#!/usr/bin/env bash logfile="/tmp/pvc-install.log" lockfile="/run/pvc-install.lock" if [[ $( whoami ) != "root" ]]; then echo "STOP! This script is designed to run as root within the installer only!" echo "To build a PVC installer ISO file, use './buildiso.sh'." echo "To build a PVC installer PXE root, use './buildpxe.sh'." exit 1 fi echo active_ttys=( $( w | grep "^root" | awk '{ print $2 }' ) ) echo "Active TTYs: ${active_ttys[@]}" this_tty=$( tty | sed -e "s:/dev/::" ) echo "This TTY: ${this_tty}" echo if [[ ${#active_ttys} -gt 1 ]]; then if [[ "${active_ttys[@]}" =~ "ttyS" ]]; then if grep -q -E -o "tty[0-9]+" <<<"${this_tty}"; then echo "Found more than one TTY and at least one serial TTY!" echo -n "If you wish to run the installer on this graphical TTY instead of the serial TTY, press enter within 15 seconds... " if ! read -t 15; then echo "timeout." exit 0 fi else echo "Found more than one TTY!" echo -n "Waiting for other TTYs to time out... " sleep $(( 16 + $( grep -E -o '[0-9]+' <<<"${this_tty}" ) )) echo "done." fi else echo "Found more than one graphical TTY!" echo -n "If you wish to run the installer on this graphical TTY, press enter within 60 seconds... " if ! read -t 60; then echo "timeout." echo "To launch the installer again on this TTY, run '/install.sh'." exit 0 fi fi fi if [[ -f ${lockfile} ]]; then echo "Aborting installer due to lockfile presence: $( cat ${lockfile} )." exit 0 fi printf "PID $$ on TTY ${this_tty}" > ${lockfile} echo # Set the target consoles in the installed image target_consoles="" for tty in $( echo -e "$( sed 's/ /\n/g' <<<"${active_ttys[@]}" )" | sort ); do tty_type=${tty%%[0-9]*} # Only use the first of each console type if grep -q "${tty_type}" <<<"${target_consoles}"; then continue fi if [[ ${tty_type} == "ttyS" ]]; then # Add 115200 baud rate tty="${tty},115200n8" fi target_consoles="${target_consoles} console=${tty}" done iso_name="XXDATEXX" target_deploy_user="XXDEPLOYUSERXX" supported_filesystems="ext4 xfs" default_filesystem="ext4" supported_debrelease="buster bullseye" default_debrelease="buster" default_debmirror="http://debian.mirror.rafal.ca/debian" # Base packages (installed by debootstrap) basepkglist="lvm2,parted,gdisk,grub-pc,grub-efi-amd64,linux-image-amd64,sudo,vim,gpg,gpg-agent,openssh-server,vlan,ifenslave,python3,ca-certificates,curl" # Supplemental packages (installed in chroot after debootstrap) suppkglist="firmware-linux,firmware-linux-nonfree,firmware-bnx2,firmware-bnx2x,ntp,ipmitool,acpid,acpi-support-base,lsscsi" # Modules to blacklist (known-faulty) target_module_blacklist=( "hpwdt" ) # DANGER - THIS PASSWORD IS PUBLIC # It should be used ONLY immediately after booting the PVC node in a SECURE environment # to facilitate troubleshooting of a failed boot. It should NOT be exposed to the Internet, # and it should NOT be left in place after system configuration. The PVC Ansible deployment # roles will overwrite it by default during configuration. root_password="hCb1y2PF" # Cleanup function for failures or final termination cleanup() { set +o errexit echo -n "Cleaning up target... " umount ${target}/tmp >&2 umount ${target}/run >&2 umount ${target}/sys >&2 umount ${target}/proc >&2 umount ${target}/dev/pts >&2 umount ${target}/dev >&2 umount ${target}/var/lib/ceph >&2 umount ${target}/var/lib/zookeeper >&2 umount ${target}/boot/efi >&2 umount ${target}/boot >&2 umount ${target} >&2 vgchange -an >&2 rmdir ${target} >&2 echo "done." echo -n "Removing lockfile... " rm ${lockfile} echo "done." echo if [[ -z ${DONE} ]]; then case ${install_option} in on) echo "A fatal error occurred!; restarting installer in 15 seconds. Press any key to spawn a shell." if ! read -t 15; then exec ${0} fi ;; *) echo "A fatal error occurred. Use the shell to inspect the log for errors at:" echo -e " ${logfile}" echo "To restart the installer, run '/install.sh'." ;; esac fi } trap cleanup EXIT # Checkin function seed_checkin() ( case ${1} in start) action="install-start" ;; end) action="install-complete" ;; esac curl -X POST \ -H "Content-Type: application/json" \ -d "{\"action\":\"${action}\",\"hostname\":\"${target_hostname}\",\"host_macaddr\":\"${host_macaddr}\",\"host_ipaddr\":\"${host_ipaddr}\",\"bmc_macaddr\":\"${bmc_macaddr}\",\"bmc_ipaddr\":\"${bmc_ipaddr}\"}" \ ${pvcbootstrapd_checkin_uri} >&2 ) # Obtain the preseed options from the kernel command line install_option="" seed_host="" seed_file="" kernel_cmdline=( $( cat /proc/cmdline ) ) for option in ${kernel_cmdline[@]}; do case ${option} in pvcinstall.preseed=*) install_option=${option#pvcinstall.preseed=} ;; pvcinstall.seed_host=*) seed_host=${option#pvcinstall.seed_host=} ;; pvcinstall.seed_file=*) seed_file=${option#pvcinstall.seed_file=} ;; esac done seed_config() { # Get IPMI BMC MAC for checkings bmc_macaddr="$( ipmitool lan print 2>/dev/null | grep 'MAC Address ' | awk '{ print $NF }' )" bmc_ipaddr="$( ipmitool lan print 2>/dev/null | grep 'IP Address ' | awk '{ print $NF }' )" # Perform DHCP on all interfaces to come online for interface in $( ip address | grep '^[0-9]' | grep 'eno\|enp\|ens\|wlp' | awk '{ print $2 }' | tr -d ':' ); do ip link set ${interface} up pgrep dhclient &>/dev/null || dhclient ${interface} >&2 done # Fetch the seed config tftp -m binary "${seed_host}" -c get "${seed_file}" /tmp/install.seed >&2 || exit 1 # Load the variables from the seed config . /tmp/install.seed || exit 1 # Ensure optional configurations are set to defaults if unset if [[ -z ${filesystem} ]]; then filesystem="${default_filesystem}" fi if [[ -z ${debrelease} ]]; then debrelease="${default_debrelease}" fi if [[ -z ${debmirror} ]]; then debmirror="${default_debmirror}" fi # Append the addpkglist to the suppkglist if present if [[ -n ${addpkglist} ]]; then suppkglist="${suppkglist},${addpkglist}" fi # Handle the target interface target_route="$( ip route show to match ${seed_host} | grep 'scope link' )" target_interface="$( grep -E -o 'e[a-z]+[0-9]+[a-z0-9]*' <<<"${target_route}" )" host_macaddr=$( ip -br link show ${target_interface} | awk '{ print $3 }' ) host_ipaddr=$( ip -br address show ${target_interface} | awk '{ print $3 }' | awk -F '/' '{ print $1 }' ) # Handle the target disk case "${target_disk}" in /dev/*) # Get the real path of the block device (for /dev/disk/* symlink paths) target_disk="$( realpath ${target_disk} )" ;; detect:*) # Read the detect string into separate variables # A detect string is formated thusly: # detect::<0-indexed-ID>: # For example: # detect:INTEL:1:800GB # detect:DELLBOSS:0:240GB # detect:PERC H330 Mini:0:200GB IFS=: read detect b_name b_id b_size <<<"${target_disk}" # Get the lsscsi output (exclude NVMe) lsscsi_data_all="$( lsscsi -s -N )" # Get the available sizes, and match to within +/- 2% lsscsi_sizes=( $( awk '{ print $NF }' <<<"${lsscsi_data_all}" | sort | uniq ) ) # For each size... for size in ${lsscsi_sizes[@]}; do # Get whether we match +2% and -2% sizes to handle human -> real deltas # The break below is pretty safe. I can think of no two classes of disks # where the difference is within 2% of each other. Even the common # 120GB -> 128GB and 240GB -> 256GB size deltas are well outside of 2%, # so this should be safe in all cases. 1% would be narrower but has more # chance of mis-identifying due to rounding, while 3% gets into more # contentious differences, so 2% seems like the best option. # We use Python for this due to BASH's problematic handling of floating- # point numbers. is_match="$( python < minustwopct and b_size < plustwopct: print("match") EOF )" # If we do, this size is our actual block size, not what was specified if [[ -n ${is_match} ]]; then b_size=${size} break fi done # Search for the b_name first lsscsi_data_name="$( grep --color=none -Fiw "${b_name}" <<<"${lsscsi_data_all}" )" # Search for the b_blocks second lsscsi_data_name_size="$( grep --color=none -Fiw "${b_size}" <<<"${lsscsi_data_name}" )" # Read the /dev/X results into an array lsscsi_filtered=( $( awk '{ print $(NF-1) }' <<<"${lsscsi_data_name_size}" ) ) # Get the b_id-th entry target_disk="${lsscsi_filtered[${b_id}]}" ;; esac if [[ ! -b ${target_disk} ]]; then echo "Invalid disk or disk not