# ~~~ # Copyright (c) 2014-2023 The Khronos Group Inc. # Copyright (c) 2014-2023 Valve Corporation # Copyright (c) 2014-2023 LunarG, Inc. # Copyright (c) 2021 NVIDIA CORPORATION & AFFILIATES. All rights reserved. # Copyright (c) 2023-2023 RasterGrid Kft. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ~~~ include(CheckIncludeFile) add_library(loader_specific_options INTERFACE) target_link_libraries(loader_specific_options INTERFACE loader_common_options Vulkan::Headers) target_include_directories(loader_specific_options INTERFACE ${CMAKE_CURRENT_SOURCE_DIR} ${CMAKE_CURRENT_SOURCE_DIR}/generated ${CMAKE_CURRENT_BINARY_DIR}) if(WIN32) if(ENABLE_WIN10_ONECORE) # Note: When linking your app or driver to OneCore.lib, be sure to remove any links to non-umbrella libs (such as # kernel32.lib). set(CMAKE_C_STANDARD_LIBRARIES " ") # space is intentional endif() # ~~~ # Only generate the loader.rc file with CMake if BUILD_DLL_VERSIONINFO was set. # This feature is for the Vulkan Runtime build # Otherwise rely on the checked in loader.rc from the python script # ~~~ if (NOT "$CACHE{BUILD_DLL_VERSIONINFO}" STREQUAL "") string(TIMESTAMP CURRENT_YEAR "%Y") set(LOADER_CUR_COPYRIGHT_YEAR "${CURRENT_YEAR}") set(LOADER_RC_VERSION "$CACHE{BUILD_DLL_VERSIONINFO}") set(LOADER_VER_FILE_VERSION_STR "\"${LOADER_RC_VERSION}\"") set(LOADER_VER_FILE_DESCRIPTION_STR "\"Vulkan Loader\"") # RC file wants the value of FILEVERSION to separated by commas string(REPLACE "." ", " LOADER_VER_FILE_VERSION "${LOADER_RC_VERSION}") # Configure the file to include the versioning info # Place it in the build directory - the GN build will use the checked in file configure_file(loader.rc.in ${CMAKE_CURRENT_BINARY_DIR}/loader.rc) endif() else() # Used to make alloca() and secure_getenv() available target_compile_definitions(loader_specific_options INTERFACE _GNU_SOURCE) if(CMAKE_SYSTEM_NAME MATCHES "FreeBSD") target_compile_definitions(loader_specific_options INTERFACE __BSD_VISIBLE=1) endif() check_include_file("alloca.h" HAVE_ALLOCA_H) if(HAVE_ALLOCA_H) target_compile_definitions(loader_specific_options INTERFACE HAVE_ALLOCA_H) endif() set(THREADS_PREFER_PTHREAD_FLAG ON) find_package(Threads REQUIRED) endif() set(NORMAL_LOADER_SRCS allocation.c allocation.h cJSON.c cJSON.h debug_utils.c debug_utils.h extension_manual.c extension_manual.h loader_environment.c loader_environment.h gpa_helper.c gpa_helper.h loader.c loader.h log.c log.h loader_json.c loader_json.h settings.c settings.h terminator.c trampoline.c unknown_function_handling.c unknown_function_handling.h wsi.c wsi.h ) if(WIN32) list(APPEND NORMAL_LOADER_SRCS loader_windows.c dirent_on_windows.c) elseif(CMAKE_SYSTEM_NAME MATCHES "Linux|BSD|DragonFly|GNU") list(APPEND NORMAL_LOADER_SRCS loader_linux.c) target_compile_definitions(loader_specific_options INTERFACE LOADER_ENABLE_LINUX_SORT) endif() if ("${CMAKE_OSX_ARCHITECTURES}" MATCHES ";") set(APPLE_UNIVERSAL_BINARY ON) # When building a universal binary we cannot enable USE_GAS # Since USE_GAS assumes only 1 architecture (arm64, x64, etc). set(USE_GAS OFF) endif() set(OPT_LOADER_SRCS dev_ext_trampoline.c phys_dev_ext.c) set(ASM_FAILURE_MSG "Support for unknown physical device and device functions is disabled due to missing the required assembly support code. \ To support unknown functions, assembly must be added for the platform.