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toolchain_GNUARM.cmake
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toolchain_GNUARM.cmake
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#-------------------------------------------------------------------------------
# Copyright (c) 2020, Arm Limited. All rights reserved.
#
# SPDX-License-Identifier: BSD-3-Clause
#
#-------------------------------------------------------------------------------
# Don't load this file if it is specified as a cmake toolchain file
if(NOT TFM_TOOLCHAIN_FILE)
message(DEPRECATION "SETTING CMAKE_TOOLCHAIN_FILE is deprecated. It has been replaced with TFM_TOOLCHAIN_FILE.")
return()
endif()
set(CMAKE_SYSTEM_NAME Generic)
find_program(CMAKE_C_COMPILER ${CROSS_COMPILE}-gcc)
if(CMAKE_C_COMPILER STREQUAL "CMAKE_C_COMPILER-NOTFOUND")
message(FATAL_ERROR "Could not find compiler: '${CROSS_COMPILE}-gcc'")
endif()
set(CMAKE_ASM_COMPILER ${CMAKE_C_COMPILER})
set(LINKER_VENEER_OUTPUT_FLAG -Wl,--cmse-implib,--out-implib=)
set(COMPILER_CMSE_FLAG -mcmse)
# This variable name is a bit of a misnomer. The file it is set to is included
# at a particular step in the compiler initialisation. It is used here to
# configure the extensions for object files. Despite the name, it also works
# with the Ninja generator.
set(CMAKE_USER_MAKE_RULES_OVERRIDE ${CMAKE_CURRENT_LIST_DIR}/cmake/set_extensions.cmake)
macro(tfm_toolchain_reset_compiler_flags)
set_property(DIRECTORY PROPERTY COMPILE_OPTIONS "")
add_compile_options(
--specs=nano.specs
-Wall
-Wno-format
-Wno-return-type
-Wno-unused-but-set-variable
-c
-fdata-sections
-ffunction-sections
-fno-builtin
-fshort-enums
-funsigned-char
-mthumb
-nostdlib
-std=c99
$<$<BOOL:${TFM_CODE_COVERAGE}>:-g>
$<$<NOT:$<BOOL:${TFM_SYSTEM_FP}>>:-msoft-float>
)
endmacro()
macro(tfm_toolchain_reset_linker_flags)
set_property(DIRECTORY PROPERTY LINK_OPTIONS "")
add_link_options(
--entry=Reset_Handler
--specs=nano.specs
LINKER:-check-sections
LINKER:-fatal-warnings
LINKER:--gc-sections
LINKER:--no-wchar-size-warning
LINKER:--print-memory-usage
)
endmacro()
macro(tfm_toolchain_set_processor_arch)
set(CMAKE_SYSTEM_PROCESSOR ${TFM_SYSTEM_PROCESSOR})
set(CMAKE_SYSTEM_ARCHITECTURE ${TFM_SYSTEM_ARCHITECTURE})
if (DEFINED TFM_SYSTEM_DSP)
if(NOT TFM_SYSTEM_DSP)
string(APPEND CMAKE_SYSTEM_PROCESSOR "+nodsp")
endif()
endif()
endmacro()
macro(tfm_toolchain_reload_compiler)
tfm_toolchain_set_processor_arch()
tfm_toolchain_reset_compiler_flags()
tfm_toolchain_reset_linker_flags()
unset(CMAKE_C_FLAGS_INIT)
unset(CMAKE_ASM_FLAGS_INIT)
set(CMAKE_C_FLAGS_INIT "-mcpu=${CMAKE_SYSTEM_PROCESSOR}")
set(CMAKE_ASM_FLAGS_INIT "-mcpu=${CMAKE_SYSTEM_PROCESSOR}")
set(CMAKE_C_LINK_FLAGS "-mcpu=${CMAKE_SYSTEM_PROCESSOR}")
set(CMAKE_ASM_LINK_FLAGS "-mcpu=${CMAKE_SYSTEM_PROCESSOR}")
set(CMAKE_C_FLAGS ${CMAKE_C_FLAGS_INIT})
set(CMAKE_ASM_FLAGS ${CMAKE_ASM_FLAGS_INIT})
endmacro()
# Configure environment for the compiler setup run by cmake at the first
# `project` call in <tfm_root>/CMakeLists.txt. After this mandatory setup is
# done, all further compiler setup is done via tfm_toolchain_reload_compiler()
tfm_toolchain_reload_compiler()
macro(target_add_scatter_file target)
target_link_options(${target}
PRIVATE
-T $<TARGET_OBJECTS:${target}_scatter>
)
add_dependencies(${target}
${target}_scatter
)
add_library(${target}_scatter OBJECT)
foreach(scatter_file ${ARGN})
target_sources(${target}_scatter
PRIVATE
${scatter_file}
)
