avs_mtk_voice/meta/meta-mediatek/classes/ramdisk-fitimage-extension....

inherit kernel-uboot-extension

python __anonymous () {
    kerneltype = d.getVar('KERNEL_IMAGETYPE', True)
    if kerneltype == 'fitImage':
        depends = d.getVar("DEPENDS", True)
        depends = "%s u-boot-mkimage-native lz4-native dtc-native" % depends
        d.setVar("DEPENDS", depends)

        # Override KERNEL_IMAGETYPE_FOR_MAKE variable, which is internal
        # to kernel.bbclass . We have to override it, since we pack zImage
        # (at least for now) into the fitImage .
        kernelarch = d.getVar('KERNEL_ARCH', True)
        if kernelarch == 'arm':
                d.setVar("KERNEL_IMAGETYPE_FOR_MAKE", "zImage")
        elif kernelarch == 'arm64':
                d.setVar("KERNEL_IMAGETYPE_FOR_MAKE", "Image")
        else:
                print("please set KERNEL_ARCH variable.")
                sys.exit(1)

        image = d.getVar('INITRAMFS_IMAGE', True)
        if image:
            d.appendVarFlag('do_assemble_fitimage', 'depends', ' ${INITRAMFS_IMAGE}:do_image_complete')
        d.appendVarFlag('do_assemble_fitimage_ramdisk', 'depends', ' ${INITRAMFS_IMAGE}:do_image_complete')
}

#
# Emit the fitImage ITS header
#
fitimage_emit_fit_header() {
        cat << EOF >> fit-image.its
/dts-v1/;

/ {
        description = "U-Boot fitImage for ${DISTRO_NAME}/${PV}/${MACHINE}";
        #address-cells = <1>;
EOF
}

#
# Emit the fitImage section bits
#
# $1 ... Section bit type: imagestart - image section start
#                          confstart  - configuration section start
#                          sectend    - section end
#                          fitend     - fitimage end
#
fitimage_emit_section_maint() {
        case $1 in
        imagestart)
                cat << EOF >> fit-image.its

        images {
EOF
        ;;
        confstart)
                cat << EOF >> fit-image.its

        configurations {
EOF
        ;;
        sectend)
                cat << EOF >> fit-image.its
        };
EOF
        ;;
        fitend)
                cat << EOF >> fit-image.its
};
EOF
        ;;
        esac
}

#
# Emit the fitImage ITS kernel section
#
# $1 ... Image counter
# $2 ... Path to kernel image
# $3 ... Compression type
fitimage_emit_section_kernel() {

        kernel_csum="sha256"

        ENTRYPOINT=${UBOOT_ENTRYPOINT}
        if test -n "${UBOOT_ENTRYSYMBOL}"; then
                ENTRYPOINT=`${HOST_PREFIX}nm ${S}/vmlinux | \
                        awk '$3=="${UBOOT_ENTRYSYMBOL}" {print $1}'`
        fi

        cat << EOF >> fit-image.its
                kernel@${1} {
                        description = "Linux kernel";
                        data = /incbin/("${2}");
                        type = "kernel";
                        arch = "${UBOOT_ARCH}";
                        os = "linux";
                        compression = "${3}";
                        load = <${UBOOT_LOADADDRESS}>;
                        entry = <${ENTRYPOINT}>;
                        hash@1 {
                                algo = "${kernel_csum}";
                        };
                };
EOF
}

#
# Emit the fitImage ITS ramdisk section
#
# $1 ... Image counter
# $2 ... Path to ramdifk image
fitimage_emit_section_ramdisk() {

        ramdisk_csum="sha256"

        cat << EOF >> fit-image.its
                ramdisk@${1} {
                        description = "Ramdisk Image";
                        data = /incbin/("${2}");
                        type = "ramdisk";
                        arch = "${UBOOT_ARCH}";
                        os = "linux";
                        compression = "none";
                        load = <${RAMDISK_LOADADDRESS}>;
                        entry = <${RAMDISK_LOADADDRESS}>;
                        hash@1 {
                                algo = "${ramdisk_csum}";
                        };
                };
EOF
}

