#!/bin/sh
# Copyright (C) 2016 Arista Networks, Inc.
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
# Aboot stage 0 boot script
#
# This boot0 script can be used in different scenario
# - Installation and boot from Aboot (manual or reboot on a new image)
# - EOS to SONiC fast-reboot (installation and kexec in EOS)
# - SONiC to SONiC fast-reboot (installation and kexec in SONiC)
#
# Use it this way:
# - swipath=path/to/swi install=true boot0
# - swipath=path/to/swi install=true force=true boot0
# - swipath=path/to/swi kexec=true boot0
#
# The logic defaults to the first scenario but providing extra environment variable
# will affect the behavior of the script.
# The list of variables is maintained here
# - KERNEL : relative path to the kernel to execute
# - INITRD : relative path to the initrd to load
# - CMDLINE : place to find the default kernel cmdline to use for the platform
# - VERBOSE : setting it to 1 will enable debug traces
#
# By default the boot0 script will behave for an Aboot based behavior.
# Options can be provided to only run some features of this script.
#
# Extra kernel parameters can be provided at runtime by the user by adding them
# into a kernel-params file.
image_name="image-%%IMAGE_VERSION%%"
dockerfs="{{ FILESYSTEM_DOCKERFS }}"
do_not_clean="do-not-clean"
kernel_params="kernel-params"
aboot_machine="arista_unknown"
info() { printf "%04.2f: $@\n" "$(cut -f1 -d' ' /proc/uptime)"; }
err() { info "Error: $@"; }
warn() { info "Warning: $@"; }
# extract mount point from the swi path, e.g., /mnt/flash/sonic.swi --> /mnt/flash
if [ -z "$target_path" ]; then
if [ -z "$swipath" ]; then
err "target_path= is required when swipath= is not provided"
exit 1
fi
target_path=$(df "$swipath" | tail -1 | tr -s " " | cut -d ' ' -f6)
fi
image_path="$target_path/$image_name"
hook_path="$image_path/platform/hooks"
data_path="$image_path/platform/data"
cmdline_base="$target_path/kernel-params-base"
cmdline_image="$image_path/kernel-cmdline"
boot_config="$target_path/boot-config"
bootconfigvars="KERNEL INITRD CONSOLESPEED PASSWORD NETDEV NETAUTO NETIP NETMASK NETGW NETDOMAIN NETDNS NETHW memtest"
flash_re=" /mnt/flash| /host"
# for backward compatibility with the sonic_upgrade= behavior
install="${install:-${sonic_upgrade:-}}"
parse_environment_config() {
for n in ${bootconfigvars}; do
eval v="\$$n"
if [ "$v" ]; then
echo "$n=$v"
fi
done
}
clean_flash() {
## Remove all the other unnecssary files except swi file, boot-config
for f in $(ls -A $target_path); do
if [ $f != "${swipath##*/}" ] &&
[ $f != "boot-config" ] &&
[ $f != "$kernel_params" ] &&
[ $f != "$cmdline_base" ] &&
[ $f != "aquota.user" ] &&
[ $f != "old_config" ] &&
[ $f != "minigraph.xml" ]
then
rm -rf "$target_path/$f"
fi
done
}
update_boot_config() {
local key="$1"
local value="$2"
if grep "$key" "$boot_config" 2>&1 > /dev/null; then
sed -i "s#^$key=.*\$#$key=$value#" "$boot_config"
else
echo "$key=$value" >> "$boot_config"
fi
}
get_boot_config() {
local key="$1"
sed -n "s#^$key=##p" "$boot_config" || :
}
update_next_boot() {
local default="$(get_boot_config SWI_DEFAULT)"
if [ -z "$default" ]; then
warn "boot-config has no variable SWI_DEFAULT"
else
update_boot_config SWI "$default"
fi
}
extract_image() {
mkdir -p "$image_path"
info "Extracting swi content"
## Unzip the image except boot0 and dockerfs archive
unzip -oq "$swipath" -x boot0 "$dockerfs" -d "$image_path"
## detect rootfs type
rootfs_type=`grep " $target_path " /proc/mounts | cut -d' ' -f3`
info "Extracting $dockerfs from swi"
## Unpacking dockerfs delayed
## 1. when disk is vfat as it does not support symbolic link
## 2. when disk is small, expand it into ramfs during initrd
if [ "$rootfs_type" != "vfat" -a x"$docker_inram" != x"on" ]; then
