llvm-project/compiler-rt/cmake/config-ix.cmake

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include(CMakePushCheckState)
include(CheckCCompilerFlag)
include(CheckCXXCompilerFlag)
include(CheckIncludeFiles)
include(CheckLibraryExists)
include(CheckSymbolExists)
include(TestBigEndian)
function(check_linker_flag flag out_var)
cmake_push_check_state()
set(CMAKE_REQUIRED_FLAGS "${CMAKE_REQUIRED_FLAGS} ${flag}")
check_cxx_compiler_flag("" ${out_var})
cmake_pop_check_state()
endfunction()
check_library_exists(c fopen "" COMPILER_RT_HAS_LIBC)
if (COMPILER_RT_USE_BUILTINS_LIBRARY)
include(HandleCompilerRT)
find_compiler_rt_library(builtins COMPILER_RT_BUILTINS_LIBRARY)
else()
if (ANDROID)
check_library_exists(gcc __gcc_personality_v0 "" COMPILER_RT_HAS_GCC_LIB)
else()
check_library_exists(gcc_s __gcc_personality_v0 "" COMPILER_RT_HAS_GCC_S_LIB)
endif()
endif()
check_c_compiler_flag(-nodefaultlibs COMPILER_RT_HAS_NODEFAULTLIBS_FLAG)
if (COMPILER_RT_HAS_NODEFAULTLIBS_FLAG)
set(CMAKE_REQUIRED_FLAGS "${CMAKE_REQUIRED_FLAGS} -nodefaultlibs")
if (COMPILER_RT_HAS_LIBC)
list(APPEND CMAKE_REQUIRED_LIBRARIES c)
endif ()
if (COMPILER_RT_USE_BUILTINS_LIBRARY)
list(APPEND CMAKE_REQUIRED_LIBRARIES "${COMPILER_RT_BUILTINS_LIBRARY}")
elseif (COMPILER_RT_HAS_GCC_S_LIB)
list(APPEND CMAKE_REQUIRED_LIBRARIES gcc_s)
elseif (COMPILER_RT_HAS_GCC_LIB)
list(APPEND CMAKE_REQUIRED_LIBRARIES gcc)
endif ()
if (MINGW)
# Mingw64 requires quite a few "C" runtime libraries in order for basic
# programs to link successfully with -nodefaultlibs.
if (COMPILER_RT_USE_BUILTINS_LIBRARY)
set(MINGW_RUNTIME ${COMPILER_RT_BUILTINS_LIBRARY})
else ()
set(MINGW_RUNTIME gcc_s gcc)
endif()
set(MINGW_LIBRARIES mingw32 ${MINGW_RUNTIME} moldname mingwex msvcrt advapi32
shell32 user32 kernel32 mingw32 ${MINGW_RUNTIME}
moldname mingwex msvcrt)
list(APPEND CMAKE_REQUIRED_LIBRARIES ${MINGW_LIBRARIES})
endif()
endif ()
# CodeGen options.
check_c_compiler_flag(-ffreestanding COMPILER_RT_HAS_FFREESTANDING_FLAG)
check_c_compiler_flag(-std=c11 COMPILER_RT_HAS_STD_C11_FLAG)
check_cxx_compiler_flag(-fPIC COMPILER_RT_HAS_FPIC_FLAG)
check_cxx_compiler_flag(-fPIE COMPILER_RT_HAS_FPIE_FLAG)
check_cxx_compiler_flag(-fno-builtin COMPILER_RT_HAS_FNO_BUILTIN_FLAG)
check_cxx_compiler_flag(-fno-exceptions COMPILER_RT_HAS_FNO_EXCEPTIONS_FLAG)
check_cxx_compiler_flag(-fomit-frame-pointer COMPILER_RT_HAS_FOMIT_FRAME_POINTER_FLAG)
check_cxx_compiler_flag(-funwind-tables COMPILER_RT_HAS_FUNWIND_TABLES_FLAG)
check_cxx_compiler_flag(-fno-stack-protector COMPILER_RT_HAS_FNO_STACK_PROTECTOR_FLAG)
check_cxx_compiler_flag(-fno-sanitize=safe-stack COMPILER_RT_HAS_FNO_SANITIZE_SAFE_STACK_FLAG)
check_cxx_compiler_flag(-fvisibility=hidden COMPILER_RT_HAS_FVISIBILITY_HIDDEN_FLAG)
check_cxx_compiler_flag(-frtti COMPILER_RT_HAS_FRTTI_FLAG)
check_cxx_compiler_flag(-fno-rtti COMPILER_RT_HAS_FNO_RTTI_FLAG)
check_cxx_compiler_flag("-Werror -fno-function-sections" COMPILER_RT_HAS_FNO_FUNCTION_SECTIONS_FLAG)
check_cxx_compiler_flag(-std=c++14 COMPILER_RT_HAS_STD_CXX14_FLAG)
check_cxx_compiler_flag(-ftls-model=initial-exec COMPILER_RT_HAS_FTLS_MODEL_INITIAL_EXEC)
check_cxx_compiler_flag(-fno-lto COMPILER_RT_HAS_FNO_LTO_FLAG)
check_cxx_compiler_flag("-Werror -msse3" COMPILER_RT_HAS_MSSE3_FLAG)
check_cxx_compiler_flag("-Werror -msse4.2" COMPILER_RT_HAS_MSSE4_2_FLAG)
check_cxx_compiler_flag(--sysroot=. COMPILER_RT_HAS_SYSROOT_FLAG)
check_cxx_compiler_flag("-Werror -mcrc" COMPILER_RT_HAS_MCRC_FLAG)
check_cxx_compiler_flag(-fno-partial-inlining COMPILER_RT_HAS_FNO_PARTIAL_INLINING_FLAG)
if(NOT WIN32 AND NOT CYGWIN)
# MinGW warns if -fvisibility-inlines-hidden is used.
check_cxx_compiler_flag("-fvisibility-inlines-hidden" COMPILER_RT_HAS_FVISIBILITY_INLINES_HIDDEN_FLAG)
endif()
check_cxx_compiler_flag(/GR COMPILER_RT_HAS_GR_FLAG)
check_cxx_compiler_flag(/GS COMPILER_RT_HAS_GS_FLAG)
check_cxx_compiler_flag(/MT COMPILER_RT_HAS_MT_FLAG)
check_cxx_compiler_flag(/Oy COMPILER_RT_HAS_Oy_FLAG)
# Debug info flags.
check_cxx_compiler_flag(-gline-tables-only COMPILER_RT_HAS_GLINE_TABLES_ONLY_FLAG)
check_cxx_compiler_flag(-g COMPILER_RT_HAS_G_FLAG)
check_cxx_compiler_flag(/Zi COMPILER_RT_HAS_Zi_FLAG)
