4fd2a6297f
- Why I did it Add Secure Boot support to SONiC OS. Secure Boot (SB) is a verification mechanism for ensuring that code launched by a computer's UEFI firmware is trusted. It is designed to protect a system against malicious code being loaded and executed early in the boot process before the operating system has been loaded. - How I did it Added a signing process to sign the following components: shim, grub, Linux kernel, and kernel modules when doing the build, and when feature is enabled in build time according to the HLD explanations (the feature is disabled by default). - How to verify it There are self-verifications of each boot component when building the image, in addition, there is an existing end-to-end test in sonic-mgmt repo that checks that the boot succeeds when loading a secure system (details below). How to build a sonic image with secure boot feature: (more description in HLD) Required to use the following build flags from rules/config: SECURE_UPGRADE_MODE="dev" SECURE_UPGRADE_DEV_SIGNING_KEY="/path/to/private/key.pem" SECURE_UPGRADE_DEV_SIGNING_CERT="/path/to/cert/key.pem" After setting those flags should build the sonic-buildimage. Before installing the image, should prepared the setup (switch device) with the follow: check that the device support UEFI stored pub keys in UEFI DB enabled Secure Boot flag in UEFI How to run a test that verify the Secure Boot flow: The existing test "test_upgrade_path" under "sonic-mgmt/tests/upgrade_path/test_upgrade_path", is enough to validate proper boot You need to specify the following arguments: Base_image_list your_secure_image Taget_image_list your_second_secure_image Upgrade_type cold And run the test, basically the test will install the base image given in the parameter and then upgrade to target image by doing cold reboot and validates all the services are up and working correctly Co-authored-by: davidpil2002 <91657985+davidpil2002@users.noreply.github.com>
627 lines
22 KiB
Bash
Executable File
627 lines
22 KiB
Bash
Executable File
#!/bin/sh
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# Pick up console port and speed from install enviroment if not defined yet.
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# Console port and speed setting in cmdline is like "console=ttyS0,9600n",
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# so we can use pattern 'console=ttyS[0-9]+,[0-9]+' to match it.
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# If failed to get the speed and ttyS from cmdline then set them to default: ttyS0 and 9600
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if [ -z "$CONSOLE_PORT" ]; then
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console_ttys=$(cat /proc/cmdline | grep -Eo 'console=ttyS[0-9]+' | cut -d "=" -f2)
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if [ -z "$console_ttys" -o "$console_ttys" = "ttyS0" ]; then
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CONSOLE_PORT=0x3f8
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CONSOLE_DEV=0
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elif [ "$console_ttys" = "ttyS1" ]; then
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CONSOLE_PORT=0x2f8
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CONSOLE_DEV=1
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elif [ "$console_ttys" = "ttyS2" ]; then
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CONSOLE_PORT=0x3e8
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CONSOLE_DEV=2
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elif [ "$console_ttys" = "ttyS3" ]; then
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CONSOLE_PORT=0x2e8
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CONSOLE_DEV=3
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fi
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fi
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if [ -z "$CONSOLE_SPEED" ]; then
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speed=$(cat /proc/cmdline | grep -Eo 'console=ttyS[0-9]+,[0-9]+' | cut -d "," -f2)
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if [ -z "$speed" ]; then
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CONSOLE_SPEED=9600
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else
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CONSOLE_SPEED=$speed
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fi
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fi
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create_partition()
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{
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# Install demo on same block device as ONIE
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if [ "$install_env" != "build" ]; then
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onie_dev=$(blkid | grep ONIE-BOOT | head -n 1 | awk '{print $1}' | sed -e 's/:.*$//')
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blk_dev=$(echo $onie_dev | sed -e 's/[1-9][0-9]*$//' | sed -e 's/\([0-9]\)\(p\)/\1/')
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# check if we have an nvme device
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blk_suffix=
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echo $blk_dev | grep -q nvme0 && blk_suffix="p"
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# Note: ONIE has no mount setting for / with device node, so below will be empty string
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cur_part=$(cat /proc/mounts | awk "{ if(\$2==\"/\") print \$1 }" | grep $blk_dev || true)
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[ -b "$blk_dev" ] || {
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echo "Error: Unable to determine block device of ONIE install"
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exit 1
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}
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fi
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# auto-detect whether BIOS or UEFI
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if [ -d "/sys/firmware/efi/efivars" ] ; then
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firmware="uefi"
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else
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firmware="bios"
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fi
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if [ "$install_env" = "onie" ]; then
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# determine ONIE partition type
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onie_partition_type=$(${onie_bin} onie-sysinfo -t)
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# demo partition size in MB
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if [ "$firmware" = "uefi" ] ; then
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create_demo_uefi_partition $blk_dev
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elif [ "$onie_partition_type" = "gpt" ] ; then
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create_demo_gpt_partition $blk_dev
