# Copyright (c) 2020 ARM Limited. All rights reserved.
# SPDX-License-Identifier: Apache-2.0
# This is the boilerplate for Mbed OS
cmake_minimum_required(VERSION 3.19.0 FATAL_ERROR)
include(${MBED_CONFIG_PATH}/mbed_config.cmake)
include(tools/cmake/set_linker_script.cmake)
add_library(mbed-core INTERFACE)
add_library(mbed-os INTERFACE)
target_link_libraries(mbed-os
INTERFACE
mbed-rtos
mbed-core
)
add_library(mbed-baremetal INTERFACE)
target_link_libraries(mbed-baremetal
INTERFACE
mbed-core
)
# Validate selected C library type
# The C library type selected has to match the library that the target can support
if(${MBED_C_LIB} STREQUAL "small")
if(NOT "small" IN_LIST MBED_TARGET_SUPPORTED_C_LIBS)
if("std" IN_LIST MBED_TARGET_SUPPORTED_C_LIBS)
message(WARNING
"We noticed that target.c_lib is set to `${MBED_C_LIB}`."
" As the ${MBED_TARGET} target does not support a small C library for the ${MBED_TOOLCHAIN} toolchain,"
" we are using the standard C library instead."
)
set(MBED_C_LIB "std" CACHE STRING "")
endif()
endif()
elseif(NOT ${MBED_C_LIB} IN_LIST MBED_TARGET_SUPPORTED_C_LIBS)
message(FATAL_ERROR
"Invalid `target.c_lib` ('${MBED_C_LIB}') for '${MBED_TARGET}' target."
"\nPossible value(s): ${MBED_TARGET_SUPPORTED_C_LIBS}"
)
endif()
# Validate selected printf library
set(MBED_PRINTF_LIB_TYPES std minimal-printf)
if(NOT ${MBED_PRINTF_LIB} IN_LIST MBED_PRINTF_LIB_TYPES)
message(FATAL_ERROR
"Invalid printf library type '${MBED_PRINTF_LIB}'. Possible values:\n ${MBED_PRINTF_LIB_TYPES}"
)
endif()
mbed_set_cpu_core_definitions(mbed-core)
if(${MBED_TOOLCHAIN_FILE_USED})
mbed_set_profile_options(mbed-core ${MBED_TOOLCHAIN})
mbed_set_c_lib(mbed-core ${MBED_C_LIB})
mbed_set_printf_lib(mbed-core ${MBED_PRINTF_LIB})
endif()
target_compile_definitions(mbed-core
INTERFACE
${MBED_TARGET_DEFINITIONS}
${MBED_CONFIG_DEFINITIONS}
)
# Add compile definitions for backward compatibility with the toolchain
# supported. New source files should instead check for __GNUC__ and __clang__
# for the GCC_ARM and ARM toolchains respectively.
if(${MBED_TOOLCHAIN} STREQUAL "GCC_ARM")
target_compile_definitions(mbed-core
INTERFACE
TOOLCHAIN_GCC_ARM
TOOLCHAIN_GCC
)
elseif(${MBED_TOOLCHAIN} STREQUAL "ARM")
target_compile_definitions(mbed-core
INTERFACE
TOOLCHAIN_ARM
)
endif()
# Include mbed.h and config from generate folder
target_include_directories(mbed-core
INTERFACE
${CMAKE_CURRENT_SOURCE_DIR}
)
# We need to generate a "response file" to pass to the C preprocessor because of path length
# limitations on Windows. We set the response file and bind the path to a global property here.
# We query this global property when we set the linker script for the MBED_TARGET being built.
#
# TODO: Remove this and find a more idiomatic way of passing compile definitions to CPP without
# using global properties.
mbed_generate_options_for_linker(${APP_TARGET} LINKER_PREPROCESS_DEFINITIONS)
set_property(GLOBAL PROPERTY COMPILE_DEFS_RESPONSE_FILE ${LINKER_PREPROCESS_DEFINITIONS})
# These targets are made visible here so their source files which
# are spread in different directories can be referenced and can be linked against
# by libraries that depend on them.
# TODO CMake: Should the source files be moved?
add_library(mbed-device_key INTERFACE)
add_library(mbed-rtos INTERFACE)
add_subdirectory(cmsis)
add_subdirectory(drivers)
add_subdirectory(hal)
add_subdirectory(platform)
add_subdirectory(rtos)
add_subdirectory(targets)
# The directories below contain optional target libraries
add_subdirectory(events EXCLUDE_FROM_ALL)
add_subdirectory(connectivity EXCLUDE_FROM_ALL)
add_subdirectory(storage EXCLUDE_FROM_ALL)
add_subdirectory(drivers/device_key EXCLUDE_FROM_ALL)
add_subdirectory(drivers/usb EXCLUDE_FROM_ALL)
add_subdirectory(features EXCLUDE_FROM_ALL)
add_subdirectory(cmsis/CMSIS_5/CMSIS/RTOS2 EXCLUDE_FROM_ALL)
add_subdirectory(cmsis/device/rtos EXCLUDE_FROM_ALL)
