| # SPDX-License-Identifier: MIT |
| # |
| # Copyright (c) 2020 Arm Limited |
| # |
| |
| SUMMARY = "Trusted Firmware for Cortex-M" |
| DESCRIPTION = "Trusted Firmware-M" |
| HOMEPAGE = "https://git.trustedfirmware.org/trusted-firmware-m.git" |
| PROVIDES = "virtual/trusted-firmware-m" |
| |
| SRC_URI += "file://rwx.patch" |
| |
| UPSTREAM_CHECK_GITTAGREGEX = "^TF-Mv(?P<pver>\d+(\.\d+)+)$" |
| |
| # Note to future readers of this recipe: until the CMakeLists don't abuse |
| # installation (see do_install) there is no point in trying to inherit |
| # cmake here. You can easily short-circuit the toolchain but the install |
| # is so convoluted there's no gain. |
| |
| inherit python3native deploy |
| |
| # Baremetal and we bring a compiler below |
| INHIBIT_DEFAULT_DEPS = "1" |
| |
| PACKAGE_ARCH = "${MACHINE_ARCH}" |
| |
| # See tools/requirements.txt for Python dependencies |
| DEPENDS += "cmake-native \ |
| ninja-native \ |
| gcc-arm-none-eabi-native \ |
| python3-cbor2-native \ |
| python3-click-native \ |
| python3-cryptography-native \ |
| python3-pyasn1-native \ |
| python3-imgtool-native \ |
| python3-jinja2-native \ |
| python3-pyyaml-native \ |
| python3-pyhsslms-native \ |
| python3-ecdsa-native \ |
| python3-kconfiglib-native \ |
| " |
| |
| B = "${WORKDIR}/build" |
| |
| # Build for debug (set TFM_DEBUG to 1 to activate) |
| TFM_DEBUG ?= "0" |
| |
| # Platform must be set, ideally in the machine configuration. |
| TFM_PLATFORM ?= "" |
| python() { |
| if not d.getVar("TFM_PLATFORM"): |
| raise bb.parse.SkipRecipe("TFM_PLATFORM needs to be set") |
| } |
| |
| PACKAGECONFIG ??= "" |
| # Whether to integrate the test suite |
| PACKAGECONFIG[test-secure] = "-DTEST_S=ON,-DTEST_S=OFF" |
| PACKAGECONFIG[test-nonsecure] = "-DTEST_NS=ON,-DTEST_NS=OFF" |
| |
| # Currently we only support using the Arm binary GCC |
| EXTRA_OECMAKE += "-DTFM_TOOLCHAIN_FILE=${S}/toolchain_GNUARM.cmake" |
| |
| # Don't let FetchContent download more sources during do_configure |
| EXTRA_OECMAKE += "-DFETCHCONTENT_FULLY_DISCONNECTED=ON" |
| |
| # Add platform parameters |
| EXTRA_OECMAKE += "-DTFM_PLATFORM=${TFM_PLATFORM}" |
| |
| # Handle TFM_DEBUG parameter |
| EXTRA_OECMAKE += "${@bb.utils.contains('TFM_DEBUG', '1', '-DCMAKE_BUILD_TYPE=Debug', '-DCMAKE_BUILD_TYPE=Release', d)}" |
| |
| # Verbose builds |
| EXTRA_OECMAKE += "-DCMAKE_VERBOSE_MAKEFILE:BOOL=ON" |
| |
| EXTRA_OECMAKE += "-DMBEDCRYPTO_PATH=${S}/../mbedtls -DTFM_TEST_REPO_PATH=${S}/../tf-m-tests -DMCUBOOT_PATH=${S}/../mcuboot -DQCBOR_PATH=${S}/../qcbor" |
| |
| export CMAKE_BUILD_PARALLEL_LEVEL = "${@oe.utils.parallel_make(d, False)}" |
| |
| # Let the Makefile handle setting up the CFLAGS and LDFLAGS as it is a standalone application |
| CFLAGS[unexport] = "1" |
| LDFLAGS[unexport] = "1" |
| AS[unexport] = "1" |
| LD[unexport] = "1" |
| |
| # python3-cryptography needs the legacy provider, so set OPENSSL_MODULES to the |
| # right path until this is relocated automatically. |
| export OPENSSL_MODULES="${STAGING_LIBDIR_NATIVE}/ossl-modules" |
| |
| do_configure[cleandirs] = "${B}" |
| do_configure() { |
| cmake -GNinja -S ${S} -B ${B} ${EXTRA_OECMAKE} ${PACKAGECONFIG_CONFARGS} |
| } |
| |
| # Invoke install here as there's no point in splitting compile from install: the |
| # first thing the build does is 'install' inside the build tree thus causing a |
| # rebuild. It also overrides the install prefix to be in the build tree, so you |
| # can't use the usual install prefix variables. |
| do_compile() { |
| cmake --build ${B} -- install |
| } |
| do_compile[progress] = "outof:^\[(\d+)/(\d+)\]\s+" |
| |
| do_install() { |
| # TODO install headers and static libraries when we know how they're used |
| install -d -m 755 ${D}/firmware |
| install -m 0644 ${B}/bin/* ${D}/firmware/ |
| } |
| |
| FILES:${PN} = "/firmware" |
| SYSROOT_DIRS += "/firmware" |
| |
| addtask deploy after do_install |
| do_deploy() { |
| cp -rf ${D}/firmware/* ${DEPLOYDIR}/ |
| } |
| |
| # Build paths are currently embedded |
| INSANE_SKIP:${PN} += "buildpaths" |