# Warnings.
check_cxx_compiler_flag(-Wall COMPILER_RT_HAS_WALL_FLAG)
check_cxx_compiler_flag(-Werror COMPILER_RT_HAS_WERROR_FLAG)
check_cxx_compiler_flag("-Werror -Wframe-larger-than=512" COMPILER_RT_HAS_WFRAME_LARGER_THAN_FLAG)
check_cxx_compiler_flag("-Werror -Wglobal-constructors" COMPILER_RT_HAS_WGLOBAL_CONSTRUCTORS_FLAG)
check_cxx_compiler_flag("-Werror -Wc99-extensions" COMPILER_RT_HAS_WC99_EXTENSIONS_FLAG)
check_cxx_compiler_flag("-Werror -Wgnu" COMPILER_RT_HAS_WGNU_FLAG)
check_cxx_compiler_flag("-Werror -Wnon-virtual-dtor" COMPILER_RT_HAS_WNON_VIRTUAL_DTOR_FLAG)
check_cxx_compiler_flag("-Werror -Wvariadic-macros" COMPILER_RT_HAS_WVARIADIC_MACROS_FLAG)
check_cxx_compiler_flag("-Werror -Wunused-parameter" COMPILER_RT_HAS_WUNUSED_PARAMETER_FLAG)
check_cxx_compiler_flag("-Werror -Wcovered-switch-default" COMPILER_RT_HAS_WCOVERED_SWITCH_DEFAULT_FLAG)
check_cxx_compiler_flag(-Wno-pedantic COMPILER_RT_HAS_WNO_PEDANTIC)
check_cxx_compiler_flag(/W4 COMPILER_RT_HAS_W4_FLAG)
check_cxx_compiler_flag(/WX COMPILER_RT_HAS_WX_FLAG)
check_cxx_compiler_flag(/wd4146 COMPILER_RT_HAS_WD4146_FLAG)
check_cxx_compiler_flag(/wd4291 COMPILER_RT_HAS_WD4291_FLAG)
check_cxx_compiler_flag(/wd4221 COMPILER_RT_HAS_WD4221_FLAG)
check_cxx_compiler_flag(/wd4391 COMPILER_RT_HAS_WD4391_FLAG)
check_cxx_compiler_flag(/wd4722 COMPILER_RT_HAS_WD4722_FLAG)
check_cxx_compiler_flag(/wd4800 COMPILER_RT_HAS_WD4800_FLAG)
# Symbols.
check_symbol_exists(__func__ "" COMPILER_RT_HAS_FUNC_SYMBOL)
# Includes.
check_include_files("sys/auxv.h" COMPILER_RT_HAS_AUXV)
# Libraries.
check_library_exists(dl dlopen "" COMPILER_RT_HAS_LIBDL)
check_library_exists(rt shm_open "" COMPILER_RT_HAS_LIBRT)
check_library_exists(m pow "" COMPILER_RT_HAS_LIBM)
check_library_exists(pthread pthread_create "" COMPILER_RT_HAS_LIBPTHREAD)
Fix XRayTest link on FreeBSD (and likely NetBSD too) Summary: As reported on llvm-testers, during 8.0.0-rc1 testing I got errors while building of `XRayTest`, during `check-all`: ``` [100%] Generating XRayTest-x86_64-Test /home/dim/llvm/8.0.0/rc1/Phase3/Release/llvmCore-8.0.0-rc1.obj/./lib/libLLVMSupport.a(Signals.cpp.o): In function `llvm::sys::PrintStackTrace(llvm::raw_ostream&)': Signals.cpp:(.text._ZN4llvm3sys15PrintStackTraceERNS_11raw_ostreamE+0x24): undefined reference to `backtrace' Signals.cpp:(.text._ZN4llvm3sys15PrintStackTraceERNS_11raw_ostreamE+0x254): undefined reference to `llvm::itaniumDemangle(char const*, char*, unsigned long*, int*)' clang-8: error: linker command failed with exit code 1 (use -v to see invocation) gmake[3]: *** [projects/compiler-rt/lib/xray/tests/unit/CMakeFiles/TXRayTest-x86_64-Test.dir/build.make:73: projects/compiler-rt/lib/xray/tests/unit/XRayTest-x86_64-Test] Error 1 gmake[3]: Target 'projects/compiler-rt/lib/xray/tests/unit/CMakeFiles/TXRayTest-x86_64-Test.dir/build' not remade because of errors. gmake[2]: *** [CMakeFiles/Makefile2:33513: projects/compiler-rt/lib/xray/tests/unit/CMakeFiles/TXRayTest-x86_64-Test.dir/all] Error 2 gmake[2]: Target 'CMakeFiles/check-all.dir/all' not remade because of errors. gmake[1]: *** [CMakeFiles/Makefile2:737: CMakeFiles/check-all.dir/rule] Error 2 gmake[1]: Target 'check-all' not remade because of errors. gmake: *** [Makefile:277: check-all] Error 2 [Release Phase3] check-all failed ``` This is because the `backtrace` function requires `-lexecinfo` on BSD platforms. To fix this, detect the `execinfo` library in `cmake/config-ix.cmake`, and add it to the unit test link flags. Additionally, since the code in `sys::PrintStackTrace` makes use of `itaniumDemangle`, also add `-lLLVMDemangle`. (Note that this is more of a general problem with libLLVMSupport, but I'm looking for a quick fix now so it can be merged to the 8.0 branch.) Reviewers: dberris, hans, mgorny, samsonov Reviewed By: dberris Subscribers: krytarowski, delcypher, erik.pilkington, #sanitizers, emaste, llvm-commits Differential Revision: https://reviews.llvm.org/D57181 llvm-svn: 352234
2019-01-26 03:36:47 +08:00
check_library_exists(execinfo backtrace "" COMPILER_RT_HAS_LIBEXECINFO)
[XRay][compiler-rt] FDRLogWriter Abstraction Summary: This change introduces an `FDRLogWriter` type which is responsible for serialising metadata and function records to character buffers. This is the first step in a refactoring of the implementation of the FDR runtime to allow for more granular testing of the individual components of the implementation. The main contribution of this change is a means of hiding the details of how specific records are written to a buffer, and for managing the extents of these buffers. We make use of C++ features (templates and some metaprogramming) to reduce repetition in the act of writing out specific kinds of records to the buffer. In this process, we make a number of changes across both LLVM and compiler-rt to allow us to use the `Trace` abstraction defined in the LLVM project in the testing of the runtime implementation. This gives us a closer end-to-end test which version-locks the runtime implementation with the loading implementation in LLVM. We also allow using gmock in compiler-rt unit tests, by adding the requisite definitions in the `AddCompilerRT.cmake` module. We also add the terminfo library detection along with inclusion of the appropriate compiler flags for header include lookup. Finally, we've gone ahead and updated the FDR logging implementation to use the FDRLogWriter for the lowest-level record-writing details. Following patches will isolate the state machine transitions which manage the set-up and tear-down of the buffers we're using in multiple threads. Reviewers: mboerger, eizan Subscribers: mgorny, jfb, llvm-commits Differential Revision: https://reviews.llvm.org/D52220 llvm-svn: 342617
