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a767347afd
LOG() is added to log to the log only (not kmsg, more verbose than TRACE). DO_WITH_DEBUG only captures stdout/stderr to the log with LOG(). kexec-boot silences stderr from kexec, we don't want it on the console. No need to repeat the kexec command when asking in debug to continue boot, it's no longer hidden behind verbose output from kexec. Signed-off-by: Jonathon Hall <jonathon.hall@puri.sm>
860 lines
27 KiB
Bash
Executable File
860 lines
27 KiB
Bash
Executable File
#!/bin/bash
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# Shell functions for most initialization scripts
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. /etc/ash_functions
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# Print <hidden> or <empty> depending on whether $1 is empty. Useful to mask an
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# optional password parameter.
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mask_param() {
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if [ -z "$1" ]; then
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echo "<empty>"
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else
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echo "<hidden>"
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fi
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}
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# Pipe input to this to sink it to the debug log, with a name prefix.
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# If the input is empty, no output is produced, so actual output is
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# readily visible in logs.
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#
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# For example:
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# ls /boot/vmlinux* | SINK_LOG "/boot kernels"
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SINK_LOG() {
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local name="$1"
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local line haveblank
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# If the input doesn't end with a line break, read won't give us the
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# last (unterminated) line. Add a line break with echo to ensure we
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# don't lose any input. Buffer up to one blank line so we can avoid
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# emitting a final (or only) blank line.
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(cat; echo) | while IFS= read -r line; do
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[[ -n "$haveblank" ]] && DEBUG "$name: " # Emit buffered blank line
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if [[ -z "$line" ]]; then
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haveblank=y
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else
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haveblank=
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LOG "$name: $line"
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fi
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done
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}
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# Trace a command with DEBUG, then execute it. Trace failed exit status, stdout
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# and stderr, etc.
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#
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# DO_WITH_DEBUG is designed so it can be dropped in to most command invocations
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# without side effects - it adds visibility without actually affecting the
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# execution of the script. Exit statuses, stdout, and stderr are traced, but
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# they are still returned/written to the caller.
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#
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# A password parameter can be masked by passing --mask-position N before the
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# command to execute, the debug trace will just indicate whether the password
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# was empty or nonempty (which is important when use of a password is optional).
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# N=0 is the name of the command to be executed, N=1 is its first parameter,
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# etc.
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#
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# DO_WITH_DEBUG() can be added in most places where a command is executed to
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# add visibility in the debug log. For example:
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#
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# [DO_WITH_DEBUG] mount "$BLOCK" "$MOUNTPOINT"
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# ^-- adding DO_WITH_DEBUG will show the block device, mountpoint, and whether
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# the mount fails
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#
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# [DO_WITH_DEBUG --mask-position 7] tpmr seal "$KEY" "$IDX" "$pcrs" "$pcrf" "$size" "$PASSWORD"
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# ^-- trace the resulting invocation, but mask the password in the log
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#
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# if ! [DO_WITH_DEBUG] umount "$MOUNTPOINT"; then [...]
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# ^-- it can be used when the exit status is checked, like the condition of `if`
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#
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# hotp_token_info="$([DO_WITH_DEBUG] hotp_verification info)"
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# ^-- output of hotp_verification info becomes visible in debug log while
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# still being captured by script
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#
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# [DO_WITH_DEBUG] umount "$MOUNTPOINT" &>/dev/null || true
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# ^-- if the command's stdout/stderr/failure are ignored, this still works the
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# same way with DO_WITH_DEBUG
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DO_WITH_DEBUG() {
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local exit_status=0
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local cmd_output
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if [[ "$1" == "--mask-position" ]]; then
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local mask_position="$2"
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shift
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shift
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local show_args=("$@")
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show_args[$mask_position]="$(mask_param "${show_args[$mask_position]}")"
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DEBUG "${show_args[@]}"
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else
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DEBUG "$@"
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fi
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# Execute the command and capture the exit status. Tee stdout/stderr to
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# debug sinks, so they're visible but still can be used by the caller
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#
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# This is tricky when set -e / set -o pipefail may or may not be in
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# effect.
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# - Putting the command in an `if` ensures set -e won't terminate us,
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# and also does not overwrite $? (like `|| true` would).
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# - We capture PIPESTATUS[0] whether the command succeeds or fails,
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# since we don't know whether the pipeline status will be that of the
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# command or 'tee' (depends on set -o pipefail).
