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livecd-rootfs/live-build/ubuntu-cpc/hooks.d/base/disk-image-uefi.binary

425 lines
18 KiB

#!/bin/bash -eux
case $ARCH in
amd64|arm64|armhf|riscv64)
;;
*)
echo "We don't create EFI images for $ARCH."
exit 0
;;
esac
case ${PROJECT:-} in
ubuntu)
IMAGE_STR="# DESKTOP_IMG: This file was created/modified by the Desktop Image build process"
FS_LABEL="desktop-rootfs"
IMAGE_SIZE=12884901888 # 12G
;;
*)
IMAGE_STR="# CLOUD_IMG: This file was created/modified by the Cloud Image build process"
FS_LABEL="cloudimg-rootfs"
;;
esac
if [ "$ARCH" = "armhf" ]; then
IMAGE_SIZE=3758096384 # bump to 3.5G (3584*1024**2); Since Jammy armhf need more then the default 2.2G
fi
# Change image size for preinstalled generic images
if [ -n "${SUBARCH:-}" ]; then
if [ "${SUBARCH:-}" = "generic" ]; then
IMAGE_SIZE=3758096384 # bump to 3.5G (3584*1024**2), due to linux-generic instead of virtual
fi
fi
if [ "$ARCH" = "riscv64" ]; then
IMAGE_SIZE=4831838208 # bump to 4.5G (4608*1024**2); initrd creation fails with "No space left" with 3.5G
fi
. config/binary
. config/functions
create_partitions() {
disk_image="$1"
sgdisk "${disk_image}" --zap-all
case $ARCH in
arm64|armhf)
if [ "${SUBARCH:-}" = "generic" ]; then
sgdisk "${disk_image}" \
--new=15:0:204800 \
--typecode=15:ef00 \
--attributes=15:set:2 \
--new=14::+4M \
--change-name=14:CIDATA \
--new=1:
else
sgdisk "${disk_image}" \
--new=15:0:204800 \
--typecode=15:ef00 \
--new=1:
fi
;;
riscv64)
# same as arm64/armhf, but set bit 2 legacy bios bootable
# on the first partition for uboot
# and have two loader partitions of uboot SPL & real one
# and have CIDATA partition for preinstalled image
if [ -z "${SUBARCH:-}" ]; then
# cloud-image
sgdisk "${disk_image}" \
--set-alignment=2 \
--new=15::+106M \
--typecode=15:ef00 \
--new=1:: \
--attributes=1:set:2
elif [ "${SUBARCH:-}" = "nezha" ] || [ "${SUBARCH:-}" = "licheerv" ]; then
# Nezha/LicheeRV D1 boards
sgdisk "${disk_image}" \
--set-alignment=2 \
--new=13:256:25575 \
--change-name=13:loader1 \
--typecode=13:B161E8AB-7D4B-4DB4-821C-4120A0554A35 \
--new=16:25576:32799 \
--change-name=16:loader2b \
--typecode=16:F79E76D9-AC98-418B-8F31-E17EA24FF07C \
--new=14:32800:43007 \
--change-name=14:loader2 \
--typecode=14:F4FA3898-3478-4941-887D-FCEC4E9E3C05 \
--new=15::+106M \
--typecode=15:ef00 \
--change-name=15:ESP \
--new=12::+4M \
--change-name=12:CIDATA \
--new=1:: \
--attributes=1:set:2
elif [ "${SUBARCH:-}" = "visionfive" ]; then
# VisionFive
sgdisk "${disk_image}" \
--set-alignment=2 \
--new=15::+106M \
--typecode=15:ef00 \
--change-name=15:ESP \
--new=12::+4M \
--change-name=12:CIDATA \
--new=3::+1M \
--change-name=3:uEnv \
--new=1:: \
--attributes=1:set:2
else
# preinstalled server, currently FU540
# FU740 too in the future
sgdisk "${disk_image}" \
--set-alignment=2 \
--new=13:34:2081 \
--change-name=13:loader1 \