2018-09-20 13:22:37 +08:00
# Look for terminfo library, used in unittests that depend on LLVMSupport.
if(LLVM_ENABLE_TERMINFO)
foreach(library terminfo tinfo curses ncurses ncursesw)
string(TOUPPER ${library} library_suffix)
[XRay][compiler-rt] FDRLogWriter Abstraction Summary: This change introduces an `FDRLogWriter` type which is responsible for serialising metadata and function records to character buffers. This is the first step in a refactoring of the implementation of the FDR runtime to allow for more granular testing of the individual components of the implementation. The main contribution of this change is a means of hiding the details of how specific records are written to a buffer, and for managing the extents of these buffers. We make use of C++ features (templates and some metaprogramming) to reduce repetition in the act of writing out specific kinds of records to the buffer. In this process, we make a number of changes across both LLVM and compiler-rt to allow us to use the `Trace` abstraction defined in the LLVM project in the testing of the runtime implementation. This gives us a closer end-to-end test which version-locks the runtime implementation with the loading implementation in LLVM. We also allow using gmock in compiler-rt unit tests, by adding the requisite definitions in the `AddCompilerRT.cmake` module. We also add the terminfo library detection along with inclusion of the appropriate compiler flags for header include lookup. Finally, we've gone ahead and updated the FDR logging implementation to use the FDRLogWriter for the lowest-level record-writing details. Following patches will isolate the state machine transitions which manage the set-up and tear-down of the buffers we're using in multiple threads. Reviewers: mboerger, eizan Subscribers: mgorny, jfb, llvm-commits Differential Revision: https://reviews.llvm.org/D52220 llvm-svn: 342617
2018-09-20 13:22:37 +08:00
check_library_exists(
${library} setupterm "" COMPILER_RT_HAS_TERMINFO_${library_suffix})
if(COMPILER_RT_HAS_TERMINFO_${library_suffix})
set(COMPILER_RT_HAS_TERMINFO TRUE)
[XRay][compiler-rt] FDRLogWriter Abstraction Summary: This change introduces an `FDRLogWriter` type which is responsible for serialising metadata and function records to character buffers. This is the first step in a refactoring of the implementation of the FDR runtime to allow for more granular testing of the individual components of the implementation. The main contribution of this change is a means of hiding the details of how specific records are written to a buffer, and for managing the extents of these buffers. We make use of C++ features (templates and some metaprogramming) to reduce repetition in the act of writing out specific kinds of records to the buffer. In this process, we make a number of changes across both LLVM and compiler-rt to allow us to use the `Trace` abstraction defined in the LLVM project in the testing of the runtime implementation. This gives us a closer end-to-end test which version-locks the runtime implementation with the loading implementation in LLVM. We also allow using gmock in compiler-rt unit tests, by adding the requisite definitions in the `AddCompilerRT.cmake` module. We also add the terminfo library detection along with inclusion of the appropriate compiler flags for header include lookup. Finally, we've gone ahead and updated the FDR logging implementation to use the FDRLogWriter for the lowest-level record-writing details. Following patches will isolate the state machine transitions which manage the set-up and tear-down of the buffers we're using in multiple threads. Reviewers: mboerger, eizan Subscribers: mgorny, jfb, llvm-commits Differential Revision: https://reviews.llvm.org/D52220 llvm-svn: 342617
2018-09-20 13:22:37 +08:00
set(COMPILER_RT_TERMINFO_LIB "${library}")
break()
endif()
endforeach()
endif()
if (ANDROID AND COMPILER_RT_HAS_LIBDL)
# Android's libstdc++ has a dependency on libdl.
list(APPEND CMAKE_REQUIRED_LIBRARIES dl)
endif()
check_library_exists(c++ __cxa_throw "" COMPILER_RT_HAS_LIBCXX)
check_library_exists(stdc++ __cxa_throw "" COMPILER_RT_HAS_LIBSTDCXX)
# Linker flags.
check_linker_flag("-Wl,-z,text" COMPILER_RT_HAS_Z_TEXT)
check_linker_flag("-fuse-ld=lld" COMPILER_RT_HAS_FUSE_LD_LLD_FLAG)
if(ANDROID)
check_linker_flag("-Wl,-z,global" COMPILER_RT_HAS_Z_GLOBAL)
check_library_exists(log __android_log_write "" COMPILER_RT_HAS_LIBLOG)
endif()
# Architectures.
# List of all architectures we can target.
set(COMPILER_RT_SUPPORTED_ARCH)
# Try to compile a very simple source file to ensure we can target the given
# platform. We use the results of these tests to build only the various target
# runtime libraries supported by our current compilers cross-compiling
# abilities.
set(SIMPLE_SOURCE ${CMAKE_BINARY_DIR}${CMAKE_FILES_DIRECTORY}/simple.cc)
file(WRITE ${SIMPLE_SOURCE} "#include <stdlib.h>\n#include <stdio.h>\nint main() { printf(\"hello, world\"); }\n")
# Detect whether the current target platform is 32-bit or 64-bit, and setup
# the correct commandline flags needed to attempt to target 32-bit and 64-bit.
if (NOT CMAKE_SIZEOF_VOID_P EQUAL 4 AND
NOT CMAKE_SIZEOF_VOID_P EQUAL 8)
message(FATAL_ERROR "Please use architecture with 4 or 8 byte pointers.")
endif()
test_targets()
# Returns a list of architecture specific target cflags in @out_var list.
function(get_target_flags_for_arch arch out_var)
list(FIND COMPILER_RT_SUPPORTED_ARCH ${arch} ARCH_INDEX)
if(ARCH_INDEX EQUAL -1)
message(FATAL_ERROR "Unsupported architecture: ${arch}")
else()
if (NOT APPLE)
set(${out_var} ${TARGET_${arch}_CFLAGS} PARENT_SCOPE)
else()
# This is only called in constructing cflags for tests executing on the
# host. This will need to all be cleaned up to support building tests
# for cross-targeted hardware (i.e. iOS).
set(${out_var} -arch ${arch} PARENT_SCOPE)
endif()
endif()
endfunction()
# Returns a compiler and CFLAGS that should be used to run tests for the
# specific architecture. When cross-compiling, this is controled via
# COMPILER_RT_TEST_COMPILER and COMPILER_RT_TEST_COMPILER_CFLAGS.
macro(get_test_cc_for_arch arch cc_out cflags_out)
if(ANDROID OR ${arch} MATCHES "arm|aarch64")
# This is only true if we are cross-compiling.
# Build all tests with host compiler and use host tools.
set(${cc_out} ${COMPILER_RT_TEST_COMPILER})
set(${cflags_out} ${COMPILER_RT_TEST_COMPILER_CFLAGS})
else()
get_target_flags_for_arch(${arch} ${cflags_out})
if(APPLE)
list(APPEND ${cflags_out} ${DARWIN_osx_CFLAGS})
endif()
string(REPLACE ";" " " ${cflags_out} "${${cflags_out}}")
endif()
endmacro()
[CMake] Fix the value of `config.target_cflags` for non-macOS Apple platforms. Attempt #3. The main problem here is that `-*-version_min=` was not being passed to the compiler when building test cases. This can cause problems when testing on devices running older OSs because Clang would previously assume the minimum deployment target is the the latest OS in the SDK which could be much newer than what the device is running. Previously the generated value looked like this: `-arch arm64 -isysroot <path_to_xcode>/Contents/Developer/Platforms/iPhoneOS.platform/Developer/SDKs/iPhoneOS12.1.sdk` With this change it now looks like: `-arch arm64 -stdlib=libc++ -miphoneos-version-min=8.0 -isysroot <path_to_xcode>/Contents/Developer/Platforms/iPhoneOS.platform/Developer/SDKs/iPhoneOS12.1.sdk` This mirrors the setting of config.target_cflags on macOS. This change is made for ASan, LibFuzzer, TSan, and UBSan. To implement this a new `get_test_cflags_for_apple_platform()` function has been added that when given an Apple platform name and architecture returns a string containing the C compiler flags to use when building tests. This also calls a new helper function `is_valid_apple_platform()` that validates Apple platform names. This is the third attempt at landing the patch. The first attempt (r359305) had to be reverted (r359327) due to a buildbot failure. The problem was that calling `get_test_cflags_for_apple_platform()` can trigger a CMake error if the provided architecture is not supported by the current CMake configuration. Previously, this could be triggered by passing `-DCOMPILER_RT_ENABLE_IOS=OFF` to CMake. The root cause is that we were generating test configurations for a list of architectures without checking if the relevant Sanitizer actually supported that architecture. We now intersect the list of architectures for an Apple platform with `<SANITIZER>_SUPPORTED_ARCH` (where `<SANITIZER>` is a Sanitizer name) to iterate through the correct list of architectures. The second attempt (r363633) had to be reverted (r363779) due to a build failure. The failed build was using a modified Apple toolchain where the iOS simulator SDK was missing. This exposed a bug in the existing UBSan test generation code where it was assumed that `COMPILER_RT_ENABLE_IOS` implied that the toolchain supported both iOS and the iOS simulator. This is not true. This has been fixed by using the list `SANITIZER_COMMON_SUPPORTED_OS` for the list of supported Apple platforms for UBSan. For consistency with the other Sanitizers we also now intersect the list of architectures with UBSAN_SUPPORTED_ARCH. rdar://problem/50124489 Differential Revision: https://reviews.llvm.org/D61242 llvm-svn: 373405
