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pigweed / third_party / github / zephyrproject-rtos / zephyr / 9555f82d2876ecab38c700a935365030e44d67b3 / . / CMakeLists.txt
blob: 4b75d3ac372fc31e53bc8b7c107fc05fed8b0311 [file] [log] [blame]
# SPDX-License-Identifier: Apache-2.0
# *DOCUMENTATION*
#
# Note that this is *NOT* the top-level CMakeLists.txt. That's in the
# application. See the Application Development Primer documentation
# for details.
#
# To see a list of typical targets execute "make usage"
# More info can be located in ./README.rst
# Comments in this file are targeted only to the developer, do not
# expect to learn how to build the kernel reading this file.
if(NOT DEFINED ZEPHYR_BINARY_DIR)
message(FATAL_ERROR "A user error has occurred.
cmake was invoked with '${CMAKE_CURRENT_LIST_DIR}' specified as the source directory,
but it must be invoked with an application source directory,
such as '${CMAKE_CURRENT_LIST_DIR}/samples/hello_world'.
Debug variables:
CMAKE_CACHEFILE_DIR: ${CMAKE_CACHEFILE_DIR}
")
endif()
# See https://gitlab.kitware.com/cmake/cmake/issues/16228
# and https://cmake.org/pipermail/cmake/2019-May/thread.html#69496
if(NOT ZEPHYR_BASE STREQUAL CMAKE_CURRENT_SOURCE_DIR)
message(WARNING "ZEPHYR_BASE doesn't match CMAKE_CURRENT_SOURCE_DIR
ZEPHYR_BASE = ${ZEPHYR_BASE}
PWD = $ENV{PWD}
CMAKE_CURRENT_SOURCE_DIR = ${CMAKE_CURRENT_SOURCE_DIR}
You may be using a mix of symbolic links and real paths which causes \
subtle and hard to debug CMake issues.")
endif()
# For Zephyr more specifically this breaks (at least)
# -fmacro-prefix-map=${ZEPHYR_BASE}=
# Verify that the toolchain can compile a dummy file, if it is not we
# won't be able to test for compatibility with certain C flags.
zephyr_check_compiler_flag(C "" toolchain_is_ok)
assert(toolchain_is_ok "The toolchain is unable to build a dummy C file. See CMakeError.log.")
# In some cases the "final" things are not used at all and "_prebuilt"
# is the last station. See "logical_target_for_zephyr_elf" below for
# details.
set(CMAKE_EXECUTABLE_SUFFIX .elf)
set(ZEPHYR_PREBUILT_EXECUTABLE zephyr_prebuilt)
set(ZEPHYR_FINAL_EXECUTABLE zephyr_final)
# Set some phony targets to collect dependencies
set(OFFSETS_H_TARGET offsets_h)
set(SYSCALL_MACROS_H_TARGET syscall_macros_h_target)
set(SYSCALL_LIST_H_TARGET syscall_list_h_target)
set(DRIVER_VALIDATION_H_TARGET driver_validation_h_target)
set(KOBJ_TYPES_H_TARGET kobj_types_h_target)
set(LINKER_SCRIPT_TARGET linker_script_target)
define_property(GLOBAL PROPERTY PROPERTY_OUTPUT_FORMAT BRIEF_DOCS " " FULL_DOCS " ")
set_property( GLOBAL PROPERTY PROPERTY_OUTPUT_FORMAT elf32-little${ARCH}) # BFD format
# "zephyr_interface" is a source-less library that encapsulates all the global
# compiler options needed by all source files. All zephyr libraries,
# including the library named "zephyr" link with this library to
# obtain these flags.
# https://cmake.org/cmake/help/latest/manual/cmake-buildsystem.7.html#interface-libraries
add_library(zephyr_interface INTERFACE)
# "zephyr" is a catch-all CMake library for source files that can be
# built purely with the include paths, defines, and other compiler
# flags that come with zephyr_interface.
zephyr_library_named(zephyr)
zephyr_include_directories(
kernel/include
${ARCH_DIR}/${ARCH}/include
include
include/drivers
${PROJECT_BINARY_DIR}/include/generated
${USERINCLUDE}
${STDINCLUDE}
)
# Don't add non-existing include directories, it creates noise and
# warnings in some tooling
foreach(optional_include_dir
${SOC_DIR}/${ARCH}/${SOC_PATH}
${SOC_DIR}/${ARCH}/${SOC_PATH}/include
${SOC_DIR}/${ARCH}/${SOC_FAMILY}/include
)
if(EXISTS ${optional_include_dir})
zephyr_include_directories(${optional_include_dir})
endif()
endforeach()
zephyr_compile_definitions(
KERNEL
__ZEPHYR__=1
)
# @Intent: Set compiler flags to enable buffer overflow checks in libc functions
# @config in CONFIG_NO_OPTIMIZATIONS optional : Optimizations may affect security
toolchain_cc_security_fortify()
# @Intent: Set compiler flags to detect general stack overflows across all functions
if(CONFIG_STACK_CANARIES)
toolchain_cc_security_canaries()
endif()
if(BUILD_VERSION)
zephyr_compile_definitions(
BUILD_VERSION=${BUILD_VERSION}
)
endif()
# @Intent: Obtain compiler optimizations flags and store in variables
# @details:
# Kconfig.zephyr "Optimization level" is a kconfig choice, ensuring
# only *one* of CONFIG_{NO,DEBUG,SPEED,SIZE}_OPTIMIZATIONS is set.
# Refer to Kconfig.zephyr for selection logic and description of these choices.
# toolchain_cc_optimize_*() macros must provide the mapping from these kconfigs
# to compiler flags. Each macro will store the flags in a CMake variable, whose
# name is passed as argument (somewhat like by reference).
#
# If the user wants to tweak the optimizations, there are two ways:
# 1) Using EXTRA_CFLAGS which is applied regardless of kconfig choice, or
# 2) Rely on override support being implemented by your toolchain_cc_optimize_*()
#
toolchain_cc_optimize_for_no_optimizations_flag(OPTIMIZE_FOR_NO_OPTIMIZATIONS_FLAG)
toolchain_cc_optimize_for_debug_flag(OPTIMIZE_FOR_DEBUG_FLAG)
toolchain_cc_optimize_for_speed_flag(OPTIMIZE_FOR_SPEED_FLAG)
toolchain_cc_optimize_for_size_flag(OPTIMIZE_FOR_SIZE_FLAG)
# From kconfig choice, pick the actual OPTIMIZATION_FLAG to use.
# Kconfig choice ensures only one of these CONFIG_*_OPTIMIZATIONS is set.
if(CONFIG_NO_OPTIMIZATIONS)
set(OPTIMIZATION_FLAG ${OPTIMIZE_FOR_NO_OPTIMIZATIONS_FLAG})
elseif(CONFIG_DEBUG_OPTIMIZATIONS)
set(OPTIMIZATION_FLAG ${OPTIMIZE_FOR_DEBUG_FLAG})
elseif(CONFIG_SPEED_OPTIMIZATIONS)
set(OPTIMIZATION_FLAG ${OPTIMIZE_FOR_SPEED_FLAG})
elseif(CONFIG_SIZE_OPTIMIZATIONS)
set(OPTIMIZATION_FLAG ${OPTIMIZE_FOR_SIZE_FLAG}) # Default in kconfig
else()
assert(0 "Unreachable code. Expected optimization level to have been chosen. See Kconfig.zephyr")
endif()
# Apply the final optimization flag(s)
zephyr_compile_options(${OPTIMIZATION_FLAG})
# @Intent: Obtain compiler specific flags related to C++ that are not influenced by kconfig
toolchain_cc_cpp_base_flags(CPP_BASE_FLAGS)
foreach(flag ${CPP_BASE_FLAGS})
zephyr_compile_options(
$<$<COMPILE_LANGUAGE:CXX>:${flag}>
)
endforeach()
# @Intent: Obtain compiler specific flags for compiling under different ISO standards of C++
toolchain_cc_cpp_dialect_std_98_flags(CPP_DIALECT_STD_98_FLAGS)
toolchain_cc_cpp_dialect_std_11_flags(CPP_DIALECT_STD_11_FLAGS)
toolchain_cc_cpp_dialect_std_14_flags(CPP_DIALECT_STD_14_FLAGS)
toolchain_cc_cpp_dialect_std_17_flags(CPP_DIALECT_STD_17_FLAGS)
toolchain_cc_cpp_dialect_std_2a_flags(CPP_DIALECT_STD_2A_FLAGS)
if(CONFIG_CPLUSPLUS)
