29b6f62902
If it is run during image install, it's not guaranteed that the installation environment will have tune2fs available. Therefore, run it during initramfs instead. Signed-off-by: Saikrishna Arcot <sarcot@microsoft.com>
187 lines
6.2 KiB
Django/Jinja
187 lines
6.2 KiB
Django/Jinja
#!/bin/sh -e
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PREREQS="varlog"
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prereqs() { echo "$PREREQS"; }
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case $1 in
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prereqs)
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prereqs
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exit 0
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;;
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esac
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docker_inram=false
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logs_inram=false
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secureboot=false
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bootloader=generic
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varlog_size=0
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# Extract kernel parameters
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for x in $(cat /proc/cmdline); do
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case "$x" in
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Aboot=*)
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bootloader=aboot
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;;
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docker_inram=on)
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docker_inram=true
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;;
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logs_inram=on)
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logs_inram=true
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;;
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varlog_size=*)
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varlog_size="${x#varlog_size=}"
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;;
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secure_boot_enable=[y1])
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secureboot=true
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docker_inram=true
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;;
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platform=*)
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platform_flag="${x#platform=}"
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;;
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esac
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done
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set_tmpfs_log_partition_size()
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{
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if [ $varlog_size -gt 0 ]; then
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# Use the varlog_size passed in from command line
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varlogsize=$varlog_size
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else
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varlogsize=128
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# set varlogsize to existing var-log.ext4 size
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if [ -f ${rootmnt}/host/disk-img/var-log.ext4 ]; then
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varlogsize=$(ls -l ${rootmnt}/host/disk-img/var-log.ext4 | awk '{print $5}')
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varlogsize=$(($varlogsize/1024/1024))
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fi
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fi
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# make sure varlogsize is between 5% to 10% of total memory size
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memkb=$(grep MemTotal /proc/meminfo | awk '{print $2}')
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memmb=$(($memkb/1024))
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minsize=$(($memmb*5/100))
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maxsize=$(($memmb*10/100))
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if [ $minsize -ge $varlogsize ]; then
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varlogsize=$minsize
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fi
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if [ $maxsize -le $varlogsize ]; then
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varlogsize=$maxsize
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fi
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}
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remove_not_in_allowlist_files()
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{
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local allowlist_file="$1"
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local targeted_dir="$2"
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local allowlist_pattern_file=/tmp/allowlist_paths.pattern
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# Return if the allowlist file does not exist
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if ! test -f "${allowlist_file}"; then
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echo "The file ${allowlist_file} is missing, failed to mount rw folder." 1>&2
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exit 1
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fi
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# Set the grep pattern file, remove the blank line in config file
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awk -v rw_dir="$targeted_dir" 'NF {print rw_dir"/"$0"$"}' ${allowlist_file} > $allowlist_pattern_file
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# Find the files in the rw folder, and remove the files not in the allowlist
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find ${targeted_dir} -type f | grep -v -f $allowlist_pattern_file | xargs /bin/rm -f
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rm -f $allowlist_pattern_file
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}
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## Mount the overlay file system: rw layer over squashfs
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image_dir=$(cat /proc/cmdline | sed -e 's/.*loop=\(\S*\)\/.*/\1/')
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rw_dir=${rootmnt}/host/$image_dir/rw
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work_dir=${rootmnt}/host/$image_dir/work
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mkdir -p "$rw_dir"
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mkdir -p "$work_dir"
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## Remove the files not in allowlist in the rw folder
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if $secureboot; then
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if [ "$bootloader" = "aboot" ]; then