2019-10-02 07:08:18 +08:00
# Returns CFLAGS that should be used to run tests for the
# specific apple platform and architecture.
function(get_test_cflags_for_apple_platform platform arch cflags_out)
is_valid_apple_platform("${platform}" is_valid_platform)
if (NOT is_valid_platform)
message(FATAL_ERROR "\"${platform}\" is not a valid apple platform")
endif()
set(test_cflags "")
get_target_flags_for_arch(${arch} test_cflags)
list(APPEND test_cflags ${DARWIN_${platform}_CFLAGS})
string(REPLACE ";" " " test_cflags_str "${test_cflags}")
string(APPEND test_cflags_str "${COMPILER_RT_TEST_COMPILER_CFLAGS}")
set(${cflags_out} "${test_cflags_str}" PARENT_SCOPE)
endfunction()
function(get_capitalized_apple_platform platform platform_capitalized)
# TODO(dliew): Remove uses of this function. It exists to preserve needlessly complex
# directory naming conventions used by the Sanitizer lit test suites.
is_valid_apple_platform("${platform}" is_valid_platform)
if (NOT is_valid_platform)
message(FATAL_ERROR "\"${platform}\" is not a valid apple platform")
endif()
string(TOUPPER "${platform}" platform_upper)
string(REGEX REPLACE "OSSIM$" "OSSim" platform_upper_capitalized "${platform_upper}")
set(${platform_capitalized} "${platform_upper_capitalized}" PARENT_SCOPE)
endfunction()
[CMake] Fix the value of `config.target_cflags` for non-macOS Apple platforms. Attempt #3. The main problem here is that `-*-version_min=` was not being passed to the compiler when building test cases. This can cause problems when testing on devices running older OSs because Clang would previously assume the minimum deployment target is the the latest OS in the SDK which could be much newer than what the device is running. Previously the generated value looked like this: `-arch arm64 -isysroot <path_to_xcode>/Contents/Developer/Platforms/iPhoneOS.platform/Developer/SDKs/iPhoneOS12.1.sdk` With this change it now looks like: `-arch arm64 -stdlib=libc++ -miphoneos-version-min=8.0 -isysroot <path_to_xcode>/Contents/Developer/Platforms/iPhoneOS.platform/Developer/SDKs/iPhoneOS12.1.sdk` This mirrors the setting of config.target_cflags on macOS. This change is made for ASan, LibFuzzer, TSan, and UBSan. To implement this a new `get_test_cflags_for_apple_platform()` function has been added that when given an Apple platform name and architecture returns a string containing the C compiler flags to use when building tests. This also calls a new helper function `is_valid_apple_platform()` that validates Apple platform names. This is the third attempt at landing the patch. The first attempt (r359305) had to be reverted (r359327) due to a buildbot failure. The problem was that calling `get_test_cflags_for_apple_platform()` can trigger a CMake error if the provided architecture is not supported by the current CMake configuration. Previously, this could be triggered by passing `-DCOMPILER_RT_ENABLE_IOS=OFF` to CMake. The root cause is that we were generating test configurations for a list of architectures without checking if the relevant Sanitizer actually supported that architecture. We now intersect the list of architectures for an Apple platform with `<SANITIZER>_SUPPORTED_ARCH` (where `<SANITIZER>` is a Sanitizer name) to iterate through the correct list of architectures. The second attempt (r363633) had to be reverted (r363779) due to a build failure. The failed build was using a modified Apple toolchain where the iOS simulator SDK was missing. This exposed a bug in the existing UBSan test generation code where it was assumed that `COMPILER_RT_ENABLE_IOS` implied that the toolchain supported both iOS and the iOS simulator. This is not true. This has been fixed by using the list `SANITIZER_COMMON_SUPPORTED_OS` for the list of supported Apple platforms for UBSan. For consistency with the other Sanitizers we also now intersect the list of architectures with UBSAN_SUPPORTED_ARCH. rdar://problem/50124489 Differential Revision: https://reviews.llvm.org/D61242 llvm-svn: 373405
2019-10-02 07:08:18 +08:00
function(is_valid_apple_platform platform is_valid_out)
set(is_valid FALSE)
if ("${platform}" STREQUAL "")
message(FATAL_ERROR "platform cannot be empty")
endif()
if ("${platform}" MATCHES "^(osx|((ios|watchos|tvos)(sim)?))$")
set(is_valid TRUE)
endif()
set(${is_valid_out} ${is_valid} PARENT_SCOPE)
endfunction()
set(ARM64 aarch64)
set(ARM32 arm armhf)
set(HEXAGON hexagon)
set(X86 i386)
set(X86_64 x86_64)
set(MIPS32 mips mipsel)
set(MIPS64 mips64 mips64el)
set(PPC64 powerpc64 powerpc64le)
set(RISCV32 riscv32)
set(RISCV64 riscv64)
set(S390X s390x)
set(SPARC sparc)
set(SPARCV9 sparcv9)
set(WASM32 wasm32)
set(WASM64 wasm64)
if(APPLE)
set(ARM64 arm64)
set(ARM32 armv7 armv7s armv7k)
set(X86_64 x86_64 x86_64h)
endif()
set(ALL_SANITIZER_COMMON_SUPPORTED_ARCH ${X86} ${X86_64} ${PPC64} ${RISCV64}
${ARM32} ${ARM64} ${MIPS32} ${MIPS64} ${S390X} ${SPARC} ${SPARCV9})
set(ALL_ASAN_SUPPORTED_ARCH ${X86} ${X86_64} ${ARM32} ${ARM64}
${MIPS32} ${MIPS64} ${PPC64} ${S390X} ${SPARC} ${SPARCV9})
set(ALL_CRT_SUPPORTED_ARCH ${X86} ${X86_64} ${ARM32} ${ARM64} ${RISCV32} ${RISCV64})
set(ALL_DFSAN_SUPPORTED_ARCH ${X86_64} ${MIPS64} ${ARM64})
if(ANDROID)
set(OS_NAME "Android")
else()
set(OS_NAME "${CMAKE_SYSTEM_NAME}")
endif()
if(OS_NAME MATCHES "Linux")
set(ALL_FUZZER_SUPPORTED_ARCH ${X86} ${X86_64} ${ARM64})
elseif (OS_NAME MATCHES "Windows")
set(ALL_FUZZER_SUPPORTED_ARCH ${X86} ${X86_64})
elseif(OS_NAME MATCHES "Android")
set(ALL_FUZZER_SUPPORTED_ARCH ${X86} ${X86_64} ${ARM32} ${ARM64})
else()
set(ALL_FUZZER_SUPPORTED_ARCH ${X86_64} ${ARM64})
endif()