#
# Emit the fitImage ITS DTB section
#
# $1 ... Image counter
# $2 ... Path to DTB image
fitimage_emit_section_dtb() {

        dtb_csum="sha256"

        cat << EOF >> fit-image.its
                fdt@${1} {
                        description = "Flattened Device Tree blob";
                        data = /incbin/("${2}");
                        type = "flat_dt";
                        arch = "${UBOOT_ARCH}";
                        compression = "none";
                        load = <${DTB_LOADADDRESS}>;
                        hash@1 {
                                algo = "${dtb_csum}";
                        };
                };
EOF
}

#
# Emit the fitImage ITS configuration section
#
# $1 ... Linux kernel ID
# $2 ... DTB image ID
# $3 ... Ramdisk ID
fitimage_emit_section_config() {

        conf_csum="sha256,rsa2048"
        conf_key_name="dev"

        # Test if we have any DTBs at all
        if [ -z "${2}" ] ; then
                conf_desc="Boot Linux kernel"
                fdt_line=""
        else
                conf_desc="Boot Linux kernel with FDT blob"
                fdt_line="fdt = \"fdt@${2}\";"
        fi
        kernel_line="kernel = \"kernel@${1}\";"

        # Test if we have ramdisk image
        if [ -z "${3}" ] ; then
                ramdisk_line=""
        else
                ramdisk_line="ramdisk = \"ramdisk@${3}\";"
        fi

        cat << EOF >> fit-image.its
                default = "conf@1";
                conf@1 {
                        description = "${conf_desc}";
                        ${kernel_line}
                        ${ramdisk_line}
                        ${fdt_line}
                        signature@1 {
                                algo = "${conf_csum}";
                                key-name-hint="${conf_key_name}";
                                sign-images="fdt","kernel";
                        };
                };
EOF
}

#
# Assemble the ITS format
#
# $1 ... Ramdisk ID
do_assemble_fitimage() {
        cd ${B}
        if test "x${KERNEL_IMAGETYPE}" = "xfitImage" ; then
                kernelcount=1
                dtbcount=""
                ramdiskcount="${1}"
                rm -f fit-image.its

                fitimage_emit_fit_header

                #
                # Step 1: Prepare a kernel image section.
                #
                fitimage_emit_section_maint imagestart

                uboot_prep_kimage
                fitimage_emit_section_kernel "${kernelcount}" linux.bin "${linux_comp}"

                # Step 1.5: Prepare a ramdisk image section.
                #
                if [ "x${ramdiskcount}" = "x1" ] ; then
                        fitimage_emit_section_ramdisk ${ramdiskcount} ${RAMDISK_PATH}
                fi

                #
                # Step 2: Prepare a DTB image section
                #
                if test -n "${KERNEL_DEVICETREE}"; then
                        dtbcount=1
                        for DTB in ${KERNEL_DEVICETREE}; do
                                if echo ${DTB} | grep -q '/dts/'; then
                                        bbwarn "${DTB} contains the full path to the the dts file, but only the dtb name should be used."
                                        DTB=`basename ${DTB} | sed 's,\.dts$,.dtb,g'`
                                fi

                                # go through device tree blob dir for 32/64 bits kernel
                                DTB_PATH="arch/${ARCH}/boot/dts/mediatek/${DTB}"
                                if [ ! -e "${DTB_PATH}" ]; then
                                        DTB_PATH="arch/${ARCH}/boot/dts/${DTB}"
                                        if [ ! -e "${DTB_PATH}" ]; then
                                                DTB_PATH="arch/${ARCH}/boot/${DTB}"
                                        fi
                                fi