# From kconfig choice, pick a single dialect.
# Kconfig choice ensures only one of these CONFIG_STD_CPP* is set.
if(CONFIG_STD_CPP98)
set(STD_CPP_DIALECT_FLAGS ${CPP_DIALECT_STD_98_FLAGS})
elseif(CONFIG_STD_CPP11)
set(STD_CPP_DIALECT_FLAGS ${CPP_DIALECT_STD_11_FLAGS}) # Default in kconfig
elseif(CONFIG_STD_CPP14)
set(STD_CPP_DIALECT_FLAGS ${CPP_DIALECT_STD_14_FLAGS})
elseif(CONFIG_STD_CPP17)
set(STD_CPP_DIALECT_FLAGS ${CPP_DIALECT_STD_17_FLAGS})
elseif(CONFIG_STD_CPP2A)
set(STD_CPP_DIALECT_FLAGS ${CPP_DIALECT_STD_2A_FLAGS})
else()
assert(0 "Unreachable code. Expected C++ standard to have been chosen. See Kconfig.zephyr.")
endif()
foreach(flag ${STD_CPP_DIALECT_FLAGS})
zephyr_compile_options(
$<$<COMPILE_LANGUAGE:CXX>:${flag}>
)
endforeach()
endif()
if(NOT CONFIG_EXCEPTIONS)
# @Intent: Obtain compiler specific flags related to C++ Exceptions
toolchain_cc_cpp_no_exceptions_flag(CPP_NO_EXCEPTIONS_FLAG)
zephyr_compile_options(
$<$<COMPILE_LANGUAGE:CXX>:${CPP_NO_EXCEPTIONS_FLAG}>
)
endif()
if(NOT CONFIG_RTTI)
# @Intent: Obtain compiler specific flags related to C++ Run Time Type Information
toolchain_cc_cpp_no_rtti_flag(CPP_NO_RTTI_FLAG)
zephyr_compile_options(
$<$<COMPILE_LANGUAGE:CXX>:${CPP_NO_RTTI_FLAG}>
)
endif()
if(CONFIG_MISRA_SANE)
# @Intent: Obtain toolchain compiler flags relating to MISRA.
toolchain_cc_warning_error_misra_sane(CC_MISRA_SANE_FLAG)
toolchain_cc_cpp_warning_error_misra_sane(CPP_MISRA_SANE_FLAG)
zephyr_compile_options($<$<COMPILE_LANGUAGE:C>:${CC_MISRA_SANE_FLAG}>)
zephyr_compile_options($<$<COMPILE_LANGUAGE:CXX>:${CPP_MISRA_SANE_FLAG}>)
endif()
# @Intent: Set compiler specific macro inclusion of AUTOCONF_H
toolchain_cc_imacros(${AUTOCONF_H})
# @Intent: Set compiler specific flag for bare metal freestanding option
toolchain_cc_freestanding()
# @Intent: Set compiler specific flag for tentative definitions, no-common
toolchain_cc_nocommon()
# @Intent: Set compiler specific flag for production of debug information
toolchain_cc_produce_debug_info()
zephyr_compile_options(
${TOOLCHAIN_C_FLAGS}
)
# @Intent: Obtain compiler specific flags related to assembly
toolchain_cc_asm_base_flags(ASM_BASE_FLAG)
zephyr_compile_options(
$<$<COMPILE_LANGUAGE:ASM>:${ASM_BASE_FLAG}>
)
# @Intent: Enforce standard integer type correspondance to match Zephyr usage.
# (must be after compiler specific flags)
toolchain_cc_imacros(${ZEPHYR_BASE}/include/toolchain/zephyr_stdint.h)
# Common toolchain-agnostic assembly flags
zephyr_compile_options(
$<$<COMPILE_LANGUAGE:ASM>:-D_ASMLANGUAGE>
)
# @Intent: Set fundamental linker specific flags
toolchain_ld_base()
toolchain_ld_force_undefined_symbols(
_OffsetAbsSyms
_ConfigAbsSyms
)
if(NOT CONFIG_NATIVE_APPLICATION)
# @Intent: Set linker specific flags for bare metal target
toolchain_ld_baremetal()
endif()
if(CONFIG_LIB_CPLUSPLUS)
# @Intent: Set linker specific flags for C++
toolchain_ld_cpp()
endif()
# @Intent: Add the basic toolchain warning flags
toolchain_cc_warning_base()
# ==========================================================================
#
# cmake -DW=... settings
#
# W=1 - warnings that may be relevant and does not occur too often
# W=2 - warnings that occur quite often but may still be relevant
# W=3 - the more obscure warnings, can most likely be ignored
# ==========================================================================
# @Intent: Add cmake -DW toolchain supported warnings, if any
if(W MATCHES "1")
toolchain_cc_warning_dw_1()
endif()
if(W MATCHES "2")
toolchain_cc_warning_dw_2()
endif()
if(W MATCHES "3")
toolchain_cc_warning_dw_3()
endif()
# @Intent: Add extended, more specific, toolchain warning flags
toolchain_cc_warning_extended()
# @Intent: Trigger an error when a declaration does not specify a type
toolchain_cc_warning_error_implicit_int()
# Allow the user to inject options when calling cmake, e.g.
# 'cmake -DEXTRA_CFLAGS="-Werror -Wno-deprecated-declarations" ..'
include(cmake/extra_flags.cmake)
zephyr_cc_option(-fno-asynchronous-unwind-tables)
zephyr_cc_option(-fno-pie)
zephyr_cc_option(-fno-pic)
zephyr_cc_option(-fno-strict-overflow)
if(CONFIG_OVERRIDE_FRAME_POINTER_DEFAULT)
if(CONFIG_OMIT_FRAME_POINTER)
zephyr_cc_option(-fomit-frame-pointer)
else()
zephyr_cc_option(-fno-omit-frame-pointer)
endif()
endif()
separate_arguments(COMPILER_OPT_AS_LIST UNIX_COMMAND ${CONFIG_COMPILER_OPT})
zephyr_compile_options(${COMPILER_OPT_AS_LIST})
# TODO: Include arch compiler options at this point.
if(NOT CMAKE_C_COMPILER_ID STREQUAL "Clang")
# GCC assumed
zephyr_cc_option(-fno-reorder-functions)
if(NOT ${ZEPHYR_TOOLCHAIN_VARIANT} STREQUAL "xcc")
zephyr_cc_option(-fno-defer-pop)
endif()
endif()
zephyr_cc_option_ifdef(CONFIG_STACK_USAGE -fstack-usage)
# If the compiler supports it, strip the ${ZEPHYR_BASE} prefix from the
# __FILE__ macro used in __ASSERT*, in the
# .noinit."/home/joe/zephyr/fu/bar.c" section names and in any
# application code. This saves some memory, stops leaking user locations
# in binaries, makes failure logs more deterministic and most
# importantly makes builds more deterministic
# If both match then the last one wins. This matters for tests/ and
# samples/ inside *both* CMAKE_SOURCE_DIR and ZEPHYR_BASE: for them
# let's strip the shortest prefix.
zephyr_cc_option(-fmacro-prefix-map=${CMAKE_SOURCE_DIR}=CMAKE_SOURCE_DIR)
zephyr_cc_option(-fmacro-prefix-map=${ZEPHYR_BASE}=ZEPHYR_BASE)
# TODO: -fmacro-prefix-map=modules/etc. "build/zephyr_modules.txt" might help.
# TODO: Archiver arguments
# ar_option(D)
# Declare MPU userspace dependencies before the linker scripts to make
# sure the order of dependencies are met
if(CONFIG_USERSPACE)
set(APP_SMEM_ALIGNED_DEP app_smem_aligned_linker)
set(APP_SMEM_UNALIGNED_DEP app_smem_unaligned_linker)
if(CONFIG_ARM)
set(PRIV_STACK_DEP priv_stacks_prebuilt)
endif()
endif()
get_property(TOPT GLOBAL PROPERTY TOPT)
set_ifndef( TOPT -Wl,-T) # clang doesn't pick -T for some reason and complains,
# while -Wl,-T works for both, gcc and clang
if(CONFIG_HAVE_CUSTOM_LINKER_SCRIPT)
set(LINKER_SCRIPT ${APPLICATION_SOURCE_DIR}/${CONFIG_CUSTOM_LINKER_SCRIPT})
if(NOT EXISTS ${LINKER_SCRIPT})
set(LINKER_SCRIPT ${CONFIG_CUSTOM_LINKER_SCRIPT})
assert_exists(CONFIG_CUSTOM_LINKER_SCRIPT)
endif()
else()
# Try a board specific linker file
set(LINKER_SCRIPT ${BOARD_DIR}/linker.ld)
if(NOT EXISTS ${LINKER_SCRIPT})
# If not available, try an SoC specific linker file
set(LINKER_SCRIPT ${SOC_DIR}/${ARCH}/${SOC_PATH}/linker.ld)
endif()
endif()
if(NOT EXISTS ${LINKER_SCRIPT})
message(FATAL_ERROR "Could not find linker script: '${LINKER_SCRIPT}'. Corrupted configuration?")
