fvp_utils.sh - next/ci/tf-a-ci-scripts - TrustedFirmware Git Browser

 #!/usr/bin/env bash
 #
 # Copyright (c) 2020-2023, Arm Limited. All rights reserved.
 #
 # SPDX-License-Identifier: BSD-3-Clause
 #

 set -u

 bl1_addr="${bl1_addr:-0x0}"
 bl31_addr="${bl31_addr:-0x04001000}"
 bl32_addr="${bl32_addr:-0x04003000}"
 bl33_addr="${bl33_addr:-0x88000000}"
 dtb_addr="${dtb_addr:-0x82000000}"
 fip_addr="${fip_addr:-0x08000000}"
 initrd_addr="${initrd_addr:-0x84000000}"
 kernel_addr="${kernel_addr:-0x80080000}"
 el3_payload_addr="${el3_payload_addr:-0x80000000}"

 # SPM requires following addresses for RESET_TO_BL31 case
 spm_addr="${spm_addr:-0x6000000}"
 spmc_manifest_addr="${spmc_addr:-0x0403f000}"
 sp1_addr="${sp1_addr:-0x7000000}"
 sp2_addr="${sp2_addr:-0x7100000}"
 sp3_addr="${sp3_addr:-0x7200000}"
 sp4_addr="${sp4_addr:-0x7600000}"
 # SPM out directories
 export spm_secure_out_dir="${spm_secure_out_dir:-secure_aem_v8a_fvp_vhe_clang}"
 export spm_non_secure_out_dir="${spm_non_secure_out_dir:-aem_v8a_fvp_vhe_clang}"

 ns_bl1u_addr="${ns_bl1u_addr:-0x0beb8000}"
 fwu_fip_addr="${fwu_fip_addr:-0x08400000}"
 backup_fip_addr="${backup_fip_addr:-0x09000000}"
 romlib_addr="${romlib_addr:-0x03ff2000}"

 uefi_downloads="${uefi_downloads:-http://files.oss.arm.com/downloads/uefi}"
 uefi_ci_bin_url="${uefi_ci_bin_url:-$uefi_downloads/Artifacts/Linux/github/fvp/static/DEBUG_GCC5/FVP_AARCH64_EFI.fd}"

 uboot32_fip_url="$linaro_release/fvp32-latest-busybox-uboot/fip.bin"
 uboot_url="$linaro_release/fvp-latest-busybox-uboot/bl33-uboot.bin"

 rootfs_url="$linaro_release/lt-vexpress64-openembedded_minimal-armv8-gcc-5.2_20170127-761.img.gz"

 # Default FVP model variables
 default_model_dtb="dtb.bin"

 # FVP containers and model paths
 fvp_arm_std_library_11_12="fvp:fvp_arm_std_library_${model_version_11_12}_${model_build_11_12};/opt/model/FVP_ARM_Std_Library/models/${model_flavour_11_12}"
 fvp_arm_std_library_11_16="fvp:fvp_arm_std_library_${model_version_11_16}_${model_build_11_16};/opt/model/FVP_ARM_Std_Library/FVP_Base"
 fvp_arm_std_library_11_17="fvp:fvp_arm_std_library_${model_version_11_17}_${model_build_11_17};/opt/model/FVP_ARM_Std_Library/FVP_Base"
 fvp_arm_std_library="fvp:fvp_arm_std_library_${model_version}_${model_build};/opt/model/FVP_ARM_Std_Library/FVP_Base"
 fvp_base_aemva="fvp:fvp_base_aemva_${model_version}_${model_build};/opt/model/FVP_Base_AEMvA/models/${model_flavour}"
 fvp_base_revc_2xaemva="fvp:fvp_base_revc-2xaemva_${model_version}_${model_build};/opt/model/Base_RevC_AEMvA_pkg/models/${model_flavour}"
 fvp_base_aemv8a_gic600ae="fvp:fvp_base_aemv8a-gic600ae_${model_version_11_17}_${model_build_11_17};/opt/model/FVP_Base_AEMv8A-GIC600AE_pkg/models/${model_flavour_11_17}"
 fvp_base_aemv8a_aemv8a_aemv8a_aemv8a_ccn502="fvp:fvp_base_aemv8a-aemv8a-aemv8a-aemv8a-ccn502_${model_version_11_17}_${model_build_11_17};/opt/model/FVP_Base_AEMv8A-AEMv8A-AEMv8A-AEMv8A-CCN502_pkg/models/${model_flavour_11_17}"
 foundation_platform="fvp:foundation_platform_${model_version}_${model_build};/opt/model/Foundation_Platformpkg/models/${model_flavour}"
 fvp_base_aemv8r="fvp:fvp_base_aemv8r_${model_version}_${model_build};/opt/model/AEMv8R_base_pkg/models/${model_flavour}"

 # CSS model list
 fvp_morello="fvp:fvp_morello_0.11_33;/opt/model/FVP_Morello/models/Linux64_GCC-6.4"
 fvp_rd_v1="fvp:fvp_rd_v1_${model_version}_${model_build};/opt/model/FVP_RD_V1/models/${model_flavour}"
 fvp_tc1="fvp:fvp_tc1_${model_version}_${model_build};/opt/model/FVP_TC1/models/${model_flavour}"
 fvp_tc2="fvp:fvp_tc2_11.20_24;/opt/model/FVP_TC2/models/${model_flavour}"

 # FVP associate array, run_config are keys and fvp container parameters are the values
 #   Container parameters syntax: <model name>;<model dir>;<model bin>
 # FIXMEs: fix those ;;; values with real values

