#!/usr/bin/env bash # # Copyright (c) 2019-2023, Arm Limited. All rights reserved. # # SPDX-License-Identifier: BSD-3-Clause # # # This script builds the TF in different configs. # Rather than telling cov-build to build TF using a simple 'make all' command, # the goal here is to combine several build flags to analyse more of our source # code in a single 'build'. The Coverity Scan service does not have the notion # of separate types of build - there is just one linear sequence of builds in # the project history. # # Bail out as soon as an error is encountered. set -e TF_SOURCES=$1 if [ ! -d "$TF_SOURCES" ]; then echo "ERROR: '$TF_SOURCES' does not exist or is not a directory" echo "Usage: $(basename "$0") " exit 1 fi containing_dir="$(readlink -f "$(dirname "$0")/")" . $containing_dir/common-def.sh # Get mbed TLS library code to build Trusted Firmware with Trusted Board Boot # support. The version of mbed TLS to use here must be the same as when # building TF in the usual context. if [ ! -d "$MBED_TLS_DIR" ]; then git clone -q --depth 1 -b "$MBED_TLS_SOURCES_TAG" "$MBED_TLS_URL_REPO" "$MBED_TLS_DIR" fi cd "$TF_SOURCES" # Clean TF source dir to make sure we don't analyse temporary files. make distclean # # Build TF in different configurations to get as much coverage as possible # # # FVP platform # We'll use the following flags for all FVP builds. # fvp_common_flags="$(common_flags) PLAT=fvp" # Try all possible SPDs. clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} ARM_TSP_RAM_LOCATION=dram SPD=tspd clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} ARM_TSP_RAM_LOCATION=dram SPD=tspd TSP_INIT_ASYNC=1 \ TSP_NS_INTR_ASYNC_PREEMPT=1 clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} SPD=opteed clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} SPD=tlkd clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} SPD=pncd SPD_PNCD_NS_IRQ=126 SPD_PNCD_S_IRQ=15 # Dualroot chain of trust. clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} SPD=tspd COT=dualroot # FEAT_RME with CCA chain of trust. # # Note that we override PLAT_RSS_NOT_SUPPORTED build flag (which defaults to 1 # on the Base AEM FVP) just to analyse the RSS communication driver code through # Coverity. In reality, RSS is not supported on FVP right now (or on any other # upstream platform, for that matter) so the resulting firmware would not be # functional. clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} USE_ROMLIB=1 \ ENABLE_RME=1 MEASURED_BOOT=1 PLAT_RSS_NOT_SUPPORTED=0 clean_build $fvp_common_flags SPD=trusty clean_build $fvp_common_flags SPD=trusty TRUSTY_SPD_WITH_GENERIC_SERVICES=1 # SDEI clean_build $fvp_common_flags SDEI_SUPPORT=1 EL3_EXCEPTION_HANDLING=1 # SDEI with fconf clean_build $fvp_common_flags SDEI_IN_FCONF=1 SDEI_SUPPORT=1 EL3_EXCEPTION_HANDLING=1 # PCI Service clean_build $fvp_common_flags SMC_PCI_SUPPORT=1 # Secure interrupt descriptors with fconf clean_build $fvp_common_flags SEC_INT_DESC_IN_FCONF=1 # Without coherent memory clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} ARM_TSP_RAM_LOCATION=dram SPD=tspd USE_COHERENT_MEM=0 # Using PSCI extended State ID format rather than the original format clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} ARM_TSP_RAM_LOCATION=dram SPD=tspd