| # SPDX-License-Identifier: Apache-2.0 |
| |
| # No official documentation exists for the "Generic" value, except their wiki. |
| # |
| # https://gitlab.kitware.com/cmake/community/wikis/doc/cmake/CrossCompiling: |
| # CMAKE_SYSTEM_NAME : this one is mandatory, it is the name of the target |
| # system, i.e. the same as CMAKE_SYSTEM_NAME would have if CMake would run |
| # on the target system. Typical examples are "Linux" and "Windows". This |
| # variable is used for constructing the file names of the platform files |
| # like Linux.cmake or Windows-gcc.cmake. If your target is an embedded |
| # system without OS set CMAKE_SYSTEM_NAME to "Generic". |
| set(CMAKE_SYSTEM_NAME Generic) |
| |
| # https://cmake.org/cmake/help/latest/variable/CMAKE_SYSTEM_PROCESSOR.html: |
| # The name of the CPU CMake is building for. |
| # |
| # https://gitlab.kitware.com/cmake/community/wikis/doc/cmake/CrossCompiling: |
| # CMAKE_SYSTEM_PROCESSOR : optional, processor (or hardware) of the |
| # target system. This variable is not used very much except for one |
| # purpose, it is used to load a |
| # CMAKE_SYSTEM_NAME-compiler-CMAKE_SYSTEM_PROCESSOR.cmake file, |
| # which can be used to modify settings like compiler flags etc. for |
| # the target |
| set(CMAKE_SYSTEM_PROCESSOR ${ARCH}) |
| |
| # https://cmake.org/cmake/help/latest/variable/CMAKE_SYSTEM_VERSION.html: |
| # When the CMAKE_SYSTEM_NAME variable is set explicitly to enable cross |
| # compiling then the value of CMAKE_SYSTEM_VERSION must also be set |
| # explicitly to specify the target system version. |
| set(CMAKE_SYSTEM_VERSION ${PROJECT_VERSION}) |
| |
| # We are not building dynamically loadable libraries |
| set(BUILD_SHARED_LIBS OFF) |
| |
| if(NOT (COMPILER STREQUAL "host-gcc")) |
| include(${TOOLCHAIN_ROOT}/cmake/toolchain/${ZEPHYR_TOOLCHAIN_VARIANT}/target.cmake) |
| endif() |
| |
| # The 'generic' compiler and the 'target' compiler might be different, |
| # so we unset the 'generic' one and thereby force the 'target' to |
| # re-set it. |
| unset(CMAKE_C_COMPILER) |
| unset(CMAKE_C_COMPILER CACHE) |
| |
| # Configure the toolchain based on what toolchain technology is used |
| # (gcc, host-gcc etc.) |
| include(${ZEPHYR_BASE}/cmake/compiler/${COMPILER}/target.cmake OPTIONAL) |
| |
| # Uniquely identify the toolchain wrt. it's capabilities. |
| # |
| # What we are looking for, is a signature definition that is defined |
| # like this: |
| |
| # Toolchains with the same signature will always support the same set |
| # of flags. |
| |
| # It is not clear how this signature should be constructed. The |
| # strategy chosen is to md5sum the CC binary. |
| |
| file(MD5 ${CMAKE_C_COMPILER} CMAKE_C_COMPILER_MD5_SUM) |
| set(TOOLCHAIN_SIGNATURE ${CMAKE_C_COMPILER_MD5_SUM}) |