 declare -A fvp_models
 fvp_models=(
 [base-aemv8a-quad]="${fvp_base_aemv8a_aemv8a_aemv8a_aemv8a_ccn502};FVP_Base_AEMv8A-AEMv8A-AEMv8A-AEMv8A-CCN502"
 [base-aemv8a-revb]="${fvp_arm_std_library};FVP_Base_AEMvA-AEMvA"
 [base-aemv8a-latest-revb]="${fvp_arm_std_library};FVP_Base_AEMvA-AEMvA"
 [base-aemva]="${fvp_base_aemva};FVP_Base_AEMvA"
 [base-aemv8a-gic600ae]="${fvp_base_aemv8a_gic600ae};FVP_Base_AEMv8A-GIC600AE"
 [foundationv8]="${foundation_platform};Foundation_Platform"
 [base-aemv8a]="${fvp_base_revc_2xaemva};FVP_Base_RevC-2xAEMvA"
 [cortex-a32x4]="${fvp_arm_std_library_11_12};FVP_Base_Cortex-A32x4"
 [cortex-a35x4]="${fvp_arm_std_library};FVP_Base_Cortex-A35x4"
 [cortex-a53x4]="${fvp_arm_std_library};FVP_Base_Cortex-A53x4"
 [cortex-a55x4]="${fvp_arm_std_library};FVP_Base_Cortex-A55"
 [cortex-a55x4-a75x4]="${fvp_arm_std_library};FVP_Base_Cortex-A55x4+Cortex-A75x4"
 [cortex-a55x4-a76x2]="${fvp_arm_std_library};FVP_Base_Cortex-A55x4+Cortex-A76x2"
 [cortex-a57x1-a53x1]="${fvp_arm_std_library};FVP_Base_Cortex-A57x1-A53x1"
 [cortex-a57x2-a53x4]="${fvp_arm_std_library};FVP_Base_Cortex-A57x2-A53x4"
 [cortex-a57x4]="${fvp_arm_std_library};FVP_Base_Cortex-A57x4"
 [cortex-a57x4-a53x4]="${fvp_arm_std_library};FVP_Base_Cortex-A57x4-A53x4"
 [cortex-a65aex8]="${fvp_arm_std_library};FVP_Base_Cortex-A65AE"
 [cortex-a65x4]="${fvp_arm_std_library};FVP_Base_Cortex-A65"
 [cortex-a72x4]="${fvp_arm_std_library};FVP_Base_Cortex-A72x4"
 [cortex-a72x4-a53x4]="${fvp_arm_std_library};FVP_Base_Cortex-A72x4-A53x4"
 [cortex-a73x4]="${fvp_arm_std_library};FVP_Base_Cortex-A73x4"
 [cortex-a73x4-a53x4]="${fvp_arm_std_library};FVP_Base_Cortex-A73x4-A53x4"
 [cortex-a75x4]="${fvp_arm_std_library};FVP_Base_Cortex-A75"
 [cortex-a76aex4]="${fvp_arm_std_library};FVP_Base_Cortex-A76AE"
 [cortex-a76aex2]="${fvp_arm_std_library};FVP_Base_Cortex-A76AE"
 [cortex-a76x4]="${fvp_arm_std_library};FVP_Base_Cortex-A76"
 [cortex-a77x4]="${fvp_arm_std_library};FVP_Base_Cortex-A77"
 [cortex-a78x4]="${fvp_arm_std_library};FVP_Base_Cortex-A78"
 [cortex-a78aex4]="${fvp_arm_std_library};FVP_Base_Cortex-A78AE"
 [cortex-a78cx4]="${fvp_arm_std_library};FVP_Base_Cortex-A78C"
 [cortex-x2]="${fvp_arm_std_library_11_17};FVP_Base_Cortex-X2x4"
 [cortex-a710]="${fvp_arm_std_library_11_17};FVP_Base_Cortex-A710x4"
 [neoverse_e1x1]="${fvp_arm_std_library};FVP_Base_Neoverse-E1"
 [neoverse_e1x2]="${fvp_arm_std_library};FVP_Base_Neoverse-E1"
 [neoverse_e1x4]="${fvp_arm_std_library};FVP_Base_Neoverse-E1"
 [neoverse_n1]="${fvp_arm_std_library};FVP_Base_Neoverse-N1"
 [neoverse_n2]="${fvp_arm_std_library_11_16};FVP_Base_Neoverse-N1x4"
 [neoverse-v1x4]="${fvp_arm_std_library};FVP_Base_Neoverse-V1"
 [morello]="${fvp_morello};FVP_Morello"
 [css-rdv1]="${fvp_rd_v1};FVP_RD_V1"
 [tc1]="${fvp_tc1};FVP_TC1"
 [tc2]="${fvp_tc2};FVP_TC2"
 [baser-aemv8r]="${fvp_base_aemv8r};FVP_BaseR_AEMv8R"
 )


 # FVP Kernel URLs
 declare -A kernel_list
 kernel_list=(
 [fvp-aarch32-zimage]="$linaro_release/fvp32-latest-busybox-uboot/Image"
 [fvp-busybox-uboot]="$linaro_release/fvp-latest-busybox-uboot/Image"
 [fvp-oe-uboot32]="$linaro_release/fvp32-latest-oe-uboot/Image"
 [fvp-oe-uboot]="$linaro_release/fvp-latest-oe-uboot/Image"
 [fvp-quad-busybox-uboot]="$tfa_downloads/quad_cluster/Image"
 )

 # FVP initrd URLs
 declare -A initrd_list
 initrd_list=(
 [aarch32-ramdisk]="$linaro_release/fvp32-latest-busybox-uboot/ramdisk.img"
 [dummy-ramdisk]="$linaro_release/fvp-latest-oe-uboot/ramdisk.img"
 [dummy-ramdisk32]="$linaro_release/fvp32-latest-oe-uboot/ramdisk.img"
 [default]="$linaro_release/fvp-latest-busybox-uboot/ramdisk.img"
 )

 # For Measured Boot tests using a TA based on OPTEE, it is necessary to use a
 # specific build rather than the default one generated by Jenkins.
 get_ftpm_optee_bin() {
 	url="$tfa_downloads/ftpm/optee/tee-header_v2.bin" \
 		saveas="bl32.bin" fetch_file
 	archive_file "bl32.bin"

 	url="$tfa_downloads/ftpm/optee/tee-pager_v2.bin" \
 		saveas="bl32_extra1.bin" fetch_file
 	archive_file "bl32_extra1.bin"

 	# tee-pageable_v2.bin is just a empty file, named as bl32_extra2.bin,
 	# so just create the file
 	touch "bl32_extra2.bin"
 	archive_file "bl32_extra2.bin"
 }

 get_dtb() {
 	local dtb_type="${dtb_type:?}"
 	local dtb_url
 	local dtb_saveas="$workspace/dtb.bin"
 	local cc="$(get_tf_opt CROSS_COMPILE)"
 	local pp_flags="-P -nostdinc -undef -x assembler-with-cpp"

 	case "$dtb_type" in
 		"fvp-base-quad-cluster-gicv3-psci")
 			# Get the quad-cluster FDT from pdsw area
 			dtb_url="$tfa_downloads/quad_cluster/fvp-base-quad-cluster-gicv3-psci.dtb"
 			url="$dtb_url" saveas="$dtb_saveas" fetch_file
 			;;
 		*)
 			# Preprocess DTS file
 			${cc}gcc -E ${pp_flags} -I"$tf_root/fdts" -I"$tf_root/include" \
 				-o "$workspace/${dtb_type}.pre.dts" \
 				"$tf_root/fdts/${dtb_type}.dts"
 			# Generate DTB file from DTS
 			dtc -I dts -O dtb \
 				"$workspace/${dtb_type}.pre.dts" -o "$dtb_saveas"
 	esac

 	archive_file "$dtb_saveas"
 }

 get_rootfs() {
 	local tmpdir
 	local fs_base="$(echo $(basename $rootfs_url) | sed 's/\.gz$//')"
 	local cached="$project_filer/ci-files/$fs_base"

 	if upon "$jenkins_run" && [ -f "$cached" ]; then
 		# Job workspace is limited in size, and the root file system is
 		# quite large. This means, parallel runs of root file system
 		# tests could fail. So, for Jenkins runs, copy and use the root
 		# file system image from the $CI_SCRATCH location
 		local private="$CI_SCRATCH/$JOB_NAME-$BUILD_NUMBER"
 		mkdir -p "$private"
 		rm -f "$private/rootfs.bin"
 		url="$cached" saveas="$private/rootfs.bin" fetch_file
 		ln -s "$private/rootfs.bin" "$archive/rootfs.bin"
 		return
 	fi

 	tmpdir="$(mktempdir)"
 	pushd "$tmpdir"
 	url="$rootfs_url" saveas="rootfs.bin" fetch_file

 	# Possibly, the filesystem image we just downloaded is compressed.
 	# Decompress it if required.
 	if file "rootfs.bin" | grep -iq 'gzip compressed data'; then
 		echo "Decompressing root file system image rootfs.bin ..."
 		gunzip --stdout "rootfs.bin" > uncompressed_fs.bin
 		mv uncompressed_fs.bin "rootfs.bin"
 	fi

 	archive_file "rootfs.bin"
 	popd
 }

 fvp_romlib_jmptbl_backup="$(mktempdir)/jmptbl.i"

 fvp_romlib_runtime() {
 	local tmpdir="$(mktempdir)"

