Moving `InputInfo.h` from `lib/Driver/` into `include/Driver` to be able to expose it in an API consumed from outside of `clangDriver`.
Reviewed By: dexonsmith
Differential Revision: https://reviews.llvm.org/D106787
Address sanitizer passes may generate call of ASAN bitcode library
functions after bitcode linking in lld, therefore lld cannot add
those symbols since it does not know they will be used later.
To solve this issue, clang emits a reference to a bicode library
function which calls all ASAN functions which need to be
preserved. This basically force all ASAN functions to be
linked in.
Reviewed by: Artem Belevich
Differential Revision: https://reviews.llvm.org/D106315
Otherwise, if someone specifies a valid AMD arch, we may end up triggering an
assertion on unexpected arch later on.
Differential Revision: https://reviews.llvm.org/D105295
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.
Added --gpu-bundle-output to control bundling/unbundling output of HIP device compilation.
By default preprocessor expansion, llvm bitcode and assembly are unbundled, code objects are
bundled.
Reviewed by: Artem Belevich, Jan Svoboda
Differential Revision: https://reviews.llvm.org/D101630
So far, support for x86_64-linux-gnux32 has been handled by explicit
comparisons of Triple.getEnvironment() to GNUX32. This worked as long as
x86_64-linux-gnux32 was the only X32 environment to worry about, but we
now have x86_64-linux-muslx32 as well. To support this, this change adds
an isX32() function and uses it. It replaces all checks for GNUX32 or
MuslX32 by isX32(), except for the following:
- Triple::isGNUEnvironment() and Triple::isMusl() are supposed to treat
GNUX32 and MuslX32 differently.
- computeTargetTriple() needs to be able to transform triples to add or
remove X32 from the environment and needs to map GNU to GNUX32, and
Musl to MuslX32.
- getMultiarchTriple() completely lacks any Musl support and retains the
explicit check for GNUX32 as it can only return x86_64-linux-gnux32.
Reviewed By: MaskRay
Differential Revision: https://reviews.llvm.org/D103777
Prior to this patch when you used `clang -module-file-info` clang would
delete the module on completion because the module was treated as an
output file.
This fixes the issue so you don't need to invoke cc1 directly to get
module file information.
Reviewed By: steven_wu, phosek
Differential Revision: https://reviews.llvm.org/D103547
Add options -[no-]offload-lto and -foffload-lto=[thin,full] for controlling
LTO for offload compilation. Allow LTO for AMDGPU target.
AMDGPU target does not support codegen of object files containing
call of external functions, therefore the LLVM module passed to
AMDGPU backend needs to contain definitions of all the callees.
An LLVM option is added to allow function importer to import
functions with noinline attribute.
HIP toolchain passes proper LLVM options to lld to make sure
function importer imports definitions of all the callees.
Reviewed by: Teresa Johnson, Artem Belevich
Differential Revision: https://reviews.llvm.org/D99683
Instead of ignoring flto=auto and -flto=jobserver, treat them as -flto
and pass -flto=full along.
Differential Revision: https://reviews.llvm.org/D102479
The offload action is used in four different ways as explained
in Driver.cpp:4495. When -c is present, the final phase will be
assemble (linker when -c is not present). However, this phase
is skipped according to D96769 for amdgcn. So, offload action
arrives into following situation,
compile (device) ---> offload ---> offload
without -c the chain looks like,
compile (device) ---> offload ---> linker (device)
---> offload
The former situation creates an unhandled case which causes
problem. The solution presented in this patch delays the D96769
logic until job creation time. This keeps the offload action
in the 1 of the 4 specified situations.
Reviewed By: JonChesterfield
Differential Revision: https://reviews.llvm.org/D101901
This is useful in runtimes build for example which currently try to
guess the correct triple where to place libraries in the multiarch
layout. Using this flag, the build system can get the correct triple
directly by querying Clang.
Differential Revision: https://reviews.llvm.org/D101400
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 contents of the string returned by getenv() is not guaranteed across calls to getenv(). The code to handle the CC_PRINT etc env vars calls getenv() and saves the results in just a char *. The string returned by getenv() needs to be copied and saved. Switching the type of the strings from char * to std::string will do this and manage the alloated memory.
Differential Revision: https://reviews.llvm.org/D98554
This patch adds a new command line option to clang which outputs the directory containing clangs runtime libraries to stdout.
The primary use case for this command line flag is for build systems using clang-cl. Build systems when using clang-cl invoke the linker, that is either link or lld-link in this case, directly instead of invoking the compiler for the linking process as is common with the other drivers. This leads to issues when runtime libraries of clang, such as sanitizers or profiling, have to be linked in as the compiler cannot communicate the link directory to the linker.
