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- inherit image_types
- #
- # Create an image that can be written onto a SD card using dd.
- #
- # The disk layout used is:
- #
- # 0 -> IMAGE_ROOTFS_ALIGNMENT - reserved for other data
- # IMAGE_ROOTFS_ALIGNMENT -> BOOT_SPACE - bootloader and kernel
- # BOOT_SPACE -> SDIMG_SIZE - rootfs
- #
- # Default Free space = 1.3x
- # Use IMAGE_OVERHEAD_FACTOR to add more space
- # <--------->
- # 4MiB 40MiB SDIMG_ROOTFS
- # <-----------------------> <----------> <---------------------->
- # ------------------------ ------------ ------------------------
- # | IMAGE_ROOTFS_ALIGNMENT | BOOT_SPACE | ROOTFS_SIZE |
- # ------------------------ ------------ ------------------------
- # ^ ^ ^ ^
- # | | | |
- # 0 4MiB 4MiB + 40MiB 4MiB + 40Mib + SDIMG_ROOTFS
- # This image depends on the rootfs image
- IMAGE_TYPEDEP_rpi-sdimg = "${SDIMG_ROOTFS_TYPE}"
- # Set kernel and boot loader
- IMAGE_BOOTLOADER ?= "bcm2835-bootfiles"
- # Kernel image name
- SDIMG_KERNELIMAGE_raspberrypi ?= "kernel.img"
- SDIMG_KERNELIMAGE_raspberrypi2 ?= "kernel7.img"
- SDIMG_KERNELIMAGE_raspberrypi3-64 ?= "kernel8.img"
- # Boot partition volume id
- BOOTDD_VOLUME_ID ?= "${MACHINE}"
- # Boot partition size [in KiB] (will be rounded up to IMAGE_ROOTFS_ALIGNMENT)
- BOOT_SPACE ?= "40960"
- # Set alignment to 4MB [in KiB]
- IMAGE_ROOTFS_ALIGNMENT = "4096"
- # Use an uncompressed ext3 by default as rootfs
- SDIMG_ROOTFS_TYPE ?= "ext3"
- SDIMG_ROOTFS = "${IMGDEPLOYDIR}/${IMAGE_LINK_NAME}.${SDIMG_ROOTFS_TYPE}"
- # For the names of kernel artifacts
- inherit kernel-artifact-names
- do_image_rpi_sdimg[depends] = " \
- parted-native:do_populate_sysroot \
- mtools-native:do_populate_sysroot \
- dosfstools-native:do_populate_sysroot \
- virtual/kernel:do_deploy \
- ${IMAGE_BOOTLOADER}:do_deploy \
- rpi-config:do_deploy \
- ${@bb.utils.contains('MACHINE_FEATURES', 'armstub', 'armstubs:do_deploy', '' ,d)} \
- ${@bb.utils.contains('RPI_USE_U_BOOT', '1', 'u-boot:do_deploy', '',d)} \
- ${@bb.utils.contains('RPI_USE_U_BOOT', '1', 'rpi-u-boot-scr:do_deploy', '',d)} \
- "
- do_image_rpi_sdimg[recrdeps] = "do_build"
- # SD card image name
- SDIMG = "${IMGDEPLOYDIR}/${IMAGE_NAME}.rootfs.rpi-sdimg"
- # Additional files and/or directories to be copied into the vfat partition from the IMAGE_ROOTFS.
