heads/initrd/bin/gui-init

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#!/bin/bash
# Boot from a local disk installation
BOARD_NAME=${CONFIG_BOARD_NAME:-${CONFIG_BOARD}}
MAIN_MENU_TITLE="${BOARD_NAME} | $CONFIG_BRAND_NAME Boot Menu"
export BG_COLOR_MAIN_MENU=""
. /etc/functions
. /etc/gui_functions
. /etc/luks-functions
. /tmp/config
# skip_to_menu is set if the user selects "continue to the main menu" from any
# error, so we will indeed go to the main menu even if other errors occur. It's
# reset when we reach the main menu so the user can retry from the main menu and
# # see errors again.
skip_to_menu="false"
mount_boot()
{
TRACE "Under /bin/gui-init:mount_boot"
# Mount local disk if it is not already mounted
while ! grep -q /boot /proc/mounts ; do
# try to mount if CONFIG_BOOT_DEV exists
if [ -e "$CONFIG_BOOT_DEV" ]; then
mount -o ro $CONFIG_BOOT_DEV /boot
[[ $? -eq 0 ]] && continue
fi
# CONFIG_BOOT_DEV doesn't exist or couldn't be mounted, so give user options
BG_COLOR_MAIN_MENU=$BG_COLOR_ERROR
whiptail $BG_COLOR_ERROR --title "ERROR: No Bootable OS Found!" \
--menu " No bootable OS was found on the default boot device $CONFIG_BOOT_DEV.
How would you like to proceed?" 0 80 4 \
'b' ' Select a new boot device' \
'u' ' Boot from USB' \
'm' ' Continue to the main menu' \
'x' ' Exit to recovery shell' \
2>/tmp/whiptail || recovery "GUI menu failed"
option=$(cat /tmp/whiptail)
case "$option" in
b )
config-gui.sh boot_device_select
if [ $? -eq 0 ]; then
# update CONFIG_BOOT_DEV
. /tmp/config
BG_COLOR_MAIN_MENU=""
fi
;;
u )
exec /bin/usb-init
;;
m )
skip_to_menu="true"
break
;;
* )
recovery "User requested recovery shell"
;;
esac
done
}
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
2018-04-03 22:20:34 +00:00
verify_global_hashes()
{
TRACE "Under /bin/gui-init:verify_global_hashes"
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
2018-04-03 22:20:34 +00:00
# Check the hashes of all the files, ignoring signatures for now
check_config /boot force
TMP_HASH_FILE="/tmp/kexec/kexec_hashes.txt"
TMP_TREE_FILE="/tmp/kexec/kexec_tree.txt"
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
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TMP_PACKAGE_TRIGGER_PRE="/tmp/kexec/kexec_package_trigger_pre.txt"
TMP_PACKAGE_TRIGGER_POST="/tmp/kexec/kexec_package_trigger_post.txt"
if verify_checksums /boot ; then
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
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return 0
elif [[ ! -f "$TMP_HASH_FILE" || ! -f "$TMP_TREE_FILE" ]] ; then
if (whiptail $BG_COLOR_ERROR --title 'ERROR: Missing File!' \
--yesno "One of the files containing integrity information for /boot is missing!\n\nIf you are setting up heads for the first time or upgrading from an\nolder version, select Yes to create the missing files.\n\nOtherwise this could indicate a compromise and you should select No to\nreturn to the main menu.\n\nWould you like to create the missing files now?" 0 80) then
if update_checksums ; then
BG_COLOR_MAIN_MENU=""
return 0;
else
whiptail $BG_COLOR_ERROR --title 'ERROR' \
--msgbox "Failed to update checksums / sign default config" 0 80
fi
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
2018-04-03 22:20:34 +00:00
fi
BG_COLOR_MAIN_MENU=$BG_COLOR_ERROR
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
2018-04-03 22:20:34 +00:00
return 1
else
CHANGED_FILES=$(grep -v 'OK$' /tmp/hash_output | cut -f1 -d ':' | tee -a /tmp/hash_output_mismatches)
CHANGED_FILES_COUNT=$(wc -l /tmp/hash_output_mismatches | cut -f1 -d ' ')
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
2018-04-03 22:20:34 +00:00
# if files changed before package manager started, show stern warning
if [ -f "$TMP_PACKAGE_TRIGGER_PRE" ]; then
PRE_CHANGED_FILES=$(grep '^CHANGED_FILES' $TMP_PACKAGE_TRIGGER_POST | cut -f 2 -d '=' | tr -d '"')
TEXT="The following files failed the verification process BEFORE package updates ran:\n${PRE_CHANGED_FILES}\n\nCompare against the files $CONFIG_BRAND_NAME has detected have changed:\n${CHANGED_FILES}\n\nThis could indicate a compromise!\n\nWould you like to update your checksums anyway?"