                                fitimage_emit_section_dtb ${dtbcount} ${DTB_PATH}
                                dtbcount=`expr ${dtbcount} + 1`
                        done
                fi

                fitimage_emit_section_maint sectend

                # Force the first Kernel and DTB in the default config
                kernelcount=1
                dtbcount=1

                #
                # Step 3: Prepare a configurations section
                #
                fitimage_emit_section_maint confstart

                fitimage_emit_section_config ${kernelcount} ${dtbcount} ${ramdiskcount}

                fitimage_emit_section_maint sectend

                fitimage_emit_section_maint fitend

                #
                # Step 4: Assemble the image
                #

                uboot-mkimage -f fit-image.its arch/${ARCH}/boot/fitImage

                if [ "${SECURE_BOOT_ENABLE}" = "yes" ]; then
                        mkdir -p ./mykeys
                        cp ${MTK_KEY_DIR}/${VERIFIED_KEY}.crt ./mykeys/dev.crt
                        cp ${MTK_KEY_DIR}/${VERIFIED_KEY}.pem ./mykeys/dev.key
                        uboot-mkimage -D "-I dts -O dtb -p 1024" -k ./mykeys -f fit-image.its -r arch/${ARCH}/boot/fitImage
                fi
        fi
}

do_assemble_fitimage_kernel() {
        if test "x${KERNEL_IMAGETYPE}" = "xfitImage" ; then
                do_assemble_fitimage
        fi
}

do_assemble_fitimage_ramdisk() {
        if test "x${KERNEL_IMAGETYPE}" = "xfitImage" -a -n "${INITRAMFS_IMAGE}" ; then
                do_assemble_fitimage 1
        fi
}

addtask assemble_fitimage_kernel before do_install after do_compile
addtask assemble_fitimage_ramdisk before do_deploy after do_install

kernel_do_deploy[vardepsexclude] = "DATETIME"
kernel_do_deploy_append() {
        # Update deploy directory
        if test "x${KERNEL_IMAGETYPE}" = "xfitImage" ; then
                cd ${B}
                echo "Copying fit-image.its source file..."
                its_base_name="${KERNEL_IMAGETYPE}-its-${PV}-${PR}-${MACHINE}-${DATETIME}"
                its_symlink_name=${KERNEL_IMAGETYPE}-its-${MACHINE}
                install -m 0644 fit-image.its ${DEPLOYDIR}/${its_base_name}.its
                linux_bin_base_name="${KERNEL_IMAGETYPE}-linux.bin-${PV}-${PR}-${MACHINE}-${DATETIME}"
                linux_bin_symlink_name=${KERNEL_IMAGETYPE}-linux.bin-${MACHINE}
                install -m 0644 linux.bin ${DEPLOYDIR}/${linux_bin_base_name}.bin
                if test -n "${RECOVERY_KERNEL_DEVICETREE}"; then
                        find arch/${ARCH}/boot/dts -name "${RECOVERY_KERNEL_DEVICETREE}" -exec install -m 0644 {} ${DEPLOYDIR}/${RECOVERY_KERNEL_DEVICETREE} \;
                fi

                cd ${DEPLOYDIR}
                ln -sf ${its_base_name}.its ${its_symlink_name}.its
                ln -sf ${linux_bin_base_name}.bin ${linux_bin_symlink_name}.bin
                ln -nfs ${KERNEL_IMAGETYPE}-${KERNEL_IMAGE_BASE_NAME}.bin boot.img
        fi
}

do_bundle_initramfs() {
        :
}
init project 2022-05-13 08:02:31 +00:00			`inherit kernel-uboot-extension`

			`python __anonymous () {`
			`kerneltype = d.getVar('KERNEL_IMAGETYPE', True)`
			`if kerneltype == 'fitImage':`
			`depends = d.getVar("DEPENDS", True)`
			`depends = "%s u-boot-mkimage-native lz4-native dtc-native" % depends`
			`d.setVar("DEPENDS", depends)`