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elif [ "$onie_partition_type" = "msdos" ] ; then
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create_demo_msdos_partition $blk_dev
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else
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echo "ERROR: Unsupported partition type: $onie_partition_type"
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exit 1
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fi
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fi
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}
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mount_partition()
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{
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demo_dev=$(echo $blk_dev | sed -e 's/\(mmcblk[0-9]\)/\1p/')$demo_part
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echo $blk_dev | grep -q nvme0 && demo_dev=$(echo $blk_dev | sed -e 's/\(nvme[0-9]n[0-9]\)/\1p/')$demo_part
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# Make filesystem
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mkfs.ext4 -L $demo_volume_label $demo_dev
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# Mount demo filesystem
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demo_mnt=$(${onie_bin} mktemp -d) || {
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echo "Error: Unable to create file system mount point"
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exit 1
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}
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trap_push "${onie_bin} fuser -km $demo_mnt || ${onie_bin} umount $demo_mnt || ${onie_bin} rmdir $demo_mnt || true"
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${onie_bin} mount -t ext4 -o defaults,rw $demo_dev $demo_mnt || {
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echo "Error: Unable to mount $demo_dev on $demo_mnt"
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exit 1
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}
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}
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# Creates a new partition for the DEMO OS.
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#
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# arg $1 -- base block device
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#
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# Returns the created partition number in $demo_part
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demo_part=""
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# TODO: remove reference to "ACS-OS" after all baseimages are upgraded
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legacy_volume_label="ACS-OS"
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create_demo_gpt_partition()
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{
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blk_dev="$1"
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# Create a temp fifo and store string in variable
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tmpfifo=$(mktemp -u)
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trap_push "rm $tmpfifo || true"
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mkfifo -m 600 "$tmpfifo"
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# See if demo partition already exists
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demo_part=$(sgdisk -p $blk_dev | grep -e "$demo_volume_label" -e "$legacy_volume_label" | awk '{print $1}')
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if [ -n "$demo_part" ] ; then
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# delete existing partitions
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# if there are multiple partitions matched, we should delete each one, except the current OS's
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# Note: You can use any character as a separator for sed, not just '/'
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echo "$demo_part" > $tmpfifo &
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while read -r part_index; do
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if [ "$blk_dev$part_index" = "$cur_part" ]; then continue; fi
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echo "deleting partition $part_index ..."
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# if the partition is already mounted, umount first
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df $blk_dev$part_index 2>/dev/null && {
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umount $blk_dev$part_index || {
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echo "Error: Unable to umount $blk_dev$part_index"
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exit 1
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}
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}
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sgdisk -d $part_index $blk_dev || {
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echo "Error: Unable to delete partition $part_index on $blk_dev"
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exit 1
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}
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partprobe || {
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echo "Error: Unable to partprobe"
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exit 1
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}
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done < $tmpfifo
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fi
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# ASSUME: there are no more than 99999 partitions in a block device
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all_part=$(sgdisk -p $blk_dev | awk "{if (\$1 > 0 && \$1 <= 99999) print \$1}")
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# Get the index of last partition
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# Note: the double quotation marks for echo argument are necessary, otherwise the unquoted version replaces each sequence of
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# one or more blanks, tabs and newlines with a single space.
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# Ref: http://stackoverflow.com/questions/613572/capturing-multiple-line-output-to-a-bash-variable
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last_part=$(echo "$all_part" | tail -n 1 | awk '{print $1}')
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# Find next available partition
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demo_part=1
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echo "$all_part" > $tmpfifo &
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# Find the first available partition number
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while read -r used_part; do
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echo "Partition #$used_part is in use."