Using this flag, build systems would be capable of getting the directory containing all of clang's runtime libraries and add it to the linker path.
Differential Revision: https://reviews.llvm.org/D98868
Remove emit-llvm-bc from addClangTargetOptions as it conflicts with -E for save-temps.
AMDGCN does not yet support linking object files so backend and assemble actions are
skipped, leaving LLVM IR as the output format.
Reviewed By: JonChesterfield, ronlieb
Differential Revision: https://reviews.llvm.org/D96769
Added supporting CC_PRINT_PROC_STAT and CC_PRINT_PROC_STAT_FILE
environment variables to trigger clang driver reporting the process
statistics into specified file (alternate for -fproc-stat-report
option).
Differential Revision: https://reviews.llvm.org/D97094
When writing report file by option -proc-stat-report some part of output
can be written to unlocked file because destructor of raw_fd_ostream
calls `flush()`. In high thread contention environment it can result in
file operation failure. With this change `flush` is called explicitly when
file is locked, so call of `flush()` in the destructor does not cause
write to file.
This patch makes sure that for the following invocation of the new Flang
driver, clangDriver sets the input type to Fortran:
```
flang-new -E -
```
This change does not affect `clang`, i.e. for the following invocation
the input type is set to C:
```
clang -E -
```
This change leverages the fact that for `flang-new` the driver is in
Flang mode.
Differential Revision: https://reviews.llvm.org/D96777
There are two preconditions to reproduce the issue,
1. Use -save-temps option
2. Provide the -o option with name equal to the input file name
without the file extension. For e.g. clang a.c -o a
With the -o specified, the AssembleJobAction after OffloadWrapperJobAction
will produce the object file with same name as host code object file.
Due to this clash, the OffloadWrapperAction overwrites the initial host
object file, which results in lld error. This also fixes the `multiple definition of __dummy.omp_offloading.entry'` issue in D96769 .
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D97273
Add option -fgpu-sanitize to enable sanitizer for AMDGPU target.
Since it is experimental, it is off by default.
Reviewed by: Artem Belevich
Differential Revision: https://reviews.llvm.org/D96835
Drop the `Separate` form of `-fmodule-name X`, `-fprofile-remapping-file X`, and `-frewrite-map-file X`.
To the best of my knowledge they are not used. Their conventional Joined forms (`-fFOO=`) should be used instead.
`-fdebug-compilation-dir X` is used in several places, e.g. chromium/infra/goma.
It is also advertised in http://blog.llvm.org/2019/11/deterministic-builds-with-clang-and-lld.html
So we keep it but make the EQ form canonical and the Separate form an alias.
Differential Revision: https://reviews.llvm.org/D96886
This patch added a distinct CUID for each input file, which is represented by InputAction.
clang initially creates an InputAction for each input file for the host compilation. In CUDA/HIP action
builder, each InputAction is given a CUID and cloned for each GPU arch, and the CUID is also cloned. In this way,
we guarantee the corresponding device and host compilation for the same file shared the
same CUID. On the other hand, different compilation units have different CUID.
-fuse-cuid=random|hash|none is added to control the method to generate CUID. The default
is hash. -cuid=X is also added to specify CUID explicitly, which overrides -fuse-cuid.
Reviewed by: Artem Belevich
Differential Revision: https://reviews.llvm.org/D95007
This patch adds AMDGPUOpenMPToolChain for supporting OpenMP
offloading to AMD GPU's.
Originally authored by Greg Rodgers
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D94961
Add powerpcle support to clang.
For FreeBSD, assume a freestanding environment for now, as we only need it in the first place to build loader, which runs in the OpenFirmware environment instead of the FreeBSD environment.
For Linux, recognize glibc and musl environments to match current usage in Void Linux PPC.
Adjust driver to match current binutils behavior regarding machine naming.
Adjust and expand tests.
Reviewed By: MaskRay
Differential Revision: https://reviews.llvm.org/D93919
There is a use case that users want to emit preprocessor
output as file and compile the preprocessor output later
with -x hip-cpp-output.
Clang emits bundled preprocessor output when users
compile with -E for combined host/device compilations.
Clang should be able to compile the bundled preprocessor
output with -x hip-cpp-output. Basically clang should
unbundle the bundled preprocessor output and launch
device and host compilation actions.
Currently there is a bug in clang driver causing bundled
preprocessor output not unbundled.
This patch fixes that.