found!" exit 1 fi echo echo "WARNING! All data on block device ${target_disk} will be wiped!" echo -n "Press any key within 15 seconds to cancel... " if read -t 15; then DONE="c" exit 0 fi echo } interactive_config() { clear echo "--------------------------------------------------------" echo "| PVC Node installer (${iso_name}) |" echo "--------------------------------------------------------" echo echo "This LiveCD will install a PVC node base system ready for bootstrapping with 'pvc-ansible'." echo echo "* NOTE: If you make a mistake and need to restart the installer while answering" echo " the questions below, you may do so by typing ^C to cancel the script," echo " then re-running it by calling /install.sh in the resulting shell." echo echo "1) Please enter a fully-qualified hostname for the system. This should match the hostname" echo "in the 'pvc-ansible' inventory." while [[ -z ${target_hostname} ]]; do echo echo -n "> " read target_hostname if [[ -z ${target_hostname} ]]; then echo echo "Please enter a hostname." continue fi echo done disks="$( for disk in /dev/sd? /dev/nvme?n?; do if [[ ! -b ${disk} ]]; then continue fi disk_data="$( fdisk -l ${disk} 2>/dev/null )" echo -n "${disk}" echo -en "\t$( grep "^Disk model:" <<<"${disk_data}" | awk '{ $1=""; print $0 }' )" echo -en " $( grep "^Disk ${disk}:" <<<"${disk_data}" | awk '{ $1=""; $2="size:"; print $0 }' )" echo done )" echo "2a) Please enter the disk to install the PVC base system to. This disk will be" echo "wiped, an LVM PV created on it, and the system installed to this LVM." echo "* NOTE: PVC requires a disk of at least 30GB to be installed to, and 100GB is the" echo "recommended minimum size for optimal production partition sizes." echo "* NOTE: For optimal performance, this disk should be high-performance flash (SSD, etc.)." echo "* NOTE: This disk should be a RAID-1 volume configured in hardware, or a durable storage" echo "device, maximum redundancy and resiliency." echo echo "Available disks:" echo echo -e "$( sed 's/\(.*\)/ \1/' <<<"${disks[@]}" )" while [[ ! -b ${target_disk} ]]; do echo echo -n "> " read target_disk if [[ ! -b ${target_disk} ]]; then echo echo "Please enter a valid target disk." continue fi blockdev_size_gbytes="$(( $( blockdev --getsize64 ${target_disk} ) / 1024 / 1024 / 1024 - 1))" if [[ ${blockdev_size_gbytes} -lt 30 ]]; then target_disk="" echo echo "The specified disk is too small (<30 GB) to use as a PVC system disk." echo "Please choose an alternative disk." continue fi echo done echo "2b) Please enter an alternate filesystem for the system partitions if desired." echo " Supported: ${supported_filesystems}" echo " Default: ${default_filesystem}" while [[ -z ${filesystem} ]]; do echo echo -n "> " read filesystem if [[ -z ${filesystem} ]]; then filesystem="${default_filesystem}" fi if ! grep -qw "${filesystem}" <<<"${supported_filesystem}"; then filesystem="" echo echo "Please enter a valid filesystem." continue fi echo done echo "2c) Skip disk zeroing? Only recommended for slow, low-endurance, or known-" echo -n "zeroed block devices. [y/N] " read skip_blockcheck if [[ ${skip_blockcheck} == 'y' || ${skip_blockcheck} == 'Y' ]]; then skip_blockcheck="y" else skip_blockcheck="" fi echo for interface in $( ip address | grep '^[0-9]' | grep 'eno\|enp\|ens\|wlp' | awk '{ print $2 }' | tr -d ':' ); do ip link set ${interface} up done sleep 2 interfaces="$( ip address | grep '^[0-9]' | grep 'eno\|enp\|ens\|wlp' | awk '{ print $2"\t"$3 }' | tr -d ':' )" echo "3a) Please enter the primary network interface for external connectivity. If" echo "no entries are shown here, ensure a cable is connected, then restart the" echo "installer with ^C and '/install.sh'." echo echo "Available interfaces:" echo echo -e "$( sed 's/\(.