set(ALL_GWP_ASAN_SUPPORTED_ARCH ${X86} ${X86_64})
if(APPLE)
set(ALL_LSAN_SUPPORTED_ARCH ${X86} ${X86_64} ${MIPS64} ${ARM64})
else()
set(ALL_LSAN_SUPPORTED_ARCH ${X86} ${X86_64} ${MIPS64} ${ARM64} ${ARM32} ${PPC64})
endif()
set(ALL_MSAN_SUPPORTED_ARCH ${X86_64} ${MIPS64} ${ARM64} ${PPC64})
set(ALL_HWASAN_SUPPORTED_ARCH ${X86_64} ${ARM64})
set(ALL_PROFILE_SUPPORTED_ARCH ${X86} ${X86_64} ${ARM32} ${ARM64} ${PPC64}
${MIPS32} ${MIPS64} ${S390X} ${SPARC} ${SPARCV9})
set(ALL_TSAN_SUPPORTED_ARCH ${X86_64} ${MIPS64} ${ARM64} ${PPC64})
set(ALL_UBSAN_SUPPORTED_ARCH ${X86} ${X86_64} ${ARM32} ${ARM64} ${RISCV64}
${MIPS32} ${MIPS64} ${PPC64} ${S390X} ${SPARC} ${SPARCV9})
set(ALL_SAFESTACK_SUPPORTED_ARCH ${X86} ${X86_64} ${ARM64} ${MIPS32} ${MIPS64})
set(ALL_CFI_SUPPORTED_ARCH ${X86} ${X86_64} ${ARM32} ${ARM64} ${MIPS64})
set(ALL_SCUDO_SUPPORTED_ARCH ${X86} ${X86_64} ${ARM32} ${ARM64} ${MIPS32} ${MIPS64} ${PPC64})
set(ALL_SCUDO_STANDALONE_SUPPORTED_ARCH ${X86} ${X86_64})
if(APPLE)
set(ALL_XRAY_SUPPORTED_ARCH ${X86_64})
else()
set(ALL_XRAY_SUPPORTED_ARCH ${X86_64} ${ARM32} ${ARM64} ${MIPS32} ${MIPS64} powerpc64le)
endif()
set(ALL_SHADOWCALLSTACK_SUPPORTED_ARCH ${ARM64})
if(APPLE)
include(CompilerRTDarwinUtils)
find_darwin_sdk_dir(DARWIN_osx_SYSROOT macosx)
find_darwin_sdk_dir(DARWIN_iossim_SYSROOT iphonesimulator)
find_darwin_sdk_dir(DARWIN_ios_SYSROOT iphoneos)
find_darwin_sdk_dir(DARWIN_watchossim_SYSROOT watchsimulator)
find_darwin_sdk_dir(DARWIN_watchos_SYSROOT watchos)
find_darwin_sdk_dir(DARWIN_tvossim_SYSROOT appletvsimulator)
find_darwin_sdk_dir(DARWIN_tvos_SYSROOT appletvos)
if(NOT DARWIN_osx_SYSROOT)
message(WARNING "Could not determine OS X sysroot, trying /usr/include")
if(EXISTS /usr/include)
set(DARWIN_osx_SYSROOT /)
else()
message(ERROR "Could not detect OS X Sysroot. Either install Xcode or the Apple Command Line Tools")
endif()
endif()
if(COMPILER_RT_ENABLE_IOS)
list(APPEND DARWIN_EMBEDDED_PLATFORMS ios)
set(DARWIN_ios_MIN_VER 9.0)
set(DARWIN_ios_MIN_VER_FLAG -miphoneos-version-min)
set(DARWIN_ios_SANITIZER_MIN_VER_FLAG
${DARWIN_ios_MIN_VER_FLAG}=${DARWIN_ios_MIN_VER})
set(DARWIN_iossim_MIN_VER_FLAG -mios-simulator-version-min)
set(DARWIN_iossim_SANITIZER_MIN_VER_FLAG
${DARWIN_iossim_MIN_VER_FLAG}=${DARWIN_ios_MIN_VER})
endif()
if(COMPILER_RT_ENABLE_WATCHOS)
list(APPEND DARWIN_EMBEDDED_PLATFORMS watchos)
set(DARWIN_watchos_MIN_VER 2.0)
set(DARWIN_watchos_MIN_VER_FLAG -mwatchos-version-min)
set(DARWIN_watchos_SANITIZER_MIN_VER_FLAG
${DARWIN_watchos_MIN_VER_FLAG}=${DARWIN_watchos_MIN_VER})
set(DARWIN_watchossim_MIN_VER_FLAG -mwatchos-simulator-version-min)
set(DARWIN_watchossim_SANITIZER_MIN_VER_FLAG
${DARWIN_watchossim_MIN_VER_FLAG}=${DARWIN_watchos_MIN_VER})
endif()
if(COMPILER_RT_ENABLE_TVOS)
list(APPEND DARWIN_EMBEDDED_PLATFORMS tvos)
set(DARWIN_tvos_MIN_VER 9.0)
set(DARWIN_tvos_MIN_VER_FLAG -mtvos-version-min)
set(DARWIN_tvos_SANITIZER_MIN_VER_FLAG
${DARWIN_tvos_MIN_VER_FLAG}=${DARWIN_tvos_MIN_VER})
set(DARWIN_tvossim_MIN_VER_FLAG -mtvos-simulator-version-min)
set(DARWIN_tvossim_SANITIZER_MIN_VER_FLAG
${DARWIN_tvossim_MIN_VER_FLAG}=${DARWIN_tvos_MIN_VER})
endif()
set(SANITIZER_COMMON_SUPPORTED_OS osx)
set(PROFILE_SUPPORTED_OS osx)
set(TSAN_SUPPORTED_OS osx)
set(XRAY_SUPPORTED_OS osx)
[CMake] Refactor iOS simulator/device test configuration generation code for LibFuzzer. Summary: In order to do this `FUZZER_SUPPORTED_OS` had to be pulled out of `lib/fuzzer/CMakeLists.txt` and into the main config so we can use it from the `test/fuzzer/CMakeList.txt`. `FUZZER_SUPPORTED_OS` currently has the same value of `SANITIZER_COMMON_SUPPORTED_OS` which preserves the existing behaviour but this allows us in the future to adjust the supported platforms independent of `SANITIZER_COMMON_SUPPORTED_OS`. This mirrors the other sanitizers. For non-Apple platforms `FUZZER_SUPPORTED_OS` is not defined and surprisingly this was the behaviour before this patch because `SANITIZER_COMMON_SUPPORTED_OS` was actually empty. This appears to not matter right now because the functions that take an `OS` as an argument seem to ignore it on non-Apple platforms. While this change tries to be NFC it is technically not because we now generate an iossim config whereas previously we didn't. This seems like the right thing to do because the build system was configured to compile LibFuzzer for iossim but previously we weren't generating a lit test config for it. The device/simulator testing configs don't run by default anyway so this shouldn't break testing. This change relies on the get_capitalized_apple_platform() function added in a previous commit. rdar://problem/58798733 Reviewers: kubamracek, yln Subscribers: mgorny, #sanitizers, llvm-commits Tags: #sanitizers, #llvm Differential Revision: https://reviews.llvm.org/D73243
2020-01-23 08:26:45 +08:00
set(FUZZER_SUPPORTED_OS osx)
# Note: In order to target x86_64h on OS X the minimum deployment target must
# be 10.8 or higher.
set(DEFAULT_SANITIZER_MIN_OSX_VERSION 10.10)
set(DARWIN_osx_MIN_VER_FLAG "-mmacosx-version-min")
if(NOT SANITIZER_MIN_OSX_VERSION)
string(REGEX MATCH "${DARWIN_osx_MIN_VER_FLAG}=([.0-9]+)"
MACOSX_VERSION_MIN_FLAG "${CMAKE_CXX_FLAGS}")
if(MACOSX_VERSION_MIN_FLAG)
set(SANITIZER_MIN_OSX_VERSION "${CMAKE_MATCH_1}")
elseif(CMAKE_OSX_DEPLOYMENT_TARGET)
set(SANITIZER_MIN_OSX_VERSION ${CMAKE_OSX_DEPLOYMENT_TARGET})
else()
set(SANITIZER_MIN_OSX_VERSION ${DEFAULT_SANITIZER_MIN_OSX_VERSION})
endif()
if(SANITIZER_MIN_OSX_VERSION VERSION_LESS "10.7")
message(FATAL_ERROR "macOS deployment target '${SANITIZER_MIN_OSX_VERSION}' is too old.")