Differential Revision: https://reviews.llvm.org/D92720
I am working on a baremetal riscv toolchain using LLVM runtime and
LLD linker. Baremetal.cpp provides most of the things needed for such
toolchain. So I have modified it to also handle riscv64/32-unknown-elf
targets alongside arm-none-eabi.
Currently, targets like riscv64-unknown-elf are handled by RISCVToolChain
which mostly expects a gcc toolchain to be present. If you dont
want the dependency on gcc-toolchain/libgloss or want to use LLD, then
RISCVToolChain is not a good fit.
So in the toolchain selection code, I have made this dependency of
RISCVToolChain on gcc toolchain explicit. It is created if gcc-toolchain
option is present. Otherwise Baremetal toolchain is created. I will be
happy to hear if there is a better way to choose between these two
toolchains.
Reviewed By: jroelofs
Differential Revision: https://reviews.llvm.org/D91442
The option -fproc-stat-report=<file> makes driver to generate child
process resource comsumption report. In the report executable name was
not quoted and it made parsing the report more difficult. With this
change the executable name is surrounded by quotation marks.
The new option `-fproc-stat-info=<file>` can be used to generate report
about used memory and execution tile of each stage of compilation.
Documentation for this option can be found in `UserManual.rst`. The
option can be used in parallel builds.
Differential Revision: https://reviews.llvm.org/D78903
This patch introduces the dependencies required to read and manage input files
provided by the command line option. It also adds the infrastructure to create
and write to output files. The output is sent to either stdout or a file
(specified with the `-o` flag).
Separately, in order to be able to test the code for file I/O, it adds
infrastructure to create frontend actions. As a basic testable example, it adds
the `InputOutputTest` FrontendAction. The sole purpose of this action is to
read a file from the command line and print it either to stdout or the output
file. This action is run by using the `-test-io` flag also introduced in this
patch (available for `flang-new` and `flang-new -fc1`). With this patch:
```
flang-new -test-io input-file.f90
```
will read input-file.f90 and print it in the output file.
The `InputOutputTest` frontend action has been introduced primarily to
facilitate testing. It is hidden from users (i.e. it's only displayed with
`--help-hidden`). Currently Clang doesn’t have an equivalent action.
`-test-io` is used to trigger the InputOutputTest action in the Flang frontend
driver. This patch makes sure that “flang-new” forwards it to “flang-new -fc1"
by creating a preprocessor job. However, in Flang.cpp, `-test-io` is passed to
“flang-new -fc1” without `-E`. This way we make sure that the preprocessor is
_not_ run in the frontend driver. This is the desired behaviour: `-test-io`
should only read the input file and print it to the output stream.
co-authored-by: Andrzej Warzynski <andrzej.warzynski@arm.com>
Differential Revision: https://reviews.llvm.org/D87989
By convention the default output file for -E is "-" (stdout).
This is expected by tools like ccache, which uses output
of -E to determine if a file and its dependence has changed.
Currently clang does not use stdout as default output file for -E
for HIP, which causes ccache not working.
This patch fixes that.
Differential Revision: https://reviews.llvm.org/D88730
Currently CUDA/HIP toolchain uses "unknown" as bound arch
for offload action for fat binary. This causes -mcpu or -march
with "unknown" added in HIPToolChain::TranslateArgs or
CUDAToolChain::TranslateArgs.
This causes issue for https://reviews.llvm.org/D88377 since
HIP toolchain needs to check -mcpu in HIPToolChain::TranslateArgs.
The bound arch of offload action for fat binary is not really
used, therefore set it to CudaArch::UNUSED.
Differential Revision: https://reviews.llvm.org/D88524
When cross compiling with clang-cl, clang splits the INCLUDE env
variable around semicolons (clang/lib/Driver/ToolChains/MSVC.cpp,
MSVCToolChain::AddClangSystemIncludeArgs) and lld splits the
LIB variable similarly (lld/COFF/Driver.cpp,
LinkerDriver::addLibSearchPaths). Therefore, the consensus for
cross compilation with clang-cl and lld-link seems to be to use
semicolons, despite path lists normally being separated by colons
on unix and EnvPathSeparator being set to that.
Therefore, handle the LIB variable similarly in Clang, when
handling lib file arguments when driving linking via Clang.
This fixes commands like "clang-cl test.c -Fetest.exe kernel32.lib" in
a cross compilation setting. Normally, most users call (lld-)link
directly, but meson happens to use this command syntax for
has_function() tests.
Reapply: Change Program.h to define procid_t as ::pid_t. When included
in lldb/unittests/Host/NativeProcessProtocolTest.cpp, it is included
after an lldb namespace containing an lldb::pid_t typedef, followed
later by a "using namespace lldb;". Previously, Program.h wasn't
included in this translation unit, but now it ends up included
transitively from Process.h.
