cmake_minimum_required(VERSION 3.22) list(APPEND CMAKE_MESSAGE_CONTEXT "Corrosion") message(DEBUG "Using Corrosion ${Corrosion_VERSION} with CMake ${CMAKE_VERSION} " "and the `${CMAKE_GENERATOR}` Generator" ) get_cmake_property(COR_IS_MULTI_CONFIG GENERATOR_IS_MULTI_CONFIG) set(COR_IS_MULTI_CONFIG "${COR_IS_MULTI_CONFIG}" CACHE BOOL "Do not change this" FORCE) mark_as_advanced(FORCE COR_IS_MULTI_CONFIG) if(NOT COR_IS_MULTI_CONFIG AND DEFINED CMAKE_CONFIGURATION_TYPES) message(WARNING "The Generator is ${CMAKE_GENERATOR}, which is not a multi-config " "Generator, but CMAKE_CONFIGURATION_TYPES is set. Please don't set " "CMAKE_CONFIGURATION_TYPES unless you are using a multi-config Generator." ) endif() option(CORROSION_VERBOSE_OUTPUT "Enables verbose output from Corrosion and Cargo" OFF) if(DEFINED CORROSION_RESPECT_OUTPUT_DIRECTORY AND NOT CORROSION_RESPECT_OUTPUT_DIRECTORY) message(WARNING "The option CORROSION_RESPECT_OUTPUT_DIRECTORY was removed." " Corrosion now always attempts to respect the output directory.") endif() option( CORROSION_NO_WARN_PARSE_TARGET_TRIPLE_FAILED "Surpresses a warning if the parsing the target triple failed." OFF ) find_package(Rust REQUIRED) if(CMAKE_GENERATOR MATCHES "Visual Studio" AND (NOT CMAKE_VS_PLATFORM_NAME STREQUAL CMAKE_VS_PLATFORM_NAME_DEFAULT) AND Rust_VERSION VERSION_LESS "1.54") message(FATAL_ERROR "Due to a cargo issue, cross-compiling with a Visual Studio generator and rust versions" " before 1.54 is not supported. Rust build scripts would be linked with the cross-compiler linker, which" " causes the build to fail. Please upgrade your Rust version to 1.54 or newer.") endif() # message(STATUS "Using Corrosion as a subdirectory") get_property( RUSTC_EXECUTABLE TARGET Rust::Rustc PROPERTY IMPORTED_LOCATION ) get_property( CARGO_EXECUTABLE TARGET Rust::Cargo PROPERTY IMPORTED_LOCATION ) function(_corrosion_bin_target_suffix target_name out_var_suffix) get_target_property(hostbuild "${target_name}" ${_CORR_PROP_HOST_BUILD}) if((hostbuild AND CMAKE_HOST_WIN32) OR ((NOT hostbuild) AND (Rust_CARGO_TARGET_OS STREQUAL "windows"))) set(_suffix ".exe") elseif(Rust_CARGO_TARGET_OS STREQUAL "vxworks") set(_suffix ".vxe") else() set(_suffix "") endif() set(${out_var_suffix} "${_suffix}" PARENT_SCOPE) endfunction() # Do not call this function directly! # # This function should be called deferred to evaluate target properties late in the configure stage. # IMPORTED_LOCATION does not support Generator expressions, so we must evaluate the output # directory target property value at configure time. This function must be deferred to the end of # the configure stage, so we can be sure that the output directory is not modified afterwards. function(_corrosion_set_imported_location_deferred target_name base_property output_directory_property filename) # The output directory property is expected to be set on the exposed target (without postfix), # but we need to set the imported location on the actual library target with postfix. if("${target_name}" MATCHES "^(.+)-(static|shared)$") set(output_dir_prop_target_name "${CMAKE_MATCH_1}") else() set(output_dir_prop_target_name "${target_name}") endif() # Append .exe suffix for executable by-products if the target is windows or if it's a host # build and the host is Windows. get_target_property(target_type ${target_name} TYPE) if(${target_type} STREQUAL "EXECUTABLE" AND (NOT "${filename}" MATCHES "\.pdb$")) _corrosion_bin_target_suffix(${target_name} "suffix") string(APPEND filename "${suffix}") endif() get_target_property(output_directory "${output_dir_prop_target_name}" "${output_directory_property}") message(DEBUG "Output directory property (target ${output_dir_prop_target_name}): ${output_directory_property} dir: ${output_directory}") foreach(config_type ${CMAKE_CONFIGURATION_TYPES}) string(TOUPPER "${config_type}" config_type_upper) get_target_property(output_dir_curr_config ${output_dir_prop_target_name} "${output_directory_property}_${config_type_upper}" ) if(output_dir_curr_config) set(curr_out_dir "${output_dir_curr_config}") elseif(output_directory) set(curr_out_dir "${output_directory}") else() set(curr_out_dir "${CMAKE_CURRENT_BINARY_DIR}") endif() string(REPLACE "\$" "${config_type}" curr_out_dir "${curr_out_dir}") message(DEBUG "Setting ${base_property}_${config_type_upper} for target ${target_name}" " to `${curr_out_dir}/${filename}`.") string(GENEX_STRIP "${curr_out_dir}" stripped_out_dir) if(NOT ("${stripped_out_dir}" STREQUAL "${curr_out_dir}")) message(FATAL_ERROR "${output_directory_property} for target ${output_dir_prop_target_name} " "contained an unexpected Generator expression. Output dir: `${curr_out_dir}`" "Note: Corrosion only supports the `\$` generator expression for output directories.") endif() # For Multiconfig we want to specify the correct location for each configuration set_property( TARGET ${target_name} PROPERTY "${base_property}_${config_type_upper}" "${curr_out_dir}/${filename}" ) set(base_output_directory "${curr_out_dir}") endforeach() if(NOT COR_IS_MULTI_CONFIG) if(output_directory) set(base_output_directory "${output_directory}") else() set(base_output_directory "${CMAKE_CURRENT_BINARY_DIR}") endif() string(REPLACE "\$" "${CMAKE_BUILD_TYPE}" base_output_directory "${base_output_directory}") string(GENEX_STRIP "${base_output_directory}" stripped_out_dir) if(NOT ("${stripped_out_dir}" STREQUAL "${base_output_directory}")) message(FATAL_ERROR "${output_dir_prop_target_name} for target ${output_dir_prop_target_name} " "contained an unexpected Generator expression. Output dir: `${base_output_directory}`" "Note: Corrosion only supports the `\$` generator expression for output directories.") endif() endif() message(DEBUG "Setting ${base_property} for target ${target_name}" " to `${base_output_directory}/${filename}`.") # IMPORTED_LOCATION must be set regardless of possible overrides. In the multiconfig case, # the last configuration "wins" (IMPORTED_LOCATION is not documented to have Genex support). set_property( TARGET ${target_name} PROPERTY "${base_property}" "${base_output_directory}/${filename}" ) endfunction() # Set the imported location of a Rust target. # # Rust targets are built via custom targets / custom commands. The actual artifacts are exposed # to CMake as imported libraries / executables that depend on the cargo_build command. For CMake # to find the built artifact we need to set the IMPORTED location to the actual location on disk. # Corrosion tries to copy the artifacts built by cargo to standard locations. The IMPORTED_LOCATION # is set to point to the copy, and not the original from the cargo build directory. # # Parameters: # - target_name: Name of the Rust target # - base_property: Name of the base property - i.e. `IMPORTED_LOCATION` or `IMPORTED_IMPLIB`. # - output_directory_property: Target property name that determines the standard location for the # artifact. # - filename of the artifact. function(_corrosion_set_imported_location target_name base_property output_directory_property filename) cmake_language(EVAL CODE " cmake_language(DEFER CALL _corrosion_set_imported_location_deferred [[${target_name}]] [[${base_property}]] [[${output_directory_property}]] [[${filename}]] ) ") endfunction() function(_corrosion_copy_byproduct_deferred target_name output_dir_prop_names cargo_build_dir file_names) if(ARGN) message(FATAL_ERROR "Unexpected additional arguments") endif() foreach(output_dir_prop_name ${output_dir_prop_names}) get_target_property(output_dir ${target_name} "${output_dir_prop_name}") if(output_dir) break() endif() endforeach() # A Genex expanding to the output directory depending on the configuration. set(multiconfig_out_dir_genex "") foreach(config_type ${CMAKE_CONFIGURATION_TYPES}) string(TOUPPER "${config_type}" config_type_upper) foreach(output_dir_prop_name ${output_dir_prop_names}) get_target_property(output_dir_curr_config ${target_name} "${output_dir_prop_name}_${config_type_upper}") if(output_dir_curr_config) break() endif() endforeach() if(output_dir_curr_config) set(curr_out_dir "${output_dir_curr_config}") elseif(output_dir) # Fallback to `output_dir` if specified # Note: Multi-configuration generators append a per-configuration subdirectory to the # specified directory unless a generator expression is used (from CMake documentation). set(curr_out_dir "${output_dir}") else() # Fallback to the default directory. We do not append the configuration directory here # and instead let CMake do this, since otherwise the resolving of dynamic library # imported paths may fail. set(curr_out_dir "${CMAKE_CURRENT_BINARY_DIR}") endif() set(multiconfig_out_dir_genex "${multiconfig_out_dir_genex}$<$:${curr_out_dir}>") endforeach() if(COR_IS_MULTI_CONFIG) set(output_dir "${multiconfig_out_dir_genex}") else() if(NOT output_dir) # Fallback to default directory. set(output_dir "${CMAKE_CURRENT_BINARY_DIR}") endif() endif() # Append .exe suffix for executable by-products if the target is windows or if it's a host # build and the host is Windows. get_target_property(target_type "${target_name}" TYPE) if (target_type STREQUAL "EXECUTABLE") list(LENGTH file_names list_len) if(NOT list_len EQUAL "1") message(FATAL_ERROR "Internal error: Exactly one filename should be passed for executable