endif()
if(SANITIZER_MIN_OSX_VERSION VERSION_GREATER ${DEFAULT_SANITIZER_MIN_OSX_VERSION})
message(WARNING "macOS deployment target '${SANITIZER_MIN_OSX_VERSION}' is too new, setting to '${DEFAULT_SANITIZER_MIN_OSX_VERSION}' instead.")
set(SANITIZER_MIN_OSX_VERSION ${DEFAULT_SANITIZER_MIN_OSX_VERSION})
endif()
endif()
# We're setting the flag manually for each target OS
set(CMAKE_OSX_DEPLOYMENT_TARGET "")
set(DARWIN_COMMON_CFLAGS -stdlib=libc++)
set(DARWIN_COMMON_LINK_FLAGS
-stdlib=libc++
-lc++
-lc++abi)
check_linker_flag("-fapplication-extension" COMPILER_RT_HAS_APP_EXTENSION)
if(COMPILER_RT_HAS_APP_EXTENSION)
list(APPEND DARWIN_COMMON_LINK_FLAGS "-fapplication-extension")
endif()
set(DARWIN_osx_CFLAGS
${DARWIN_COMMON_CFLAGS}
${DARWIN_osx_MIN_VER_FLAG}=${SANITIZER_MIN_OSX_VERSION})
set(DARWIN_osx_LINK_FLAGS
${DARWIN_COMMON_LINK_FLAGS}
${DARWIN_osx_MIN_VER_FLAG}=${SANITIZER_MIN_OSX_VERSION})
if(DARWIN_osx_SYSROOT)
list(APPEND DARWIN_osx_CFLAGS -isysroot ${DARWIN_osx_SYSROOT})
list(APPEND DARWIN_osx_LINK_FLAGS -isysroot ${DARWIN_osx_SYSROOT})
endif()
# Figure out which arches to use for each OS
darwin_get_toolchain_supported_archs(toolchain_arches)
message(STATUS "Toolchain supported arches: ${toolchain_arches}")
if(NOT MACOSX_VERSION_MIN_FLAG)
darwin_test_archs(osx
DARWIN_osx_ARCHS
${toolchain_arches})
message(STATUS "OSX supported arches: ${DARWIN_osx_ARCHS}")
foreach(arch ${DARWIN_osx_ARCHS})
list(APPEND COMPILER_RT_SUPPORTED_ARCH ${arch})
set(CAN_TARGET_${arch} 1)
endforeach()
foreach(platform ${DARWIN_EMBEDDED_PLATFORMS})
if(DARWIN_${platform}sim_SYSROOT)
set(DARWIN_${platform}sim_CFLAGS
${DARWIN_COMMON_CFLAGS}
${DARWIN_${platform}sim_SANITIZER_MIN_VER_FLAG}
-isysroot ${DARWIN_${platform}sim_SYSROOT})
set(DARWIN_${platform}sim_LINK_FLAGS
${DARWIN_COMMON_LINK_FLAGS}
${DARWIN_${platform}sim_SANITIZER_MIN_VER_FLAG}
-isysroot ${DARWIN_${platform}sim_SYSROOT})
set(DARWIN_${platform}sim_SKIP_CC_KEXT On)
darwin_test_archs(${platform}sim
DARWIN_${platform}sim_ARCHS
${toolchain_arches})
message(STATUS "${platform} Simulator supported arches: ${DARWIN_${platform}sim_ARCHS}")
if(DARWIN_${platform}sim_ARCHS)
list(APPEND SANITIZER_COMMON_SUPPORTED_OS ${platform}sim)
list(APPEND PROFILE_SUPPORTED_OS ${platform}sim)
list(APPEND TSAN_SUPPORTED_OS ${platform}sim)
[CMake] Refactor iOS simulator/device test configuration generation code for LibFuzzer. Summary: In order to do this `FUZZER_SUPPORTED_OS` had to be pulled out of `lib/fuzzer/CMakeLists.txt` and into the main config so we can use it from the `test/fuzzer/CMakeList.txt`. `FUZZER_SUPPORTED_OS` currently has the same value of `SANITIZER_COMMON_SUPPORTED_OS` which preserves the existing behaviour but this allows us in the future to adjust the supported platforms independent of `SANITIZER_COMMON_SUPPORTED_OS`. This mirrors the other sanitizers. For non-Apple platforms `FUZZER_SUPPORTED_OS` is not defined and surprisingly this was the behaviour before this patch because `SANITIZER_COMMON_SUPPORTED_OS` was actually empty. This appears to not matter right now because the functions that take an `OS` as an argument seem to ignore it on non-Apple platforms. While this change tries to be NFC it is technically not because we now generate an iossim config whereas previously we didn't. This seems like the right thing to do because the build system was configured to compile LibFuzzer for iossim but previously we weren't generating a lit test config for it. The device/simulator testing configs don't run by default anyway so this shouldn't break testing. This change relies on the get_capitalized_apple_platform() function added in a previous commit. rdar://problem/58798733 Reviewers: kubamracek, yln Subscribers: mgorny, #sanitizers, llvm-commits Tags: #sanitizers, #llvm Differential Revision: https://reviews.llvm.org/D73243
2020-01-23 08:26:45 +08:00
list(APPEND FUZZER_SUPPORTED_OS ${platform}sim)
endif()
foreach(arch ${DARWIN_${platform}sim_ARCHS})
list(APPEND COMPILER_RT_SUPPORTED_ARCH ${arch})
set(CAN_TARGET_${arch} 1)
endforeach()
endif()
if(DARWIN_${platform}_SYSROOT)
set(DARWIN_${platform}_CFLAGS
${DARWIN_COMMON_CFLAGS}
${DARWIN_${platform}_SANITIZER_MIN_VER_FLAG}
-isysroot ${DARWIN_${platform}_SYSROOT})
set(DARWIN_${platform}_LINK_FLAGS
${DARWIN_COMMON_LINK_FLAGS}
${DARWIN_${platform}_SANITIZER_MIN_VER_FLAG}
-isysroot ${DARWIN_${platform}_SYSROOT})
darwin_test_archs(${platform}
DARWIN_${platform}_ARCHS
${toolchain_arches})
message(STATUS "${platform} supported arches: ${DARWIN_${platform}_ARCHS}")
if(DARWIN_${platform}_ARCHS)
list(APPEND SANITIZER_COMMON_SUPPORTED_OS ${platform})
list(APPEND PROFILE_SUPPORTED_OS ${platform})
list_intersect(DARWIN_${platform}_TSAN_ARCHS DARWIN_${platform}_ARCHS ALL_TSAN_SUPPORTED_ARCH)
if(DARWIN_${platform}_TSAN_ARCHS)
list(APPEND TSAN_SUPPORTED_OS ${platform})
endif()
[CMake] Refactor iOS simulator/device test configuration generation code for LibFuzzer. Summary: In order to do this `FUZZER_SUPPORTED_OS` had to be pulled out of `lib/fuzzer/CMakeLists.txt` and into the main config so we can use it from the `test/fuzzer/CMakeList.txt`. `FUZZER_SUPPORTED_OS` currently has the same value of `SANITIZER_COMMON_SUPPORTED_OS` which preserves the existing behaviour but this allows us in the future to adjust the supported platforms independent of `SANITIZER_COMMON_SUPPORTED_OS`. This mirrors the other sanitizers. For non-Apple platforms `FUZZER_SUPPORTED_OS` is not defined and surprisingly this was the behaviour before this patch because `SANITIZER_COMMON_SUPPORTED_OS` was actually empty. This appears to not matter right now because the functions that take an `OS` as an argument seem to ignore it on non-Apple platforms. While this change tries to be NFC it is technically not because we now generate an iossim config whereas previously we didn't. This seems like the right thing to do because the build system was configured to compile LibFuzzer for iossim but previously we weren't generating a lit test config for it. The device/simulator testing configs don't run by default anyway so this shouldn't break testing. This change relies on the get_capitalized_apple_platform() function added in a previous commit. rdar://problem/58798733 Reviewers: kubamracek, yln Subscribers: mgorny, #sanitizers, llvm-commits Tags: #sanitizers, #llvm Differential Revision: https://reviews.llvm.org/D73243