endif()
# Custom section support in linker scripts requires that the application source
# directory is in the preprocessor search path, in order to find the custom
# linker script fragments.
if(CONFIG_CUSTOM_RODATA_LD OR CONFIG_CUSTOM_RWDATA_LD OR CONFIG_CUSTOM_SECTIONS_LD)
zephyr_include_directories(${APPLICATION_SOURCE_DIR})
endif()
configure_file(version.h.in ${PROJECT_BINARY_DIR}/include/generated/version.h)
# Error-out when the deprecated naming convention is found (until
# after 1.14.0 has been released)
foreach(path
${BOARD_DIR}/dts.fixup
${PROJECT_SOURCE_DIR}/soc/${ARCH}/${SOC_PATH}/dts.fixup
${APPLICATION_SOURCE_DIR}/dts.fixup
)
if(EXISTS ${path})
message(FATAL_ERROR
"A deprecated filename has been detected. Porting is required."
"The file '${path}' exists, but it should be named dts_fixup.h instead."
"See https://github.com/zephyrproject-rtos/zephyr/pull/10352 for more details"
)
endif()
endforeach()
set_ifndef( DTS_BOARD_FIXUP_FILE ${BOARD_DIR}/dts_fixup.h)
set_ifndef( DTS_SOC_FIXUP_FILE ${SOC_DIR}/${ARCH}/${SOC_PATH}/dts_fixup.h)
set( DTS_APP_FIXUP_FILE ${APPLICATION_SOURCE_DIR}/dts_fixup.h)
set_ifndef(DTS_CAT_OF_FIXUP_FILES ${ZEPHYR_BINARY_DIR}/include/generated/generated_dts_board_fixups.h)
# Concatenate the fixups into a single header file for easy
# #include'ing
file(WRITE ${DTS_CAT_OF_FIXUP_FILES} "/* May only be included by generated_dts_board.h */\n\n")
foreach(fixup_file
${DTS_BOARD_FIXUP_FILE}
${DTS_SOC_FIXUP_FILE}
${DTS_APP_FIXUP_FILE}
${shield_dts_fixups}
)
if(EXISTS ${fixup_file})
file(READ ${fixup_file} contents)
file(APPEND ${DTS_CAT_OF_FIXUP_FILES} "${contents}")
endif()
endforeach()
# Unfortunately, the order in which CMakeLists.txt code is processed
# matters so we need to be careful about how we order the processing
# of subdirectories. One example is "Compiler flags added late in the
# build are not exported to external build systems #5605"; when we
# integrate with an external build system we read out all compiler
# flags when the external project is created. So an external project
# defined in subsys or ext will not get global flags added by drivers/
# or tests/ as the subdirectories are ordered now.
#
# Another example of when the order matters is the reading and writing
# of global properties such as ZEPHYR_LIBS or
# GENERATED_KERNEL_OBJECT_FILES.
#
# Arch is placed early because it defines important compiler flags
# that must be exported to external build systems defined in
# e.g. subsys/.
add_subdirectory(arch)
add_subdirectory(lib)
# We use include instead of add_subdirectory to avoid creating a new directory scope.
# This is because source file properties are directory scoped, including the GENERATED
# property which is set implicitly for custom command outputs
include(misc/generated/CMakeLists.txt)
if(EXISTS ${SOC_DIR}/${ARCH}/CMakeLists.txt)
add_subdirectory(${SOC_DIR}/${ARCH} soc/${ARCH})
else()
add_subdirectory(${SOC_DIR}/${ARCH}/${SOC_PATH} soc/${ARCH}/${SOC_PATH})
endif()
add_subdirectory(boards)
add_subdirectory(ext)
add_subdirectory(subsys)
add_subdirectory(drivers)
# Include zephyr modules generated CMake file.
if(EXISTS ${CMAKE_BINARY_DIR}/zephyr_modules.txt)
file(STRINGS ${CMAKE_BINARY_DIR}/zephyr_modules.txt ZEPHYR_MODULES_TXT
ENCODING UTF-8)
foreach(module ${ZEPHYR_MODULES_TXT})
# Match "<name>":"<path>" for each line of file, each corresponding to
# one module. The use of quotes is required due to CMake not supporting
# lazy regexes (it supports greedy only).
string(REGEX REPLACE "\"(.*)\":\".*\"" "\\1" module_name ${module})
string(REGEX REPLACE "\".*\":\"(.*)\"" "\\1" module_path ${module})
# Note the second, binary_dir parameter requires the added
# subdirectory to have its own, local cmake target(s). If not then
# this binary_dir is created but stays empty. Object files land in
# the main binary dir instead.
# https://cmake.org/pipermail/cmake/2019-June/069547.html
set(ZEPHYR_CURRENT_MODULE_DIR ${module_path})
add_subdirectory(${module_path} ${CMAKE_BINARY_DIR}/modules/${module_name})
endforeach()
# Done processing modules, clear ZEPHYR_CURRENT_MODULE_DIR.
set(ZEPHYR_CURRENT_MODULE_DIR)
endif()
set(syscall_macros_h ${ZEPHYR_BINARY_DIR}/include/generated/syscall_macros.h)
add_custom_target(${SYSCALL_MACROS_H_TARGET} DEPENDS ${syscall_macros_h})
add_custom_command( OUTPUT ${syscall_macros_h}
COMMAND
${PYTHON_EXECUTABLE}
${ZEPHYR_BASE}/scripts/gen_syscall_header.py
> ${syscall_macros_h}
DEPENDS ${ZEPHYR_BASE}/scripts/gen_syscall_header.py
)
set(syscall_list_h ${CMAKE_CURRENT_BINARY_DIR}/include/generated/syscall_list.h)
set(syscalls_json ${CMAKE_CURRENT_BINARY_DIR}/misc/generated/syscalls.json)
# The syscalls subdirs txt file is constructed by python containing a list of folders to use for
# dependency handling, including empty folders.
# Windows: The list is used to specify DIRECTORY list with CMAKE_CONFIGURE_DEPENDS attribute.
# Other OS: The list will update whenever a file is added/removed/modified and ensure a re-build.
set(syscalls_subdirs_txt ${CMAKE_CURRENT_BINARY_DIR}/misc/generated/syscalls_subdirs.txt)
# As syscalls_subdirs_txt is updated whenever a file is modified, this file can not be used for
# monitoring of added / removed folders. A trigger file is thus used for correct dependency
# handling. The trigger file will update when a folder is added / removed.
set(syscalls_subdirs_trigger ${CMAKE_CURRENT_BINARY_DIR}/misc/generated/syscalls_subdirs.trigger)
if(NOT (${CMAKE_HOST_SYSTEM_NAME} STREQUAL Windows))
set(syscalls_links --create-links ${CMAKE_CURRENT_BINARY_DIR}/misc/generated/syscalls_links)
endif()
# When running CMake it must be ensured that all dependencies are correctly acquired.
execute_process(
COMMAND
${PYTHON_EXECUTABLE}
${ZEPHYR_BASE}/scripts/subfolder_list.py
--directory ${ZEPHYR_BASE}/include # Walk this directory
--out-file ${syscalls_subdirs_txt} # Write file with discovered folder
--trigger ${syscalls_subdirs_trigger} # Trigger file that is used for json generation
${syscalls_links} # If defined, create symlinks for dependencies
)
file(STRINGS ${syscalls_subdirs_txt} PARSE_SYSCALLS_PATHS_DEPENDS ENCODING UTF-8)
if(${CMAKE_HOST_SYSTEM_NAME} STREQUAL Windows)