mkdir -p "$image_path/{{ DOCKERFS_DIR }}"
if [ -n "$install" ]; then
TAR_EXTRA_OPTION="--numeric-owner --warning=no-timestamp"
fi
## extract docker archive
info "Unpacking $dockerfs"
unzip -oqp "$swipath" "$dockerfs" | tar xzf - -C "$image_path/{{ DOCKERFS_DIR }}" $TAR_EXTRA_OPTION
else
## save dockerfs archive in the image directory
unzip -oq "$swipath" "$dockerfs" -d "$image_path"
info "Unpacking $dockerfs delayed to initrd because $target_path is $rootfs_type or docker_inram is on"
fi
## use new reduced-size boot swi
local swi_boot_path="flash:$image_name/{{ ABOOT_BOOT_IMAGE }}"
update_boot_config SWI "$swi_boot_path"
update_boot_config SWI_DEFAULT "$swi_boot_path"
## Remove installer swi as it has lots of redundunt contents
rm -f "$swipath"
## sync disk operations
sync
}
write_machine_config() {
## Detect SKU and create a hardware description file
aboot_version=$(grep ^Aboot "$cmdline_base" | sed 's/^.*norcal.-//' | tail -n 1)
if [ -x /bin/sysinit ]; then
aboot_build_date=$(stat -c %y /bin/sysinit | sed 's/ /T/')
else
aboot_build_date="unknown"
fi
cat < ${target_path}/machine.conf
aboot_version=$aboot_version
aboot_vendor=arista
aboot_platform=x86_64-$aboot_machine
aboot_machine=$aboot_machine
aboot_arch=x86_64
aboot_build_date=$aboot_build_date
EOF
chmod a+r "${target_path}/machine.conf"
}
platform_specific() {
local platform="$(grep -Eo 'platform=[^ ]+' "$cmdline_base" | cut -f2 -d=)"
local sid="$(grep -Eo 'sid=[^ ]+' "$cmdline_base" | cut -f2 -d=)"
# set varlog size to 100MB
local varlog_size=100
# detect the size of the flash partition from name in Aboot/EOS/SONiC
local flash_size=$(($(df | grep -E "$flash_re" | tr -s ' ' | cut -f2 -d' ') / 1000))
if [ "$platform" = "raven" ]; then
aboot_machine=arista_7050_qx32
flash_size=2000
docker_inram=on
echo "modprobe.blacklist=radeon,sp5100_tco acpi=off docker_inram=on" >>/tmp/append
fi
if [ "$platform" = "crow" ]; then
aboot_machine=arista_7050_qx32s
flash_size=3700
echo "modprobe.blacklist=radeon,sp5100_tco" >>/tmp/append
fi
if [ "$sid" = "Upperlake" ] || [ "$sid" = "UpperlakeES" ]; then
aboot_machine=arista_7060_cx32s
flash_size=3700
echo "amd_iommu=off" >> /tmp/append
fi
if [ "$sid" = "Gardena" ] || [ "$sid" = "GardenaSsd" ]; then
aboot_machine=arista_7260cx3_64
flash_size=28000
fi
if [ "$sid" = "Alhambra" ] || [ "$sid" = "AlhambraSsd" ]; then
aboot_machine=arista_7170_64c
flash_size=28000
echo "hugepages=128" >> /tmp/append
fi
if [ "$platform" = "rook" ]; then
echo "iommu=on intel_iommu=on tsc=reliable pcie_ports=native" >>/tmp/append
echo "rhash_entries=1 usb-storage.delay_use=0" >>/tmp/append
if [ -x /bin/readprefdl ]; then
readprefdl -f /tmp/.system-prefdl -d > /mnt/flash/.system-prefdl
elif [ -f /etc/prefdl ]; then
cp /etc/prefdl /mnt/flash/.system-prefdl
chmod a+r /mnt/flash/.system-prefdl
fi
echo "reassign_prefmem" >> /tmp/append
fi
if [ $flash_size -ge 28000 ]; then
varlog_size=4096
elif [ $flash_size -ge 3700 ]; then
varlog_size=400
fi
echo "varlog_size=$varlog_size" >>/tmp/append
# disable deterministic interface naming
echo "net.ifnames=0" >>/tmp/append
}
get_uuid_for() {
local dev="$1"
if type lsblk 2>&1 > /dev/null; then
lsblk "$dev" -n --output UUID
elif type blkid 2>&1 > /dev/null; then
blkid | grep "^$dev" | sed -n "s/^.* UUID=\"//p" | grep -Eo '[^"]+'
fi
}
write_boot_configs() {
if $in_aboot; then
# generate the default kernel parameters for the platform
echo "$append" > $cmdline_base
cat /etc/cmdline | sed "/^\(${bootconfigvars// /\|}\|crashkernel\|loglevel\|ignore_loglevel\)\(\$\|=\)/d;/^\$/d" >> $cmdline_base
