cmake/compiler/gcc/target.cmake - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 # SPDX-License-Identifier: Apache-2.0

 set_ifndef(C++ g++)

 # Configures CMake for using GCC, this script is re-used by several
 # GCC-based toolchains

 find_package(Deprecated COMPONENTS SPARSE)
 find_program(CMAKE_C_COMPILER ${CROSS_COMPILE}${CC} PATHS ${TOOLCHAIN_HOME} NO_DEFAULT_PATH)

 if(${CMAKE_C_COMPILER} STREQUAL CMAKE_C_COMPILER-NOTFOUND)
   message(FATAL_ERROR "C compiler ${CROSS_COMPILE}${CC} not found - Please check your toolchain installation")
 endif()

 if(CONFIG_CPP)
   set(cplusplus_compiler ${CROSS_COMPILE}${C++})
 else()
   if(EXISTS ${CROSS_COMPILE}${C++})
     set(cplusplus_compiler ${CROSS_COMPILE}${C++})
   else()
     # When the toolchain doesn't support C++, and we aren't building
     # with C++ support just set it to something so CMake doesn't
     # crash, it won't actually be called
     set(cplusplus_compiler ${CMAKE_C_COMPILER})
   endif()
 endif()
 find_program(CMAKE_CXX_COMPILER ${cplusplus_compiler} PATHS ${TOOLCHAIN_HOME} NO_DEFAULT_PATH)

 set(NOSTDINC "")

 # Note that NOSYSDEF_CFLAG may be an empty string, and
 # set_ifndef() does not work with empty string.
 if(NOT DEFINED NOSYSDEF_CFLAG)
   set(NOSYSDEF_CFLAG -undef)
 endif()

 # GCC-13, does not install limits.h on include-fixed anymore
 # https://gcc.gnu.org/git/gitweb.cgi?p=gcc.git;h=be9dd80f933480
 # Add check for GCC version >= 13.1
 execute_process(
     COMMAND ${CMAKE_C_COMPILER} -dumpfullversion
     OUTPUT_VARIABLE temp_compiler_version
     )

 if("${temp_compiler_version}" VERSION_GREATER_EQUAL 13.1.0)
     set(fix_header_file include/limits.h)
 else()
     set(fix_header_file include-fixed/limits.h)
 endif()

 foreach(file_name include/stddef.h "${fix_header_file}")
   execute_process(
     COMMAND ${CMAKE_C_COMPILER} --print-file-name=${file_name}
     OUTPUT_VARIABLE _OUTPUT
     )
   get_filename_component(_OUTPUT "${_OUTPUT}" DIRECTORY)
   string(REGEX REPLACE "\n" "" _OUTPUT "${_OUTPUT}")

   list(APPEND NOSTDINC ${_OUTPUT})
 endforeach()

 include(${ZEPHYR_BASE}/cmake/gcc-m-cpu.cmake)
 include(${ZEPHYR_BASE}/cmake/gcc-m-fpu.cmake)

 if("${ARCH}" STREQUAL "arm")
   include(${ZEPHYR_BASE}/cmake/compiler/gcc/target_arm.cmake)
 elseif("${ARCH}" STREQUAL "arm64")
   include(${ZEPHYR_BASE}/cmake/compiler/gcc/target_arm64.cmake)
 elseif("${ARCH}" STREQUAL "arc")
   include(${ZEPHYR_BASE}/cmake/compiler/gcc/target_arc.cmake)
 elseif("${ARCH}" STREQUAL "riscv")
   include(${CMAKE_CURRENT_LIST_DIR}/target_riscv.cmake)
 elseif("${ARCH}" STREQUAL "x86")
   include(${CMAKE_CURRENT_LIST_DIR}/target_x86.cmake)
 elseif("${ARCH}" STREQUAL "sparc")
   include(${CMAKE_CURRENT_LIST_DIR}/target_sparc.cmake)
 elseif("${ARCH}" STREQUAL "mips")
   include(${CMAKE_CURRENT_LIST_DIR}/target_mips.cmake)
 elseif("${ARCH}" STREQUAL "xtensa")
   include(${CMAKE_CURRENT_LIST_DIR}/target_xtensa.cmake)
 endif()

 if(SYSROOT_DIR)
   # The toolchain has specified a sysroot dir, pass it to the compiler
   list(APPEND TOOLCHAIN_C_FLAGS
     --sysroot=${SYSROOT_DIR}
     )