Differential Revision: https://reviews.llvm.org/D88002
This reverts commit 4d85444b31.
This commit broke building lldb's NativeProcessProtocolTest.cpp,
with errors like these:
In file included from include/llvm/Support/Process.h:32:0,
from tools/lldb/unittests/Host/NativeProcessProtocolTest.cpp:12:
include/llvm/Support/Program.h:39:11: error: reference to ‘pid_t’ is ambiguous
typedef pid_t procid_t;
/usr/include/sched.h:38:17: note: candidates are: typedef __pid_t pid_t
typedef __pid_t pid_t;
tools/lldb/include/lldb/lldb-types.h:85:18: note: typedef uint64_t lldb::pid_t
typedef uint64_t pid_t;
When cross compiling with clang-cl, clang splits the INCLUDE env
variable around semicolons (clang/lib/Driver/ToolChains/MSVC.cpp,
MSVCToolChain::AddClangSystemIncludeArgs) and lld splits the
LIB variable similarly (lld/COFF/Driver.cpp,
LinkerDriver::addLibSearchPaths). Therefore, the consensus for
cross compilation with clang-cl and lld-link seems to be to use
semicolons, despite path lists normally being separated by colons
on unix and EnvPathSeparator being set to that.
Therefore, handle the LIB variable similarly in Clang, when
handling lib file arguments when driving linking via Clang.
This fixes commands like "clang-cl test.c -Fetest.exe kernel32.lib" in
a cross compilation setting. Normally, most users call (lld-)link
directly, but meson happens to use this command syntax for
has_function() tests.
Differential Revision: https://reviews.llvm.org/D88002
Summary:
This is the first patch implementing the new Flang driver as outlined in [1],
[2] & [3]. It creates Flang driver (`flang-new`) and Flang frontend driver
(`flang-new -fc1`). These will be renamed as `flang` and `flang -fc1` once the
current Flang throwaway driver, `flang`, can be replaced with `flang-new`.
Currently only 2 options are supported: `-help` and `--version`.
`flang-new` is implemented in terms of libclangDriver, defaulting the driver
mode to `FlangMode` (added to libclangDriver in [4]). This ensures that the
driver runs in Flang mode regardless of the name of the binary inferred from
argv[0].
The design of the new Flang compiler and frontend drivers is inspired by it
counterparts in Clang [3]. Currently, the new Flang compiler and frontend
drivers re-use Clang libraries: clangBasic, clangDriver and clangFrontend.
To identify Flang options, this patch adds FlangOption/FC1Option enums.
Driver::printHelp is updated so that `flang-new` prints only Flang options.
The new Flang driver is disabled by default. To enable it, set
`-DBUILD_FLANG_NEW_DRIVER=ON` when configuring CMake and add clang to
`LLVM_ENABLE_PROJECTS` (e.g. -DLLVM_ENABLE_PROJECTS=“clang;flang;mlir”).
[1] “RFC: new Flang driver - next steps”
http://lists.llvm.org/pipermail/flang-dev/2020-July/000470.html
[2] “RFC: Adding a fortran mode to the clang driver for flang”
http://lists.llvm.org/pipermail/cfe-dev/2019-June/062669.html
[3] “RFC: refactoring libclangDriver/libclangFrontend to share with Flang”
http://lists.llvm.org/pipermail/cfe-dev/2020-July/066393.html
[4] https://reviews.llvm.org/rG6bf55804924d5a1d902925ad080b1a2b57c5c75c
co-authored-by: Andrzej Warzynski <andrzej.warzynski@arm.com>
Reviewed By: richard.barton.arm, sameeranjoshi
Differential Revision: https://reviews.llvm.org/D86089
This patch adds the initial toolchain for z/OS that will set some defaults. In subsequent patches, we plan to add support to use the system linker and assembler.
Reviewed By: hubert.reinterpretcast
Differential Revision: https://reviews.llvm.org/D86707
The non-standard header file `<sysexits.h>` provides some return values.
`EX_IOERR` is used to as a special value to signal a broken pipe to the clang driver.
On z/OS Unix System Services, this header file does not exists. This patch
- adds a check for `<sysexits.h>`, removing the dependency on `LLVM_ON_UNIX`
- adds a new header file `llvm/Support/ExitCodes`, which either includes
`<sysexits.h>` or defines `EX_IOERR`
- updates the users of `EX_IOERR` to include the new header file
Reviewed By: hubert.reinterpretcast
Differential Revision: https://reviews.llvm.org/D83472
Kadir Cetinkaya