- FATPAYLOAD ?= ""
- # SD card vfat partition image name
- SDIMG_VFAT_DEPLOY ?= "${RPI_USE_U_BOOT}"
- SDIMG_VFAT = "${IMAGE_NAME}.vfat"
- SDIMG_LINK_VFAT = "${IMGDEPLOYDIR}/${IMAGE_LINK_NAME}.vfat"
- def split_overlays(d, out, ver=None):
- dts = d.getVar("KERNEL_DEVICETREE")
- # Device Tree Overlays are assumed to be suffixed by '-overlay.dtb' (4.1.x) or by '.dtbo' (4.4.9+) string and will be put in a dedicated folder
- if out:
- overlays = oe.utils.str_filter_out('\S+\-overlay\.dtb$', dts, d)
- overlays = oe.utils.str_filter_out('\S+\.dtbo$', overlays, d)
- else:
- overlays = oe.utils.str_filter('\S+\-overlay\.dtb$', dts, d) + \
- " " + oe.utils.str_filter('\S+\.dtbo$', dts, d)
- return overlays
- IMAGE_CMD_rpi-sdimg () {
- # Align partitions
- BOOT_SPACE_ALIGNED=$(expr ${BOOT_SPACE} + ${IMAGE_ROOTFS_ALIGNMENT} - 1)
- BOOT_SPACE_ALIGNED=$(expr ${BOOT_SPACE_ALIGNED} - ${BOOT_SPACE_ALIGNED} % ${IMAGE_ROOTFS_ALIGNMENT})
- SDIMG_SIZE=$(expr ${IMAGE_ROOTFS_ALIGNMENT} + ${BOOT_SPACE_ALIGNED} + $ROOTFS_SIZE)
- echo "Creating filesystem with Boot partition ${BOOT_SPACE_ALIGNED} KiB and RootFS $ROOTFS_SIZE KiB"
- # Check if we are building with device tree support
- DTS="${KERNEL_DEVICETREE}"
- # Initialize sdcard image file
- dd if=/dev/zero of=${SDIMG} bs=1024 count=0 seek=${SDIMG_SIZE}
- # Create partition table
- parted -s ${SDIMG} mklabel msdos
- # Create boot partition and mark it as bootable
- parted -s ${SDIMG} unit KiB mkpart primary fat32 ${IMAGE_ROOTFS_ALIGNMENT} $(expr ${BOOT_SPACE_ALIGNED} \+ ${IMAGE_ROOTFS_ALIGNMENT})
- parted -s ${SDIMG} set 1 boot on
- # Create rootfs partition to the end of disk
- parted -s ${SDIMG} -- unit KiB mkpart primary ext2 $(expr ${BOOT_SPACE_ALIGNED} \+ ${IMAGE_ROOTFS_ALIGNMENT}) -1s
- parted ${SDIMG} print
- # Create a vfat image with boot files
- BOOT_BLOCKS=$(LC_ALL=C parted -s ${SDIMG} unit b print | awk '/ 1 / { print substr($4, 1, length($4 -1)) / 512 /2 }')
- rm -f ${WORKDIR}/boot.img
- mkfs.vfat -F32 -n "${BOOTDD_VOLUME_ID}" -S 512 -C ${WORKDIR}/boot.img $BOOT_BLOCKS
- mcopy -v -i ${WORKDIR}/boot.img -s ${DEPLOY_DIR_IMAGE}/bcm2835-bootfiles/* ::/ || bbfatal "mcopy cannot copy ${DEPLOY_DIR_IMAGE}/bcm2835-bootfiles/* into boot.img"
- if [ "${@bb.utils.contains("MACHINE_FEATURES", "armstub", "1", "0", d)}" = "1" ]; then
- mcopy -v -i ${WORKDIR}/boot.img -s ${DEPLOY_DIR_IMAGE}/armstubs/${ARMSTUB} ::/ || bbfatal "mcopy cannot copy ${DEPLOY_DIR_IMAGE}/armstubs/${ARMSTUB} into boot.img"
- fi
- if test -n "${DTS}"; then
- # Copy board device trees to root folder
- for dtbf in ${@split_overlays(d, True)}; do
- dtb=`basename $dtbf`
- mcopy -v -i ${WORKDIR}/boot.img -s ${DEPLOY_DIR_IMAGE}/$dtb ::$dtb || bbfatal "mcopy cannot copy ${DEPLOY_DIR_IMAGE}/$dtb into boot.img"
- done
- # Copy device tree overlays to dedicated folder
- mmd -i ${WORKDIR}/boot.img overlays
- for dtbf in ${@split_overlays(d, False)}; do
- dtb=`basename $dtbf`
- mcopy -v -i ${WORKDIR}/boot.img -s ${DEPLOY_DIR_IMAGE}/$dtb ::overlays/$dtb || bbfatal "mcopy cannot copy ${DEPLOY_DIR_IMAGE}/$dtb into boot.img"
- done
- fi
- if [ "${RPI_USE_U_BOOT}" = "1" ]; then