*\)/ \1/' <<<"${interfaces[@]}" )" while [[ -z ${target_interface} ]]; do echo echo -n "> " read target_interface if [[ -z ${target_interface} ]]; then echo echo "Please enter a valid interface." continue fi if ! grep -qw "${target_interface}" <<<"${interfaces[@]}"; then target_interface="" echo echo "Please enter a valid interface." continue fi echo done echo -n "3b) Is a tagged vLAN required for the primary network interface? [y/N] " read vlans_req if [[ ${vlans_req} == 'y' || ${vlans_req} == 'Y' ]]; then echo echo "Please enter the vLAN ID for the interface." while [[ -z ${vlan_id} ]]; do echo echo -n "> " read vlan_id if [[ -z ${vlan_id} ]]; then echo echo "Please enter a numeric vLAN ID." continue fi done echo else vlan_id="" echo fi echo "3c) Please enter the IP address, in CIDR format [X.X.X.X/YY], of the primary" echo "network interface. Leave blank for DHCP configuration of the interface on boot." echo echo -n "> " read target_ipaddr if [[ -n ${target_ipaddr} ]]; then target_netformat="static" echo echo "3d) Please enter the default gateway IP address of the primary" echo "network interface." while [[ -z ${target_defgw} ]]; do echo echo -n "> " read target_defgw if [[ -z ${target_defgw} ]]; then echo echo "Please enter a default gateway; the installer requires Internet access." continue fi echo done else target_netformat="dhcp" echo fi echo -n "Bringing up primary network interface in ${target_netformat} mode... " case ${target_netformat} in 'static') if [[ -n ${vlan_id} ]]; then modprobe 8021q >&2 vconfig add ${target_interface} ${vlan_id} >&2 vlan_interface=${target_interface}.${vlan_id} ip link set ${target_interface} up >&2 || true ip link set ${vlan_interface} up >&2 || true ip address add ${target_ipaddr} dev ${vlan_interface} >&2 || true ip route add default via ${target_defgw} >&2 || true formatted_ipaddr="$( sipcalc ${target_ipaddr} | grep -v '(' | awk '/Host address/{ print $NF }' )" formatted_netmask="$( sipcalc ${target_ipaddr} | grep -v '(' | awk '/Network mask/{ print $NF }' )" real_interface="${vlan_interface}" target_interfaces_is="static-vlan" else ip link set ${target_interface} up >&2 || true ip address add ${target_ipaddr} dev ${target_interface} >&2 || true ip route add default via ${target_defgw} >&2 || true formatted_ipaddr="$( sipcalc ${target_ipaddr} | grep -v '(' | awk '/Host address/{ print $NF }' )" formatted_netmask="$( sipcalc ${target_ipaddr} | grep -v '(' | awk '/Network mask/{ print $NF }' )" real_interface="${target_interface}" target_interfaces_is="static-raw" fi cat </etc/resolv.conf nameserver 8.8.8.8 EOF ;; 'dhcp') if [[ -n ${vlan_id} ]]; then modprobe 8021q >&2 vconfig add ${target_interface} ${vlan_id} &>/dev/null vlan_interface=${target_interface}.${vlan_id} dhclient ${vlan_interface} >&2 real_interface="${vlan_interface}" target_interfaces_is="dhcp-vlan" else dhclient ${target_interface} >&2 real_interface="${target_interface}" target_interfaces_is="dhcp-raw" fi ;; esac echo "done." echo echo -n "Waiting for networking to become ready... " while ! ping -q -c 1 8.8.8.8 &>/dev/null; do sleep 1 done echo "done." echo echo "4a) Please enter an alternate Debian release codename for the system if desired." echo " Supported: ${supported_debrelease}" echo " Default: ${default_debrelease}" while [[ -z ${debrelease} ]]; do echo echo -n "> " read debrelease if [[ -z ${debrelease} ]]; then debrelease="${default_debrelease}" fi if ! grep -qw "${debrelease}" <<<"${supported_debrelease}"; then debrelease="" echo echo "Please enter a valid release." continue fi echo done echo "4b) Please enter an HTTP URL for an alternate Debian mirror if desired." echo " Default: ${default_debmirror}" while [[ -z ${debmirror} ]]; do echo echo -n "> " read debmirror if [[ -z ${debmirror} ]]; then debmirror="${default_debmirror}" fi if ! wget -O /dev/null ${debmirror}/dists/${debrelease}/Release &>/dev/null; then debmirror="" echo echo "Please enter a valid Debian mirror URL." continue fi echo echo "Repository mirror '${debmirror}' successfully validated." echo done echo "4c) Please enter any additional packages, comma-separated without spaces," echo "that you require installed in the base system (firmware, etc.). These" echo "must be valid packages or the install will fail!" echo -n "> " read addpkglist echo target_keys_method="wget" echo "5) Please enter an HTTP URL containing a text list of SSH