   # Use sysroot dir to set the libc path's
   execute_process(
     COMMAND ${CMAKE_C_COMPILER} ${TOOLCHAIN_C_FLAGS} --print-multi-directory
     OUTPUT_VARIABLE NEWLIB_DIR
     OUTPUT_STRIP_TRAILING_WHITESPACE
     )

   set(LIBC_LIBRARY_DIR "\"${SYSROOT_DIR}\"/lib/${NEWLIB_DIR}")
 endif()

 # This libgcc code is partially duplicated in compiler/*/target.cmake
 execute_process(
   COMMAND ${CMAKE_C_COMPILER} ${TOOLCHAIN_C_FLAGS} --print-libgcc-file-name
   OUTPUT_VARIABLE LIBGCC_FILE_NAME
   OUTPUT_STRIP_TRAILING_WHITESPACE
   )

 assert_exists(LIBGCC_FILE_NAME)

 get_filename_component(LIBGCC_DIR ${LIBGCC_FILE_NAME} DIRECTORY)

 assert_exists(LIBGCC_DIR)

 LIST(APPEND LIB_INCLUDE_DIR "-L\"${LIBGCC_DIR}\"")
 LIST(APPEND TOOLCHAIN_LIBS gcc)

 # For CMake to be able to test if a compiler flag is supported by the
 # toolchain we need to give CMake the necessary flags to compile and
 # link a dummy C file.
 #
 # CMake checks compiler flags with check_c_compiler_flag() (Which we
 # wrap with target_cc_option() in extensions.cmake)
 foreach(isystem_include_dir ${NOSTDINC})
   list(APPEND isystem_include_flags -isystem "\"${isystem_include_dir}\"")
 endforeach()

 # The CMAKE_REQUIRED_FLAGS variable is used by check_c_compiler_flag()
 # (and other commands which end up calling check_c_source_compiles())
 # to add additional compiler flags used during checking. These flags
 # are unused during "real" builds of Zephyr source files linked into
 # the final executable.
 #
 # Appending onto any existing values lets users specify
 # toolchain-specific flags at generation time.
 list(APPEND CMAKE_REQUIRED_FLAGS
   -nostartfiles
   -nostdlib
   ${isystem_include_flags}
   -Wl,--unresolved-symbols=ignore-in-object-files
   -Wl,--entry=0 # Set an entry point to avoid a warning
   )
 string(REPLACE ";" " " CMAKE_REQUIRED_FLAGS "${CMAKE_REQUIRED_FLAGS}")
	# SPDX-License-Identifier: Apache-2.0

	set_ifndef(C++ g++)

	# Configures CMake for using GCC, this script is re-used by several
	# GCC-based toolchains

	find_package(Deprecated COMPONENTS SPARSE)
	find_program(CMAKE_C_COMPILER ${CROSS_COMPILE}${CC} PATHS ${TOOLCHAIN_HOME} NO_DEFAULT_PATH)

	if(${CMAKE_C_COMPILER} STREQUAL CMAKE_C_COMPILER-NOTFOUND)
	message(FATAL_ERROR "C compiler ${CROSS_COMPILE}${CC} not found - Please check your toolchain installation")
	endif()

	if(CONFIG_CPP)
	set(cplusplus_compiler ${CROSS_COMPILE}${C++})
	else()
	if(EXISTS ${CROSS_COMPILE}${C++})
	set(cplusplus_compiler ${CROSS_COMPILE}${C++})
	else()
	# When the toolchain doesn't support C++, and we aren't building
	# with C++ support just set it to something so CMake doesn't
	# crash, it won't actually be called
	set(cplusplus_compiler ${CMAKE_C_COMPILER})
	endif()
	endif()
	find_program(CMAKE_CXX_COMPILER ${cplusplus_compiler} PATHS ${TOOLCHAIN_HOME} NO_DEFAULT_PATH)

	set(NOSTDINC "")

	# Note that NOSYSDEF_CFLAG may be an empty string, and
	# set_ifndef() does not work with empty string.
	if(NOT DEFINED NOSYSDEF_CFLAG)
	set(NOSYSDEF_CFLAG -undef)
	endif()

