##===----------------------------------------------------------------------===## # # Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. # See https://llvm.org/LICENSE.txt for license information. # SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception # ##===----------------------------------------------------------------------===## # # Build the DeviceRTL for all toolchains that are available # ##===----------------------------------------------------------------------===## set(LIBOMPTARGET_BUILD_DEVICERTL_BCLIB TRUE CACHE BOOL "Can be set to false to disable building this library.") if (NOT LIBOMPTARGET_BUILD_DEVICERTL_BCLIB) libomptarget_say("Not building DeviceRTL: Disabled by LIBOMPTARGET_BUILD_DEVICERTL_BCLIB") return() endif() # Check to ensure the host system is a supported host architecture. if(NOT ${CMAKE_SIZEOF_VOID_P} EQUAL "8") libomptarget_say("Not building DeviceRTL: Runtime does not support 32-bit hosts") return() endif() if (LLVM_DIR) # Builds that use pre-installed LLVM have LLVM_DIR set. # A standalone or LLVM_ENABLE_RUNTIMES=openmp build takes this route find_program(CLANG_TOOL clang PATHS ${LLVM_TOOLS_BINARY_DIR} NO_DEFAULT_PATH) find_program(PACKAGER_TOOL clang-offload-packager PATHS ${LLVM_TOOLS_BINARY_DIR} NO_DEFAULT_PATH) find_program(LINK_TOOL llvm-link PATHS ${LLVM_TOOLS_BINARY_DIR} NO_DEFAULT_PATH) find_program(OPT_TOOL opt PATHS ${LLVM_TOOLS_BINARY_DIR} NO_DEFAULT_PATH) if ((NOT CLANG_TOOL) OR (NOT LINK_TOOL) OR (NOT OPT_TOOL) OR (NOT PACKAGER_TOOL)) libomptarget_say("Not building DeviceRTL. Missing clang: ${CLANG_TOOL}, llvm-link: ${LINK_TOOL}, opt: ${OPT_TOOL}, or clang-offload-packager: ${PACKAGER_TOOL}") return() else() libomptarget_say("Building DeviceRTL. Using clang: ${CLANG_TOOL}, llvm-link: ${LINK_TOOL} and opt: ${OPT_TOOL}") endif() elseif (LLVM_TOOL_CLANG_BUILD AND NOT CMAKE_CROSSCOMPILING AND NOT OPENMP_STANDALONE_BUILD) # LLVM in-tree builds may use CMake target names to discover the tools. # A LLVM_ENABLE_PROJECTS=openmp build takes this route set(CLANG_TOOL $) set(PACKAGER_TOOL $) set(LINK_TOOL $) set(OPT_TOOL $) libomptarget_say("Building DeviceRTL. Using clang from in-tree build") else() libomptarget_say("Not building DeviceRTL. No appropriate clang found") return() endif() set(devicertl_base_directory ${CMAKE_CURRENT_SOURCE_DIR}) set(include_directory ${devicertl_base_directory}/include) set(source_directory ${devicertl_base_directory}/src) set(all_amdgpu_architectures "gfx700;gfx701;gfx801;gfx803;gfx900;gfx902;gfx906" "gfx908;gfx90a;gfx90c;gfx940;gfx941;gfx942;gfx1010" "gfx1030;gfx1031;gfx1032;gfx1033;gfx1034;gfx1035" "gfx1036;gfx1100;gfx1101;gfx1102;gfx1103;gfx1150" "gfx1151") set(all_nvptx_architectures "sm_35;sm_37;sm_50;sm_52;sm_53;sm_60;sm_61;sm_62" "sm_70;sm_72;sm_75;sm_80;sm_86;sm_87;sm_89;sm_90") set(all_gpu_architectures "${all_amdgpu_architectures};${all_nvptx_architectures}") set(LIBOMPTARGET_DEVICE_ARCHITECTURES "all" CACHE STRING "List of device architectures to be used to compile the OpenMP DeviceRTL.") if(LIBOMPTARGET_DEVICE_ARCHITECTURES STREQUAL "all") set(LIBOMPTARGET_DEVICE_ARCHITECTURES ${all_gpu_architectures}) elseif(LIBOMPTARGET_DEVICE_ARCHITECTURES STREQUAL "auto" OR LIBOMPTARGET_DEVICE_ARCHITECTURES STREQUAL "native") if(NOT LIBOMPTARGET_NVPTX_ARCH AND NOT LIBOMPTARGET_AMDGPU_ARCH) libomptarget_error_say( "Could not find 'amdgpu-arch' and 'nvptx-arch' tools required for 'auto'") elseif(NOT LIBOMPTARGET_FOUND_NVIDIA_GPU AND NOT LIBOMPTARGET_FOUND_AMDGPU_GPU) libomptarget_error_say("No AMD or NVIDIA GPU found on the system when using 'auto'") endif() set(LIBOMPTARGET_DEVICE_ARCHITECTURES "${LIBOMPTARGET_NVPTX_DETECTED_ARCH_LIST};${LIBOMPTARGET_AMDGPU_DETECTED_ARCH_LIST}") endif() list(REMOVE_DUPLICATES LIBOMPTARGET_DEVICE_ARCHITECTURES) set(include_files ${include_directory}/Allocator.h ${include_directory}/Configuration.h ${include_directory}/Debug.h ${include_directory}/Interface.h ${include_directory}/LibC.h ${include_directory}/Mapping.h ${include_directory}/State.h ${include_directory}/Synchronization.h ${include_directory}/Types.h ${include_directory}/Utils.h ) set(src_files ${source_directory}/Allocator.cpp ${source_directory}/Configuration.cpp ${source_directory}/Debug.cpp ${source_directory}/Kernel.cpp ${source_directory}/LibC.cpp ${source_directory}/Mapping.cpp ${source_directory}/Misc.cpp ${source_directory}/Parallelism.cpp ${source_directory}/Reduction.cpp ${source_directory}/State.cpp ${source_directory}/Synchronization.cpp ${source_directory}/Tasking.cpp ${source_directory}/Utils.cpp ${source_directory}/Workshare.cpp ) # We disable the slp vectorizer during the runtime optimization to avoid # vectorized accesses to the shared state. Generally, those are "good" but # the optimizer pipeline (esp. Attributor) does not fully support vectorized # instructions yet and we end up missing out on way more important constant # propagation. That said, we will run the vectorizer again after the runtime # has been linked into the user program. set(clang_opt_flags -O3 -mllvm -openmp-opt-disable -DSHARED_SCRATCHPAD_SIZE=512 -mllvm -vectorize-slp=false ) set(link_opt_flags -O3 -openmp-opt-disable -attributor-enable=module -vectorize-slp=false ) set(link_export_flag -passes=internalize -internalize-public-api-file=${source_directory}/exports) # Prepend -I to each list element set (LIBOMPTARGET_LLVM_INCLUDE_DIRS_DEVICERTL "${LIBOMPTARGET_LLVM_INCLUDE_DIRS}") list(TRANSFORM LIBOMPTARGET_LLVM_INCLUDE_DIRS_DEVICERTL PREPEND "-I") # Set flags for LLVM Bitcode compilation. set(bc_flags -c -foffload-lto -std=c++17 -fvisibility=hidden ${clang_opt_flags} --offload-device-only -nocudalib -nogpulib -nostdinc -fopenmp -fopenmp-cuda-mode -Wno-unknown-cuda-version -DOMPTARGET_DEVICE_RUNTIME -I${include_directory} -I${devicertl_base_directory}/../include ${LIBOMPTARGET_LLVM_INCLUDE_DIRS_DEVICERTL} ) # first create an object target add_library(omptarget.devicertl.all_objs OBJECT IMPORTED) function(compileDeviceRTLLibrary target_cpu target_name target_triple) set(target_bc_flags ${ARGN}) set(bc_files "") foreach(src ${src_files}) get_filename_component(infile ${src} ABSOLUTE) get_filename_component(outfile ${src} NAME) set(outfile "${outfile}-${target_cpu}.bc") set(depfile "${outfile}.d") add_custom_command(OUTPUT ${outfile} COMMAND ${CLANG_TOOL} ${bc_flags} --offload-arch=${target_cpu} ${target_bc_flags} -MD -MF ${depfile} ${infile} -o ${outfile} DEPENDS ${infile} DEPFILE ${depfile} COMMENT "Building LLVM bitcode ${outfile}" VERBATIM ) if(TARGET clang) # Add a file-level dependency to ensure that clang is up-to-date. # By default, add_custom_command only builds clang if the # executable is missing. add_custom_command(OUTPUT ${outfile} DEPENDS clang APPEND ) endif() set_property(DIRECTORY APPEND PROPERTY ADDITIONAL_MAKE_CLEAN_FILES ${outfile}) list(APPEND bc_files ${outfile}) endforeach() set(bclib_name "libomptarget-${target_name}-${target_cpu}.bc") # Link to a bitcode library. add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/linked_${bclib_name} COMMAND ${LINK_TOOL} -o ${CMAKE_CURRENT_BINARY_DIR}/linked_${bclib_name} ${bc_files} DEPENDS ${bc_files} COMMENT "Linking LLVM bitcode ${bclib_name}" ) if(TARGET llvm-link) add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/linked_${bclib_name} DEPENDS llvm-link APPEND) endif() add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/internalized_${bclib_name} COMMAND ${OPT_TOOL} ${link_export_flag} ${CMAKE_CURRENT_BINARY_DIR}/linked_${bclib_name} -o ${CMAKE_CURRENT_BINARY_DIR}/internalized_${bclib_name} DEPENDS ${source_directory}/exports ${CMAKE_CURRENT_BINARY_DIR}/linked_${bclib_name} COMMENT "Internalizing LLVM bitcode ${bclib_name}" ) if(TARGET opt) add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/internalized_${bclib_name} DEPENDS opt APPEND) endif() add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/${bclib_name} COMMAND ${OPT_TOOL} ${link_opt_flags} ${CMAKE_CURRENT_BINARY_DIR}/internalized_${bclib_name} -o ${CMAKE_CURRENT_BINARY_DIR}/${bclib_name} DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/internalized_${bclib_name} COMMENT "Optimizing LLVM bitcode ${bclib_name}" ) if(TARGET opt) add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/${bclib_name} DEPENDS opt APPEND) endif() set(bclib_target_name "omptarget-${target_name}-${target_cpu}-bc") add_custom_target(${bclib_target_name} DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/${bclib_name}) # Copy library to destination. add_custom_command(TARGET ${bclib_target_name} POST_BUILD COMMAND ${CMAKE_COMMAND} -E copy ${CMAKE_CURRENT_BINARY_DIR}/${bclib_name} ${LIBOMPTARGET_LIBRARY_DIR}) add_dependencies(omptarget.devicertl.${target_name} ${bclib_target_name}) set_property(DIRECTORY APPEND PROPERTY ADDITIONAL_MAKE_CLEAN_FILES ${bclib_name} ${LIBOMPTARGET_LIBRARY_DIR}/${bclib_name}) # Install bitcode library under the lib destination folder. install(FILES ${CMAKE_CURRENT_BINARY_DIR}/${bclib_name} DESTINATION "${OPENMP_INSTALL_LIBDIR}") set(target_feature "") if("${target_triple}" STREQUAL "nvptx64-nvidia-cuda") set(target_feature "feature=+ptx63") endif() # Package the bitcode in the bitcode and embed it in an ELF for the static library