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#!/bin/bash

PS4='$LINENO:'
[ -z "$CRYPTSETUP_PATH" ] && CRYPTSETUP_PATH=".."
CRYPTSETUP=$CRYPTSETUP_PATH/cryptsetup

CRYPTSETUP_VALGRIND=../.libs/cryptsetup
CRYPTSETUP_LIB_VALGRIND=../.libs

FAST_PBKDF2="--pbkdf pbkdf2 --pbkdf-force-iterations 1000"
FAST_PBKDF_ARGON="--pbkdf-force-iterations 4 --pbkdf-memory 32 --pbkdf-parallel 1"
DEFAULT_ARGON="argon2i"

DEV=""
OVRDEV="123reenc321"
DEVBIG="reenc2134"
DEV_NAME=reenc9768
DEV_NAME2=reenc97682
IMG=reenc-data
IMG_HDR=/tmp/$IMG.hdr
KEY1=key1
PWD1="93R4P4pIqAH8"
PWD2="1cND4319812f"
PWD3="1-9Qu5Ejfnqv"

[ -f /etc/system-fips ] && FIPS_MODE=$(cat /proc/sys/crypto/fips_enabled 2>/dev/null)

function dm_crypt_features()
{
	VER_STR=$(dmsetup targets | grep crypt | cut -f2 -dv)
	[ -z "$VER_STR" ] && fail "Failed to parse dm-crypt version."

	VER_MAJ=$(echo $VER_STR | cut -f 1 -d.)
	VER_MIN=$(echo $VER_STR | cut -f 2 -d.)
	VER_PTC=$(echo $VER_STR | cut -f 3 -d.)

	[ $VER_MAJ -lt 1 ] && return
	[ $VER_MAJ -gt 1 ] && {
		DM_PERF_CPU=1
		DM_SECTOR_SIZE=1
		return
	}

	[ $VER_MIN -lt 14 ] && return
	DM_PERF_CPU=1
	if [ $VER_MIN -ge 17 -o \( $VER_MIN -eq 14 -a $VER_PTC -ge 5 \) ]; then
		DM_SECTOR_SIZE=1
	fi
}

function dm_delay_features()
{
	local _ver_str=$(dmsetup targets | grep delay | cut -f2 -dv)
	[ -z "$_ver_str" ] && return 1
	return 0
}

# $1 path to scsi debug bdev
scsi_debug_teardown() {
	local _tries=15;

	while [ -b "$1" -a $_tries -gt 0 ]; do
		rmmod scsi_debug 2> /dev/null
		if [ -b "$1" ]; then
			sleep .1
			_tries=$((_tries-1))
		fi
	done

	test ! -b "$1" || rmmod scsi_debug 2> /dev/null
}

function remove_mapping()
{
	[ -b /dev/mapper/$DEV_NAME ] && {
		dmsetup resume $DEV_NAME
		dmsetup remove --retry $DEV_NAME
	}
	[ -b /dev/mapper/$DEV_NAME2 ] && {
		dmsetup resume $DEV_NAME2
		dmsetup remove --retry $DEV_NAME2
	}
	[ -b /dev/mapper/$DEV_NAME-overlay ] && {
		dmsetup resume $DEV_NAME-overlay
		dmsetup remove --retry $DEV_NAME-overlay
	}
	[ -b /dev/mapper/$DEV_NAME-hotzone-forward ] && {
		dmsetup resume $DEV_NAME-hotzone-forward
		dmsetup remove --retry $DEV_NAME-hotzone-forward
	}
	[ -b /dev/mapper/$DEV_NAME-hotzone-backward ] && {
		dmsetup resume $DEV_NAME-hotzone-backward
		dmsetup remove --retry $DEV_NAME-hotzone-backward
	}
	[ -b /dev/mapper/$OVRDEV ] && dmsetup remove --retry $OVRDEV 2>/dev/null
	[ -b /dev/mapper/$OVRDEV-err ] && dmsetup remove --retry $OVRDEV-err 2>/dev/null
	[ -n "$LOOPDEV" ] && losetup -d $LOOPDEV
	unset LOOPDEV
	rm -f $IMG $IMG_HDR $KEY1 $DEVBIG >/dev/null 2>&1
	rmmod scsi_debug 2> /dev/null
	scsi_debug_teardown $DEV
}

function fail()
{
	local frame=0
	[ -n "$1" ] && echo "$1"
	echo "FAILED backtrace:"
	while caller $frame; do	((frame++)); done
	remove_mapping
	exit 2
}

function skip()
{
	[ -n "$1" ] && echo "$1"
	exit 77
}

function fips_mode()
{
	[ -n "$FIPS_MODE" ] && [ "$FIPS_MODE" -gt 0 ]
}

function add_scsi_device() {
	scsi_debug_teardown $DEV
        modprobe scsi_debug $@ delay=0
        if [ $? -ne 0 ] ; then
                echo "This kernel seems to not support proper scsi_debug module, test skipped."
                exit 77
        fi

        sleep 1
        DEV="/dev/"$(grep -l -e scsi_debug /sys/block/*/device/model | cut -f4 -d /)
        [ -b $DEV ] || fail "Cannot find $DEV."
}

function open_crypt() # $1 pwd, $2 hdr
{
	if [ -n "$2" ] ; then
		echo "$1" | $CRYPTSETUP luksOpen $DEV $DEV_NAME --header $2 || fail
	elif [ -n "$1" ] ; then
		echo "$1" | $CRYPTSETUP luksOpen $DEV $DEV_NAME || fail
	else
		$CRYPTSETUP luksOpen -d $KEY1 $DEV $DEV_NAME || fail
	fi
}

function wipe_dev() # $1 dev
{
	if [ -b $1 ] ; then
		blkdiscard --zeroout $1 2>/dev/null || dd if=/dev/zero of=$1 bs=1M conv=notrunc >/dev/null 2>&1
	else
		local size=$(stat --printf="%s" $1)
		truncate -s 0 $1
		truncate -s $size $1
	fi
}

function wipe() # $1 pass, $2 hdr
{
	open_crypt $1 $2
	wipe_dev /dev/mapper/$DEV_NAME
	udevadm settle >/dev/null 2>&1
	$CRYPTSETUP luksClose $DEV_NAME || fail
}

function prepare() # $1 dev1_siz
{
	remove_mapping

	if [ ! -e $KEY1 ]; then
		dd if=/dev/urandom of=$KEY1 count=1 bs=32 >/dev/null 2>&1
	fi

	add_scsi_device $@
}

function preparebig() # $1 dev1_siz
{
	remove_mapping

	if [ ! -e $KEY1 ]; then
		dd if=/dev/urandom of=$KEY1 count=1 bs=32 >/dev/null 2>&1
	fi

	truncate -s "$1"M $DEVBIG
	LOOPDEV=$(losetup -f)
	losetup -f $DEVBIG || fail
	DEV=$LOOPDEV
}

function check_hash_dev() # $1 dev, $2 hash
{
	HASH=$(sha256sum $1 | cut -d' ' -f 1)
	[ $HASH != "$2" ] && fail "HASH differs (expected: $2) (result $HASH)"
}

function check_hash() # $1 pwd, $2 hash, $3 hdr
{
	open_crypt $1 $3
	check_hash_dev /dev/mapper/$DEV_NAME $2
	$CRYPTSETUP remove $DEV_NAME || fail
}

function check_hash_head() # $1 pwd, $2 len, $3 hash, $4 hdr
{
	open_crypt $1 $4
	if [ -n "$4" ]; then
		echo $1 | $CRYPTSETUP resize $DEV_NAME --size $2 --header $4 || fail
	else
		echo $1 | $CRYPTSETUP resize $DEV_NAME --size $2 || fail
	fi
	check_hash_dev /dev/mapper/$DEV_NAME $3
	$CRYPTSETUP remove $DEV_NAME || fail
}

function resize_file() # $1 dev, $2 shrink bytes
{
	local size=$(stat --printf="%s" $1)
	truncate -s $(($size + $2)) $1
	losetup -c $LOOPDEV
}

function error_writes() { # $1 dmdev, $2 data dev, $3 offset, $4 size
	local _dev_size=$(blockdev --getsz /dev/mapper/$1)
	local _offset=$(($3+$4))
	local _size=$((_dev_size-_offset))
	local _err=$1-err
	local _table=
	dmsetup create $_err --table "0 $_dev_size error" || fail

	if [ $3 -ne 0 ]; then
		_table="0 $3 linear $2 0\n"
	fi

	_table=$_table"$3 $4 delay $2 $3 0 /dev/mapper/$_err $3 0"

	if [ $_size -ne 0 ]; then
		_table="$_table\n$_offset $_size linear $2 $_offset"
	fi

	echo -e "$_table" | dmsetup load $1 || fail
	dmsetup resume $1 || fail
	blockdev --setra 0 /dev/mapper/$1
	blockdev --setra 0 /dev/mapper/$_err
}

function fix_writes() { # $1 dmdev, $2 data dev
	local _dev_size=$(blockdev --getsz /dev/mapper/$1)
	dmsetup load $1 --table "0 $_dev_size linear $2 0" || fail
	dmsetup resume $1 || fail
	dmsetup remove --retry $1-err 2>/dev/null || fail
}

function prepare_linear_dev() {
	local _sizemb=$1
	shift

	if [ "$_sizemb" -gt 32 ]; then
		preparebig $_sizemb
	else
		prepare dev_size_mb=$_sizemb $@
	fi

	dmsetup create $OVRDEV --table "0 $((_sizemb*1024*2)) linear $DEV 0" || fail

	OLD_DEV=$DEV
	DEV=/dev/mapper/$OVRDEV
}

function get_error_offsets() # $1 devsize, $2 minimal offset, $3 sector_size [512 if ommited], $4 max offset
{
	local _devsize=$(($1*1024*2))
	local _sector_size=${3:-512}
	local _max_offset=${4:-$_devsize}
	_sector_size=$((_sector_size/512))

