# This is a helper function and not a build rule. It is to be used by the # various test rules to generate the full list of object files # recursively produced by "add_entrypoint_object" and "add_object_library" # targets. # Usage: # get_object_files_for_test( # # [ ...]) # # The list of object files is collected in . # If skipped entrypoints were found, then is # set to a true value. # targetN is either an "add_entrypoint_target" target or an # "add_object_library" target. function(get_object_files_for_test result skipped_entrypoints_list) set(object_files "") set(skipped_list "") foreach(dep IN LISTS ARGN) if (NOT TARGET ${dep}) # Skip any tests whose dependencies have not been defined. list(APPEND skipped_list ${dep}) continue() endif() get_target_property(dep_type ${dep} "TARGET_TYPE") if(NOT dep_type) # Target for which TARGET_TYPE property is not set do not # provide any object files. continue() endif() if(${dep_type} STREQUAL ${OBJECT_LIBRARY_TARGET_TYPE}) get_target_property(dep_object_files ${dep} "OBJECT_FILES") if(dep_object_files) list(APPEND object_files ${dep_object_files}) endif() elseif(${dep_type} STREQUAL ${ENTRYPOINT_OBJ_TARGET_TYPE}) get_target_property(is_skipped ${dep} "SKIPPED") if(is_skipped) list(APPEND skipped_list ${dep}) continue() endif() get_target_property(object_file_raw ${dep} "OBJECT_FILE_RAW") if(object_file_raw) list(APPEND object_files ${object_file_raw}) endif() endif() get_target_property(indirect_deps ${dep} "DEPS") get_object_files_for_test( indirect_objfiles indirect_skipped_list ${indirect_deps}) list(APPEND object_files ${indirect_objfiles}) if(indirect_skipped_list) list(APPEND skipped_list ${indirect_skipped_list}) endif() endforeach(dep) list(REMOVE_DUPLICATES object_files) set(${result} ${object_files} PARENT_SCOPE) list(REMOVE_DUPLICATES skipped_list) set(${skipped_entrypoints_list} ${skipped_list} PARENT_SCOPE) endfunction(get_object_files_for_test) # Rule to add a libc unittest. # Usage # add_libc_unittest( # # SUITE # SRCS # HDRS # DEPENDS # COMPILE_OPTIONS # LINK_LIBRARIES # ) function(create_libc_unittest fq_target_name) if(NOT LLVM_INCLUDE_TESTS) return() endif() cmake_parse_arguments( "LIBC_UNITTEST" "NO_RUN_POSTBUILD" # Optional arguments "SUITE;CXX_STANDARD" # Single value arguments "SRCS;HDRS;DEPENDS;COMPILE_OPTIONS;LINK_LIBRARIES;FLAGS" # Multi-value arguments ${ARGN} ) if(NOT LIBC_UNITTEST_SRCS) message(FATAL_ERROR "'add_libc_unittest' target requires a SRCS list of .cpp " "files.") endif() if(NOT LIBC_UNITTEST_DEPENDS) message(FATAL_ERROR "'add_libc_unittest' target requires a DEPENDS list of " "'add_entrypoint_object' targets.") endif() get_fq_deps_list(fq_deps_list ${LIBC_UNITTEST_DEPENDS}) get_object_files_for_test( link_object_files skipped_entrypoints_list ${fq_deps_list}) if(skipped_entrypoints_list) # If a test is OS/target machine independent, it has to be skipped if the # OS/target machine combination does not provide any dependent entrypoints. # If a test is OS/target machine specific, then such a test will live is a # OS/target machine specific directory and will be skipped at the directory # level if