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if ! "$@" 2> >(tee /dev/stderr | SINK_LOG "$1 stderr") | tee >(SINK_LOG "$1 stdout"); then
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exit_status="${PIPESTATUS[0]}"
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else
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exit_status="${PIPESTATUS[0]}"
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fi
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if [[ "$exit_status" -ne 0 ]]; then
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# Trace unsuccessful exit status, but only at DEBUG because this
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# may be expected. Include the command name in case the command
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# also invoked a DO_WITH_DEBUG (it could be a script).
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DEBUG "$1: exited with status $exit_status"
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fi
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# If the command was (probably) not found, trace PATH in case it
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# prevented the command from being found
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if [[ "$exit_status" -eq 127 ]]; then
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DEBUG "$1: PATH=$PATH"
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fi
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return "$exit_status"
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}
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# Trace the current script and function.
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TRACE_FUNC() {
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# Index [1] for BASH_SOURCE and FUNCNAME give us the caller location.
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# FUNCNAME is 'main' if called from a script outside any function.
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# BASH_LINENO is offset by 1, it provides the line that the
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# corresponding FUNCNAME was _called from_, so BASH_LINENO[0] is the
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# location of the caller.
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TRACE "${BASH_SOURCE[1]}(${BASH_LINENO[0]}): ${FUNCNAME[1]}"
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}
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# Show the entire current call stack in debug output - useful if a catastrophic
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# error or something very unexpected occurs, like totally invalid parameters.
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DEBUG_STACK() {
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local FRAMES
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FRAMES="${#FUNCNAME[@]}"
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DEBUG "call stack: ($((FRAMES-1)) frames)"
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# Don't print DEBUG_STACK itself, start from 1
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for i in $(seq 1 "$((FRAMES-1))"); do
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DEBUG "- $((i-1)) - ${BASH_SOURCE[$i]}(${BASH_LINENO[$((i-1))]}): ${FUNCNAME[$i]}"
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done
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}
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pcrs() {
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if [ "$CONFIG_TPM2_TOOLS" = "y" ]; then
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tpm2 pcrread sha256
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elif [ "$CONFIG_TPM" = "y" ]; then
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head -8 /sys/class/tpm/tpm0/pcrs
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fi
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}
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confirm_totp() {
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TRACE_FUNC
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prompt="$1"
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last_half=X
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unset totp_confirm
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while true; do
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# update the TOTP code every thirty seconds
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date=$(date "+%Y-%m-%d %H:%M:%S")
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seconds=$(date "+%s")
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half=$(expr \( $seconds % 60 \) / 30)
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if [ "$CONFIG_TPM" != "y" ]; then
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TOTP="NO TPM"
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elif [ "$half" != "$last_half" ]; then
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last_half=$half
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TOTP=$(unseal-totp) ||
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recovery "TOTP code generation failed"
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fi
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echo -n "$date $TOTP: "
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# read the first character, non-blocking
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read \
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-t 1 \
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-n 1 \
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-s \
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-p "$prompt" \
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totp_confirm &&
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break
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# nothing typed, redraw the line
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echo -ne '\r'
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done
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# clean up with a newline
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echo
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}
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reseal_tpm_disk_decryption_key() {
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TRACE_FUNC
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#For robustness, exit early if LUKS TPM Disk Unlock Key is prohibited in board configs
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if [ "$CONFIG_TPM_DISK_UNLOCK_KEY" == "n" ]; then
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DEBUG "LUKS TPM Disk Unlock Key is prohibited in board configs"
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return
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else
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DEBUG "LUKS TPM Disk Unlock Key is allowed in board configs. Continuing"
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fi
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if ! grep -q /boot /proc/mounts; then
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mount -o ro /boot ||
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recovery "Unable to mount /boot"
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fi
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if [ -s /boot/kexec_key_devices.txt ] || [ -s /boot/kexec_key_lvm.txt ]; then
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warn "LUKS TPM sealed Disk Unlock Key secret needs to be resealed alongside TOTP/HOTP secret"
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echo "Resealing LUKS TPM Disk Unlock Key to be unsealed by LUKS TPM Disk Unlock Key passphrase"
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while ! kexec-seal-key /boot; do
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warn "Recovery Disk Encryption key passphrase/TPM Owner Password may be invalid. Please try again"
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done
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warn "LUKS header hash changed under /boot/kexec_luks_hdr_hash.txt"
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echo "Updating checksums and signing all files under /boot/kexec.sig"
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while ! update_checksums; do
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warn "Checksums were not signed. Preceding errors should explain possible causes"
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done
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warn "Rebooting in 3 seconds to enable booting default boot option"
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sleep 3
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reboot
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else
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DEBUG "No TPM disk decryption key to reseal"
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fi
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}
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# Enable USB storage (if not already enabled), and wait for storage devices to
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# be detected. If USB storage was already enabled, no wait occurs, this would
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# have happened already when USB storage was enabled.