	# 8 sectors minimal size (4096)
	ERRLENGTH=$((($RANDOM%56)+8))
	ERRLENGTH=$(($ERRLENGTH-($ERRLENGTH%$_sector_size)))

	ERROFFSET=$(($2+((2*$RANDOM)%($_max_offset-$2-$ERRLENGTH))))
	ERROFFSET=$(($ERROFFSET-($ERROFFSET%$_sector_size)))
}

function reencrypt_recover() { # $1 sector size, $2 resilience, $3 digest, [$4 header]
	echo -n "resilience mode: $2 ..."
	local _hdr=""
	test -z "$4" || _hdr="--header $4"

	error_writes $OVRDEV $OLD_DEV $ERROFFSET $ERRLENGTH
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV $_hdr --hotzone-size 1M --resilience $2 --sector-size $1 -q $FAST_PBKDF_ARGON >/dev/null 2>&1 && fail
	fix_writes $OVRDEV $OLD_DEV

	echo $PWD1 | $CRYPTSETUP -q repair $DEV $_hdr || fail

	check_hash $PWD1 $3 $4

	echo $PWD1 | $CRYPTSETUP reencrypt $DEV $_hdr --resilience $2 --sector-size $1 -q $FAST_PBKDF_ARGON || fail
	check_hash $PWD1 $3 $4

	echo "[OK]"
}

function reencrypt_recover_online() { # $1 sector size, $2 resilience, $3 digest, [$4 header]
	echo -n "resilience mode: $2 ..."
	local _hdr=""
	test -z "$4" || _hdr="--header $4"

	echo $PWD1 | $CRYPTSETUP open $DEV $_hdr $DEV_NAME || fail

	error_writes $OVRDEV $OLD_DEV $ERROFFSET $ERRLENGTH
	echo $PWD1 | $CRYPTSETUP reencrypt --active-name $DEV_NAME $_hdr --hotzone-size 1M --resilience $2 --sector-size $1 -q $FAST_PBKDF_ARGON >/dev/null 2>&1 && fail
	$CRYPTSETUP status $DEV_NAME $_hdr | grep -q "reencryption:  in-progress" || fail
	$CRYPTSETUP close $DEV_NAME || fail
	fix_writes $OVRDEV $OLD_DEV

	# recovery during activation
	echo $PWD1 | $CRYPTSETUP open $DEV $_hdr $DEV_NAME || fail
	check_hash_dev /dev/mapper/$DEV_NAME $3

	$CRYPTSETUP luksDump ${4:-$DEV} | grep -q "online-reencrypt"
	if [ $? -eq 0 ]; then
		$CRYPTSETUP status $DEV_NAME $_hdr | grep -q "reencryption:  in-progress" || fail
		echo $PWD1 | $CRYPTSETUP reencrypt --active-name $DEV_NAME $_hdr --resilience $2 --resume-only -q || fail
		check_hash_dev /dev/mapper/$DEV_NAME $3
	fi

	$CRYPTSETUP close $DEV_NAME || fail
	echo "[OK]"
}

function encrypt_recover() { # $1 sector size, $2 reduce size, $3 digest, $4 device size in sectors, $5 origin digest
	wipe_dev $DEV
	check_hash_dev $DEV $5

	echo -n "resilience mode: datashift ..."

	echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt --reduce-device-size $2 --sector-size $1 -q $FAST_PBKDF_ARGON --init-only >/dev/null 2>&1 || fail

	error_writes $OVRDEV $OLD_DEV $ERROFFSET $ERRLENGTH
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q >/dev/null 2>&1 && fail
	fix_writes $OVRDEV $OLD_DEV

	echo $PWD1 | $CRYPTSETUP -q repair $DEV || fail

	$CRYPTSETUP luksDump $DEV | grep -q "online-reencrypt"
	if [ $? -eq 0 ]; then
		check_hash $PWD1 $3
		echo $PWD1 | $CRYPTSETUP reencrypt $DEV --sector-size $1 -q $FAST_PBKDF_ARGON || fail
	fi

	check_hash_head $PWD1 $4 $3

	echo "[OK]"
}

function encrypt_recover_online() { # $1 sector size, $2 reduce size, $3 digest, $4 device size in sectors, $5 origin digest
	wipe_dev $DEV
	check_hash_dev $DEV $5

	echo -n "resilience mode: datashift ..."

	echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt --reduce-device-size $2 --sector-size $1 -q $FAST_PBKDF_ARGON --init-only > /dev/null || fail
	echo $PWD1 | $CRYPTSETUP open $DEV $DEV_NAME || fail

	error_writes $OVRDEV $OLD_DEV $ERROFFSET $ERRLENGTH
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q >/dev/null 2>&1 && fail
	$CRYPTSETUP status $DEV_NAME | grep -q "reencryption:  in-progress" || fail
	$CRYPTSETUP close $DEV_NAME || fail
	fix_writes $OVRDEV $OLD_DEV

	# recovery in activation
	echo $PWD1 | $CRYPTSETUP open $DEV $DEV_NAME || fail

	$CRYPTSETUP luksDump $DEV | grep -q "online-reencrypt"
	if [ $? -eq 0 ]; then
		$CRYPTSETUP status $DEV_NAME | grep -q "reencryption:  in-progress" || fail
		check_hash_dev /dev/mapper/$DEV_NAME $3
		echo $PWD1 | $CRYPTSETUP reencrypt --resume-only --active-name $DEV_NAME -q || fail
	fi

	$CRYPTSETUP close $DEV_NAME || fail
	check_hash_head $PWD1 $4 $3

	echo "[OK]"
}

function encrypt_recover_detached() { # $1 sector size, $2 resilience, $3 digest, $4 hdr
	wipe_dev $DEV
	check_hash_dev $DEV $3

	echo -n "resilience mode: $2 ..."

	error_writes $OVRDEV $OLD_DEV $ERROFFSET $ERRLENGTH
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt --hotzone-size 1M --header $4 --resilience $2 --sector-size $1 -q $FAST_PBKDF_ARGON 2>/dev/null && fail
	fix_writes $OVRDEV $OLD_DEV

	echo $PWD1 | $CRYPTSETUP repair $DEV --header $4 || fail

	check_hash $PWD1 $3 $4

	echo $PWD1 | $CRYPTSETUP reencrypt $DEV --header $4 --resilience $2 --sector-size $1 -q $FAST_PBKDF_ARGON || fail
	check_hash $PWD1 $3 $4

	echo "[OK]"
}

function encrypt_recover_detached_online() { # $1 sector size, $2 resilience, $3 digest, $4 hdr
	wipe_dev $DEV
	check_hash_dev $DEV $3

	echo -n "resilience mode: $2 ..."

	echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt --hotzone-size 1M --header $4 --resilience $2 --sector-size $1 -q $FAST_PBKDF_ARGON --init-only || fail
	echo $PWD1 | $CRYPTSETUP open $DEV --header $4 $DEV_NAME || fail

	error_writes $OVRDEV $OLD_DEV $ERROFFSET $ERRLENGTH
	echo $PWD1 | $CRYPTSETUP reencrypt -q $DEV --header $4 --hotzone-size 1M  2>/dev/null && fail
	$CRYPTSETUP status $DEV_NAME --header $4 | grep -q "reencryption:  in-progress" || fail
	$CRYPTSETUP close $DEV_NAME || fail
	fix_writes $OVRDEV $OLD_DEV

	echo $PWD1 | $CRYPTSETUP open $DEV --header $4 $DEV_NAME || fail
	check_hash_dev /dev/mapper/$DEV_NAME $3