types.") endif() _corrosion_bin_target_suffix(${target_name} "suffix") if(suffix AND (NOT "${file_names}" MATCHES "\.pdb$")) # For executable targets we know / checked that only one file will be passed. string(APPEND file_names "${suffix}") endif() endif() set(src_file_names "${file_names}") if(Rust_CARGO_TARGET_ENV STREQUAL "gnullvm") # Workaround for cargo not exposing implibs yet. list(TRANSFORM src_file_names PREPEND "deps/" REGEX "\.dll\.a$") endif() list(TRANSFORM src_file_names PREPEND "${cargo_build_dir}/") list(TRANSFORM file_names PREPEND "${output_dir}/" OUTPUT_VARIABLE dst_file_names) message(DEBUG "Adding command to copy byproducts `${file_names}` to ${dst_file_names}") add_custom_command(TARGET _cargo-build_${target_name} POST_BUILD # output_dir may contain a Generator expression. COMMAND ${CMAKE_COMMAND} -E make_directory "${output_dir}" COMMAND ${CMAKE_COMMAND} -E copy_if_different # tested to work with both multiple files and paths with spaces ${src_file_names} "${output_dir}" BYPRODUCTS ${dst_file_names} COMMENT "Copying byproducts `${file_names}` to ${output_dir}" VERBATIM COMMAND_EXPAND_LISTS ) endfunction() # Copy the artifacts generated by cargo to the appropriate destination. # # Parameters: # - target_name: The name of the Rust target # - output_dir_prop_names: The property name(s) controlling the destination (e.g. # `LIBRARY_OUTPUT_DIRECTORY` or `PDB_OUTPUT_DIRECTORY;RUNTIME_OUTPUT_DIRECTORY`) # - cargo_build_dir: the directory cargo build places it's output artifacts in. # - filenames: the file names of any output artifacts as a list. function(_corrosion_copy_byproducts target_name output_dir_prop_names cargo_build_dir file_names) cmake_language(EVAL CODE " cmake_language(DEFER CALL _corrosion_copy_byproduct_deferred [[${target_name}]] [[${output_dir_prop_names}]] [[${cargo_build_dir}]] [[${file_names}]] ) ") endfunction() # Add targets for the static and/or shared libraries of the rust target. # The generated byproduct names are returned via the `OUT__BYPRODUCTS` arguments. function(_corrosion_add_library_target) set(OPTIONS "") set(ONE_VALUE_KEYWORDS WORKSPACE_MANIFEST_PATH TARGET_NAME OUT_ARCHIVE_OUTPUT_BYPRODUCTS OUT_SHARED_LIB_BYPRODUCTS OUT_PDB_BYPRODUCT ) set(MULTI_VALUE_KEYWORDS LIB_KINDS) cmake_parse_arguments(PARSE_ARGV 0 CALT "${OPTIONS}" "${ONE_VALUE_KEYWORDS}" "${MULTI_VALUE_KEYWORDS}") if(DEFINED CALT_UNPARSED_ARGUMENTS) message(FATAL_ERROR "Internal error - unexpected arguments: ${CALT_UNPARSED_ARGUMENTS}") elseif(DEFINED CALT_KEYWORDS_MISSING_VALUES) message(FATAL_ERROR "Internal error - the following keywords had no associated value(s):" "${CALT_KEYWORDS_MISSING_VALUES}") endif() list(TRANSFORM ONE_VALUE_KEYWORDS PREPEND CALT_ OUTPUT_VARIABLE required_arguments) foreach(required_argument ${required_arguments} ) if(NOT DEFINED "${required_argument}") message(FATAL_ERROR "Internal error: Missing required argument ${required_argument}." "Complete argument list: ${ARGN}" ) endif() endforeach() if("staticlib" IN_LIST CALT_LIB_KINDS) set(has_staticlib TRUE) endif() if("cdylib" IN_LIST CALT_LIB_KINDS) set(has_cdylib TRUE) endif() if(NOT (has_staticlib OR has_cdylib)) message(FATAL_ERROR "Unknown library type(s): ${CALT_LIB_KINDS}") endif() set(workspace_manifest_path "${CALT_WORKSPACE_MANIFEST_PATH}") set(target_name "${CALT_TARGET_NAME}") set(is_windows "") set(is_windows_gnu "") set(is_windows_msvc "") set(is_macos "") if(Rust_CARGO_TARGET_OS STREQUAL "windows") set(is_windows TRUE) if(Rust_CARGO_TARGET_ENV STREQUAL "msvc") set(is_windows_msvc TRUE) elseif(Rust_CARGO_TARGET_ENV STREQUAL "gnu" OR Rust_CARGO_TARGET_ENV STREQUAL "gnullvm") set(is_windows_gnu TRUE) endif() elseif(Rust_CARGO_TARGET_OS STREQUAL "darwin") set(is_macos TRUE) endif() # target file names string(REPLACE "-" "_" lib_name "${target_name}") if(is_windows_msvc) set(static_lib_name "${lib_name}.lib") else() set(static_lib_name "lib${lib_name}.a") endif() if(is_windows) set(dynamic_lib_name "${lib_name}.dll") elseif(is_macos) set(dynamic_lib_name "lib${lib_name}.dylib") else() set(dynamic_lib_name "lib${lib_name}.so") endif() if(is_windows_msvc) set(implib_name "${lib_name}.dll.lib") elseif(is_windows_gnu) set(implib_name "lib${lib_name}.dll.a") elseif(is_windows) message(FATAL_ERROR "Unknown windows environment - Can't determine implib name") endif() set(pdb_name "${lib_name}.pdb") set(archive_output_byproducts "") if(has_staticlib) list(APPEND archive_output_byproducts ${static_lib_name}) endif() if(has_cdylib) set("${CALT_OUT_SHARED_LIB_BYPRODUCTS}" "${dynamic_lib_name}" PARENT_SCOPE) if(is_windows) list(APPEND archive_output_byproducts ${implib_name}) endif() if(is_windows_msvc) set("${CALT_OUT_PDB_BYPRODUCT}" "${pdb_name}" PARENT_SCOPE) endif() endif() set("${CALT_OUT_ARCHIVE_OUTPUT_BYPRODUCTS}" "${archive_output_byproducts}" PARENT_SCOPE) if(has_staticlib) add_library(${target_name}-static STATIC IMPORTED GLOBAL) add_dependencies(${target_name}-static cargo-build_${target_name}) set_target_properties(${target_name}-static PROPERTIES COR_FILE_NAME ${static_lib_name}) _corrosion_set_imported_location("${target_name}-static" "IMPORTED_LOCATION" "ARCHIVE_OUTPUT_DIRECTORY" "${static_lib_name}") # Todo: NO_STD target property? if(NOT COR_NO_STD) set_property( TARGET ${target_name}-static PROPERTY INTERFACE_LINK_LIBRARIES ${Rust_CARGO_TARGET_LINK_NATIVE_LIBS} ) set_property( TARGET ${target_name}-static PROPERTY INTERFACE_LINK_OPTIONS ${Rust_CARGO_TARGET_LINK_OPTIONS} ) if(is_macos) set_property(TARGET ${target_name}-static PROPERTY INTERFACE_LINK_DIRECTORIES "/Library/Developer/CommandLineTools/SDKs/MacOSX.sdk/usr/lib" ) endif() endif() endif() if(has_cdylib) add_library(${target_name}-shared SHARED IMPORTED GLOBAL) add_dependencies(${target_name}-shared cargo-build_${target_name}) set_target_properties(${target_name}-shared PROPERTIES COR_FILE_NAME ${dynamic_lib_name}) # Todo: (Not new issue): What about IMPORTED_SONAME and IMPORTED_NO_SYSTEM? _corrosion_set_imported_location("${target_name}-shared" "IMPORTED_LOCATION" "LIBRARY_OUTPUT_DIRECTORY" "${dynamic_lib_name}" ) # In the future we would probably prefer to let Rust set the soname for packages >= 1.0. # This is tracked in issue #333. set_target_properties(${target_name}-shared PROPERTIES IMPORTED_NO_SONAME TRUE) if(is_windows) _corrosion_set_imported_location("${target_name}-shared" "IMPORTED_IMPLIB" "ARCHIVE_OUTPUT_DIRECTORY" "${implib_name}" ) set_target_properties(${target_name}-shared PROPERTIES COR_IMPLIB_FILE_NAME ${implib_name}) endif() if(is_macos) set_property(TARGET ${target_name}-shared PROPERTY INTERFACE_LINK_DIRECTORIES "/Library/Developer/CommandLineTools/SDKs/MacOSX.sdk/usr/lib" ) endif() endif() if(has_cdylib AND has_staticlib) if(BUILD_SHARED_LIBS) target_link_libraries(${target_name} INTERFACE ${target_name}-shared) else() target_link_libraries(${target_name} INTERFACE ${target_name}-static) endif() elseif(has_cdylib) target_link_libraries(${target_name} INTERFACE ${target_name}-shared) else() target_link_libraries(${target_name} INTERFACE ${target_name}-static) endif() endfunction() function(_corrosion_add_bin_target workspace_manifest_path bin_name out_bin_byproduct out_pdb_byproduct) if(NOT bin_name) message(FATAL_ERROR "No bin_name in _corrosion_add_bin_target for target ${target_name}") endif() string(REPLACE "-" "_" bin_name_underscore "${bin_name}") set(pdb_name "${bin_name_underscore}.pdb") if(Rust_CARGO_TARGET_ENV STREQUAL "msvc") set(${out_pdb_byproduct} "${pdb_name}" PARENT_SCOPE) endif() # Potential .exe suffix will be added later, also depending on possible hostbuild # target property set(bin_filename "${bin_name}") set(${out_bin_byproduct} "${bin_filename}" PARENT_SCOPE) add_dependencies(${bin_name} cargo-build_${bin_name}) if(Rust_CARGO_TARGET_OS STREQUAL "darwin") set_property(TARGET ${bin_name} PROPERTY INTERFACE_LINK_DIRECTORIES "/Library/Developer/CommandLineTools/SDKs/MacOSX.sdk/usr/lib" ) endif() _corrosion_set_imported_location("${bin_name}" "IMPORTED_LOCATION" "RUNTIME_OUTPUT_DIRECTORY" "${bin_filename}" ) endfunction() include(CorrosionGenerator) # Note: `cmake_language(GET_MESSAGE_LOG_LEVEL )` requires CMake 3.25, # so we offer our own option to control verbosity of downstream commands (e.g. cargo build) if (CORROSION_VERBOSE_OUTPUT) set(_CORROSION_VERBOSE_OUTPUT_FLAG --verbose CACHE INTERNAL "") else() # We want to silence some less important commands by default. set(_CORROSION_QUIET_OUTPUT_FLAG --quiet CACHE INTERNAL "") endif() set(_CORROSION_CARGO_VERSION ${Rust_CARGO_VERSION} CACHE INTERNAL "cargo version used by corrosion") set(_CORROSION_RUST_CARGO_TARGET ${Rust_CARGO_TARGET} CACHE INTERNAL "target triple used by corrosion") set(_CORROSION_RUST_CARGO_HOST_TARGET ${Rust_CARGO_HOST_TARGET} CACHE INTERNAL "host triple used by corrosion") set(_CORROSION_RUSTC "${RUSTC_EXECUTABLE}" CACHE INTERNAL "Path to rustc used by corrosion") set(_CORROSION_CARGO "${CARGO_EXECUTABLE}" CACHE INTERNAL "Path to cargo used by corrosion") string(REPLACE "-" "_" _CORROSION_RUST_CARGO_TARGET_UNDERSCORE "${Rust_CARGO_TARGET}") set(_CORROSION_RUST_CARGO_TARGET_UNDERSCORE "${_CORROSION_RUST_CARGO_TARGET_UNDERSCORE}" CACHE INTERNAL "lowercase target triple with underscores") string(TOUPPER "${_CORROSION_RUST_CARGO_TARGET_UNDERSCORE}" _CORROSION_TARGET_TRIPLE_UPPER) set(_CORROSION_RUST_CARGO_TARGET_UPPER "${_CORROSION_TARGET_TRIPLE_UPPER}" CACHE INTERNAL "target triple in uppercase with underscore" ) # We previously specified some Custom properties as part of our public API, however the chosen names prevented us from # supporting CMake versions before 3.19. In order to both support older CMake versions and not break existing code # immediately, we are using a different property name depending on the CMake version. However users avoid using # any of the properties directly, as they are no longer part of the public API and are to be considered deprecated. # Instead use the corrosion_set_... functions as documented in the Readme. set(_CORR_PROP_FEATURES CORROSION_FEATURES CACHE INTERNAL "") set(_CORR_PROP_ALL_FEATURES CORROSION_ALL_FEATURES CACHE INTERNAL "") set(_CORR_PROP_NO_DEFAULT_FEATURES CORROSION_NO_DEFAULT_FEATURES CACHE INTERNAL "") set(_CORR_PROP_ENV_VARS CORROSION_ENVIRONMENT_VARIABLES CACHE INTERNAL "") set(_CORR_PROP_HOST_BUILD CORROSION_USE_HOST_BUILD CACHE INTERNAL "") # Add custom command to build one target in a package (crate) # # A target may be either a specific bin function(_add_cargo_build out_cargo_build_out_dir) set(options NO_LINKER_OVERRIDE) set(one_value_args PACKAGE TARGET MANIFEST_PATH WORKSPACE_MANIFEST_PATH) set(multi_value_args BYPRODUCTS TARGET_KINDS) cmake_parse_arguments( ACB "${options}" "${one_value_args}" "${multi_value_args}" ${ARGN} ) if(DEFINED ACB_UNPARSED_ARGUMENTS) message(FATAL_ERROR "Internal error - unexpected arguments: " ${ACB_UNPARSED_ARGUMENTS}) elseif(DEFINED ACB_KEYWORDS_MISSING_VALUES) message(FATAL_ERROR "Internal error - missing values for the following arguments: " ${ACB_KEYWORDS_MISSING_VALUES}) endif() set(package_name "${ACB_PACKAGE}") set(target_name "${ACB_TARGET}") set(path_to_toml "${ACB_MANIFEST_PATH}") set(target_kinds "${ACB_TARGET_KINDS}") set(workspace_manifest_path "${ACB_WORKSPACE_MANIFEST_PATH}") set(build_byproducts "${ACB_BYPRODUCTS}") unset(cargo_rustc_crate_types) if(NOT target_kinds) message(FATAL_ERROR "TARGET_KINDS not specified") elseif("staticlib" IN_LIST target_kinds OR "cdylib" IN_LIST target_kinds) set(cargo_rustc_filter "--lib") if("${Rust_VERSION}" VERSION_GREATER_EQUAL "1.64") # https://doc.rust-lang.org/1.64.0/cargo/commands/cargo-rustc.html # `--crate-type` is documented since Rust 1.64 for `cargo rustc`. # We just unconditionally set it when available, to support overriding the crate type. # Due to https://github.com/rust-lang/cargo/issues/14498 we can't use one argument and pass a # comma seperated list. Instead we use multiple arguments. set(cargo_rustc_crate_types "${target_kinds}") list(TRANSFORM cargo_rustc_crate_types PREPEND "--crate-type=") endif() elseif("bin" IN_LIST target_kinds) set(cargo_rustc_filter "--bin=${target_name}") else() message(FATAL_ERROR "TARGET_KINDS contained unknown kind `${target_kind}`") endif() if (NOT IS_ABSOLUTE "${path_to_toml}") set(path_to_toml "${CMAKE_SOURCE_DIR}/${path_to_toml}") endif() get_filename_component(workspace_toml_dir ${path_to_toml} DIRECTORY ) if (CMAKE_VS_PLATFORM_NAME) set (build_dir "${CMAKE_VS_PLATFORM_NAME}/$") elseif(COR_IS_MULTI_CONFIG) set (build_dir "$") else() set (build_dir .) endif() # If a CMake sysroot is specified, forward it to the linker rustc invokes, too. CMAKE_SYSROOT is documented # to be passed via --sysroot, so we assume that when it's set, the linker supports this option in that style. if(CMAKE_CROSSCOMPILING AND CMAKE_SYSROOT) set(corrosion_link_args "--sysroot=${CMAKE_SYSROOT}") endif() if(COR_ALL_FEATURES) set(all_features_arg --all-features) endif() if(COR_NO_DEFAULT_FEATURES) set(no_default_features_arg --no-default-features) endif() set(global_rustflags_target_property "$>") set(local_rustflags_target_property "$>") # todo: this probably should be TARGET_GENEX_EVAL set(features_target_property "$>") set(features_genex "$<$:--features=$>>") # target property overrides corrosion_import_crate argument set(all_features_target_property "$>") set(all_features_arg "$<$:--all-features>") set(no_default_features_target_property "$>") set(no_default_features_arg "$<$:--no-default-features>") set(build_env_variable_genex "$>") set(hostbuild_override "$>") set(if_not_host_build_condition "$") set(corrosion_link_args "$<${if_not_host_build_condition}:${corrosion_link_args}>") # We always set `--target`, so that cargo always places artifacts into a directory with the # target triple. set(cargo_target_option "--target=$") # The target may be a filepath to custom target json file. For host targets we assume that they are built-in targets. _corrosion_strip_target_triple(${_CORROSION_RUST_CARGO_TARGET} stripped_target_triple) set(target_artifact_dir "$") set(flags_genex "$>") set(explicit_linker_property "$") set(explicit_linker_defined "$") set(cargo_profile_target_property "$>") # Option to override the rustc/cargo binary to something other than the global default set(rustc_override "$") set(cargo_override "$") set(rustc_bin "$,${rustc_override},${_CORROSION_RUSTC}>") set(cargo_bin "$,${cargo_override},${_CORROSION_CARGO}>") # Rust will add `-lSystem` as a flag for the linker on macOS. Adding the -L flag via RUSTFLAGS only fixes the # problem partially - buildscripts still break, since they won't receive the RUSTFLAGS. This seems to only be a # problem if we specify the linker ourselves (which we do, since this is necessary for e.g. linking C++ code). # We can however set `LIBRARY_PATH`, which is propagated to the build-script-build properly. if(NOT CMAKE_CROSSCOMPILING AND CMAKE_SYSTEM_NAME STREQUAL "Darwin") # not needed anymore on macos 13 (and causes issues) if(${CMAKE_SYSTEM_VERSION} VERSION_LESS 22) set(cargo_library_path "LIBRARY_PATH=/Library/Developer/CommandLineTools/SDKs/MacOSX.sdk/usr/lib") endif() elseif(CMAKE_CROSSCOMPILING AND CMAKE_HOST_SYSTEM_NAME STREQUAL "Darwin") if(${CMAKE_HOST_SYSTEM_VERSION} VERSION_LESS 22) set(cargo_library_path "$<${hostbuild_override}:LIBRARY_PATH=/Library/Developer/CommandLineTools/SDKs/MacOSX.sdk/usr/lib>") endif() endif() set(cargo_profile_set "$") # In the default case just specify --release or nothing to stay compatible with # older rust versions. set(default_profile_option "$<$,$>>:--release>") # evaluates to either `--profile=`, `--release` or nothing (for debug). set(cargo_profile "$") # If the profile name is `dev` change the dir name to `debug`. set(is_dev_profile "$") set(profile_dir_override "$<${is_dev_profile}:debug>") set(profile_dir_is_overridden "$") set(custom_profile_build_type_dir "$") set(default_build_type_dir "$,$>,debug,release>") set(build_type_dir "$") set(cargo_target_dir "${CMAKE_BINARY_DIR}/${build_dir}/cargo/build") set(cargo_build_dir "${cargo_target_dir}/${target_artifact_dir}/${build_type_dir}") set("${out_cargo_build_out_dir}" "${cargo_build_dir}" PARENT_SCOPE) set(corrosion_cc_rs_flags) if(CMAKE_C_COMPILER) # This variable is read by cc-rs (often used in build scripts) to determine the c-compiler. # It can still be overridden if the user sets the non underscore variant via the environment variables # on the target. list(APPEND corrosion_cc_rs_flags "CC_${_CORROSION_RUST_CARGO_TARGET_UNDERSCORE}=${CMAKE_C_COMPILER}") endif() if(CMAKE_CXX_COMPILER) list(APPEND corrosion_cc_rs_flags "CXX_${_CORROSION_RUST_CARGO_TARGET_UNDERSCORE}=${CMAKE_CXX_COMPILER}") endif() # cc-rs doesn't seem to support `llvm-ar` (commandline syntax), wo we might as well just use # the default AR. if(CMAKE_AR AND NOT (Rust_CARGO_TARGET_ENV STREQUAL "msvc")) list(APPEND corrosion_cc_rs_flags "AR_${_CORROSION_RUST_CARGO_TARGET_UNDERSCORE}=${CMAKE_AR}") endif() # Since we instruct cc-rs to use the compiler found by CMake, it is likely one that requires also # specifying the target sysroot to use. CMake's generator makes sure to pass --sysroot with # CMAKE_OSX_SYSROOT. Fortunately the compilers Apple ships also respect the SDKROOT environment # variable, which we can set for use when cc-rs invokes the compiler. if(CMAKE_HOST_SYSTEM_NAME STREQUAL "Darwin" AND CMAKE_OSX_SYSROOT) list(APPEND corrosion_cc_rs_flags "SDKROOT=${CMAKE_OSX_SYSROOT}") endif() # Ensure that cc-rs targets same Apple platform version as the CMake build if(CMAKE_SYSTEM_NAME STREQUAL "Darwin" AND CMAKE_OSX_DEPLOYMENT_TARGET) list(APPEND corrosion_cc_rs_flags "MACOSX_DEPLOYMENT_TARGET=${CMAKE_OSX_DEPLOYMENT_TARGET}") endif() corrosion_add_target_local_rustflags("${target_name}" "$<$:-Clink-args=${corrosion_link_args}>") # todo: this should probably also be guarded by if_not_host_build_condition. if(COR_NO_STD) corrosion_add_target_local_rustflags("${target_name}" "-Cdefault-linker-libraries=no") else() corrosion_add_target_local_rustflags("${target_name}" "-Cdefault-linker-libraries=yes") endif() set(global_joined_rustflags "$") set(global_rustflags_genex "$<$:RUSTFLAGS=${global_joined_rustflags}>") set(local_rustflags_delimiter "$<$:-->") set(local_rustflags_genex "$<$:${local_rustflags_target_property}>") set(deps_link_languages_prop "$") set(deps_link_languages "$") set(target_uses_cxx "$") unset(default_linker) # With the MSVC ABI rustc only supports directly invoking the linker - Invoking cl as the linker driver is not supported. if(NOT (Rust_CARGO_TARGET_ENV STREQUAL "msvc" OR