			`# Override KERNEL_IMAGETYPE_FOR_MAKE variable, which is internal`
			`# to kernel.bbclass . We have to override it, since we pack zImage`
			`# (at least for now) into the fitImage .`
			`kernelarch = d.getVar('KERNEL_ARCH', True)`
			`if kernelarch == 'arm':`
			`d.setVar("KERNEL_IMAGETYPE_FOR_MAKE", "zImage")`
			`elif kernelarch == 'arm64':`
			`d.setVar("KERNEL_IMAGETYPE_FOR_MAKE", "Image")`
			`else:`
			`print("please set KERNEL_ARCH variable.")`
			`sys.exit(1)`

			`image = d.getVar('INITRAMFS_IMAGE', True)`
			`if image:`
			`d.appendVarFlag('do_assemble_fitimage', 'depends', ' ${INITRAMFS_IMAGE}:do_image_complete')`
			`d.appendVarFlag('do_assemble_fitimage_ramdisk', 'depends', ' ${INITRAMFS_IMAGE}:do_image_complete')`
			`}`

			`#`
			`# Emit the fitImage ITS header`
			`#`
			`fitimage_emit_fit_header() {`
			`cat << EOF >> fit-image.its`
			`/dts-v1/;`

			`/ {`
			`description = "U-Boot fitImage for ${DISTRO_NAME}/${PV}/${MACHINE}";`
			`#address-cells = <1>;`
			`EOF`
			`}`

			`#`
			`# Emit the fitImage section bits`
			`#`
			`# $1 ... Section bit type: imagestart - image section start`
			`# confstart - configuration section start`
			`# sectend - section end`
			`# fitend - fitimage end`
			`#`
			`fitimage_emit_section_maint() {`
			`case $1 in`
			`imagestart)`
			`cat << EOF >> fit-image.its`

			`images {`
			`EOF`
			`;;`
			`confstart)`
			`cat << EOF >> fit-image.its`

			`configurations {`
			`EOF`
			`;;`
			`sectend)`
			`cat << EOF >> fit-image.its`
			`};`
			`EOF`
			`;;`
			`fitend)`
			`cat << EOF >> fit-image.its`
			`};`
			`EOF`
			`;;`
			`esac`
			`}`

			`#`
			`# Emit the fitImage ITS kernel section`
			`#`
			`# $1 ... Image counter`
			`# $2 ... Path to kernel image`
			`# $3 ... Compression type`
			`fitimage_emit_section_kernel() {`

			`kernel_csum="sha256"`

			`ENTRYPOINT=${UBOOT_ENTRYPOINT}`
			`if test -n "${UBOOT_ENTRYSYMBOL}"; then`
			ENTRYPOINT=`${HOST_PREFIX}nm ${S}/vmlinux \| \
			awk '$3=="${UBOOT_ENTRYSYMBOL}" {print $1}'`
			`fi`

			`cat << EOF >> fit-image.its`
			`kernel@${1} {`
			`description = "Linux kernel";`
			`data = /incbin/("${2}");`
			`type = "kernel";`
			`arch = "${UBOOT_ARCH}";`
			`os = "linux";`
			`compression = "${3}";`
			`load = <${UBOOT_LOADADDRESS}>;`
			`entry = <${ENTRYPOINT}>;`
			`hash@1 {`
			`algo = "${kernel_csum}";`
			`};`
			`};`
			`EOF`
			`}`

			`#`
			`# Emit the fitImage ITS ramdisk section`
			`#`
			`# $1 ... Image counter`
			`# $2 ... Path to ramdifk image`
			`fitimage_emit_section_ramdisk() {`

			`ramdisk_csum="sha256"`

			`cat << EOF >> fit-image.its`
			`ramdisk@${1} {`
			`description = "Ramdisk Image";`
			`data = /incbin/("${2}");`
			`type = "ramdisk";`
			`arch = "${UBOOT_ARCH}";`
			`os = "linux";`
			`compression = "none";`
			`load = <${RAMDISK_LOADADDRESS}>;`
			`entry = <${RAMDISK_LOADADDRESS}>;`
			`hash@1 {`
			`algo = "${ramdisk_csum}";`
			`};`
			`};`
			`EOF`
			`}`