	$CRYPTSETUP luksDump $4 | grep -q "online-reencrypt"
	if [ $? -eq 0 ]; then
		$CRYPTSETUP status $DEV_NAME --header $4 | grep -q "reencryption:  in-progress" || fail
		echo $PWD1 | $CRYPTSETUP reencrypt --active-name $DEV_NAME --resume-only --header $4 --resilience $2 -q || fail
		check_hash_dev /dev/mapper/$DEV_NAME $3
	fi

	$CRYPTSETUP close $DEV_NAME || fail

	echo "[OK]"
}

function decrypt_recover_detached() { # $1 sector size, $2 resilience, $3 digest, $4 hdr
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size $1 --header $4 $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1 $4
	check_hash $PWD1 $3 $4

	echo -n "resilience mode: $2 ..."

	error_writes $OVRDEV $OLD_DEV $ERROFFSET $ERRLENGTH
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV --decrypt --hotzone-size 1M --header $4 --resilience $2 -q 2>/dev/null && fail
	fix_writes $OVRDEV $OLD_DEV

	echo $PWD1 | $CRYPTSETUP repair $DEV --header $4 || fail

	$CRYPTSETUP luksDump $4 | grep -q "online-reencrypt"
	if [ $? -eq 0 ]; then
		check_hash $PWD1 $3 $4
		echo $PWD1 | $CRYPTSETUP reencrypt $DEV --resume-only --header $4 --resilience $2 -q || fail
	fi

	check_hash_dev $DEV $3

	echo "[OK]"
}

function decrypt_recover_detached_online() { # $1 sector size, $2 resilience, $3 digest, $4 hdr
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size $1 --header $4 $FAST_PBKDF_ARGON $DEV || fail
	echo $PWD1 | $CRYPTSETUP open $DEV --header $4 $DEV_NAME || fail
	wipe_dev /dev/mapper/$DEV_NAME
	check_hash_dev /dev/mapper/$DEV_NAME $3

	echo -n "resilience mode: $2 ..."

	error_writes $OVRDEV $OLD_DEV $ERROFFSET $ERRLENGTH
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV --decrypt --hotzone-size 1M --header $4 --resilience $2 -q 2>/dev/null && fail
	$CRYPTSETUP status $DEV_NAME --header $4 | grep -q "reencryption:  in-progress" || fail
	$CRYPTSETUP close $DEV_NAME || fail
	fix_writes $OVRDEV $OLD_DEV

	# recovery during activation
	echo $PWD1 | $CRYPTSETUP open $DEV --header $4 $DEV_NAME || fail

	$CRYPTSETUP luksDump $4 | grep -q "online-reencrypt"
	if [ $? -eq 0 ]; then
		$CRYPTSETUP status $DEV_NAME --header $4 | grep -q "reencryption:  in-progress" || fail
		check_hash_dev /dev/mapper/$DEV_NAME $3
		echo $PWD1 | $CRYPTSETUP reencrypt $DEV --header $4 --resilience $2 -q || fail
	fi

	$CRYPTSETUP status $DEV_NAME >/dev/null 2>&1 && fail
	check_hash_dev $DEV $3

	echo "[OK]"
}

# sector size (bytes)
# reenc dev size (sectors)
# reenc dev digest
# resilience
# orig size
# orig size digest
# hdr (optional)
function reencrypt_offline_fixed_size() {
	local _esz=$(($1>>9))
	local _hdr=""
	test -z "$7" || _hdr="--header $7"

	# reencrypt with fixed device size
	echo $PWD1 | $CRYPTSETUP reencrypt -q $FAST_PBKDF_ARGON $DEV  $_hdr --sector-size $1 --device-size $2s --resilience $4 || fail
	check_hash_head $PWD1 $2 $3 $7
	wipe $PWD1 $7

	# try to reencrypt device size + 1 encryption sector size
	echo $PWD1 | $CRYPTSETUP reencrypt -q $FAST_PBKDF_ARGON $DEV $_hdr --sector-size $1 --init-only || fail
	echo $PWD1 | $CRYPTSETUP reencrypt -q $FAST_PBKDF_ARGON $DEV $_hdr --device-size $(($5+_esz))s --resilience $4 2>/dev/null && fail
	check_hash $PWD1 $6 $7

	# misaligned reencryption size
	if [ $_esz -gt 1 ]; then
		echo $PWD1 | $CRYPTSETUP reencrypt -q $FAST_PBKDF_ARGON $DEV $_hdr --device-size $(($2+_esz-1))s --resilience $4 2>/dev/null && fail
		$CRYPTSETUP luksDump ${7:-$DEV} | grep -q "2: crypt" || fail
		$CRYPTSETUP luksDump ${7:-$DEV} | grep -q "3: crypt" && fail
		check_hash $PWD1 $6 $7
	fi
}

# sector size (bytes)
# reenc dev size (sectors)
# reenc dev digest
# resilience
# orig size
# orig size digest
# hdr
function encrypt_offline_fixed_size() {
	local _esz=$(($1>>9))

	# reencrypt with fixed device size
	wipe_dev $DEV
	echo $PWD1 | $CRYPTSETUP reencrypt --encrypt -q $FAST_PBKDF_ARGON $DEV --header $7 --sector-size $1 --device-size $2s --resilience $4 || fail
	check_hash_head $PWD1 $2 $3 $7

	# try to reencrypt device size + 1 encryption sector size
	wipe_dev $DEV
	echo $PWD1 | $CRYPTSETUP reencrypt --encrypt -q $FAST_PBKDF_ARGON $DEV --header $7 --sector-size $1 --init-only || fail
	echo $PWD1 | $CRYPTSETUP reencrypt -q $FAST_PBKDF_ARGON $DEV  --header $7 --device-size $(($5+_esz))s --resilience $4 2>/dev/null && fail
	check_hash $PWD1 $6 $7

	# misaligned reencryption size
	if [ $_esz -gt 1 ]; then
		echo $PWD1 | $CRYPTSETUP reencrypt --encrypt -q $FAST_PBKDF_ARGON $DEV --header $7 --sector-size $1 --init-only || fail
		echo $PWD1 | $CRYPTSETUP reencrypt -q $DEV --header $7 --device-size $(($2+_esz-1))s --resilience $4 2>/dev/null && fail
		$CRYPTSETUP luksDump $7 | grep -q "2: crypt" || fail
		$CRYPTSETUP luksDump $7 | grep -q "3: crypt" && fail
		check_hash $PWD1 $6 $7
	fi
}

# sector size (bytes)
# reenc dev size (sectors)
# reenc dev digest
# resilience
# orig size
# orig size digest
# hdr
function decrypt_offline_fixed_size() {
	local _esz=$(($1>>9))

	# decrypt with fixed device size
	echo $PWD1 | $CRYPTSETUP luksFormat --type luks2 -q $FAST_PBKDF_ARGON $DEV --header $7 --sector-size $1 || fail
	wipe $PWD1 $7
	echo $PWD1 | $CRYPTSETUP reencrypt --decrypt -q $DEV --header $7 --device-size $2s --resilience $4 || fail

	dmsetup load $OVRDEV --table "0 $2 linear $OLD_DEV 0" || fail
	dmsetup resume $OVRDEV || fail
	check_hash_dev $DEV $3
	dmsetup load $OVRDEV --table "0 $5 linear $OLD_DEV 0" || fail
	dmsetup resume $OVRDEV || fail

	# try to decrypt device size + 1 encryption sector size
	echo $PWD1 | $CRYPTSETUP luksFormat --type luks2 -q $FAST_PBKDF_ARGON $DEV --header $7 --sector-size $1 || fail
	wipe $PWD1 $7
	echo $PWD1 | $CRYPTSETUP reencrypt --decrypt -q $FAST_PBKDF_ARGON $DEV --header $7 --init-only || fail
	echo $PWD1 | $CRYPTSETUP reencrypt -q $FAST_PBKDF_ARGON $DEV --header $7 --device-size $(($5+_esz))s --resilience $4 2>/dev/null && fail
	check_hash $PWD1 $6 $7

	# misaligned reencryption size
	if [ $_esz -gt 1 ]; then
		echo $PWD1 | $CRYPTSETUP reencrypt -q $DEV --header $7 --device-size $(($2+_esz-1))s --resilience $4 2>/dev/null && fail
		$CRYPTSETUP luksDump $7 | grep -q "2: linear\|2: crypt" || fail
		$CRYPTSETUP luksDump $7 | grep -q "3: crypt\|3: linear" && fail
		check_hash $PWD1 $6 $7
	fi
}

