#!/bin/bash -ex . /build/config/functions BOOTPART_START= BOOTPART_END= BOOT_MOUNTPOINT= ROOTPART_START=1 case $ARCH:$SUBARCH in ppc64el:*) echo "ppc64el disk images are handled separately" exit 0 ;; armhf:raspi2) # matches the size of the snappy image IMAGE_SIZE=$((4*1000*1000*1000)) BOOTPART_START=8192s BOOTPART_END=138M BOOT_MOUNTPOINT=/boot/firmware ;; *) ;; esac create_empty_partition_table() { apt-get install -qqy parted parted "$1" --script -- mklabel msdos } create_empty_partition() { local disk="$1" local part="$2" local start="$3" local end="$4" local bootable="$5" parted_prefix="parted $disk --script --" ${parted_prefix} mkpart primary "$start" "$end" if [ -n "$bootable" ]; then ${parted_prefix} set "$part" B fi ${parted_prefix} print ${parted_prefix} align-check opt "$part" } disk_image=binary/boot/disk.ext4 create_empty_disk_image "${disk_image}" create_empty_partition_table "${disk_image}" ROOTPART=1 ROOT_BOOTABLE=1 if [ -n "$BOOTPART_START" ]; then ROOTPART=2 ROOTPART_START="$BOOTPART_END" ROOT_BOOTABLE= create_empty_partition "$disk_image" 1 "$BOOTPART_START" "$BOOTPART_END" 1 fi create_empty_partition "${disk_image}" "$ROOTPART" "$ROOTPART_START" -1 "$ROOT_BOOTABLE" mount_image "${disk_image}" "$ROOTPART" # Copy the chroot in to the disk make_ext4_partition "${rootfs_dev_mapper}" mkdir mountpoint mount "${rootfs_dev_mapper}" mountpoint if [ -n "$BOOT_MOUNTPOINT" ]; then boot_dev_mapper="${rootfs_dev_mapper%%[0-9]}1" # assume fat32 for now mkfs.vfat -n system-boot "$boot_dev_mapper" mkdir -p "mountpoint/$BOOT_MOUNTPOINT" mount "$boot_dev_mapper" "mountpoint/$BOOT_MOUNTPOINT" fi cp -a chroot/* mountpoint/ setup_mountpoint mountpoint case $ARCH:$SUBARCH in armhf:raspi2) chroot mountpoint flash-kernel \ --machine "Raspberry Pi 2 Model B" # not the best place for this, but neither flash-kernel nor # u-boot have provisions for installing u-boot via maintainer # script /build/config/hooks/raspi2/mkknlimg --dtok \ mountpoint/usr/lib/u-boot/rpi_2/u-boot.bin \ mountpoint/boot/firmware/uboot.bin ;; *) ;; esac case $ARCH in amd64|i386) should_install_grub=1;; *) should_install_grub=0;; esac if [ "${should_install_grub}" -eq 1 ]; then echo "(hd0) ${loop_device}" > mountpoint/tmp/device.map chroot mountpoint grub-install ${loop_device} chroot mountpoint grub-bios-setup \ --boot-image=i386-pc/boot.img \ --core-image=i386-pc/core.img \ --skip-fs-probe \ --device-map=/tmp/device.map \ ${loop_device} rm mountpoint/tmp/device.map fi if [ "$ARCH" = "s390x" ]; then # Do ZIPL install bits # Write out cloudy zipl.conf for future kernel updates cat << EOF > mountpoint/etc/zipl.conf # This has been modified by the cloud image build process [defaultboot] default=ubuntu [ubuntu] target = /boot image = /boot/vmlinuz ramdisk = /boot/initrd.img parameters = root=LABEL=cloudimg-rootfs EOF # Kernel initramfs hooks end up creating a copy # rather than a symlink FIXME pushd mountpoint/boot ln -sf initrd.img-* initrd.img popd # Create bootmap file chroot mountpoint /sbin/zipl -V \ --image=/boot/vmlinuz \ --ramdisk=/boot/initrd.img \ --parameters='root=LABEL=cloudimg-rootfs' \ --target=/boot/ \ --targetbase=$loop_device \ --targettype=SCSI \ --targetblocksize=512 \ --targetoffset=2048 fi if [ -n "$BOOT_MOUNTPOINT" ]; then umount "mountpoint/$BOOT_MOUNTPOINT" fi umount_partition mountpoint rmdir mountpoint clean_loops trap - EXIT