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if [ "$used_part" -ne "$demo_part" ]; then break; fi
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demo_part=`expr $demo_part + 1`
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done < $tmpfifo
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echo "Partition #$demo_part is available"
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# Create new partition
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echo "Creating new $demo_volume_label partition ${blk_dev}${blk_suffix}$demo_part ..."
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if [ "$demo_type" = "DIAG" ] ; then
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# set the GPT 'system partition' attribute bit for the DIAG
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# partition.
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attr_bitmask="0x1"
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else
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attr_bitmask="0x0"
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fi
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sgdisk --new=${demo_part}::+${demo_part_size}MB \
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--attributes=${demo_part}:=:$attr_bitmask \
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--change-name=${demo_part}:$demo_volume_label $blk_dev \
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|| {
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echo "Warning: The first trial of creating partition failed, trying the largest aligned available block of sectors on the disk"
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begin=$(sgdisk -F $blk_dev)
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end=$(sgdisk -E $blk_dev)
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sgdisk --new=${demo_part}:$begin:$end \
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--attributes=${demo_part}:=:$attr_bitmask \
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--change-name=${demo_part}:$demo_volume_label $blk_dev
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} || {
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echo "Error: Unable to create partition $demo_part on $blk_dev"
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exit 1
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}
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## If running in normal Linux, partprobe will complain as below and return non-zero
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## Error: Partition(s) 4 on /dev/sda have been written, but we have been unable to inform the kernel of the change,
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## probably because it/they are in use. As a result, the old partition(s) will remain in use. You should reboot now
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## before making further changes.
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partprobe || true
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}
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create_demo_msdos_partition()
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{
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blk_dev="$1"
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# See if demo partition already exists -- look for the filesystem
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# label.
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part_info="$(blkid | grep -e "$demo_volume_label" -e "$legacy_volume_label" | awk -F: '{print $1}')"
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if [ -n "$part_info" ] ; then
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# delete existing partition
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demo_part="$(echo -n $part_info | sed -e s#${blk_dev}##)"
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parted -s $blk_dev rm $demo_part || {
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echo "Error: Unable to delete partition $demo_part on $blk_dev"
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exit 1
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}
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partprobe
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fi
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# Find next available partition
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last_part_info="$(parted -s -m $blk_dev unit s print | tail -n 1)"
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last_part_num="$(echo -n $last_part_info | awk -F: '{print $1}')"
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last_part_end="$(echo -n $last_part_info | awk -F: '{print $3}')"
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# Remove trailing 's'
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last_part_end=${last_part_end%s}
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demo_part=$(( $last_part_num + 1 ))
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demo_part_start=$(( $last_part_end + 1 ))
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# sectors_per_mb = (1024 * 1024) / 512 = 2048
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sectors_per_mb=2048
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demo_part_end=$(( $demo_part_start + ( $demo_part_size * $sectors_per_mb ) - 1 ))
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# Create new partition
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echo "Creating new partition ${blk_dev}$demo_part ..."
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parted -s --align optimal $blk_dev unit s \
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mkpart primary $demo_part_start $demo_part_end set $demo_part boot on || {
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echo "ERROR: Problems creating msdos partition $demo_part on: $blk_dev"
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exit 1
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}
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partprobe
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}
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# For UEFI systems, create a new partition for the DEMO OS.
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#
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# arg $1 -- base block device
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#
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# Returns the created partition number in $demo_part
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create_demo_uefi_partition()
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{
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create_demo_gpt_partition "$1"
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# erase any related EFI BootOrder variables from NVRAM.
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for b in $(efibootmgr | grep -e "$demo_volume_label" -e "$legacy_volume_label" | awk '{ print $1 }') ; do
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local num=${b#Boot}
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# Remove trailing '*'
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num=${num%\*}
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efibootmgr -b $num -B > /dev/null 2>&1
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done
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}
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# Install legacy BIOS GRUB for DEMO OS
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demo_install_grub()
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{
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local demo_mnt="$1"
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local blk_dev="$2"
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# Pretend we are a major distro and install GRUB into the MBR of
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# $blk_dev.