required. # # There can potentially be a setup like this: A unittest is setup for a # OS/target machine independent object library, which in turn depends on a # machine specific object library. Such a test would be testing internals of # the libc and it is assumed that they will be rare in practice. So, they # can be skipped in the corresponding CMake files using platform specific # logic. This pattern is followed in the startup tests for example. # # Another pattern that is present currently is to detect machine # capabilities and add entrypoints and tests accordingly. That approach is # much lower level approach and is independent of the kind of skipping that # is happening here at the entrypoint level. if(LIBC_CMAKE_VERBOSE_LOGGING) set(msg "Skipping unittest ${fq_target_name} as it has missing deps: " "${skipped_entrypoints_list}.") message(STATUS ${msg}) endif() return() endif() if(SHOW_INTERMEDIATE_OBJECTS) message(STATUS "Adding unit test ${fq_target_name}") if(${SHOW_INTERMEDIATE_OBJECTS} STREQUAL "DEPS") foreach(dep IN LISTS ADD_OBJECT_DEPENDS) message(STATUS " ${fq_target_name} depends on ${dep}") endforeach() endif() endif() if(LIBC_UNITTEST_NO_RUN_POSTBUILD) set(fq_build_target_name ${fq_target_name}) else() set(fq_build_target_name ${fq_target_name}.__build__) endif() add_executable( ${fq_build_target_name} EXCLUDE_FROM_ALL ${LIBC_UNITTEST_SRCS} ${LIBC_UNITTEST_HDRS} ) target_include_directories( ${fq_build_target_name} PRIVATE ${LIBC_SOURCE_DIR} ${LIBC_BUILD_DIR} ${LIBC_BUILD_DIR}/include ) target_compile_options( ${fq_build_target_name} PRIVATE -fpie ${LIBC_COMPILE_OPTIONS_DEFAULT} ) if(LIBC_UNITTEST_COMPILE_OPTIONS) target_compile_options( ${fq_build_target_name} PRIVATE ${LIBC_UNITTEST_COMPILE_OPTIONS} ) endif() if(NOT LIBC_UNITTEST_CXX_STANDARD) set(LIBC_UNITTEST_CXX_STANDARD ${CMAKE_CXX_STANDARD}) endif() set_target_properties( ${fq_build_target_name} PROPERTIES CXX_STANDARD ${LIBC_UNITTEST_CXX_STANDARD} ) set(link_libraries ${link_object_files}) # Test object files will depend on LINK_LIBRARIES passed down from `add_fp_unittest` foreach(lib IN LISTS LIBC_UNITTEST_LINK_LIBRARIES) if(TARGET ${lib}.unit) list(APPEND link_libraries ${lib}.unit) else() list(APPEND link_libraries ${lib}) endif() endforeach() set_target_properties(${fq_build_target_name} PROPERTIES RUNTIME_OUTPUT_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}) add_dependencies( ${fq_build_target_name} ${fq_deps_list} ) # LibcUnitTest should not depend on anything in LINK_LIBRARIES. list(APPEND link_libraries LibcDeathTestExecutors.unit LibcTest.unit) target_link_libraries(${fq_build_target_name} PRIVATE ${link_libraries}) if(NOT LIBC_UNITTEST_NO_RUN_POSTBUILD) add_custom_target( ${fq_target_name} COMMAND ${fq_build_target_name} COMMENT "Running unit test ${fq_target_name}" ) endif() if(LIBC_UNITTEST_SUITE) add_dependencies( ${LIBC_UNITTEST_SUITE} ${fq_target_name} ) endif() add_dependencies(libc-unit-tests ${fq_target_name}) endfunction(create_libc_unittest) # Internal function, used by `add_libc_unittest`. function(expand_flags_for_libc_unittest target_name