PSCI_EXTENDED_STATE_ID=1 \ ARM_RECOM_STATE_ID_ENC=1 # Alternative boot flows (This changes some of the platform initialisation code) clean_build $fvp_common_flags EL3_PAYLOAD=0x80000000 clean_build $fvp_common_flags PRELOADED_BL33_BASE=0x80000000 # Using the SP804 timer instead of the Generic Timer clean_build $fvp_common_flags FVP_USE_SP804_TIMER=1 # Using the CCN driver and multi cluster topology clean_build $fvp_common_flags FVP_CLUSTER_COUNT=4 # PMF clean_build $fvp_common_flags ENABLE_PMF=1 # stack protector clean_build $fvp_common_flags ENABLE_STACK_PROTECTOR=strong # AArch32 build clean_build $fvp_common_flags CROSS_COMPILE=arm-none-eabi- \ ARCH=aarch32 AARCH32_SP=sp_min \ RESET_TO_SP_MIN=1 PRELOADED_BL33_BASE=0x80000000 clean_build $fvp_common_flags CROSS_COMPILE=arm-none-eabi- \ ARCH=aarch32 AARCH32_SP=sp_min # Xlat tables lib version 1 (AArch64 and AArch32) clean_build $fvp_common_flags ARM_XLAT_TABLES_LIB_V1=1 RECLAIM_INIT_CODE=0 clean_build $fvp_common_flags CROSS_COMPILE=arm-none-eabi- \ ARCH=aarch32 AARCH32_SP=sp_min ARM_XLAT_TABLES_LIB_V1=1 RECLAIM_INIT_CODE=0 # SPM support based on Management Mode Interface Specification clean_build $fvp_common_flags SPM_MM=1 EL3_EXCEPTION_HANDLING=1 ENABLE_SVE_FOR_NS=0 # SPM support with TOS(optee) as SPM sitting at S-EL1 clean_build $fvp_common_flags SPD=spmd SPMD_SPM_AT_SEL2=0 # SPM support with SPM at EL3 and TSP at S-EL1 clean_build $fvp_common_flags CTX_INCLUDE_PAUTH_REGS=1 CTX_INCLUDE_EL2_REGS=0 EL3_EXCEPTION_HANDLING=0 \ SPD=spmd SPMD_SPM_AT_SEL2=0 SPMC_AT_EL3=1 \ ARM_SPMC_MANIFEST_DTS=plat/arm/board/fvp/fdts/fvp_tsp_sp_manifest.dts # SPM support with Secure hafnium as SPM sitting at S-EL2 # SP_LAYOUT_FILE is used only during FIP creation but build won't progress # if we have NULL value to it, so passing a dummy string. clean_build $fvp_common_flags SPD=spmd SPMD_SPM_AT_SEL2=1 ARM_ARCH_MINOR=4 \ CTX_INCLUDE_EL2_REGS=1 SP_LAYOUT_FILE=dummy # SPM support with SPM sitting at EL3 clean_build $fvp_common_flags SPD=spmd SPMD_SPM_AT_SEL2=0 SPMC_AT_EL3=1 #BL2 at EL3 support clean_build $fvp_common_flags RESET_TO_BL2=1 clean_build $fvp_common_flags CROSS_COMPILE=arm-none-eabi- \ ARCH=aarch32 AARCH32_SP=sp_min RESET_TO_BL2=1 # RAS Extension Support clean_build $fvp_common_flags EL3_EXCEPTION_HANDLING=1 \ FAULT_INJECTION_SUPPORT=1 HANDLE_EA_EL3_FIRST_NS=1 RAS_EXTENSION=1 \ SDEI_SUPPORT=1 # Hardware Assisted Coherency(DynamIQ) clean_build $fvp_common_flags FVP_CLUSTER_COUNT=1 FVP_MAX_CPUS_PER_CLUSTER=8 \ HW_ASSISTED_COHERENCY=1 USE_COHERENT_MEM=0 # Pointer Authentication Support clean_build $fvp_common_flags CTX_INCLUDE_PAUTH_REGS=1 \ ARM_ARCH_MINOR=5 EL3_EXCEPTION_HANDLING=1 BRANCH_PROTECTION=1 SDEI_SUPPORT=1 SPD=tspd TSP_NS_INTR_ASYNC_PREEMPT=1 # Undefined Behaviour Sanitizer # Building with UBSAN SANITIZE_UB=on increases the executable size. # Hence it is only properly supported in bl31 with RESET_TO_BL31 enabled make $fvp_common_flags clean make $fvp_common_flags SANITIZE_UB=on RESET_TO_BL31=1 bl31 # debugfs feature clean_build $fvp_common_flags DEBUG=1 USE_DEBUGFS=1 # MPAM feature clean_build $fvp_common_flags ENABLE_MPAM_FOR_LOWER_ELS=1 # Using GICv3.1 driver with extended PPI and SPI range clean_build $fvp_common_flags GIC_EXT_INTID=1 # Using GICv4 