COR_NO_LINKER_OVERRIDE)) set(default_linker "$,${CMAKE_CXX_COMPILER},${CMAKE_C_COMPILER}>") endif() # Used to set a linker for a specific target-triple. set(cargo_target_linker_var "CARGO_TARGET_${_CORROSION_RUST_CARGO_TARGET_UPPER}_LINKER") set(linker "$") set(cargo_target_linker $<$:${cargo_target_linker_var}=${linker}>) if(Rust_CROSSCOMPILING AND (CMAKE_C_COMPILER_TARGET OR CMAKE_CXX_COMPILER_TARGET)) set(linker_target_triple "$,${CMAKE_CXX_COMPILER_TARGET},${CMAKE_C_COMPILER_TARGET}>") set(rustflag_linker_arg "-Clink-args=--target=${linker_target_triple}") set(rustflag_linker_arg "$<${if_not_host_build_condition}:${rustflag_linker_arg}>") # Skip adding the linker argument, if the linker is explicitly set, since the # explicit_linker_property will not be set when this function runs. # Passing this rustflag is necessary for clang. corrosion_add_target_local_rustflags("${target_name}" "$<$:${rustflag_linker_arg}>") endif() message(DEBUG "TARGET ${target_name} produces byproducts ${build_byproducts}") add_custom_target( _cargo-build_${target_name} # Build crate COMMAND ${CMAKE_COMMAND} -E env "${build_env_variable_genex}" "${global_rustflags_genex}" "${cargo_target_linker}" "${corrosion_cc_rs_flags}" "${cargo_library_path}" "CORROSION_BUILD_DIR=${CMAKE_CURRENT_BINARY_DIR}" "CARGO_BUILD_RUSTC=${rustc_bin}" "${cargo_bin}" rustc ${cargo_rustc_filter} ${cargo_target_option} ${_CORROSION_VERBOSE_OUTPUT_FLAG} ${all_features_arg} ${no_default_features_arg} ${features_genex} --package ${package_name} ${cargo_rustc_crate_types} --manifest-path "${path_to_toml}" --target-dir "${cargo_target_dir}" ${cargo_profile} ${flags_genex} # Any arguments to cargo must be placed before this line ${local_rustflags_delimiter} ${local_rustflags_genex} # Note: `BYPRODUCTS` may not contain **target specific** generator expressions. # This means we cannot use `${cargo_build_dir}`, since it currently uses `$` # to determine the correct target directory, depending on if the hostbuild target property is # set or not. # BYPRODUCTS "${cargo_build_dir}/${build_byproducts}" # The build is conducted in the directory of the Manifest, so that configuration files such as # `.cargo/config.toml` or `toolchain.toml` are applied as expected. WORKING_DIRECTORY "${workspace_toml_dir}" USES_TERMINAL COMMAND_EXPAND_LISTS VERBATIM ) # User exposed custom target, that depends on the internal target. # Corrosion post build steps are added on the internal target, which # ensures that they run before any user defined post build steps on this # target. add_custom_target( cargo-build_${target_name} ALL ) add_dependencies(cargo-build_${target_name} _cargo-build_${target_name}) # Add custom target before actual build that user defined custom commands (e.g. code generators) can # use as a hook to do something before the build. This mainly exists to not expose the `_cargo-build` targets. add_custom_target(cargo-prebuild_${target_name}) add_dependencies(_cargo-build_${target_name} cargo-prebuild_${target_name}) if(NOT TARGET cargo-prebuild) add_custom_target(cargo-prebuild) endif() add_dependencies(cargo-prebuild cargo-prebuild_${target_name}) add_custom_target( cargo-clean_${target_name} COMMAND "${cargo_bin}" clean ${cargo_target_option} -p ${package_name} --manifest-path ${path_to_toml} WORKING_DIRECTORY ${CMAKE_BINARY_DIR}/${build_dir} USES_TERMINAL ) if (NOT TARGET cargo-clean) add_custom_target(cargo-clean) endif() add_dependencies(cargo-clean cargo-clean_${target_name}) endfunction() #[=======================================================================[.md: ANCHOR: corrosion-import-crate ```cmake corrosion_import_crate( MANIFEST_PATH [ALL_FEATURES] [NO_DEFAULT_FEATURES] [NO_STD] [NO_LINKER_OVERRIDE] [LOCKED] [FROZEN] [PROFILE ] [IMPORTED_CRATES ] [CRATE_TYPES ... ] [OVERRIDE_CRATE_TYPE = ...] [CRATES ... ] [FEATURES ... ] [FLAGS ... ] ) ``` * **MANIFEST_PATH**: Path to a [Cargo.toml Manifest] file. * **ALL_FEATURES**: Equivalent to [--all-features] passed to cargo build * **NO_DEFAULT_FEATURES**: Equivalent to [--no-default-features] passed to cargo build * **NO_STD**: Disable linking of standard libraries (required for no_std crates). * **NO_LINKER_OVERRIDE**: Will let Rust/Cargo determine which linker to use instead of corrosion (when linking is invoked by Rust) * **LOCKED**: Pass [`--locked`] to cargo build and cargo metadata. * **FROZEN**: Pass [`--frozen`] to cargo build and cargo metadata. * **PROFILE**: Specify cargo build profile (`dev`/`release` or a [custom profile]; `bench` and `test` are not supported) * **IMPORTED_CRATES**: Save the list of imported crates into the variable with the provided name in the current scope. * **CRATE_TYPES**: Only import the specified crate types. Valid values: `staticlib`, `cdylib`, `bin`. * **OVERRIDE_CRATE_TYPE**: Override the crate-types of a cargo crate with the given comma-separated values. Internally uses the `rustc` flag [`--crate-type`] to override the crate-type. Valid values for the crate types are the library types `staticlib` and `cdylib`. * **CRATES**: Only import the specified crates from a workspace. Values: Crate names. * **FEATURES**: Enable the specified features. Equivalent to [--features] passed to `cargo build`. * **FLAGS**: Arbitrary flags to `cargo build`. [custom profile]: https://doc.rust-lang.org/cargo/reference/profiles.html#custom-profiles [--all-features]: https://doc.rust-lang.org/cargo/reference/features.html#command-line-feature-options [--no-default-features]: https://doc.rust-lang.org/cargo/reference/features.html#command-line-feature-options [--features]: https://doc.rust-lang.org/cargo/reference/features.html#command-line-feature-options [`--locked`]: https://doc.rust-lang.org/cargo/commands/cargo.html#manifest-options [`--frozen`]: https://doc.rust-lang.org/cargo/commands/cargo.html#manifest-options [`--crate-type`]: https://doc.rust-lang.org/rustc/command-line-arguments.html#--crate-type-a-list-of-types-of-crates-for-the-compiler-to-emit [Cargo.toml Manifest]: https://doc.rust-lang.org/cargo/appendix/glossary.html#manifest ANCHOR_END: corrosion-import-crate #]=======================================================================] function(corrosion_import_crate) set(OPTIONS ALL_FEATURES NO_DEFAULT_FEATURES NO_STD NO_LINKER_OVERRIDE LOCKED FROZEN) set(ONE_VALUE_KEYWORDS MANIFEST_PATH PROFILE IMPORTED_CRATES) set(MULTI_VALUE_KEYWORDS CRATE_TYPES CRATES FEATURES FLAGS OVERRIDE_CRATE_TYPE) cmake_parse_arguments(COR "${OPTIONS}" "${ONE_VALUE_KEYWORDS}" "${MULTI_VALUE_KEYWORDS}" ${ARGN}) list(APPEND CMAKE_MESSAGE_CONTEXT "corrosion_import_crate") if(DEFINED COR_UNPARSED_ARGUMENTS) message(AUTHOR_WARNING "Unexpected arguments: " ${COR_UNPARSED_ARGUMENTS} "\nCorrosion will ignore these unexpected arguments." ) endif() if(DEFINED COR_KEYWORDS_MISSING_VALUES) message(DEBUG "Note: the following keywords passed to corrosion_import_crate had no associated value(s): " ${COR_KEYWORDS_MISSING_VALUES} ) endif() if (NOT DEFINED COR_MANIFEST_PATH) message(FATAL_ERROR "MANIFEST_PATH is a required keyword to corrosion_add_crate") endif() _corrosion_option_passthrough_helper(NO_LINKER_OVERRIDE COR no_linker_override) _corrosion_option_passthrough_helper(LOCKED COR locked) _corrosion_option_passthrough_helper(FROZEN COR frozen) _corrosion_arg_passthrough_helper(CRATES COR crate_allowlist) _corrosion_arg_passthrough_helper(CRATE_TYPES COR crate_types) if(COR_PROFILE) if(Rust_VERSION VERSION_LESS 1.57.0) message(FATAL_ERROR "Selecting custom profiles via `PROFILE` requires at least rust 1.57.0, but you " "have ${Rust_VERSION}." ) # The profile name could be part of a Generator expression, so this won't catch all occurences. # Since it is hard to add an error message for genex, we don't do that here. elseif("${COR_PROFILE}" STREQUAL "test" OR "${COR_PROFILE}" STREQUAL "bench") message(FATAL_ERROR "Corrosion does not support building Rust crates with the cargo profiles" " `test` or `bench`. These profiles add a hash to the output artifact name that we" " cannot predict. Please consider using a custom cargo profile which inherits from the" " built-in profile instead." ) endif() endif() # intended to be used with foreach(... ZIP_LISTS ...), meaning # that the crate_types at index i of `override_crate_type_types_list` are # for the package_name at index i of `override_crate_type_package_name_list`. # It would really be nice if CMake had structs or dicts. unset(override_crate_type_package_name_list) unset(override_crate_type_types_list) unset(OVERRIDE_CRATE_TYPE_ARGS) if(DEFINED COR_OVERRIDE_CRATE_TYPE) string(JOIN " " usage_help "Each argument to OVERRIDE_CRATE_TYPE must be of the form `=." "The package_name must be a valid cargo package name and the crate_type must be " "a comma-seperated list with valid values being `staticlib`, `cdylib` and `bin`" ) foreach(entry IN LISTS COR_OVERRIDE_CRATE_TYPE) string(REPLACE "=" ";" key_val_list ${entry}) list(LENGTH key_val_list key_val_list_len) if(NOT key_val_list_len EQUAL "2") message(FATAL_ERROR "Invalid argument: `${entry}` for parameter OVERRIDE_CRATE_TYPE!