flags) cmake_parse_arguments( "EXPAND_FLAGS" "IGNORE_MARKER" # No Optional arguments "" # No Single-value arguments "DEPENDS;FLAGS" # Multi-value arguments ${ARGN} ) list(LENGTH flags nflags) if(NOT ${nflags}) create_libc_unittest( ${target_name} DEPENDS "${EXPAND_FLAGS_DEPENDS}" FLAGS "${EXPAND_FLAGS_FLAGS}" "${EXPAND_FLAGS_UNPARSED_ARGUMENTS}" ) return() endif() list(GET flags 0 flag) list(REMOVE_AT flags 0) extract_flag_modifier(${flag} real_flag modifier) if(NOT "${modifier}" STREQUAL "NO") expand_flags_for_libc_unittest( ${target_name} "${flags}" DEPENDS "${EXPAND_FLAGS_DEPENDS}" IGNORE_MARKER FLAGS "${EXPAND_FLAGS_FLAGS}" IGNORE_MARKER "${EXPAND_FLAGS_UNPARSED_ARGUMENTS}" ) endif() if("${real_flag}" STREQUAL "" OR "${modifier}" STREQUAL "ONLY") return() endif() set(NEW_FLAGS ${EXPAND_FLAGS_FLAGS}) list(REMOVE_ITEM NEW_FLAGS ${flag}) get_fq_dep_list_without_flag(NEW_DEPS ${real_flag} ${EXPAND_FLAGS_DEPENDS}) # Only target with `flag` has `.__NO_flag` target, `flag__NO` and # `flag__ONLY` do not. if("${modifier}" STREQUAL "") set(TARGET_NAME "${target_name}.__NO_${flag}") else() set(TARGET_NAME "${target_name}") endif() expand_flags_for_libc_unittest( ${TARGET_NAME} "${flags}" DEPENDS "${NEW_DEPS}" IGNORE_MARKER FLAGS "${NEW_FLAGS}" IGNORE_MARKER "${EXPAND_FLAGS_UNPARSED_ARGUMENTS}" ) endfunction(expand_flags_for_libc_unittest) function(add_libc_unittest target_name) cmake_parse_arguments( "ADD_TO_EXPAND" "" # Optional arguments "" # Single value arguments "DEPENDS;FLAGS" # Multi-value arguments ${ARGN} ) get_fq_target_name(${target_name} fq_target_name) if(ADD_TO_EXPAND_DEPENDS AND ("${SHOW_INTERMEDIATE_OBJECTS}" STREQUAL "DEPS")) message(STATUS "Gathering FLAGS from dependencies for ${fq_target_name}") endif() get_fq_deps_list(fq_deps_list ${ADD_TO_EXPAND_DEPENDS}) get_flags_from_dep_list(deps_flag_list ${fq_deps_list}) list(APPEND ADD_TO_EXPAND_FLAGS ${deps_flag_list}) remove_duplicated_flags("${ADD_TO_EXPAND_FLAGS}" flags) list(SORT flags) if(SHOW_INTERMEDIATE_OBJECTS AND flags) message(STATUS "Unit test ${fq_target_name} has FLAGS: ${flags}") endif() expand_flags_for_libc_unittest( ${fq_target_name} "${flags}" DEPENDS ${fq_deps_list} IGNORE_MARKER FLAGS ${flags} IGNORE_MARKER ${ADD_TO_EXPAND_UNPARSED_ARGUMENTS} ) endfunction(add_libc_unittest) function(add_libc_exhaustive_testsuite suite_name) add_custom_target(${suite_name}) add_dependencies(exhaustive-check-libc ${suite_name}) endfunction(add_libc_exhaustive_testsuite) function(add_libc_long_running_testsuite suite_name) add_custom_target(${suite_name}) add_dependencies(libc-long-running-tests ${suite_name}) endfunction(add_libc_long_running_testsuite) # Rule to add a fuzzer test. # Usage # add_libc_fuzzer( # # SRCS # HDRS # DEPENDS # ) function(add_libc_fuzzer target_name) cmake_parse_arguments( "LIBC_FUZZER" "" # No optional arguments "" # Single value arguments "SRCS;HDRS;DEPENDS;COMPILE_OPTIONS" # Multi-value arguments ${ARGN} ) if(NOT LIBC_FUZZER_SRCS) message(FATAL_ERROR "'add_libc_fuzzer' target requires a SRCS list of .cpp " "files.") endif() if(NOT LIBC_FUZZER_DEPENDS) message(FATAL_ERROR "'add_libc_fuzzer' target requires a DEPENDS list