\n") set(ARMASM_CMAKE_FAILURE_MSG "Support for unknown physical device and device functions is disabled due to the CMake version ${CMAKE_VERSION} \ being older than 3.26. Please update CMake to version 3.26 or newer.\n") # Check for assembler support if(WIN32 AND NOT USE_GAS) option(USE_MASM "Use MASM" ON) if(USE_MASM AND MINGW) find_program(JWASM_FOUND NAMES jwasm uasm) if (JWASM_FOUND) set(CMAKE_ASM_MASM_COMPILER ${JWASM_FOUND}) execute_process(COMMAND ${CMAKE_C_COMPILER} -dumpmachine OUTPUT_VARIABLE COMPILER_VERSION_OUTPUT) if (COMPILER_VERSION_OUTPUT) if (COMPILER_VERSION_OUTPUT MATCHES "x86_64") set(JWASM_FLAGS -win64) else() # jwasm requires setting the cpu to at least 386 for setting a flat model set(JWASM_FLAGS -3 -coff) endif() endif() endif() endif() if (USE_MASM) if(SYSTEM_PROCESSOR MATCHES "arm") if(CMAKE_VERSION VERSION_LESS "3.26.0") set(ASM_FAILURE_MSG ${ARMASM_CMAKE_FAILURE_MSG}) else() enable_language(ASM_MARMASM) set(LOADER_ASM_DIALECT "MARMASM") endif() else() enable_language(ASM_MASM) set(LOADER_ASM_DIALECT "MASM") endif() endif() # Test if the detected compiler actually works. # Unfortunately, CMake's detection of ASM_MASM is not reliable, so we need to do this ourselves. if(SYSTEM_PROCESSOR MATCHES "arm") if (CMAKE_SIZEOF_VOID_P EQUAL 4) file(WRITE ${CMAKE_CURRENT_BINARY_DIR}/masm_check.asm [=[ test_func FUNCTION mov r0, #0 bx lr ENDFUNC END ]=]) else() file(WRITE ${CMAKE_CURRENT_BINARY_DIR}/masm_check.asm [=[ test_func FUNCTION mov x1, 26 ldr x0, [x0, x1] ENDFUNC END ]=]) endif() else() if (CMAKE_SIZEOF_VOID_P EQUAL 4) file(WRITE ${CMAKE_CURRENT_BINARY_DIR}/masm_check.asm [=[ .model flat .code extrn _start:near xor eax, eax ret end ]=]) else() file(WRITE ${CMAKE_CURRENT_BINARY_DIR}/masm_check.asm [=[ .code extrn start:near xor rax, rax ret end ]=]) endif() endif () if(MINGW) set(CMAKE_ASM_MASM_FLAGS ${CMAKE_ASM_MASM_FLAGS} ${JWASM_FLAGS}) set(CMAKE_ASM_MARMASM_FLAGS ${CMAKE_ASM_MARMASM_FLAGS} ${JWASM_FLAGS}) elseif(NOT CMAKE_CL_64 AND NOT JWASM_FOUND AND CMAKE_SIZEOF_VOID_P EQUAL 4) set(CMAKE_ASM_MASM_FLAGS ${CMAKE_ASM_MASM_FLAGS} /safeseh) # /safeseh is only needed in x86 endif() # try_compile does not work here due to the same reasons as static above. if(SYSTEM_PROCESSOR MATCHES "arm") execute_process(COMMAND ${CMAKE_ASM_MARMASM_COMPILER} ${CMAKE_ASM_MARMASM_FLAGS} ${CMAKE_CURRENT_BINARY_DIR}/masm_check.asm RESULT_VARIABLE ASM_COMPILER_WORKS OUTPUT_QUIET ERROR_QUIET) else() execute_process(COMMAND ${CMAKE_ASM_MASM_COMPILER} ${CMAKE_ASM_MASM_FLAGS} -c -Fo ${CMAKE_CURRENT_BINARY_DIR}/masm_check.obj ${CMAKE_CURRENT_BINARY_DIR}/masm_check.asm RESULT_VARIABLE ASM_COMPILER_WORKS OUTPUT_QUIET ERROR_QUIET) endif() # Convert the return code to a boolean if(ASM_COMPILER_WORKS EQUAL 0) set(ASM_COMPILER_WORKS true) else() set(ASM_COMPILER_WORKS false) endif() if(ASM_COMPILER_WORKS) add_executable(asm_offset asm_offset.c) target_link_libraries(asm_offset PRIVATE loader_specific_options) # If am emulator is provided (Like Wine), or running on native, run asm_offset to generate gen_defines.asm if (CMAKE_CROSSCOMPILING_EMULATOR OR NOT CMAKE_CROSSCOMPILING) add_custom_command(OUTPUT gen_defines.asm DEPENDS asm_offset COMMAND asm_offset ${LOADER_ASM_DIALECT}) else() # Forces compiler to write the intermediate asm file, needed so that we can get sizeof/offset of info out of it. target_compile_options(asm_offset PRIVATE "/Fa$/asm_offset.asm" /FA) # Force off optimization so that the output assembly includes all the necessary info - optimizer would get rid of it otherwise. target_compile_options(asm_offset PRIVATE /Od) find_package(Python3 REQUIRED QUIET) # Run parse_asm_values.py on asm_offset's assembly file to generate the gen_defines.asm, which the asm code depends on add_custom_command(TARGET asm_offset POST_BUILD COMMAND Python3::Interpreter ${PROJECT_SOURCE_DIR}/scripts/parse_asm_values.py "${CMAKE_CURRENT_BINARY_DIR}/gen_defines.asm" "$/asm_offset.asm" "${LOADER_ASM_DIALECT}" "${CMAKE_C_COMPILER_ID}" "${SYSTEM_PROCESSOR}" BYPRODUCTS gen_defines.asm ) endif() add_custom_target(loader_asm_gen_files DEPENDS gen_defines.asm) set_target_properties(loader_asm_gen_files PROPERTIES FOLDER ${LOADER_HELPER_FOLDER}) if(SYSTEM_PROCESSOR MATCHES "arm") list(APPEND OPT_LOADER_SRCS unknown_ext_chain_marmasm.asm) else() list(APPEND OPT_LOADER_SRCS unknown_ext_chain_masm.asm) endif() set(UNKNOWN_FUNCTIONS_SUPPORTED ON) else() message(WARNING "Could not find working ${} assembler\n${ASM_FAILURE_MSG}") endif() elseif(UNIX OR MINGW OR (WIN32 AND USE_GAS)) # i.e.: Linux & Apple & MinGW & Windows using Clang-CL option(USE_GAS "Use GAS" ON) if(USE_GAS) if (APPLE_UNIVERSAL_BINARY) message(FATAL_ERROR "USE_GAS cannot be used when compiling a universal binary!") endif() enable_language(ASM) set(CMAKE_ASM_FLAGS "${CMAKE_C_FLAGS}") set(CMAKE_TRY_COMPILE_TARGET_TYPE STATIC_LIBRARY) if(WIN32 AND ${SYSTEM_PROCESSOR} MATCHES "arm64") # In this particular case, we are using the same approach as for NASM # This specifically avoids CMake issue #18889 execute_process(COMMAND ${CMAKE_ASM_COMPILER} ${CMAKE_ASM_FLAGS} -c -o ${CMAKE_CURRENT_BINARY_DIR}/asm_test_aarch64.obj ${CMAKE_CURRENT_SOURCE_DIR}/asm_test_aarch64.S RESULT_VARIABLE WIN_ARM64_ASSEMBLER_WORKS OUTPUT_QUIET ERROR_QUIET) if(WIN_ARM64_ASSEMBLER_WORKS EQUAL 0) set(ASSEMBLER_WORKS true) endif() if(ASSEMBLER_WORKS) list(APPEND OPT_LOADER_SRCS unknown_ext_chain_gas_aarch.S) endif() elseif (${SYSTEM_PROCESSOR} MATCHES "aarch64|arm64") try_compile(ASSEMBLER_WORKS ${CMAKE_CURRENT_BINARY_DIR} ${CMAKE_CURRENT_SOURCE_DIR}/asm_test_aarch64.S OUTPUT_VARIABLE TRY_COMPILE_OUTPUT) if(ASSEMBLER_WORKS) list(APPEND OPT_LOADER_SRCS unknown_ext_chain_gas_aarch.S) endif() elseif (${SYSTEM_PROCESSOR} MATCHES "aarch32|armhf|armv7l|armv8l") try_compile(ASSEMBLER_WORKS ${CMAKE_CURRENT_BINARY_DIR} ${CMAKE_CURRENT_SOURCE_DIR}/asm_test_aarch32.S OUTPUT_VARIABLE TRY_COMPILE_OUTPUT) if(ASSEMBLER_WORKS) list(APPEND OPT_LOADER_SRCS unknown_ext_chain_gas_aarch.S) endif() # Covers x86_64, amd64, x86, i386, i686, I386, I686 elseif(${SYSTEM_PROCESSOR} MATCHES "amd64|86") check_include_file("cet.h" HAVE_CET_H) if(HAVE_CET_H) target_compile_definitions(loader_specific_options INTERFACE HAVE_CET_H) endif() try_compile(ASSEMBLER_WORKS ${CMAKE_CURRENT_BINARY_DIR} ${CMAKE_CURRENT_SOURCE_DIR}/asm_test_x86.S) if(ASSEMBLER_WORKS) list(APPEND OPT_LOADER_SRCS unknown_ext_chain_gas_x86.S) endif() endif() endif() # When compiling for x86 on x64, we can't use CMAKE_SYSTEM_PROCESSOR to determine which architecture to use, # Instead, check the size of void* and if its 4, set ASM_OFFSET_SYSTEM_PROCESSOR to x86 if we aren't on arm if("${CMAKE_SIZEOF_VOID_P}" EQUAL "8") set(ASM_OFFSET_SYSTEM_PROCESSOR ${SYSTEM_PROCESSOR}) # x86_64 or aarch64/arm64 string(REPLACE amd64 x86_64 ASM_OFFSET_SYSTEM_PROCESSOR "${ASM_OFFSET_SYSTEM_PROCESSOR}") else() if(${SYSTEM_PROCESSOR} MATCHES "86") set(ASM_OFFSET_SYSTEM_PROCESSOR "x86") else() set(ASM_OFFSET_SYSTEM_PROCESSOR ${SYSTEM_PROCESSOR}) endif() endif() if(ASSEMBLER_WORKS) add_executable(asm_offset asm_offset.c) target_link_libraries(asm_offset loader_specific_options) # If not cross compiling, run asm_offset to generage gen_defines.asm if (NOT CMAKE_CROSSCOMPILING) add_custom_command(OUTPUT gen_defines.asm DEPENDS asm_offset COMMAND asm_offset GAS) else() # Forces compiler to write the intermediate asm file, needed so that we can get sizeof/offset of info out of it. # If with lto, compiler will output IR instead of asm, so we need to explicitly disable lto here. if(CMAKE_C_COMPILER_ID STREQUAL "GNU") target_compile_options(asm_offset PRIVATE -save-temps=obj -fno-lto) elseif(CMAKE_C_COMPILER_ID STREQUAL "Clang" OR CMAKE_C_COMPILER_ID STREQUAL "AppleClang") target_compile_options(asm_offset PRIVATE -save-temps=obj -fno-lto -fno-whole-program-vtables -fno-virtual-function-elimination) else() target_compile_options(asm_offset PRIVATE -save-temps=obj) endif() if(CMAKE_C_COMPILER_ID STREQUAL "GNU") set(ASM_OFFSET_EXECUTABLE_LOCATION "$/gen_defines.asm") set(ASM_OFFSET_INTERMEDIATE_LOCATION "$/CMakeFiles/asm_offset.dir/asm_offset.c.s") elseif(CMAKE_C_COMPILER_ID STREQUAL "Clang") set(ASM_OFFSET_EXECUTABLE_LOCATION "$/gen_defines.asm") set(ASM_OFFSET_INTERMEDIATE_LOCATION "$/CMakeFiles/asm_offset.dir/asm_offset.s") elseif(CMAKE_C_COMPILER_ID STREQUAL "AppleClang") # Need to use the current binary dir since the asm_offset.s file is in that folder rather than the bundle set(ASM_OFFSET_EXECUTABLE_LOCATION "${CMAKE_CURRENT_BINARY_DIR}/gen_defines.asm") set(ASM_OFFSET_INTERMEDIATE_LOCATION "${CMAKE_CURRENT_BINARY_DIR}/CMakeFiles/asm_offset.dir/asm_offset.s") else() message(FATAL_ERROR "C_COMPILER_ID not supported!") endif() message(STATUS "CMAKE_CROSSCOMPILING FALSE") find_package(Python3 REQUIRED QUIET) # Run parse_asm_values.py on asm_offset's assembly file to generate the gen_defines.asm, which the asm code depends on add_custom_command(TARGET asm_offset POST_BUILD COMMAND Python3::Interpreter ${PROJECT_SOURCE_DIR}/scripts/parse_asm_values.py "${ASM_OFFSET_EXECUTABLE_LOCATION}" "${ASM_OFFSET_INTERMEDIATE_LOCATION}" "GAS" "${CMAKE_C_COMPILER_ID}" "${ASM_OFFSET_SYSTEM_PROCESSOR}" BYPRODUCTS gen_defines.asm ) endif() add_custom_target(loader_asm_gen_files DEPENDS gen_defines.asm) if (APPLE) set(MODIFY_UNKNOWN_FUNCTION_DECLS ON) endif() set(UNKNOWN_FUNCTIONS_SUPPORTED ON) else() if(USE_GAS) message(WARNING "Could not find working ${ASM_OFFSET_SYSTEM_PROCESSOR} GAS assembler\n${ASM_FAILURE_MSG}") else() message(WARNING "Assembly sources have been disabled\n${ASM_FAILURE_MSG}") endif() endif() endif() if(UNKNOWN_FUNCTIONS_SUPPORTED) list(APPEND NORMAL_LOADER_SRCS ${OPT_LOADER_SRCS}) endif() if(WIN32) # If BUILD_DLL_VERSIONINFO was set, use the loader.rc in the build dir, otherwise use the checked in file set(RC_FILE_LOCATION ${CMAKE_CURRENT_SOURCE_DIR}/loader.rc) if (NOT "$CACHE{BUILD_DLL_VERSIONINFO}" STREQUAL "") set(RC_FILE_LOCATION ${CMAKE_CURRENT_BINARY_DIR}/loader.rc) endif() add_library(vulkan SHARED ${NORMAL_LOADER_SRCS} ${CMAKE_CURRENT_SOURCE_DIR}/${API_TYPE}-1.def ${RC_FILE_LOCATION}) target_link_libraries(vulkan PRIVATE loader_specific_options) # when adding the suffix the import and runtime library names must be consistent # mingw: libvulkan-1.dll.a / vulkan-1.dll # msvc: vulkan-1.lib / vulkan-1.dll set_target_properties(vulkan PROPERTIES OUTPUT_NAME ${API_TYPE}-1) if(MINGW) # generate the same DLL with mingw set_target_properties(vulkan PROPERTIES PREFIX "") endif() if(MSVC AND ENABLE_WIN10_ONECORE) target_link_libraries(vulkan PRIVATE OneCoreUAP.lib LIBCMT.LIB LIBCMTD.LIB LIBVCRUNTIME.LIB LIBUCRT.LIB) set_target_properties(vulkan PROPERTIES LINK_FLAGS "/NODEFAULTLIB") else() target_link_libraries(vulkan PRIVATE cfgmgr32) endif() else() if(APPLE) option(APPLE_STATIC_LOADER "Build a loader that can be statically linked. Intended for Chromium usage/testing.") mark_as_advanced(APPLE_STATIC_LOADER) endif() if(APPLE_STATIC_LOADER) add_library(vulkan STATIC) target_compile_definitions(vulkan PRIVATE APPLE_STATIC_LOADER) message(WARNING "The APPLE_STATIC_LOADER option has been set. Note that this will only work on MacOS and is not supported " "or tested as part of the loader. Use it at your own risk.") else() add_library(vulkan SHARED) endif() target_sources(vulkan PRIVATE ${NORMAL_LOADER_SRCS}) set_target_properties(vulkan PROPERTIES SOVERSION "1" VERSION "${VULKAN_LOADER_VERSION}" ) target_link_libraries(vulkan