- mcopy -v -i ${WORKDIR}/boot.img -s ${DEPLOY_DIR_IMAGE}/u-boot.bin ::${SDIMG_KERNELIMAGE} || bbfatal "mcopy cannot copy ${DEPLOY_DIR_IMAGE}/u-boot.bin into boot.img"
- mcopy -v -i ${WORKDIR}/boot.img -s ${DEPLOY_DIR_IMAGE}/boot.scr ::boot.scr || bbfatal "mcopy cannot copy ${DEPLOY_DIR_IMAGE}/boot.scr into boot.img"
- if [ ! -z "${INITRAMFS_IMAGE}" -a "${INITRAMFS_IMAGE_BUNDLE}" = "1" ]; then
- mcopy -v -i ${WORKDIR}/boot.img -s ${DEPLOY_DIR_IMAGE}/${KERNEL_IMAGETYPE}-${INITRAMFS_LINK_NAME}.bin ::${KERNEL_IMAGETYPE} || bbfatal "mcopy cannot copy ${DEPLOY_DIR_IMAGE}/${KERNEL_IMAGETYPE}-${INITRAMFS_LINK_NAME}.bin into boot.img"
- else
- mcopy -v -i ${WORKDIR}/boot.img -s ${DEPLOY_DIR_IMAGE}/${KERNEL_IMAGETYPE} ::${KERNEL_IMAGETYPE} || bbfatal "mcopy cannot copy ${DEPLOY_DIR_IMAGE}/${KERNEL_IMAGETYPE} into boot.img"
- fi
- else
- if [ ! -z "${INITRAMFS_IMAGE}" -a "${INITRAMFS_IMAGE_BUNDLE}" = "1" ]; then
- mcopy -v -i ${WORKDIR}/boot.img -s ${DEPLOY_DIR_IMAGE}/${KERNEL_IMAGETYPE}-${INITRAMFS_LINK_NAME}.bin ::${SDIMG_KERNELIMAGE} || bbfatal "mcopy cannot copy ${DEPLOY_DIR_IMAGE}/${KERNEL_IMAGETYPE}-${INITRAMFS_LINK_NAME}.bin into boot.img"
- else
- mcopy -v -i ${WORKDIR}/boot.img -s ${DEPLOY_DIR_IMAGE}/${KERNEL_IMAGETYPE} ::${SDIMG_KERNELIMAGE} || bbfatal "mcopy cannot copy ${DEPLOY_DIR_IMAGE}/${KERNEL_IMAGETYPE} into boot.img"
- fi
- fi
- if [ -n "${FATPAYLOAD}" ] ; then
- echo "Copying payload into VFAT"
- for entry in ${FATPAYLOAD} ; do
- # use bbwarn instead of bbfatal to stop aborting on vfat issues like not supporting .~lock files
- mcopy -v -i ${WORKDIR}/boot.img -s ${IMAGE_ROOTFS}$entry :: || bbwarn "mcopy cannot copy ${IMAGE_ROOTFS}$entry into boot.img"
- done
- fi
- # Add stamp file
- echo "${IMAGE_NAME}" > ${WORKDIR}/image-version-info
- mcopy -v -i ${WORKDIR}/boot.img ${WORKDIR}/image-version-info :: || bbfatal "mcopy cannot copy ${WORKDIR}/image-version-info into boot.img"
- # Deploy vfat partition
- if [ "${SDIMG_VFAT_DEPLOY}" = "1" ]; then
- cp ${WORKDIR}/boot.img ${IMGDEPLOYDIR}/${SDIMG_VFAT}
- ln -sf ${SDIMG_VFAT} ${SDIMG_LINK_VFAT}
- fi
- # Burn Partitions
- dd if=${WORKDIR}/boot.img of=${SDIMG} conv=notrunc seek=1 bs=$(expr ${IMAGE_ROOTFS_ALIGNMENT} \* 1024)
- # If SDIMG_ROOTFS_TYPE is a .xz file use xzcat
- if echo "${SDIMG_ROOTFS_TYPE}" | egrep -q "*\.xz"
- then
- xzcat ${SDIMG_ROOTFS} | dd of=${SDIMG} conv=notrunc seek=1 bs=$(expr 1024 \* ${BOOT_SPACE_ALIGNED} + ${IMAGE_ROOTFS_ALIGNMENT} \* 1024)
- else
- dd if=${SDIMG_ROOTFS} of=${SDIMG} conv=notrunc seek=1 bs=$(expr 1024 \* ${BOOT_SPACE_ALIGNED} + ${IMAGE_ROOTFS_ALIGNMENT} \* 1024)
- fi
- }
- ROOTFS_POSTPROCESS_COMMAND += " rpi_generate_sysctl_config ; "
- rpi_generate_sysctl_config() {
- # systemd sysctl config
- test -d ${IMAGE_ROOTFS}${sysconfdir}/sysctl.d && \
- echo "vm.min_free_kbytes = 8192" > ${IMAGE_ROOTFS}${sysconfdir}/sysctl.d/rpi-vm.conf
- # sysv sysctl config
- IMAGE_SYSCTL_CONF="${IMAGE_ROOTFS}${sysconfdir}/sysctl.conf"
- test -e ${IMAGE_ROOTFS}${sysconfdir}/sysctl.conf && \
- sed -e "/vm.min_free_kbytes/d" -i ${IMAGE_SYSCTL_CONF}
- echo "" >> ${IMAGE_SYSCTL_CONF} && echo "vm.min_free_kbytes = 8192" >> ${IMAGE_SYSCTL_CONF}
- }
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