authorized keys to" echo "fetch. These keys will be allowed access to the deployment user 'XXDEPLOYUSER'" echo "via SSH." echo "" echo "Leave blank to bypass this and use a password instead." echo echo -n "> " read target_keys_path if [[ -z ${target_keys_path} ]]; then echo echo "No SSH keys URL specified. Falling back to password configuration." echo echo "5) Please enter a password (hidden), twice, for the deployment user '${target_deploy_user}'." while [[ -z "${target_password}" ]]; do echo echo -n "> " read -s target_password_1 echo echo -n "> " read -s target_password_2 echo if [[ -n "${target_password_1}" && "${target_password_1}" -eq "${target_password_2}" ]]; then target_password="${target_password_1}" else echo echo "The specified passwords do not match or are empty." fi done else while ! wget -O /dev/null ${target_keys_path} &>/dev/null; do echo echo "Please enter a valid SSH keys URL." echo echo -n "> " read target_keys_path done echo echo "SSH key source '${target_keys_path}' successfully validated." fi echo } case ${install_option} in on) seed_config ;; *) interactive_config ;; esac titlestring_text="| Proceeding with installation of host '${target_hostname}'. |" titlestring_len="$(( $( wc -c <<<"${titlestring_text}" ) - 2 ))" for i in $( seq 0 ${titlestring_len} ); do echo -n "-"; done; echo echo "${titlestring_text}" for i in $( seq 0 ${titlestring_len} ); do echo -n "-"; done; echo echo ### Script begins ### echo "LOGFILE: ${logfile}" echo exec 1> >( tee -ia ${logfile} ) exec 2> >( tee -ia ${logfile} >/dev/null ) set -o errexit set -o xtrace case ${install_option} in on) seed_checkin start ;; *) # noop true ;; esac echo -n "Determining partition sizes... " blockdev_size_bytes="$( blockdev --getsize64 ${target_disk} )" blockdev_size_gbytes="$(( ${blockdev_size_bytes} / 1024 / 1024 / 1024 - 1))" if [[ ${blockdev_size_gbytes} -ge 100 ]]; then # Optimal sized system disk (>=100GB), use large partitions size_root_lv="32" size_ceph_lv="8" size_zookeeper_lv="32" size_swap_lv="16" echo "found large disk (${blockdev_size_gbytes} >= 100GB), using optimal partition sizes." else # Minimum sized disk (>=30GB), use small partitions size_root_lv="8" size_ceph_lv="4" size_zookeeper_lv="8" size_swap_lv="8" echo "found small disk (${blockdev_size_gbytes} < 100GB), using small partition sizes." fi echo -n "Unmounting potential partitions on target device... " for mount in $( mount | grep "${target_disk}" | awk '{ print $3 }' | sort -r ); do umount -f ${mount} >&2 || true done echo "done." echo -n "Unmounting potential LVM logical volumes on target device... " for vg in $( pvscan | grep "${target_disk}" | awk '{ print $4 }' ); do for mount in $( mount | grep "/${vg}" | awk '{ print $3 }' | sort -r ); do umount -f ${mount} >&2 || true done done echo "done." echo -n "Disabing potential LVM volume groups on target device... " for vg in $( pvscan | grep "${target_disk}" | awk '{ print $4 }' ); do vgchange -an ${vg} >&2 || true sleep 1 vgchange -an ${vg} >&2 || true yes | vgremove -f ${vg} >&2 || true done echo "done." echo -n "Removing existing LVM physical volumes... " for pv in $( pvscan | grep "${target_disk}" | awk '{ print $2 }' ); do yes | pvremove -f ${pv} >&2 || true done echo "done." blockcheck() { # Skip checking if the key is set if [[ -n ${skip_blockcheck} ]]; then return fi # Determine optimal block size for zeroing exponent=16 remainder=1 while [[ ${remainder} -gt 0 && ${exponent} -gt 0 ]]; do exponent=$(( ${exponent} - 1 )) size=$(( 2**9 * 2 ** ${exponent} )) count=$(( ${blockdev_size_bytes} / ${size} )) remainder=$(( ${blockdev_size_bytes} - ${count} * ${size} )) done if [[ ${remainder} -gt 0 ]]; then echo "Failed to find a suitable block size for wiping... skipping." return fi echo -n "Checking if block device '${target_disk}' is already wiped... " if ! cmp --silent --bytes ${blockdev_size_bytes} /dev/zero ${target_disk}; then echo "false." echo "Wiping block device '${target_disk}' (${count} blocks of ${size} bytes)..." dd if=/dev/zero of=${target_disk} bs=${size} count=${count} oflag=direct status=progress 