 	# Save BL1 and romlib binaries from original build
 	mv "${tf_build_root:?}/${plat:?}/${mode:?}/romlib/romlib.bin" "$tmpdir/romlib.bin"
 	mv "${tf_build_root:?}/${plat:?}/${mode:?}/bl1.bin" "$tmpdir/bl1.bin"

 	# Patch index file
 	cp "${tf_root:?}/plat/arm/board/fvp/jmptbl.i" "$fvp_romlib_jmptbl_backup"
 	sed -i '/fdt/ s/.$/&\ patch/' ${tf_root:?}/plat/arm/board/fvp/jmptbl.i

 	# Rebuild with patched file
 	echo "Building patched romlib:"
 	build_tf

 	# Retrieve original BL1 and romlib binaries
 	mv "$tmpdir/romlib.bin" "${tf_build_root:?}/${plat:?}/${mode:?}/romlib/romlib.bin"
 	mv "$tmpdir/bl1.bin" "${tf_build_root:?}/${plat:?}/${mode:?}/bl1.bin"
 }

 fvp_romlib_cleanup() {
 	# Restore original index
 	mv "$fvp_romlib_jmptbl_backup" "${tf_root:?}/plat/arm/board/fvp/jmptbl.i"
 }


 # Generates the final YAML-based LAVA job definition from a template file.
 #
 # The job definition template is expanded with visibility of all variables that
 # are available from within the function, including those with local scope.
 gen_fvp_yaml() {
     local model="${model:?}"

     local yaml_template_file="$workspace/fvp_template.yaml"
     local yaml_file="$workspace/fvp.yaml"
     local yaml_job_file="$workspace/job.yaml"
     local lava_model_params="$workspace/lava_model_params"

     # this function expects a template, quit if it is not present
     if [ ! -f "$yaml_template_file" ]; then
         echo "warning: gen_fvp_yaml: template $yaml_template_file not available, skipping generating LAVA job"
 	return
     fi

     local model_params="${fvp_models[$model]}"
     local model_name="$(echo "${model_params}" | awk -F ';' '{print $1}')"
     local model_dir="$(echo "${model_params}"  | awk -F ';' '{print $2}')"
     local model_bin="$(echo "${model_params}"  | awk -F ';' '{print $3}')"

     # model params are required for correct yaml creation, quit if empty
     if [ -z "${model_name}" ]; then
        echo "FVP model param 'model_name' variable empty, yaml not produced"
        return
     elif [ -z "${model_dir}" ]; then
        echo "FVP model param 'model_dir' variable empty, yaml not produced"
        return
     elif [ -z "${model_bin}"  ]; then
        echo "FVP model param 'model_bin' variable empty, yaml not produced"
        return
     fi

     echo "FVP model params: model_name=$model_name model_dir=$model_dir model_bin=$model_bin"

     # optional parameters, defaults to globals
     local model_dtb="${model_dtb:-$default_model_dtb}"

     if [ -n "${GERRIT_CHANGE_NUMBER}" ]; then
         local gerrit_url="https://review.trustedfirmware.org/c/${GERRIT_CHANGE_NUMBER}/${GERRIT_PATCHSET_NUMBER}"
     elif [ -n "${GERRIT_REFSPEC}" ]; then
         local gerrit_url=$(echo ${GERRIT_REFSPEC} |
             awk -F/ '{print "https://review.trustedfirmware.org/c/" $4 "/" $5}')
     fi

     docker_registry="${docker_registry:-}"
     docker_registry="$(docker_registry_append)"
     docker_name="${docker_registry}$model_name"
     prompt1='/ #'
     prompt2='root@genericarmv8:~#'
     version_string="\"Fast Models"' [^\\n]+'"\""

     test_config="${TEST_CONFIG}"

     declare -A fvp_artefact_filters=(
         [backup_fip]="backup_fip.bin"
         [bl1]="bl1.bin"
         [bl2]="bl2.bin"
         [bl31]="bl31.bin"
         [bl32]="bl32.bin"
         [busybox]="busybox.bin"
         [cactus_primary]="cactus-primary.pkg"
         [cactus_secondary]="cactus-secondary.pkg"
         [cactus_tertiary]="cactus-tertiary.pkg"
         [coverage_trace_plugin]="coverage_trace.so"
         [dtb]="dtb.bin"
         [el3_payload]="el3_payload.bin"
         [ete_trace]="libete-plugin.so"
         [etm_trace]="ETMv4ExamplePlugin.so"
         [fip_gpt]="fip_gpt.bin"
         [fip]="fip.bin"
         [fvp_spmc_manifest_dtb]="=fvp_spmc_manifest.dtb"
         [fwu_fip]="fwu_fip.bin"
         [generic_trace]="GenericTrace.so"
         [hafnium]="hafnium.bin"
         [image]="kernel.bin"
         [ivy]="ivy.pkg"
         [manifest_dtb]="=manifest.dtb"
         [mcp_fw]="mcp_fw.bin"
         [mcp_ram]="mcp_ram.bin"
         [mcp_rom_hyphen]="mcp-rom.bin"
         [mcp_rom]="mcp_rom.bin"
         [ns_bl1u]="ns_bl1u.bin"
         [ns_bl2u]="ns_bl2u.bin"
         [ramdisk]="initrd.bin|initrd.img"
         [romlib]="romlib.bin"
         [rootfs]="rootfs.bin"
         [host_flash_fip]="host_flash_fip.bin"
         [rss_rom]="rss_rom.bin"
         [scp_fw]="scp_fw.bin"
         [scp_ram_hyphen]="scp-ram.bin"
         [scp_ram]="scp_ram.bin"
         [scp_rom_hyphen]="scp-rom.bin"
         [scp_rom]="scp_rom.bin"
         [secure_hafnium]="secure_hafnium.bin"
         [spm]="spm.bin"
         [tftf]="tftf.bin"
         [tmp]="tmp.bin"
         [uboot]="uboot.bin"
     )