# sector size (bytes)
# reenc dev size (sectors)
# reenc dev digest
# resilience
# orig size
# orig size digest
# hdr (optional)
function reencrypt_online_fixed_size() {
	local _esz=$(($1>>9))
	local _hdr=""
	test -z "$7" || _hdr="--header $7"

	if [ -z "$_hdr" ]; then
		echo $PWD1 | $CRYPTSETUP -q luksFormat --sector-size 512 --type luks2 --offset 16384 $FAST_PBKDF_ARGON $DEV || fail
	else
		echo $PWD1 | $CRYPTSETUP -q luksFormat --sector-size 512 --type luks2 $_hdr $FAST_PBKDF_ARGON $DEV || fail
	fi
	wipe $PWD1 $7

	# reencrypt with fixed device size
	echo $PWD1 | $CRYPTSETUP open $DEV $_hdr $DEV_NAME || fail
	echo $PWD1 | $CRYPTSETUP resize $DEV_NAME $_hdr --size $2 || fail
	echo $PWD1 | $CRYPTSETUP reencrypt -q $FAST_PBKDF_ARGON $DEV $_hdr --sector-size $1 --resilience $4 || fail
	$CRYPTSETUP -q status  $DEV_NAME | grep "size:" | grep -q "$2 sectors" || fail
	$CRYPTSETUP close $DEV_NAME || fail
	check_hash_head $PWD1 $2 $3 $7
	wipe $PWD1 $7

	# active device != requested reencryption size
	echo $PWD1 | $CRYPTSETUP open $DEV $_hdr $DEV_NAME || fail
	echo $PWD1 | $CRYPTSETUP resize $DEV_NAME $_hdr --size $2 || fail
	echo $PWD1 | $CRYPTSETUP reencrypt -q $FAST_PBKDF_ARGON $DEV $_hdr --sector-size $1 --init-only || fail
	echo $PWD1 | $CRYPTSETUP reencrypt -q $FAST_PBKDF_ARGON $DEV $_hdr --device-size $(($2-_esz))s --resilience $4 2>/dev/null && fail
	echo $PWD1 | $CRYPTSETUP reencrypt -q $FAST_PBKDF_ARGON $DEV $_hdr --device-size $2s --resilience $4 || fail
	$CRYPTSETUP -q status  $DEV_NAME | grep "size:" | grep -q "$2 sectors" || fail
	$CRYPTSETUP close $DEV_NAME || fail
	check_hash_head $PWD1 $2 $3 $7

	# misaligned reencryption size
	if [ $_esz -gt 1 ]; then
		if [ -z "$_hdr" ]; then
			echo $PWD1 | $CRYPTSETUP -q luksFormat --sector-size 512 --type luks2 --offset 16384 $FAST_PBKDF_ARGON $DEV || fail
		else
			echo $PWD1 | $CRYPTSETUP -q luksFormat --sector-size 512 --type luks2 $_hdr $FAST_PBKDF_ARGON $DEV || fail
		fi
		wipe $PWD1 $7
		check_hash $PWD1 $6 $7

		echo $PWD1 | $CRYPTSETUP open $DEV $_hdr $DEV_NAME || fail
		echo $PWD1 | $CRYPTSETUP resize $DEV_NAME $_hdr --size $(($2+_esz-1)) || fail
		echo $PWD1 | $CRYPTSETUP reencrypt -q $FAST_PBKDF_ARGON $DEV $_hdr --sector-size $1 --init-only || fail
		echo $PWD1 | $CRYPTSETUP reencrypt -q $FAST_PBKDF_ARGON $DEV $_hdr --resilience $4 2>/dev/null && fail
		$CRYPTSETUP close $DEV_NAME || fail
		check_hash $PWD1 $6 $7
	fi
}

function setup_luks2_env() {
	echo $PWD1 | $CRYPTSETUP luksFormat --type luks2 -c aes-xts-plain64 $FAST_PBKDF_ARGON $DEV || fail
	echo $PWD1 | $CRYPTSETUP open $DEV $DEV_NAME || fail
	HAVE_KEYRING=$($CRYPTSETUP status $DEV_NAME | grep "key location: keyring")
	if [ -n "$HAVE_KEYRING" ]; then
		HAVE_KEYRING=1
	else
		HAVE_KEYRING=0
	fi
	DEF_XTS_KEY=$($CRYPTSETUP status $DEV_NAME | grep "keysize:" | sed 's/\(  keysize: \)\([0-9]\+\)\(.*\)/\2/')
	[ -n "$DEF_XTS_KEY" ] || fail "Failed to parse xts mode key size."
	$CRYPTSETUP close $DEV_NAME || fail
}

function valgrind_setup()
{
	which valgrind >/dev/null 2>&1 || fail "Cannot find valgrind."
	[ ! -f $CRYPTSETUP_VALGRIND ] && fail "Unable to get location of cryptsetup executable."
	export LD_LIBRARY_PATH="$CRYPTSETUP_LIB_VALGRIND:$LD_LIBRARY_PATH"
}

function valgrind_run()
{
	INFOSTRING="$(basename ${BASH_SOURCE[1]})-line-${BASH_LINENO[0]}" ./valg.sh ${CRYPTSETUP_VALGRIND} "$@"
}

[ $(id -u) != 0 ] && skip "WARNING: You must be root to run this test, test skipped."
[ ! -x "$CRYPTSETUP" ] && skip "Cannot find $CRYPTSETUP, test skipped."
fips_mode && skip "This test cannot be run in FIPS mode."
modprobe --dry-run scsi_debug || exit 77
modprobe dm-crypt || fail "dm-crypt failed to load"
modprobe dm-delay > /dev/null 2>&1
dm_crypt_features

if [ -n "$DM_SECTOR_SIZE" ]; then
	TEST_SECTORS="512 4096"
else
	TEST_SECTORS="512"
fi

modinfo scsi_debug -p | grep -q opt_xferlen_exp && OPT_XFERLEN_EXP="opt_xferlen_exp=6"

export LANG=C

[ -n "$VALG" ] && valgrind_setup && CRYPTSETUP=valgrind_run

# REENCRYPTION tests

# 28 MiBs of zeros (32MiBs - 4MiB LUKS2 header)
HASH1=f8280c81b347b01405277bf9e8bf0685ae8be863ff104797c65b7169f8203fd2
# 1 MiB of zeros
HASH2=30e14955ebf1352266dc2ff8067e68104607e750abb9d3b36582b8af909fcb58
# 256 MiBs of zeros
HASH3=a6d72ac7690f53be6ae46ba88506bd97302a093f7108472bd9efc3cefda06484
# 64 MiBs of zeroes
HASH4=3b6a07d0d404fab4e23b6d34bc6696a6a312dd92821332385e5af7c01c421351
# 56 MiBs of zeroes
HASH5=8afcb7e7189ce4d112fd245eaa60c3cfcf5a5d5e1d6bf4eb85941d73ef8cfbd5
# 43 MiBs of zeroes
HASH6=39f7c6d38af574fe2c90ef400dfaba8ef8edccd11bdac998a3f8143a86837331
# 31 MiBs of zeroes
HASH7=18a393d1a505e22ccf3e29effe3005ea8627e4c36b7cca0e53f58121f49b67e1
# 60 MiBs of zeroes
HASH8=cf5ac69ca412f9b3b1a8b8de27d368c5c05ed4b1b6aa40e6c38d9cbf23711342

prepare dev_size_mb=32
setup_luks2_env

echo "[1] Reencryption"
echo -n "[512 sector]"
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -s 128 -c aes-cbc-essiv:sha256 --offset 8192 $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -s 256 -c twofish-cbc-essiv:sha256 --resilience journal $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q --resilience none $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -s 128 -c aes-cbc-essiv:sha256 --resilience checksum $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1
# simple test --active-name can consume absolute path to mapping
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -c aes-xts-plain64 --init-only $FAST_PBKDF_ARGON || fail
echo $PWD1 | $CRYPTSETUP open $DEV $DEV_NAME || fail
echo $PWD1 | $CRYPTSETUP reencrypt --active-name /dev/mapper/$DEV_NAME --resilience none -q || fail
XTS_KEY=$($CRYPTSETUP status $DEV_NAME | grep "keysize:" | sed 's/\(  keysize: \)\([0-9]\+\)\(.*\)/\2/')
[ "$XTS_KEY" -eq "$DEF_XTS_KEY" ] || fail "xts mode has wrong key size after reencryption ($XTS_KEY != expected $DEF_XTS_KEY)"
echo $PWD1 | $CRYPTSETUP close $DEV_NAME || fail
echo -n "[OK][4096 sector]"
prepare sector_size=4096 dev_size_mb=32
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -s 128 -c aes-cbc-essiv:sha256 --offset 8192 $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -s 256 -c twofish-cbc-essiv:sha256 --resilience journal $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q --resilience none $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -s 128 -c aes-cbc-essiv:sha256 --resilience checksum $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1
if [ -n "$DM_SECTOR_SIZE" ]; then
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q $FAST_PBKDF_ARGON --sector-size 4096 || fail
	check_hash $PWD1 $HASH1
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -s 256 -c twofish-cbc-essiv:sha256 --resilience journal --sector-size 2048 $FAST_PBKDF_ARGON || fail
	check_hash $PWD1 $HASH1
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q --resilience none $FAST_PBKDF_ARGON --sector-size 1024 || fail
	check_hash $PWD1 $HASH1
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -s 128 -c aes-cbc-essiv:sha256 --resilience checksum --sector-size 512 $FAST_PBKDF_ARGON || fail
	check_hash $PWD1 $HASH1
fi
echo -n "[OK][4096/512 sector]"
prepare sector_size=512 physblk_exp=3 dev_size_mb=32
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -s 128 -c aes-cbc-essiv:sha256 --offset 8192 $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -s 256 -c twofish-cbc-essiv:sha256 --resilience journal $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q --resilience none $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -s 128 -c aes-cbc-essiv:sha256 --resilience checksum $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1
echo "[OK]"