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
2018-04-03 22:20:34 +00:00
# if files changed after package manager started, probably caused by package manager
elif [ -f "$TMP_PACKAGE_TRIGGER_POST" ]; then
LAST_PACKAGE_LIST=$(grep -E "^(Install|Remove|Upgrade|Reinstall):" $TMP_PACKAGE_TRIGGER_POST)
UPDATE_INITRAMFS_PACKAGE=$(grep '^UPDATE_INITRAMFS_PACKAGE' $TMP_PACKAGE_TRIGGER_POST | cut -f 2 -d '=' | tr -d '"')
if [ "$UPDATE_INITRAMFS_PACKAGE" != "" ]; then
TEXT="The following files failed the verification process AFTER package updates ran:\n${CHANGED_FILES}\n\nThis is likely due to package triggers in$UPDATE_INITRAMFS_PACKAGE.\n\nYou will need to update your checksums for all files in /boot.\n\nWould you like to update your checksums now?"
else
TEXT="The following files failed the verification process AFTER package updates ran:\n${CHANGED_FILES}\n\nThis might be due to the following package updates:\n$LAST_PACKAGE_LIST.\n\nYou will need to update your checksums for all files in /boot.\n\nWould you like to update your checksums now?"
fi
else
if [ $CHANGED_FILES_COUNT -gt 10 ]; then
# drop to console to show full file list
whiptail $ERROR_BG_COLOR --title 'ERROR: Boot Hash Mismatch' \
--msgbox "${CHANGED_FILES_COUNT} files failed the verification process!\\n\nThis could indicate a compromise!\n\nHit OK to review the list of files.\n\nType \"q\" to exit the list and return." 0 80
echo "Type \"q\" to exit the list and return." >> /tmp/hash_output_mismatches
less /tmp/hash_output_mismatches
#move outdated hash mismatch list
mv /tmp/hash_output_mismatches /tmp/hash_output_mismatch_old
TEXT="Would you like to update your checksums now?"
else
TEXT="The following files failed the verification process:\n\n${CHANGED_FILES}\n\nThis could indicate a compromise!\n\nWould you like to update your checksums now?"
fi
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
2018-04-03 22:20:34 +00:00
fi
if (whiptail $BG_COLOR_ERROR --title 'ERROR: Boot Hash Mismatch' --yesno "$TEXT" 0 80) then
if update_checksums ; then
BG_COLOR_MAIN_MENU=""
return 0;
else
whiptail $BG_COLOR_ERROR --title 'ERROR' \
--msgbox "Failed to update checksums / sign default config" 0 80
fi
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
2018-04-03 22:20:34 +00:00
fi
BG_COLOR_MAIN_MENU=$BG_COLOR_ERROR
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
2018-04-03 22:20:34 +00:00
return 1
fi
}
prompt_update_checksums()
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
2018-04-03 22:20:34 +00:00
{
TRACE "Under /bin/gui-init:prompt_update_checksums"
if (whiptail $BG_COLOR_WARNING --title 'Update Checksums and sign all files in /boot' \
--yesno "You have chosen to update the checksums and sign all of the files in /boot.\n\nThis means that you trust that these files have not been tampered with.\n\nYou will need your GPG key available, and this change will modify your disk.\n\nDo you want to continue?" 0 80) then