# This is a temporary workaround to prevent the build from failing for MBED_TARGETS that
# haven't been converted to build system targets yet.
# The refactored MBED_TARGETS set the linker script and forward it to the build system as a
# usage requirement. The 'old' mechanism was to set the linker script on the top level mbed-core
# target. This was needed because MBED_TARGETS were not registered as buildsystem targets,
# preventing CMake from working its usage requirements magic and forcing us to set the linker
# script globally.
#
# TODO: Remove when all MBED_TARGETS have been converted to build system targets.
if(TARGET ${MBED_TARGET})
target_link_libraries(mbed-core INTERFACE ${MBED_TARGET})
else()
get_property(LINKER_SCRIPT GLOBAL PROPERTY MBED_TARGET_LINKER_FILE)
mbed_set_linker_script(mbed-core ${LINKER_SCRIPT})
endif()
#
# Configures the application
#
function(mbed_configure_app_target target)
# Set the language standard to use per target
target_compile_features(${target}
PUBLIC
c_std_11
cxx_std_14
)
endfunction()
#
# Converts output file of `target` to binary file and to Intel HEX file.
#
function(mbed_generate_bin_hex target)
get_property(elf_to_bin GLOBAL PROPERTY ELF2BIN)
if(MBED_TOOLCHAIN STREQUAL "GCC_ARM")
set(CMAKE_POST_BUILD_COMMAND
COMMAND ${elf_to_bin} -O binary $<TARGET_FILE:${target}> ${CMAKE_BINARY_DIR}/${target}.bin
COMMAND ${CMAKE_COMMAND} -E echo "-- built: ${CMAKE_BINARY_DIR}/${target}.bin"
COMMAND ${elf_to_bin} -O ihex $<TARGET_FILE:${target}> ${CMAKE_BINARY_DIR}/${target}.hex
COMMAND ${CMAKE_COMMAND} -E echo "-- built: ${CMAKE_BINARY_DIR}/${target}.hex"
)
elseif(MBED_TOOLCHAIN STREQUAL "ARM")
get_property(mbed_studio_arm_compiler GLOBAL PROPERTY MBED_STUDIO_ARM_COMPILER)
set(CMAKE_POST_BUILD_COMMAND
COMMAND ${elf_to_bin} ${mbed_studio_arm_compiler} --bin -o ${CMAKE_BINARY_DIR}/${target}.bin $<TARGET_FILE:${target}>
COMMAND ${CMAKE_COMMAND} -E echo "-- built: ${CMAKE_BINARY_DIR}/${target}.bin"
COMMAND ${elf_to_bin} ${mbed_studio_arm_compiler} --i32combined -o ${CMAKE_BINARY_DIR}/${target}.hex $<TARGET_FILE:${target}>
COMMAND ${CMAKE_COMMAND} -E echo "-- built: ${CMAKE_BINARY_DIR}/${target}.hex"
)
endif()
add_custom_command(
TARGET
${target}
POST_BUILD
${CMAKE_POST_BUILD_COMMAND}
COMMENT
"executable:"
VERBATIM
)
endfunction()
#
# Parse toolchain generated map file of `target` and display a readable table format.
#
function(mbed_generate_map_file target)
find_package (Python3)
add_custom_command(
TARGET
${target}
POST_BUILD
COMMAND ${Python3_EXECUTABLE} ${MBED_PATH}/tools/memap.py -t ${MBED_TOOLCHAIN} ${CMAKE_BINARY_DIR}/${target}${CMAKE_EXECUTABLE_SUFFIX}.map
WORKING_DIRECTORY
${CMAKE_BINARY_DIR}
COMMENT
"Displaying memory map for ${target}"
)
endfunction()
#
# Validate selected application profile.
#
function(mbed_validate_application_profile target)
get_target_property(app_link_libraries ${target} LINK_LIBRARIES)
string(FIND "${app_link_libraries}" "mbed-baremetal" string_found_position)
if(${string_found_position} GREATER_EQUAL 0)
if(NOT "bare-metal" IN_LIST MBED_TARGET_SUPPORTED_APPLICATION_PROFILES)
message(FATAL_ERROR
"Use full profile as baremetal profile is not supported for this Mbed target")
endif()
elseif(NOT "full" IN_LIST MBED_TARGET_SUPPORTED_APPLICATION_PROFILES)
message(FATAL_ERROR
"The full profile is not supported for this Mbed target")
endif()
endfunction()
#
# Set post build operations
#
function(mbed_set_post_build target)
mbed_validate_application_profile(${target})
mbed_generate_bin_hex(${target})
mbed_generate_map_file(${target})
endfunction()
# Ninja requires to be forced for response files
if ("${CMAKE_GENERATOR}" MATCHES "Ninja")
# known issue ARMClang and Ninja with response files for windows
# https://gitlab.kitware.com/cmake/cmake/-/issues/21093
if(NOT (CMAKE_HOST_SYSTEM_NAME MATCHES "Windows" AND CMAKE_CXX_COMPILER_ID MATCHES "ARMClang"))
set(CMAKE_NINJA_FORCE_RESPONSE_FILE 1 CACHE INTERNAL "")
endif()
endif()