features with extended PPI and SPI range clean_build $fvp_common_flags GIC_ENABLE_V4_EXTN=1 GIC_EXT_INTID=1 # Measured Boot clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} MBOOT_EL_HASH_ALG=sha256 MEASURED_BOOT=1 USE_ROMLIB=1 # DRTM clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} TPM_HASH_ALG=sha256 DRTM_SUPPORT=1 USE_ROMLIB=1 # CoT descriptors in device tree clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} COT_DESC_IN_DTB=1 USE_ROMLIB=1 # PSA FWU support clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} ARM_GPT_SUPPORT=1 PSA_FWU_SUPPORT=1 USE_ROMLIB=1 # SME and HCX features clean_build $fvp_common_flags ENABLE_SME_FOR_NS=1 ENABLE_FEAT_HCX=1 # Architectural Feature Detection mechanism clean_build $fvp_common_flags FEATURE_DETECTION=1 # RNG trap feature clean_build $fvp_common_flags ENABLE_FEAT_RNG=1 ENABLE_FEAT_RNG_TRAP=1 # OPTEE_ALLOW_SMC_LOAD feature clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} SPD=opteed OPTEE_ALLOW_SMC_LOAD=1 PLAT_XLAT_TABLES_DYNAMIC=1 # # Juno platform # We'll use the following flags for all Juno builds. # juno_common_flags="$(common_flags) PLAT=juno" clean_build $juno_common_flags SPD=tspd ${ARM_TBB_OPTIONS} clean_build $juno_common_flags EL3_PAYLOAD=0x80000000 clean_build $juno_common_flags ENABLE_STACK_PROTECTOR=strong ARM_ETHOSN_NPU_DRIVER=1 clean_build $juno_common_flags ${ARM_TBB_OPTIONS} ENABLE_STACK_PROTECTOR=strong ARM_ETHOSN_NPU_DRIVER=1 ARM_ETHOSN_NPU_TZMP1=1 clean_build $juno_common_flags CSS_USE_SCMI_SDS_DRIVER=0 clean_build $juno_common_flags SPD=tspd ${ARM_TBB_OPTIONS} ARM_CRYPTOCELL_INTEG=1 CCSBROM_LIB_PATH=${CRYPTOCELL_LIB_PATH} KEY_SIZE=2048 # TRNG Service clean_build $juno_common_flags TRNG_SUPPORT=1 # # System Guidance for Infrastructure platform RD-E1Edge # make $(common_flags) PLAT=rde1edge ${ARM_TBB_OPTIONS} CSS_SGI_CHIP_COUNT=1 all # # Reference Design platform RD-V1 # make $(common_flags) PLAT=rdv1 ${ARM_TBB_OPTIONS} all # # Reference Design platform RD-V1-MC # make $(common_flags) PLAT=rdv1mc ${ARM_TBB_OPTIONS} CSS_SGI_CHIP_COUNT=4 all # # Reference Design Platform RD-N2 # make $(common_flags) PLAT=rdn2 ${ARM_TBB_OPTIONS} all # # Neoverse N1 SDP platform # make $(common_flags) PLAT=n1sdp ${ARM_TBB_OPTIONS} all # # FVP VE platform # make $(common_flags) PLAT=fvp_ve AARCH32_SP=sp_min ARCH=aarch32 \ CROSS_COMPILE=arm-none-eabi- ARM_ARCH_MAJOR=7 \ ARM_CORTEX_A5=yes ARM_XLAT_TABLES_LIB_V1=1 \ FVP_HW_CONFIG_DTS=fdts/fvp-ve-Cortex-A5x1.dts all # # A5 DesignStart Platform # make $(common_flags) PLAT=a5ds AARCH32_SP=sp_min ARCH=aarch32 \ ARM_ARCH_MAJOR=7 ARM_CORTEX_A5=yes ARM_XLAT_TABLES_LIB_V1=1 \ CROSS_COMPILE=arm-none-eabi- FVP_HW_CONFIG_DTS=fdts/a5ds.dts # # Corstone700 Platform # corstone700_common_flags="CROSS_COMPILE=arm-none-eabi- \ $(common_flags) \ PLAT=corstone700 \ ARCH=aarch32 \ RESET_TO_SP_MIN=1 \ AARCH32_SP=sp_min \ ARM_LINUX_KERNEL_AS_BL33=0 \ ARM_PRELOADED_DTB_BASE=0x80400000 \ ENABLE_PIE=1 \ ENABLE_STACK_PROTECTOR=all \ all" echo "Info: Building Corstone700 FVP ..." make TARGET_PLATFORM=fvp ${corstone700_common_flags} echo "Info: Building Corstone700 FPGA ..." make TARGET_PLATFORM=fpga ${corstone700_common_flags} # # Arm internal FPGA port # make PLAT=arm_fpga $(common_flags release) \ FPGA_PRELOADED_DTB_BASE=0x88000000 PRELOADED_BL33_BASE=0x82080000 all # # Total Compute platforms # make $(common_flags) PLAT=tc TARGET_PLATFORM=0 ${ARM_TBB_OPTIONS} all make $(common_flags) PLAT=tc TARGET_PLATFORM=1 ${ARM_TBB_OPTIONS} all make $(common_flags) PLAT=tc TARGET_PLATFORM=2 ${ARM_TBB_OPTIONS} MEASURED_BOOT=1 all # # Morello platform # clean_build $(common_flags) PLAT=morello TARGET_PLATFORM=fvp ${ARM_TBB_OPTIONS} clean_build $(common_flags) PLAT=morello TARGET_PLATFORM=soc ${ARM_TBB_OPTIONS} # # corstone1000 Platform # make $(common_flags) \ PLAT=corstone1000 \ SPD=spmd \ TARGET_PLATFORM=fpga \ ENABLE_STACK_PROTECTOR=strong \ ENABLE_PIE=1 \ RESET_TO_BL2=1 \ SPMD_SPM_AT_SEL2=0 \ ${ARM_TBB_OPTIONS} \ CREATE_KEYS=1 \ COT=tbbr \ ROT_KEY=plat/arm/board/common/rotpk/arm_rotprivk_rsa.pem \ bl2 \ bl31 # # FVP-R platform # clean_build $(common_flags) PLAT=fvp_r ${ARM_TBB_OPTIONS} ENABLE_STACK_PROTECTOR=all # Partners' platforms. # Enable as many features as possible. # We don't need to clean between each build here because we only do one build # per platform so we don't hit the build flags dependency problem. # Platforms from Mediatek make PLAT=mt8173 $(common_flags) all make PLAT=mt8183 $(common_flags) all make PLAT=mt8186 $(common_flags) COREBOOT=1 all make PLAT=mt8188 $(common_flags) COREBOOT=1 all make PLAT=mt8192 $(common_flags) COREBOOT=1 all make PLAT=mt8195 $(common_flags) COREBOOT=1 all # Platforms from Qualcomm make PLAT=sc7180 $(common_flags) COREBOOT=1 all make PLAT=rk3288 CROSS_COMPILE=arm-none-eabi- \ $(common_flags) ARCH=aarch32 AARCH32_SP=sp_min all make PLAT=rk3368 $(common_flags) COREBOOT=1 \ ENABLE_STACK_PROTECTOR=strong all make PLAT=rk3399 $(common_flags) COREBOOT=1 PLAT_RK_DP_HDCP=1 \ ENABLE_STACK_PROTECTOR=strong all make PLAT=rk3328 $(common_flags) COREBOOT=1 PLAT_RK_SECURE_DDR_MINILOADER=1 \ ENABLE_STACK_PROTECTOR=strong all make PLAT=px30 $(common_flags) PLAT_RK_SECURE_DDR_MINILOADER=1 \ ENABLE_STACK_PROTECTOR=strong all # Although we do several consecutive builds for the Tegra platform below, we # don't need to clean between each one because the Tegra makefiles specify # a different build directory per SoC. make PLAT=tegra TARGET_SOC=t210 $(common_flags) all make PLAT=tegra TARGET_SOC=t186 $(common_flags) all make PLAT=tegra TARGET_SOC=t194 $(common_flags) all # For the Xilinx platform, artificially increase the extents of BL31 memory # (using the platform-specific build options ZYNQMP_ATF_MEM_{BASE,SIZE}). # If we keep the default values, BL31 doesn't fit when it is built with all # these build flags. make PLAT=zynqmp $(common_flags) \ RESET_TO_BL31=1 SPD=tspd \ SDEI_SUPPORT=1 \ ZYNQMP_ATF_MEM_BASE=0xFFFC0000 ZYNQMP_ATF_MEM_SIZE=0x00040000 \ all # Build both for silicon (default) and virtual QEMU platform. clean_build PLAT=versal $(common_flags) clean_build PLAT=versal $(common_flags) VERSAL_PLATFORM=versal_virt # Build Xilinx Versal NET platform clean_build PLAT=versal_net $(common_flags) # Build Xilinx Versal NET without Platform Management support clean_build PLAT=versal_net $(common_flags) TFA_NO_PM=1 # Platforms from Allwinner clean_build PLAT=sun50i_a64 $(common_flags release) all clean_build PLAT=sun50i_a64 $(common_flags release) SUNXI_PSCI_USE_NATIVE=0 all clean_build