if ! update_checksums ; then
whiptail $BG_COLOR_ERROR --title 'ERROR' \
--msgbox "Failed to update checksums / sign default config" 0 80
fi
Add GUI package update handler w/ checksum update function Part of the Heads workflow involves handling legitimate changes to /boot as part of the package manager. This is a challenging workflow to handle as package managers on many systems work in a completely unattended way (and some even reboot first, apply updates, and then reboot again). We need to be able to detect changes that are potentially caused by a package manager so to do that I've set up a trigger within the OS (currently just for Debian) that runs both before and after package updates. It verifies the signatures in /boot and if they fail before package updates it creates a log file in /boot/kexec_package_trigger_pre.txt. If they fail after package updates run /boot/kexec_package_trigger_post.txt is created. These files contain the following fields: CHANGED_FILES: A list of files in /boot that failed the sha256sum check UPDATE_INITRAMFS_PACKAGE: An (optional) list of packages known to trigger initramfs changes Following those fields is a list of log output from the last package manager run which contains its own formatted fields (I'm pulling from /var/lib/dpkg/info). When a user selects a boot option, gui-init first verifies the checksums just to catch errors before calling kexec-select-boot. If there are any errors it looks for these package logs and if they exist, it displays appropriate warnings. If the files are absent it displays a more generic warning. The user is also given an opportunity to re-sign the /boot hashes.
2018-04-03 22:20:34 +00:00
fi
}
generate_totp_hotp()
{
tpm_password="$1" # May be empty, will prompt if needed and empty
TRACE "Under /bin/gui-init:generate_totp_hotp"
if [ "$CONFIG_TPM" != "y" ] && [ -x /bin/hotp_verification ]; then
echo "Generating new HOTP secret"
/bin/seal-hotpkey
elif echo -e "Generating new TOTP secret...\n\n" && /bin/seal-totp "$BOARD_NAME" "$tpm_password"; then
echo
if [ -x /bin/hotp_verification ]; then
if [ "$CONFIG_TOTP_SKIP_QRCODE" != y ]; then
echo "Once you have scanned the QR code, hit Enter to configure your HOTP USB Security Dongle (e.g. Librem Key or Nitrokey)"
read
fi
/bin/seal-hotpkey
else
if [ "$CONFIG_TOTP_SKIP_QRCODE" != y ]; then
echo "Once you have scanned the QR code, hit Enter to continue"
read
fi
fi
# clear screen
printf "\033c"
else
warn "Unsealing TOTP/HOTP secret from previous sealed measurements failed"
warn 'Try "Generate new HOTP/TOTP secret" option if you updated firmware content'
fi
}
update_totp()
{
TRACE "Under /bin/gui-init:update_totp"
# update the TOTP code
date=`date "+%Y-%m-%d %H:%M:%S %Z"`
tries=0
if [ "$CONFIG_TPM" != "y" ]; then
TOTP="NO TPM"