2>&1 else echo "done." fi } blockcheck echo -n "Preparing block device '${target_disk}'... " # New GPT, part 1 32MB BIOS boot, part 2 64MB ESP, part 3 928MB BOOT, part 4 inf LVM PV echo -e "o\ny\nn\n1\n\n32M\nEF02\nn\n2\n\n64M\nEF00\nn\n3\n\n928M\n8300\nn\n4\n\n\n8E00\nw\ny\n" | gdisk ${target_disk} >&2 echo "done." echo -n "Rescanning disks... " partprobe >&2 || true echo "done." echo -n "Creating LVM PV... " yes | pvcreate -ffy ${target_disk}4 >&2 echo "done." echo -n "Creating LVM VG 'vgx'... " yes | vgcreate -f vgx ${target_disk}4 >&2 echo "done." echo -n "Creating root logical volume (${size_root_lv}GB)... " yes | lvcreate -L ${size_root_lv}G -n root vgx >&2 echo "done." echo -n "Creating filesystem on root logical volume (${filesystem})... " yes | mkfs.${filesystem} /dev/vgx/root >&2 echo "done." echo -n "Creating ceph logical volume (${size_ceph_lv}GB)... " yes | lvcreate -L ${size_ceph_lv}G -n ceph vgx >&2 echo "done." echo -n "Creating filesystem on ceph logical volume (${filesystem})... " yes | mkfs.${filesystem} /dev/vgx/ceph >&2 echo "done." echo -n "Creating zookeeper logical volume (${size_zookeeper_lv}GB)... " yes | lvcreate -L ${size_zookeeper_lv}G -n zookeeper vgx >&2 echo "done." echo -n "Creating filesystem on zookeeper logical volume (${filesystem})... " yes | mkfs.${filesystem} /dev/vgx/zookeeper >&2 echo "done." echo -n "Creating swap logical volume (${size_swap_lv}GB)... " yes | lvcreate -L ${size_swap_lv}G -n swap vgx >&2 echo "done." echo -n "Creating swap space on swap logical volume... " yes | mkswap -f /dev/vgx/swap >&2 echo "done." echo -n "Creating filesystem on boot partition (ext2)... " yes | mkfs.ext2 ${target_disk}3 >&2 echo "done." echo -n "Creating filesystem on ESP partition (vfat)... " yes | mkdosfs -F32 ${target_disk}2 >&2 echo "done." vgchange -ay >&2 target="/tmp/target" mkdir -p ${target} >&2 echo -n "Mounting disks on temporary target '${target}'... " mount /dev/vgx/root ${target} >&2 mkdir -p ${target}/boot >&2 chattr +i ${target}/boot >&2 mount ${target_disk}3 ${target}/boot >&2 mkdir -p ${target}/boot/efi >&2 chattr +i ${target}/boot/efi >&2 mount ${target_disk}2 ${target}/boot/efi >&2 mkdir -p ${target}/var/lib/ceph >&2 chattr +i ${target}/var/lib/ceph >&2 mount /dev/vgx/ceph ${target}/var/lib/ceph >&2 mkdir -p ${target}/var/lib/zookeeper >&2 chattr +i ${target}/var/lib/zookeeper >&2 mount /dev/vgx/zookeeper ${target}/var/lib/zookeeper >&2 mkdir -p ${target}/tmp >&2 chattr +i ${target}/tmp >&2 mount -t tmpfs tmpfs ${target}/tmp >&2 echo "done." echo -n "Running debootstrap install... " echo "Command: debootstrap --include=${basepkglist} ${debrelease} ${target}/ ${debmirror}" >&2 debootstrap --include=${basepkglist} ${debrelease} ${target}/ ${debmirror} >&2 echo "done." echo -n "Adding non-free repository (firmware, etc.)... " mkdir -p ${target}/etc/apt/sources.list.d/ >&2 echo "deb ${debmirror} ${debrelease} contrib non-free" | tee -a ${target}/etc/apt/sources.list >&2 chroot ${target} apt-get update >&2 echo "done." echo -n "Installing supplemental packages... " chroot ${target} apt-get install -y --no-install-recommends $( sed 's/,/ /g' <<<"${suppkglist}" ) >&2 echo "done." # Determine the bypath name of the specified system disk for disk in /dev/disk/by-path/*; do bypathlink="$( realpath ${disk} | awk -F'/' '{ print $NF }' )" enteredname="$( awk -F'/' '{ print $NF }' <<<"${target_disk}" )" if [[ ${bypathlink} == ${enteredname} ]]; then bypath_disk="${disk}" fi done echo -n "Adding fstab entries... " echo "/dev/mapper/vgx-root / ${filesystem} errors=remount-ro 0 1" | tee -a ${target}/etc/fstab >&2 echo "/dev/mapper/vgx-ceph /var/lib/ceph ${filesystem} errors=remount-ro 0 2" | tee -a ${target}/etc/fstab >&2 echo "/dev/mapper/vgx-zookeeper /var/lib/zookeeper ${filesystem} errors=remount-ro 0 2" | tee -a ${target}/etc/fstab >&2 echo "/dev/mapper/vgx-swap none swap sw 0 0" | tee -a ${target}/etc/fstab >&2 echo "${bypath_disk}-part3 /boot ext2 defaults 0 2" | tee -a ${target}/etc/fstab >&2 echo "${bypath_disk}-part2 /boot/efi vfat umask=0077 0 2" | tee -a ${target}/etc/fstab >&2 echo "tmpfs /tmp tmpfs defaults 0 0" | tee -a ${target}/etc/fstab >&2 echo "done." seed_interfaces_segment() { # A seed install is always "dhcp-raw" since the provisioner is always a dedicated, access port target_interfaces_block="auto ${target_interface}\niface ${target_interface} inet dhcp\npost-up /etc/network/pvcprovisionerd.checkin.sh \$IFACE" } interactive_interfaces_segment() { case ${target_interfaces_is} in static-vlan) target_interfaces_block="auto ${vlan_interface}\niface ${vlan_interface} inet ${target_netformat}\n\tvlan_raw_device ${target_interface}\n\taddress ${formatted_ipaddr}\n\tnetmask ${formatted_netmask}\n\tgateway ${target_defgw}" ;; static-raw) target_interfaces_block="auto ${target_interface}\niface ${target_interface} inet ${target_netformat}\n\taddress ${formatted_ipaddr}\n\tnetmask ${formatted_netmask}\n\tgateway ${target_defgw}" ;; dhcp-vlan) target_interfaces_block="auto ${vlan_interface}\niface ${vlan_interface} inet ${target_netformat}\n\tvlan_raw_device${target_interface}" ;; dhcp-raw) target_interfaces_block="auto ${target_interface}\niface ${target_interface} inet ${target_netformat}" ;; esac } echo -n "Creating bootstrap interface segment... " case ${install_option} in on) seed_interfaces_segment ;; *) interactive_interfaces_segment ;; esac echo "done." echo -n "Adding bootstrap interface segment... " echo -e "${target_interfaces_block}" | tee ${target}/etc/network/interfaces.d/${target_interface} >&2 echo "done." case ${install_option} in on) echo -n "Creating bond interface segment... " bond_interfaces="$( ip -br link show | grep -E -o '^e[a-z]+[0-9]+[a-z0-9]*' | grep -v "^${target_interface}$" | tr '\n' ' ' )" bond_interfaces_block="auto bond0\niface bond0 inet manual\n\tbond-mode 802.3ad\n\tbond-slaves ${bond_interfaces}\n\tpost-up ip link set mtu 9000 dev \$IFACE" echo "done." echo -n "Adding bond interface segment... " echo -e "${bond_interfaces_block}" | tee ${target}/etc/network/interfaces.d/bond0 >&2 echo "done." echo -n "Adding bootstrap interface post-up checkin script... " cat <&2 #!/usr/bin/env bash target_interface=\${1} pvcbootstrapd_checkin_uri="${pvcbootstrapd_checkin_uri}" host_macaddr=\$( ip -br link show \${target_interface} | awk '{ print \$3 }' ) host_ipaddr=\$( ip -br address show \${target_interface} | awk '{ print \$3 }' | awk -F '/' '{ print \$1 }' ) bmc_macaddr=\$( ipmitool lan print | grep 'MAC Address ' | awk '{ print \$NF }' ) bmc_ipaddr=\$( ipmitool lan print | grep 'IP Address ' | awk '{ print \$NF }' ) if [[ -f /etc/pvc-install.hooks ]]; then # The third boot, when all hooks have been completed action="system-boot_completed" elif [[ -f /etc/pvc-install.base && -f /etc/pvc-install.pvc ]]; then # The second boot, when Ansible has configured the cluster action="system-boot_configured" else # The first boot, when Ansible has not been run yet action="system-boot_initial" fi curl -X POST \ -H "Content-Type: application/json" \ -d "{\"action\":\"\${action}\",\"hostname\":\"\$( hostname -s )\",\"host_macaddr\":\"\${host_macaddr}\",\"host_ipaddr\":\"\${host_ipaddr}\",\"bmc_macaddr\":\"\${bmc_macaddr}\",\"bmc_ipaddr\":\"\${bmc_ipaddr}\"}" \ \${pvcbootstrapd_checkin_uri} if [[ \${action} == "system-boot_completed" ]]; then # Clean up the bootstrap interface and this script rm /etc/network/interfaces.d/\${target_interface} rm \$0 poweroff fi EOF chmod +x ${target}/etc/network/pvcprovisionerd.checkin.sh echo "done." ;; *) # noop true ;; esac echo -n "Setting temporary 'root' password... " echo "root:${root_password}" | chroot ${target} chpasswd >&2 echo "done." echo -n "Adding deployment user... " mv ${target}/home ${target}/var/home >&2 chroot ${target} useradd -u 200 -d /var/home/${target_deploy_user} -m -s /bin/bash -g operator -G sudo ${target_deploy_user} >&2 chroot ${target} mkdir -p /var/home/${target_deploy_user}/.ssh if [[ -n ${target_keys_path} ]]; then case ${target_keys_method} in wget) wget -O ${target}/var/home/${target_deploy_user}/.ssh/authorized_keys ${target_keys_path} || failed_keys="y" ;; tftp) tftp -m binary "${seed_host}" -c