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enable_usb_storage() {
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TRACE_FUNC
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if ! lsmod | grep -q usb_storage; then
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timeout=0
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echo "Scanning for USB storage devices..."
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insmod /lib/modules/usb-storage.ko >/dev/null 2>&1 ||
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die "usb_storage: module load failed"
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while [[ $(list_usb_storage | wc -l) -eq 0 ]]; do
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[[ $timeout -ge 8 ]] && break
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sleep 1
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timeout=$(($timeout + 1))
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done
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fi
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}
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device_has_partitions() {
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local DEVICE="$1"
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# fdisk normally says "doesn't contain a valid partition table" for
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# devices that lack a partition table - except for FAT32.
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#
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# FAT32 devices have a volume boot record that looks enough like an MBR
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# to satisfy fdisk. In that case, fdisk prints a partition table header
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# but no partitions.
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#
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# This check covers that: [ $(fdisk -l "$b" | wc -l) -eq 5 ]
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# In both cases the output is 5 lines: 3 about device info, 1 empty line
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# and the 5th will be the table header or the invalid message.
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local DISK_DATA=$(fdisk -l "$DEVICE")
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if echo "$DISK_DATA" | grep -q "doesn't contain a valid partition table" || \
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[ "$(echo "$DISK_DATA" | wc -l)" -eq 5 ]; then
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# No partition table
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return 1
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fi
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# There is a partition table
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return 0
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}
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list_usb_storage() {
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TRACE_FUNC
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# List all USB storage devices, including partitions unless we received argument stating we want drives only
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# The output is a list of device names, one per line.
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if [ "$1" = "disks" ]; then
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DEBUG "Listing USB storage devices (disks only) since list_usb_storage was called with 'disks' argument"
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else
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DEBUG "Listing USB storage devices (including partitions)"
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fi
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stat -c %N /sys/block/sd* 2>/dev/null | grep usb |
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cut -f1 -d ' ' |
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sed "s/[']//g" |
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while read b; do
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# Ignore devices of size 0, such as empty SD card
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# readers on laptops attached via USB.
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if [ "$(cat "$b/size")" -gt 0 ]; then
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DEBUG "USB storage device of size greater then 0: $b"
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echo "$b"
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fi
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done |
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sed "s|/sys/block|/dev|" |
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while read b; do
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# If the device has a partition table, ignore it and
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# include the partitions instead - even if the kernel
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# hasn't detected the partitions yet. Such a device is
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# never usable directly, and this allows the "wait for
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# disks" loop in mount-usb to correctly wait for the
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# partitions.
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if ! device_has_partitions "$b"; then
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# No partition table, include this device
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DEBUG "USB storage device without partition table: $b"
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echo "$b"
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#Bypass the check for partitions if we want only disks
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elif [ "$1" = "disks" ]; then
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# disks only were requested, so we don't list partitions
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DEBUG "USB storage device with partition table: $b"
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DEBUG "We asked for disks only, so we don't want to list partitions"
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echo "$b"
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else
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# Has a partition table, include partitions
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DEBUG "USB storage device with partition table: $b"
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ls -1 "$b"* | awk 'NR!=1 {print $0}'
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fi
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done
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}
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# Prompt for a TPM Owner Password if it is not already cached in /tmp/secret/tpm_owner_password.
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# Sets tpm_owner_password variable reused in flow, and cache file used until recovery shell is accessed.
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# Tools should optionally accept a TPM password on the command line, since some flows need
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# it multiple times and only one prompt is ideal.
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prompt_tpm_owner_password() {
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TRACE_FUNC
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if [ -s /tmp/secret/tpm_owner_password ]; then
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DEBUG "/tmp/secret/tpm_owner_password already cached in file. Reusing"
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tpm_owner_password=$(cat /tmp/secret/tpm_owner_password)
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return 0
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fi
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read -s -p "TPM Owner Password: " tpm_owner_password
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echo # new line after password prompt
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# Cache the password externally to be reused by who needs it
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DEBUG "Caching TPM Owner Password to /tmp/secret/tpm_owner_password"
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mkdir -p /tmp/secret || die "Unable to create /tmp/secret"
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echo -n "$tpm_owner_password" >/tmp/secret/tpm_owner_password || die "Unable to cache TPM owner_password under /tmp/secret/tpm_owner_password"
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}
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# Prompt for a new TPM Owner Password when resetting the TPM.