else
TOTP=`unseal-totp`
# On platforms using CONFIG_BOOT_EXTRA_TTYS multiple processes may try to
# access TPM at the same time, failing with EBUSY. The order of execution
# is unpredictable, so the error may appear on main console, secondary one,
# or neither of them if the calls are sufficiently staggered. Try up to
# three times (including previous one) with small delays in case of error,
# instead of immediately scaring users with "you've been pwned" message.
while [ $? -ne 0 ] && [ $tries -lt 2 ]; do
sleep 0.5
((tries++))
TOTP=`unseal-totp`
done
if [ $? -ne 0 ]; then
BG_COLOR_MAIN_MENU=$BG_COLOR_ERROR
if [ "$skip_to_menu" = "true" ]; then
return 1 # Already asked to skip to menu from a prior error
fi
Addition of qemu-(fb)whiptail-tpm2(-hotp) boards -coreboot support of TPM v2.0 (shared config for TPM2 support across all 4 previous variations) -swtpm set to be launched under TPM v2.0 mode under board config -Documentation file under each board.md softlinks to qemu-coreboot-fbwhiptail-tpm1.md (which has been generalized) This is skeleton for TPM v2 integration under Heads ------------- WiP TODO: - libcurl cannot be built as a tpm2-tools dependency as of now not sure why. curl currently needs to be added in board config to be built - Note: tpm-reset (master and here) needs some review, no handle of no tpm use case. Caller is responsible to not call it otherwise does nothing - init tries to bind fd and fails currently - Note: Check if whiptail is different of fbwhiptail in clearing screen. As of now every clear seems to be removed, still whiptail clears previous console output - When no OS' /boot can be mounted, do not try to TPM reset (will fail) - seal-hotpkey is not working properly - setting disk unlock key asks for TPM ownership passphrase (sealing in NV requires ownership, but text is misleading user as if reowning TPM) - We should cache input, feed tpm behind the scene and wipe passphrase and state clearly that this is TPM disk unlock kye passphrase. - primary key from TPM2 is invalid most of the time from kexec-select-boot and verifying global hashes but is setuped correctly at disk unlock key setup - would be nice to take advantage of bash function tracing to understand where we are for debugging purposes, code takes ash in consideration only - tpmr says it implements nv calls but actually doesn't. Removing those falsely wrapped functions would help. - Implementing them would be better - REVIEW TODOS IN CODE - READD CIRCLECI CONFIG Current state: - TPM unseal works without disk unlock key and generates TOTP properly (was missing die condition at unseal to not produce always good TOTP even if invalid) - TPM disk encryption key fails. Hypothesis is that sealing with USB drivers loaded and measures in inconsistent with sealed with/without. - TPM disk unsealing happens without USB modules being loaded in non-HOTP setup. This fails. - Current tests are with fbwhiptail (no clear called so having traces on command line of what happens) - Testing with HOTP implementation for sealing/unsealing since that forces USB module loads on each boot to remove this from failing possibilities
2022-08-25 18:43:31 +00:00
DEBUG "CONFIG_TPM: $CONFIG_TPM"
DEBUG "CONFIG_TPM2_TOOLS: $CONFIG_TPM2_TOOLS"
DEBUG "Show PCRs"
DEBUG "$(pcrs)"