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grub-install --boot-directory="$onie_initrd_tmp/$demo_mnt" --recheck "$blk_dev" || {
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echo "ERROR: grub-install failed on: $blk_dev"
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exit 1
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}
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if [ "$demo_type" = "DIAG" ] ; then
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# Install GRUB in the partition also. This allows for
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# chainloading the DIAG image from another OS.
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#
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# We are installing GRUB in a partition, as opposed to the
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# MBR. With this method block lists are used to refer to the
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# the core.img file. The sector locations of core.img may
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# change whenever the file system in the partition is being
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# altered (files copied, deleted etc.). For more info, see
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# https://bugzilla.redhat.com/show_bug.cgi?id=728742 and
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# https://bugzilla.redhat.com/show_bug.cgi?id=730915.
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#
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# The workaround for this is to set the immutable flag on
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# /boot/grub/i386-pc/core.img using the chattr command so that
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# the sector locations of the core.img file in the disk is not
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# altered. The immutable flag on /boot/grub/i386-pc/core.img
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# needs to be set only if GRUB is installed to a partition
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# boot sector or a partitionless disk, not in case of
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# installation to MBR.
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core_img="$demo_mnt/grub/i386-pc/core.img"
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# remove immutable flag if file exists during the update.
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[ -f "$core_img" ] && chattr -i $core_img
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grub_install_log=$(mktemp)
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grub-install --force --boot-directory="$onie_initrd_tmp/$demo_mnt" \
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--recheck "$demo_dev" > /$grub_install_log 2>&1 || {
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echo "ERROR: grub-install failed on: $demo_dev"
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cat $grub_install_log && rm -f $grub_install_log
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exit 1
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}
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rm -f $grub_install_log
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# restore immutable flag on the core.img file as discussed
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# above.
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[ -f "$core_img" ] && chattr +i $core_img
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fi
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}
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# Install UEFI BIOS GRUB for DEMO OS
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demo_install_uefi_grub()
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{
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local demo_mnt="$1"
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local blk_dev="$2"
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# make sure /boot/efi is mounted
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if ! mount | grep -q "/boot/efi"; then
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mount /boot/efi
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fi
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# Look for the EFI system partition UUID on the same block device as
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# the ONIE-BOOT partition.
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local uefi_part=0
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for p in $(seq 8) ; do
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if sgdisk -i $p $blk_dev | grep -q C12A7328-F81F-11D2-BA4B-00A0C93EC93B ; then
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uefi_part=$p
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break
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fi
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done
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[ $uefi_part -eq 0 ] && {
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echo "ERROR: Unable to determine UEFI system partition"
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exit 1
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}
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grub_install_log=$(mktemp)
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grub-install \
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--no-nvram \
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--bootloader-id="$demo_volume_label" \
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--efi-directory="/boot/efi" \
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--boot-directory="$demo_mnt" \
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--recheck \
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"$blk_dev" > /$grub_install_log 2>&1 || {
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echo "ERROR: grub-install failed on: $blk_dev"
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cat $grub_install_log && rm -f $grub_install_log
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exit 1
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}
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rm -f $grub_install_log
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# Configure EFI NVRAM Boot variables. --create also sets the
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# new boot number as active.
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grub=$(find /boot/efi/EFI/$demo_volume_label/ -name grub*.efi -exec basename {} \;)
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efibootmgr --quiet --create \
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--label "$demo_volume_label" \
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--disk $blk_dev --part $uefi_part \
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--loader "/EFI/$demo_volume_label/$grub" || {
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echo "ERROR: efibootmgr failed to create new boot variable on: $blk_dev"
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exit 1
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}
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}
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# Install UEFI BIOS SHIM for DEMO OS
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demo_install_uefi_shim()
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{
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echo "demo_install_uefi_shim(): Installing Secure Boot components"
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local demo_mnt="$1"
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local blk_dev="$2"
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# make sure /boot/efi is mounted
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if ! mount | grep -q "/boot/efi"; then
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mount /boot/efi || {
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echo "Error: Unable to mount /boot/efi"
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exit 1
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}
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fi
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# Look for the EFI system partition UUID on the same block device as
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# the ONIE-BOOT partition.