     declare -A fvp_artefact_urls=(
         [backup_fip]="$(gen_bin_url backup_fip.bin)"
         [bl1]="$(gen_bin_url bl1.bin)"
         [bl2]="$(gen_bin_url bl2.bin)"
         [bl31]="$(gen_bin_url bl31.bin)"
         [bl32]="$(gen_bin_url bl32.bin)"
         [busybox]="$(gen_bin_url busybox.bin.gz)"
         [cactus_primary]="$(gen_bin_url cactus-primary.pkg)"
         [cactus_secondary]="$(gen_bin_url cactus-secondary.pkg)"
         [cactus_tertiary]="$(gen_bin_url cactus-tertiary.pkg)"
         [coverage_trace_plugin]="${coverage_trace_plugin}"
         [dtb]="$(gen_bin_url ${model_dtb})"
         [el3_payload]="$(gen_bin_url el3_payload.bin)"
         [ete_trace]="${tfa_downloads}/FastModelsPortfolio_${model_version}/plugins/${model_flavour}/libete-plugin.so"
         [etm_trace]="${tfa_downloads}/FastModelsPortfolio_${model_version}/plugins/${model_flavour}/ETMv4ExamplePlugin.so"
         [fip]="$(gen_bin_url fip.bin)"
         [fip_gpt]="$(gen_bin_url fip_gpt.bin)"
         [fvp_spmc_manifest_dtb]="$(gen_bin_url fvp_spmc_manifest.dtb)"
         [fwu_fip]="$(gen_bin_url fwu_fip.bin)"
         [generic_trace]="${tfa_downloads}/FastModelsPortfolio_${model_version}/plugins/${model_flavour}/GenericTrace.so"
         [hafnium]="$(gen_bin_url hafnium.bin)"
         [image]="$(gen_bin_url kernel.bin)"
         [ivy]="$(gen_bin_url ivy.pkg)"
         [manifest_dtb]="$(gen_bin_url manifest.dtb)"
         [mcp_fw]="$(gen_bin_url mcp_fw.bin)"
         [mcp_ram]="$(gen_bin_url mcp_ram.bin)"
         [mcp_rom]="$(gen_bin_url mcp_rom.bin)"
         [mcp_rom_hyphen]="$(gen_bin_url mcp-rom.bin)"
         [ns_bl1u]="$(gen_bin_url ns_bl1u.bin)"
         [ns_bl2u]="$(gen_bin_url ns_bl2u.bin)"
         [ramdisk]="$(gen_bin_url initrd.bin)"
         [romlib]="$(gen_bin_url romlib.bin)"
         [rootfs]="$(gen_bin_url rootfs.bin.gz)"
         [host_flash_fip]="$(gen_bin_url host_flash_fip.bin)"
         [rss_rom]="$(gen_bin_url rss_rom.bin)"
         [secure_hafnium]="$(gen_bin_url secure_hafnium.bin)"
         [scp_fw]="$(gen_bin_url scp_fw.bin)"
         [scp_ram]="$(gen_bin_url scp_ram.bin)"
         [scp_ram_hyphen]="$(gen_bin_url scp-ram.bin)"
         [scp_rom]="$(gen_bin_url scp_rom.bin)"
         [scp_rom_hyphen]="$(gen_bin_url scp-rom.bin)"
         [spm]="$(gen_bin_url spm.bin)"
         [tftf]="$(gen_bin_url tftf.bin)"
         [tmp]="$(gen_bin_url tmp.bin)"
         [uboot]="$(gen_bin_url uboot.bin)"
     )

     # In LAVA we don't provide the paths to the artefacts directly, but instead
     # use macros of the form `{XYZ}`. This is a list of regular expression
     # replacements to run on the model parameters file before we add them to the
     # LAVA job definition.
     declare -A fvp_artefact_macros=(
         ["[= ]backup_fip.bin"]="={BACKUP_FIP}"
         ["[= ]bl1.bin"]="={BL1}"
         ["[= ]bl2.bin"]="={BL2}"
         ["[= ]bl31.bin"]="={BL31}"
         ["[= ]bl32.bin"]="={BL32}"
         ["[= ]cactus-primary.pkg"]="={CACTUS_PRIMARY}"
         ["[= ]cactus-secondary.pkg"]="={CACTUS_SECONDARY}"
         ["[= ]cactus-tertiary.pkg"]="={CACTUS_TERTIARY}"
         ["[= ].*coverage_trace.so"]="={COVERAGE_TRACE_PLUGIN}"
         ["[= ]fvp_spmc_manifest.dtb"]="={FVP_SPMC_MANIFEST_DTB}"
         ["[= ]busybox.bin"]="={BUSYBOX}"
         ["[= ]dtb.bin"]="={DTB}"
         ["[= ]el3_payload.bin"]="={EL3_PAYLOAD}"
         ["[= ].*libete-plugin.so"]="={ETE_TRACE}"
         ["[= ].*ETMv4ExamplePlugin.so"]="={ETM_TRACE}"
         ["[= ]fip_gpt.bin"]="={FIP_GPT}"
         ["[= ]fwu_fip.bin"]="={FWU_FIP}"
         ["[= ]fip.bin"]="={FIP}"
         ["[= ].*GenericTrace.so"]="={GENERIC_TRACE}"
         ["[= ].*/hafnium.bin"]="={HAFNIUM}"
         ["[= ]kernel.bin"]="={IMAGE}"
         ["[= ]ivy.pkg"]="={IVY}"
         ["[= ]manifest.dtb"]="={MANIFEST_DTB}"
         ["[= ]mcp_fw.bin"]="={MCP_FW}"
         ["[= ]mcp_ram.bin"]="={MCP_RAM}"
         ["[= ]mcp_rom.bin"]="={MCP_ROM}"
         ["[= ]mcp-rom.bin"]="={MCP_ROM_HYPHEN}"
         ["[= ]ns_bl1u.bin"]="={NS_BL1U}"
         ["[= ]ns_bl2u.bin"]="={NS_BL2U}"
         ["[= ]initrd.bin"]="={RAMDISK}"
         ["[= ]initrd.img"]="={RAMDISK}"
         ["[= ]romlib.bin"]="={ROMLIB}"
         ["[= ]rootfs.bin"]="={ROOTFS}"
         ["[= ]host_flash_fip.bin"]="={HOST_FLASH_FIP}"
         ["[= ]rss_rom.bin"]="={RSS_ROM}"
         ["[= ].*/secure_hafnium.bin"]="={SECURE_HAFNIUM}"
         ["[= ]scp_fw.bin"]="={SCP_FW}"
         ["[= ]scp_ram.bin"]="={SCP_RAM}"
         ["[= ]scp-ram.bin"]="={SCP_RAM_HYPHEN}"
         ["[= ]scp_rom.bin"]="={SCP_ROM}"
         ["[= ]scp-rom.bin"]="={SCP_ROM_HYPHEN}"
         ["[= ]spm.bin"]="={SPM}"
         ["[= ]tftf.bin"]="={TFTF}"
         ["[= ].*/tmp.bin"]="={TMP}"
         ["[= ]uboot.bin"]="={UBOOT}"
     )

     declare -a fvp_artefacts
     filter_artefacts fvp_artefacts fvp_artefact_filters

     lava_model_params="${lava_model_params}" \
       gen_lava_model_params fvp_artefact_macros

     yaml_template_file="$yaml_template_file" \
     yaml_file="$yaml_file" \
     yaml_job_file="$yaml_job_file" \
       gen_lava_job_def fvp_artefacts fvp_artefact_urls
 }

 docker_registry_append() {
     # if docker_registry is empty, just use local docker registry
     [ -z "$docker_registry" ] && return

     local last=-1
     local last_char="${docker_registry:last}"

     if [ "$last_char" != '/' ]; then
         docker_registry="${docker_registry}/";
     fi
     echo "$docker_registry"
 }

 # generate GPT image and archive it
 gen_gpt_bin() {
     raw_image="fip_gpt.bin"
     img_uuid="FB90808A-BA9A-4D42-B9A2-A7A937144AEE"
     img_bank_uuid=`uuidgen`
     disk_uuid=`uuidgen`
     bin="${1:?}"

     # maximum FIP size 2MB
     fip_max_size=2097152
     start_sector=34
     sector_size=512
     num_sectors=$(($fip_max_size/$sector_size))
     bin_size=$(stat -c %s $bin)

     if [[ $fip_max_size -lt $bin_size ]]
     then
            echo "FIP binary ($bin_size bytes) larger than max partition 1" \
                 "size ($fip_max_size byte)"
            return
     fi

     # create raw 5MB image
     dd if=/dev/zero of=$raw_image bs=5M count=1

     # create GPT image
     sgdisk -a 1 -U $disk_uuid -n 1:$start_sector:+$num_sectors \
            -c 1:FIP_A -t 1:$img_uuid $raw_image -u $img_bank_uuid

     echo "write binary $bin at sector $start_sector"
     dd if=$bin of=$raw_image bs=$sector_size seek=$start_sector \
        count=$num_sectors conv=notrunc

     archive_file "fip_gpt.bin"
 }

 #corrupt GPT image header and archive it
 corrupt_gpt_bin() {
     bin="${1:?}"