# On windows only adding/removing files or folders will be reflected in depends.
# Hence adding a file requires CMake to re-run to add this file to the file list.
set_property(DIRECTORY APPEND PROPERTY CMAKE_CONFIGURE_DEPENDS ${PARSE_SYSCALLS_PATHS_DEPENDS})
# Also On Windows each header file must be monitored as file modifications are not reflected
# on directory level.
file(GLOB_RECURSE PARSE_SYSCALLS_HEADER_DEPENDS ${ZEPHYR_BASE}/include/*.h)
else()
# The syscall parsing depends on the folders in order to detect add/removed/modified files.
# When a folder is removed, CMake will try to find a target that creates that dependency.
# This command sets up the target for CMake to find.
# Without this code, CMake will fail with the following error:
# <folder> needed by '<target>', missing and no known rule to make it
# when a folder is removed.
add_custom_command(OUTPUT ${PARSE_SYSCALLS_PATHS_DEPENDS}
COMMAND ${CMAKE_COMMAND} -E echo ""
COMMENT "Preparing syscall dependency handling"
)
add_custom_command(
OUTPUT
${syscalls_subdirs_trigger}
COMMAND
${PYTHON_EXECUTABLE}
${ZEPHYR_BASE}/scripts/subfolder_list.py
--directory ${ZEPHYR_BASE}/include # Walk this directory
--out-file ${syscalls_subdirs_txt} # Write file with discovered folder
--trigger ${syscalls_subdirs_trigger} # Trigger file that is used for json generation
${syscalls_links} # If defined, create symlinks for dependencies
DEPENDS ${PARSE_SYSCALLS_PATHS_DEPENDS}
)
# Ensure subdir file always exists when specifying CMake dependency.
if(NOT EXISTS ${syscalls_subdirs_txt})
file(WRITE ${syscalls_subdirs_txt} "")
endif()
# On other OS'es, modifying a file is reflected on the folder timestamp and hence detected
# when using depend on directory level.
# Thus CMake only needs to re-run when sub-directories are added / removed, which is indicated
# using a trigger file.
set_property(DIRECTORY APPEND PROPERTY CMAKE_CONFIGURE_DEPENDS ${syscalls_subdirs_txt})
endif()
# SYSCALL_INCLUDE_DIRECTORY will include the directories that needs to be
# searched for syscall declarations if CONFIG_APPLICATION_DEFINED_SYSCALL is set
if(CONFIG_APPLICATION_DEFINED_SYSCALL)
set(SYSCALL_INCLUDE_DIRECTORY --include ${APPLICATION_SOURCE_DIR})
endif()
add_custom_command(
OUTPUT
${syscalls_json}
COMMAND
${PYTHON_EXECUTABLE}
${ZEPHYR_BASE}/scripts/parse_syscalls.py
--include ${ZEPHYR_BASE}/include # Read files from this dir
${SYSCALL_INCLUDE_DIRECTORY}
--json-file ${syscalls_json} # Write this file
DEPENDS ${syscalls_subdirs_trigger} ${PARSE_SYSCALLS_HEADER_DEPENDS}
)
add_custom_target(${SYSCALL_LIST_H_TARGET} DEPENDS ${syscall_list_h})
add_custom_command(OUTPUT include/generated/syscall_dispatch.c ${syscall_list_h}
# Also, some files are written to include/generated/syscalls/
COMMAND
${PYTHON_EXECUTABLE}
${ZEPHYR_BASE}/scripts/gen_syscalls.py
--json-file ${syscalls_json} # Read this file
--base-output include/generated/syscalls # Write to this dir
--syscall-dispatch include/generated/syscall_dispatch.c # Write this file
--syscall-list ${syscall_list_h}
WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}
DEPENDS ${syscalls_json}
)
set(DRV_VALIDATION ${PROJECT_BINARY_DIR}/include/generated/driver-validation.h)
add_custom_command(
OUTPUT ${DRV_VALIDATION}
COMMAND
${PYTHON_EXECUTABLE}
${ZEPHYR_BASE}/scripts/gen_kobject_list.py
--validation-output ${DRV_VALIDATION}
$<$<BOOL:${CMAKE_VERBOSE_MAKEFILE}>:--verbose>
DEPENDS ${ZEPHYR_BASE}/scripts/gen_kobject_list.py
WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}
)
add_custom_target(${DRIVER_VALIDATION_H_TARGET} DEPENDS ${DRV_VALIDATION})
include($ENV{ZEPHYR_BASE}/cmake/kobj.cmake)
gen_kobj(KOBJ_INCLUDE_PATH)
# Generate offsets.c.obj from offsets.c
# Generate offsets.h from offsets.c.obj
set(OFFSETS_LIB offsets)
set(OFFSETS_C_PATH ${ARCH_DIR}/${ARCH}/core/offsets/offsets.c)
set(OFFSETS_H_PATH ${PROJECT_BINARY_DIR}/include/generated/offsets.h)
add_library( ${OFFSETS_LIB} OBJECT ${OFFSETS_C_PATH})
target_link_libraries(${OFFSETS_LIB} zephyr_interface)
add_dependencies( ${OFFSETS_LIB}
${SYSCALL_LIST_H_TARGET}
${SYSCALL_MACROS_H_TARGET}
${DRIVER_VALIDATION_H_TARGET}
${KOBJ_TYPES_H_TARGET}
)
add_custom_command(
OUTPUT ${OFFSETS_H_PATH}
COMMAND ${PYTHON_EXECUTABLE} ${ZEPHYR_BASE}/scripts/gen_offset_header.py
-i $<TARGET_OBJECTS:${OFFSETS_LIB}>
-o ${OFFSETS_H_PATH}
DEPENDS
${OFFSETS_LIB}
$<TARGET_OBJECTS:${OFFSETS_LIB}>
)
add_custom_target(${OFFSETS_H_TARGET} DEPENDS ${OFFSETS_H_PATH})
zephyr_include_directories(${TOOLCHAIN_INCLUDES})
zephyr_get_include_directories_for_lang(C ZEPHYR_INCLUDES)
add_subdirectory(kernel)
# Read list content
get_property(ZEPHYR_LIBS_PROPERTY GLOBAL PROPERTY ZEPHYR_LIBS)
foreach(zephyr_lib ${ZEPHYR_LIBS_PROPERTY})
# TODO: Could this become an INTERFACE property of zephyr_interface?
add_dependencies(${zephyr_lib} ${OFFSETS_H_TARGET})
endforeach()
get_property(OUTPUT_FORMAT GLOBAL PROPERTY PROPERTY_OUTPUT_FORMAT)
if (CONFIG_CODE_DATA_RELOCATION)
set(CODE_RELOCATION_DEP code_relocation_source_lib)
endif() # CONFIG_CODE_DATA_RELOCATION
configure_linker_script(
linker.cmd
""
${PRIV_STACK_DEP}
${APP_SMEM_ALIGNED_DEP}
${CODE_RELOCATION_DEP}
${OFFSETS_H_TARGET}
)
add_custom_target(
${LINKER_SCRIPT_TARGET}
DEPENDS
linker.cmd
)