parse_environment_config >> $cmdline_base
elif [ ! -f "$cmdline_base" ]; then
# some systems were started with other versions of this script and therefore
# do not have the $cmdline_base file. we assume that we are on Sonic or EOS.
cat /proc/cmdline | sed -E 's/^(.*) rw .*$/\1/' | tr ' ' '\n' > $cmdline_base
fi
cp $cmdline_base /tmp/append
platform_specific
echo "rw loop=$image_name/fs.squashfs loopfstype=squashfs apparmor=1 security=apparmor quiet" >> /tmp/append
# Pass the MAC address to the new kernel as a command line parameter. This makes it
# possible to restore the MAC address in the new kernel without requiring driver modifications.
if [ -f /sys/class/net/ma1/address ]; then
echo "hwaddr_ma1=$(cat /sys/class/net/ma1/address)" >> /tmp/append
elif [ -f /sys/class/net/eth0/address ]; then
echo "hwaddr_ma1=$(cat /sys/class/net/eth0/address)" >> /tmp/append
else
err "Management port not found."
fi
# use extra parameters from kernel-params hook if the file exists
if [ -f "$target_path/$kernel_params" ]; then
cat "$target_path/$kernel_params" >> /tmp/append
fi
# setting root partition if not overridden by kernel-params
if ! grep -q "root=" /tmp/append; then
rootdev="$(mount | grep -E "$flash_re" | cut -f1 -d' ')"
rootfstype="$(mount | grep -E "$flash_re" | cut -f5 -d' ')"
rootuuid="$(get_uuid_for $rootdev)"
if [ -z "$rootuuid" ] || [ "$rootfstype" = "vfat" ] ; then
echo "root=$rootdev" >> /tmp/append
else
echo "root=UUID=$rootuuid" >> /tmp/append
fi
fi
mkdir -p "$image_path"
mv /tmp/append $cmdline_image
[ -e ${target_path}/machine.conf ] || write_machine_config
}
run_kexec() {
local cmdline="$(cat $cmdline_image | tr '\n' ' ')"
local kernel="${KERNEL:-$(find $image_path/boot -name 'vmlinuz-*' -type f | head -n 1)}"
local initrd="${INITRD:-$(find $image_path/boot -name 'initrd.img-*' -type f | head -n 1)}"
if ! $verbose; then
# Start showing systemd information from the first failing unit if any.
# systemd.show_status=false or quiet can be used to silence systemd entierly
cmdline="$cmdline systemd.show_status=auto"
fi
kexec --load --initrd="$initrd" --append="$cmdline" "$kernel"
[ -z "$testonly" ] || exit 0
info "Kexecing..."
kexec --exec
}
get_sorted_hooks() {
echo $(find "$1" -name '[0-9][0-9]-*' -type f)
}
run_hooks() {
if [ -d "$hook_path/$1" ]; then
for hook in $(get_sorted_hooks "$hook_path/$1"); do
if [ ! -z "$hook" ]; then
info "Running hook $(basename $hook)"
. "$hook"
fi
done
fi
}
# In Aboot no option will be provided therefore these are the default values to use
in_aboot=true
do_clean=true
do_install=true
do_kexec=true
# prevent the flash from being cleaned if the do-not-clean file exists
if [ -f "$target_path/$do_not_clean" ]; then
do_clean=false
fi
# Parse the cmdline options (used from EOS or from SONiC)
if [ ! -z "$install" ]; then
# install from SONiC or EOS
in_aboot=false
do_clean=false
do_kexec=false
elif [ ! -z "$kexec" ]; then
# kexec from SONiC or EOS
in_aboot=false
do_install=false
do_clean=false
elif [ $# -ne 0 ]; then
echo "usage: $0 (see code)"
exit 1
fi
# Verbosity can be defined by the caller, default to false otherwise
verbose=${verbose:-false}
if [ -f "$target_path/verbose-boot" ] ||
[ "$(get_boot_config VERBOSE)" = "1" ] ||
! $in_aboot; then
verbose=true
fi
# enable shell debug mode to get the most verbosity
if $verbose; then
set -x
fi
# install the image if newer
if $do_install; then
# we expect the swi to install to be a non empty file
if [ ! -s "$swipath" ]; then
err "The swipath= environment variable does not point to a valid SWI"
exit 1
fi
# check the hash file in the image, and determine to install or just skip
GIT_REVISION=$(unzip -p "$swipath" .imagehash)
LOCAL_IMAGEHASH=$(cat $image_path/.imagehash 2>/dev/null || true)
if [ "$GIT_REVISION" != "$LOCAL_IMAGEHASH" ] || [ ! -z "$force" ]; then
if $do_clean; then
info "Cleaning flash content $target_path"
clean_flash
fi
info "Generating boot-config, machine.conf and cmdline"
write_boot_configs
info "Installing image under $image_path"
extract_image
run_hooks post-install
else
info "Using previously installed image"
fi
fi
# chainloading using kexec
if $do_kexec; then
run_hooks pre-kexec
update_next_boot
run_kexec
fi