of " "'add_entrypoint_object' targets.") endif() get_fq_target_name(${target_name} fq_target_name) get_fq_deps_list(fq_deps_list ${LIBC_FUZZER_DEPENDS}) get_object_files_for_test( link_object_files skipped_entrypoints_list ${fq_deps_list}) if(skipped_entrypoints_list) if(LIBC_CMAKE_VERBOSE_LOGGING) set(msg "Skipping fuzzer target ${fq_target_name} as it has missing deps: " "${skipped_entrypoints_list}.") message(STATUS ${msg}) endif() add_custom_target(${fq_target_name}) # A post build custom command is used to avoid running the command always. add_custom_command( TARGET ${fq_target_name} POST_BUILD COMMAND ${CMAKE_COMMAND} -E echo ${msg} ) return() endif() add_executable( ${fq_target_name} EXCLUDE_FROM_ALL ${LIBC_FUZZER_SRCS} ${LIBC_FUZZER_HDRS} ) target_include_directories( ${fq_target_name} PRIVATE ${LIBC_SOURCE_DIR} ${LIBC_BUILD_DIR} ${LIBC_BUILD_DIR}/include ) target_link_libraries(${fq_target_name} PRIVATE ${link_object_files}) set_target_properties(${fq_target_name} PROPERTIES RUNTIME_OUTPUT_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}) add_dependencies( ${fq_target_name} ${fq_deps_list} ) add_dependencies(libc-fuzzer ${fq_target_name}) target_compile_options(${fq_target_name} PRIVATE ${LIBC_FUZZER_COMPILE_OPTIONS}) endfunction(add_libc_fuzzer) # DEPRECATED: Use add_hermetic_test instead. # # Rule to add an integration test. An integration test is like a unit test # but does not use the system libc. Not even the startup objects from the # system libc are linked in to the final executable. The final exe is fully # statically linked. The libc that the final exe links to consists of only # the object files of the DEPENDS targets. # # Usage: # add_integration_test( # # SUITE # SRCS [src2.cpp ...] # HDRS [hdr1.cpp ...] # DEPENDS # ARGS # ENV # COMPILE_OPTIONS # ) # # The DEPENDS list can be empty. If not empty, it should be a list of # targets added with add_entrypoint_object or add_object_library. function(add_integration_test test_name) get_fq_target_name(${test_name} fq_target_name) set(supported_targets gpu linux) if(NOT (${LIBC_TARGET_OS} IN_LIST supported_targets)) message(STATUS "Skipping ${fq_target_name} as it is not available on ${LIBC_TARGET_OS}.") return() endif() cmake_parse_arguments( "INTEGRATION_TEST" "" # No optional arguments "SUITE" # Single value arguments "SRCS;HDRS;DEPENDS;ARGS;ENV;COMPILE_OPTIONS;LOADER_ARGS" # Multi-value arguments ${ARGN} ) if(NOT INTEGRATION_TEST_SUITE) message(FATAL_ERROR "SUITE not specified for ${fq_target_name}") endif() if(NOT INTEGRATION_TEST_SRCS) message(FATAL_ERROR "The SRCS list for add_integration_test is missing.") endif() if(NOT TARGET libc.startup.${LIBC_TARGET_OS}.crt1) message(FATAL_ERROR "The 'crt1' target for the integration test is missing.") endif() get_fq_target_name(${test_name}.libc fq_libc_target_name) get_fq_deps_list(fq_deps_list ${INTEGRATION_TEST_DEPENDS}) list(APPEND fq_deps_list # All integration tests use the operating system's startup object with the # integration test object and need to inherit the same dependencies. libc.startup.