add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/packaged_${bclib_name} COMMAND ${PACKAGER_TOOL} -o ${CMAKE_CURRENT_BINARY_DIR}/packaged_${bclib_name} "--image=file=${CMAKE_CURRENT_BINARY_DIR}/${bclib_name},${target_feature},triple=${target_triple},arch=${target_cpu},kind=openmp" DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/${bclib_name} COMMENT "Packaging LLVM offloading binary ${bclib_name}.out" ) if(TARGET clang-offload-packager) add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/packaged_${bclib_name} DEPENDS clang-offload-packager APPEND) endif() set(output_name "${CMAKE_CURRENT_BINARY_DIR}/devicertl-${target_name}-${target_cpu}.o") add_custom_command(OUTPUT ${output_name} COMMAND ${CLANG_TOOL} --std=c++17 -c -nostdlib -Xclang -fembed-offload-object=${CMAKE_CURRENT_BINARY_DIR}/packaged_${bclib_name} -o ${output_name} ${source_directory}/Stub.cpp DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/packaged_${bclib_name} ${source_directory}/Stub.cpp COMMENT "Embedding LLVM offloading binary in devicertl-${target_name}-${target_cpu}.o" VERBATIM ) if(TARGET clang) add_custom_command(OUTPUT ${output_name} DEPENDS clang APPEND) endif() set_property(DIRECTORY APPEND PROPERTY ADDITIONAL_MAKE_CLEAN_FILES ${output_name}) set_property(TARGET omptarget.devicertl.all_objs APPEND PROPERTY IMPORTED_OBJECTS ${output_name}) if (CMAKE_EXPORT_COMPILE_COMMANDS) set(ide_target_name omptarget-ide-${target_name}-${target_cpu}) add_library(${ide_target_name} STATIC EXCLUDE_FROM_ALL ${src_files}) target_compile_options(${ide_target_name} PRIVATE -fopenmp --offload-arch=${target_cpu} -fopenmp-cuda-mode -mllvm -openmp-opt-disable -foffload-lto -fvisibility=hidden --offload-device-only -nocudalib -nogpulib -nostdinc -Wno-unknown-cuda-version ) target_compile_definitions(${ide_target_name} PRIVATE SHARED_SCRATCHPAD_SIZE=512) target_include_directories(${ide_target_name} PRIVATE ${include_directory} ${devicertl_base_directory}/../include ${LIBOMPTARGET_LLVM_INCLUDE_DIRS} ) install(TARGETS ${ide_target_name} EXCLUDE_FROM_ALL) endif() endfunction() # Generate a Bitcode library for all the gpu architectures the user requested. add_custom_target(omptarget.devicertl.nvptx) add_custom_target(omptarget.devicertl.amdgpu) foreach(gpu_arch ${LIBOMPTARGET_DEVICE_ARCHITECTURES}) if("${gpu_arch}" IN_LIST all_amdgpu_architectures) compileDeviceRTLLibrary(${gpu_arch} amdgpu amdgcn-amd-amdhsa -Xclang -mcode-object-version=none) elseif("${gpu_arch}" IN_LIST all_nvptx_architectures) compileDeviceRTLLibrary(${gpu_arch} nvptx nvptx64-nvidia-cuda --cuda-feature=+ptx61) else() libomptarget_error_say("Unknown GPU architecture '${gpu_arch}'") endif() endforeach() # Archive all the object files generated above into a static library add_library(omptarget.devicertl STATIC) set_target_properties(omptarget.devicertl PROPERTIES ARCHIVE_OUTPUT_DIRECTORY "${LIBOMPTARGET_LLVM_LIBRARY_INTDIR}" LINKER_LANGUAGE CXX ) target_link_libraries(omptarget.devicertl PRIVATE omptarget.devicertl.all_objs) install(TARGETS omptarget.devicertl ARCHIVE DESTINATION ${OPENMP_INSTALL_LIBDIR})