##/bin/bash
# SPDX-License-Identifier: GPL-2.0
# Copyright (c) 2000-2002 Silicon Graphics, Inc.  All Rights Reserved.
#
# common routines for log testing

fulldir=$seqres.fulldir
rm -rf $fulldir

_cleanup_logfiles()
{
    if [ $status -eq 0 ]; then
	# don't keep these files around unless something went wrong
        rm -rf $fulldir
    fi
}

_full()
{
    echo ""            >>$seqres.full
    echo "*** $* ***"  >>$seqres.full
    echo ""            >>$seqres.full
}

_echofull()
{
    echo ""            | tee -a $seqres.full
    echo "*** $* ***"  | tee -a $seqres.full
    echo ""            | tee -a $seqres.full
}

# Handle the operations which get split over Log Record
# boundaries.
# Oper (379)..... flags: CONTINUE
# ...
# Oper (0)....... flags: WAS_CONT END
#
# or
#
# Oper (379)..... flags: none 
# ...
# Oper (0)....... flags: none 
#
_filter_opnum()
{
    $AWK_PROG '
BEGIN { 
	debug = 0 
	}
/^Oper/ && debug {
	    printf "line = %s\n", $0
	}
/^Oper/ {
	    was_cont = 0
	}
/^Oper/ && /flags: CONTINUE/ { 
            # this will be the first op of split region
	    $9 = "none" # overwrite CONTINUE flags
	    print
	    print "Not printing rest"
	    was_cont = 1
	    next        
	}
/^Oper/ && /flags: WAS_CONT END/ {
	    # this will be the last op of split region
	    # skip over was-continued op
	    # we assume there can be only 1
	    was_cont = 1
	    next        
	}
(was_cont == 1) { 
	    # skip over any continued op stuff
	    next
	}
	{print}
    '
}

#
# Filter out things that can change
# We have complexities which change when log is sync'ed at different
# times.
# Example1: DATA FORK EXTENTS
# These will not show up if inode is sync'ed sooner
#	/DATA FORK EXTENTS/d;
#	/INODE:/s/flags:0x5/flags:0x1/g;
# define XFS_ILOG_CORE   0x001   /* log standard inode fields */
# define XFS_ILOG_DEXT   0x004   /* log i_df.if_extents */
#
#