Addition of qemu-(fb)whiptail-tpm2(-hotp) boards -coreboot support of TPM v2.0 (shared config for TPM2 support across all 4 previous variations) -swtpm set to be launched under TPM v2.0 mode under board config -Documentation file under each board.md softlinks to qemu-coreboot-fbwhiptail-tpm1.md (which has been generalized) This is skeleton for TPM v2 integration under Heads ------------- WiP TODO: - libcurl cannot be built as a tpm2-tools dependency as of now not sure why. curl currently needs to be added in board config to be built - Note: tpm-reset (master and here) needs some review, no handle of no tpm use case. Caller is responsible to not call it otherwise does nothing - init tries to bind fd and fails currently - Note: Check if whiptail is different of fbwhiptail in clearing screen. As of now every clear seems to be removed, still whiptail clears previous console output - When no OS' /boot can be mounted, do not try to TPM reset (will fail) - seal-hotpkey is not working properly - setting disk unlock key asks for TPM ownership passphrase (sealing in NV requires ownership, but text is misleading user as if reowning TPM) - We should cache input, feed tpm behind the scene and wipe passphrase and state clearly that this is TPM disk unlock kye passphrase. - primary key from TPM2 is invalid most of the time from kexec-select-boot and verifying global hashes but is setuped correctly at disk unlock key setup - would be nice to take advantage of bash function tracing to understand where we are for debugging purposes, code takes ash in consideration only - tpmr says it implements nv calls but actually doesn't. Removing those falsely wrapped functions would help. - Implementing them would be better - REVIEW TODOS IN CODE - READD CIRCLECI CONFIG Current state: - TPM unseal works without disk unlock key and generates TOTP properly (was missing die condition at unseal to not produce always good TOTP even if invalid) - TPM disk encryption key fails. Hypothesis is that sealing with USB drivers loaded and measures in inconsistent with sealed with/without. - TPM disk unsealing happens without USB modules being loaded in non-HOTP setup. This fails. - Current tests are with fbwhiptail (no clear called so having traces on command line of what happens) - Testing with HOTP implementation for sealing/unsealing since that forces USB module loads on each boot to remove this from failing possibilities
2022-08-25 18:43:31 +00:00
whiptail $BG_COLOR_ERROR --title "ERROR: TOTP Generation Failed!" \
--menu " ERROR: $CONFIG_BRAND_NAME couldn't generate the TOTP code.\n
If you have just completed a Factory Reset, or just reflashed
your BIOS, you should generate a new HOTP/TOTP secret.\n
If this is the first time the system has booted, you should
reset the TPM and set your own password.\n
If you have not just reflashed your BIOS, THIS COULD INDICATE TAMPERING!\n
How would you like to proceed?" 0 80 4 \
'g' ' Generate new HOTP/TOTP secret' \
'i' ' Ignore error and continue to main menu' \
'p' ' Reset the TPM' \
'x' ' Exit to recovery shell' \
2>/tmp/whiptail || recovery "GUI menu failed"
option=$(cat /tmp/whiptail)
case "$option" in
g )
if (whiptail $BG_COLOR_WARNING --title 'Generate new TOTP/HOTP secret' \
--yesno "This will erase your old secret and replace it with a new one!\n\nDo you want to proceed?" 0 80) then
generate_totp_hotp && update_totp && BG_COLOR_MAIN_MENU=""
reseal_tpm_disk_decryption_key
fi
;;
i )
skip_to_menu="true"
return 1
;;
p )
reset_tpm && update_totp && BG_COLOR_MAIN_MENU=""
reseal_tpm_disk_decryption_key
;;
x )
recovery "User requested recovery shell"
;;
esac
fi
fi
}
update_hotp()
{
TRACE "Under /bin/gui-init:update_hotp"
if [ -x /bin/hotp_verification ]; then
HOTP=`unseal-hotp`
if ! hotp_verification info ; then
if [ "$skip_to_menu" = "true" ]; then
return 1 # Already asked to skip to menu from a prior error
fi
if ! whiptail $BG_COLOR_WARNING \
--title "WARNING: Please Insert Your $HOTPKEY_BRANDING" \
--yes-button "Retry" --no-button "Skip" \
--yesno "Your $HOTPKEY_BRANDING was not detected.\n\nPlease insert your $HOTPKEY_BRANDING" 0 80 ; then
