# Uniquely identify the toolchain wrt. it's capabilities. # # What we are looking for, is a signature definition that is defined # like this: # * The MD5 sum of the compiler itself. A MD5 checksum is taken of the content # after symlinks are resolved. This ensure that if the content changes, then # the MD5 will also change (as example toolchain upgrade in same folder) # * The CMAKE_C_COMPILER itself. This may be a symlink, but it ensures that # multiple symlinks pointing to same executable will generate different # signatures, as example: clang, gcc, arm-zephyr-eabi-gcc, links pointing to # ccache will generate unique signatures # * CMAKE_C_COMPILER_ID is taking the CMake compiler id for extra signature. # * CMAKE_C_COMPILER_VERSION will ensure that even when using the previous # methods, where an upgraded compiler could have same signature due to ccache # usage and symbolic links, then the upgraded compiler will have new version # and thus generate a new signature. # # Toolchains with the same signature will always support the same set of flags. # file(MD5 ${CMAKE_C_COMPILER} CMAKE_C_COMPILER_MD5_SUM) set(TOOLCHAIN_SIGNATURE ${CMAKE_C_COMPILER_MD5_SUM}) # Extend the CMAKE_C_COMPILER_MD5_SUM with the compiler signature. string(MD5 COMPILER_SIGNATURE ${CMAKE_C_COMPILER}_${CMAKE_C_COMPILER_ID}_${CMAKE_C_COMPILER_VERSION}) set(TOOLCHAIN_SIGNATURE ${TOOLCHAIN_SIGNATURE}_${COMPILER_SIGNATURE}) # Loading of templates are strictly not needed as they does not set any # properties. # They purely provides an overview as well as a starting point for supporting # a new toolchain. include(${CMAKE_CURRENT_LIST_DIR}/compiler/compiler_flags_template.cmake) include(${CMAKE_CURRENT_LIST_DIR}/linker/linker_flags_template.cmake) # Configure the toolchain flags based on what toolchain technology is used # (gcc, host-gcc etc.) include(${TOOLCHAIN_ROOT}/cmake/compiler/${COMPILER}/compiler_flags.cmake OPTIONAL) include(${TOOLCHAIN_ROOT}/cmake/linker/${LINKER}/linker_flags.cmake OPTIONAL)