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# Returned in tpm_owner_passpword and cached under /tpm/secret/tpm_owner_password
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# The password must be 1-32 characters and must be entered twice,
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# the script will loop until this is met.
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prompt_new_owner_password() {
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TRACE_FUNC
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local tpm_owner_password2
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tpm_owner_password=1
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tpm_owner_password2=2
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while [ "$tpm_owner_password" != "$tpm_owner_password2" ] || [ "${#tpm_owner_password}" -gt 32 ] || [ -z "$tpm_owner_password" ]; do
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read -s -p "New TPM Owner Password (2 words suggested, 1-32 characters max): " tpm_owner_password
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echo
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read -s -p "Repeat chosen TPM Owner Password: " tpm_owner_password2
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echo
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if [ "$tpm_owner_password" != "$tpm_owner_password2" ]; then
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echo "Passphrases entered do not match. Try again!"
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echo
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fi
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done
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# Cache the password externally to be reused by who needs it
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DEBUG "Caching TPM Owner Password to /tmp/secret/tpm_owner_password"
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mkdir -p /tmp/secret || die "Unable to create /tmp/secret"
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echo -n "$tpm_owner_password" >/tmp/secret/tpm_owner_password || die "Unable to cache TPM password under /tmp/secret"
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}
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check_tpm_counter() {
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TRACE_FUNC
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LABEL=${2:-3135106223}
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tpm_password="$3"
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# if the /boot.hashes file already exists, read the TPM counter ID
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# from it.
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if [ -r "$1" ]; then
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TPM_COUNTER=$(grep counter- "$1" | cut -d- -f2)
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else
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warn "$1 does not exist; creating new TPM counter"
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tpmr counter_create \
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-pwdc '' \
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-la $LABEL |
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tee /tmp/counter ||
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die "Unable to create TPM counter"
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TPM_COUNTER=$(cut -d: -f1 </tmp/counter)
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fi
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if [ -z "$TPM_COUNTER" ]; then
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die "$1: TPM Counter not found?"
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fi
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}
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read_tpm_counter() {
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TRACE_FUNC
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tpmr counter_read -ix "$1" | tee "/tmp/counter-$1" ||
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die "Counter read failed"
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}
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increment_tpm_counter() {
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TRACE_FUNC
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tpmr counter_increment -ix "$1" -pwdc '' |
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tee /tmp/counter-$1 ||
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die "TPM counter increment failed for rollback prevention. Please reset the TPM"
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}
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check_config() {
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TRACE_FUNC
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if [ ! -d /tmp/kexec ]; then
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mkdir /tmp/kexec ||
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die 'Failed to make kexec tmp dir'
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else
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rm -rf /tmp/kexec/* ||
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die 'Failed to empty kexec tmp dir'
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fi
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if [ ! -r $1/kexec.sig -a "$CONFIG_BASIC" != "y" ]; then
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return
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fi
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if [ $(find $1/kexec*.txt | wc -l) -eq 0 ]; then
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return
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fi
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if [ "$2" != "force" ]; then
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if ! sha256sum $(find $1/kexec*.txt) | gpgv $1/kexec.sig -; then
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die 'Invalid signature on kexec boot params'
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fi
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fi
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echo "+++ Found verified kexec boot params"
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cp $1/kexec*.txt /tmp/kexec ||
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die "Failed to copy kexec boot params to tmp"
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}
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# Replace a file in a ROM (add it if the file does not exist)
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replace_rom_file() {
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ROM="$1"
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ROM_FILE="$2"
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NEW_FILE="$3"
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if (cbfs.sh -o "$ROM" -l | grep -q "$ROM_FILE"); then
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cbfs.sh -o "$ROM" -d "$ROM_FILE"
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fi
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cbfs.sh -o "$ROM" -a "$ROM_FILE" -f "$NEW_FILE"
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}
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replace_config() {
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TRACE_FUNC
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CONFIG_FILE=$1
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CONFIG_OPTION=$2
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NEW_SETTING=$3
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touch $CONFIG_FILE
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# first pull out the existing option from the global config and place in a tmp file
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awk "gsub(\"^export ${CONFIG_OPTION}=.*\",\"export ${CONFIG_OPTION}=\\\"${NEW_SETTING}\\\"\")" /tmp/config >${CONFIG_FILE}.tmp
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awk "gsub(\"^${CONFIG_OPTION}=.*\",\"${CONFIG_OPTION}=\\\"${NEW_SETTING}\\\"\")" /tmp/config >>${CONFIG_FILE}.tmp
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# then copy any remaining settings from the existing config file, minus the option you changed
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grep -v "^export ${CONFIG_OPTION}=" ${CONFIG_FILE} | grep -v "^${CONFIG_OPTION}=" >>${CONFIG_FILE}.tmp || true
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sort ${CONFIG_FILE}.tmp | uniq >${CONFIG_FILE}
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rm -f ${CONFIG_FILE}.tmp
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}
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# Generate a secret for TPM-less HOTP by reading the ROM. Output is the
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# sha256sum of the ROM (binary, not printable), which can be truncated to the
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# supported secret length.