--typecode=13:5B193300-FC78-40CD-8002-E86C45580B47 \
--new=14:2082:10239 \
--change-name=14:loader2 \
--typecode=14:2E54B353-1271-4842-806F-E436D6AF6985 \
--new=15::+106M \
--typecode=15:ef00 \
--new=12::+4M \
--change-name=12:CIDATA \
--new=1:: \
--attributes=1:set:2
fi
;;
amd64)
if [ "${SUBARCH:-}" = "generic" ]; then
sgdisk "${disk_image}" \
--new=14::+4M \
--typecode=14:ef02 \
--attributes=14:set:2 \
--new=15::+106M \
--typecode=15:ef00 \
--new=13::+4M \
--change-name=13:CIDATA \
--new=1::
else
sgdisk "${disk_image}" \
--new=14::+4M \
--new=15::+106M \
--new=1::
sgdisk "${disk_image}" \
-t 14:ef02 \
-t 15:ef00
fi
;;
esac
sgdisk "${disk_image}" \
--print
}
create_and_mount_uefi_partition() {
uefi_dev="/dev/mapper${loop_device///dev/}p15"
mountpoint="$1"
mkfs.vfat -F 32 -n UEFI "${uefi_dev}"
mkdir -p "${mountpoint}"/boot/efi
mount "${uefi_dev}" "$mountpoint"/boot/efi
cat << EOF >> "mountpoint/etc/fstab"
LABEL=UEFI /boot/efi vfat umask=0077 0 1
EOF
}
install_grub() {
mkdir mountpoint
mount_partition "${rootfs_dev_mapper}" mountpoint
create_and_mount_uefi_partition mountpoint
echo "(hd0) ${loop_device}" > mountpoint/tmp/device.map
mkdir -p mountpoint/etc/default/grub.d
efi_boot_dir="/boot/efi/EFI/BOOT"
chroot mountpoint mkdir -p "${efi_boot_dir}"
chroot mountpoint apt-get -y update
# UEFI GRUB modules are meant to be used equally by Secure Boot and
# non-Secure Boot systems. If you need an extra module not already
# provided or run into "Secure Boot policy forbids loading X" problems,
# please file a bug against grub2 to include the affected module.
case $ARCH in
arm64)
chroot mountpoint apt-get -qqy install --no-install-recommends shim-signed grub-efi-arm64-signed
efi_target=arm64-efi
if [ "${SUBARCH:-}" = "generic" ]; then
# Server preinstalled image
# Setup cidata sample data & nocloud fallback
# Allows login on first boot with or without metadata
cidata_dev="/dev/mapper${loop_device///dev/}p14"
setup_cidata "${cidata_dev}"
setup_cinocloud mountpoint
fi
;;
armhf)
chroot mountpoint apt-get -qqy install --no-install-recommends grub-efi-arm grub-efi-arm-bin
efi_target=arm-efi
if [ "${SUBARCH:-}" = "generic" ]; then
# Server preinstalled image
# Setup cidata sample data & nocloud fallback
# Allows login on first boot with or without metadata
cidata_dev="/dev/mapper${loop_device///dev/}p14"
setup_cidata "${cidata_dev}"
setup_cinocloud mountpoint
fi
;;
amd64)
chroot mountpoint apt-get install -qqy grub-pc shim-signed
efi_target=x86_64-efi
if [ "${SUBARCH:-}" = "generic" ]; then
# Server preinstalled image
# Setup cidata sample data & nocloud fallback
# Allows login on first boot with or without metadata
cidata_dev="/dev/mapper${loop_device///dev/}p13"
setup_cidata "${cidata_dev}"
setup_cinocloud mountpoint
fi
;;
riscv64)
# TODO grub-efi-riscv64 exists, but is not used by all the images yet
if [ -n "${SUBARCH:-}" ]; then
# Per-device images
case "${SUBARCH}" in
"nezha"|"licheerv")
