# CMake build for CompilerRT. # # This build assumes that CompilerRT is checked out into the # 'projects/compiler-rt' inside of an LLVM tree, it is not a stand-alone build # system. # # An important constraint of the build is that it only produces libraries # based on the ability of the host toolchain to target various platforms. include(LLVMParseArguments) # The CompilerRT build system requires CMake version 2.8.8 or higher in order # to use its support for building convenience "libraries" as a collection of # .o files. This is particularly useful in producing larger, more complex # runtime libraries. cmake_minimum_required(VERSION 2.8.8) # Top level target used to build all compiler-rt libraries. add_custom_target(compiler-rt) # Compute the Clang version from the LLVM version. # FIXME: We should be able to reuse CLANG_VERSION variable calculated # in Clang cmake files, instead of copying the rules here. string(REGEX MATCH "[0-9]+\\.[0-9]+(\\.[0-9]+)?" CLANG_VERSION ${PACKAGE_VERSION}) # Setup the paths where compiler-rt runtimes and headers should be stored. set(LIBCLANG_INSTALL_PATH lib${LLVM_LIBDIR_SUFFIX}/clang/${CLANG_VERSION}) string(TOLOWER ${CMAKE_SYSTEM_NAME} LIBCLANG_OS_DIR) set(CLANG_RESOURCE_DIR ${LLVM_BINARY_DIR}/lib/clang/${CLANG_VERSION}) set(COMPILER_RT_LIBRARY_OUTPUT_DIR ${CLANG_RESOURCE_DIR}/lib/${LIBCLANG_OS_DIR}) set(COMPILER_RT_LIBRARY_INSTALL_DIR ${LIBCLANG_INSTALL_PATH}/lib/${LIBCLANG_OS_DIR}) # Add path for custom modules set(CMAKE_MODULE_PATH ${CMAKE_MODULE_PATH} "${CMAKE_CURRENT_SOURCE_DIR}/cmake/Modules" ) include(AddCompilerRT) set(COMPILER_RT_SOURCE_DIR ${CMAKE_CURRENT_SOURCE_DIR}) set(COMPILER_RT_BINARY_DIR ${CMAKE_CURRENT_BINARY_DIR}) # Setup custom SDK sysroots. set(COMPILER_RT_DARWIN_SDK_SYSROOT ${COMPILER_RT_SOURCE_DIR}/SDKs/darwin) set(COMPILER_RT_LINUX_SDK_SYSROOT ${COMPILER_RT_SOURCE_DIR}/SDKs/linux) include(SanitizerUtils) # 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() if (NOT MSVC) set(TARGET_64_BIT_CFLAGS "-m64") set(TARGET_32_BIT_CFLAGS "-m32") else() set(TARGET_64_BIT_CFLAGS "") set(TARGET_32_BIT_CFLAGS "") endif() # List of architectures we can target. set(COMPILER_RT_SUPPORTED_ARCH) 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: ${arch}") else() set(${out_var} ${TARGET_${arch}_CFLAGS} PARENT_SCOPE) endif() endfunction() # 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.c) file(WRITE ${SIMPLE_SOURCE} "#include \nint main() {}") # test_target_arch( ) # Sets the target flags for a given architecture and determines if this # architecture is supported by trying to build a simple file. macro(test_target_arch arch) set(TARGET_${arch}_CFLAGS ${ARGN}) try_compile(CAN_TARGET_${arch} ${CMAKE_BINARY_DIR} ${SIMPLE_SOURCE} COMPILE_DEFINITIONS "${TARGET_${arch}_CFLAGS}" CMAKE_FLAGS "-DCMAKE_EXE_LINKER_FLAGS:STRING=${TARGET_${arch}_CFLAGS}") if(${CAN_TARGET_${arch}}) list(APPEND COMPILER_RT_SUPPORTED_ARCH ${arch}) endif() endmacro() if("${LLVM_NATIVE_ARCH}" STREQUAL "X86") if (NOT MSVC) test_target_arch(x86_64 ${TARGET_64_BIT_CFLAGS}) endif() test_target_arch(i386 ${TARGET_32_BIT_CFLAGS}) elseif("${LLVM_NATIVE_ARCH}" STREQUAL "PowerPC") test_target_arch(powerpc64 ${TARGET_64_BIT_CFLAGS}) endif() # We only support running instrumented tests when we're not cross compiling # and target a unix-like system. On Android we define the rules for building # unit tests, but don't execute them. if("${CMAKE_HOST_SYSTEM}" STREQUAL "${CMAKE_SYSTEM}" AND UNIX AND NOT ANDROID) option(COMPILER_RT_CAN_EXECUTE_TESTS "Can we execute instrumented tests" ON) else() option(COMPILER_RT_CAN_EXECUTE_TESTS "Can we execute instrumented tests" OFF) endif() # Check