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secret_from_rom_hash() {
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local ROM_IMAGE="/tmp/coreboot-notpm.rom"
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echo -e "\nTPM not detected; measuring ROM directly\n" 1>&2
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# Read the ROM if we haven't read it yet
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if [ ! -f "${ROM_IMAGE}" ]; then
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flash.sh -r "${ROM_IMAGE}" >/dev/null 2>&1 || return 1
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fi
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|
|
sha256sum "${ROM_IMAGE}" | cut -f1 -d ' ' | fromhex_plain
|
|
}
|
|
|
|
update_checksums() {
|
|
TRACE_FUNC
|
|
# 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 [ "$CONFIG_TPM" = "y" ]; then
|
|
if [ "$CONFIG_IGNORE_ROLLBACK" != "y" ]; then
|
|
extparam=-r
|
|
fi
|
|
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
|
|
}
|
|
|
|
print_tree() {
|
|
TRACE_FUNC
|
|
find ./ ! -path './kexec*' -print0 | sort -z
|
|
}
|
|
|
|
# Escape zero-delimited standard input to safely display it to the user in e.g.
|
|
# `whiptail`, `less`, `echo`, `cat`. Doesn't produce shell-escaped output.
|
|
# Most printable characters are passed verbatim (exception: \).
|
|
# These escapes are used to replace their corresponding characters: #n#r#t#v#b
|
|
# Other characters are rendered as hexadecimal escapes.
|
|
# escape_zero [prefix] [escape character]
|
|
# prefix: \0 in the input will result in \n[prefix]
|
|
# escape character: character to use for escapes (default: #); \ may be interpreted by `whiptail`
|
|
escape_zero() {
|
|
local prefix="$1"
|
|
local echar="${2:-#}"
|
|
local todo=""
|
|
local echar_hex="$(echo -n "$echar" | xxd -p -c1)"
|
|
[ ${#echar_hex} -eq 2 ] || die "Invalid escape character $echar passed to escape_zero(). Programming error?!"
|
|
|
|
echo -e -n "$prefix"
|
|
xxd -p -c1 | tr -d '\n' |
|
|
{
|
|
while IFS= read -r -n2 -d ''; do
|
|
if [ -n "$todo" ]; then
|
|
#REPLY == " " is EOF
|
|
[[ "$REPLY" == " " ]] && echo '' || echo -e -n "$todo"
|
|
todo=""
|
|
fi
|
|
|
|
case "$REPLY" in
|
|
00)
|
|
todo="\n$prefix"
|
|
;;
|
|
08)
|
|
echo -n "${echar}b"
|
|
;;
|
|
09)
|
|
echo -n "${echar}t"
|
|
;;
|
|
0a)
|
|
echo -n "${echar}n"
|
|
;;
|
|
0b)
|
|
echo -n "${echar}v"
|
|
;;
|
|
0d)
|
|
echo -n "${echar}r"
|
|
;;
|
|
"$echar_hex")
|
|
echo -n "$echar$echar"
|
|
;;
|
|
#interpreted characters:
|
|
2[0-9a-f] | 3[0-9a-f] | 4[0-9a-f] | 5[0-9abd-f] | 6[0-9a-f] | 7[0-9a-e])
|
|
echo -e -n '\x'"$REPLY"
|
|
;;
|
|
# All others are escaped
|
|
*)
|
|
echo -n "${echar}x$REPLY"
|
|
;;
|
|
esac
|
|
done
|
|
}
|
|
}
|
|
|
|
# Currently heads doesn't support signing file names with certain characters
|
|
# due to https://bugs.busybox.net/show_bug.cgi?id=14226. Also, certain characters
|
|
# may be intepreted by `whiptail`, `less` et al (e.g. \n, \b, ...).
|
|
assert_signable() {
|
|
TRACE_FUNC
|
|
# ensure /boot mounted
|
|
if ! grep -q /boot /proc/mounts; then
|
|
mount -o ro /boot || die "Unable to mount /boot"
|
|
fi
|
|
|
|
find /boot -print0 >/tmp/signable.ref
|
|
local del='\001-\037\134\177-\377'
|
|
LC_ALL=C tr -d "$del" </tmp/signable.ref >/tmp/signable.del || die "Failed to execute tr."