PLAT=sun50i_a64 $(common_flags release) SUNXI_PSCI_USE_SCPI=0 all clean_build PLAT=sun50i_a64 $(common_flags release) SUNXI_AMEND_DTB=1 all clean_build PLAT=sun50i_h6 $(common_flags) all clean_build PLAT=sun50i_h6 $(common_flags) SUNXI_PSCI_USE_NATIVE=0 all clean_build PLAT=sun50i_h6 $(common_flags) SUNXI_PSCI_USE_SCPI=0 all clean_build PLAT=sun50i_h616 $(common_flags) all clean_build PLAT=sun50i_r329 $(common_flags) all # Platforms from i.MX make AARCH32_SP=optee ARCH=aarch32 ARM_ARCH_MAJOR=7 ARM_CORTEX_A7=yes \ CROSS_COMPILE=arm-none-eabi- PLAT=warp7 ${TBB_OPTIONS} \ $(common_flags) all make AARCH32_SP=optee ARCH=aarch32 CROSS_COMPILE=arm-none-eabi- PLAT=picopi \ $(common_flags) all make PLAT=imx8mm $(common_flags) NEED_BL2=yes MEASURED_BOOT=1 \ MBOOT_EL_HASH_ALG=sha256 ${TBB_OPTIONS} all make PLAT=imx8mn $(common_flags) SDEI_SUPPORT=1 all make PLAT=imx8mp $(common_flags) NEED_BL2=yes ${TBB_OPTIONS} all # Due to the limited OCRAM space that can be used for TF-A, build test # will report failure caused by too small RAM size, so comment out the # build test for imx8mq in CI. It can also resolve the following ticket: # https://developer.trustedfirmware.org/T626 #make PLAT=imx8mq $(common_flags release) all make PLAT=imx8qm $(common_flags) all make PLAT=imx8qx $(common_flags) all # Platforms for NXP Layerscape nxp_sb_flags="TRUSTED_BOARD_BOOT=1 CST_DIR=$(pwd) SPD=opteed" nxp_sb_fuse_flags="${nxp_sb_flags} FUSE_PROG=1" # Platform lx2 make PLAT=lx2160aqds $(common_flags) all make PLAT=lx2160ardb $(common_flags) all #CSF Based CoT: clean_build PLAT=lx2162aqds $(common_flags) BOOT_MODE=flexspi_nor \ $nxp_sb_fuse_flags DDR_PHY_BIN_PATH=$(pwd) #X509 Based CoT clean_build PLAT=lx2162aqds $(common_flags) BOOT_MODE=flexspi_nor \ $nxp_sb_flags GENERATE_COT=1 \ MBEDTLS_DIR=$(pwd)/mbedtls #BOOT_MODE=emmc and Stack protector clean_build PLAT=lx2162aqds $(common_flags) BOOT_MODE=emmc \ $nxp_sb_fuse_flags ENABLE_STACK_PROTECTOR=strong # Platform ls1028ardb clean_build PLAT=ls1028ardb $(common_flags) all BOOT_MODE=flexspi_nor clean_build PLAT=ls1028ardb $(common_flags) all BOOT_MODE=emmc clean_build PLAT=ls1028ardb $(common_flags) all BOOT_MODE=sd # ls1028a Secure Boot clean_build PLAT=ls1028ardb $(common_flags) all BOOT_MODE=flexspi_nor $nxp_sb_fuse_flags clean_build PLAT=ls1028ardb $(common_flags) all BOOT_MODE=emmc $nxp_sb_fuse_flags clean_build PLAT=ls1028ardb $(common_flags) all BOOT_MODE=sd $nxp_sb_fuse_flags # Platform ls1043ardb clean_build PLAT=ls1043ardb $(common_flags) all BOOT_MODE=nor clean_build PLAT=ls1043ardb $(common_flags) all BOOT_MODE=nand clean_build PLAT=ls1043ardb $(common_flags) all BOOT_MODE=sd # ls1043ardb Secure Boot clean_build PLAT=ls1043ardb $(common_flags) all BOOT_MODE=nor $nxp_sb_fuse_flags clean_build PLAT=ls1043ardb $(common_flags) all BOOT_MODE=nand $nxp_sb_fuse_flags clean_build PLAT=ls1043ardb $(common_flags) all BOOT_MODE=sd $nxp_sb_fuse_flags # ls1046ardb Secure Boot clean_build PLAT=ls1046ardb $(common_flags) all BOOT_MODE=qspi $nxp_sb_fuse_flags clean_build PLAT=ls1046ardb $(common_flags) all BOOT_MODE=sd $nxp_sb_fuse_flags clean_build PLAT=ls1046ardb $(common_flags) all BOOT_MODE=emmc $nxp_sb_fuse_flags # ls1046afrwy Secure Boot clean_build PLAT=ls1046afrwy $(common_flags) all