if compiler-rt is built with libc++. find_flag_in_string("${CMAKE_CXX_FLAGS}" "-stdlib=libc++" COMPILER_RT_USES_LIBCXX) function(filter_available_targets out_var) set(archs) foreach(arch ${ARGN}) list(FIND COMPILER_RT_SUPPORTED_ARCH ${arch} ARCH_INDEX) if(NOT (ARCH_INDEX EQUAL -1) AND CAN_TARGET_${arch}) list(APPEND archs ${arch}) endif() endforeach() set(${out_var} ${archs} PARENT_SCOPE) endfunction() option(COMPILER_RT_DEBUG "Build runtimes with full debug info" OFF) # COMPILER_RT_DEBUG_PYBOOL is used by lit.common.configured.in. pythonize_bool(COMPILER_RT_DEBUG) # Provide some common commmandline flags for Sanitizer runtimes. if (NOT MSVC) set(SANITIZER_COMMON_CFLAGS -fPIC -fno-builtin -fno-exceptions -fomit-frame-pointer -funwind-tables -fno-stack-protector -Wno-gnu # Variadic macros with 0 arguments for ... -fvisibility=hidden ) if (NOT COMPILER_RT_DEBUG) list(APPEND SANITIZER_COMMON_CFLAGS -O3) endif() else() set(SANITIZER_COMMON_CFLAGS /MT /Zi /Oy- /GS- /wd4722 ) endif() # Build sanitizer runtimes with debug info. (MSVC gets /Zi above) if (NOT MSVC) check_cxx_compiler_flag(-gline-tables-only SUPPORTS_GLINE_TABLES_ONLY_FLAG) if(SUPPORTS_GLINE_TABLES_ONLY_FLAG AND NOT COMPILER_RT_DEBUG) list(APPEND SANITIZER_COMMON_CFLAGS -gline-tables-only) else() list(APPEND SANITIZER_COMMON_CFLAGS -g) endif() endif() # Warnings suppressions. check_cxx_compiler_flag(-Wno-variadic-macros SUPPORTS_NO_VARIADIC_MACROS_FLAG) if(SUPPORTS_NO_VARIADIC_MACROS_FLAG) list(APPEND SANITIZER_COMMON_CFLAGS -Wno-variadic-macros) endif() check_cxx_compiler_flag(-Wno-c99-extensions SUPPORTS_NO_C99_EXTENSIONS_FLAG) if(SUPPORTS_NO_C99_EXTENSIONS_FLAG) list(APPEND SANITIZER_COMMON_CFLAGS -Wno-c99-extensions) endif() # Sanitizer may not have libstdc++, so we can have problems with virtual # destructors. check_cxx_compiler_flag(-Wno-non-virtual-dtor SUPPORTS_NO_NON_VIRTUAL_DTOR_FLAG) if (SUPPORTS_NO_NON_VIRTUAL_DTOR_FLAG) list(APPEND SANITIZER_COMMON_CFLAGS -Wno-non-virtual-dtor) endif() check_cxx_compiler_flag(-Wglobal-constructors SUPPORTS_GLOBAL_CONSTRUCTORS_FLAG) # Not all sanitizers forbid global constructors. if(APPLE) # Obtain the iOS Simulator SDK path from xcodebuild. execute_process( COMMAND xcodebuild -version -sdk iphonesimulator Path OUTPUT_VARIABLE IOSSIM_SDK_DIR OUTPUT_STRIP_TRAILING_WHITESPACE ) set(SANITIZER_COMMON_SUPPORTED_DARWIN_OS osx) if (IOSSIM_SDK_DIR) list(APPEND SANITIZER_COMMON_SUPPORTED_DARWIN_OS iossim) endif() if(COMPILER_RT_USES_LIBCXX) set(SANITIZER_MIN_OSX_VERSION 10.7) else() set(SANITIZER_MIN_OSX_VERSION 10.6) endif() set(DARWIN_osx_CFLAGS -mmacosx-version-min=${SANITIZER_MIN_OSX_VERSION}) set(DARWIN_iossim_CFLAGS -mios-simulator-version-min=7.0 -isysroot ${IOSSIM_SDK_DIR}) set(DARWIN_osx_LINKFLAGS) set(DARWIN_iossim_LINKFLAGS -Wl,-ios_simulator_version_min,7.0.0 -mios-simulator-version-min=7.0 -Wl,-syslibroot,${IOSSIM_SDK_DIR}) endif() # Architectures supported by Sanitizer runtimes. Specific sanitizers may # support only subset of these (e.g. TSan works on x86_64 only). filter_available_targets(SANITIZER_COMMON_SUPPORTED_ARCH x86_64 i386 powerpc64) # Add the public header's directory to the includes for all of compiler-rt. include_directories(include) add_subdirectory(include) set(SANITIZER_COMMON_LIT_TEST_DEPS clang clang-headers FileCheck count not llvm-nm llvm-symbolizer compiler-rt-headers) # Check code style when running lit tests for sanitizers. if(UNIX) list(APPEND SANITIZER_COMMON_LIT_TEST_DEPS SanitizerLintCheck) endif() add_subdirectory(lib) if(LLVM_INCLUDE_TESTS) # Currently the tests have not been ported to CMake, so disable this # directory. # #add_subdirectory(test) endif()