echo "Installing U-Boot for ${SUBARCH} board" &1>2
# flash-kernel is needed to install the dtb for update-grub: it uses the
# /proc/device-tree/model value to pick the correct dtb and as we are in a chroot,
# the model value is wrong and we need to use /etc/flash-kernel/machine instead.
# This explains why we install flash-kernel here.
chroot mountpoint mkdir -p /etc/flash-kernel/
if [ "$SUBARCH" = "nezha" ]; then
chroot mountpoint bash -c "echo 'Allwinner D1 Nezha' > /etc/flash-kernel/machine"
elif [ "$SUBARCH" = "licheerv" ]; then
chroot mountpoint bash -c "echo 'Sipeed Lichee RV Dock' > /etc/flash-kernel/machine"
# cryptsetup-initramfs is a large contributor of the initrd size: we have to
# remove it for the LicheeRV board, otherwise it fails to boot. cryptsetup-initramfs
# needs to embed plymouth (and then the drm/gpu stuff) for interacting with the user
# to decrypt the rootfs (passphrase key).
chroot mountpoint bash -c "apt remove -qqy cryptsetup-initramfs"
fi
chroot mountpoint bash -c 'FK_FORCE=yes apt-get install -qqy grub-efi-riscv64 flash-kernel'
efi_target=riscv64-efi
# nezha-boot0 is actually compatible with the LicheeRV boards (and probably other D1-based boards)
chroot mountpoint apt-get install -qqy nezha-boot0
# FSBL, which gets U-Boot SPL
loader1="/dev/mapper${loop_device///dev/}p13"
dd if=mountpoint/usr/lib/u-boot/nezha/boot0_sdcard_sun20iw1p1.bin of=$loader1
# The real U-Boot
chroot mountpoint apt-get install -qqy u-boot-${SUBARCH}
loader2="/dev/mapper${loop_device///dev/}p14"
dd if=mountpoint/usr/lib/u-boot/${SUBARCH}/u-boot.toc1 of=$loader2
# Provide end-user modifyable CIDATA
cidata_dev="/dev/mapper${loop_device///dev/}p12"
setup_cidata "${cidata_dev}"
# Provide stock nocloud datasource
# Allow interactive login on baremetal SiFive board,
# without a cloud datasource.
setup_cinocloud mountpoint
# u-boot-${SUBARCH} will boot using UEFI if it does not find
# any extlinux.conf or boot.scr: but flash-kernel will
# install a boot.scr if it believes it did not boot in
# EFI mode, so make sure we don't leave a boot.scr
# behind.
chroot mountpoint rm -f /boot/boot.scr
;;
"visionfive")
echo "Installing GRUB for VisionFive board" &1>2
# flash-kernel is needed to install the dtb for update-grub: it uses the
# /proc/device-tree/model value to pick the correct dtb and as we are in a chroot,
# the model value is wrong and we need to use /etc/flash-kernel/machine instead.
# This explains why we install flash-kernel here.
chroot mountpoint mkdir -p /etc/flash-kernel/
chroot mountpoint bash -c "echo 'StarFive VisionFive V1' > /etc/flash-kernel/machine"
chroot mountpoint bash -c 'FK_FORCE=yes apt-get install -qqy grub-efi-riscv64 flash-kernel'
efi_target=riscv64-efi
# factory u-boot requires a p3 partition with /boot/uEnv.txt file
uenv_dev="/dev/mapper${loop_device///dev/}p3"
mkfs.ext4 "${uenv_dev}"
uenv_mnt_dir=`mktemp -d uenvXXX`
mount "${uenv_dev}" "${uenv_mnt_dir}"
mkdir -p "${uenv_mnt_dir}"/boot
cat <<'EOF' >${uenv_mnt_dir}/boot/uEnv.txt
scriptaddr=0x88100000
script_offset_f=0x1fff000
script_size_f=0x1000
kernel_addr_r=0x84000000
kernel_comp_addr_r=0x90000000
kernel_comp_size=0x10000000
fdt_addr_r=0x88000000
ramdisk_addr_r=0x88300000
bootcmd=load mmc 0:f ${kernel_addr_r} /EFI/ubuntu/grubriscv64.efi; bootefi ${kernel_addr_r}
bootcmd_mmc0=devnum=0; run mmc_boot
ipaddr=192.168.120.200
netmask=255.255.255.0
EOF
umount "${uenv_mnt_dir}"
rmdir "${uenv_mnt_dir}"
# Provide end-user modifyable CIDATA
cidata_dev="/dev/mapper${loop_device///dev/}p12"
setup_cidata "${cidata_dev}"