BOOT_MODE=qspi $nxp_sb_fuse_flags clean_build PLAT=ls1046afrwy $(common_flags) all BOOT_MODE=sd $nxp_sb_fuse_flags # ls1046aqds Secure Boot clean_build PLAT=ls1046aqds $(common_flags) all BOOT_MODE=qspi $nxp_sb_fuse_flags clean_build PLAT=ls1046aqds $(common_flags) all BOOT_MODE=sd $nxp_sb_fuse_flags clean_build PLAT=ls1046aqds $(common_flags) all BOOT_MODE=nor $nxp_sb_fuse_flags clean_build PLAT=ls1046aqds $(common_flags) all BOOT_MODE=nand $nxp_sb_fuse_flags # ls1088ardb Secure Boot clean_build PLAT=ls1088ardb $(common_flags) all BOOT_MODE=qspi $nxp_sb_fuse_flags clean_build PLAT=ls1088ardb $(common_flags) all BOOT_MODE=sd $nxp_sb_fuse_flags # ls1088aqds Secure Boot clean_build PLAT=ls1088aqds $(common_flags) all BOOT_MODE=qspi $nxp_sb_fuse_flags clean_build PLAT=ls1088aqds $(common_flags) all BOOT_MODE=sd $nxp_sb_fuse_flags clean_build PLAT=ls1088aqds $(common_flags) all BOOT_MODE=nor $nxp_sb_fuse_flags # Platforms from Intel make PLAT=stratix10 $(common_flags) all make PLAT=agilex $(common_flags) all make PLAT=n5x $(common_flags) all # Platforms from Broadcom clean_build PLAT=stingray $(common_flags) BOARD_CFG=bcm958742t \ INCLUDE_EMMC_DRIVER_ERASE_CODE=1 DRIVER_I2C_ENABLE=1 clean_build PLAT=stingray $(common_flags) BOARD_CFG=bcm958742t-ns3 \ INCLUDE_EMMC_DRIVER_ERASE_CODE=1 USE_USB=yes # Platforms from Marvell make PLAT=a3700 $(common_flags) SCP_BL2=/dev/null CM3_SYSTEM_RESET=1 \ A3720_DB_PM_WAKEUP_SRC=1 HANDLE_EA_EL3_FIRST_NS=1 all # Source files from mv-ddr-marvell repository are necessary # to build below four platforms wget https://downloads.trustedfirmware.org/tf-a/mv-ddr-marvell/mv-ddr-marvell-5d41a995637de1dbc93f193db6ef0c8954cab316.tar.gz 2> /dev/null tar -xzf mv-ddr-marvell-5d41a995637de1dbc93f193db6ef0c8954cab316.tar.gz 2> /dev/null mv mv-ddr-marvell drivers/marvell/mv_ddr # These platforms from Marvell have dependency on GCC-6.2.1 toolchain make PLAT=a80x0 DEBUG=1 SCP_BL2=/dev/null BL33=/dev/null MV_DDR_PATH=$PWD/drivers/marvell/mv_ddr \ CROSS_COMPILE="$(set_cross_compile_gcc_linaro_toolchain)" all mrvl_flash make PLAT=a80x0_mcbin DEBUG=1 SCP_BL2=/dev/null BL33=/dev/null MV_DDR_PATH=$PWD/drivers/marvell/mv_ddr \ CROSS_COMPILE="$(set_cross_compile_gcc_linaro_toolchain)" all mrvl_flash make PLAT=a70x0 DEBUG=1 SCP_BL2=/dev/null BL33=/dev/null MV_DDR_PATH=$PWD/drivers/marvell/mv_ddr \ CROSS_COMPILE="$(set_cross_compile_gcc_linaro_toolchain)" all mrvl_flash make PLAT=a70x0_amc DEBUG=1 SCP_BL2=/dev/null BL33=/dev/null MV_DDR_PATH=$PWD/drivers/marvell/mv_ddr \ CROSS_COMPILE="$(set_cross_compile_gcc_linaro_toolchain)" all mrvl_flash make PLAT=a70x0_mochabin DEBUG=1 SCP_BL2=/dev/null BL33=/dev/null MV_DDR_PATH=$PWD/drivers/marvell/mv_ddr \ CROSS_COMPILE="$(set_cross_compile_gcc_linaro_toolchain)" all mrvl_flash make PLAT=a80x0_puzzle DEBUG=1 SCP_BL2=/dev/null BL33=/dev/null MV_DDR_PATH=$PWD/drivers/marvell/mv_ddr \ CROSS_COMPILE="$(set_cross_compile_gcc_linaro_toolchain)" all mrvl_flash make PLAT=t9130 DEBUG=1 SCP_BL2=/dev/null BL33=/dev/null MV_DDR_PATH=$PWD/drivers/marvell/mv_ddr \ CROSS_COMPILE="$(set_cross_compile_gcc_linaro_toolchain)" all mrvl_flash make PLAT=t9130_cex7_eval DEBUG=1 SCP_BL2=/dev/null BL33=/dev/null MV_DDR_PATH=$PWD/drivers/marvell/mv_ddr \ CROSS_COMPILE="$(set_cross_compile_gcc_linaro_toolchain)" all