_filter_logprint()
{
    sed '
        s/ver:[0-9]/ver:<VERS>/;
        s/version [0-9] format [0-9]/version <VERS> format <FORMAT>/;
        s/data device: 0x[0-9a-f][0-9a-f]*/data device: <DEVICE>/;
        s/log device: 0x[0-9a-f][0-9a-f]*/log device: <DEVICE>/;
        s/log file: \".*\"/log device: <DEVICE>/;
        s/daddr: [0-9][0-9]*/daddr: <DADDR>/;
        s/length: [0-9][0-9]*/length: <LENGTH>/;
        s/length: [0-9][0-9]*/length: <LENGTH>/;
        s/^cycle num overwrites: .*$/cycle num overwrites: <TIDS>/;
        s/tid: [0-9a-f][0-9a-f]*/tid: <TID>/;
        s/tid:0x[0-9a-f][0-9a-f]*/tid:<TID>/;
        s/q:0x[0-9a-f][0-9a-f]*/q:<Q>/;
        s/a:0x[0-9a-f][0-9a-f]*/a:<A>/g;
        s/blkno:0x[0-9a-f][0-9a-f]*/blkno:<BLKNO>/g;
        s/blkno: *[0-9][0-9]* (0x[0-9a-f]*)/blkno: <BLKNO> (<BLKNO>)/g;
        s/blkno: *[0-9][0-9]*/blkno: <BLKNO>/g;
        s/boff: [0-9][0-9]*/boff: <BOFF>/g;
        s/len: *[0-9][0-9]*/len:<LEN>/g;
	/BUF:/s/[ 	]*flags:.*$//;
	/zeroed blocks/s/[0-9][0-9]*/<COUNT>/g;
	/cleared blocks/d;
	/log tail/s/[0-9][0-9]*/<COUNT>/g;
        s/atime:[0-9a-fx]*  *mtime:[0-9a-fx]*  *ctime:[0-9a-fx]*/atime:<TIME>  mtime:<TIME>  ctime:<TIME>/;
        s/atime 0x[0-9a-f]* mtime 0x[0-9a-f]* ctime 0x[0-9a-f]*/atime <TIME>  mtime <TIME>  ctime <TIME>/;
        s/block [0-9][0-9]*/block <BLOCK>/;
        s/icount: *[0-9][0-9]*  *ifree: *[0-9][0-9]*  *fdblks: *[0-9][0-9]*  *frext: *[0-9][0-9]*/icount:<COUNT> ifree:<FREE> fdblks:<BLOCKS> frext:<COUNT>/;
        s/sunit: *[0-9][0-9]*  *swidth: *[0-9][0-9]*/sunit:<SUNIT> swidth:<SWIDTH>/;
        s/1st: *[0-9][0-9]*  *last: *[0-9][0-9]*  *cnt: *[0-9][0-9]*  *freeblks: *[0-9][0-9]*  *longest: *[0-9][0-9]*/1st:<NUM> last:<NUM> cnt:<COUNT> freeblks:<COUNT> longest:<NUM>/;
        s/^uuid: *[0-9a-f-][0-9a-f-]* *format: *.*$/uuid: <UUID> format: <FORMAT>/;
        /flushiter:/d;
	/version:/,/h_size:/d;
	/override tail/s/[0-9][0-9]*/<TAIL_BLK>/;
	/^---*/d;
	/^===*/d;
	/^~~~*/d;
	/extended-header/d;
	/LOG REC AT LSN/d;
	/DATA FORK EXTENTS/d;
	s/BUF: cnt:[1-9][0-9]* total:[1-9][0-9]*.*/BUF: cnt:C total:T/;
	s/INO: cnt:[1-9][0-9]* total:[1-9][0-9]*.*/INO: cnt:C total:T/;
	s/#regs: *[1-9][0-9]*/#regs:R/;
	/INODE:/s/flags:0x5/flags:0x1/g;
	s/Oper ([0-9][0-9]*)/Oper (OPNUM)/;
	/^[ 	]*$/d;
	s/  */ /g;
	s/ $//;
	s/newino: 0x[0-9a-f]*$/newino: <INO>/g
	s/newino:0x[0-9a-f]*$/newino:<INO>/g
	s/ino: 0x[0-9a-f]* flags:/ino: <INO> flags:/g
	s/ino:0x[0-9a-f]* flags:/ino:<INO> flags:/g
	s/onlink:[0-9][0-9]*/onlink:<ONLINK>/;
	s/gen:-*[0-9][0-9]*/gen:<GEN>/;
	s/gen 0x[0-9a-f][0-9a-f]*/gen <GEN>/;
    '|\
    awk '
	# collapse BUF DATA group into 1 line
        # for Oper data this can be over separate operations...ughh
        /BUF DATA/ { 
		if (!buf_data) { # 1st one
		    if (oper) {	
			print oper
			oper = 0
		    }		
		    print
		}
		buf_data = 1
		oper = 0 # wont need it now
		next
	}
	/^Oper/ { 
		# store it as we dont know if 2nd BUF DATA is to follow
		if (oper) {
		    print oper
		}
		oper = $0
		next
	}
	/^TRANS/ && dummy_rec == 1 {
		# start printing again - dummy transaction over
		dummy_rec = 0
	}
	/DUMMY1/ {
		# filter out dummy transactions
		dummy_rec = 1
		next
	}
        {
		if (dummy_rec) {
		    next
		}
		buf_data = 0
		if (oper) { # now we can print out oper
		    print oper
		    oper = 0	
		}
		print
	}
    '
}

_check_log()
{
    _full "clean_log : xfs_logprint"
    _scratch_xfs_logprint -t | tee -a $seqres.full \
        | head | grep -q "<CLEAN>" || _fail "DIRTY LOG"
}

_scratch_xfs_logstate()
{
    _scratch_xfs_logprint -t | tee -a $seqres.full | grep -q "<CLEAN>"
    echo $?
}

_scratch_f2fs_logstate()
{
    $DUMP_F2FS_PROG $SCRATCH_DEV | tee -a $seqres.full | grep -q "unmount"
    echo $?
}

_scratch_ext4_logstate()
{
    $DUMPE2FS_PROG -h $SCRATCH_DEV 2> /dev/null | tee -a $seqres.full | \
	grep "^Filesystem features" | grep -q needs_recovery
    test $? -ne 0
    echo $?
}

_scratch_dump_log()
{
	case "$FSTYP" in
	xfs)
		_scratch_xfs_logprint
		;;
	f2fs)
		$DUMP_F2FS_PROG $SCRATCH_DEV
		;;
	ext4)
		$DEBUGFS_PROG -R "logdump -a" $SCRATCH_DEV
		;;
	*)
		;;
	esac
}

_test_dump_log()
{
	case "$FSTYP" in
	xfs)
		_test_xfs_logprint
		;;
	f2fs)
		$DUMP_F2FS_PROG $TEST_DEV
		;;
	ext4)
		$DEBUGFS_PROG -R "logdump -a" $TEST_DEV
		;;
	*)
		;;
	esac
}

_print_logstate()
{
    case "$FSTYP" in
    xfs)
        dirty=$(_scratch_xfs_logstate)
        ;;
    f2fs)
        dirty=$(_scratch_f2fs_logstate)
        ;;
    ext4)
        dirty=$(_scratch_ext4_logstate)
        ;;
    *)
        ;;
    esac

    if [ $dirty -ne 0 ]; then
        echo "dirty log"
    else
        echo "clean log"
    fi
}