# Give the '${LINKER_SCRIPT_TARGET}' target all of the include directories so
# that cmake can successfully find the linker_script's header
# dependencies.
zephyr_get_include_directories_for_lang(C
ZEPHYR_INCLUDE_DIRS
STRIP_PREFIX # Don't use a -I prefix
)
set_property(TARGET
${LINKER_SCRIPT_TARGET}
PROPERTY INCLUDE_DIRECTORIES
${ZEPHYR_INCLUDE_DIRS}
)
if(CONFIG_GEN_ISR_TABLES)
if(CONFIG_GEN_SW_ISR_TABLE)
list(APPEND GEN_ISR_TABLE_EXTRA_ARG --sw-isr-table)
endif()
if(CONFIG_GEN_IRQ_VECTOR_TABLE)
list(APPEND GEN_ISR_TABLE_EXTRA_ARG --vector-table)
endif()
# isr_tables.c is generated from ${ZEPHYR_PREBUILT_EXECUTABLE} by
# gen_isr_tables.py
set(obj_copy_cmd "")
bintools_objcopy(
RESULT_CMD_LIST obj_copy_cmd
TARGET_INPUT ${OUTPUT_FORMAT}
TARGET_OUTPUT "binary"
SECTION_ONLY ".intList"
FILE_INPUT $<TARGET_FILE:${ZEPHYR_PREBUILT_EXECUTABLE}>
FILE_OUTPUT "isrList.bin"
)
add_custom_command(
OUTPUT isr_tables.c
${obj_copy_cmd}
COMMAND ${PYTHON_EXECUTABLE}
${ZEPHYR_BASE}/arch/common/gen_isr_tables.py
--output-source isr_tables.c
--kernel $<TARGET_FILE:${ZEPHYR_PREBUILT_EXECUTABLE}>
--intlist isrList.bin
$<$<BOOL:${CONFIG_BIG_ENDIAN}>:--big-endian>
$<$<BOOL:${CMAKE_VERBOSE_MAKEFILE}>:--debug>
${GEN_ISR_TABLE_EXTRA_ARG}
DEPENDS ${ZEPHYR_PREBUILT_EXECUTABLE}
)
set_property(GLOBAL APPEND PROPERTY GENERATED_KERNEL_SOURCE_FILES isr_tables.c)
endif()
if(CONFIG_CODE_DATA_RELOCATION)
# @Intent: Linker script to relocate .text, data and .bss sections
toolchain_ld_relocation()
endif()
if(CONFIG_USERSPACE)
zephyr_get_compile_options_for_lang_as_string(C compiler_flags_priv)
string(REPLACE "-ftest-coverage" "" NO_COVERAGE_FLAGS "${compiler_flags_priv}")
string(REPLACE "-fprofile-arcs" "" NO_COVERAGE_FLAGS "${NO_COVERAGE_FLAGS}")
string(REPLACE "-fno-inline" "" NO_COVERAGE_FLAGS "${NO_COVERAGE_FLAGS}")
get_property(include_dir_in_interface TARGET zephyr_interface
PROPERTY INTERFACE_INCLUDE_DIRECTORIES)
get_property(sys_include_dir_in_interface TARGET zephyr_interface
PROPERTY INTERFACE_SYSTEM_INCLUDE_DIRECTORIES)
get_property(compile_definitions_interface TARGET zephyr_interface
PROPERTY INTERFACE_COMPILE_DEFINITIONS)
endif()
# Warning most of this gperf code is duplicated below for
# gen_kobject_list.py / output_lib
if(CONFIG_ARM AND CONFIG_USERSPACE)
set(GEN_PRIV_STACKS $ENV{ZEPHYR_BASE}/scripts/gen_priv_stacks.py)
set(PROCESS_PRIV_STACKS_GPERF $ENV{ZEPHYR_BASE}/scripts/process_gperf.py)
set(PRIV_STACKS priv_stacks_hash.gperf)
set(PRIV_STACKS_OUTPUT_SRC_PRE priv_stacks_hash_preprocessed.c)
set(PRIV_STACKS_OUTPUT_SRC priv_stacks_hash.c)
set(PRIV_STACKS_OUTPUT_OBJ priv_stacks_hash.c.obj)
set(PRIV_STACKS_OUTPUT_OBJ_RENAMED priv_stacks_hash_renamed.o)
# Essentially what we are doing here is extracting some information
# out of the nearly finished elf file, generating the source code
# for a hash table based on that information, and then compiling and
# linking the hash table back into a now even more nearly finished
# elf file.
# Use the script GEN_PRIV_STACKS to scan the kernel binary's
# (${ZEPHYR_PREBUILT_EXECUTABLE}) DWARF information to produce a table of kernel
# objects (PRIV_STACKS) which we will then pass to gperf
add_custom_command(
OUTPUT ${PRIV_STACKS}
COMMAND
${PYTHON_EXECUTABLE}
${GEN_PRIV_STACKS}
--kernel $<TARGET_FILE:priv_stacks_prebuilt>
--output ${PRIV_STACKS}
$<$<BOOL:${CMAKE_VERBOSE_MAKEFILE}>:--verbose>
DEPENDS priv_stacks_prebuilt
WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}
)
add_custom_target(priv_stacks DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/${PRIV_STACKS})
# Use gperf to generate C code (PRIV_STACKS_OUTPUT_SRC_PRE) which implements a
# perfect hashtable based on PRIV_STACKS
add_custom_command(
OUTPUT ${PRIV_STACKS_OUTPUT_SRC_PRE}
COMMAND
${GPERF} -C
--output-file ${PRIV_STACKS_OUTPUT_SRC_PRE}
${PRIV_STACKS}
DEPENDS priv_stacks ${PRIV_STACKS}
WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}
)
add_custom_target(priv_stacks_output_src_pre DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/${PRIV_STACKS_OUTPUT_SRC_PRE})
# For our purposes the code/data generated by gperf is not optimal.
#
# The script PROCESS_GPERF creates a new c file OUTPUT_SRC based on
# OUTPUT_SRC_PRE to greatly reduce the amount of code/data generated
# since we know we are always working with pointer values
add_custom_command(
OUTPUT ${PRIV_STACKS_OUTPUT_SRC}
COMMAND
${PYTHON_EXECUTABLE}
${PROCESS_PRIV_STACKS_GPERF}
-i ${PRIV_STACKS_OUTPUT_SRC_PRE}
-o ${PRIV_STACKS_OUTPUT_SRC}
-p "struct _k_priv_stack_map"
$<$<BOOL:${CMAKE_VERBOSE_MAKEFILE}>:--verbose>
DEPENDS priv_stacks_output_src_pre ${PRIV_STACKS_OUTPUT_SRC_PRE}
WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}
)
add_custom_target(priv_stacks_output_src DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/${PRIV_STACKS_OUTPUT_SRC})
set_source_files_properties(${CMAKE_CURRENT_BINARY_DIR}/${PRIV_STACKS_OUTPUT_SRC}
PROPERTIES COMPILE_DEFINITIONS "${compile_definitions_interface}")
set_source_files_properties(${CMAKE_CURRENT_BINARY_DIR}/${PRIV_STACKS_OUTPUT_SRC}
PROPERTIES COMPILE_FLAGS
"${NO_COVERAGE_FLAGS} -fno-function-sections -fno-data-sections ")
# We need precise control of where generated text/data ends up in the final
# kernel image. Disable function/data sections and use objcopy to move
# generated data into special section names
add_library(priv_stacks_output_lib STATIC
${CMAKE_CURRENT_BINARY_DIR}/${PRIV_STACKS_OUTPUT_SRC}
)
# Turn off -ffunction-sections, etc.
# NB: Using a library instead of target_compile_options(priv_stacks_output_lib
# [...]) because a library's options have precedence
add_library(priv_stacks_output_lib_interface INTERFACE)
foreach(incl ${include_dir_in_interface})
target_include_directories(priv_stacks_output_lib_interface INTERFACE ${incl})
endforeach()
foreach(incl ${sys_include_dir_in_interface})
target_include_directories(priv_stacks_output_lib_interface SYSTEM INTERFACE ${incl})
endforeach()
target_link_libraries(priv_stacks_output_lib priv_stacks_output_lib_interface)
set(PRIV_STACKS_OUTPUT_OBJ_PATH ${CMAKE_CURRENT_BINARY_DIR}/CMakeFiles/priv_stacks_output_lib.dir/${PRIV_STACKS_OUTPUT_OBJ})
set(obj_copy_cmd "")
set(obj_copy_sections_rename
.bss=.priv_stacks.noinit
.data=.priv_stacks.data
.text=.priv_stacks.text
.rodata=.priv_stacks.rodata
)
bintools_objcopy(
RESULT_CMD_LIST obj_copy_cmd
SECTION_RENAME ${obj_copy_sections_rename}
FILE_INPUT ${PRIV_STACKS_OUTPUT_OBJ_PATH}
FILE_OUTPUT ${PRIV_STACKS_OUTPUT_OBJ_RENAMED}
)
add_custom_command(
OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/${PRIV_STACKS_OUTPUT_OBJ_RENAMED}
${obj_copy_cmd}
DEPENDS priv_stacks_output_lib
WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}
)
add_custom_target(priv_stacks_output_obj_renamed DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/${PRIV_STACKS_OUTPUT_OBJ_RENAMED})
add_library(priv_stacks_output_obj_renamed_lib STATIC IMPORTED GLOBAL)
set_property(
TARGET priv_stacks_output_obj_renamed_lib
PROPERTY
IMPORTED_LOCATION ${CMAKE_CURRENT_BINARY_DIR}/${PRIV_STACKS_OUTPUT_OBJ_RENAMED}
)
add_dependencies(
priv_stacks_output_obj_renamed_lib
priv_stacks_output_obj_renamed
)
set_property(GLOBAL APPEND PROPERTY GENERATED_KERNEL_OBJECT_FILES priv_stacks_output_obj_renamed_lib)
endif()
# Warning: most of this gperf code is duplicated above for
# gen_priv_stacks.py / priv_stacks_output_lib
if(CONFIG_USERSPACE)
set(GEN_KOBJ_LIST ${ZEPHYR_BASE}/scripts/gen_kobject_list.py)
set(PROCESS_GPERF ${ZEPHYR_BASE}/scripts/process_gperf.py)
set(OBJ_LIST kobject_hash.gperf)
set(OUTPUT_SRC_PRE kobject_hash_preprocessed.c)
set(OUTPUT_SRC kobject_hash.c)
set(OUTPUT_OBJ kobject_hash.c.obj)
set(OUTPUT_OBJ_RENAMED kobject_hash_renamed.o)