     # Primary GPT header is present in LBA-1 second block after MBR
     # empty the primary GPT header forcing to use backup GPT header
     # and backup GPT entries.
     dd if=/dev/zero of=$bin bs=512 seek=1 count=1 conv=notrunc
 }

 set +u
	#!/usr/bin/env bash
	#
	# Copyright (c) 2020-2023, Arm Limited. All rights reserved.
	#
	# SPDX-License-Identifier: BSD-3-Clause
	#

	set -u

	bl1_addr="${bl1_addr:-0x0}"
	bl31_addr="${bl31_addr:-0x04001000}"
	bl32_addr="${bl32_addr:-0x04003000}"
	bl33_addr="${bl33_addr:-0x88000000}"
	dtb_addr="${dtb_addr:-0x82000000}"
	fip_addr="${fip_addr:-0x08000000}"
	initrd_addr="${initrd_addr:-0x84000000}"
	kernel_addr="${kernel_addr:-0x80080000}"
	el3_payload_addr="${el3_payload_addr:-0x80000000}"

	# SPM requires following addresses for RESET_TO_BL31 case
	spm_addr="${spm_addr:-0x6000000}"
	spmc_manifest_addr="${spmc_addr:-0x0403f000}"
	sp1_addr="${sp1_addr:-0x7000000}"
	sp2_addr="${sp2_addr:-0x7100000}"
	sp3_addr="${sp3_addr:-0x7200000}"
	sp4_addr="${sp4_addr:-0x7600000}"
	# SPM out directories
	export spm_secure_out_dir="${spm_secure_out_dir:-secure_aem_v8a_fvp_vhe_clang}"
	export spm_non_secure_out_dir="${spm_non_secure_out_dir:-aem_v8a_fvp_vhe_clang}"

	ns_bl1u_addr="${ns_bl1u_addr:-0x0beb8000}"
	fwu_fip_addr="${fwu_fip_addr:-0x08400000}"
	backup_fip_addr="${backup_fip_addr:-0x09000000}"
	romlib_addr="${romlib_addr:-0x03ff2000}"

	uefi_downloads="${uefi_downloads:-http://files.oss.arm.com/downloads/uefi}"
	uefi_ci_bin_url="${uefi_ci_bin_url:-$uefi_downloads/Artifacts/Linux/github/fvp/static/DEBUG_GCC5/FVP_AARCH64_EFI.fd}"

	uboot32_fip_url="$linaro_release/fvp32-latest-busybox-uboot/fip.bin"
	uboot_url="$linaro_release/fvp-latest-busybox-uboot/bl33-uboot.bin"

	rootfs_url="$linaro_release/lt-vexpress64-openembedded_minimal-armv8-gcc-5.2_20170127-761.img.gz"

	# Default FVP model variables
	default_model_dtb="dtb.bin"

	# FVP containers and model paths
	fvp_arm_std_library_11_12="fvp:fvp_arm_std_library_${model_version_11_12}_${model_build_11_12};/opt/model/FVP_ARM_Std_Library/models/${model_flavour_11_12}"
	fvp_arm_std_library_11_16="fvp:fvp_arm_std_library_${model_version_11_16}_${model_build_11_16};/opt/model/FVP_ARM_Std_Library/FVP_Base"
	fvp_arm_std_library_11_17="fvp:fvp_arm_std_library_${model_version_11_17}_${model_build_11_17};/opt/model/FVP_ARM_Std_Library/FVP_Base"
	fvp_arm_std_library="fvp:fvp_arm_std_library_${model_version}_${model_build};/opt/model/FVP_ARM_Std_Library/FVP_Base"
	fvp_base_aemva="fvp:fvp_base_aemva_${model_version}_${model_build};/opt/model/FVP_Base_AEMvA/models/${model_flavour}"
	fvp_base_revc_2xaemva="fvp:fvp_base_revc-2xaemva_${model_version}_${model_build};/opt/model/Base_RevC_AEMvA_pkg/models/${model_flavour}"
	fvp_base_aemv8a_gic600ae="fvp:fvp_base_aemv8a-gic600ae_${model_version_11_17}_${model_build_11_17};/opt/model/FVP_Base_AEMv8A-GIC600AE_pkg/models/${model_flavour_11_17}"
	fvp_base_aemv8a_aemv8a_aemv8a_aemv8a_ccn502="fvp:fvp_base_aemv8a-aemv8a-aemv8a-aemv8a-ccn502_${model_version_11_17}_${model_build_11_17};/opt/model/FVP_Base_AEMv8A-AEMv8A-AEMv8A-AEMv8A-CCN502_pkg/models/${model_flavour_11_17}"
	foundation_platform="fvp:foundation_platform_${model_version}_${model_build};/opt/model/Foundation_Platformpkg/models/${model_flavour}"
	fvp_base_aemv8r="fvp:fvp_base_aemv8r_${model_version}_${model_build};/opt/model/AEMv8R_base_pkg/models/${model_flavour}"

	# CSS model list
	fvp_morello="fvp:fvp_morello_0.11_33;/opt/model/FVP_Morello/models/Linux64_GCC-6.4"
	fvp_rd_v1="fvp:fvp_rd_v1_${model_version}_${model_build};/opt/model/FVP_RD_V1/models/${model_flavour}"
	fvp_tc1="fvp:fvp_tc1_${model_version}_${model_build};/opt/model/FVP_TC1/models/${model_flavour}"
	fvp_tc2="fvp:fvp_tc2_11.20_24;/opt/model/FVP_TC2/models/${model_flavour}"

	# FVP associate array, run_config are keys and fvp container parameters are the values
	# Container parameters syntax: <model name>;<model dir>;<model bin>
	# FIXMEs: fix those ;;; values with real values

