script/tf-coverity/tf-cov-make - next/ci/tf-a-ci-scripts - TrustedFirmware Git Browser

 #! /bin/sh
 #
 # Copyright (c) 2019-2020, 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") <trusted-firmware-directory>"
     exit 1
 fi

 export CROSS_COMPILE=aarch64-none-elf-

 # 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 mbedtls ]; then
     git clone https://github.com/ARMmbed/mbedtls.git
 fi
 cd mbedtls
 containing_dir="$(readlink -f "$(dirname "$0")/")"
 . $containing_dir/common-def.sh
 git checkout "$MBED_TLS_SOURCES_TAG"
 cd -
 TBB_OPTIONS="TRUSTED_BOARD_BOOT=1 GENERATE_COT=1 MBEDTLS_DIR=$(pwd)/mbedtls"
 ARM_TBB_OPTIONS="$TBB_OPTIONS ARM_ROTPK_LOCATION=devel_rsa"

 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
 #

 # We need to clean the platform build between each configuration because Trusted
 # Firmware's build system doesn't track build options dependencies and won't
 # rebuild the files affected by build options changes.
 clean_build()
 {
     local flags="$*"
     echo "Building TF with the following build flags:"
     echo "  $flags"
     make $flags clean
     make $flags all
     echo "Build config complete."
     echo
 }

 #
 # FVP platform
 # We'll use the following flags for all FVP builds.
 #
 fvp_common_flags="-j PLAT=fvp DEBUG=1"

 # 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 -j PLAT=fvp DEBUG=1 SPD=trusty
 clean_build -j PLAT=fvp DEBUG=1 SPD=trusty TRUSTY_SPD_WITH_GENERIC_SERVICES=1

 # SDEI
 clean_build PLAT=fvp DEBUG=1 SDEI_SUPPORT=1 EL3_EXCEPTION_HANDLING=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

 # Using GIC600 driver
 clean_build $fvp_common_flags FVP_USE_GIC_DRIVER=FVP_GIC600

 # SPM support
 clean_build $fvp_common_flags ENABLE_SPM=1 EL3_EXCEPTION_HANDLING=1

 #BL2 at EL3 support
 clean_build $fvp_common_flags BL2_AT_EL3=1
 clean_build $fvp_common_flags CROSS_COMPILE=arm-none-eabi- \
     ARCH=aarch32 AARCH32_SP=sp_min BL2_AT_EL3=1

 # Measured Boot
 clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} MEASURED_BOOT=1

 #
 # Juno platform
 # We'll use the following flags for all Juno builds.
 #
 juno_common_flags="-j PLAT=juno DEBUG=1"
 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
 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}

 #
 # System Guidance for Infrastructure platform SGI575
 #
 make -j DEBUG=1 PLAT=sgi575 all

 #
 # System Guidance for Infrastructure platform RD-N1Edge
 #
 make -j DEBUG=1 PLAT=rdn1edge all

 #
 # System Guidance for Infrastructure platform RD-E1Edge
 #
 make -j DEBUG=1 PLAT=rde1edge 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.
 external_plat_common_flags="-j DEBUG=1"

 make PLAT=mt8173 $external_plat_common_flags all

 make PLAT=rk3368 $external_plat_common_flags COREBOOT=1 all
 make PLAT=rk3399 $external_plat_common_flags COREBOOT=1 all
 make PLAT=rk3328 $external_plat_common_flags COREBOOT=1 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 $external_plat_common_flags all
 make PLAT=tegra TARGET_SOC=t132 $external_plat_common_flags all
 make PLAT=tegra TARGET_SOC=t186 $external_plat_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 $external_plat_common_flags \
     RESET_TO_BL31=1 SPD=tspd \
     ZYNQMP_ATF_MEM_BASE=0xFFFC0000 ZYNQMP_ATF_MEM_SIZE=0x00040000 \
     all

 clean_build PLAT=qemu $external_plat_common_flags ${TBB_OPTIONS}
 clean_build PLAT=qemu $external_plat_common_flags ENABLE_STACK_PROTECTOR=strong

 # For hikey enable PMF to include all files in the platform port
 make PLAT=hikey $external_plat_common_flags ENABLE_PMF=1 all
 make PLAT=hikey960 $external_plat_common_flags all

 clean_build PLAT=uniphier $external_plat_common_flags ${TBB_OPTIONS} SPD=tspd
 clean_build PLAT=uniphier $external_plat_common_flags FIP_GZIP=1

 make PLAT=poplar $external_plat_common_flags all

 make PLAT=rpi3 $external_plat_common_flags PRELOADED_BL33_BASE=0xDEADBEEF all

 # Cannot use $external_plat_common_flags for LS1043 platform, as then
 # the binaries do not fit in memory.
 clean_build PLAT=ls1043 SPD=opteed ENABLE_STACK_PROTECTOR=strong
 clean_build PLAT=ls1043 SPD=tspd