${LIBC_TARGET_OS}.crt1 libc.test.IntegrationTest.test # We always add the memory functions objects. This is because the # compiler's codegen can emit calls to the C memory functions. libc.src.string.bcmp libc.src.string.bzero libc.src.string.memcmp libc.src.string.memcpy libc.src.string.memmove libc.src.string.memset ) list(REMOVE_DUPLICATES fq_deps_list) # TODO: Instead of gathering internal object files from entrypoints, # collect the object files with public names of entrypoints. get_object_files_for_test( link_object_files skipped_entrypoints_list ${fq_deps_list}) if(skipped_entrypoints_list) if(LIBC_CMAKE_VERBOSE_LOGGING) set(msg "Skipping unittest ${fq_target_name} as it has missing deps: " "${skipped_entrypoints_list}.") message(STATUS ${msg}) endif() return() endif() list(REMOVE_DUPLICATES link_object_files) # Make a library of all deps add_library( ${fq_target_name}.__libc__ STATIC EXCLUDE_FROM_ALL ${link_object_files} ) set_target_properties(${fq_target_name}.__libc__ PROPERTIES ARCHIVE_OUTPUT_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}) set_target_properties(${fq_target_name}.__libc__ PROPERTIES ARCHIVE_OUTPUT_NAME ${fq_target_name}.libc) set(fq_build_target_name ${fq_target_name}.__build__) add_executable( ${fq_build_target_name} EXCLUDE_FROM_ALL # The NVIDIA 'nvlink' linker does not currently support static libraries. $<$:${link_object_files}> ${INTEGRATION_TEST_SRCS} ${INTEGRATION_TEST_HDRS} ) set_target_properties(${fq_build_target_name} PROPERTIES RUNTIME_OUTPUT_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}) target_include_directories( ${fq_build_target_name} PRIVATE ${LIBC_SOURCE_DIR} ${LIBC_BUILD_DIR} ${LIBC_BUILD_DIR}/include ) target_compile_options(${fq_build_target_name} PRIVATE -fpie -ffreestanding ${INTEGRATION_TEST_COMPILE_OPTIONS}) # The GPU build requires overriding the default CMake triple and architecture. if(LIBC_GPU_TARGET_ARCHITECTURE_IS_AMDGPU) target_compile_options(${fq_build_target_name} PRIVATE -mcpu=${LIBC_GPU_TARGET_ARCHITECTURE} -flto --target=${LIBC_GPU_TARGET_TRIPLE}) elseif(LIBC_GPU_TARGET_ARCHITECTURE_IS_NVPTX) get_nvptx_compile_options(nvptx_options ${LIBC_GPU_TARGET_ARCHITECTURE}) target_compile_options(${fq_build_target_name} PRIVATE ${nvptx_options} -fno-use-cxa-atexit --target=${LIBC_GPU_TARGET_TRIPLE}) endif() target_link_options(${fq_build_target_name} PRIVATE -nostdlib -static) target_link_libraries( ${fq_build_target_name} # The NVIDIA 'nvlink' linker does not currently support static libraries. $<$>:${fq_target_name}.__libc__> libc.startup.${LIBC_TARGET_OS}.crt1 libc.test.IntegrationTest.test) add_dependencies(${fq_build_target_name} libc.test.IntegrationTest.test ${INTEGRATION_TEST_DEPENDS}) # Tests on the GPU require an external loader utility to launch the kernel. if(TARGET libc.utils.gpu.loader) add_dependencies(${fq_build_target_name} libc.utils.gpu.loader) get_target_property(gpu_loader_exe libc.utils.gpu.loader "EXECUTABLE") endif() # We have to use a separate var to store the command as a list because # the COMMAND option of `add_custom_target` cannot handle empty vars in the # command. For example, if INTEGRATION_TEST_ENV is empty, the actual # command