\n" "${usage_help}" ) endif() list(GET key_val_list "0" package_name) list(GET key_val_list "1" crate_types) list(APPEND override_crate_type_package_name_list "${package_name}") list(APPEND override_crate_type_types_list "${crate_types}") endforeach() list(LENGTH override_crate_type_package_name_list num_override_packages) list(LENGTH override_crate_type_types_list num_override_packages2) if("${Rust_VERSION}" VERSION_LESS "1.64") message(WARNING "OVERRIDE_CRATE_TYPE requires at Rust 1.64 or newer. Ignoring the option") elseif(NOT num_override_packages EQUAL num_override_packages2) message(WARNING "Internal error while parsing OVERRIDE_CRATE_TYPE arguments.\n" "Corrosion will ignore this argument and continue." ) else() # Pass by ref: we intentionally pass the list names here! set(override_crate_types_arg "OVERRIDE_CRATE_TYPE_ARGS" "override_crate_type_package_name_list" "override_crate_type_types_list") endif() endif() if (NOT IS_ABSOLUTE "${COR_MANIFEST_PATH}") set(COR_MANIFEST_PATH ${CMAKE_CURRENT_SOURCE_DIR}/${COR_MANIFEST_PATH}) endif() set(additional_cargo_flags ${COR_FLAGS}) if(COR_LOCKED AND NOT "--locked" IN_LIST additional_cargo_flags) list(APPEND additional_cargo_flags "--locked") endif() if(COR_FROZEN AND NOT "--frozen" IN_LIST additional_cargo_flags) list(APPEND additional_cargo_flags "--frozen") endif() set(imported_crates "") _generator_add_cargo_targets( MANIFEST_PATH "${COR_MANIFEST_PATH}" IMPORTED_CRATES imported_crates ${crate_allowlist} ${crate_types} ${no_linker_override} ${override_crate_types_arg} ) # Not target props yet: # NO_STD # NO_LINKER_OVERRIDE # We could simply zero INTERFACE_CORROSION_LINKER if this is set. # LOCKED / FROZEN get merged into FLAGS after cargo metadata. # Initialize the target properties with the arguments to corrosion_import_crate. set_target_properties( ${imported_crates} PROPERTIES "${_CORR_PROP_ALL_FEATURES}" "${COR_ALL_FEATURES}" "${_CORR_PROP_NO_DEFAULT_FEATURES}" "${COR_NO_DEFAULT_FEATURES}" "${_CORR_PROP_FEATURES}" "${COR_FEATURES}" INTERFACE_CORROSION_CARGO_PROFILE "${COR_PROFILE}" INTERFACE_CORROSION_CARGO_FLAGS "${additional_cargo_flags}" ) # _CORR_PROP_ENV_VARS if(DEFINED COR_IMPORTED_CRATES) set(${COR_IMPORTED_CRATES} ${imported_crates} PARENT_SCOPE) endif() endfunction() function(corrosion_set_linker target_name linker) if(NOT linker) message(FATAL_ERROR "The linker passed to `corrosion_set_linker` may not be empty") elseif(NOT TARGET "${target_name}") message(FATAL_ERROR "The target `${target_name}` does not exist.") endif() if(MSVC) message(WARNING "Explicitly setting the linker with the MSVC toolchain is currently not supported and ignored") endif() if(TARGET "${target_name}-static" AND NOT TARGET "${target_name}-shared") message(WARNING "The target ${target_name} builds a static library." "The linker is never invoked for a static library so specifying a linker has no effect." ) endif() set_property( TARGET ${target_name} PROPERTY INTERFACE_CORROSION_LINKER "${linker}" ) endfunction() function(corrosion_set_hostbuild target_name) # Configure the target to be compiled for the Host target and ignore any cross-compile configuration. set_property( TARGET ${target_name} PROPERTY ${_CORR_PROP_HOST_BUILD} 1 ) endfunction() # Add flags for rustc (RUSTFLAGS) which affect the target and all of it's Rust dependencies # # Additional rustflags may be passed as optional parameters after rustflag. # Please note, that if you import multiple targets from a package or workspace, but set different # Rustflags via this function, the Rust dependencies will have to be rebuilt when changing targets. # Consider `corrosion_add_target_local_rustflags()` as an alternative to avoid this. function(corrosion_add_target_rustflags target_name rustflag) # Additional rustflags may be passed as optional parameters after rustflag. set_property( TARGET ${target_name} APPEND PROPERTY INTERFACE_CORROSION_RUSTFLAGS ${rustflag} ${ARGN} ) endfunction() # Add flags for rustc (RUSTFLAGS) which only affect the target, but none of it's (Rust) dependencies # # Additional rustflags may be passed as optional parameters after rustc_flag. function(corrosion_add_target_local_rustflags target_name rustc_flag) # Set Rustflags via `cargo rustc` which only affect the current crate, but not dependencies. set_property( TARGET ${target_name} APPEND PROPERTY INTERFACE_CORROSION_LOCAL_RUSTFLAGS ${rustc_flag} ${ARGN} ) endfunction() function(corrosion_set_env_vars target_name env_var) # Additional environment variables may be passed as optional parameters after env_var. set_property( TARGET ${target_name} APPEND PROPERTY ${_CORR_PROP_ENV_VARS} ${env_var} ${ARGN} ) endfunction() function(corrosion_set_cargo_flags target_name) # corrosion_set_cargo_flags( [ ... ]) set_property( TARGET ${target_name} APPEND PROPERTY INTERFACE_CORROSION_CARGO_FLAGS ${ARGN} ) endfunction() function(corrosion_set_features target_name) # corrosion_set_features( [ALL_FEATURES=Bool] [NO_DEFAULT_FEATURES] [FEATURES ... ]) set(options NO_DEFAULT_FEATURES) set(one_value_args ALL_FEATURES) set(multi_value_args FEATURES) cmake_parse_arguments( PARSE_ARGV 1 SET "${options}" "${one_value_args}" "${multi_value_args}" ) if(DEFINED SET_ALL_FEATURES) set_property( TARGET ${target_name} PROPERTY ${_CORR_PROP_ALL_FEATURES} ${SET_ALL_FEATURES} ) endif() if(SET_NO_DEFAULT_FEATURES) set_property( TARGET ${target_name} PROPERTY ${_CORR_PROP_NO_DEFAULT_FEATURES} 1 ) endif() if(SET_FEATURES) set_property( TARGET ${target_name} APPEND PROPERTY ${_CORR_PROP_FEATURES} ${SET_FEATURES} ) endif() endfunction() function(corrosion_link_libraries target_name) if(TARGET "${target_name}-static") message(DEBUG "The target ${target_name} builds a static Rust library." "Calling `target_link_libraries()` instead." ) target_link_libraries("${target_name}-static" INTERFACE ${ARGN}) if(NOT TARGET "${target_name}-shared") # Early return, since Rust won't invoke the linker for static libraries return() endif() endif() foreach(library ${ARGN}) set_property( TARGET _cargo-build_${target_name} APPEND PROPERTY CARGO_DEPS_LINKER_LANGUAGES $ ) if (TARGET "${library}") corrosion_add_target_local_rustflags(${target_name} "-L$" "-l$" ) add_dependencies(_cargo-build_${target_name} ${library}) elseif(IS_ABSOLUTE "${library}") # Linking via full path (See https://doc.rust-lang.org/rustc/command-line-arguments.html#linking-modifiers-verbatim) corrosion_add_target_local_rustflags(${target_name} "-Clink-arg=${library}") else() # We have to assume ${library} is a non-CMake library name corrosion_add_target_local_rustflags(${target_name} "-l${library}") endif() endforeach() endfunction() #[=======================================================================[.md: ANCHOR: corrosion-install ** EXPERIMENTAL **: This function is currently still considered experimental and is not officially released yet. Feedback and Suggestions are welcome. ```cmake corrosion_install(TARGETS ... [EXPORT ] [[ARCHIVE|LIBRARY|RUNTIME|PUBLIC_HEADER] [DESTINATION ] [PERMISSIONS ] [CONFIGURATIONS [Debug|Release|]] ] [...]) ``` * **TARGETS**: Target or targets to install. * **EXPORT**: Creates an export that can be installed with `install(EXPORT)`. must be globally unique. Also creates a file at ${CMAKE_BINARY_DIR}/corrosion/Corrosion.cmake that must be included in the installed config file. * **ARCHIVE**/**LIBRARY**/**RUNTIME**/PUBLIC_HEADER: Designates that the following settings only apply to that specific type of object. * **DESTINATION**: The subdirectory within the CMAKE_INSTALL_PREFIX that a specific object should be placed. Defaults to values from GNUInstallDirs. * **PERMISSIONS**: The permissions of files copied into the install prefix. Any `PUBLIC` or `INTERFACE` [file sets] will be installed. [file sets]: https://cmake.org/cmake/help/latest/command/target_sources.html#file-sets ANCHOR_END: corrosion-install #]=======================================================================] function(corrosion_install) # Default install dirs include(GNUInstallDirs) # Parse arguments to corrosion_install list(GET ARGN 0 INSTALL_TYPE) list(REMOVE_AT ARGN 0) # The different install types that are supported. Some targets may have more than one of these # types. For example, on Windows, a shared library will have both an ARCHIVE component and a # RUNTIME component. set(INSTALL_TARGET_TYPES ARCHIVE LIBRARY RUNTIME PRIVATE_HEADER PUBLIC_HEADER) # Arguments to each install target type set(OPTIONS) set(ONE_VALUE_ARGS DESTINATION) set(MULTI_VALUE_ARGS PERMISSIONS CONFIGURATIONS) set(TARGET_ARGS ${OPTIONS} ${ONE_VALUE_ARGS} ${MULTI_VALUE_ARGS}) if (INSTALL_TYPE STREQUAL "TARGETS") # Extract targets set(INSTALL_TARGETS) list(LENGTH ARGN ARGN_LENGTH) set(DELIMITERS EXPORT ${INSTALL_TARGET_TYPES} ${TARGET_ARGS}) while(ARGN_LENGTH) # If we hit another keyword, stop - we've found all the targets list(GET ARGN 0 FRONT) if (FRONT IN_LIST DELIMITERS) break() endif() list(APPEND INSTALL_TARGETS ${FRONT}) list(REMOVE_AT ARGN 0) # Update ARGN_LENGTH list(LENGTH ARGN ARGN_LENGTH) endwhile() # Check if there are any args left before proceeding list(LENGTH ARGN ARGN_LENGTH) if (ARGN_LENGTH) list(GET ARGN 0 FRONT) if (FRONT STREQUAL "EXPORT") list(REMOVE_AT ARGN 0) # Pop "EXPORT" list(GET ARGN 0 EXPORT_NAME) list(REMOVE_AT ARGN 0) # Pop set(EXTRA_TARGETS_EXPORT_NAME ${EXPORT_NAME}Corrosion.cmake) set(EXPORT_NAME EXPORT ${EXPORT_NAME}) set(EXPORT_FILE_PATH "${CMAKE_BINARY_DIR}/corrosion/${EXTRA_TARGETS_EXPORT_NAME}") # Remove first, since otherwise we will append to the file on