get "${target_keys_path}" ${target}/var/home/${target_deploy_user}/.ssh/authorized_keys || failed_keys="y" ;; esac chroot ${target} chmod 0600 /var/home/${target_deploy_user}/.ssh/authorized_keys chroot ${target} chown -R ${target_deploy_user}:operator /var/home/${target_deploy_user} else echo "${target_deploy_user}:${target_password}" | chroot ${target} chpasswd >&2 fi echo "done." if [[ -n ${failed_keys} ]]; then target_password="$( pwgen -s 8 1 )" echo "WARNING: Failed to fetch keys; target deploy user SSH keyauth will fail." echo "Setting temporary random password '${temp_password}' instead." echo "${target_deploy_user}:${target_password}" | chroot ${target} chpasswd >&2 fi echo -n "Setting NOPASSWD for sudo group... " sed -i 's/^%sudo\tALL=(ALL:ALL) ALL/%sudo\tALL=(ALL:ALL) NOPASSWD: ALL/' ${target}/etc/sudoers echo "done." echo -n "Setting /etc/issue generator... " mkdir -p ${target}/etc/network/if-up.d >&2 echo -e "#!/bin/sh IP=\"\$( ip -4 addr show dev ${target_interface} | grep inet | awk '{ print \$2 }' | head -1 )\" cat </etc/issue Debian GNU/Linux 10 \\\\n \\\\l Bootstrap interface IP address: \$IP EOF" | tee ${target}/etc/network/if-up.d/issue-gen >&2 chmod +x ${target}/etc/network/if-up.d/issue-gen 1>&2 echo "done." echo -n "Generating host rsa and ed25519 keys... " rm ${target}/etc/ssh/ssh_host_*_key* >&2 chroot ${target} ssh-keygen -t rsa -N "" -f /etc/ssh/ssh_host_rsa_key >&2 chroot ${target} ssh-keygen -t ed25519 -N "" -f /etc/ssh/ssh_host_ed25519_key >&2 echo "done." echo -n "Setting hostname... " echo "${target_hostname}" | tee ${target}/etc/hostname >&2 echo "done." echo -n "Setting resolv.conf... " echo "nameserver 8.8.8.8" | tee ${target}/etc/resolv.conf >&2 echo "done." echo -n "Installing GRUB bootloader... " mount --bind /dev ${target}/dev >&2 mount --bind /dev/pts ${target}/dev/pts >&2 mount --bind /proc ${target}/proc >&2 mount --bind /sys ${target}/sys >&2 mount --bind /run ${target}/run >&2 if [[ -d /sys/firmware/efi ]]; then bios_target="x86_64-efi" else bios_target="i386-pc" fi cat <&2 GRUB_DEFAULT=0 GRUB_TIMEOUT=5 GRUB_DISTRIBUTOR="Parallel Virtual Cluster (PVC) - Debian" GRUB_CMDLINE_LINUX="noautogroup blacklist=hpwdt ${target_consoles}" GRUB_TERMINAL_INPUT="console serial" GRUB_TERMINAL_OUTPUT="gfxterm serial" GRUB_SERIAL_COMMAND="serial --unit=0 --unit=1 --speed=115200" EOF chroot ${target} grub-install --force --target=${bios_target} ${target_disk} >&2 chroot ${target} grub-mkconfig -o /boot/grub/grub.cfg >&2 echo "done." echo -n "Adding module blacklists... " for module in ${target_module_blacklist[@]}; do echo "blacklist ${module}" >> ${target}/etc/modprobe.d/blacklist.conf done chroot ${target} update-initramfs -u -k all >&2 echo "done." DONE="y" seed_postinst() { cleanup echo "Temporary root password: ${root_password}" echo seed_checkin end echo "Rebooting in 10 seconds." sleep 10 reboot } interactive_postinst() { set +o errexit echo echo -n "Edit the /etc/network/interfaces file in the target before completing setup? If you plan to use bonding, it is prudent to set this up in basic form now! [y/N] " read edit_ifaces if [[ ${edit_ifaces} == 'y' || ${edit_ifaces} == 'Y' ]]; then vim ${target}/etc/network/interfaces fi echo echo -n "Launch a chroot shell in the target environment? [y/N] " read launch_chroot if [[ ${launch_chroot} == 'y' || ${edit_ifaces} == 'Y' ]]; then echo "Type 'exit' or Ctrl+D to exit chroot." chroot ${target} /bin/bash fi cleanup echo "-------------------------------------------------------------------------------------" echo "| PVC node installation finished. Next steps: |" echo "| 1. Press to reboot the system. |" echo "| 2. Boot the system verify SSH access (IP shown on login screen). |" echo "| 3. Proceed with system deployment via PVC Ansible. |" echo "| |" echo "| The INSECURE temporary root password if the system will not boot is: ${root_password} |" echo "-------------------------------------------------------------------------------------" echo read reboot } case ${install_option} in on) seed_postinst ;; *) interactive_postinst ;; esac