	declare -A fvp_models
	fvp_models=(
	[base-aemv8a-quad]="${fvp_base_aemv8a_aemv8a_aemv8a_aemv8a_ccn502};FVP_Base_AEMv8A-AEMv8A-AEMv8A-AEMv8A-CCN502"
	[base-aemv8a-revb]="${fvp_arm_std_library};FVP_Base_AEMvA-AEMvA"
	[base-aemv8a-latest-revb]="${fvp_arm_std_library};FVP_Base_AEMvA-AEMvA"
	[base-aemva]="${fvp_base_aemva};FVP_Base_AEMvA"
	[base-aemv8a-gic600ae]="${fvp_base_aemv8a_gic600ae};FVP_Base_AEMv8A-GIC600AE"
	[foundationv8]="${foundation_platform};Foundation_Platform"
	[base-aemv8a]="${fvp_base_revc_2xaemva};FVP_Base_RevC-2xAEMvA"
	[cortex-a32x4]="${fvp_arm_std_library_11_12};FVP_Base_Cortex-A32x4"
	[cortex-a35x4]="${fvp_arm_std_library};FVP_Base_Cortex-A35x4"
	[cortex-a53x4]="${fvp_arm_std_library};FVP_Base_Cortex-A53x4"
	[cortex-a55x4]="${fvp_arm_std_library};FVP_Base_Cortex-A55"
	[cortex-a55x4-a75x4]="${fvp_arm_std_library};FVP_Base_Cortex-A55x4+Cortex-A75x4"
	[cortex-a55x4-a76x2]="${fvp_arm_std_library};FVP_Base_Cortex-A55x4+Cortex-A76x2"
	[cortex-a57x1-a53x1]="${fvp_arm_std_library};FVP_Base_Cortex-A57x1-A53x1"
	[cortex-a57x2-a53x4]="${fvp_arm_std_library};FVP_Base_Cortex-A57x2-A53x4"
	[cortex-a57x4]="${fvp_arm_std_library};FVP_Base_Cortex-A57x4"
	[cortex-a57x4-a53x4]="${fvp_arm_std_library};FVP_Base_Cortex-A57x4-A53x4"
	[cortex-a65aex8]="${fvp_arm_std_library};FVP_Base_Cortex-A65AE"
	[cortex-a65x4]="${fvp_arm_std_library};FVP_Base_Cortex-A65"
	[cortex-a72x4]="${fvp_arm_std_library};FVP_Base_Cortex-A72x4"
	[cortex-a72x4-a53x4]="${fvp_arm_std_library};FVP_Base_Cortex-A72x4-A53x4"
	[cortex-a73x4]="${fvp_arm_std_library};FVP_Base_Cortex-A73x4"
	[cortex-a73x4-a53x4]="${fvp_arm_std_library};FVP_Base_Cortex-A73x4-A53x4"
	[cortex-a75x4]="${fvp_arm_std_library};FVP_Base_Cortex-A75"
	[cortex-a76aex4]="${fvp_arm_std_library};FVP_Base_Cortex-A76AE"
	[cortex-a76aex2]="${fvp_arm_std_library};FVP_Base_Cortex-A76AE"
	[cortex-a76x4]="${fvp_arm_std_library};FVP_Base_Cortex-A76"
	[cortex-a77x4]="${fvp_arm_std_library};FVP_Base_Cortex-A77"
	[cortex-a78x4]="${fvp_arm_std_library};FVP_Base_Cortex-A78"
	[cortex-a78aex4]="${fvp_arm_std_library};FVP_Base_Cortex-A78AE"
	[cortex-a78cx4]="${fvp_arm_std_library};FVP_Base_Cortex-A78C"
	[cortex-x2]="${fvp_arm_std_library_11_17};FVP_Base_Cortex-X2x4"
	[cortex-a710]="${fvp_arm_std_library_11_17};FVP_Base_Cortex-A710x4"
	[neoverse_e1x1]="${fvp_arm_std_library};FVP_Base_Neoverse-E1"
	[neoverse_e1x2]="${fvp_arm_std_library};FVP_Base_Neoverse-E1"
	[neoverse_e1x4]="${fvp_arm_std_library};FVP_Base_Neoverse-E1"
	[neoverse_n1]="${fvp_arm_std_library};FVP_Base_Neoverse-N1"
	[neoverse_n2]="${fvp_arm_std_library_11_16};FVP_Base_Neoverse-N1x4"
	[neoverse-v1x4]="${fvp_arm_std_library};FVP_Base_Neoverse-V1"
	[morello]="${fvp_morello};FVP_Morello"
	[css-rdv1]="${fvp_rd_v1};FVP_RD_V1"
	[tc1]="${fvp_tc1};FVP_TC1"
	[tc2]="${fvp_tc2};FVP_TC2"
	[baser-aemv8r]="${fvp_base_aemv8r};FVP_BaseR_AEMv8R"
	)


	# FVP Kernel URLs
	declare -A kernel_list
	kernel_list=(
	[fvp-aarch32-zimage]="$linaro_release/fvp32-latest-busybox-uboot/Image"
	[fvp-busybox-uboot]="$linaro_release/fvp-latest-busybox-uboot/Image"
	[fvp-oe-uboot32]="$linaro_release/fvp32-latest-oe-uboot/Image"
	[fvp-oe-uboot]="$linaro_release/fvp-latest-oe-uboot/Image"
	[fvp-quad-busybox-uboot]="$tfa_downloads/quad_cluster/Image"
	)

	# FVP initrd URLs
	declare -A initrd_list
	initrd_list=(
	[aarch32-ramdisk]="$linaro_release/fvp32-latest-busybox-uboot/ramdisk.img"
	[dummy-ramdisk]="$linaro_release/fvp-latest-oe-uboot/ramdisk.img"
	[dummy-ramdisk32]="$linaro_release/fvp32-latest-oe-uboot/ramdisk.img"
	[default]="$linaro_release/fvp-latest-busybox-uboot/ramdisk.img"
	)

	# For Measured Boot tests using a TA based on OPTEE, it is necessary to use a
	# specific build rather than the default one generated by Jenkins.
	get_ftpm_optee_bin() {
	url="$tfa_downloads/ftpm/optee/tee-header_v2.bin" \
	saveas="bl32.bin" fetch_file
	archive_file "bl32.bin"

	url="$tfa_downloads/ftpm/optee/tee-pager_v2.bin" \
	saveas="bl32_extra1.bin" fetch_file
	archive_file "bl32_extra1.bin"

	# tee-pageable_v2.bin is just a empty file, named as bl32_extra2.bin,
	# so just create the file
	touch "bl32_extra2.bin"
	archive_file "bl32_extra2.bin"
	}

	get_dtb() {
	local dtb_type="${dtb_type:?}"
	local dtb_url
	local dtb_saveas="$workspace/dtb.bin"
	local cc="$(get_tf_opt CROSS_COMPILE)"
	local pp_flags="-P -nostdinc -undef -x assembler-with-cpp"

	case "$dtb_type" in
	"fvp-base-quad-cluster-gicv3-psci")
	# Get the quad-cluster FDT from pdsw area
	dtb_url="$tfa_downloads/quad_cluster/fvp-base-quad-cluster-gicv3-psci.dtb"
	url="$dtb_url" saveas="$dtb_saveas" fetch_file
	;;
	*)
	# Preprocess DTS file
	${cc}gcc -E ${pp_flags} -I"$tf_root/fdts" -I"$tf_root/include" \
	-o "$workspace/${dtb_type}.pre.dts" \
	"$tf_root/fdts/${dtb_type}.dts"
	# Generate DTB file from DTS
	dtc -I dts -O dtb \
	"$workspace/${dtb_type}.pre.dts" -o "$dtb_saveas"
	esac

	archive_file "$dtb_saveas"
	}

	get_rootfs() {
	local tmpdir
	local fs_base="$(echo $(basename $rootfs_url) \| sed 's/\.gz$//')"
	local cached="$project_filer/ci-files/$fs_base"

	if upon "$jenkins_run" && [ -f "$cached" ]; then
	# Job workspace is limited in size, and the root file system is
	# quite large. This means, parallel runs of root file system
	# tests could fail. So, for Jenkins runs, copy and use the root
	# file system image from the $CI_SCRATCH location
	local private="$CI_SCRATCH/$JOB_NAME-$BUILD_NUMBER"
	mkdir -p "$private"
	rm -f "$private/rootfs.bin"
	url="$cached" saveas="$private/rootfs.bin" fetch_file
	ln -s "$private/rootfs.bin" "$archive/rootfs.bin"
	return
	fi

	tmpdir="$(mktempdir)"
	pushd "$tmpdir"
	url="$rootfs_url" saveas="rootfs.bin" fetch_file

	# Possibly, the filesystem image we just downloaded is compressed.
	# Decompress it if required.
	if file "rootfs.bin" \| grep -iq 'gzip compressed data'; then
	echo "Decompressing root file system image rootfs.bin ..."
	gunzip --stdout "rootfs.bin" > uncompressed_fs.bin
	mv uncompressed_fs.bin "rootfs.bin"
	fi

	archive_file "rootfs.bin"
	popd
	}

	fvp_romlib_jmptbl_backup="$(mktempdir)/jmptbl.i"

	fvp_romlib_runtime() {
	local tmpdir="$(mktempdir)"