every reconfigure. # Assumes that the corrosion_install will only be called once for a given EXPORT_NAME. file(REMOVE "${EXPORT_FILE_PATH}") endif() else() # Prevent variable set in user code from interfering set(EXPORT_NAME) endif() # Loop over all arguments and get options for each install target type list(LENGTH ARGN ARGN_LENGTH) while(ARGN_LENGTH) # Check if we're dealing with arguments for a specific install target type, or with # default options for all target types. list(GET ARGN 0 FRONT) if (FRONT IN_LIST INSTALL_TARGET_TYPES) set(INSTALL_TARGET_TYPE ${FRONT}) list(REMOVE_AT ARGN 0) else() set(INSTALL_TARGET_TYPE DEFAULT) endif() # Gather the arguments to this install type set(ARGS) while(ARGN_LENGTH) # If the next keyword is an install target type, then break - arguments have been # gathered. list(GET ARGN 0 FRONT) if (FRONT IN_LIST INSTALL_TARGET_TYPES) break() endif() list(APPEND ARGS ${FRONT}) list(REMOVE_AT ARGN 0) list(LENGTH ARGN ARGN_LENGTH) endwhile() # Parse the arguments and register the file install cmake_parse_arguments( COR "${OPTIONS}" "${ONE_VALUE_ARGS}" "${MULTI_VALUE_ARGS}" ${ARGS}) if (COR_DESTINATION) set(COR_INSTALL_${INSTALL_TARGET_TYPE}_DESTINATION ${COR_DESTINATION}) endif() if (COR_PERMISSIONS) set(COR_INSTALL_${INSTALL_TARGET_TYPE}_PERMISSIONS ${COR_PERMISSIONS}) endif() if (COR_CONFIGURATIONS) set(COR_INSTALL_${INSTALL_TARGET_TYPE}_CONFIGURATIONS ${COR_CONFIGURATIONS}) endif() # Update ARG_LENGTH list(LENGTH ARGN ARGN_LENGTH) endwhile() # Default permissions for all files set(DEFAULT_PERMISSIONS OWNER_WRITE OWNER_READ GROUP_READ WORLD_READ) # Loop through each install target and register file installations foreach(INSTALL_TARGET ${INSTALL_TARGETS}) if(NOT TARGET ${INSTALL_TARGET}) message(FATAL_ERROR "Install target ${INSTALL_TARGET} is not a valid target") endif() # Don't both implementing target type differentiation using generator expressions since # TYPE cannot change after target creation get_property( TARGET_TYPE TARGET ${INSTALL_TARGET} PROPERTY TYPE ) # Install executable files first if (TARGET_TYPE STREQUAL "EXECUTABLE") if (DEFINED COR_INSTALL_RUNTIME_DESTINATION) set(DESTINATION ${COR_INSTALL_RUNTIME_DESTINATION}) elseif (DEFINED COR_INSTALL_DEFAULT_DESTINATION) set(DESTINATION ${COR_INSTALL_DEFAULT_DESTINATION}) else() set(DESTINATION ${CMAKE_INSTALL_BINDIR}) endif() if (DEFINED COR_INSTALL_RUNTIME_PERMISSIONS) set(PERMISSIONS ${COR_INSTALL_RUNTIME_PERMISSIONS}) elseif (DEFINED COR_INSTALL_DEFAULT_PERMISSIONS) set(PERMISSIONS ${COR_INSTALL_DEFAULT_PERMISSIONS}) else() set( PERMISSIONS ${DEFAULT_PERMISSIONS} OWNER_EXECUTE GROUP_EXECUTE WORLD_EXECUTE) endif() if (DEFINED COR_INSTALL_RUNTIME_CONFIGURATIONS) set(CONFIGURATIONS CONFIGURATIONS ${COR_INSTALL_RUNTIME_CONFIGURATIONS}) elseif (DEFINED COR_INSTALL_DEFAULT_CONFIGURATIONS) set(CONFIGURATIONS CONFIGURATIONS ${COR_INSTALL_DEFAULT_CONFIGURATIONS}) else() set(CONFIGURATIONS) endif() install( FILES $ DESTINATION ${DESTINATION} PERMISSIONS ${PERMISSIONS} ${CONFIGURATIONS} ) elseif(TARGET_TYPE STREQUAL "INTERFACE_LIBRARY") if(TARGET ${INSTALL_TARGET}-static) if (DEFINED COR_INSTALL_ARCHIVE_DESTINATION) set(DESTINATION ${COR_INSTALL_ARCHIVE_DESTINATION}) elseif (DEFINED COR_INSTALL_DEFAULT_DESTINATION) set(DESTINATION ${COR_INSTALL_DEFAULT_DESTINATION}) else() set(DESTINATION ${CMAKE_INSTALL_LIBDIR}) endif() if (DEFINED COR_INSTALL_ARCHIVE_PERMISSIONS) set(PERMISSIONS ${COR_INSTALL_ARCHIVE_PERMISSIONS}) elseif (DEFINED COR_INSTALL_DEFAULT_PERMISSIONS) set(PERMISSIONS ${COR_INSTALL_DEFAULT_PERMISSIONS}) else() set(PERMISSIONS ${DEFAULT_PERMISSIONS}) endif() if (DEFINED COR_INSTALL_ARCHIVE_CONFIGURATIONS) set(CONFIGURATIONS CONFIGURATIONS ${COR_INSTALL_ARCHIVE_CONFIGURATIONS}) elseif (DEFINED COR_INSTALL_DEFAULT_CONFIGURATIONS) set(CONFIGURATIONS CONFIGURATIONS ${COR_INSTALL_DEFAULT_CONFIGURATIONS}) else() set(CONFIGURATIONS) endif() install( FILES $ DESTINATION ${DESTINATION} PERMISSIONS ${PERMISSIONS} ${CONFIGURATIONS} ) if(EXPORT_NAME) get_target_property(COR_FILE_NAME ${INSTALL_TARGET}-static COR_FILE_NAME) file(APPEND "${EXPORT_FILE_PATH}" " add_library(${INSTALL_TARGET}-static STATIC IMPORTED) set_target_properties(${INSTALL_TARGET}-static PROPERTIES IMPORTED_LOCATION \"\${PACKAGE_PREFIX_DIR}/${DESTINATION}/${COR_FILE_NAME}\" ) " ) endif() endif() if(TARGET ${INSTALL_TARGET}-shared) if (DEFINED COR_INSTALL_LIBRARY_DESTINATION) set(DESTINATION ${COR_INSTALL_LIBRARY_DESTINATION}) elseif (DEFINED COR_INSTALL_DEFAULT_DESTINATION) set(DESTINATION ${COR_INSTALL_DEFAULT_DESTINATION}) else() set(DESTINATION ${CMAKE_INSTALL_LIBDIR}) endif() if (DEFINED COR_INSTALL_LIBRARY_PERMISSIONS) set(PERMISSIONS ${COR_INSTALL_LIBRARY_PERMISSIONS}) elseif (DEFINED COR_INSTALL_DEFAULT_PERMISSIONS) set(PERMISSIONS ${COR_INSTALL_DEFAULT_PERMISSIONS}) else() set( PERMISSIONS ${DEFAULT_PERMISSIONS} OWNER_EXECUTE GROUP_EXECUTE WORLD_EXECUTE ) endif() if (DEFINED COR_INSTALL_LIBRARY_CONFIGURATIONS) set(CONFIGURATIONS CONFIGURATIONS ${COR_INSTALL_LIBRARY_CONFIGURATIONS}) elseif (DEFINED COR_INSTALL_DEFAULT_CONFIGURATIONS) set(CONFIGURATIONS CONFIGURATIONS ${COR_INSTALL_DEFAULT_CONFIGURATIONS}) else() set(CONFIGURATIONS) endif() install( IMPORTED_RUNTIME_ARTIFACTS ${INSTALL_TARGET}-shared PERMISSIONS ${PERMISSIONS} DESTINATION ${DESTINATION} ${CONFIGURATIONS} ) if(EXPORT_NAME) get_target_property(COR_FILE_NAME ${INSTALL_TARGET}-shared COR_FILE_NAME) file(APPEND "${EXPORT_FILE_PATH}" " add_library(${INSTALL_TARGET}-shared SHARED IMPORTED) set_target_properties(${INSTALL_TARGET}-shared PROPERTIES IMPORTED_LOCATION \"\${PACKAGE_PREFIX_DIR}/${DESTINATION}/${COR_FILE_NAME}\" ) " ) get_target_property(COR_IMPLIB_FILE_NAME ${INSTALL_TARGET}-shared COR_IMPLIB_FILE_NAME) if (NOT COR_IMPLIB_FILE_NAME MATCHES .*-NOTFOUND) file(APPEND "${EXPORT_FILE_PATH}" " set_target_properties(${INSTALL_TARGET}-shared PROPERTIES IMPORTED_IMPLIB \"\${PACKAGE_PREFIX_DIR}/${DESTINATION}/${COR_IMPLIB_FILE_NAME}\" )" ) endif() endif() endif() else() message(FATAL_ERROR "Unknown target type ${TARGET_TYPE} for install target ${INSTALL_TARGET}") endif() # Executables can also have export tables, so they _might_ also need header files if (DEFINED COR_INSTALL_PUBLIC_HEADER_DESTINATION) set(DESTINATION ${COR_INSTALL_PUBLIC_HEADER_DESTINATION}) elseif (DEFINED COR_INSTALL_DEFAULT_DESTINATION) set(DESTINATION ${COR_INSTALL_DEFAULT_DESTINATION}) else() set(DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}) endif() if (DEFINED COR_INSTALL_PUBLIC_HEADER_PERMISSIONS) set(PERMISSIONS ${COR_INSTALL_PUBLIC_HEADER_PERMISSIONS}) elseif (DEFINED COR_INSTALL_DEFAULT_PERMISSIONS) set(PERMISSIONS ${COR_INSTALL_DEFAULT_PERMISSIONS}) else() # Directories need OWNER_EXECUTE in order to be deletable by owner set(PERMISSIONS ${DEFAULT_PERMISSIONS} OWNER_EXECUTE) endif() if (DEFINED COR_INSTALL_PUBLIC_HEADER_CONFIGURATIONS) set(CONFIGURATIONS CONFIGURATIONS ${COR_INSTALL_PUBLIC_HEADER_CONFIGURATIONS}) elseif (DEFINED COR_INSTALL_DEFAULT_CONFIGURATIONS) set(CONFIGURATIONS CONFIGURATIONS ${COR_INSTALL_DEFAULT_CONFIGURATIONS}) else() set(CONFIGURATIONS) endif() get_target_property(FILE_SET ${INSTALL_TARGET} INTERFACE_HEADER_SETS) if(NOT FILE_SET OR FILE_SET MATCHES .*-NOTFOUND) set(TARGET_HAS_FILE_SET FALSE) else() set(TARGET_HAS_FILE_SET TRUE) endif() if(NOT TARGET_HAS_FILE_SET) if(EXPORT_NAME) # We still need to generate a EXPORT but we can't do that with install(DIRECTORY) install(TARGETS ${INSTALL_TARGET} ${EXPORT_NAME}) endif() set(PUBLIC_HEADER_PROPERTIES INCLUDE_DIRECTORIES PUBLIC_INCLUDE_DIRECTORIES INTERFACE_INCLUDE_DIRECTORIES) foreach(PUBLIC_HEADER_PROPERTY ${PUBLIC_HEADER_PROPERTIES}) get_target_property(PUBLIC_HEADER ${INSTALL_TARGET} ${PUBLIC_HEADER_PROPERTY}) if(NOT PUBLIC_HEADER MATCHES .*-NOTFOUND) foreach(INCLUDE_DIRECTORY ${PUBLIC_HEADER}) install( DIRECTORY ${INCLUDE_DIRECTORY} DESTINATION . FILE_PERMISSIONS ${PERMISSIONS} DIRECTORY_PERMISSIONS ${PERMISSIONS} ${CONFIGURATIONS} ) endforeach() endif() endforeach() else() install( TARGETS ${INSTALL_TARGET} ${EXPORT_NAME} FILE_SET HEADERS DESTINATION ${DESTINATION} PERMISSIONS ${PERMISSIONS} ${CONFIGURATIONS} ) endif() endforeach() elseif(INSTALL_TYPE STREQUAL "EXPORT") message(FATAL_ERROR "install(EXPORT ...) not yet implemented") else() message(FATAL_ERROR "Unknown arg: ${INSTALL_TYPE}") endif() endfunction() #[=======================================================================[.md: ** EXPERIMENTAL **: This function is currently still considered experimental and is not officially released yet. Feedback and Suggestions are welcome. ANCHOR: corrosion_add_cxxbridge ```cmake corrosion_add_cxxbridge(cxx_target CRATE REGEN_TARGET [FILES ] ) ``` Adds build-rules to create C++ bindings using the [cxx] crate. ### Arguments: * `cxxtarget`: Name of the C++ library target for the bindings, which corrosion will create. * **FILES**: Input Rust source file containing #[cxx::bridge]. * **CRATE**: Name of an imported Rust target. Note: Parameter may be renamed before release * **REGEN_TARGET**: Name of a custom target that will regenerate the cxx bindings **without** recompiling. Note: Parameter may be renamed before release #### Currently missing arguments The following arguments to cxxbridge **currently** have no way to be passed by the user: - `--cfg` - `--cxx-impl-annotations` - `--include` The created rules approximately do the following: - Check which version of `cxx` the Rust crate specified by the `CRATE` argument depends on. - Check if the exact same version of `cxxbridge-cmd` is installed (available in `PATH`) - If not, create a rule to build the exact same version of `cxxbridge-cmd`. - Create rules to run `cxxbridge` and generate - The `rust/cxx.h` header - A header and source file for each of the files specified in `FILES` - The generated sources (and header include directories) are added to the `cxxtarget` CMake library target. ### Limitations We currently require the `CRATE` argument to be a target imported by Corrosion, however, Corrosion does not import `rlib` only libraries. As a workaround users can add `staticlib` to their list of crate kinds. In the future this may be solved more properly, by either adding an option to also import Rlib targets (without build rules) or by adding a `MANIFEST_PATH` argument to this function, specifying where the crate is. ### Contributing Specifically some more realistic test / demo projects and feedback about limitations would be welcome. [cxx]: https://github.com/dtolnay/cxx ANCHOR_END: corrosion_add_cxxbridge #]=======================================================================] function(corrosion_add_cxxbridge cxx_target) set(OPTIONS) set(ONE_VALUE_KEYWORDS CRATE REGEN_TARGET) set(MULTI_VALUE_KEYWORDS FILES) cmake_parse_arguments(PARSE_ARGV 1 _arg "${OPTIONS}" "${ONE_VALUE_KEYWORDS}" "${MULTI_VALUE_KEYWORDS}") set(required_keywords CRATE FILES) foreach(keyword ${required_keywords}) if(NOT DEFINED "_arg_${keyword}") message(FATAL_ERROR "Missing required parameter `${keyword}`.") elseif("${_arg_${keyword}}" STREQUAL "") message(FATAL_ERROR "Required parameter `${keyword}` may not be set to an empty string.") endif() endforeach() get_target_property(manifest_path "${_arg_CRATE}" INTERFACE_COR_PACKAGE_MANIFEST_PATH) if(NOT EXISTS "${manifest_path}") message(FATAL_ERROR "Internal error: No package manifest found at ${manifest_path}") endif() get_filename_component(manifest_dir ${manifest_path} DIRECTORY) execute_process(COMMAND ${CMAKE_COMMAND} -E env "CARGO_BUILD_RUSTC=${_CORROSION_RUSTC}" ${_CORROSION_CARGO} tree -i cxx --depth=0 WORKING_DIRECTORY "${manifest_dir}" RESULT_VARIABLE cxx_version_result OUTPUT_VARIABLE cxx_version_output ) if(NOT "${cxx_version_result}" EQUAL "0") message(FATAL_ERROR "Crate ${_arg_CRATE} does not depend on cxx.") endif() if(cxx_version_output MATCHES "cxx v([0-9]+.[0-9]+.[0-9]+)") set(cxx_required_version "${CMAKE_MATCH_1}") else() message(FATAL_ERROR "Failed to parse cxx version from cargo tree output: `cxx_version_output`") endif() # First check if a suitable version of cxxbridge is installed find_program(INSTALLED_CXXBRIDGE cxxbridge PATHS "$ENV{HOME}/.cargo/bin/") mark_as_advanced(INSTALLED_CXXBRIDGE) if(INSTALLED_CXXBRIDGE) execute_process(COMMAND ${INSTALLED_CXXBRIDGE} --version OUTPUT_VARIABLE cxxbridge_version_output) if(cxxbridge_version_output MATCHES "cxxbridge ([0-9]+.[0-9]+.[0-9]+)") set(cxxbridge_version "${CMAKE_MATCH_1}") else() set(cxxbridge_version "") endif() endif() set(cxxbridge "") if(cxxbridge_version) if(cxxbridge_version VERSION_EQUAL cxx_required_version) set(cxxbridge "${INSTALLED_CXXBRIDGE}") if(NOT TARGET "cxxbridge_v${cxx_required_version}") # Add an empty target. add_custom_target("cxxbridge_v${cxx_required_version}" ) endif() endif() endif() # No suitable version of cxxbridge was installed, so use custom target to build correct version. if(NOT cxxbridge) if(NOT TARGET "cxxbridge_v${cxx_required_version}") unset(executable_postfix) if(Rust_CARGO_HOST_OS STREQUAL "windows") set(executable_postfix ".exe") endif() add_custom_command(OUTPUT "${CMAKE_BINARY_DIR}/corrosion/cxxbridge_v${cxx_required_version}/bin/cxxbridge${executable_postfix}" COMMAND ${CMAKE_COMMAND} -E make_directory "${CMAKE_BINARY_DIR}/corrosion/cxxbridge_v${cxx_required_version}" COMMAND ${CMAKE_COMMAND} -E env "CARGO_BUILD_RUSTC=${_CORROSION_RUSTC}" ${_CORROSION_CARGO} install cxxbridge-cmd --version "${cxx_required_version}" --root "${CMAKE_BINARY_DIR}/corrosion/cxxbridge_v${cxx_required_version}" --quiet # todo: use --target-dir to potentially reuse artifacts COMMENT "Building cxxbridge (version ${cxx_required_version})" ) add_custom_target("cxxbridge_v${cxx_required_version}" DEPENDS "${CMAKE_BINARY_DIR}/corrosion/cxxbridge_v${cxx_required_version}/bin/cxxbridge${executable_postfix}" ) endif() set(cxxbridge "${CMAKE_BINARY_DIR}/corrosion/cxxbridge_v${cxx_required_version}/bin/cxxbridge${executable_postfix}") endif() # The generated folder structure will be of the following form # # CMAKE_CURRENT_BINARY_DIR # corrosion_generated # cxxbridge # # include # # # rust # cxx.h # src # # cbindgen # ... # other # ... set(corrosion_generated_dir "${CMAKE_CURRENT_BINARY_DIR}/corrosion_generated") set(generated_dir "${corrosion_generated_dir}/cxxbridge/${cxx_target}") set(header_placement_dir "${generated_dir}/include/${cxx_target}") set(source_placement_dir "${generated_dir}/src") add_library(${cxx_target} STATIC) target_include_directories(${cxx_target} PUBLIC $ $ ) # cxx generated code is using c++11 features in headers, so propagate c++11 as minimal requirement target_compile_features(${cxx_target} PUBLIC cxx_std_11) # Todo: target_link_libraries is only necessary for rust2c projects. # It is possible that checking if the rust crate is an executable is a sufficient check, # but some more thought may be needed here. # Maybe we should also let the user do this, since for c2rust, the user also has to call # corrosion_link_libraries() themselves. get_target_property(crate_target_type ${_arg_CRATE} TYPE) if (NOT crate_target_type STREQUAL "EXECUTABLE") target_link_libraries(${cxx_target} PRIVATE ${_arg_CRATE}) endif() file(MAKE_DIRECTORY "${generated_dir}/include/rust") add_custom_command( OUTPUT "${generated_dir}/include/rust/cxx.h" COMMAND ${cxxbridge} --header --output "${generated_dir}/include/rust/cxx.h" DEPENDS "cxxbridge_v${cxx_required_version}" COMMENT "Generating rust/cxx.h header" ) set(GENERATED_FILES "${generated_dir}/include/rust/cxx.h") foreach(filepath ${_arg_FILES}) get_filename_component(filename ${filepath} NAME_WE) get_filename_component(directory ${filepath} DIRECTORY) set(directory_component "") if(directory) set(directory_component "${directory}/") endif() # todo: convert potentially absolute paths to relative paths.. set(cxx_header ${directory_component}${filename}.h) set(cxx_source ${directory_component}${filename}.cpp) # todo: not all projects may use the `src` directory. set(rust_source_path "${manifest_dir}/src/${filepath}") file(MAKE_DIRECTORY "${header_placement_dir}/${directory}" "${source_placement_dir}/${directory}") add_custom_command( OUTPUT "${header_placement_dir}/${cxx_header}" "${source_placement_dir}/${cxx_source}" COMMAND ${cxxbridge} ${rust_source_path} --header --output "${header_placement_dir}/${cxx_header}" COMMAND ${cxxbridge} ${rust_source_path} --output "${source_placement_dir}/${cxx_source}" --include "${cxx_target}/${cxx_header}" DEPENDS "cxxbridge_v${cxx_required_version}" "${rust_source_path}" COMMENT "Generating cxx bindings for crate ${_arg_CRATE} and file src/${filepath}" ) list(APPEND GENERATED_FILES "${header_placement_dir}/${cxx_header}" "${source_placement_dir}/${cxx_source}") endforeach() target_sources(${cxx_target} PRIVATE ${GENERATED_FILES}) if(DEFINED _arg_REGEN_TARGET) add_custom_target(${_arg_REGEN_TARGET} DEPENDS ${GENERATED_FILES} COMMENT "Generated cxx bindings for crate ${_arg_CRATE}") endif() endfunction() #[=======================================================================[.md: ANCHOR: corrosion_cbindgen ```cmake corrosion_cbindgen( TARGET HEADER_NAME [CARGO_PACKAGE ] [MANIFEST_DIRECTORY ] [CBINDGEN_VERSION ] [FLAGS ... ] ) ``` A helper function which uses [cbindgen] to generate C/C++ bindings for a Rust crate. If `cbindgen` is not in `PATH` the helper function will automatically try to download `cbindgen` and place the built binary into `CMAKE_BINARY_DIR`. The binary is shared between multiple invocations of this function. * **TARGET**: The name of an imported Rust library target, for which bindings should be generated. If the target was not previously imported by Corrosion, because the crate only produces an `rlib`, you must additionally specify `MANIFEST_DIRECTORY`. * **MANIFEST_DIRECTORY**: Directory of the package defining the library crate bindings should be generated for. If you want to avoid specifying `MANIFEST_DIRECTORY` you could add a `staticlib` target to your package manifest as a workaround to make corrosion import the crate. * **HEADER_NAME**: The name of the generated header file. This will be the name which you include in your C/C++ code (e.g. `#include "myproject/myheader.h" if you specify `HEADER_NAME "myproject/myheader.h"`. * **CBINDGEN_VERSION**: Version requirement for cbindgen. Exact semantics to be specified. Currently not implemented. * **FLAGS**: Arbitrary other flags for `cbindgen`. Run `cbindgen --help` to see the possible flags. [cbindgen]: https://github.com/eqrion/cbindgen ### Current limitations - Cbindgens (optional) macro expansion feature internally actually builds the crate / runs