# Cmake cannot use generator expressions in the
# set_source_file_properties command, so instead we just parse the regex
# for the filename and set the property on all files, regardless of if
# the generator expression would evaluate to true or not.
string(REGEX REPLACE ".*>:(.*)>$" "\\1" SCATTER_FILE_PATH "${scatter_file}")
set_source_files_properties(${SCATTER_FILE_PATH}
PROPERTIES
LANGUAGE C
)
endforeach()
target_link_libraries(${target}_scatter
platform_region_defs
psa_interface
tfm_partition_defs
)
target_compile_options(${target}_scatter
PRIVATE
-E
-P
-xc
)
endmacro()
macro(add_convert_to_bin_target target)
get_target_property(bin_dir ${target} RUNTIME_OUTPUT_DIRECTORY)
add_custom_target(${target}_bin
SOURCES ${bin_dir}/${target}.bin
)
add_custom_command(OUTPUT ${bin_dir}/${target}.bin
DEPENDS ${target}
COMMAND ${CMAKE_OBJCOPY}
-O binary $<TARGET_FILE:${target}>
${bin_dir}/${target}.bin
)
add_custom_target(${target}_elf
SOURCES ${bin_dir}/${target}.elf
)
add_custom_command(OUTPUT ${bin_dir}/${target}.elf
DEPENDS ${target}
COMMAND ${CMAKE_OBJCOPY}
-O elf32-littlearm $<TARGET_FILE:${target}>
${bin_dir}/${target}.elf
)
add_custom_target(${target}_hex
SOURCES ${bin_dir}/${target}.hex
)
add_custom_command(OUTPUT ${bin_dir}/${target}.hex
DEPENDS ${target}
COMMAND ${CMAKE_OBJCOPY}
-O ihex $<TARGET_FILE:${target}>
${bin_dir}/${target}.hex
)
add_custom_target(${target}_binaries
ALL
DEPENDS ${target}_bin
DEPENDS ${target}_elf
DEPENDS ${target}_hex
)
endmacro()
# Macro for sharing code among independent binaries. This function extracts
# some parts of the code based on a symbol template file and creates a text
# file, which contains the symbols with their absolute addresses, which can be
# picked up by the linker when linking the other target.
# INPUTS:
# TARGET - - Target to extract the symbols/objects from
# SHARED_SYMBOL_TEMPLATE - Template with names of symbols to share
macro(compiler_create_shared_code TARGET SHARED_SYMBOL_TEMPLATE)
# Create a temporary file, which contains all extracted symbols from 'TARGET'
set(ALL_SYMBOLS ${CMAKE_CURRENT_BINARY_DIR}/all_symbols.txt)
# Find the CMake script doing the symbol filtering.
find_file(FILTER_SYMBOLS_SCRIPT "FilterSharedSymbols.cmake" PATHS ${CMAKE_MODULE_PATH} PATH_SUFFIXES Common NO_DEFAULT_PATH)
find_file(STRIP_UNSHARED_CODE "StripUnsharedCode.cmake" PATHS ${CMAKE_MODULE_PATH} PATH_SUFFIXES Common NO_DEFAULT_PATH)
find_program(GNUARM_NM arm-none-eabi-nm)
if (GNUARM_NM STREQUAL "GNUARM_NM-NOTFOUND")
message(FATAL_ERROR "toolchain_GNUARM.cmake: mandatory tool '${GNUARM_NM}' is missing.")