	# Save BL1 and romlib binaries from original build
	mv "${tf_build_root:?}/${plat:?}/${mode:?}/romlib/romlib.bin" "$tmpdir/romlib.bin"
	mv "${tf_build_root:?}/${plat:?}/${mode:?}/bl1.bin" "$tmpdir/bl1.bin"

	# Patch index file
	cp "${tf_root:?}/plat/arm/board/fvp/jmptbl.i" "$fvp_romlib_jmptbl_backup"
	sed -i '/fdt/ s/.$/&\ patch/' ${tf_root:?}/plat/arm/board/fvp/jmptbl.i

	# Rebuild with patched file
	echo "Building patched romlib:"
	build_tf

	# Retrieve original BL1 and romlib binaries
	mv "$tmpdir/romlib.bin" "${tf_build_root:?}/${plat:?}/${mode:?}/romlib/romlib.bin"
	mv "$tmpdir/bl1.bin" "${tf_build_root:?}/${plat:?}/${mode:?}/bl1.bin"
	}

	fvp_romlib_cleanup() {
	# Restore original index
	mv "$fvp_romlib_jmptbl_backup" "${tf_root:?}/plat/arm/board/fvp/jmptbl.i"
	}


	# Generates the final YAML-based LAVA job definition from a template file.
	#
	# The job definition template is expanded with visibility of all variables that
	# are available from within the function, including those with local scope.
	gen_fvp_yaml() {
	local model="${model:?}"

	local yaml_template_file="$workspace/fvp_template.yaml"
	local yaml_file="$workspace/fvp.yaml"
	local yaml_job_file="$workspace/job.yaml"
	local lava_model_params="$workspace/lava_model_params"

	# this function expects a template, quit if it is not present
	if [ ! -f "$yaml_template_file" ]; then
	echo "warning: gen_fvp_yaml: template $yaml_template_file not available, skipping generating LAVA job"
	return
	fi

	local model_params="${fvp_models[$model]}"
	local model_name="$(echo "${model_params}" \| awk -F ';' '{print $1}')"
	local model_dir="$(echo "${model_params}" \| awk -F ';' '{print $2}')"
	local model_bin="$(echo "${model_params}" \| awk -F ';' '{print $3}')"

	# model params are required for correct yaml creation, quit if empty
	if [ -z "${model_name}" ]; then
	echo "FVP model param 'model_name' variable empty, yaml not produced"
	return
	elif [ -z "${model_dir}" ]; then
	echo "FVP model param 'model_dir' variable empty, yaml not produced"
	return
	elif [ -z "${model_bin}" ]; then
	echo "FVP model param 'model_bin' variable empty, yaml not produced"
	return
	fi

	echo "FVP model params: model_name=$model_name model_dir=$model_dir model_bin=$model_bin"

	# optional parameters, defaults to globals
	local model_dtb="${model_dtb:-$default_model_dtb}"

	if [ -n "${GERRIT_CHANGE_NUMBER}" ]; then
	local gerrit_url="https://review.trustedfirmware.org/c/${GERRIT_CHANGE_NUMBER}/${GERRIT_PATCHSET_NUMBER}"
	elif [ -n "${GERRIT_REFSPEC}" ]; then
	local gerrit_url=$(echo ${GERRIT_REFSPEC} \|
	awk -F/ '{print "https://review.trustedfirmware.org/c/" $4 "/" $5}')
	fi

	docker_registry="${docker_registry:-}"
	docker_registry="$(docker_registry_append)"
	docker_name="${docker_registry}$model_name"
	prompt1='/ #'
	prompt2='root@genericarmv8:~#'
	version_string="\"Fast Models"' [^\\n]+'"\""

	test_config="${TEST_CONFIG}"

	declare -A fvp_artefact_filters=(
	[backup_fip]="backup_fip.bin"
	[bl1]="bl1.bin"
	[bl2]="bl2.bin"
	[bl31]="bl31.bin"
	[bl32]="bl32.bin"
	[busybox]="busybox.bin"
	[cactus_primary]="cactus-primary.pkg"
	[cactus_secondary]="cactus-secondary.pkg"
	[cactus_tertiary]="cactus-tertiary.pkg"
	[coverage_trace_plugin]="coverage_trace.so"
	[dtb]="dtb.bin"
	[el3_payload]="el3_payload.bin"
	[ete_trace]="libete-plugin.so"
	[etm_trace]="ETMv4ExamplePlugin.so"
	[fip_gpt]="fip_gpt.bin"
	[fip]="fip.bin"
	[fvp_spmc_manifest_dtb]="=fvp_spmc_manifest.dtb"
	[fwu_fip]="fwu_fip.bin"
	[generic_trace]="GenericTrace.so"
	[hafnium]="hafnium.bin"
	[image]="kernel.bin"
	[ivy]="ivy.pkg"
	[manifest_dtb]="=manifest.dtb"
	[mcp_fw]="mcp_fw.bin"
	[mcp_ram]="mcp_ram.bin"
	[mcp_rom_hyphen]="mcp-rom.bin"
	[mcp_rom]="mcp_rom.bin"
	[ns_bl1u]="ns_bl1u.bin"
	[ns_bl2u]="ns_bl2u.bin"
	[ramdisk]="initrd.bin\|initrd.img"
	[romlib]="romlib.bin"
	[rootfs]="rootfs.bin"
	[host_flash_fip]="host_flash_fip.bin"
	[rss_rom]="rss_rom.bin"
	[scp_fw]="scp_fw.bin"
	[scp_ram_hyphen]="scp-ram.bin"
	[scp_ram]="scp_ram.bin"
	[scp_rom_hyphen]="scp-rom.bin"
	[scp_rom]="scp_rom.bin"
	[secure_hafnium]="secure_hafnium.bin"
	[spm]="spm.bin"
	[tftf]="tftf.bin"
	[tmp]="tmp.bin"
	[uboot]="uboot.bin"
	)

	declare -A fvp_artefact_urls=(
	[backup_fip]="$(gen_bin_url backup_fip.bin)"
	[bl1]="$(gen_bin_url bl1.bin)"
	[bl2]="$(gen_bin_url bl2.bin)"
	[bl31]="$(gen_bin_url bl31.bin)"
	[bl32]="$(gen_bin_url bl32.bin)"
	[busybox]="$(gen_bin_url busybox.bin.gz)"
	[cactus_primary]="$(gen_bin_url cactus-primary.pkg)"
	[cactus_secondary]="$(gen_bin_url cactus-secondary.pkg)"
	[cactus_tertiary]="$(gen_bin_url cactus-tertiary.pkg)"
	[coverage_trace_plugin]="${coverage_trace_plugin}"
	[dtb]="$(gen_bin_url ${model_dtb})"
	[el3_payload]="$(gen_bin_url el3_payload.bin)"
	[ete_trace]="${tfa_downloads}/FastModelsPortfolio_${model_version}/plugins/${model_flavour}/libete-plugin.so"
	[etm_trace]="${tfa_downloads}/FastModelsPortfolio_${model_version}/plugins/${model_flavour}/ETMv4ExamplePlugin.so"
	[fip]="$(gen_bin_url fip.bin)"
	[fip_gpt]="$(gen_bin_url fip_gpt.bin)"
	[fvp_spmc_manifest_dtb]="$(gen_bin_url fvp_spmc_manifest.dtb)"
	[fwu_fip]="$(gen_bin_url fwu_fip.bin)"
	[generic_trace]="${tfa_downloads}/FastModelsPortfolio_${model_version}/plugins/${model_flavour}/GenericTrace.so"
	[hafnium]="$(gen_bin_url hafnium.bin)"
	[image]="$(gen_bin_url kernel.bin)"
	[ivy]="$(gen_bin_url ivy.pkg)"
	[manifest_dtb]="$(gen_bin_url manifest.dtb)"
	[mcp_fw]="$(gen_bin_url mcp_fw.bin)"
	[mcp_ram]="$(gen_bin_url mcp_ram.bin)"
	[mcp_rom]="$(gen_bin_url mcp_rom.bin)"
	[mcp_rom_hyphen]="$(gen_bin_url mcp-rom.bin)"
	[ns_bl1u]="$(gen_bin_url ns_bl1u.bin)"
	[ns_bl2u]="$(gen_bin_url ns_bl2u.bin)"
	[ramdisk]="$(gen_bin_url initrd.bin)"
	[romlib]="$(gen_bin_url romlib.bin)"
	[rootfs]="$(gen_bin_url rootfs.bin.gz)"
	[host_flash_fip]="$(gen_bin_url host_flash_fip.bin)"
	[rss_rom]="$(gen_bin_url rss_rom.bin)"
	[secure_hafnium]="$(gen_bin_url secure_hafnium.bin)"
	[scp_fw]="$(gen_bin_url scp_fw.bin)"
	[scp_ram]="$(gen_bin_url scp_ram.bin)"
	[scp_ram_hyphen]="$(gen_bin_url scp-ram.bin)"
	[scp_rom]="$(gen_bin_url scp_rom.bin)"
	[scp_rom_hyphen]="$(gen_bin_url scp-rom.bin)"
	[spm]="$(gen_bin_url spm.bin)"
	[tftf]="$(gen_bin_url tftf.bin)"
	[tmp]="$(gen_bin_url tmp.bin)"
	[uboot]="$(gen_bin_url uboot.bin)"
	)