mrvl_flash # Removing the source files rm -rf drivers/marvell/mv_ddr 2> /dev/null # Platforms from Meson make PLAT=gxbb $(common_flags) all make PLAT=gxl $(common_flags) all make PLAT=g12a $(common_flags) all # Platforms from Renesas # Renesas R-Car D3 Automotive SoC clean_build PLAT=rcar $(common_flags) BL32=Makefile \ BL33=Makefile LIFEC_DBSC_PROTECT_ENABLE=0 LSI=D3 \ MBEDTLS_DIR=$(pwd)/mbedtls PMIC_ROHM_BD9571=0 \ RCAR_AVS_SETTING_ENABLE=0 SPD=none RCAR_LOSSY_ENABLE=0 \ RCAR_SA0_SIZE=0 RCAR_SYSTEM_SUSPEND=0 TRUSTED_BOARD_BOOT=1 # Renesas R-Car H3 Automotive SoC clean_build PLAT=rcar $(common_flags) BL32=Makefile \ BL33=Makefile MBEDTLS_DIR=$(pwd)/mbedtls LSI=H3 \ MACHINE=ulcb PMIC_LEVEL_MODE=0 RCAR_DRAM_LPDDR4_MEMCONF=0 \ RCAR_DRAM_SPLIT=1 RCAR_GEN3_ULCB=1 SPD=opteed \ TRUSTED_BOARD_BOOT=1 # Renesas R-Car H3N Automotive SoC clean_build PLAT=rcar $(common_flags) BL32=Makefile \ BL33=Makefile MBEDTLS_DIR=$(pwd)/mbedtls LSI=H3N \ SPD=opteed TRUSTED_BOARD_BOOT=1 # Renesas R-Car M3 Automotive SoC clean_build PLAT=rcar $(common_flags) BL32=Makefile \ BL33=Makefile MBEDTLS_DIR=$(pwd)/mbedtls LSI=M3 \ MACHINE=ulcb PMIC_LEVEL_MODE=0 RCAR_DRAM_LPDDR4_MEMCONF=0 \ RCAR_DRAM_SPLIT=2 RCAR_GEN3_ULCB=1 SPD=opteed \ TRUSTED_BOARD_BOOT=1 # Renesas R-Car M3N Automotive SoC clean_build PLAT=rcar $(common_flags) BL32=Makefile \ BL33=Makefile MBEDTLS_DIR=$(pwd)/mbedtls LSI=M3N \ MACHINE=ulcb PMIC_LEVEL_MODE=0 RCAR_DRAM_LPDDR4_MEMCONF=0 \ RCAR_GEN3_ULCB=1 SPD=opteed TRUSTED_BOARD_BOOT=1 # Renesas R-Car E3 Automotive SoC clean_build PLAT=rcar $(common_flags) BL32=Makefile \ BL33=Makefile MBEDTLS_DIR=$(pwd)/mbedtls LSI=E3 \ RCAR_AVS_SETTING_ENABLE=0 RCAR_DRAM_DDR3L_MEMCONF=0 \ RCAR_SA0_SIZE=0 SPD=opteed TRUSTED_BOARD_BOOT=1 # Renesas R-Car V3M Automotive SoC clean_build PLAT=rcar $(common_flags) BL32=Makefile \ MBEDTLS_DIR=$(pwd)/mbedtls BL33=Makefile LSI=V3M MACHINE=eagle \ PMIC_ROHM_BD9571=0 RCAR_DRAM_SPLIT=0 RCAR_SYSTEM_SUSPEND=0 \ AVS_SETTING_ENABLE=0 SPD=none TRUSTED_BOARD_BOOT=1 # Renesas HiHope RZ/G2M development kit clean_build PLAT=rzg $(common_flags) \ MBEDTLS_DIR=$(pwd)/mbedtls LSI=G2M \ RCAR_DRAM_SPLIT=2 RCAR_LOSSY_ENABLE=1 SPD=none # Platforms from ST stm32mp1_common_flags="$(common_flags) \ ARCH=aarch32 \ ARM_ARCH_MAJOR=7 \ CROSS_COMPILE=arm-none-eabi- \ ENABLE_STACK_PROTECTOR=strong \ PLAT=stm32mp1" # STM32MP1 SDMMC boot make ${stm32mp1_common_flags} STM32MP_SDMMC=1 \ BUILD_PLAT=build/stm32mp1-sdmmc/debug \ AARCH32_SP=sp_min bl2 bl32 # STM32MP1 eMMC boot make ${stm32mp1_common_flags} STM32MP_EMMC=1 \ BUILD_PLAT=build/stm32mp1-emmc/debug \ AARCH32_SP=sp_min bl2 bl32 # STM32MP1 Raw NAND boot make ${stm32mp1_common_flags} STM32MP_RAW_NAND=1 \ BUILD_PLAT=build/stm32mp1-nand/debug \ AARCH32_SP=sp_min bl2 bl32 # STM32MP1 SPI NAND boot make ${stm32mp1_common_flags} STM32MP_SPI_NAND=1 \ BUILD_PLAT=build/stm32mp1-snand/debug \ AARCH32_SP=sp_min bl2 bl32 # STM32MP1 SPI NOR boot make ${stm32mp1_common_flags} STM32MP_SPI_NOR=1 \ BUILD_PLAT=build/stm32mp1-snor/debug \ AARCH32_SP=sp_min bl2 bl32 # STM32MP1 UART boot make ${stm32mp1_common_flags} STM32MP_UART_PROGRAMMER=1 \ BUILD_PLAT=build/stm32mp1-uart/debug \ AARCH32_SP=sp_min bl2 bl32 # STM32MP1 USB boot make ${stm32mp1_common_flags} STM32MP_USB_PROGRAMMER=1 \ BUILD_PLAT=build/stm32mp1-usb/debug \ AARCH32_SP=sp_min bl2 bl32 # STM32MP1 TBBR make ${stm32mp1_common_flags} STM32MP_SDMMC=1 \ BUILD_PLAT=build/stm32mp1-sdmmc-tbbr/debug \ MBEDTLS_DIR=$(pwd)/mbedtls TRUSTED_BOARD_BOOT=1 \ AARCH32_SP=sp_min bl2 bl32 stm32mp13_common_flags="${stm32mp1_common_flags} \ AARCH32_SP=optee \ STM32MP13=1" # STM32MP13 SDMMC boot make ${stm32mp13_common_flags} STM32MP_SDMMC=1 \ BUILD_PLAT=build/stm32mp1-mp13-sdmmc/debug bl2 # STM32MP13 TBBR make ${stm32mp13_common_flags} STM32MP_SDMMC=1 \ MBEDTLS_DIR=$(pwd)/mbedtls TRUSTED_BOARD_BOOT=1 \ BUILD_PLAT=build/stm32mp1-mp13-sdmmc-tbbr/debug bl2 # STM32MP13 TBBR DECRYPTION AES GCM make ${stm32mp13_common_flags} STM32MP_SDMMC=1 \ MBEDTLS_DIR=$(pwd)/mbedtls TRUSTED_BOARD_BOOT=1 \ DECRYPTION_SUPPORT=aes_gcm ENCRYPT_BL32=1 \ BUILD_PLAT=build/stm32mp1-mp13-sdmmc-tbbr-dec/debug bl2 # Platforms from TI make PLAT=k3 $(common_flags) all make PLAT=k3 TARGET_BOARD=j784s4 $(common_flags) all clean_build PLAT=qemu $(common_flags) ${TBB_OPTIONS} # Use GICV3 driver clean_build PLAT=qemu $(common_flags) QEMU_USE_GIC_DRIVER=QEMU_GICV3 \ ENABLE_STACK_PROTECTOR=strong # Use encrypted FIP feature. clean_build PLAT=qemu $(common_flags) ${TBB_OPTIONS} \ BL32_RAM_LOCATION=tdram DECRYPTION_SUPPORT=aes_gcm ENCRYPT_BL31=1 \ ENCRYPT_BL32=1 FW_ENC_STATUS=0 SPD=opteed # QEMU with SPMD support clean_build PLAT=qemu $(common_flags) BL32=Makefile \ BL32_RAM_LOCATION=tdram ARM_BL31_IN_DRAM=1 \ SPD=spmd CTX_INCLUDE_EL2_REGS=0 SPMD_SPM_AT_SEL2=0 SPMC_OPTEE=1 # Measured Boot clean_build PLAT=qemu $(common_flags) ${TBB_OPTIONS} MBOOT_EL_HASH_ALG=sha256 MEASURED_BOOT=1 clean_build PLAT=qemu_sbsa $(common_flags) # QEMU with SPM support clean_build PLAT=qemu_sbsa $(common_flags) BL32=Makefile SPM_MM=1 \ EL3_EXCEPTION_HANDLING=1 ENABLE_SME_FOR_NS=0 ENABLE_SVE_FOR_NS=0 # For hikey enable PMF to include all files in the platform port make PLAT=hikey $(common_flags) ${TBB_OPTIONS} ENABLE_PMF=1 all make PLAT=hikey960 $(common_flags) ${TBB_OPTIONS} all make PLAT=hikey960 $(common_flags) ${TBB_OPTIONS} SPD=spmd SPMC_AT_EL3=1 \ SPMD_SPM_AT_SEL2=0 BL32=optee PLAT_SP_MANIFEST_DTS=foo NEED_FDT=no all make PLAT=poplar $(common_flags) all # Platforms from Socionext clean_build PLAT=uniphier $(common_flags) ${TBB_OPTIONS} SPD=tspd clean_build PLAT=uniphier $(common_flags) FIP_GZIP=1 clean_build PLAT=synquacer $(common_flags) SPM_MM=1 \ RESET_TO_BL31=1 EL3_EXCEPTION_HANDLING=1 ENABLE_SVE_FOR_NS=0 \ PRELOADED_BL33_BASE=0x0 # Support for SCP Message Interface protocol with platform specific drivers clean_build PLAT=synquacer $(common_flags) \ RESET_TO_BL31=1 PRELOADED_BL33_BASE=0x0 SQ_USE_SCMI_DRIVER=1 # Support for BL2 and TBBR clean_build PLAT=synquacer $(common_flags) \ MBEDTLS_DIR=$(pwd)/mbedtls TRUSTED_BOARD_BOOT=1 \ SQ_USE_SCMI_DRIVER=1 SPD=opteed all make PLAT=poplar $(common_flags) all # Raspberry Pi Platforms make PLAT=rpi3 $(common_flags) ${TBB_OPTIONS} \ ENABLE_STACK_PROTECTOR=strong PRELOADED_BL33_BASE=0xDEADBEEF all clean_build PLAT=rpi4 $(common_flags) SMC_PCI_SUPPORT=1 all # A113D (AXG) platform. clean_build PLAT=axg $(common_flags) SPD=opteed clean_build PLAT=axg $(common_flags) AML_USE_ATOS=1 # QTI MSM8916 platform clean_build PLAT=msm8916 $(common_flags) cd ..