endif()
# Multiple steps are required:
# - Extract all symbols from sharing target
# - Filter the unwanted symbols from all_symbols.txt
# - Create a stripped shared_code.axf file which contains only the symbols which are meant to be shared
add_custom_command(TARGET ${TARGET}
POST_BUILD
COMMAND ${GNUARM_NM}
ARGS
${CMAKE_BINARY_DIR}/bin/${TARGET}.axf > ${ALL_SYMBOLS}
COMMENT "Dumping all symbols"
COMMAND ${CMAKE_COMMAND}
-DSHARED_SYMBOL_TEMPLATE=${SHARED_SYMBOL_TEMPLATE}
-DALL_SYMBOLS=${ALL_SYMBOLS}
-P ${FILTER_SYMBOLS_SCRIPT}
BYPRODUCTS
${CMAKE_CURRENT_BINARY_DIR}/shared_symbols_name.txt
${CMAKE_CURRENT_BINARY_DIR}/shared_symbols_addr.txt
COMMENT "Filtering shared symbols"
COMMAND ${CMAKE_COMMAND}
-E copy ${CMAKE_BINARY_DIR}/bin/${TARGET}.axf ${CMAKE_CURRENT_BINARY_DIR}/shared_code.axf
COMMENT "Copy and rename ${TARGET} to strip"
COMMAND ${CMAKE_COMMAND}
-DSHARED_SYMBOLS_FILE=${CMAKE_CURRENT_BINARY_DIR}/shared_symbols_name.txt
-DEXECUTABLE_TO_STRIP=${CMAKE_CURRENT_BINARY_DIR}/shared_code.axf
-P ${STRIP_UNSHARED_CODE}
COMMENT "Stripping unshared code from ${CMAKE_CURRENT_BINARY_DIR}/shared_code.axf"
)
endmacro()
macro(compiler_weaken_symbols TARGET SHARED_CODE_PATH ORIG_TARGET LIB_LIST)
# Find the CMake scripts
find_file(WEAKEN_SYMBOLS_SCRIPT "WeakenSymbols.cmake" PATHS ${CMAKE_MODULE_PATH} PATH_SUFFIXES Common NO_DEFAULT_PATH)
add_custom_command(TARGET ${TARGET}
PRE_LINK
COMMAND ${CMAKE_COMMAND}
-DLIB_LIST='${LIB_LIST}'
-DSHARED_CODE_PATH=${SHARED_CODE_PATH}
-P ${WEAKEN_SYMBOLS_SCRIPT}
COMMENT "Set conflicting symbols to be weak in the original libraries to avoid collision")
# If sharing target is defined by TF-M build then setup dependency
if(NOT ${ORIG_TARGET} STREQUAL "EXTERNAL_TARGET")
add_dependencies(${TARGET} ${ORIG_TARGET})
endif()
endmacro()
# Macro for linking shared code to given target. Location of shared code could
# be outside of the TF-M project. Its location can be defined with the CMake
# command line argument "SHARED_CODE_PATH". The file containing the shared objects
# must be named "shared_symbols_addr.txt".
# INPUTS:
# TARGET Target to link the shared code to
# SHARED_CODE_PATH Shared code located in this folder
# ORIG_TARGET Target that shared code was extraced from <TARGET | "EXTERNAL_TARGET">
# LIB_LIST List of libraries which are linked to top level target
macro(compiler_link_shared_code TARGET SHARED_CODE_PATH ORIG_TARGET LIB_LIST)
# GNUARM requires to link a stripped version (only containing the shared symbols) of the
# original executable to the executable which want to rely on the shared symbols.
target_link_options(${TARGET} PRIVATE -Wl,-R${SHARED_CODE_PATH}/shared_code.axf)
compiler_weaken_symbols(${TARGET}
${SHARED_CODE_PATH}
${ORIG_TARGET}
"${LIB_LIST}"
)
endmacro()