|
|
if ! cmp -s "/tmp/signable.ref" "/tmp/signable.del" &>/dev/null; then
|
|
local user_out="/tmp/hash_output_mismatches"
|
|
local add="Please investigate!"
|
|
[ -f "$user_out" ] && add="Please investigate the following relative paths to /boot (where # are sanitized invalid characters):"$'\n'"$(cat "$user_out")"
|
|
recovery "Some /boot file names contain characters that are currently not supported by heads: $del"$'\n'"$add"
|
|
fi
|
|
rm -f /tmp/signable.*
|
|
}
|
|
|
|
verify_checksums() {
|
|
TRACE_FUNC
|
|
local boot_dir="$1"
|
|
local gui="${2:-y}"
|
|
|
|
(
|
|
set +e -o pipefail
|
|
local ret=0
|
|
cd "$boot_dir" || ret=1
|
|
sha256sum -c "$TMP_HASH_FILE" >/tmp/hash_output || ret=1
|
|
|
|
# also make sure that the file & directory structure didn't change
|
|
# (sha256sum won't detect added files)
|
|
print_tree >/tmp/tree_output || ret=1
|
|
if ! cmp -s "$TMP_TREE_FILE" /tmp/tree_output &>/dev/null; then
|
|
ret=1
|
|
[[ "$gui" != "y" ]] && exit "$ret"
|
|
# produce a diff that can safely be presented to the user
|
|
# this is relatively hard as file names may e.g. contain backslashes etc.,
|
|
# which are interpreted by whiptail, less, ...
|
|
escape_zero "(new) " <"$TMP_TREE_FILE" >"${TMP_TREE_FILE}.user"
|
|
escape_zero "(new) " </tmp/tree_output >/tmp/tree_output.user
|
|
diff "${TMP_TREE_FILE}.user" /tmp/tree_output.user | grep -E '^\+\(new\).*$' | sed -r 's/^\+\(new\)/(new)/g' >>/tmp/hash_output
|
|
rm -f "${TMP_TREE_FILE}.user"
|
|
rm -f /tmp/tree_output.user
|
|
fi
|
|
exit $ret
|
|
)
|
|
return $?
|
|
}
|
|
|
|
# Check if a device is an LVM2 PV, and if so print the VG name
|
|
find_lvm_vg_name() {
|
|
TRACE_FUNC
|
|
local DEVICE VG
|
|
DEVICE="$1"
|
|
|
|
mkdir -p /tmp/root-hashes-gui
|
|
if ! lvm pvs "$DEVICE" >/tmp/root-hashes-gui/lvm_vg 2>/dev/null; then
|
|
# It's not an LVM PV
|
|
return 1
|
|
fi
|
|
|
|
VG="$(tail -n +2 /tmp/root-hashes-gui/lvm_vg | awk '{print $2}')"
|
|
if [ -z "$VG" ]; then
|
|
DEBUG "Could not find LVM2 VG from lvm pvs output:"
|
|
DEBUG "$(cat /tmp/root-hashes-gui/lvm_vg)"
|
|
return 1
|
|
fi
|
|
|
|
echo "$VG"
|
|
}
|
|
|
|
# If a block device is a partition, check if it is a bios-grub partition on a
|
|
# GPT-partitioned disk.
|
|
is_gpt_bios_grub() {
|
|
TRACE_FUNC
|
|
|
|
local PART_DEV="$1" DEVICE NUMBER
|
|
|
|
# Figure out the partitioned device containing this device (if there is
|
|
# one) from /sys/class/block.
|
|
local DEVICE_MATCHES=("/sys/class/block/"*"/$(basename "$PART_DEV")")
|
|
|
|
DEVICE="$(echo "${DEVICE_MATCHES[0]}" | cut -d/ -f5)"
|
|
if [ "${#DEVICE_MATCHES[@]}" -ne 1 ] || [ "$DEVICE" = "*" ]; then
|
|
return 0
|
|
fi
|
|
|
|
# Extract the partition number
|
|
if ! [[ $(basename "$PART_DEV") =~ ([0-9]+)$ ]]; then
|
|
return 0 # Can't figure out the partition number
|
|
fi
|
|
|
|
NUMBER="${BASH_REMATCH[1]}"