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local uefi_part=0
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for p in $(seq 8) ; do
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if sgdisk -i $p $blk_dev | grep -q C12A7328-F81F-11D2-BA4B-00A0C93EC93B ; then
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uefi_part=$p
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break
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fi
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done
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[ $uefi_part -eq 0 ] && {
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echo "ERROR: Unable to determine UEFI system partition"
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exit 1
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}
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echo "creating demo_volume_label=$demo_volume_label in dir: /boot/efi/EFI/ ."
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mkdir -p /boot/efi/EFI/$demo_volume_label
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if [ ! -f $demo_mnt/$image_dir/boot/mmx64.efi ]; then
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echo "ERROR: $demo_mnt/$image_dir/boot/mmx64.efi file does not exist"
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exit 1
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fi
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if [ ! -f $demo_mnt/$image_dir/boot/shimx64.efi ]; then
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echo "ERROR: $demo_mnt/$image_dir/boot/shimx64.efi file does not exist"
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exit 1
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fi
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if [ ! -f $demo_mnt/$image_dir/boot/grubx64.efi ]; then
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echo "ERROR: $demo_mnt/$image_dir/boot/grubx64.efi file does not exist"
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exit 1
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fi
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echo "copying signed shim, mm, grub, grub.cfg from $demo_mnt/$image_dir/boot/ to /boot/efi/EFI/$demo_volume_label directory"
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cp $demo_mnt/$image_dir/boot/mmx64.efi /boot/efi/EFI/$demo_volume_label/mmx64.efi
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cp $demo_mnt/$image_dir/boot/shimx64.efi /boot/efi/EFI/$demo_volume_label/shimx64.efi
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cp $demo_mnt/$image_dir/boot/grubx64.efi /boot/efi/EFI/$demo_volume_label/grubx64.efi
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# Configure EFI NVRAM Boot variables. --create also sets the
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# new boot number as active.
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efibootmgr --quiet --create \
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--label "$demo_volume_label" \
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--disk $blk_dev --part $uefi_part \
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--loader "/EFI/$demo_volume_label/shimx64.efi" || {
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echo "ERROR: efibootmgr failed to create new boot variable on: $blk_dev"
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exit 1
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}
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echo "demo_install_uefi_shim(): Secure Boot components installed successfully"
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}
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bootloader_menu_config()
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{
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if [ "$install_env" = "onie" ]; then
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# Store installation log in target file system
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rm -f $onie_initrd_tmp/tmp/onie-support*.tar.bz2
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${onie_bin} onie-support /tmp
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mv $onie_initrd_tmp/tmp/onie-support*.tar.bz2 $demo_mnt/$image_dir/
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if [ "$firmware" = "uefi" ] ; then
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secure_boot_state=$(mokutil --sb-state)
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echo secure_boot_state=$secure_boot_state
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if [ "$secure_boot_state" = "SecureBoot enabled" ]; then
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echo "UEFI Secure Boot is enabled"
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demo_install_uefi_shim "$demo_mnt" "$blk_dev"
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else
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echo "UEFI Secure Boot is disabled"
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demo_install_uefi_grub "$demo_mnt" "$blk_dev"
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fi
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else
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demo_install_grub "$demo_mnt" "$blk_dev"
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fi
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fi
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# Create a minimal grub.cfg that allows for:
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# - configure the serial console
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# - allows for grub-reboot to work
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# - a menu entry for the DEMO OS
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# - menu entries for ONIE
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grub_cfg=$(mktemp)
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trap_push "rm $grub_cfg || true"
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# Set a few GRUB_xxx environment variables that will be picked up and
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# used by the 50_onie_grub script. This is similiar to what an OS
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# would specify in /etc/default/grub.