			`#`
			`# Emit the fitImage ITS DTB section`
			`#`
			`# $1 ... Image counter`
			`# $2 ... Path to DTB image`
			`fitimage_emit_section_dtb() {`

			`dtb_csum="sha256"`

			`cat << EOF >> fit-image.its`
			`fdt@${1} {`
			`description = "Flattened Device Tree blob";`
			`data = /incbin/("${2}");`
			`type = "flat_dt";`
			`arch = "${UBOOT_ARCH}";`
			`compression = "none";`
			`load = <${DTB_LOADADDRESS}>;`
			`hash@1 {`
			`algo = "${dtb_csum}";`
			`};`
			`};`
			`EOF`
			`}`

			`#`
			`# Emit the fitImage ITS configuration section`
			`#`
			`# $1 ... Linux kernel ID`
			`# $2 ... DTB image ID`
			`# $3 ... Ramdisk ID`
			`fitimage_emit_section_config() {`

			`conf_csum="sha256,rsa2048"`
			`conf_key_name="dev"`

			`# Test if we have any DTBs at all`
			`if [ -z "${2}" ] ; then`
			`conf_desc="Boot Linux kernel"`
			`fdt_line=""`
			`else`
			`conf_desc="Boot Linux kernel with FDT blob"`
			`fdt_line="fdt = \"fdt@${2}\";"`
			`fi`
			`kernel_line="kernel = \"kernel@${1}\";"`

			`# Test if we have ramdisk image`
			`if [ -z "${3}" ] ; then`
			`ramdisk_line=""`
			`else`
			`ramdisk_line="ramdisk = \"ramdisk@${3}\";"`
			`fi`

			`cat << EOF >> fit-image.its`
			`default = "conf@1";`
			`conf@1 {`
			`description = "${conf_desc}";`
			`${kernel_line}`
			`${ramdisk_line}`
			`${fdt_line}`
			`signature@1 {`
			`algo = "${conf_csum}";`
			`key-name-hint="${conf_key_name}";`
			`sign-images="fdt","kernel";`
			`};`
			`};`
			`EOF`
			`}`

			`#`
			`# Assemble the ITS format`
			`#`
			`# $1 ... Ramdisk ID`
			`do_assemble_fitimage() {`
			`cd ${B}`
			`if test "x${KERNEL_IMAGETYPE}" = "xfitImage" ; then`
			`kernelcount=1`
			`dtbcount=""`
			`ramdiskcount="${1}"`
			`rm -f fit-image.its`

			`fitimage_emit_fit_header`

			`#`
			`# Step 1: Prepare a kernel image section.`
			`#`
			`fitimage_emit_section_maint imagestart`

			`uboot_prep_kimage`
			`fitimage_emit_section_kernel "${kernelcount}" linux.bin "${linux_comp}"`

			`# Step 1.5: Prepare a ramdisk image section.`
			`#`
			`if [ "x${ramdiskcount}" = "x1" ] ; then`
			`fitimage_emit_section_ramdisk ${ramdiskcount} ${RAMDISK_PATH}`
			`fi`

			`#`
			`# Step 2: Prepare a DTB image section`
			`#`
			`if test -n "${KERNEL_DEVICETREE}"; then`
			`dtbcount=1`
			`for DTB in ${KERNEL_DEVICETREE}; do`
			`if echo ${DTB} \| grep -q '/dts/'; then`
			`bbwarn "${DTB} contains the full path to the the dts file, but only the dtb name should be used."`
			DTB=`basename ${DTB} \| sed 's,\.dts$,.dtb,g'`
			`fi`

			`# go through device tree blob dir for 32/64 bits kernel`
			`DTB_PATH="arch/${ARCH}/boot/dts/mediatek/${DTB}"`
			`if [ ! -e "${DTB_PATH}" ]; then`
			`DTB_PATH="arch/${ARCH}/boot/dts/${DTB}"`
			`if [ ! -e "${DTB_PATH}" ]; then`
			`DTB_PATH="arch/${ARCH}/boot/${DTB}"`
			`fi`
			`fi`