|
|
|
|
# Now we know the device and partition number, get the type. This is
|
|
# specific to GPT disks, MBR disks are shown differently by fdisk.
|
|
TRACE "$PART_DEV is partition $NUMBER of $DEVICE"
|
|
if [ "$(fdisk -l "/dev/$DEVICE" | awk '$1 == '"$NUMBER"' {print $5}')" == grub ]; then
|
|
return 0
|
|
fi
|
|
return 1
|
|
}
|
|
|
|
# Test if a block device could be used as /boot - we can mount it and it
|
|
# contains /boot/grub* files. (Here, the block device could be a partition or
|
|
# an unpartitioned device.)
|
|
#
|
|
# If the device is a partition, its type is also checked. Some common types
|
|
# that we definitely can't mount this way are excluded to silence spurious exFAT
|
|
# errors.
|
|
#
|
|
# Any existing /boot is unmounted. If the device is a reasonable boot device,
|
|
# it's left mounted on /boot.
|
|
mount_possible_boot_device() {
|
|
TRACE_FUNC
|
|
|
|
local BOOT_DEV="$1"
|
|
local PARTITION_TYPE
|
|
|
|
# Unmount anything on /boot. Ignore failure since there might not be
|
|
# anything. If there is something mounted and we cannot unmount it for
|
|
# some reason, mount will fail, which is handled.
|
|
umount /boot 2>/dev/null || true
|
|
|
|
# Skip bios-grub partitions on GPT disks, LUKS partitions, and LVM PVs,
|
|
# we can't mount these as /boot.
|
|
if is_gpt_bios_grub "$BOOT_DEV" || cryptsetup isLuks "$BOOT_DEV" ||
|
|
find_lvm_vg_name "$BOOT_DEV" >/dev/null; then
|
|
TRACE "$BOOT_DEV is not a mountable partition for /boot"
|
|
return 1
|
|
fi
|
|
|
|
TRACE "Try mounting $BOOT_DEV as /boot"
|
|
if mount -o ro "$BOOT_DEV" /boot >/dev/null 2>&1; then
|
|
if ls -d /boot/grub* >/dev/null 2>&1; then
|
|
# This device is a reasonable boot device
|
|
return 0
|
|
fi
|
|
umount /boot || true
|
|
fi
|
|
|
|
return 1
|
|
}
|
|
|
|
# detect and set /boot device
|
|
# mount /boot if successful
|
|
detect_boot_device() {
|
|
TRACE_FUNC
|
|
local devname
|
|
# unmount /boot to be safe
|
|
cd / && umount /boot 2>/dev/null
|
|
|
|
# check $CONFIG_BOOT_DEV if set/valid
|
|
if [ -e "$CONFIG_BOOT_DEV" ] && mount_possible_boot_device "$CONFIG_BOOT_DEV"; then
|
|
# CONFIG_BOOT_DEV is valid device and contains an installed OS
|
|
return 0
|
|
fi
|
|
|
|
# generate list of possible boot devices
|
|
fdisk -l | grep "Disk /dev/" | cut -f2 -d " " | cut -f1 -d ":" >/tmp/disklist
|
|
|
|
# Check each possible boot device
|
|
for i in $(cat /tmp/disklist); do
|
|
# If the device has partitions, check the partitions instead
|
|
if device_has_partitions "$i"; then
|
|
devname="$(basename "$i")"
|
|
partitions=("/sys/class/block/$devname/$devname"?*)
|
|
else
|
|
partitions=("$i") # Use the device itself
|
|
fi
|
|
for partition in "${partitions[@]}"; do
|
|
partition_dev=/dev/"$(basename "$partition")"
|
|
# No sense trying something we already tried above
|
|
if [ "$partition_dev" = "$CONFIG_BOOT_DEV" ]; then
|
|
continue
|
|
fi
|
|
# If this is a reasonable boot device, select it and finish
|
|
if mount_possible_boot_device "$partition_dev"; then
|
|
CONFIG_BOOT_DEV="$partition_dev"
|
|
return 0
|
|
fi
|
|
done
|
|
done
|
|
|
|
# no valid boot device found
|
|
echo "Unable to locate /boot files on any mounted disk"
|
|
return 1
|
|
}
|
|
|
|
scan_boot_options() {
|
|
TRACE_FUNC
|
|
local bootdir config option_file
|
|
bootdir="$1"
|
|
config="$2"
|
|
option_file="$3"
|
|
|
|