the build script. For this to work as expected in all cases, we probably need to set all the same environment variables as when corrosion builds the crate. However the crate is a **library**, so we would need to figure out which target builds it - and if there are multiple, potentially generate bindings per-target? Alternatively we could add support of setting some environment variables on rlibs, and pulling that information in when building the actual corrosion targets Alternatively we could restrict corrosions support of this feature to actual imported staticlib/cdylib targets. ANCHOR_END: corrosion_cbindgen #]=======================================================================] function(corrosion_experimental_cbindgen) set(OPTIONS "") set(ONE_VALUE_KEYWORDS TARGET MANIFEST_DIRECTORY HEADER_NAME CBINDGEN_VERSION) set(MULTI_VALUE_KEYWORDS "FLAGS") cmake_parse_arguments(PARSE_ARGV 0 CCN "${OPTIONS}" "${ONE_VALUE_KEYWORDS}" "${MULTI_VALUE_KEYWORDS}") set(required_keywords TARGET HEADER_NAME) foreach(keyword ${required_keywords}) if(NOT DEFINED "CCN_${keyword}") message(FATAL_ERROR "Missing required parameter `${keyword}`.") elseif("${CCN_${keyword}}" STREQUAL "") message(FATAL_ERROR "Required parameter `${keyword}` may not be set to an empty string.") endif() endforeach() set(rust_target "${CCN_TARGET}") unset(package_manifest_dir) set(hostbuild_override "$>") set(cbindgen_target_triple "$") if(TARGET "${rust_target}") get_target_property(package_manifest_path "${rust_target}" INTERFACE_COR_PACKAGE_MANIFEST_PATH) if(NOT EXISTS "${package_manifest_path}") message(FATAL_ERROR "Internal error: No package manifest found at ${package_manifest_path}") endif() get_filename_component(package_manifest_dir "${package_manifest_path}" DIRECTORY) # todo: as an optimization we could cache the cargo metadata output (but --no-deps makes that slightly more complicated) else() if(NOT DEFINED CCN_MANIFEST_DIRECTORY) message(FATAL_ERROR "`${rust_target}` is not a target imported by corrosion and `MANIFEST_DIRECTORY` was not provided." ) else() set(package_manifest_dir "${CCN_MANIFEST_DIRECTORY}") endif() endif() get_target_property(rust_cargo_package "${rust_target}" COR_CARGO_PACKAGE_NAME ) if(NOT rust_cargo_package) message(FATAL_ERROR "Internal Error: Could not determine cargo package name for cbindgen. " ) endif() message(STATUS "Using package ${rust_cargo_package} as crate for cbindgen") set(output_header_name "${CCN_HEADER_NAME}") find_program(installed_cbindgen cbindgen) # Install the newest cbindgen version into our build tree. if(installed_cbindgen) set(cbindgen "${installed_cbindgen}") else() set(local_cbindgen_install_dir "${CMAKE_BINARY_DIR}/corrosion/cbindgen") unset(executable_postfix) if(Rust_CARGO_HOST_OS STREQUAL "windows") set(executable_postfix ".exe") endif() set(cbindgen "${local_cbindgen_install_dir}/bin/cbindgen${executable_postfix}") if(NOT TARGET "_corrosion_cbindgen") file(MAKE_DIRECTORY "${local_cbindgen_install_dir}") add_custom_command(OUTPUT "${cbindgen}" COMMAND ${CMAKE_COMMAND} -E env "CARGO_BUILD_RUSTC=${_CORROSION_RUSTC}" ${_CORROSION_CARGO} install cbindgen --root "${local_cbindgen_install_dir}" ${_CORROSION_QUIET_OUTPUT_FLAG} COMMENT "Building cbindgen" ) add_custom_target("_corrosion_cbindgen" DEPENDS "${cbindgen}" ) endif() endif() set(corrosion_generated_dir "${CMAKE_CURRENT_BINARY_DIR}/corrosion_generated") set(generated_dir "${corrosion_generated_dir}/cbindgen/${rust_target}") set(header_placement_dir "${generated_dir}/include/") set(depfile_placement_dir "${generated_dir}/depfile") set(generated_depfile "${depfile_placement_dir}/${output_header_name}.d") set(generated_header "${header_placement_dir}/${output_header_name}") message(STATUS "rust target is ${rust_target}") if(CMAKE_VERSION VERSION_GREATER_EQUAL "3.23") target_sources(${rust_target} INTERFACE FILE_SET HEADERS BASE_DIRS "${header_placement_dir}" FILES "${header_placement_dir}/${output_header_name}" ) else() # Note: not clear to me how install would best work before CMake 3.23 target_include_directories(${rust_target} INTERFACE $ $ ) endif() # This may be different from $header_placement_dir since the user specified HEADER_NAME may contain # relative directories. get_filename_component(generated_header_dir "${generated_header}" DIRECTORY) file(MAKE_DIRECTORY "${generated_header_dir}") unset(depfile_cbindgen_arg) unset(depfile_cmake_arg) get_filename_component(generated_depfile_dir "${generated_depfile}" DIRECTORY) file(MAKE_DIRECTORY "${generated_depfile_dir}") set(depfile_cbindgen_arg "--depfile=${generated_depfile}") add_custom_command( OUTPUT "${generated_header}" COMMAND "${CMAKE_COMMAND}" -E env TARGET="${cbindgen_target_triple}" "${cbindgen}" --output "${generated_header}" --crate "${rust_cargo_package}" ${depfile_cbindgen_arg} ${CCN_FLAGS} COMMENT "Generate cbindgen bindings for package ${rust_cargo_package} and output header ${generated_header}" DEPFILE "${generated_depfile}" COMMAND_EXPAND_LISTS WORKING_DIRECTORY "${package_manifest_dir}" ) if(NOT installed_cbindgen) add_custom_command( OUTPUT "${generated_header}" APPEND DEPENDS _corrosion_cbindgen ) endif() if(NOT TARGET "_corrosion_cbindgen_${rust_target}_bindings") add_custom_target(_corrosion_cbindgen_${rust_target}_bindings COMMENT "Generate cbindgen bindings for package ${rust_cargo_package}" ) endif() # Users might want to call cbindgen multiple times, e.g. to generate separate C++ and C header files. string(MAKE_C_IDENTIFIER "${output_header_name}" header_identifier ) add_custom_target("_corrosion_cbindgen_${rust_target}_bindings_${header_identifier}" DEPENDS "${generated_header}" COMMENT "Generate ${generated_header} for ${rust_target}" ) add_dependencies("_corrosion_cbindgen_${rust_target}_bindings" "_corrosion_cbindgen_${rust_target}_bindings_${header_identifier}") add_dependencies(${rust_target} "_corrosion_cbindgen_${rust_target}_bindings") endfunction() # Parse the version of a Rust package from it's package manifest (Cargo.toml) function(corrosion_parse_package_version package_manifest_path out_package_version) if(NOT EXISTS "${package_manifest_path}") message(FATAL_ERROR "Package manifest `${package_manifest_path}` does not exist.") endif() file(READ "${package_manifest_path}" package_manifest) # Find the package table. It may contain arrays, so match until \n\[, which should mark the next # table. Note: backslashes must be doubled to escape the backslash for the bracket. LF is single # backslash however. On windows the line also ends in \n, so matching against \n\[ is sufficient # to detect an opening bracket on a new line. set(package_table_regex "\\[package\\](.*)\n\\[") string(REGEX MATCH "${package_table_regex}" _package_table "${package_manifest}") if(CMAKE_MATCH_COUNT EQUAL "1") set(package_table "${CMAKE_MATCH_1}") else() message(DEBUG "Failed to find `[package]` table in package manifest `${package_manifest_path}`.\n" "Matches: ${CMAKE_MATCH_COUNT}\n" ) set(${out_package_version} "NOTFOUND" PARENT_SCOPE ) endif() # Match `version = "0.3.2"`, `"version" = "0.3.2" Contains one matching group for the version set(version_regex "[\r]?\n[\"']?version[\"']?[ \t]*=[ \t]*[\"']([0-9\.]+)[\"']") string(REGEX MATCH "${version_regex}" _version "${package_table}") if("${package_table}" MATCHES "${version_regex}") set(${out_package_version} "${CMAKE_MATCH_1}" PARENT_SCOPE ) else() message(DEBUG "Failed to extract package version from manifest `${package_manifest_path}`.") set(${out_package_version} "NOTFOUND" PARENT_SCOPE ) endif() endfunction() function(_corrosion_initialize_properties target_name) # Initialize the `_OUTPUT_DIRECTORY` properties based on `CMAKE__OUTPUT_DIRECTORY`. foreach(output_var RUNTIME_OUTPUT_DIRECTORY ARCHIVE_OUTPUT_DIRECTORY LIBRARY_OUTPUT_DIRECTORY PDB_OUTPUT_DIRECTORY) if (DEFINED "CMAKE_${output_var}") set_property(TARGET ${target_name} PROPERTY "${output_var}" "${CMAKE_${output_var}}") endif() foreach(config_type ${CMAKE_CONFIGURATION_TYPES}) string(TOUPPER "${config_type}" config_type_upper) if (DEFINED "CMAKE_${output_var}_${config_type_upper}") set_property(TARGET ${target_name} PROPERTY "${output_var}_${config_type_upper}" "${CMAKE_${output_var}_${config_type_upper}}") endif() endforeach() endforeach() endfunction() # Helper macro to pass through an optional `OPTION` argument parsed via `cmake_parse_arguments` # to another function that takes the same OPTION. # If the option was set, then the variable will be set to the same option name again, # otherwise will be unset. macro(_corrosion_option_passthrough_helper option_name prefix var_name) if(${${prefix}_${option_name}}) set("${var_name}" "${option_name}") else() unset("${var_name}") endif() endmacro() # Helper macro to pass through an optional argument with value(s), parsed via `cmake_parse_arguments`, # to another function that takes the same keyword + associated values. # If the argument was given, then the variable will be a list of the argument name and the values, # which will be expanded, when calling the function (assuming no quotes). macro(_corrosion_arg_passthrough_helper arg_name prefix var_name) if(DEFINED "${prefix}_${arg_name}") set("${var_name}" "${arg_name}" "${${prefix}_${arg_name}}") else() unset("${var_name}") endif() endmacro() list(POP_BACK CMAKE_MESSAGE_CONTEXT)