dylib in clang's installed library directory. This way, we
don't need to rely on DYLD_LIBRARY_PATH nor get caught by version
mismatches.
Differential Revision: http://reviews.llvm.org/D13117
rdar://problem/7363476
llvm-svn: 248932
Summary:
-iframework option is used to specified System framework path so the
path specified should be passed to linker as -F option
rdar://problem/18234544
Reviewers: bob.wilson
Subscribers: cfe-commits
Differential Revision: http://reviews.llvm.org/D7106
llvm-svn: 228413
Nico Weber