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swi_path="${rootmnt}/host/$(sed -E 's/.*loop=([^ ]+).*/\1/' /proc/cmdline)"
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unzip -q "$swi_path" allowlist_paths.conf -d /tmp
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allowlist_file=/tmp/allowlist_paths.conf
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else
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allowlist_file=${rootmnt}/host/$image_dir/allowlist_paths.conf
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fi
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remove_not_in_allowlist_files "$allowlist_file" "$rw_dir"
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## Remove the executable permission for all the files in rw folder except home folder
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find ${rw_dir} -type f -not -path ${rw_dir}/home -exec chmod a-x {} +
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fi
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mount -n -o lowerdir=${rootmnt},upperdir=${rw_dir},workdir=${work_dir} -t overlay root-overlay ${rootmnt}
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## Check if the root block device is still there
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[ -b ${ROOT} ] || mdev -s
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case "${ROOT}" in
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ubi*)
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mtd=$(cat /proc/cmdline | sed -e 's/.*ubi.mtd=\([0-9]\) .*/\1/')
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if [ ! -f /dev/${ROOT}_0 ]; then
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ubiattach /dev/ubi_ctrl -m $mtd 2>dev/null || true
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fi
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mount -t ubifs /dev/${ROOT}_0 ${rootmnt}/host
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;;
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*)
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## Mount the raw partition again
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mount ${ROOT} ${rootmnt}/host
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tune2fs -m 0 -r 0 ${ROOT}
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;;
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esac
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mkdir -p ${rootmnt}/var/lib/docker
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if $secureboot; then
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mount -t tmpfs -o rw,nodev,size={{ DOCKER_RAMFS_SIZE }} tmpfs ${rootmnt}/var/lib/docker
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if [ "$bootloader" = "aboot" ]; then
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unzip -qp "$swi_path" dockerfs.tar.gz | tar xz --numeric-owner -C ${rootmnt}/var/lib/docker
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## Boot folder is not extracted during secureboot since content would inherently become unsafe
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mkdir -p ${rootmnt}/host/$image_dir/boot
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else
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echo "secureboot unsupported for bootloader $bootloader" 1>&2
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exit 1
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fi
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elif [ -f ${rootmnt}/host/$image_dir/{{ FILESYSTEM_DOCKERFS }} ]; then
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## mount tmpfs and extract docker into it
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mount -t tmpfs -o rw,nodev,size={{ DOCKER_RAMFS_SIZE }} tmpfs ${rootmnt}/var/lib/docker
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tar xz --numeric-owner -f ${rootmnt}/host/$image_dir/{{ FILESYSTEM_DOCKERFS }} -C ${rootmnt}/var/lib/docker
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else
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## Mount the working directory of docker engine in the raw partition, bypass the overlay
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mount --bind ${rootmnt}/host/$image_dir/{{ DOCKERFS_DIR }} ${rootmnt}/var/lib/docker
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fi
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## Mount the boot directory in the raw partition, bypass the overlay
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mkdir -p ${rootmnt}/boot
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mount --bind ${rootmnt}/host/$image_dir/boot ${rootmnt}/boot
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## Mount loop device or tmpfs for /var/log
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if $logs_inram; then
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# NOTE: some platforms, when reaching initramfs stage, have a small
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# limit of mounting tmpfs partition, potentially due to amount
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# of RAM available in this stage. Therefore limiting the size
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# set for tmpfs partitions.
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#
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# Another reason for using tmpfs /var/log partition is:
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# Some platforms have a small flash and therefore the log partition takes valuable space.
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# To improve the longevity of these devices storing the logs in memory will permit more
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# SONiC image growth before being bottlenecked.
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set_tmpfs_log_partition_size
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mount -t tmpfs -o rw,nosuid,nodev,size=${varlogsize}M tmpfs ${rootmnt}/var/log
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if [ -f ${rootmnt}/host/disk-img/var-log.ext4 ]; then
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rm -rf ${rootmnt}/host/disk-img/var-log.ext4
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fi
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else
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if [ -f ${rootmnt}/host/disk-img/var-log.ext4 ]; then
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fsck.ext4 -v -p ${rootmnt}/host/disk-img/var-log.ext4 2>&1 | gzip -c >> /tmp/fsck.log.gz
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mount -t ext4 -o loop,rw ${rootmnt}/host/disk-img/var-log.ext4 ${rootmnt}/var/log
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fi
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fi
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## fscklog file: /tmp will be lost when overlayfs is mounted
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if [ -f /tmp/fsck.log.gz ]; then
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mv /tmp/fsck.log.gz ${rootmnt}/var/log
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fi
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