2020-01-23 08:26:45 +08:00
list(APPEND FUZZER_SUPPORTED_OS ${platform})
endif()
foreach(arch ${DARWIN_${platform}_ARCHS})
list(APPEND COMPILER_RT_SUPPORTED_ARCH ${arch})
set(CAN_TARGET_${arch} 1)
endforeach()
endif()
endforeach()
endif()
# for list_intersect
include(CompilerRTUtils)
list_intersect(SANITIZER_COMMON_SUPPORTED_ARCH
ALL_SANITIZER_COMMON_SUPPORTED_ARCH
COMPILER_RT_SUPPORTED_ARCH
)
set(LSAN_COMMON_SUPPORTED_ARCH ${SANITIZER_COMMON_SUPPORTED_ARCH})
set(UBSAN_COMMON_SUPPORTED_ARCH ${SANITIZER_COMMON_SUPPORTED_ARCH})
list_intersect(ASAN_SUPPORTED_ARCH
ALL_ASAN_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(DFSAN_SUPPORTED_ARCH
ALL_DFSAN_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(GWP_ASAN_SUPPORTED_ARCH
ALL_GWP_ASAN_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(LSAN_SUPPORTED_ARCH
ALL_LSAN_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(MSAN_SUPPORTED_ARCH
ALL_MSAN_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(HWASAN_SUPPORTED_ARCH
ALL_HWASAN_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(PROFILE_SUPPORTED_ARCH
ALL_PROFILE_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(TSAN_SUPPORTED_ARCH
ALL_TSAN_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(UBSAN_SUPPORTED_ARCH
ALL_UBSAN_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(SAFESTACK_SUPPORTED_ARCH
ALL_SAFESTACK_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(CFI_SUPPORTED_ARCH
ALL_CFI_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(SCUDO_SUPPORTED_ARCH
ALL_SCUDO_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(SCUDO_STANDALONE_SUPPORTED_ARCH
ALL_SCUDO_STANDALONE_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(FUZZER_SUPPORTED_ARCH
ALL_FUZZER_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(XRAY_SUPPORTED_ARCH
ALL_XRAY_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
list_intersect(SHADOWCALLSTACK_SUPPORTED_ARCH
ALL_SHADOWCALLSTACK_SUPPORTED_ARCH
SANITIZER_COMMON_SUPPORTED_ARCH)
else()
filter_available_targets(CRT_SUPPORTED_ARCH ${ALL_CRT_SUPPORTED_ARCH})
# Architectures supported by compiler-rt libraries.
filter_available_targets(SANITIZER_COMMON_SUPPORTED_ARCH
${ALL_SANITIZER_COMMON_SUPPORTED_ARCH})
# LSan and UBSan common files should be available on all architectures
# supported by other sanitizers (even if they build into dummy object files).
filter_available_targets(LSAN_COMMON_SUPPORTED_ARCH
${SANITIZER_COMMON_SUPPORTED_ARCH})
filter_available_targets(UBSAN_COMMON_SUPPORTED_ARCH
${SANITIZER_COMMON_SUPPORTED_ARCH})
filter_available_targets(ASAN_SUPPORTED_ARCH ${ALL_ASAN_SUPPORTED_ARCH})
filter_available_targets(FUZZER_SUPPORTED_ARCH ${ALL_FUZZER_SUPPORTED_ARCH})
filter_available_targets(DFSAN_SUPPORTED_ARCH ${ALL_DFSAN_SUPPORTED_ARCH})
filter_available_targets(LSAN_SUPPORTED_ARCH ${ALL_LSAN_SUPPORTED_ARCH})
filter_available_targets(MSAN_SUPPORTED_ARCH ${ALL_MSAN_SUPPORTED_ARCH})
filter_available_targets(HWASAN_SUPPORTED_ARCH ${ALL_HWASAN_SUPPORTED_ARCH})
filter_available_targets(PROFILE_SUPPORTED_ARCH ${ALL_PROFILE_SUPPORTED_ARCH})
filter_available_targets(TSAN_SUPPORTED_ARCH ${ALL_TSAN_SUPPORTED_ARCH})
filter_available_targets(UBSAN_SUPPORTED_ARCH ${ALL_UBSAN_SUPPORTED_ARCH})
filter_available_targets(SAFESTACK_SUPPORTED_ARCH
${ALL_SAFESTACK_SUPPORTED_ARCH})
filter_available_targets(CFI_SUPPORTED_ARCH ${ALL_CFI_SUPPORTED_ARCH})
[scudo] 32-bit and hardware agnostic support Summary: This update introduces i386 support for the Scudo Hardened Allocator, and offers software alternatives for functions that used to require hardware specific instruction sets. This should make porting to new architectures easier. Among the changes: - The chunk header has been changed to accomodate the size limitations encountered on 32-bit architectures. We now fit everything in 64-bit. This was achieved by storing the amount of unused bytes in an allocation rather than the size itself, as one can be deduced from the other with the help of the GetActuallyAllocatedSize function. As it turns out, this header can be used for both 64 and 32 bit, and as such we dropped the requirement for the 128-bit compare and exchange instruction support (cmpxchg16b). - Add 32-bit support for the checksum and the PRNG functions: if the SSE 4.2 instruction set is supported, use the 32-bit CRC32 instruction, and in the XorShift128, use a 32-bit based state instead of 64-bit. - Add software support for CRC32: if SSE 4.2 is not supported, fallback on a software implementation. - Modify tests that were not 32-bit compliant, and expand them to cover more allocation and alignment sizes. The random shuffle test has been deactivated for linux-i386 & linux-i686 as the 32-bit sanitizer allocator doesn't currently randomize chunks. Reviewers: alekseyshl, kcc Subscribers: filcab, llvm-commits, tberghammer, danalbert, srhines, mgorny, modocache Differential Revision: https://reviews.llvm.org/D26358 llvm-svn: 288255
2016-12-01 01:32:20 +08:00
filter_available_targets(SCUDO_SUPPORTED_ARCH ${ALL_SCUDO_SUPPORTED_ARCH})
filter_available_targets(SCUDO_STANDALONE_SUPPORTED_ARCH ${ALL_SCUDO_STANDALONE_SUPPORTED_ARCH})
filter_available_targets(XRAY_SUPPORTED_ARCH ${ALL_XRAY_SUPPORTED_ARCH})
filter_available_targets(SHADOWCALLSTACK_SUPPORTED_ARCH
${ALL_SHADOWCALLSTACK_SUPPORTED_ARCH})
filter_available_targets(GWP_ASAN_SUPPORTED_ARCH ${ALL_GWP_ASAN_SUPPORTED_ARCH})
endif()
if (MSVC)