# reencrypt minimal device size (FIXME: change data device size to single encryption sector size)
# temporary small device size is default luks2 hdr size + 1MiB
echo -n "[small device reencryption]"
prepare dev_size_mb=5
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -s 128 -c aes-cbc-essiv:sha256 --offset 8192 $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
check_hash $PWD1 $HASH2
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH2
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -s 256 -c twofish-cbc-essiv:sha256 --resilience journal $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH2
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q --resilience none $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH2
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -s 128 -c aes-cbc-essiv:sha256 --resilience checksum $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH2
if [ -n "$DM_SECTOR_SIZE" ]; then
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q $FAST_PBKDF_ARGON --sector-size 4096 || fail
	check_hash $PWD1 $HASH2
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -s 256 -c twofish-cbc-essiv:sha256 --resilience journal --sector-size 2048 $FAST_PBKDF_ARGON || fail
	check_hash $PWD1 $HASH2
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q --resilience none $FAST_PBKDF_ARGON --sector-size 1024 || fail
	check_hash $PWD1 $HASH2
	echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -s 128 -c aes-cbc-essiv:sha256 --resilience checksum --sector-size 512 $FAST_PBKDF_ARGON || fail
	check_hash $PWD1 $HASH2
fi
echo "[OK]"

echo "[2] Encryption with data shift"
# well, movin' zeroes :-)
preparebig 64
wipe_dev $DEV
check_hash_dev $DEV $HASH4
echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt -c aes-cbc-essiv:sha256 -s 128 --reduce-device-size 8M -q $FAST_PBKDF_ARGON || fail
check_hash_head $PWD1 $((56*1024*2)) $HASH5
wipe_dev $DEV
check_hash_dev $DEV $HASH4
echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt -c twofish-cbc-essiv:sha256 -s 128 --reduce-device-size 21M -q $FAST_PBKDF_ARGON || fail
check_hash_head $PWD1 $((43*1024*2)) $HASH6
wipe_dev $DEV
# offset 21504 equals 10,5MiBs, equals --reduce-device-size 21M from test above (30M is ignored here, we'll reduce it to 21M in cryptsetup anyway)
echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt -c twofish-cbc-essiv:sha256 -s 128 --offset 21504 --reduce-device-size 30M -q $FAST_PBKDF_ARGON > /dev/null || fail
check_hash_head $PWD1 $((43*1024*2)) $HASH6
wipe_dev $DEV
echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt --reduce-device-size 33M -q $FAST_PBKDF_ARGON || fail
check_hash_head $PWD1 $((31*1024*2)) $HASH7
wipe_dev $DEV
echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt --reduce-device-size 64M -q $FAST_PBKDF_ARGON > /dev/null 2>&1 && fail
echo $PWD1 | $CRYPTSETUP reencrypt --encrypt --reduce-device-size 8M --init-only -q $FAST_PBKDF_ARGON $DEV || fail
resize_file $DEVBIG -512
echo $PWD1 | $CRYPTSETUP reencrypt $DEV 2> /dev/null && fail
resize_file $DEVBIG 512
wipe_dev $DEV
echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt -c aes-cbc-essiv:sha256 -s 128 --offset 32760 --reduce-device-size 8M -q $FAST_PBKDF_ARGON --init-only >/dev/null 2>&1 && fail
# data offset at 21MiB
echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt --header $IMG_HDR --offset 43008 --reduce-device-size 21M -q $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH6 $IMG_HDR
$CRYPTSETUP luksHeaderRestore --header-backup-file $IMG_HDR $DEV -q || fail
check_hash $PWD1 $HASH6

# Device activation after encryption initialization
wipe_dev $DEV
echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt --init-only -c aes-cbc-essiv:sha256 -s 128 -S11 --reduce-device-size 8M -q $FAST_PBKDF_ARGON $DEV_NAME >/dev/null || fail
$CRYPTSETUP status $DEV_NAME >/dev/null 2>&1 || fail
check_hash_dev /dev/mapper/$DEV_NAME $HASH5
echo $PWD1 | $CRYPTSETUP reencrypt --resume-only $DEV -q || fail
check_hash_dev /dev/mapper/$DEV_NAME $HASH5

echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt -c aes-cbc-essiv:sha256 -s 128 --reduce-device-size 8M -q $FAST_PBKDF_ARGON $DEV_NAME 2>/dev/null && fail
$CRYPTSETUP close $DEV_NAME
check_hash_head $PWD1 $((56*1024*2)) $HASH5

# Device activation using key file
wipe_dev $DEV
echo -n $PWD1 > $KEY1
$CRYPTSETUP reencrypt $DEV --encrypt --init-only -c aes-cbc-essiv:sha256 -s 128 --reduce-device-size 8M --key-file $KEY1 -q $FAST_PBKDF_ARGON $DEV_NAME >/dev/null || fail
$CRYPTSETUP status $DEV_NAME >/dev/null 2>&1 || fail
$CRYPTSETUP close $DEV_NAME
echo $PWD1 | $CRYPTSETUP open $DEV --test-passphrase || fail

echo "[3] Encryption with detached header"
preparebig 256
wipe_dev $DEV
echo $PWD1 | $CRYPTSETUP reencrypt --encrypt -c aes-cbc-essiv:sha256 -s 128 --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
check_hash $PWD1 $HASH3 $IMG_HDR
wipe_dev $DEV
echo $PWD1 | $CRYPTSETUP reencrypt --encrypt --resilience journal --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
check_hash $PWD1 $HASH3 $IMG_HDR
wipe_dev $DEV
echo $PWD1 | $CRYPTSETUP reencrypt --encrypt -c twofish-cbc-essiv:sha256 -s 128 --resilience none --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
check_hash $PWD1 $HASH3 $IMG_HDR
wipe_dev $DEV
echo $PWD1 | $CRYPTSETUP reencrypt --encrypt -c serpent-xts-plain --resilience checksum --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
check_hash $PWD1 $HASH3 $IMG_HDR

# Device activation after encryption initialization
wipe_dev $DEV
echo $PWD1 | $CRYPTSETUP reencrypt --encrypt --init-only -c aes-cbc-essiv:sha256 -s 128 --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV $DEV_NAME >/dev/null || fail
$CRYPTSETUP status $DEV_NAME >/dev/null 2>&1 || fail
check_hash_dev /dev/mapper/$DEV_NAME $HASH3
echo $PWD1 | $CRYPTSETUP reencrypt --resume-only --header $IMG_HDR --active-name $DEV_NAME -q || fail
check_hash_dev /dev/mapper/$DEV_NAME $HASH3
echo $PWD1 | $CRYPTSETUP reencrypt $DEV --encrypt -c aes-cbc-essiv:sha256 -s 128 --reduce-device-size 8M -q $FAST_PBKDF_ARGON $DEV_NAME 2>/dev/null && fail
$CRYPTSETUP close $DEV_NAME
check_hash $PWD1 $HASH3 $IMG_HDR