 cd ..
	#! /bin/sh
	#
	# Copyright (c) 2019-2020, 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") <trusted-firmware-directory>"
	exit 1
	fi

	export CROSS_COMPILE=aarch64-none-elf-

	# 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 mbedtls ]; then
	git clone https://github.com/ARMmbed/mbedtls.git
	fi
	cd mbedtls
	containing_dir="$(readlink -f "$(dirname "$0")/")"
	. $containing_dir/common-def.sh
	git checkout "$MBED_TLS_SOURCES_TAG"
	cd -
	TBB_OPTIONS="TRUSTED_BOARD_BOOT=1 GENERATE_COT=1 MBEDTLS_DIR=$(pwd)/mbedtls"
	ARM_TBB_OPTIONS="$TBB_OPTIONS ARM_ROTPK_LOCATION=devel_rsa"

	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
	#

	# We need to clean the platform build between each configuration because Trusted
	# Firmware's build system doesn't track build options dependencies and won't
	# rebuild the files affected by build options changes.
	clean_build()
	{
	local flags="$*"
	echo "Building TF with the following build flags:"
	echo " $flags"
	make $flags clean
	make $flags all
	echo "Build config complete."
	echo
	}

	#
	# FVP platform
	# We'll use the following flags for all FVP builds.
	#
	fvp_common_flags="-j PLAT=fvp DEBUG=1"

	# 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 -j PLAT=fvp DEBUG=1 SPD=trusty
	clean_build -j PLAT=fvp DEBUG=1 SPD=trusty TRUSTY_SPD_WITH_GENERIC_SERVICES=1

	# SDEI
	clean_build PLAT=fvp DEBUG=1 SDEI_SUPPORT=1 EL3_EXCEPTION_HANDLING=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

	# Using GIC600 driver
	clean_build $fvp_common_flags FVP_USE_GIC_DRIVER=FVP_GIC600

	# SPM support
	clean_build $fvp_common_flags ENABLE_SPM=1 EL3_EXCEPTION_HANDLING=1

	#BL2 at EL3 support
	clean_build $fvp_common_flags BL2_AT_EL3=1
	clean_build $fvp_common_flags CROSS_COMPILE=arm-none-eabi- \
	ARCH=aarch32 AARCH32_SP=sp_min BL2_AT_EL3=1

	# Measured Boot
	clean_build $fvp_common_flags ${ARM_TBB_OPTIONS} MEASURED_BOOT=1

	#
	# Juno platform
	# We'll use the following flags for all Juno builds.
	#
	juno_common_flags="-j PLAT=juno DEBUG=1"
	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
	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}

	#
	# System Guidance for Infrastructure platform SGI575
	#
	make -j DEBUG=1 PLAT=sgi575 all

	#
	# System Guidance for Infrastructure platform RD-N1Edge
	#
	make -j DEBUG=1 PLAT=rdn1edge all

	#
	# System Guidance for Infrastructure platform RD-E1Edge
	#
	make -j DEBUG=1 PLAT=rde1edge 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.
	external_plat_common_flags="-j DEBUG=1"

	make PLAT=mt8173 $external_plat_common_flags all

	make PLAT=rk3368 $external_plat_common_flags COREBOOT=1 all
	make PLAT=rk3399 $external_plat_common_flags COREBOOT=1 all
	make PLAT=rk3328 $external_plat_common_flags COREBOOT=1 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 $external_plat_common_flags all
	make PLAT=tegra TARGET_SOC=t132 $external_plat_common_flags all
	make PLAT=tegra TARGET_SOC=t186 $external_plat_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 $external_plat_common_flags \
	RESET_TO_BL31=1 SPD=tspd \
	ZYNQMP_ATF_MEM_BASE=0xFFFC0000 ZYNQMP_ATF_MEM_SIZE=0x00040000 \
	all

	clean_build PLAT=qemu $external_plat_common_flags ${TBB_OPTIONS}
	clean_build PLAT=qemu $external_plat_common_flags ENABLE_STACK_PROTECTOR=strong

	# For hikey enable PMF to include all files in the platform port
	make PLAT=hikey $external_plat_common_flags ENABLE_PMF=1 all
	make PLAT=hikey960 $external_plat_common_flags all

	clean_build PLAT=uniphier $external_plat_common_flags ${TBB_OPTIONS} SPD=tspd
	clean_build PLAT=uniphier $external_plat_common_flags FIP_GZIP=1

	make PLAT=poplar $external_plat_common_flags all

	make PLAT=rpi3 $external_plat_common_flags PRELOADED_BL33_BASE=0xDEADBEEF all

	# Cannot use $external_plat_common_flags for LS1043 platform, as then
	# the binaries do not fit in memory.
	clean_build PLAT=ls1043 SPD=opteed ENABLE_STACK_PROTECTOR=strong
	clean_build PLAT=ls1043 SPD=tspd

	cd ..