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#
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# GRUB_SERIAL_COMMAND
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# GRUB_CMDLINE_LINUX
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[ -r ./platform.conf ] && . ./platform.conf
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|
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# Check if the CPU vendor is 'Intel' and disable c-states if True
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CPUVENDOR="$(cat /proc/cpuinfo | grep -m 1 vendor_id | awk '{print $3}')"
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echo "Switch CPU vendor is: $CPUVENDOR"
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if echo "$CPUVENDOR" | grep -i 'Intel' >/dev/null 2>&1; then
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echo "Switch CPU cstates are: disabled"
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CSTATES="intel_idle.max_cstate=0"
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else
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CSTATES=""
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fi
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|
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DEFAULT_GRUB_SERIAL_COMMAND="serial --port=${CONSOLE_PORT} --speed=${CONSOLE_SPEED} --word=8 --parity=no --stop=1"
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DEFAULT_GRUB_CMDLINE_LINUX="console=tty0 console=ttyS${CONSOLE_DEV},${CONSOLE_SPEED}n8 quiet $CSTATES"
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GRUB_SERIAL_COMMAND=${GRUB_SERIAL_COMMAND:-"$DEFAULT_GRUB_SERIAL_COMMAND"}
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GRUB_CMDLINE_LINUX=${GRUB_CMDLINE_LINUX:-"$DEFAULT_GRUB_CMDLINE_LINUX"}
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export GRUB_SERIAL_COMMAND
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export GRUB_CMDLINE_LINUX
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|
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# Add common configuration, like the timeout and serial console.
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cat <<EOF > $grub_cfg
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$GRUB_SERIAL_COMMAND
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terminal_input console serial
|
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terminal_output console serial
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|
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set timeout=5
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|
|
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EOF
|
|
|
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# Add the logic to support grub-reboot and grub-set-default
|
|
cat <<EOF >> $grub_cfg
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if [ -s \$prefix/grubenv ]; then
|
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load_env
|
|
fi
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if [ "\${saved_entry}" ]; then
|
|
set default="\${saved_entry}"
|
|
fi
|
|
if [ "\${next_entry}" ]; then
|
|
set default="\${next_entry}"
|
|
unset next_entry
|
|
save_env next_entry
|
|
fi
|
|
if [ "\${onie_entry}" ]; then
|
|
set next_entry="\${default}"
|
|
set default="\${onie_entry}"
|
|
unset onie_entry
|
|
save_env onie_entry next_entry
|
|
fi
|
|
EOF
|
|
|
|
if [ "$demo_type" = "DIAG" ] ; then
|
|
# Make sure ONIE install mode is the default boot mode for the
|
|
# diag partition.
|
|
cat <<EOF >> $grub_cfg
|
|
set default=ONIE
|
|
EOF
|
|
$onie_root_dir/tools/bin/onie-boot-mode -q -o install
|
|
fi
|
|
|
|
# Add a menu entry for the SONiC OS
|
|
# Note: assume that apparmor is supported in the kernel
|
|
demo_grub_entry="$demo_volume_revision_label"
|
|
if [ "$install_env" = "sonic" ]; then
|
|
old_sonic_menuentry=$(cat /host/grub/grub.cfg | sed "/^menuentry '${demo_volume_label}-${running_sonic_revision}'/,/}/!d")
|
|
grub_cfg_root=$(echo $old_sonic_menuentry | sed -e "s/.*root\=\(.*\)rw.*/\1/")
|
|
onie_menuentry=$(cat /host/grub/grub.cfg | sed "/menuentry ONIE/,/}/!d")
|
|
elif [ "$install_env" = "build" ]; then
|
|
grub_cfg_root=%%SONIC_ROOT%%
|
|
else # install_env = "onie"
|
|
uuid=$(blkid "$demo_dev" | sed -ne 's/.* UUID=\"\([^"]*\)\".*/\1/p')
|
|
if [ -z "$uuid" ]; then
|
|
grub_cfg_root=$demo_dev
|
|
else
|
|
grub_cfg_root=UUID=$uuid
|
|
fi
|
|
fi
|
|
|
|
# Make a first grub config file that located in default debian path:/boot/efi/EFI/debian/
|
|
# this first grub.cfg will call the complete grub.cfg created below with sonic configuration
|
|
tmp_config=$(mktemp)
|
|
cat <<EOF > $tmp_config
|
|
search --no-floppy --label --set=root $demo_volume_label
|
|
set prefix=(\$root)'/grub'