# Essentially what we are doing here is extracting some information
# out of the nearly finished elf file, generating the source code
# for a hash table based on that information, and then compiling and
# linking the hash table back into a now even more nearly finished
# elf file. More information in gen_kobject_list.py --help.
# Use the script GEN_KOBJ_LIST to scan the kernel binary's
# (${ZEPHYR_PREBUILT_EXECUTABLE}) DWARF information to produce a table of kernel
# objects (OBJ_LIST) which we will then pass to gperf
add_custom_command(
OUTPUT ${OBJ_LIST}
COMMAND
${PYTHON_EXECUTABLE}
${GEN_KOBJ_LIST}
--kernel $<TARGET_FILE:${ZEPHYR_PREBUILT_EXECUTABLE}>
--gperf-output ${OBJ_LIST}
$<$<BOOL:${CMAKE_VERBOSE_MAKEFILE}>:--verbose>
DEPENDS ${ZEPHYR_PREBUILT_EXECUTABLE}
WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}
)
add_custom_target(obj_list DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/${OBJ_LIST})
# Use gperf to generate C code (OUTPUT_SRC_PRE) which implements a
# perfect hashtable based on OBJ_LIST
add_custom_command(
OUTPUT ${OUTPUT_SRC_PRE}
COMMAND
${GPERF}
--output-file ${OUTPUT_SRC_PRE}
${OBJ_LIST}
DEPENDS obj_list ${OBJ_LIST}
WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}
)
add_custom_target(output_src_pre DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/${OUTPUT_SRC_PRE})
# For our purposes the code/data generated by gperf is not optimal.
#
# The script PROCESS_GPERF creates a new c file OUTPUT_SRC based on
# OUTPUT_SRC_PRE to greatly reduce the amount of code/data generated
# since we know we are always working with pointer values
add_custom_command(
OUTPUT ${OUTPUT_SRC}
COMMAND
${PYTHON_EXECUTABLE}
${PROCESS_GPERF}
-i ${OUTPUT_SRC_PRE}
-o ${OUTPUT_SRC}
-p "struct _k_object"
$<$<BOOL:${CMAKE_VERBOSE_MAKEFILE}>:--verbose>
DEPENDS output_src_pre ${OUTPUT_SRC_PRE}
WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}
)
add_custom_target(output_src DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/${OUTPUT_SRC})
# We need precise control of where generated text/data ends up in the final
# kernel image. Disable function/data sections and use objcopy to move
# generated data into special section names
add_library(output_lib STATIC
${CMAKE_CURRENT_BINARY_DIR}/${OUTPUT_SRC}
)
set_source_files_properties(${OUTPUT_SRC} PROPERTIES COMPILE_FLAGS
"${NO_COVERAGE_FLAGS} -fno-function-sections -fno-data-sections")
set_source_files_properties(${OUTPUT_SRC}
PROPERTIES COMPILE_DEFINITIONS "${compile_definitions_interface}")
# Turn off -ffunction-sections, etc.
# NB: Using a library instead of target_compile_options(output_lib
# [...]) because a library's options have precedence
add_library(output_lib_interface INTERFACE)
target_link_libraries(output_lib output_lib_interface)
foreach(incl ${include_dir_in_interface})
target_include_directories(output_lib_interface INTERFACE ${incl})
endforeach()
foreach(incl ${sys_include_dir_in_interface})
target_include_directories(output_lib_interface SYSTEM INTERFACE ${incl})
endforeach()
set(OUTPUT_OBJ_PATH ${CMAKE_CURRENT_BINARY_DIR}/CMakeFiles/output_lib.dir/${OUTPUT_OBJ})
set(obj_copy_cmd "")
set(obj_copy_sections_rename
.data=.kobject_data.data
.text=.kobject_data.text
.rodata=.kobject_data.rodata
)
bintools_objcopy(
RESULT_CMD_LIST obj_copy_cmd
SECTION_RENAME ${obj_copy_sections_rename}
FILE_INPUT ${OUTPUT_OBJ_PATH}
FILE_OUTPUT ${OUTPUT_OBJ_RENAMED}
)
add_custom_command(
OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/${OUTPUT_OBJ_RENAMED}
${obj_copy_cmd}
DEPENDS output_lib
WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}
)
add_custom_target(output_obj_renamed DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/${OUTPUT_OBJ_RENAMED})
add_library(output_obj_renamed_lib STATIC IMPORTED GLOBAL)
set_property(
TARGET output_obj_renamed_lib
PROPERTY
IMPORTED_LOCATION ${CMAKE_CURRENT_BINARY_DIR}/${OUTPUT_OBJ_RENAMED}
)
add_dependencies(
output_obj_renamed_lib
output_obj_renamed
)
set_property(GLOBAL APPEND PROPERTY GENERATED_KERNEL_OBJECT_FILES output_obj_renamed_lib)
endif()
# Read global variables into local variables
get_property(GKOF GLOBAL PROPERTY GENERATED_KERNEL_OBJECT_FILES)
get_property(GKSF GLOBAL PROPERTY GENERATED_KERNEL_SOURCE_FILES)
get_property(CSTD GLOBAL PROPERTY CSTD)
set_ifndef(CSTD c99)
# @Intent: Obtain compiler specific flag for specifying the c standard
toolchain_cc_cstd_flag(CC_CSTD ${CSTD})
zephyr_compile_options(
$<$<COMPILE_LANGUAGE:C>:${CC_CSTD}>
)
# @Intent: Configure linker scripts, i.e. generate linker scripts with variables substituted
toolchain_ld_configure_files()
if(CONFIG_USERSPACE)
set(APP_SMEM_ALIGNED_LD "${PROJECT_BINARY_DIR}/include/generated/app_smem_aligned.ld")
set(APP_SMEM_UNALIGNED_LD "${PROJECT_BINARY_DIR}/include/generated/app_smem_unaligned.ld")
set(OBJ_FILE_DIR "${PROJECT_BINARY_DIR}/../")
add_custom_target(
${APP_SMEM_ALIGNED_DEP}
DEPENDS
${APP_SMEM_ALIGNED_LD}
)
add_custom_target(
${APP_SMEM_UNALIGNED_DEP}
DEPENDS
${APP_SMEM_UNALIGNED_LD}
)
if(CONFIG_NEWLIB_LIBC)
set(NEWLIB_PART -l libc.a z_libc_partition)
endif()
if(CONFIG_MBEDTLS)
set(MBEDTLS_PART -l lib..__modules__crypto__mbedtls.a k_mbedtls_partition)
endif()
add_custom_command(
OUTPUT ${APP_SMEM_UNALIGNED_LD}
COMMAND ${PYTHON_EXECUTABLE}
${ZEPHYR_BASE}/scripts/gen_app_partitions.py
-d ${OBJ_FILE_DIR}
-o ${APP_SMEM_UNALIGNED_LD}
${NEWLIB_PART} ${MBEDTLS_PART}
$<$<BOOL:${CMAKE_VERBOSE_MAKEFILE}>:--verbose>