HOTP="Error checking code, Insert $HOTPKEY_BRANDING and retry"
BG_COLOR_MAIN_MENU=$BG_COLOR_WARNING
return
fi
fi
# Don't output HOTP codes to screen, so as to make replay attacks harder
hotp_verification check "$HOTP"
case "$?" in
0 )
HOTP="Success"
BG_COLOR_MAIN_MENU=""
;;
4|7 ) # 4: code was incorrect, 7: code was not a valid HOTP code at all
HOTP="Invalid code"
BG_COLOR_MAIN_MENU=$BG_COLOR_ERROR
;;
* )
HOTP="Error checking code, Insert $HOTPKEY_BRANDING and retry"
BG_COLOR_MAIN_MENU=$BG_COLOR_WARNING
;;
esac
else
HOTP='N/A'
fi
if [[ "$CONFIG_TPM" = n && "$HOTP" = "Invalid code" ]]; then
whiptail $BG_COLOR_ERROR --title "ERROR: HOTP Validation Failed!" \
--menu "ERROR: $CONFIG_BRAND_NAME couldn't validate the HOTP code.\n\nIf you just reflashed your BIOS, you should generate a new TOTP/HOTP secret.\n\nIf you have not just reflashed your BIOS, THIS COULD INDICATE TAMPERING!\n\nHow would you like to proceed?" 0 80 4 \
'g' ' Generate new TOTP/HOTP secret' \
'i' ' Ignore error and continue to main menu' \
'x' ' Exit to recovery shell' \
2>/tmp/whiptail || recovery "GUI menu failed"
option=$(cat /tmp/whiptail)
case "$option" in
g )
if (whiptail $BG_COLOR_WARNING --title 'Generate new TOTP/HOTP secret' \
--yesno "This will erase your old secret and replace it with a new one!\n\nDo you want to proceed?" 0 80) then
generate_totp_hotp && BG_COLOR_MAIN_MENU=""
reseal_tpm_disk_decryption_key
fi
;;
i )
return 1
;;
x )
recovery "User requested recovery shell"
;;
esac
fi
}
clean_boot_check()
{
TRACE "Under /bin/gui-init:mount_boot"
# assume /boot mounted
if ! grep -q /boot /proc/mounts ; then
return
fi
# check for any kexec files in /boot
kexec_files=`find /boot -name kexec*.txt`
[ ! -z "$kexec_files" ] && return
#check for GPG key in keyring
GPG_KEY_COUNT=`gpg -k 2>/dev/null | wc -l`
[ $GPG_KEY_COUNT -ne 0 ] && return
# check for USB security token
if [ -x /bin/hotp_verification ]; then
if ! gpg --card-status > /dev/null ; then
return
fi
fi
# OS is installed, no kexec files present, no GPG keys in keyring, security token present
# prompt user to run OEM factory reset
oem-factory-reset \
"Clean Boot Detected - Perform OEM Factory Reset / Re-Ownership?" "$BG_COLOR_WARNING"
}
check_gpg_key()
{
TRACE "Under /bin/gui-init:check_gpg_key"
GPG_KEY_COUNT=`gpg -k 2>/dev/null | wc -l`
if [ $GPG_KEY_COUNT -eq 0 ]; then
BG_COLOR_MAIN_MENU=$BG_COLOR_ERROR
if [ "$skip_to_menu" = "true" ]; then
return 1 # Already asked to skip to menu from a prior error
fi
whiptail $BG_COLOR_ERROR --title "ERROR: GPG keyring empty!" \
--menu "ERROR: $CONFIG_BRAND_NAME couldn't find any GPG keys in your keyring.\n\nIf this is the first time the system has booted,\nyou should add a public GPG key to the BIOS now.\n\nIf you just reflashed a new BIOS, you'll need to add at least one\npublic key to the keyring.\n\nIf you have not just reflashed your BIOS, THIS COULD INDICATE TAMPERING!\n\nHow would you like to proceed?" 0 80 4 \
'g' ' Add a GPG key to the running BIOS' \
'F' ' OEM Factory Reset / Re-Ownership' \
'i' ' Ignore error and continue to main menu' \
'x' ' Exit to recovery shell' \
2>/tmp/whiptail || recovery "GUI menu failed"
option=$(cat /tmp/whiptail)
case "$option" in
g )
gpg-gui.sh && BG_COLOR_MAIN_MENU=""
;;
i )
skip_to_menu="true"
return 1
;;
F )
oem-factory-reset
;;
x )
recovery "User requested recovery shell"
;;
esac
fi
}
prompt_auto_default_boot()
{
TRACE "Under /bin/gui-init:prompt_auto_default_boot"
echo -e "\nHOTP verification success\n\n"
if pause_automatic_boot; then
echo -e "\n\nAttempting default boot...\n\n"
attempt_default_boot
fi
}
show_main_menu()
{
TRACE "Under /bin/gui-init:show_main_menu"
date=`date "+%Y-%m-%d %H:%M:%S %Z"`
whiptail $BG_COLOR_MAIN_MENU --title "$MAIN_MENU_TITLE" \