|
|
configfile \$prefix/grub.cfg
|
|
EOF
|
|
|
|
# Copy first grub.cfg as entrypoint to default debian path where grubx64.efi expected it.
|
|
mkdir -p /boot/efi/EFI/debian/
|
|
echo "cp $tmp_config /boot/efi/EFI/debian/grub.cfg"
|
|
cp $tmp_config /boot/efi/EFI/debian/grub.cfg
|
|
|
|
# Add extra linux command line
|
|
echo "EXTRA_CMDLINE_LINUX=$extra_cmdline_linux"
|
|
GRUB_CMDLINE_LINUX="$GRUB_CMDLINE_LINUX $extra_cmdline_linux"
|
|
GRUB_CFG_LINUX_CMD=""
|
|
GRUB_CFG_INITRD_CMD=""
|
|
if [ "$firmware" = "uefi" ] ; then
|
|
# grub.cfg when BIOS is UEFI and support Secure Boot
|
|
GRUB_CFG_LINUX_CMD="linuxefi"
|
|
GRUB_CFG_INITRD_CMD="initrdefi"
|
|
else
|
|
# grub.cfg when BIOS is Legacy
|
|
GRUB_CFG_LINUX_CMD="linux"
|
|
GRUB_CFG_INITRD_CMD="initrd"
|
|
fi
|
|
|
|
cat <<EOF >> $grub_cfg
|
|
menuentry '$demo_grub_entry' {
|
|
search --no-floppy --label --set=root $demo_volume_label
|
|
echo 'Loading $demo_volume_label $demo_type kernel ...'
|
|
insmod gzio
|
|
if [ x$grub_platform = xxen ]; then insmod xzio; insmod lzopio; fi
|
|
insmod part_msdos
|
|
insmod ext2
|
|
$GRUB_CFG_LINUX_CMD /$image_dir/boot/vmlinuz-5.10.0-18-2-amd64 root=$grub_cfg_root rw $GRUB_CMDLINE_LINUX \
|
|
net.ifnames=0 biosdevname=0 \
|
|
loop=$image_dir/$FILESYSTEM_SQUASHFS loopfstype=squashfs \
|
|
systemd.unified_cgroup_hierarchy=0 \
|
|
apparmor=1 security=apparmor varlog_size=$VAR_LOG_SIZE usbcore.autosuspend=-1 $ONIE_PLATFORM_EXTRA_CMDLINE_LINUX
|
|
echo 'Loading $demo_volume_label $demo_type initial ramdisk ...'
|
|
$GRUB_CFG_INITRD_CMD /$image_dir/boot/initrd.img-5.10.0-18-2-amd64
|
|
}
|
|
EOF
|
|
|
|
if [ "$install_env" = "onie" ]; then
|
|
# Add menu entries for ONIE -- use the grub fragment provided by the
|
|
# ONIE distribution.
|
|
$onie_root_dir/grub.d/50_onie_grub >> $grub_cfg
|
|
mkdir -p $onie_initrd_tmp/$demo_mnt/grub
|
|
else
|
|
cat <<EOF >> $grub_cfg
|
|
$old_sonic_menuentry
|
|
$onie_menuentry
|
|
EOF
|
|
fi
|
|
|
|
if [ "$install_env" = "build" ]; then
|
|
cp $grub_cfg $demo_mnt/grub.cfg
|
|
umount $demo_mnt
|
|
else
|
|
cp $grub_cfg $onie_initrd_tmp/$demo_mnt/grub/grub.cfg
|
|
fi
|
|
|
|
if [ "$secure_boot_state" = "SecureBoot enabled" ]; then
|
|
# Secure Boot grub.cfg support
|
|
# Saving grub_cfg in the same place where is grubx64.efi,
|
|
# this grub_cfg file will be called by first grub.cfg file from: /boot/efi/EFI/debian/grub.cfg
|
|
if [ -f $NVOS_BOOT_DIR/grub.cfg ]; then
|
|
rm $NVOS_BOOT_DIR/grub.cfg
|
|
fi
|
|
|
|
cp $grub_cfg $NVOS_BOOT_DIR/grub.cfg
|
|
fi
|
|
|
|
cd /
|
|
|
|
echo "Installed SONiC base image $demo_volume_label successfully"
|
|
|
|
}
|