#!/bin/sh # Shell functions for most initialization scripts die() { echo >&2 "$*"; exit 1; } warn() { echo >&2 "$*"; } recovery() { echo >&2 "!!!!! $*" # Remove any temporary secret files that might be hanging around # but recreate the directory so that new tools can use it. shred -n 10 -z -u /tmp/secret/* 2> /dev/null rm -rf /tmp/secret mkdir -p /tmp/secret # ensure /tmp/config exists for recovery scripts that depend on it touch /tmp/config if [ "$CONFIG_TPM" = y ]; then tpm extend -ix 4 -ic recovery fi while [ true ] do echo >&2 "!!!!! Starting recovery shell" sleep 1 if [ -x /bin/setsid ]; then /bin/setsid -c /bin/ash else /bin/ash fi # clear screen printf "\033c" done } pause_recovery() { read -p 'Hit enter to proceed to recovery shell:' recovery $* } pcrs() { head -8 /sys/class/tpm/tpm0/pcrs } confirm_totp() { prompt="$1" last_half=X unset totp_confirm while true; do # update the TOTP code every thirty seconds date=`date "+%Y-%m-%d %H:%M:%S"` seconds=`date "+%s"` half=`expr \( $seconds % 60 \) / 30` if [ "$CONFIG_TPM" != y ]; then TOTP="NO TPM" elif [ "$half" != "$last_half" ]; then last_half=$half; TOTP=`unseal-totp` \ || recovery "TOTP code generation failed" fi echo -n "$date $TOTP: " # read the first character, non-blocking read \ -t 1 \ -n 1 \ -s \ -p "$prompt" \ totp_confirm \ && break # nothing typed, redraw the line echo -ne '\r' done # clean up with a newline echo } enable_usb() { if [ "$CONFIG_LINUX_USB_COMPANION_CONTROLLER" = y ]; then if ! lsmod | grep -q uhci_hcd; then insmod /lib/modules/uhci-hcd.ko \ || die "uhci_hcd: module load failed" fi if ! lsmod | grep -q ohci_hcd; then insmod /lib/modules/ohci-hcd.ko \ || die "ohci_hcd: module load failed" fi if ! lsmod | grep -q ohci_pci; then insmod /lib/modules/ohci-pci.ko \ || die "ohci_pci: module load failed" fi fi if ! lsmod | grep -q ehci_hcd; then insmod /lib/modules/ehci-hcd.ko \ || die "ehci_hcd: module load failed" fi if ! lsmod | grep -q ehci_pci; then insmod /lib/modules/ehci-pci.ko \ || die "ehci_pci: module load failed" fi if ! lsmod | grep -q xhci_hcd; then insmod /lib/modules/xhci-hcd.ko \ || die "xhci_hcd: module load failed" fi if ! lsmod | grep -q xhci_pci; then insmod /lib/modules/xhci-pci.ko \ || die "xhci_pci: module load failed" sleep 2 fi if [ "$CONFIG_USB_KEYBOARD" = y ]; then if ! lsmod | grep -q usbhid; then insmod /lib/modules/usbhid.ko \ || die "usbhid: module load failed" fi fi } confirm_gpg_card() { read \ -n 1 \ -p "Please confirm that your GPG card is inserted [Y/n]: " \ card_confirm echo if [ "$card_confirm" != "y" \ -a "$card_confirm" != "Y" \ -a -n "$card_confirm" ] \ ; then die "gpg card not confirmed" fi # setup the USB so we can reach the GPG card enable_usb echo -e "\nVerifying presence of GPG card...\n" # ensure we don't exit without retrying errexit=$(set -o | grep errexit | awk '{print $2}') set +e gpg --card-status > /dev/null if [ $? -ne 0 ]; then # prompt for reinsertion and try a second time read -n1 -r -p \ "Can't access GPG key; remove and reinsert, then press Enter to retry. " \ ignored # restore prev errexit state if [ "$errexit" = "on" ]; then set -e fi # retry card status gpg --card-status > /dev/null \ || die "gpg card read failed" fi # restore prev errexit state if [ "$errexit" = "on" ]; then set -e fi } check_tpm_counter() { LABEL=${2:-3135106223} # if the /boot.hashes file already exists, read the TPM counter ID # from it. if [ -r "$1" ]; then TPM_COUNTER=`grep counter- "$1" | cut -d- -f2` else warn "$1 does not exist; creating new TPM counter" read -s -p "TPM Owner password: " tpm_password echo tpm counter_create \ -pwdo "$tpm_password" \ -pwdc '' \ -la $LABEL \ | tee /tmp/counter \ || die "Unable to create TPM counter" TPM_COUNTER=`cut -d: -f1 < /tmp/counter` fi if [ -z "$TPM_COUNTER" ]; then die "$1: TPM Counter not found?" fi } read_tpm_counter() { tpm counter_read -ix "$1" | tee "/tmp/counter-$1" \ || die "Counter read failed" } increment_tpm_counter() { tpm counter_increment -ix "$1" -pwdc '' \ | tee /tmp/counter-$1 \ || die "Counter increment failed" } check_config() { if [ ! -d /tmp/kexec ]; then mkdir /tmp/kexec \ || die 'Failed to make kexec tmp dir' else rm -rf /tmp/kexec/* \ || die 'Failed to empty kexec tmp dir' fi if [ ! -r $1/kexec.sig ]; then return fi if [ `find $1/kexec*.txt | wc -l` -eq 0 ]; then return fi if [ "$2" != "force" ]; then if ! sha256sum `find $1/kexec*.txt` | gpgv $1/kexec.sig - ; then die 'Invalid signature on kexec boot params' fi fi echo "+++ Found verified kexec boot params" cp $1/kexec*.txt /tmp/kexec \ || die "Failed to copy kexec boot params to tmp" } preserve_rom() { new_rom="$1" old_files=`cbfs -t 50 -l 2>/dev/null | grep "^heads/"` for old_file in `echo $old_files`; do new_file=`cbfs -o $1 -l | grep -x $old_file` if [ -z "$new_file" ]; then echo "+++ Adding $old_file to $1" cbfs -t 50 -r $old_file >/tmp/rom.$$ \ || die "Failed to read cbfs file from ROM" cbfs -o $1 -a $old_file -f /tmp/rom.$$ \ || die "Failed to write cbfs file to new ROM file" fi done } replace_config() { CONFIG_FILE=$1 CONFIG_OPTION=$2 NEW_SETTING=$3 touch $CONFIG_FILE # first pull out the existing option from the global config and place in a tmp file awk "gsub(\"^export ${CONFIG_OPTION}=.*\",\"export ${CONFIG_OPTION}=\\\"${NEW_SETTING}\\\"\")" /tmp/config > ${CONFIG_FILE}.tmp awk "gsub(\"^${CONFIG_OPTION}=.*\",\"${CONFIG_OPTION}=\\\"${NEW_SETTING}\\\"\")" /tmp/config >> ${CONFIG_FILE}.tmp # then copy any remaining settings from the existing config file, minus the option you changed grep -v "^export ${CONFIG_OPTION}=" ${CONFIG_FILE} | grep -v "^${CONFIG_OPTION}=" >> ${CONFIG_FILE}.tmp || true sort ${CONFIG_FILE}.tmp | uniq > ${CONFIG_FILE} rm -f ${CONFIG_FILE}.tmp } combine_configs() { cat /etc/config* > /tmp/config } update_checksums() { # clear screen printf "\033c" # ensure /boot mounted if ! grep -q /boot /proc/mounts ; then mount -o ro /boot \ || recovery "Unable to mount /boot" fi # remount RW mount -o rw,remount /boot # sign and auto-roll config counter extparam= if [ "$CONFIG_TPM" = "y" ]; then extparam=-r fi if ! kexec-sign-config -p /boot -u $extparam ; then rv=1 else rv=0 fi # switch back to ro mode mount -o ro,remount /boot return $rv } # detect and set /boot device # mount /boot if successful detect_boot_device() { # unmount /boot to be safe cd / && umount /boot 2>/dev/null # check $CONFIG_BOOT_DEV if set/valid if [ -e "$CONFIG_BOOT_DEV" ]; then if mount -o ro $CONFIG_BOOT_DEV /boot >/dev/null 2>&1; then if ls -d /boot/grub* >/dev/null 2>&1; then # CONFIG_BOOT_DEV is valid device and contains an installed OS return 0 fi fi fi # generate list of possible boot devices fdisk -l | grep "Disk /dev/" | cut -f2 -d " " | cut -f1 -d ":" > /tmp/disklist # filter out extraneous options > /tmp/boot_device_list for i in `cat /tmp/disklist`; do # remove block device from list if numeric partitions exist, since not bootable DEV_NUM_PARTITIONS=$((`ls -1 $i* | wc -l`-1)) if [ ${DEV_NUM_PARTITIONS} -eq 0 ]; then echo $i >> /tmp/boot_device_list else ls $i* | tail -${DEV_NUM_PARTITIONS} >> /tmp/boot_device_list fi done # iterate thru possible options and check for grub dir for i in `cat /tmp/boot_device_list`; do umount /boot 2>/dev/null if mount -o ro $i /boot >/dev/null 2>&1; then if ls -d /boot/grub* >/dev/null 2>&1; then CONFIG_BOOT_DEV="$i" return 0 fi fi done # no valid boot device found echo "Unable to locate /boot files on any mounted disk" umount /boot 2>/dev/null return 1 } calc() { awk "BEGIN { print "$*" }"; } print_battery_health() { if [ -d /sys/class/power_supply/BAT* ]; then battery_health=$(calc $(cat /sys/class/power_supply/BAT*/charge_full)/$(cat /sys/class/power_supply/BAT*/charge_full_design)*100 | awk -F "." {'print $1'}) echo "$battery_health" fi } print_battery_charge() { if [ -d /sys/class/power_supply/BAT* ]; then battery_charge=$(calc $(cat /sys/class/power_supply/BAT*/charge_now)/$(cat /sys/class/power_supply/BAT*/charge_full)*100 | awk -F "." {'print $1'}) echo "$battery_charge" fi }