# Device activation using key file
wipe_dev $DEV
echo -n $PWD1 > $KEY1
$CRYPTSETUP reencrypt $DEV --encrypt --init-only -c aes-cbc-essiv:sha256 -s 128 --header $IMG_HDR --key-file $KEY1 -q $FAST_PBKDF_ARGON $DEV_NAME >/dev/null || fail
$CRYPTSETUP status $DEV_NAME >/dev/null 2>&1 || fail
$CRYPTSETUP close $DEV_NAME
echo $PWD1 | $CRYPTSETUP open --header $IMG_HDR $DEV --test-passphrase || fail

echo "[4] Reencryption with detached header"
wipe $PWD1 $IMG_HDR
echo $PWD1 | $CRYPTSETUP reencrypt -c aes-cbc-essiv:sha256 -s 128 --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
check_hash $PWD1 $HASH3 $IMG_HDR
echo $PWD1 | $CRYPTSETUP reencrypt --resilience journal --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
check_hash $PWD1 $HASH3 $IMG_HDR
echo $PWD1 | $CRYPTSETUP reencrypt -c twofish-cbc-essiv:sha256 -s 128 --resilience none --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
check_hash $PWD1 $HASH3 $IMG_HDR
echo $PWD1 | $CRYPTSETUP reencrypt -c serpent-xts-plain --resilience checksum --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
check_hash $PWD1 $HASH3 $IMG_HDR
# trivial check for detached header misuse
dd if=/dev/zero of=$IMG bs=4k count=1 >/dev/null 2>&1
echo $PWD1 | $CRYPTSETUP luksFormat --type luks2 -c aes-cbc-essiv:sha256 -s 128 --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
echo $PWD1 | $CRYPTSETUP open $IMG $DEV_NAME --header $IMG_HDR || fail
echo $PWD1 | $CRYPTSETUP open $DEV $DEV_NAME2 --header $IMG_HDR || fail
echo $PWD1 | $CRYPTSETUP reencrypt --active-name $DEV_NAME --header $IMG_HDR -q || fail
# key description mismatch in active device
echo $PWD1 | $CRYPTSETUP reencrypt --active-name $DEV_NAME2 --header $IMG_HDR >/dev/null 2>&1 && fail
# also check it can abort initialization in this case
$CRYPTSETUP luksDump $IMG_HDR | grep -q "online-reencrypt" && fail
$CRYPTSETUP close $DEV_NAME || fail
$CRYPTSETUP close $DEV_NAME2 || fail

echo "[5] Decryption with detached header"
echo $PWD1 | $CRYPTSETUP luksFormat --type luks2 -c aes-cbc-essiv:sha256 -s 128 --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1 $IMG_HDR
echo $PWD1 | $CRYPTSETUP reencrypt -q --decrypt --header $IMG_HDR $DEV || fail
check_hash_dev $DEV $HASH3
echo $PWD1 | $CRYPTSETUP luksFormat --type luks2 --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1 $IMG_HDR
echo $PWD1 | $CRYPTSETUP reencrypt -q --decrypt --resilience journal --header $IMG_HDR $DEV || fail
check_hash_dev $DEV $HASH3
echo $PWD1 | $CRYPTSETUP luksFormat --type luks2 -c twofish-cbc-essiv:sha256 -s 128 --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1 $IMG_HDR
echo $PWD1 | $CRYPTSETUP reencrypt -q --decrypt --resilience none --header $IMG_HDR $DEV || fail
check_hash_dev $DEV $HASH3
echo $PWD1 | $CRYPTSETUP luksFormat --type luks2 -c serpent-xts-plain --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1 $IMG_HDR
echo $PWD1 | $CRYPTSETUP reencrypt -q --decrypt --resilience checksum --header $IMG_HDR $DEV || fail
check_hash_dev $DEV $HASH3

# check deferred remove works as expected after decryption
echo $PWD1 | $CRYPTSETUP luksFormat --type luks2 -c serpent-xts-plain --header $IMG_HDR -q $FAST_PBKDF_ARGON $DEV || fail
open_crypt $PWD1 $IMG_HDR
dmsetup create $DEV_NAME2 --table "0 1 linear /dev/mapper/$DEV_NAME 0" || fail
echo $PWD1 | $CRYPTSETUP reencrypt -q --decrypt --resilience checksum --header $IMG_HDR --active-name $DEV_NAME || fail
$CRYPTSETUP status $DEV_NAME >/dev/null || fail
dmsetup remove --retry $DEV_NAME2
$CRYPTSETUP status $DEV_NAME >/dev/null 2>&1 && fail

if ! dm_delay_features; then
	echo "dm-delay target is missing, skipping recovery tests."
	remove_mapping
	exit 0
fi

echo "[6] Reencryption recovery"
# (check opt-io size optimization in reencryption code does not affect recovery)
# device with opt-io size 32k
prepare_linear_dev 32 opt_blks=64 $OPT_XFERLEN_EXP
OFFSET=8192

echo "sector size 512->512"

get_error_offsets 32 $OFFSET
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
check_hash $PWD1 $HASH1

echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
reencrypt_recover 512 checksum $HASH1
reencrypt_recover 512 journal $HASH1

if [ -n "$DM_SECTOR_SIZE" ]; then
	echo "sector size 512->4096"

	get_error_offsets 32 $OFFSET 4096
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1
	check_hash $PWD1 $HASH1

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	reencrypt_recover 4096 checksum $HASH1
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1
	check_hash $PWD1 $HASH1
	reencrypt_recover 4096 journal $HASH1

	echo "sector size 4096->4096"

	get_error_offsets 32 $OFFSET 4096
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -s 128 --sector-size 4096 -c aes-cbc-essiv:sha256 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1
	check_hash $PWD1 $HASH1

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	reencrypt_recover 4096 checksum $HASH1
	reencrypt_recover 4096 journal $HASH1
fi

echo "[7] Reencryption recovery (online i/o error)"

echo "sector size 512->512"

get_error_offsets 32 $OFFSET
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
check_hash $PWD1 $HASH1

echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
reencrypt_recover_online 512 checksum $HASH1
reencrypt_recover_online 512 journal $HASH1

if [ -n "$DM_SECTOR_SIZE" ]; then
	echo "sector size 512->4096"

	get_error_offsets 32 $OFFSET 4096
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1
	check_hash $PWD1 $HASH1

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	reencrypt_recover_online 4096 checksum $HASH1
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1
	check_hash $PWD1 $HASH1
	reencrypt_recover_online 4096 journal $HASH1

	echo "sector size 4096->4096"

	get_error_offsets 32 $OFFSET 4096
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -s 128 --sector-size 4096 -c aes-cbc-essiv:sha256 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1
	check_hash $PWD1 $HASH1

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	reencrypt_recover_online 4096 checksum $HASH1
	reencrypt_recover_online 4096 journal $HASH1
fi

echo "[8] Reencryption with detached header recovery"
prepare_linear_dev 31 opt_blks=64 $OPT_XFERLEN_EXP

echo "sector size 512->512"

get_error_offsets 31 0
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 --header $IMG_HDR $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1 $IMG_HDR
check_hash $PWD1 $HASH7 $IMG_HDR

echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
reencrypt_recover 512 checksum $HASH7 $IMG_HDR
reencrypt_recover 512 journal $HASH7 $IMG_HDR

if [ -n "$DM_SECTOR_SIZE" ]; then
	echo "sector size 512->4096"

	get_error_offsets 31 0 4096
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 --header $IMG_HDR $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1 $IMG_HDR
	check_hash $PWD1 $HASH7 $IMG_HDR

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	reencrypt_recover 4096 checksum $HASH7 $IMG_HDR
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 --header $IMG_HDR $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1 $IMG_HDR
	check_hash $PWD1 $HASH7 $IMG_HDR
	reencrypt_recover 4096 journal $HASH7 $IMG_HDR

	echo "sector size 4096->4096"

	get_error_offsets 31 0 4096
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 4096 --header $IMG_HDR $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1 $IMG_HDR
	check_hash $PWD1 $HASH7 $IMG_HDR

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	reencrypt_recover 4096 checksum $HASH7 $IMG_HDR
	reencrypt_recover 4096 journal $HASH7 $IMG_HDR
fi

echo "[9] Reencryption with detached header recovery (online i/o error)"

echo "sector size 512->512"

get_error_offsets 31 0
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 --header $IMG_HDR $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1 $IMG_HDR
check_hash $PWD1 $HASH7 $IMG_HDR

echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
reencrypt_recover_online 512 checksum $HASH7 $IMG_HDR
reencrypt_recover_online 512 journal $HASH7 $IMG_HDR

if [ -n "$DM_SECTOR_SIZE" ]; then
	echo "sector size 512->4096"

	get_error_offsets 31 0 4096
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 --header $IMG_HDR $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1 $IMG_HDR
	check_hash $PWD1 $HASH7 $IMG_HDR

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	reencrypt_recover_online 4096 checksum $HASH7 $IMG_HDR
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 --header $IMG_HDR $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1 $IMG_HDR
	check_hash $PWD1 $HASH7 $IMG_HDR
	reencrypt_recover_online 4096 journal $HASH7 $IMG_HDR

	echo "sector size 4096->4096"

	get_error_offsets 31 0 4096
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 4096 --header $IMG_HDR $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1 $IMG_HDR
	check_hash $PWD1 $HASH7 $IMG_HDR