DEPENDS
kernel
${ZEPHYR_LIBS_PROPERTY}
WORKING_DIRECTORY ${PROJECT_BINARY_DIR}/
COMMENT "Generating app_smem_unaligned linker section"
)
configure_linker_script(
linker_app_smem_unaligned.cmd
"-DLINKER_APP_SMEM_UNALIGNED"
${CODE_RELOCATION_DEP}
${APP_SMEM_UNALIGNED_DEP}
${APP_SMEM_UNALIGNED_LD}
${OFFSETS_H_TARGET}
)
add_custom_target(
linker_app_smem_unaligned_script
DEPENDS
linker_app_smem_unaligned.cmd
)
set_property(TARGET
linker_app_smem_unaligned_script
PROPERTY INCLUDE_DIRECTORIES
${ZEPHYR_INCLUDE_DIRS}
)
set(APP_SMEM_UNALIGNED_LIB app_smem_unaligned_output_obj_renamed_lib)
add_executable( app_smem_unaligned_prebuilt misc/empty_file.c)
toolchain_ld_link_elf(
TARGET_ELF app_smem_unaligned_prebuilt
OUTPUT_MAP ${PROJECT_BINARY_DIR}/app_smem_unaligned_prebuilt.map
LIBRARIES_PRE_SCRIPT ""
LINKER_SCRIPT ${PROJECT_BINARY_DIR}/linker_app_smem_unaligned.cmd
LIBRARIES_POST_SCRIPT ""
DEPENDENCIES ${CODE_RELOCATION_DEP}
)
set_property(TARGET app_smem_unaligned_prebuilt PROPERTY LINK_DEPENDS ${PROJECT_BINARY_DIR}/linker_app_smem_unaligned.cmd)
add_dependencies( app_smem_unaligned_prebuilt linker_app_smem_unaligned_script ${OFFSETS_LIB})
add_custom_command(
OUTPUT ${APP_SMEM_ALIGNED_LD}
COMMAND ${PYTHON_EXECUTABLE}
${ZEPHYR_BASE}/scripts/gen_app_partitions.py
-e $<TARGET_FILE:app_smem_unaligned_prebuilt>
-o ${APP_SMEM_ALIGNED_LD}
${NEWLIB_PART} ${MBEDTLS_PART}
$<$<BOOL:${CMAKE_VERBOSE_MAKEFILE}>:--verbose>
DEPENDS
kernel
${ZEPHYR_LIBS_PROPERTY}
app_smem_unaligned_prebuilt
WORKING_DIRECTORY ${PROJECT_BINARY_DIR}/
COMMENT "Generating app_smem_aligned linker section"
)
endif()
if(CONFIG_USERSPACE AND CONFIG_ARM)
configure_linker_script(
linker_priv_stacks.cmd
""
${CODE_RELOCATION_DEP}
${APP_SMEM_ALIGNED_DEP}
${APP_SMEM_ALIGNED_LD}
${OFFSETS_H_TARGET}
)
add_custom_target(
linker_priv_stacks_script
DEPENDS
linker_priv_stacks.cmd
)
set_property(TARGET
linker_priv_stacks_script
PROPERTY INCLUDE_DIRECTORIES
${ZEPHYR_INCLUDE_DIRS}
)
set(PRIV_STACK_LIB priv_stacks_output_obj_renamed_lib)
add_executable( priv_stacks_prebuilt misc/empty_file.c)
toolchain_ld_link_elf(
TARGET_ELF priv_stacks_prebuilt
OUTPUT_MAP ${PROJECT_BINARY_DIR}/priv_stacks_prebuilt.map
LIBRARIES_PRE_SCRIPT ""
LINKER_SCRIPT ${PROJECT_BINARY_DIR}/linker_priv_stacks.cmd
LIBRARIES_POST_SCRIPT ""
DEPENDENCIES ${CODE_RELOCATION_DEP}
)
set_property(TARGET priv_stacks_prebuilt PROPERTY LINK_DEPENDS ${PROJECT_BINARY_DIR}/linker_priv_stacks.cmd)
add_dependencies( priv_stacks_prebuilt linker_priv_stacks_script ${OFFSETS_LIB})
endif()
# FIXME: Is there any way to get rid of empty_file.c?
add_executable( ${ZEPHYR_PREBUILT_EXECUTABLE} misc/empty_file.c)
toolchain_ld_link_elf(
TARGET_ELF ${ZEPHYR_PREBUILT_EXECUTABLE}
OUTPUT_MAP ${PROJECT_BINARY_DIR}/${ZEPHYR_PREBUILT_EXECUTABLE}.map
LIBRARIES_PRE_SCRIPT ""
LINKER_SCRIPT ${PROJECT_BINARY_DIR}/linker.cmd
LIBRARIES_POST_SCRIPT ${PRIV_STACK_LIB}
DEPENDENCIES ${CODE_RELOCATION_DEP}
)
set_property(TARGET ${ZEPHYR_PREBUILT_EXECUTABLE} PROPERTY LINK_DEPENDS ${PROJECT_BINARY_DIR}/linker.cmd)
add_dependencies( ${ZEPHYR_PREBUILT_EXECUTABLE} ${PRIV_STACK_DEP} ${LINKER_SCRIPT_TARGET} ${OFFSETS_LIB})
set(generated_kernel_files ${GKSF} ${GKOF})
if(NOT generated_kernel_files)
# Use the prebuilt elf as the final elf since we don't have a
# generation stage.
set(logical_target_for_zephyr_elf ${ZEPHYR_PREBUILT_EXECUTABLE})
else()
# The second linker pass uses the same source linker script of the
# first pass (LINKER_SCRIPT), but this time with a different output
# file and preprocessed with the define LINKER_PASS2.
configure_linker_script(
linker_pass_final.cmd
"-DLINKER_PASS2"
${PRIV_STACK_DEP}
${CODE_RELOCATION_DEP}
${ZEPHYR_PREBUILT_EXECUTABLE}
${OFFSETS_H_TARGET}
)
set(LINKER_PASS_FINAL_SCRIPT_TARGET linker_pass_final_script_target)
add_custom_target(
${LINKER_PASS_FINAL_SCRIPT_TARGET}
DEPENDS
linker_pass_final.cmd
)
set_property(TARGET
${LINKER_PASS_FINAL_SCRIPT_TARGET}
PROPERTY INCLUDE_DIRECTORIES
${ZEPHYR_INCLUDE_DIRS}
)
add_executable( ${ZEPHYR_FINAL_EXECUTABLE} misc/empty_file.c ${GKSF})
toolchain_ld_link_elf(
TARGET_ELF ${ZEPHYR_FINAL_EXECUTABLE}
OUTPUT_MAP ${PROJECT_BINARY_DIR}/${ZEPHYR_FINAL_EXECUTABLE}.map
LIBRARIES_PRE_SCRIPT ${GKOF}
LINKER_SCRIPT ${PROJECT_BINARY_DIR}/linker_pass_final.cmd
LIBRARIES_POST_SCRIPT ""
DEPENDENCIES ${CODE_RELOCATION_DEP}
)
set_property(TARGET ${ZEPHYR_FINAL_EXECUTABLE} PROPERTY LINK_DEPENDS ${PROJECT_BINARY_DIR}/linker_pass_final.cmd)
add_dependencies( ${ZEPHYR_FINAL_EXECUTABLE} ${PRIV_STACK_DEP} ${LINKER_PASS_FINAL_SCRIPT_TARGET})
# Use the pass2 elf as the final elf
set(logical_target_for_zephyr_elf ${ZEPHYR_FINAL_EXECUTABLE})
endif()
# Export the variable to the application's scope to allow the
# application to know what the name of the final elf target is.
set(logical_target_for_zephyr_elf ${logical_target_for_zephyr_elf} PARENT_SCOPE)
# Override the base name of the last, "logical" .elf output (and last .map) so:
# 1. it doesn't depend on the number of passes above and the
# post_build_commands below can always find it no matter which is it;
# 2. it can be defined in Kconfig
set_target_properties(${logical_target_for_zephyr_elf} PROPERTIES OUTPUT_NAME ${KERNEL_NAME})
set(post_build_commands "")
set(post_build_byproducts "")
list(APPEND
post_build_commands
COMMAND
cmake -E rename ${logical_target_for_zephyr_elf}.map ${KERNEL_MAP_NAME}
)
if(NOT CONFIG_BUILD_NO_GAP_FILL)