--menu "$date\nTOTP: $TOTP | HOTP: $HOTP" 0 80 10 \
'd' ' Default boot' \
'r' ' Refresh TOTP/HOTP' \
'o' ' Options -->' \
's' ' System Info' \
'p' ' Power Off' \
2>/tmp/whiptail || recovery "GUI menu failed"
option=$(cat /tmp/whiptail)
case "$option" in
d )
attempt_default_boot
;;
r )
update_totp && update_hotp
;;
o )
show_options_menu
;;
s )
show_system_info
;;
p )
poweroff
;;
esac
}
show_options_menu()
{
TRACE "Under /bin/gui-init:show_options_menu"
whiptail $BG_COLOR_MAIN_MENU --title "$CONFIG_BRAND_NAME Options" \
--menu "" 0 80 10 \
'b' ' Boot Options -->' \
't' ' TPM/TOTP/HOTP Options -->' \
'u' ' Update checksums and sign all files in /boot' \
'c' ' Change configuration settings -->' \
'f' ' Flash/Update the BIOS -->' \
'g' ' GPG Options -->' \
'F' ' OEM Factory Reset / Re-Ownership -->' \
'C' ' Reencrypt LUKS container -->' \
'P' ' Change LUKS Disk Recovery Key passphrase ->' \
'R' ' Check/Update file hashes on root disk -->' \
'x' ' Exit to recovery shell' \
'r' ' <-- Return to main menu' \
2>/tmp/whiptail || recovery "GUI menu failed"
option=$(cat /tmp/whiptail)
case "$option" in
b )
show_boot_options_menu
;;
t )
show_tpm_totp_hotp_options_menu
;;
u )
prompt_update_checksums
;;
c )
config-gui.sh
;;
f )
flash-gui.sh
;;
g )
gpg-gui.sh
;;
F )
oem-factory-reset
;;
C )
luks_reencrypt
luks_secrets_cleanup
;;
P )
luks_change_passphrase
luks_secrets_cleanup
;;
R )
root-hashes-gui.sh
;;
x )
recovery "User requested recovery shell"
;;
r )
;;
esac
}
show_boot_options_menu()
{
TRACE "Under /bin/gui-init:show_boot_options_menu"
whiptail $BG_COLOR_MAIN_MENU --title "Boot Options" \
--menu "Select A Boot Option" 0 80 10 \
'm' ' Show OS boot menu' \
'u' ' USB boot' \
'i' ' Ignore tampering and force a boot (Unsafe!)' \
'r' ' <-- Return to main menu' \
2>/tmp/whiptail || recovery "GUI menu failed"
option=$(cat /tmp/whiptail)
case "$option" in
m )
# select a kernel from the menu
select_os_boot_option
;;
u )
exec /bin/usb-init
;;
i )
force_unsafe_boot
;;
r )
;;
esac
}
show_tpm_totp_hotp_options_menu()
{
TRACE "Under /bin/gui-init:show_tpm_totp_hotp_options_menu"
whiptail $BG_COLOR_MAIN_MENU --title "TPM/TOTP/HOTP Options" \
--menu "Select An Option" 0 80 10 \
'g' ' Generate new TOTP/HOTP secret' \
'r' ' Reset the TPM' \
't' ' TOTP/HOTP does not match after refresh, troubleshoot' \
'm' ' <-- Return to main menu' \
2>/tmp/whiptail || recovery "GUI menu failed"
option=$(cat /tmp/whiptail)
case "$option" in
g )
generate_totp_hotp
reseal_tpm_disk_decryption_key
;;
r )
reset_tpm
reseal_tpm_disk_decryption_key
;;
t )
prompt_totp_mismatch
;;
m )
;;
esac
}
prompt_totp_mismatch()
{
TRACE "Under /bin/gui-init:prompt_totp_mismatch"
if (whiptail $BG_COLOR_WARNING --title "TOTP/HOTP code mismatched" \
--yesno "TOTP/HOTP code mismatches could indicate either TPM tampering or clock drift:\n\nTo correct clock drift: 'date -s yyyy-MM-DD hh:mm:ss' in UTC timezone\nand save it to the RTC: 'hwclock -w'\nthen reboot and try again.\n\nWould you like to exit to a recovery console?" 0 80) then
echo ""
echo "To correct clock drift: 'date -s yyyy-MM-DD hh:mm:ss' in UTC timezone"
echo "and save it to the RTC: 'hwclock -w'"
echo ""
echo "Alternatively you could do this automatically with an Ethernet cable connected to a functional network: 'network-init-recovery'"
echo ""
echo "Then reboot and try again"
echo ""
recovery "TOTP/HOTP mismatch"
fi
}
reset_tpm()
{
TRACE "Under /bin/gui-init:reset_tpm"
if [ "$CONFIG_TPM" = "y" ]; then
if (whiptail $BG_COLOR_WARNING --title 'Reset the TPM' \
--yesno "This will clear the TPM and TPM password, replace them with new ones!\n\nDo you want to proceed?" 0 80) then
if ! prompt_new_owner_password; then
echo "Press Enter to return to the menu..."