			`fitimage_emit_section_dtb ${dtbcount} ${DTB_PATH}`
			dtbcount=`expr ${dtbcount} + 1`
			`done`
			`fi`

			`fitimage_emit_section_maint sectend`

			`# Force the first Kernel and DTB in the default config`
			`kernelcount=1`
			`dtbcount=1`

			`#`
			`# Step 3: Prepare a configurations section`
			`#`
			`fitimage_emit_section_maint confstart`

			`fitimage_emit_section_config ${kernelcount} ${dtbcount} ${ramdiskcount}`

			`fitimage_emit_section_maint sectend`

			`fitimage_emit_section_maint fitend`

			`#`
			`# Step 4: Assemble the image`
			`#`

			`uboot-mkimage -f fit-image.its arch/${ARCH}/boot/fitImage`

			`if [ "${SECURE_BOOT_ENABLE}" = "yes" ]; then`
			`mkdir -p ./mykeys`
			`cp ${MTK_KEY_DIR}/${VERIFIED_KEY}.crt ./mykeys/dev.crt`
			`cp ${MTK_KEY_DIR}/${VERIFIED_KEY}.pem ./mykeys/dev.key`
			`uboot-mkimage -D "-I dts -O dtb -p 1024" -k ./mykeys -f fit-image.its -r arch/${ARCH}/boot/fitImage`
			`fi`
			`fi`
			`}`

			`do_assemble_fitimage_kernel() {`
			`if test "x${KERNEL_IMAGETYPE}" = "xfitImage" ; then`
			`do_assemble_fitimage`
			`fi`
			`}`

			`do_assemble_fitimage_ramdisk() {`
			`if test "x${KERNEL_IMAGETYPE}" = "xfitImage" -a -n "${INITRAMFS_IMAGE}" ; then`
			`do_assemble_fitimage 1`
			`fi`
			`}`

			`addtask assemble_fitimage_kernel before do_install after do_compile`
			`addtask assemble_fitimage_ramdisk before do_deploy after do_install`

			`kernel_do_deploy[vardepsexclude] = "DATETIME"`
			`kernel_do_deploy_append() {`
			`# Update deploy directory`
			`if test "x${KERNEL_IMAGETYPE}" = "xfitImage" ; then`
			`cd ${B}`
			`echo "Copying fit-image.its source file..."`
			`its_base_name="${KERNEL_IMAGETYPE}-its-${PV}-${PR}-${MACHINE}-${DATETIME}"`
			`its_symlink_name=${KERNEL_IMAGETYPE}-its-${MACHINE}`
			`install -m 0644 fit-image.its ${DEPLOYDIR}/${its_base_name}.its`
			`linux_bin_base_name="${KERNEL_IMAGETYPE}-linux.bin-${PV}-${PR}-${MACHINE}-${DATETIME}"`
			`linux_bin_symlink_name=${KERNEL_IMAGETYPE}-linux.bin-${MACHINE}`
			`install -m 0644 linux.bin ${DEPLOYDIR}/${linux_bin_base_name}.bin`
			`if test -n "${RECOVERY_KERNEL_DEVICETREE}"; then`
			`find arch/${ARCH}/boot/dts -name "${RECOVERY_KERNEL_DEVICETREE}" -exec install -m 0644 {} ${DEPLOYDIR}/${RECOVERY_KERNEL_DEVICETREE} \;`
			`fi`

			`cd ${DEPLOYDIR}`
			`ln -sf ${its_base_name}.its ${its_symlink_name}.its`
			`ln -sf ${linux_bin_base_name}.bin ${linux_bin_symlink_name}.bin`
			`ln -nfs ${KERNEL_IMAGETYPE}-${KERNEL_IMAGE_BASE_NAME}.bin boot.img`
			`fi`
			`}`

			`do_bundle_initramfs() {`
			`:`
			`}`