PRIVATE ${CMAKE_DL_LIBS} m Threads::Threads) set_target_properties(vulkan PROPERTIES OUTPUT_NAME ${API_TYPE}) if (LOADER_ENABLE_ADDRESS_SANITIZER) target_compile_options(vulkan PUBLIC -fsanitize=address,undefined) target_link_options(vulkan PUBLIC -fsanitize=address,undefined) endif() if (LOADER_ENABLE_THREAD_SANITIZER) target_compile_options(vulkan PUBLIC -fsanitize=thread) target_link_options(vulkan PUBLIC -fsanitize=thread) endif() if(APPLE) find_library(COREFOUNDATION_LIBRARY NAMES CoreFoundation) target_link_libraries(vulkan PRIVATE "-framework CoreFoundation") # Build vulkan.framework # Use GLOB_RECURSE to find all the header files and populate the vulkan.framework headers with them # Use CONFIGURE_DEPENDS to ensure that if the header files are updated, this list is also updated get_target_property(VulkanHeaders_INCLUDE_DIRS Vulkan::Headers INTERFACE_INCLUDE_DIRECTORIES) file(GLOB_RECURSE CONFIGURE_DEPENDS FRAMEWORK_HEADERS ${VulkanHeaders_INCLUDE_DIRS}) add_library(vulkan-framework SHARED) target_sources(vulkan-framework PRIVATE ${NORMAL_LOADER_SRCS} ${FRAMEWORK_HEADERS}) if (UNKNOWN_FUNCTIONS_SUPPORTED) add_dependencies(vulkan-framework loader_asm_gen_files) endif() target_link_libraries(vulkan-framework ${CMAKE_DL_LIBS} Threads::Threads -lm "-framework CoreFoundation") target_link_libraries(vulkan-framework loader_specific_options) if (MODIFY_UNKNOWN_FUNCTION_DECLS) # Modifies the names of functions as they appearin the assembly code so that the # unknown function handling will work target_compile_definitions(vulkan PRIVATE MODIFY_UNKNOWN_FUNCTION_DECLS) target_compile_definitions(vulkan-framework PRIVATE MODIFY_UNKNOWN_FUNCTION_DECLS) endif() # The FRAMEWORK_VERSION needs to be "A" here so that Xcode code-signing works when a user adds their framework to an Xcode # project and does "Sign on Copy". It would have been nicer to use "1" to denote Vulkan 1. Although Apple docs say that a # framework version does not have to be "A", this part of the Apple toolchain expects it. # https://forums.developer.apple.com/thread/65963 set_target_properties(vulkan-framework PROPERTIES OUTPUT_NAME vulkan FRAMEWORK TRUE FRAMEWORK_VERSION A VERSION "${VULKAN_LOADER_VERSION}" MACOSX_FRAMEWORK_BUNDLE_VERSION "${VULKAN_LOADER_VERSION}" MACOSX_FRAMEWORK_SHORT_VERSION_STRING "${VULKAN_LOADER_VERSION}" SOVERSION "1.0.0" MACOSX_FRAMEWORK_IDENTIFIER com.lunarg.vulkanFramework PUBLIC_HEADER "${FRAMEWORK_HEADERS}" ) # Workaround linker warning: https://github.com/KhronosGroup/Vulkan-Loader/issues/1332 # # MACHO_CURRENT_VERSION specifically applies to the -current_version linker option which is the # linker warning we are trying to address. set(APPLE_VULKAN_LOADER_VERSION "${VULKAN_LOADER_VERSION_MAJOR}.