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	reencrypt_recover_online 4096 checksum $HASH7 $IMG_HDR
	reencrypt_recover_online 4096 journal $HASH7 $IMG_HDR
fi

echo "[10] Encryption recovery"
prepare_linear_dev 64
OFFSET=$((2*1024*2))

echo "sector size 512"

get_error_offsets 64 $OFFSET 512 $((62*1024*2))

echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
encrypt_recover 512 4M $HASH8 $((60*1024*2)) $HASH4

if [ -n "$DM_SECTOR_SIZE" ]; then
	echo "sector size 4096"

	get_error_offsets 64 $OFFSET 4096 $((62*1024*2))

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	encrypt_recover 4096 4M $HASH8 $((60*1024*2)) $HASH4
fi

echo "[11] Encryption recovery (online i/o error)"

echo "sector size 512"

get_error_offsets 64 $OFFSET 512 $((62*1024*2))

echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
encrypt_recover_online 512 4M $HASH8 $((60*1024*2)) $HASH4

if [ -n "$DM_SECTOR_SIZE" ]; then
	echo "sector size 4096"

	get_error_offsets 64 $OFFSET 4096 $((62*1024*2))

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	encrypt_recover_online 4096 4M $HASH8 $((60*1024*2)) $HASH4
fi

echo "[12] Encryption with detached header recovery"
prepare_linear_dev 31 opt_blks=64 $OPT_XFERLEN_EXP

get_error_offsets 31 0

echo "sector size 512"

echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
encrypt_recover_detached 512 checksum $HASH7 $IMG_HDR
encrypt_recover_detached 512 journal $HASH7 $IMG_HDR

if [ -n "$DM_SECTOR_SIZE" ]; then
	get_error_offsets 31 0 4096

	echo "sector size 4096"

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	encrypt_recover_detached 4096 checksum $HASH7 $IMG_HDR
	encrypt_recover_detached 4096 journal $HASH7 $IMG_HDR
fi

echo "[13] Encryption with detached header recovery (online i/o error)"

get_error_offsets 31 0

echo "sector size 512"

echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
encrypt_recover_detached_online 512 checksum $HASH7 $IMG_HDR
encrypt_recover_detached_online 512 journal $HASH7 $IMG_HDR

if [ -n "$DM_SECTOR_SIZE" ]; then
	get_error_offsets 31 0 4096

	echo "sector size 4096"

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	encrypt_recover_detached_online 4096 checksum $HASH7 $IMG_HDR
	encrypt_recover_detached_online 4096 journal $HASH7 $IMG_HDR
fi

echo "[14] Decryption with detached header recovery"

echo "sector size 512"

# TODO: What should decryption do when it finishes decryption during recovery (with open)
get_error_offsets 31 2049

echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
decrypt_recover_detached 512 journal $HASH7 $IMG_HDR
decrypt_recover_detached 512 checksum $HASH7 $IMG_HDR

if [ -n "$DM_SECTOR_SIZE" ]; then
	echo "sector size 4096"

	# TODO: What should decryption do when it finishes decryption during recovery (with open)
	get_error_offsets 31 2048 4096

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	decrypt_recover_detached 4096 checksum $HASH7 $IMG_HDR
	decrypt_recover_detached 4096 journal $HASH7 $IMG_HDR
fi

echo "[15] Decryption with detached header recovery (online i/o error)"

echo "sector size 512"

# TODO: What should decryption do when it finishes decryption during recovery (with open)
get_error_offsets 31 2049

echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
decrypt_recover_detached_online 512 journal $HASH7 $IMG_HDR
decrypt_recover_detached_online 512 checksum $HASH7 $IMG_HDR

if [ -n "$DM_SECTOR_SIZE" ]; then
	echo "sector size 4096"

	# TODO: What should decryption do when it finishes decryption during recovery (with open)
	get_error_offsets 31 2048 4096

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	decrypt_recover_detached_online 4096 checksum $HASH7 $IMG_HDR
	decrypt_recover_detached_online 4096 journal $HASH7 $IMG_HDR
fi

echo "[16] Offline reencryption with fixed device size."
preparebig 68
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --offset 16384 $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
check_hash $PWD1 $HASH8

for test_ss in $TEST_SECTORS; do
printf "sector size %4s: " $test_ss
for test_res in checksum journal none; do
	echo -n "[$test_res]"
	reencrypt_offline_fixed_size $test_ss 2048		$HASH2 $test_res $((60*1024*2)) $HASH8
	reencrypt_offline_fixed_size $test_ss $((28*1024*2))	$HASH1 $test_res $((60*1024*2)) $HASH8
	reencrypt_offline_fixed_size $test_ss $((31*1024*2))	$HASH7 $test_res $((60*1024*2)) $HASH8
	echo -n "[OK]"
done
echo ""
done

echo "[17] Online reencryption with fixed device size."
for test_ss in $TEST_SECTORS; do
printf "sector size %4s: " $test_ss
for test_res in checksum journal none; do
	echo -n "[$test_res]"
	reencrypt_online_fixed_size $test_ss 2048		$HASH2 $test_res $((60*1024*2)) $HASH8
	reencrypt_online_fixed_size $test_ss $((28*1024*2))	$HASH1 $test_res $((60*1024*2)) $HASH8
	reencrypt_online_fixed_size $test_ss $((31*1024*2))	$HASH7 $test_res $((60*1024*2)) $HASH8
	echo -n "[OK]"
done
echo ""
done

echo "[18] Offline reencryption with fixed device size (detached header)."
preparebig 60
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --header $IMG_HDR $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1 $IMG_HDR
check_hash $PWD1 $HASH8 $IMG_HDR

for test_ss in $TEST_SECTORS; do
printf "sector size %4s: " $test_ss
for test_res in checksum journal none; do
	echo -n "[$test_res]"
	reencrypt_offline_fixed_size $test_ss 2048		$HASH2 $test_res $((60*1024*2)) $HASH8 $IMG_HDR
	reencrypt_offline_fixed_size $test_ss $((28*1024*2))	$HASH1 $test_res $((60*1024*2)) $HASH8 $IMG_HDR
	reencrypt_offline_fixed_size $test_ss $((31*1024*2))	$HASH7 $test_res $((60*1024*2)) $HASH8 $IMG_HDR
	echo -n "[OK]"
done
echo ""
done

echo "[19] Online reencryption with fixed device size (detached header)."
for test_ss in $TEST_SECTORS; do
printf "sector size %4s: " $test_ss
for test_res in checksum journal none; do
	echo -n "[$test_res]"
	reencrypt_online_fixed_size $test_ss 2048		$HASH2 $test_res $((60*1024*2)) $HASH8 $IMG_HDR
	reencrypt_online_fixed_size $test_ss $((28*1024*2))	$HASH1 $test_res $((60*1024*2)) $HASH8 $IMG_HDR
	reencrypt_online_fixed_size $test_ss $((31*1024*2))	$HASH7 $test_res $((60*1024*2)) $HASH8 $IMG_HDR
	echo -n "[OK]"
done
echo ""
done

echo "[20] Offline encryption with fixed device size (detached header)."
for test_ss in $TEST_SECTORS; do
printf "sector size %4s: " $test_ss
for test_res in checksum journal none; do
	echo -n "[$test_res]"
	encrypt_offline_fixed_size $test_ss 2048		$HASH2 $test_res $((60*1024*2)) $HASH8 $IMG_HDR
	encrypt_offline_fixed_size $test_ss $((28*1024*2))	$HASH1 $test_res $((60*1024*2)) $HASH8 $IMG_HDR
	encrypt_offline_fixed_size $test_ss $((31*1024*2))	$HASH7 $test_res $((60*1024*2)) $HASH8 $IMG_HDR
	echo -n "[OK]"
done
echo ""
done

echo "[21] Offline decryption with fixed device size (detached header)."
prepare_linear_dev 60
for test_ss in $TEST_SECTORS; do
printf "sector size %4s: " $test_ss
for test_res in checksum journal none; do
	echo -n "[$test_res]"
	decrypt_offline_fixed_size $test_ss 2048		$HASH2 $test_res $((60*1024*2)) $HASH8 $IMG_HDR
	decrypt_offline_fixed_size $test_ss $((28*1024*2))	$HASH1 $test_res $((60*1024*2)) $HASH8 $IMG_HDR
	decrypt_offline_fixed_size $test_ss $((31*1024*2))	$HASH7 $test_res $((60*1024*2)) $HASH8 $IMG_HDR
	echo -n "[OK]"
done
echo ""
done

echo "[22] Multi-keyslot device reencryption"
prepare dev_size_mb=17
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --offset 32768 $FAST_PBKDF_ARGON $DEV || fail
echo -e "$PWD1\n$PWD2" | $CRYPTSETUP -q luksAddKey $FAST_PBKDF2 $DEV || fail
echo -e "$PWD1\n$PWD3" | $CRYPTSETUP -q luksAddKey $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
check_hash $PWD1 $HASH2

echo -e "$PWD1\n$PWD2\n$PWD3" | $CRYPTSETUP reencrypt $DEV -q || fail
check_hash $PWD1 $HASH2
check_hash $PWD2 $HASH2
check_hash $PWD3 $HASH2