if [ -r $option_file ]; then rm $option_file; fi
|
|
for i in $(find $bootdir -name "$config"); do
|
|
DO_WITH_DEBUG kexec-parse-boot "$bootdir" "$i" >>$option_file
|
|
done
|
|
# FC29/30+ may use BLS format grub config files
|
|
# https://fedoraproject.org/wiki/Changes/BootLoaderSpecByDefault
|
|
# only parse these if $option_file is still empty
|
|
if [ ! -s $option_file ] && [ -d "$bootdir/loader/entries" ]; then
|
|
for i in $(find $bootdir -name "$config"); do
|
|
kexec-parse-bls "$bootdir" "$i" "$bootdir/loader/entries" >>$option_file
|
|
done
|
|
fi
|
|
}
|
|
|
|
calc() {
|
|
awk "BEGIN { print "$*" }"
|
|
}
|
|
|
|
# truncate a file to a size only if it is longer (busybox truncate lacks '<' and
|
|
# always sets the file size)
|
|
truncate_max_bytes() {
|
|
local bytes="$1"
|
|
local file="$2"
|
|
if [ "$(stat -c %s "$file")" -gt "$bytes" ]; then
|
|
truncate -s "$bytes" "$file"
|
|
fi
|
|
}
|
|
|
|
# Busybox xxd -p pads the last line with spaces to 60 columns, which not only
|
|
# trips up many scripts, it's very difficult to diagnose by looking at the
|
|
# output. Delete line breaks and spaces to really get plain hex output.
|
|
tohex_plain() {
|
|
xxd -p | tr -d '\n '
|
|
}
|
|
|
|
# Busybox xxd -p -r silently truncates lines longer than 60 hex chars.
|
|
# Shorter lines are OK, spaces are OK, and even splitting a byte across lines is
|
|
# allowed, so just fold the text to maximum 60 column lines.
|
|
# Note that also unlike GNU xxd, non-hex chars in input corrupt the output (GNU
|
|
# xxd ignores them).
|
|
fromhex_plain() {
|
|
fold -w 60 | xxd -p -r
|
|
}
|
|
|
|
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
|
|
}
|
|
|
|
generate_random_mac_address() {
|
|
#Borrowed from https://stackoverflow.com/questions/42660218/bash-generate-random-mac-address-unicast
|
|
hexdump -n 6 -ve '1/1 "%.2x "' /dev/urandom | awk -v a="2,6,a,e" -v r="$RANDOM" 'BEGIN{srand(r);}NR==1{split(a,b,",");r=int(rand()*4+1);printf "%s%s:%s:%s:%s:%s:%s\n",substr($1,0,1),b[r],$2,$3,$4,$5,$6}'
|
|
}
|
|
|
|
# Add a command to be invoked at exit. (Note that trap EXIT replaces any
|
|
# existing handler.) Commands are invoked in reverse order, so they can be used
|
|
# to clean up resources, etc.
|
|
# The parameters are all executed as-is and do _not_ require additional quoting
|
|
# (unlike trap). E.g.:
|
|
# at_exit shred "$file" #<-- file is expanded when calling at_exit, no extra quoting needed
|
|
at_exit() {
|
|
AT_EXIT_HANDLERS+=("$@") # Command and args
|
|
AT_EXIT_HANDLERS+=("$#") # Number of elements in this command
|
|
}
|
|
|
|
# Array of all exit handler command arguments with lengths of each command at
|
|
# the end. For example:
|
|
# at_exit echo hello
|
|
# at_exit echo a b c
|
|
# results in:
|
|
# AT_EXIT_HANDLERS=(echo hello 2 echo a b c 4)
|
|
|
|
AT_EXIT_HANDLERS=()
|
|
# Each handler is an array AT_EXIT_HANDLER_{i}
|
|
run_at_exit_handlers() {
|
|
local cmd_pos cmd_len
|
|
cmd_pos="${#AT_EXIT_HANDLERS[@]}"
|
|
# Silence trace if there are no handlers, this is common and occurs a lot
|
|
[ "$cmd_pos" -gt 0 ] && DEBUG "Running at_exit handlers"
|
|
while [ "$cmd_pos" -gt 0 ]; do
|
|
cmd_pos="$((cmd_pos - 1))"
|
|
cmd_len="${AT_EXIT_HANDLERS[$cmd_pos]}"
|
|
cmd_pos="$((cmd_pos - cmd_len))"
|
|
"${AT_EXIT_HANDLERS[@]:$cmd_pos:$cmd_len}"
|
|
done
|
|
}
|
|
trap run_at_exit_handlers EXIT
|