# Provide stock nocloud datasource
# Allow interactive login on baremetal SiFive board,
# without a cloud datasource.
setup_cinocloud mountpoint
;;
*)
chroot mountpoint apt-get install -qqy u-boot-menu #grub-efi-riscv64
efi_target=riscv64-efi
chroot mountpoint u-boot-update
u_boot_arch="${SUBARCH}"
if [ "${u_boot_arch}" = "hifive" ]; then
u_boot_arch=sifive_fu540
fi
chroot mountpoint apt-get install -qqy u-boot-sifive
# FSBL, which gets U-Boot SPL
loader1="/dev/mapper${loop_device///dev/}p13"
# The real U-Boot
loader2="/dev/mapper${loop_device///dev/}p14"
dd if=mountpoint/usr/lib/u-boot/${u_boot_arch}/u-boot-spl.bin of=$loader1
dd if=mountpoint/usr/lib/u-boot/${u_boot_arch}/u-boot.itb of=$loader2
# Provide end-user modifyable CIDATA
cidata_dev="/dev/mapper${loop_device///dev/}p12"
setup_cidata "${cidata_dev}"
# Provide stock nocloud datasource
# Allow interactive login on baremetal SiFive board,
# without a cloud datasource.
setup_cinocloud mountpoint
;;
esac
else
# Other images e.g. cloud images
chroot mountpoint apt-get install -qqy u-boot-menu #grub-efi-riscv64
efi_target=riscv64-efi
chroot mountpoint u-boot-update
fi
if [ "${SUBARCH:-}" != "visionfive" ] && [ "${SUBARCH:-}" != "nezha" ] && [ "${SUBARCH:-}" != "licheerv" ]; then
## TODO remove below once we have grub-efi-riscv64 for the platforms
rm mountpoint/tmp/device.map
umount mountpoint/boot/efi
mount
umount_partition mountpoint
rmdir mountpoint
return
##
fi
;;
esac
chroot mountpoint apt-get autoremove --purge --assume-yes
chroot mountpoint grub-install "${loop_device}" \
--boot-directory=/boot \
--efi-directory=/boot/efi \
--target=${efi_target} \
--uefi-secure-boot \
--no-nvram
if [ "$ARCH" = "amd64" ]; then
# Install the BIOS/GPT bits. Since GPT boots from the ESP partition,
# it means that we just run this simple command and we're done
chroot mountpoint grub-install --target=i386-pc "${loop_device}"
fi
# Use the linux-kvm kernel for minimal images where available
# linux-kvm currently only exists for amd64
if [ "${SUBPROJECT:-}" = "minimized" ] && [ "$ARCH" = "amd64" ]; then
replace_kernel mountpoint linux-kvm
fi
# This call to rewrite the debian package manifest is added here to capture
# grub-efi packages that otherwise would not make it into the base
# manifest. filesystem.packages is moved into place via symlinking to
# livecd.ubuntu-cpc.manifest by live-build/auto/build after lb_binary runs
# and at that time snaps are added to the manifest (create-manifest is
# not called here as it calls snap-seed-parse, resulting in duplicate
# snap listings)
chroot mountpoint dpkg-query -W > binary/boot/filesystem.packages
divert_grub mountpoint
track_initramfs_boot_fallback mountpoint
chroot mountpoint update-grub
replace_grub_root_with_label mountpoint
undivert_grub mountpoint
chroot mountpoint apt-get -y clean
rm mountpoint/tmp/device.map
umount mountpoint/boot/efi
mount
umount_partition mountpoint
rmdir mountpoint
}
disk_image=binary/boot/disk-uefi.ext4
create_empty_disk_image "${disk_image}"
create_partitions "${disk_image}"
mount_image "${disk_image}" 1
# Copy the chroot in to the disk
make_ext4_partition "${rootfs_dev_mapper}"
mkdir mountpoint
mount "${rootfs_dev_mapper}" mountpoint
cp -a chroot/* mountpoint/
umount mountpoint
rmdir mountpoint
install_grub
clean_loops
trap - EXIT