# check at least pbkdf type is preserved
$CRYPTSETUP luksDump $DEV | grep -e "3: luks2" -A5 | grep -q "argon2" || fail
$CRYPTSETUP luksDump $DEV | grep -e "4: luks2" -A5 | grep -q "pbkdf2" || fail
$CRYPTSETUP luksDump $DEV | grep -e "5: luks2" -A5 | grep -q "argon2" || fail

echo $PWD1 | $CRYPTSETUP -q luksAddKey $FAST_PBKDF2 $DEV $KEY1 || fail

# with more keyslots, specific has to be selected
$CRYPTSETUP reencrypt $DEV -d $KEY1 -q 2>/dev/null && fail
$CRYPTSETUP reencrypt $DEV -d $KEY1 -q -S0 || fail
open_crypt
check_hash_dev /dev/mapper/$DEV_NAME $HASH2
$CRYPTSETUP close $DEV_NAME

# there should be single keyslot now
$CRYPTSETUP reencrypt $DEV -d $KEY1 -q || fail
echo $PWD1 | $CRYPTSETUP -q luksAddKey $FAST_PBKDF2 $DEV -S1 -d $KEY1 || fail

echo $PWD3 | $CRYPTSETUP -q luksAddKey $FAST_PBKDF2 $DEV -S2 --unbound --key-size 32 || fail
echo $PWD3 | $CRYPTSETUP -q luksAddKey $FAST_PBKDF2 $DEV -S22 --unbound --key-size 32 || fail
echo $PWD3 | $CRYPTSETUP -q luksAddKey $FAST_PBKDF2 $DEV -S23 --unbound --key-size 32 || fail

echo $PWD1 | $CRYPTSETUP reencrypt $DEV -S1 -q || fail
$CRYPTSETUP open --test-passphrase -d $KEY1 $DEV 2>/dev/null && fail
echo $PWD3 | $CRYPTSETUP open --test-passphrase -S2 $DEV || fail
echo $PWD3 | $CRYPTSETUP open --test-passphrase -S22 $DEV || fail
check_hash $PWD1 $HASH2

# fill 31 keyslots
COUNT=27
while [ $COUNT -gt 0 ]; do
	echo -e "$PWD1\n$PWD1" | $CRYPTSETUP luksAddKey $DEV -q $FAST_PBKDF_ARGON || fail
	COUNT=$((COUNT-1))
done

echo $PWD1 | $CRYPTSETUP reencrypt $DEV -S0 -q 2>/dev/null && fail
echo $PWD1 | $CRYPTSETUP luksKillSlot $DEV 30 || fail
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q -S0 || fail

COUNT=14
while [ $COUNT -gt 0 ]; do
	echo -e "$PWD1\n$PWD1" | $CRYPTSETUP luksAddKey $DEV -q $FAST_PBKDF_ARGON || fail
	COUNT=$((COUNT-1))
done

echo -e "$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1" | $CRYPTSETUP reencrypt $DEV -q 2>/dev/null && fail
echo $PWD1 | $CRYPTSETUP luksKillSlot $DEV 1 || fail
# one wrong passphrase
echo -e "$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD2" | $CRYPTSETUP reencrypt $DEV -q 2>/dev/null && fail
echo $PWD1 | $CRYPTSETUP reencrypt $DEV --resume-only -q 2>/dev/null && fail
echo -e "$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1\n$PWD1" | $CRYPTSETUP reencrypt $DEV -q  || fail
 
echo "[24] Reencryption with initial cipher_null"
# aka custom encryption
prepare dev_size_mb=32
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -s 128 -c cipher_null-ecb --offset 8192 $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
check_hash $PWD1 $HASH1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -c aes-xts-plain64 -q $FAST_PBKDF_ARGON || fail
check_hash $PWD1 $HASH1

# online
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -s 128 -c cipher_null-ecb --offset 8192 $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
echo $PWD1 | $CRYPTSETUP open $DEV $DEV_NAME
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -c aes-xts-plain64 -q $FAST_PBKDF_ARGON || fail
check_hash_dev /dev/mapper/$DEV_NAME $HASH1
if [ $HAVE_KEYRING -gt 0 ]; then
	$CRYPTSETUP status $DEV_NAME | grep -q "key location: keyring" || fail
fi
$CRYPTSETUP close $DEV_NAME

# simulate LUKS2 device with cipher_null in both keyslot and segment (it can be created only by up conversion from LUKS1)
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks1 -s 128 -c cipher_null-ecb --offset 8192 $FAST_PBKDF2 $DEV || fail
$CRYPTSETUP convert -q --type luks2 $DEV || fail
wipe $PWD1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV -q $FAST_PBKDF_ARGON >/dev/null || fail
check_hash $PWD1 $HASH1
# both keyslot and segment cipher must not be null after reencryption with default params
$CRYPTSETUP luksDump $DEV | grep -q "cipher_null" && fail

# multistep reencryption with initial cipher_null
preparebig 64
echo $PWD1 | $CRYPTSETUP luksFormat --type luks2 $DEV -c null --offset 16384 -q $FAST_PBKDF_ARGON || fail
echo $PWD1 | $CRYPTSETUP open $DEV $DEV_NAME
wipe_dev /dev/mapper/$DEV_NAME
echo $PWD1 | $CRYPTSETUP reencrypt $DEV --hotzone-size 1M --resilience none -q $FAST_PBKDF_ARGON >/dev/null || fail
$CRYPTSETUP close $DEV_NAME
check_hash $PWD1 $HASH5

echo $PWD1 | $CRYPTSETUP luksFormat --type luks2 $DEV -c null --offset 16384 -q $FAST_PBKDF_ARGON || fail
wipe $PWD1
echo $PWD1 | $CRYPTSETUP reencrypt $DEV --hotzone-size 1M --resilience none -q $FAST_PBKDF_ARGON >/dev/null || fail
check_hash $PWD1 $HASH5

echo "[25] Reencryption recovery with cipher_null"
# (check opt-io size optimization in reencryption code does not affect recovery)
# device with opt-io size 32k
prepare_linear_dev 32 opt_blks=64 $OPT_XFERLEN_EXP
OFFSET=8192

echo "sector size 512->512"

get_error_offsets 32 $OFFSET
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -c null --sector-size 512 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
check_hash $PWD1 $HASH1

echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
reencrypt_recover 512 checksum $HASH1
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -c null --sector-size 512 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
reencrypt_recover 512 journal $HASH1

if [ -n "$DM_SECTOR_SIZE" ]; then
	echo "sector size 512->4096"

	get_error_offsets 32 $OFFSET 4096
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -c null --sector-size 512 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1
	check_hash $PWD1 $HASH1

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	reencrypt_recover 4096 checksum $HASH1
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -c null --sector-size 512 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1
	check_hash $PWD1 $HASH1
	reencrypt_recover 4096 journal $HASH1

	echo "sector size 4096->4096"

	get_error_offsets 32 $OFFSET 4096
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -c null --sector-size 4096 -c aes-cbc-essiv:sha256 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1
	check_hash $PWD1 $HASH1

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	reencrypt_recover 4096 checksum $HASH1
	reencrypt_recover 4096 journal $HASH1
fi

echo "[26] Reencryption recovery with cipher_null (online i/o error)"

echo "sector size 512->512"

get_error_offsets 32 $OFFSET
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 -c null --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
check_hash $PWD1 $HASH1

echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
reencrypt_recover_online 512 checksum $HASH1
echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 --sector-size 512 -c null --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
wipe $PWD1
reencrypt_recover_online 512 journal $HASH1

if [ -n "$DM_SECTOR_SIZE" ]; then
	echo "sector size 512->4096"

	get_error_offsets 32 $OFFSET 4096
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -c null --sector-size 512 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1
	check_hash $PWD1 $HASH1

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	reencrypt_recover_online 4096 checksum $HASH1
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -c null --sector-size 512 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1
	check_hash $PWD1 $HASH1
	reencrypt_recover_online 4096 journal $HASH1

	echo "sector size 4096->4096"

	get_error_offsets 32 $OFFSET 4096
	echo $PWD1 | $CRYPTSETUP -q luksFormat --type luks2 -c null --sector-size 4096 -c aes-cbc-essiv:sha256 --offset $OFFSET $FAST_PBKDF_ARGON $DEV || fail
	wipe $PWD1
	check_hash $PWD1 $HASH1

	echo "ERR writes to sectors [$ERROFFSET,$(($ERROFFSET+$ERRLENGTH-1))]"
	reencrypt_recover_online 4096 checksum $HASH1
	reencrypt_recover_online 4096 journal $HASH1
fi

remove_mapping
exit 0