# See if the DIA SDK is available and usable.
set(MSVC_DIA_SDK_DIR "$ENV{VSINSTALLDIR}DIA SDK")
if (IS_DIRECTORY ${MSVC_DIA_SDK_DIR})
set(CAN_SYMBOLIZE 1)
else()
set(CAN_SYMBOLIZE 0)
endif()
else()
set(CAN_SYMBOLIZE 1)
endif()
find_program(GOLD_EXECUTABLE NAMES ${LLVM_DEFAULT_TARGET_TRIPLE}-ld.gold ld.gold ${LLVM_DEFAULT_TARGET_TRIPLE}-ld ld DOC "The gold linker")
if(COMPILER_RT_SUPPORTED_ARCH)
list(REMOVE_DUPLICATES COMPILER_RT_SUPPORTED_ARCH)
endif()
message(STATUS "Compiler-RT supported architectures: ${COMPILER_RT_SUPPORTED_ARCH}")
set(ALL_SANITIZERS asan;dfsan;msan;hwasan;tsan;safestack;cfi;scudo;ubsan_minimal;gwp_asan)
set(COMPILER_RT_SANITIZERS_TO_BUILD all CACHE STRING
"sanitizers to build if supported on the target (all;${ALL_SANITIZERS})")
list_replace(COMPILER_RT_SANITIZERS_TO_BUILD all "${ALL_SANITIZERS}")
if (SANITIZER_COMMON_SUPPORTED_ARCH AND NOT LLVM_USE_SANITIZER AND
(OS_NAME MATCHES "Android|Darwin|Linux|FreeBSD|NetBSD|OpenBSD|Fuchsia|SunOS" OR
(OS_NAME MATCHES "Windows" AND NOT CYGWIN AND
(NOT MINGW OR CMAKE_CXX_COMPILER_ID MATCHES "Clang"))))
set(COMPILER_RT_HAS_SANITIZER_COMMON TRUE)
else()
set(COMPILER_RT_HAS_SANITIZER_COMMON FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON)
set(COMPILER_RT_HAS_INTERCEPTION TRUE)
else()
set(COMPILER_RT_HAS_INTERCEPTION FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND ASAN_SUPPORTED_ARCH AND
NOT OS_NAME MATCHES "OpenBSD")
set(COMPILER_RT_HAS_ASAN TRUE)
else()
set(COMPILER_RT_HAS_ASAN FALSE)
endif()
if (OS_NAME MATCHES "Linux|FreeBSD|Windows|NetBSD|SunOS")
set(COMPILER_RT_ASAN_HAS_STATIC_RUNTIME TRUE)
else()
set(COMPILER_RT_ASAN_HAS_STATIC_RUNTIME FALSE)
endif()
# TODO: Add builtins support.
if (CRT_SUPPORTED_ARCH AND OS_NAME MATCHES "Linux")
set(COMPILER_RT_HAS_CRT TRUE)
else()
set(COMPILER_RT_HAS_CRT FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND DFSAN_SUPPORTED_ARCH AND
OS_NAME MATCHES "Linux")
set(COMPILER_RT_HAS_DFSAN TRUE)
else()
set(COMPILER_RT_HAS_DFSAN FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND LSAN_SUPPORTED_ARCH AND
OS_NAME MATCHES "Darwin|Linux|NetBSD|Fuchsia")
set(COMPILER_RT_HAS_LSAN TRUE)
else()
set(COMPILER_RT_HAS_LSAN FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND MSAN_SUPPORTED_ARCH AND
OS_NAME MATCHES "Linux|FreeBSD|NetBSD")
set(COMPILER_RT_HAS_MSAN TRUE)
else()
set(COMPILER_RT_HAS_MSAN FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND HWASAN_SUPPORTED_ARCH AND
OS_NAME MATCHES "Linux|Android")
set(COMPILER_RT_HAS_HWASAN TRUE)
else()
set(COMPILER_RT_HAS_HWASAN FALSE)
endif()
if (PROFILE_SUPPORTED_ARCH AND NOT LLVM_USE_SANITIZER AND
OS_NAME MATCHES "Darwin|Linux|FreeBSD|Windows|Android|Fuchsia|SunOS|NetBSD")
set(COMPILER_RT_HAS_PROFILE TRUE)
else()
set(COMPILER_RT_HAS_PROFILE FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND TSAN_SUPPORTED_ARCH AND
OS_NAME MATCHES "Darwin|Linux|FreeBSD|Android|NetBSD")
set(COMPILER_RT_HAS_TSAN TRUE)
else()
set(COMPILER_RT_HAS_TSAN FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND UBSAN_SUPPORTED_ARCH AND
OS_NAME MATCHES "Darwin|Linux|FreeBSD|NetBSD|OpenBSD|Windows|Android|Fuchsia|SunOS")
set(COMPILER_RT_HAS_UBSAN TRUE)
else()
set(COMPILER_RT_HAS_UBSAN FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND UBSAN_SUPPORTED_ARCH AND
OS_NAME MATCHES "Linux|FreeBSD|NetBSD|OpenBSD|Android|Darwin")
set(COMPILER_RT_HAS_UBSAN_MINIMAL TRUE)
else()
set(COMPILER_RT_HAS_UBSAN_MINIMAL FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND SAFESTACK_SUPPORTED_ARCH AND
OS_NAME MATCHES "Linux|FreeBSD|NetBSD")
set(COMPILER_RT_HAS_SAFESTACK TRUE)
else()
set(COMPILER_RT_HAS_SAFESTACK FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND CFI_SUPPORTED_ARCH)
set(COMPILER_RT_HAS_CFI TRUE)
else()
set(COMPILER_RT_HAS_CFI FALSE)
endif()
#TODO(kostyak): add back Android & Fuchsia when the code settles a bit.
if (SCUDO_STANDALONE_SUPPORTED_ARCH AND OS_NAME MATCHES "Linux" AND
COMPILER_RT_HAS_AUXV)
set(COMPILER_RT_HAS_SCUDO_STANDALONE TRUE)
else()
set(COMPILER_RT_HAS_SCUDO_STANDALONE FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND SCUDO_SUPPORTED_ARCH AND
OS_NAME MATCHES "Linux|Android|Fuchsia")
set(COMPILER_RT_HAS_SCUDO TRUE)
else()
set(COMPILER_RT_HAS_SCUDO FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND XRAY_SUPPORTED_ARCH AND
OS_NAME MATCHES "Darwin|Linux|FreeBSD|NetBSD|OpenBSD|Fuchsia")
set(COMPILER_RT_HAS_XRAY TRUE)
else()
set(COMPILER_RT_HAS_XRAY FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND FUZZER_SUPPORTED_ARCH AND
OS_NAME MATCHES "Android|Darwin|Linux|NetBSD|FreeBSD|OpenBSD|Fuchsia|Windows")
set(COMPILER_RT_HAS_FUZZER TRUE)
else()
set(COMPILER_RT_HAS_FUZZER FALSE)
endif()
if (COMPILER_RT_HAS_SANITIZER_COMMON AND SHADOWCALLSTACK_SUPPORTED_ARCH AND
OS_NAME MATCHES "Linux|Android")
set(COMPILER_RT_HAS_SHADOWCALLSTACK TRUE)
else()
set(COMPILER_RT_HAS_SHADOWCALLSTACK FALSE)
endif()
# Note: Fuchsia and Windows are not currently supported by GWP-ASan. Support
# is planned for these platforms. Darwin is also not supported due to TLS
# calling malloc on first use.
# TODO(hctim): Enable this on Android again. Looks like it's causing a SIGSEGV
# for Scudo and GWP-ASan, further testing needed.
if (COMPILER_RT_HAS_SANITIZER_COMMON AND GWP_ASAN_SUPPORTED_ARCH AND
OS_NAME MATCHES "Linux")
set(COMPILER_RT_HAS_GWP_ASAN TRUE)
else()
set(COMPILER_RT_HAS_GWP_ASAN FALSE)
endif()
pythonize_bool(COMPILER_RT_HAS_GWP_ASAN)