	# In LAVA we don't provide the paths to the artefacts directly, but instead
	# use macros of the form `{XYZ}`. This is a list of regular expression
	# replacements to run on the model parameters file before we add them to the
	# LAVA job definition.
	declare -A fvp_artefact_macros=(
	["[= ]backup_fip.bin"]="={BACKUP_FIP}"
	["[= ]bl1.bin"]="={BL1}"
	["[= ]bl2.bin"]="={BL2}"
	["[= ]bl31.bin"]="={BL31}"
	["[= ]bl32.bin"]="={BL32}"
	["[= ]cactus-primary.pkg"]="={CACTUS_PRIMARY}"
	["[= ]cactus-secondary.pkg"]="={CACTUS_SECONDARY}"
	["[= ]cactus-tertiary.pkg"]="={CACTUS_TERTIARY}"
	["[= ].*coverage_trace.so"]="={COVERAGE_TRACE_PLUGIN}"
	["[= ]fvp_spmc_manifest.dtb"]="={FVP_SPMC_MANIFEST_DTB}"
	["[= ]busybox.bin"]="={BUSYBOX}"
	["[= ]dtb.bin"]="={DTB}"
	["[= ]el3_payload.bin"]="={EL3_PAYLOAD}"
	["[= ].*libete-plugin.so"]="={ETE_TRACE}"
	["[= ].*ETMv4ExamplePlugin.so"]="={ETM_TRACE}"
	["[= ]fip_gpt.bin"]="={FIP_GPT}"
	["[= ]fwu_fip.bin"]="={FWU_FIP}"
	["[= ]fip.bin"]="={FIP}"
	["[= ].*GenericTrace.so"]="={GENERIC_TRACE}"
	["[= ].*/hafnium.bin"]="={HAFNIUM}"
	["[= ]kernel.bin"]="={IMAGE}"
	["[= ]ivy.pkg"]="={IVY}"
	["[= ]manifest.dtb"]="={MANIFEST_DTB}"
	["[= ]mcp_fw.bin"]="={MCP_FW}"
	["[= ]mcp_ram.bin"]="={MCP_RAM}"
	["[= ]mcp_rom.bin"]="={MCP_ROM}"
	["[= ]mcp-rom.bin"]="={MCP_ROM_HYPHEN}"
	["[= ]ns_bl1u.bin"]="={NS_BL1U}"
	["[= ]ns_bl2u.bin"]="={NS_BL2U}"
	["[= ]initrd.bin"]="={RAMDISK}"
	["[= ]initrd.img"]="={RAMDISK}"
	["[= ]romlib.bin"]="={ROMLIB}"
	["[= ]rootfs.bin"]="={ROOTFS}"
	["[= ]host_flash_fip.bin"]="={HOST_FLASH_FIP}"
	["[= ]rss_rom.bin"]="={RSS_ROM}"
	["[= ].*/secure_hafnium.bin"]="={SECURE_HAFNIUM}"
	["[= ]scp_fw.bin"]="={SCP_FW}"
	["[= ]scp_ram.bin"]="={SCP_RAM}"
	["[= ]scp-ram.bin"]="={SCP_RAM_HYPHEN}"
	["[= ]scp_rom.bin"]="={SCP_ROM}"
	["[= ]scp-rom.bin"]="={SCP_ROM_HYPHEN}"
	["[= ]spm.bin"]="={SPM}"
	["[= ]tftf.bin"]="={TFTF}"
	["[= ].*/tmp.bin"]="={TMP}"
	["[= ]uboot.bin"]="={UBOOT}"
	)

	declare -a fvp_artefacts
	filter_artefacts fvp_artefacts fvp_artefact_filters

	lava_model_params="${lava_model_params}" \
	gen_lava_model_params fvp_artefact_macros

	yaml_template_file="$yaml_template_file" \
	yaml_file="$yaml_file" \
	yaml_job_file="$yaml_job_file" \
	gen_lava_job_def fvp_artefacts fvp_artefact_urls
	}

	docker_registry_append() {
	# if docker_registry is empty, just use local docker registry
	[ -z "$docker_registry" ] && return

	local last=-1
	local last_char="${docker_registry:last}"

	if [ "$last_char" != '/' ]; then
	docker_registry="${docker_registry}/";
	fi
	echo "$docker_registry"
	}

	# generate GPT image and archive it
	gen_gpt_bin() {
	raw_image="fip_gpt.bin"
	img_uuid="FB90808A-BA9A-4D42-B9A2-A7A937144AEE"
	img_bank_uuid=`uuidgen`
	disk_uuid=`uuidgen`
	bin="${1:?}"

	# maximum FIP size 2MB
	fip_max_size=2097152
	start_sector=34
	sector_size=512
	num_sectors=$(($fip_max_size/$sector_size))
	bin_size=$(stat -c %s $bin)

	if [[ $fip_max_size -lt $bin_size ]]
	then
	echo "FIP binary ($bin_size bytes) larger than max partition 1" \
	"size ($fip_max_size byte)"
	return
	fi

	# create raw 5MB image
	dd if=/dev/zero of=$raw_image bs=5M count=1

	# create GPT image
	sgdisk -a 1 -U $disk_uuid -n 1:$start_sector:+$num_sectors \
	-c 1:FIP_A -t 1:$img_uuid $raw_image -u $img_bank_uuid

	echo "write binary $bin at sector $start_sector"
	dd if=$bin of=$raw_image bs=$sector_size seek=$start_sector \
	count=$num_sectors conv=notrunc

	archive_file "fip_gpt.bin"
	}

	#corrupt GPT image header and archive it
	corrupt_gpt_bin() {
	bin="${1:?}"

	# Primary GPT header is present in LBA-1 second block after MBR
	# empty the primary GPT header forcing to use backup GPT header
	# and backup GPT entries.
	dd if=/dev/zero of=$bin bs=512 seek=1 count=1 conv=notrunc
	}

	set +u