also will not run. So, we use this list and tell `add_custom_target` # to expand the list (by including the option COMMAND_EXPAND_LISTS). This # makes `add_custom_target` construct the correct command and execute it. set(test_cmd ${INTEGRATION_TEST_ENV} $<$:${gpu_loader_exe}> ${INTEGRATION_TEST_LOADER_ARGS} $ ${INTEGRATION_TEST_ARGS}) add_custom_target( ${fq_target_name} COMMAND ${test_cmd} COMMAND_EXPAND_LISTS COMMENT "Running integration test ${fq_target_name}" ) add_dependencies(${INTEGRATION_TEST_SUITE} ${fq_target_name}) endfunction(add_integration_test) set(LIBC_HERMETIC_TEST_COMPILE_OPTIONS ${LIBC_COMPILE_OPTIONS_DEFAULT} -fpie -ffreestanding -fno-exceptions -fno-rtti) # The GPU build requires overriding the default CMake triple and architecture. if(LIBC_GPU_TARGET_ARCHITECTURE_IS_AMDGPU) list(APPEND LIBC_HERMETIC_TEST_COMPILE_OPTIONS -mcpu=${LIBC_GPU_TARGET_ARCHITECTURE} -flto --target=${LIBC_GPU_TARGET_TRIPLE}) elseif(LIBC_GPU_TARGET_ARCHITECTURE_IS_NVPTX) get_nvptx_compile_options(nvptx_options ${LIBC_GPU_TARGET_ARCHITECTURE}) list(APPEND LIBC_HERMETIC_TEST_COMPILE_OPTIONS ${nvptx_options} -fno-use-cxa-atexit --target=${LIBC_GPU_TARGET_TRIPLE}) endif() # Rule to add a hermetic test. A hermetic test is one whose executable is fully # statically linked and consists of pieces drawn only from LLVM's libc. Nothing, # including the startup objects, come from the system libc. # # Usage: # add_libc_hermetic_test( # # SUITE # SRCS [src2.cpp ...] # HDRS [hdr1.cpp ...] # DEPENDS # ARGS # ENV # COMPILE_OPTIONS # LINK_LIBRARIES # LOADER_ARGS # ) function(add_libc_hermetic_test test_name) if(NOT TARGET libc.startup.${LIBC_TARGET_OS}.crt1) message(VERBOSE "Skipping ${fq_target_name} as it is not available on ${LIBC_TARGET_OS}.") return() endif() cmake_parse_arguments( "HERMETIC_TEST" "" # No optional arguments "SUITE" # Single value arguments "SRCS;HDRS;DEPENDS;ARGS;ENV;COMPILE_OPTIONS;LINK_LIBRARIES;LOADER_ARGS" # Multi-value arguments ${ARGN} ) if(NOT HERMETIC_TEST_SUITE) message(FATAL_ERROR "SUITE not specified for ${fq_target_name}") endif() if(NOT HERMETIC_TEST_SRCS) message(FATAL_ERROR "The SRCS list for add_integration_test is missing.") endif() get_fq_target_name(${test_name} fq_target_name) get_fq_target_name(${test_name}.libc fq_libc_target_name) get_fq_deps_list(fq_deps_list ${HERMETIC_TEST_DEPENDS}) list(APPEND fq_deps_list # Hermetic tests use the platform's startup object. So, their deps also # have to be collected. libc.startup.${LIBC_TARGET_OS}.crt1 # We always add the memory functions objects. This is because the # compiler's codegen can emit calls to the C memory functions. libc.src.string.bcmp libc.src.string.bzero libc.src.string.memcmp libc.src.string.memcpy libc.src.string.memmove libc.src.string.memset ) list(REMOVE_DUPLICATES fq_deps_list) # TODO: Instead of gathering internal object files from entrypoints, # collect the object files with public names of entrypoints. get_object_files_for_test( link_object_files skipped_entrypoints_list ${fq_deps_list}) if(skipped_entrypoints_list) set(msg "Skipping unittest ${fq_target_name} as it has missing deps: " "${skipped_entrypoints_list}.") message(STATUS ${msg}) return() endif() list(REMOVE_DUPLICATES link_object_files) # Make a library of all deps add_library( ${fq_target_name}.