# Use ';' as separator to get proper space in resulting command.
set(GAP_FILL "0xff")
endif()
if(CONFIG_OUTPUT_PRINT_MEMORY_USAGE)
# @Intent: Use the toolchain bintools method for printing memory usage
set(memUsageCmd "")
set(memUsageByProd "")
bintools_print_mem_usage(
RESULT_CMD_LIST memUsageCmd
RESULT_BYPROD_LIST memUsageByProd
)
list(APPEND
post_build_commands
${memUsageCmd}
)
list(APPEND
post_build_byproducts
${memUsageByProd}
)
endif()
if(CONFIG_BUILD_OUTPUT_HEX OR BOARD_FLASH_RUNNER STREQUAL openocd)
set(out_hex_cmd "")
set(out_hex_byprod "")
set(out_hex_sections_remove
.comment
COMMON
.eh_frame
)
bintools_objcopy(
RESULT_CMD_LIST out_hex_cmd
RESULT_BYPROD_LIST out_hex_byprod
STRIP_ALL
GAP_FILL ${GAP_FILL}
TARGET_OUTPUT "ihex"
SECTION_REMOVE ${out_hex_sections_remove}
FILE_INPUT ${KERNEL_ELF_NAME}
FILE_OUTPUT ${KERNEL_HEX_NAME}
)
list(APPEND
post_build_commands
${out_hex_cmd}
)
list(APPEND
post_build_byproducts
${KERNEL_HEX_NAME}
${out_hex_byprod}
)
endif()
if(CONFIG_BUILD_OUTPUT_BIN)
set(out_bin_cmd "")
set(out_bin_byprod "")
set(out_bin_sections_remove
.comment
COMMON
.eh_frame
)
bintools_objcopy(
RESULT_CMD_LIST out_bin_cmd
RESULT_BYPROD_LIST out_bin_byprod
STRIP_ALL
GAP_FILL ${GAP_FILL}
TARGET_OUTPUT "binary"
SECTION_REMOVE ${out_bin_sections_remove}
FILE_INPUT ${KERNEL_ELF_NAME}
FILE_OUTPUT ${KERNEL_BIN_NAME}
)
list(APPEND
post_build_commands
${out_bin_cmd}
)
list(APPEND
post_build_byproducts
${KERNEL_BIN_NAME}
${out_bin_byprod}
)
endif()
if(CONFIG_BUILD_OUTPUT_S19)
set(out_S19_cmd "")
set(out_S19_byprod "")
bintools_objcopy(
RESULT_CMD_LIST out_S19_cmd
RESULT_BYPROD_LIST out_S19_byprod
GAP_FILL ${GAP_FILL}
TARGET_OUTPUT "srec"
SREC_LEN 1
FILE_INPUT ${KERNEL_ELF_NAME}
FILE_OUTPUT ${KERNEL_S19_NAME}
)
list(APPEND
post_build_commands
${out_S19_cmd}
)
list(APPEND
post_build_byproducts
${KERNEL_S19_NAME}
${out_S19_byprod}
)
endif()
if(CONFIG_OUTPUT_DISASSEMBLY)
set(out_disassembly_cmd "")
set(out_disassembly_byprod "")
bintools_objdump(
RESULT_CMD_LIST out_disassembly_cmd
RESULT_BYPROD_LIST out_disassembly_byprod
DISASSEMBLE_SOURCE
FILE_INPUT ${KERNEL_ELF_NAME}
FILE_OUTPUT ${KERNEL_LST_NAME}
)
list(APPEND
post_build_commands
${out_disassembly_cmd}
)
list(APPEND
post_build_byproducts
${KERNEL_LST_NAME}
${out_disassembly_byprod}
)
endif()
if(CONFIG_OUTPUT_STAT)
set(out_stat_cmd "")
set(out_stat_byprod "")
bintools_readelf(
RESULT_CMD_LIST out_stat_cmd
RESULT_BYPROD_LIST out_stat_byprod
HEADERS
FILE_INPUT ${KERNEL_ELF_NAME}
FILE_OUTPUT ${KERNEL_STAT_NAME}
)
list(APPEND
post_build_commands
${out_stat_cmd}
)
list(APPEND
post_build_byproducts
${KERNEL_STAT_NAME}
${out_stat_byprod}
)
endif()
if(CONFIG_BUILD_OUTPUT_STRIPPED)
set(out_stripped_cmd "")
set(out_stripped_byprod "")
bintools_strip(
RESULT_CMD_LIST out_stripped_cmd
RESULT_BYPROD_LIST out_stripped_byprod
STRIP_ALL
FILE_INPUT ${KERNEL_ELF_NAME}
FILE_OUTPUT ${KERNEL_STRIP_NAME}
)
list(APPEND
post_build_commands
${out_stripped_cmd}
)
list(APPEND
post_build_byproducts
${KERNEL_STRIP_NAME}
${out_stripped_byprod}
)
endif()
if(CONFIG_BUILD_OUTPUT_EXE)
list(APPEND
post_build_commands
COMMAND
${CMAKE_COMMAND} -E copy ${KERNEL_ELF_NAME} ${KERNEL_EXE_NAME}
)
list(APPEND
post_build_byproducts
${KERNEL_EXE_NAME}
)
endif()
get_property(extra_post_build_commands
GLOBAL PROPERTY
extra_post_build_commands
)
list(APPEND
post_build_commands
${extra_post_build_commands}
)
get_property(extra_post_build_byproducts
GLOBAL PROPERTY
extra_post_build_byproducts
)
list(APPEND
post_build_byproducts
${extra_post_build_byproducts}
)
# Add post_build_commands to post-process the final .elf file produced by
# either the ZEPHYR_PREBUILT_EXECUTABLE or the KERNEL_ELF executable
# targets above.
add_custom_command(
TARGET ${logical_target_for_zephyr_elf}
POST_BUILD
${post_build_commands}
BYPRODUCTS
${post_build_byproducts}
COMMENT "Generating files from ${KERNEL_ELF_NAME} for board: ${BOARD}"
# NB: COMMENT only works for some CMake-Generators
)
# To populate with hex files to merge, do the following:
# set_property(GLOBAL APPEND PROPERTY HEX_FILES_TO_MERGE ${my_local_list})
# Note that the zephyr.hex file will not be included automatically.
get_property(HEX_FILES_TO_MERGE GLOBAL PROPERTY HEX_FILES_TO_MERGE)
if(HEX_FILES_TO_MERGE)
# Merge in out-of-tree hex files.
set(MERGED_HEX_NAME merged.hex)
add_custom_command(
OUTPUT ${MERGED_HEX_NAME}
COMMAND
${PYTHON_EXECUTABLE}
${ZEPHYR_BASE}/scripts/mergehex.py
-o ${MERGED_HEX_NAME}
${HEX_FILES_TO_MERGE}
DEPENDS ${HEX_FILES_TO_MERGE} ${logical_target_for_zephyr_elf}
)
add_custom_target(mergehex ALL DEPENDS ${MERGED_HEX_NAME})
list(APPEND FLASH_DEPS mergehex)
endif()
if(EMU_PLATFORM)
include(${ZEPHYR_BASE}/cmake/emu/${EMU_PLATFORM}.cmake)
else()
add_custom_target(run
COMMAND
${CMAKE_COMMAND} -E echo
"==================================================="
"Emulation/Simulation not supported with this board."
"==================================================="
)
endif()
add_subdirectory(cmake/flash)
add_subdirectory(cmake/usage)
add_subdirectory(cmake/reports)
if(NOT CONFIG_TEST)
if(CONFIG_ASSERT AND (NOT CONFIG_FORCE_NO_ASSERT))
message(WARNING "
------------------------------------------------------------
--- WARNING: __ASSERT() statements are globally ENABLED ---
--- The kernel will run more slowly and use more memory ---
------------------------------------------------------------"
)
endif()
endif()
if(CONFIG_BOARD_DEPRECATED)
message(WARNING "
WARNING: The board '${BOARD}' is deprecated and will be
removed in version ${CONFIG_BOARD_DEPRECATED}"
)
endif()
# @Intent: Set compiler specific flags for standard C includes
# Done at the very end, so any other system includes which may
# be added by Zephyr components were first in list.
toolchain_cc_nostdinc()