NXP S32G274A ============ S32G2 is an NXP vehicle network processor combining ASIL D safety, hardware security, high-performance real-time and application processing and network acceleration. S32G2 supports the needs of new vehicle architectures: service-oriented gateways, domain controllers, zonal processors, safety processors and more. It is equipped with 4 Cortex-A53 cores operating at 1.0GHz. The TF-A includes support for one single S32G2-based board called S32G274ARDB2. The S32G-VNP-RDB2 is a compact, highly optimized and integrated board engineering for vehicle service-oriented gateway (SoG), domain control applications, high-performance processing, safety and security applications. More details about this board can be found at `s32g274ardb2`_. Boot Flow --------- :: BootROM -> BL2 (SRAM) -> BL31 (SRAM) -> BL33 (DDR - TODO) .. warning:: This boot flow is a preliminary version that will serve as a foundation for upcoming S32G2 contributions. The execution will hang after the BL31 stage due to U-Boot being deployed in SRAM instead of DDR. This issue will be resolved with the addition of the DDR driver. Code Locations -------------- - Downstream TF-A: `link: `__ - Downstream U-Boot: `link `__ - Downstream Linux: `link `__ How to build ------------ The port currently available on the S32G274ARDB2 platform is in its initial stage. This means that important drivers like DDR and storage are not yet available. Consequently, the boot process depends on BootROM to load all TF-A stages in SRAM. To create a bootable image, the script below should be used. This script makes use of the ``mkimage`` tool, which is part of the U-Boot drop for S32G274A SoCs. .. code:: bash #!/bin/bash -xe TF_A="${TF_A:-`pwd`}" UBOOT="${UBOOT:-${TF_A}/../u-boot}" DEBUG="${DEBUG:-1}" FIP_BASE="0x34100000" if [ "${DEBUG}" -eq "1" ]; then BUILD="debug" else BUILD="release" fi BOOT_IMAGE="build/s32g274ardb2/${BUILD}/BOOT_IMAGE.bin" BL2_BIN="build/s32g274ardb2/${BUILD}/bl2.bin" FIP_BIN="build/s32g274ardb2/${BUILD}/fip.bin" # Generate bl2, bl31 and fip image make -C "${TF_A}" -j9 'PLAT=s32g274ardb2' \ BL33="${UBOOT}/u-boot-nodtb.bin" DEBUG="${DEBUG}" clean make -C "${TF_A}" -j9 'PLAT=s32g274ardb2' \ BL33="${UBOOT}/u-boot-nodtb.bin" DEBUG="${DEBUG}" bl2 make -C "${TF_A}" -j9 'PLAT=s32g274ardb2' \ BL33="${UBOOT}/u-boot-nodtb.bin" DEBUG="${DEBUG}" fip # Extract BL2 entry BL2_START="0x$(poetry run memory -p s32g274ardb2 -b debug -f | \ grep BL2 | awk -F'|' '{print $3}' | xargs)" # BL2 bin file size in bytes BL2_SIZE="$(stat -c "%s" "${BL2_BIN}")" # Pack bl2.bin and fip.bin by ensuring that the FIP image will start at FIP_BASE cp -vf "${BL2_BIN}" "${BOOT_IMAGE}" dd if="${FIP_BIN}" of="${BOOT_IMAGE}" seek="$((FIP_BASE - BL2_START))" bs=1 # Build a bootable image by appending the IVT "${UBOOT}/tools/mkimage" \ -a "${BL2_START}" \ -e "${BL2_START}" \ -T s32ccimage \ -n "${UBOOT}/u-boot-s32.cfgout" \ -d "${BOOT_IMAGE}" \ fip.s32 SoC Errata Workarounds ---------------------- The S32G274A port of the TF-A includes compilation flags that can be used to control the workaround for the SoC. These flags are used similarly to how the :ref:`arm_cpu_macros_errata_workarounds` are used. The list of workarounds includes the following switches: - ``ERRATA_S32_051700``: This applies erratum ERR051700 workaround to SoCs part of the S32 Common Chassis family, and therefore it needs to be enabled for the S32G and S32R devices. .. _s32g2: https://www.nxp.com/products/processors-and-microcontrollers/s32-automotive-platform/s32g-vehicle-network-processors/s32g2-processors-for-vehicle-networking:S32G2 .. _s32g274ardb2: https://www.nxp.com/design/design-center/designs/s32g2-vehicle-networking-reference-design:S32G-VNP-RDB2