__libc__ STATIC EXCLUDE_FROM_ALL ${link_object_files} ) set_target_properties(${fq_target_name}.__libc__ PROPERTIES ARCHIVE_OUTPUT_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}) set_target_properties(${fq_target_name}.__libc__ PROPERTIES ARCHIVE_OUTPUT_NAME ${fq_target_name}.libc) set(fq_build_target_name ${fq_target_name}.__build__) add_executable( ${fq_build_target_name} EXCLUDE_FROM_ALL # The NVIDIA 'nvlink' linker does not currently support static libraries. $<$:${link_object_files}> ${HERMETIC_TEST_SRCS} ${HERMETIC_TEST_HDRS} ) set_target_properties(${fq_build_target_name} PROPERTIES RUNTIME_OUTPUT_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR} #OUTPUT_NAME ${fq_target_name} ) target_include_directories( ${fq_build_target_name} PRIVATE ${LIBC_SOURCE_DIR} ${LIBC_BUILD_DIR} ${LIBC_BUILD_DIR}/include ) target_compile_options(${fq_build_target_name} PRIVATE ${LIBC_HERMETIC_TEST_COMPILE_OPTIONS} ${HERMETIC_TEST_COMPILE_OPTIONS}) set(link_libraries "") foreach(lib IN LISTS HERMETIC_TEST_LINK_LIBRARIES) if(TARGET ${lib}.hermetic) list(APPEND link_libraries ${lib}.hermetic) else() list(APPEND link_libraries ${lib}) endif() endforeach() if(LIBC_TARGET_ARCHITECTURE_IS_GPU) target_link_options(${fq_build_target_name} PRIVATE -nostdlib -static) else() target_link_options(${fq_build_target_name} PRIVATE -nolibc -nostartfiles -nostdlib++ -static) endif() target_link_libraries( ${fq_build_target_name} PRIVATE libc.startup.${LIBC_TARGET_OS}.crt1 ${link_libraries} LibcTest.hermetic LibcHermeticTestSupport.hermetic # The NVIDIA 'nvlink' linker does not currently support static libraries. $<$>:${fq_target_name}.__libc__>) add_dependencies(${fq_build_target_name} LibcTest.hermetic ${fq_deps_list}) # Tests on the GPU require an external loader utility to launch the kernel. if(TARGET libc.utils.gpu.loader) add_dependencies(${fq_build_target_name} libc.utils.gpu.loader) get_target_property(gpu_loader_exe libc.utils.gpu.loader "EXECUTABLE") endif() set(test_cmd ${HERMETIC_TEST_ENV} $<$:${gpu_loader_exe}> ${HERMETIC_TEST_LOADER_ARGS} $ ${HERMETIC_TEST_ARGS}) add_custom_target( ${fq_target_name} COMMAND ${test_cmd} COMMAND_EXPAND_LISTS COMMENT "Running hermetic test ${fq_target_name}" ) add_dependencies(${HERMETIC_TEST_SUITE} ${fq_target_name}) add_dependencies(libc-hermetic-tests ${fq_target_name}) endfunction(add_libc_hermetic_test) # A convenience function to add both a unit test as well as a hermetic test. function(add_libc_test test_name) cmake_parse_arguments( "LIBC_TEST" "UNIT_TEST_ONLY;HERMETIC_TEST_ONLY" # Optional arguments "" # Single value arguments "" # Multi-value arguments ${ARGN} ) if(LIBC_ENABLE_UNITTESTS AND NOT LIBC_TEST_HERMETIC_TEST_ONLY) add_libc_unittest(${test_name}.__unit__ ${LIBC_TEST_UNPARSED_ARGUMENTS}) endif() if(LIBC_ENABLE_HERMETIC_TESTS AND NOT LIBC_TEST_UNIT_TEST_ONLY) add_libc_hermetic_test(${test_name}.__hermetic__ ${LIBC_TEST_UNPARSED_ARGUMENTS}) endif() endfunction(add_libc_test)