	# GCC-13, does not install limits.h on include-fixed anymore
	# https://gcc.gnu.org/git/gitweb.cgi?p=gcc.git;h=be9dd80f933480
	# Add check for GCC version >= 13.1
	execute_process(
	COMMAND ${CMAKE_C_COMPILER} -dumpfullversion
	OUTPUT_VARIABLE temp_compiler_version
	)

	if("${temp_compiler_version}" VERSION_GREATER_EQUAL 13.1.0)
	set(fix_header_file include/limits.h)
	else()
	set(fix_header_file include-fixed/limits.h)
	endif()

	foreach(file_name include/stddef.h "${fix_header_file}")
	execute_process(
	COMMAND ${CMAKE_C_COMPILER} --print-file-name=${file_name}
	OUTPUT_VARIABLE _OUTPUT
	)
	get_filename_component(_OUTPUT "${_OUTPUT}" DIRECTORY)
	string(REGEX REPLACE "\n" "" _OUTPUT "${_OUTPUT}")

	list(APPEND NOSTDINC ${_OUTPUT})
	endforeach()

	include(${ZEPHYR_BASE}/cmake/gcc-m-cpu.cmake)
	include(${ZEPHYR_BASE}/cmake/gcc-m-fpu.cmake)

	if("${ARCH}" STREQUAL "arm")
	include(${ZEPHYR_BASE}/cmake/compiler/gcc/target_arm.cmake)
	elseif("${ARCH}" STREQUAL "arm64")
	include(${ZEPHYR_BASE}/cmake/compiler/gcc/target_arm64.cmake)
	elseif("${ARCH}" STREQUAL "arc")
	include(${ZEPHYR_BASE}/cmake/compiler/gcc/target_arc.cmake)
	elseif("${ARCH}" STREQUAL "riscv")
	include(${CMAKE_CURRENT_LIST_DIR}/target_riscv.cmake)
	elseif("${ARCH}" STREQUAL "x86")
	include(${CMAKE_CURRENT_LIST_DIR}/target_x86.cmake)
	elseif("${ARCH}" STREQUAL "sparc")
	include(${CMAKE_CURRENT_LIST_DIR}/target_sparc.cmake)
	elseif("${ARCH}" STREQUAL "mips")
	include(${CMAKE_CURRENT_LIST_DIR}/target_mips.cmake)
	elseif("${ARCH}" STREQUAL "xtensa")
	include(${CMAKE_CURRENT_LIST_DIR}/target_xtensa.cmake)
	endif()

	if(SYSROOT_DIR)
	# The toolchain has specified a sysroot dir, pass it to the compiler
	list(APPEND TOOLCHAIN_C_FLAGS
	--sysroot=${SYSROOT_DIR}
	)

	# Use sysroot dir to set the libc path's
	execute_process(
	COMMAND ${CMAKE_C_COMPILER} ${TOOLCHAIN_C_FLAGS} --print-multi-directory
	OUTPUT_VARIABLE NEWLIB_DIR
	OUTPUT_STRIP_TRAILING_WHITESPACE
	)

	set(LIBC_LIBRARY_DIR "\"${SYSROOT_DIR}\"/lib/${NEWLIB_DIR}")
	endif()

	# This libgcc code is partially duplicated in compiler/*/target.cmake
	execute_process(
	COMMAND ${CMAKE_C_COMPILER} ${TOOLCHAIN_C_FLAGS} --print-libgcc-file-name
	OUTPUT_VARIABLE LIBGCC_FILE_NAME
	OUTPUT_STRIP_TRAILING_WHITESPACE
	)

	assert_exists(LIBGCC_FILE_NAME)

	get_filename_component(LIBGCC_DIR ${LIBGCC_FILE_NAME} DIRECTORY)

	assert_exists(LIBGCC_DIR)

	LIST(APPEND LIB_INCLUDE_DIR "-L\"${LIBGCC_DIR}\"")
	LIST(APPEND TOOLCHAIN_LIBS gcc)

	# For CMake to be able to test if a compiler flag is supported by the
	# toolchain we need to give CMake the necessary flags to compile and
	# link a dummy C file.
	#
	# CMake checks compiler flags with check_c_compiler_flag() (Which we
	# wrap with target_cc_option() in extensions.cmake)
	foreach(isystem_include_dir ${NOSTDINC})
	list(APPEND isystem_include_flags -isystem "\"${isystem_include_dir}\"")
	endforeach()

	# The CMAKE_REQUIRED_FLAGS variable is used by check_c_compiler_flag()
	# (and other commands which end up calling check_c_source_compiles())
	# to add additional compiler flags used during checking. These flags
	# are unused during "real" builds of Zephyr source files linked into
	# the final executable.
	#
	# Appending onto any existing values lets users specify
	# toolchain-specific flags at generation time.
	list(APPEND CMAKE_REQUIRED_FLAGS
	-nostartfiles
	-nostdlib
	${isystem_include_flags}
	-Wl,--unresolved-symbols=ignore-in-object-files
	-Wl,--entry=0 # Set an entry point to avoid a warning
	)
	string(REPLACE ";" " " CMAKE_REQUIRED_FLAGS "${CMAKE_REQUIRED_FLAGS}")