${VULKAN_LOADER_VERSION_MINOR}.0") set_target_properties(vulkan PROPERTIES MACHO_CURRENT_VERSION "${APPLE_VULKAN_LOADER_VERSION}") set_target_properties(vulkan-framework PROPERTIES MACHO_CURRENT_VERSION "${APPLE_VULKAN_LOADER_VERSION}") install(TARGETS vulkan-framework PUBLIC_HEADER DESTINATION vulkan FRAMEWORK DESTINATION loader ) endif() endif() option(LOADER_USE_UNSAFE_FILE_SEARCH "Allows the loader to search in unsafe locations") if (LOADER_USE_UNSAFE_FILE_SEARCH) target_compile_definitions(vulkan PRIVATE LOADER_USE_UNSAFE_FILE_SEARCH) endif() # common attributes of the vulkan library target_link_libraries(vulkan PRIVATE loader_specific_options) target_link_libraries(vulkan PRIVATE Vulkan::Headers) add_library(Vulkan::Loader ALIAS vulkan) if (UNKNOWN_FUNCTIONS_SUPPORTED) target_compile_definitions(vulkan PRIVATE UNKNOWN_FUNCTIONS_SUPPORTED) add_dependencies(vulkan loader_asm_gen_files) endif() if (BUILD_TESTS) target_compile_definitions(vulkan PRIVATE SHOULD_EXPORT_TEST_FUNCTIONS) endif() if (APPLE_STATIC_LOADER) # TLDR: This feature only exists at the request of Google for Chromium. No other project should use this! message(NOTICE "Apple STATIC lib: it will be built but not installed, and vulkan.pc and VulkanLoaderConfig.cmake won't be generated!") return() endif() # Generate CMake Configuration File (IE: VulkanLoaderConfig.cmake) install(TARGETS vulkan EXPORT VulkanLoaderConfig) set_target_properties(vulkan PROPERTIES EXPORT_NAME "Loader") install(EXPORT VulkanLoaderConfig DESTINATION ${CMAKE_INSTALL_LIBDIR}/cmake/VulkanLoader NAMESPACE Vulkan::) # Generate CMake Version File (IE: VulkanLoaderConfigVersion.cmake) include(CMakePackageConfigHelpers) set(version_config "${CMAKE_CURRENT_BINARY_DIR}/generated/VulkanLoaderConfigVersion.cmake") write_basic_package_version_file("${version_config}" COMPATIBILITY SameMajorVersion) install(FILES "${version_config}" DESTINATION ${CMAKE_INSTALL_LIBDIR}/cmake/VulkanLoader) # Generate PkgConfig File (IE: vulkan.pc) # NOTE: Hopefully in the future CMake can generate .pc files natively. # https://gitlab.kitware.com/cmake/cmake/-/issues/22621 find_package(PkgConfig) if (PKG_CONFIG_FOUND) if(WIN32) if(MINGW) set(VULKAN_LIB_SUFFIX "-1.dll") else() set(VULKAN_LIB_SUFFIX "-1") endif() endif() # BUG: The following code will NOT work well with `cmake --install ... --prefix ` # due to this code relying on CMAKE_INSTALL_PREFIX being defined at configure time. # # NOTE: vulkan.pc essentially cover both Vulkan-Loader and Vulkan-Headers for legacy reasons. if ("${CMAKE_INSTALL_PREFIX}" STREQUAL "") set(CMAKE_INSTALL_LIBDIR_PC ${CMAKE_INSTALL_FULL_LIBDIR}) set(CMAKE_INSTALL_INCLUDEDIR_PC ${CMAKE_INSTALL_FULL_INCLUDEDIR}) else() file(RELATIVE_PATH CMAKE_INSTALL_LIBDIR_PC ${CMAKE_INSTALL_PREFIX} ${CMAKE_INSTALL_FULL_LIBDIR}) file(RELATIVE_PATH CMAKE_INSTALL_INCLUDEDIR_PC ${CMAKE_INSTALL_PREFIX} ${CMAKE_INSTALL_FULL_INCLUDEDIR}) endif() configure_file("vulkan.pc.in" "vulkan.pc" @ONLY) install(FILES "${CMAKE_CURRENT_BINARY_DIR}/vulkan.pc" DESTINATION "${CMAKE_INSTALL_LIBDIR}/pkgconfig" RENAME "${API_TYPE}.pc") endif() if (CODE_COVERAGE) target_code_coverage(vulkan AUTO ALL) endif()