read
echo
return 1
fi
tpmr reset "$key_password"
# now that the TPM is reset, remove invalid TPM counter files
mount_boot
mount -o rw,remount /boot
warn "Removing rollback and primary handle hash under /boot"
rm -f /boot/kexec_rollback.txt
rm -f /boot/kexec_primhdl_hash.txt
# create Heads TPM counter before any others
check_tpm_counter /boot/kexec_rollback.txt "" "$key_password" \
|| die "Unable to find/create tpm counter"
counter="$TPM_COUNTER"
increment_tpm_counter $counter \
|| die "Unable to increment tpm counter"
sha256sum /tmp/counter-$counter > /boot/kexec_rollback.txt \
|| die "Unable to create rollback file"
mount -o ro,remount /boot
generate_totp_hotp "$key_password"
else
echo "Returning to the main menu"
fi
else
whiptail $BG_COLOR_ERROR --title 'ERROR: No TPM Detected' --msgbox "This device does not have a TPM.\n\nPress OK to return to the Main Menu" 0 80
fi
}
select_os_boot_option()
{
TRACE "Under /bin/gui-init:select_os_boot_option"
mount_boot
if verify_global_hashes ; then
kexec-select-boot -m -b /boot -c "grub.cfg" -g
fi
}
attempt_default_boot()
{
TRACE "Under /bin/gui-init:attempt_default_boot"
mount_boot
if ! verify_global_hashes; then
return
fi
DEFAULT_FILE=`find /boot/kexec_default.*.txt 2>/dev/null | head -1`
if [ -r "$DEFAULT_FILE" ]; then
kexec-select-boot -b /boot -c "grub.cfg" -g \
|| recovery "Failed default boot"
elif (whiptail $BG_COLOR_WARNING --title 'No Default Boot Option Configured' \
--yesno "There is no default boot option configured yet.\nWould you like to load a menu of boot options?\nOtherwise you will return to the main menu." 0 80) then
kexec-select-boot -m -b /boot -c "grub.cfg" -g
fi
}
force_unsafe_boot()
{
TRACE "Under /bin/gui-init:force_unsafe_boot"
if [ "$CONFIG_RESTRICTED_BOOT" = y ]; then
whiptail $BG_COLOR_ERROR --title 'ERROR: Restricted Boot Enabled' --msgbox "Restricted Boot is Enabled, forced boot not allowed.\n\nPress OK to return to the Main Menu" 0 80
return
fi
# Run the menu selection in "force" mode, bypassing hash checks
if (whiptail $BG_COLOR_WARNING --title 'Unsafe Forced Boot Selected!' \
--yesno "WARNING: You have chosen to skip all tamper checks and boot anyway.\n\nThis is an unsafe option!\n\nDo you want to proceed?" 0 80) then
mount_boot && kexec-select-boot -m -b /boot -c "grub.cfg" -g -f
fi
}
# gui-init start
TRACE "Under /bin/gui-init, start"
# Use stored HOTP key branding
if [ -r /boot/kexec_hotp_key ]; then
HOTPKEY_BRANDING="$(cat /boot/kexec_hotp_key)"
else
HOTPKEY_BRANDING="HOTP USB Security Dongle"
fi
if [ -x /bin/hotp_verification ]; then
enable_usb
fi
if detect_boot_device ; then
# /boot device with installed OS found
clean_boot_check
else
# can't determine /boot device or no OS installed,
# so fall back to interactive selection
mount_boot
fi
# detect whether any GPG keys exist in the keyring, if not, initialize that first
check_gpg_key
# Even if GPG init fails, still try to update TOTP/HOTP so the main menu can
# show the correct status.
update_totp
update_hotp
2023-02-18 20:52:32 +00:00
if [ "$HOTP" = "Success" -a -n "$CONFIG_AUTO_BOOT_TIMEOUT" ]; then
prompt_auto_default_boot
fi
while true; do
TRACE "Under gui-init:while true loop"
skip_to_menu="false"
show_main_menu
done
recovery "Something failed during boot"