_print_operation()
{
    mkdir $fulldir >/dev/null 2>&1
    mntopt=`echo $MOUNT_OPTIONS | sed 's/ //g'`
    mkfsopt=`echo $MKFS_OPTIONS | sed 's/ //g'`
    raw=$fulldir/op.mnt$mntopt.mkfs$mkfsopt$sync_suffix.raw
    filtered=$fulldir/op.mnt$mntopt.mkfs$mkfsopt$sync_suffix.filtered

    echo "### xfs_logprint output ###" | tee $raw >$filtered
    _scratch_xfs_logprint -c  2>&1 \
    | tee -a $raw      \
    | _filter_logprint \
    | _filter_opnum    \
    >>$filtered
}

# start at rec#2 "-s 2" so we skip over UMOUNT record which will always
# be a 512b single header at mkfs time
# and may not match with the FS mounted at a different LR size 
# => xlog_do_recovery_pass() can not handle the different hdr sizes
#    it assumes them all to be the same between the start..finish

_print_transaction_inode()
{
    _start=$1
    mkdir $fulldir >/dev/null 2>&1
    mntopt=`echo $MOUNT_OPTIONS | sed 's/ //g'`
    mkfsopt=`echo $MKFS_OPTIONS | sed 's/ //g'`
    raw=$fulldir/trans_inode.mnt$mntopt.mkfs$mkfsopt$sync_suffix.raw
    filtered=$fulldir/trans_inode.mnt$mntopt.mkfs$mkfsopt$sync_suffix.filtered

    echo "### xfs_logprint -t -i -s START output ###" | tee $raw >$filtered
    _scratch_xfs_logprint -t -i -s $_start 2>&1 \
    | tee -a $raw      \
    | _filter_logprint \
    >>$filtered
}

_print_transaction_buf()
{
    _start=$1
    mkdir $fulldir >/dev/null 2>&1
    mntopt=`echo $MOUNT_OPTIONS | sed 's/ //g'`
    mkfsopt=`echo $MKFS_OPTIONS | sed 's/ //g'`
    raw=$fulldir/trans_buf.mnt$mntopt.mkfs$mkfsopt$sync_suffix.raw
    filtered=$fulldir/trans_buf.mnt$mntopt.mkfs$mkfsopt$sync_suffix.filtered

    echo "### xfs_logprint -t -b -s START output ###" | tee $raw >$filtered
    _scratch_xfs_logprint -t -b -s $_start 2>&1 \
    | tee -a $raw      \
    | _filter_logprint \
    >>$filtered
}

_mkfs_log()
{
    # create the FS
    # mkfs options to append to log size otion can be specified ($*)
    export MKFS_OPTIONS="-l size=2000b -l lazy-count=1 $*"
    _full "mkfs"
    _try_scratch_mkfs_xfs >>$seqres.full 2>&1
    if [ $? -ne 0 ] ; then 
	_echofull "Cannot mkfs for this test using option specified: $MKFS_OPTIONS"
	return 1
    fi	

    return 0
}


#
# mount fs and create some log traffic
#
_create_log()
{
    # mount the FS
    _full "mount"
    _try_scratch_mount >>$seqres.full 2>&1
    if [ $? -ne 0 ] ; then 
	_echofull "mount failed: $MOUNT_OPTIONS"
	return 1
    fi

    # generate some log traffic - but not too much - life gets a little
    # more complicated if the log wraps around. This traffic is
    # pretty much arbitary, but could probably be made better than this.
    touch $SCRATCH_MNT/{0,1,2,3,4,5,6,7,8,9}{0,1,2,3,4,5,6,7,8,9}
	
    # unmount the FS
    _full "umount"
    _scratch_unmount >>$seqres.full 2>&1
    if [ $? -ne 0 ] ; then 
	_echofull "umount failed"
	return 1
    fi

    return 0
}

#
# mount fs and create some log traffic with sync'ing
#
_create_log_sync()
{
    # mount the FS
    _full " mount"
    _try_scratch_mount >>$seqres.full 2>&1
    if [ $? -ne 0 ] ; then 
	_echofull "mount failed: $MOUNT_OPTIONS"
	return 1
    fi

    # generate some log traffic - but not too much
    # add some syncs to get the log flushed to disk 
    for file in $SCRATCH_MNT/{0,1,2,3,4,5,6,7,8,9}{0,1,2,3,4,5,6,7,8,9}; do
	touch $file
	_scratch_sync
    done

    # unmount the FS
    _full "umount"
    _scratch_unmount >>$seqres.full 2>&1
    if [ $? -ne 0 ] ; then 
	_echofull "umount failed"
	return 1
    fi
}

_cmp_output()
{
    echo "*** compare logprint: $1 with $2"
    if ! diff $1 $2 >/dev/null; then
	_fail "logprint output $1 differs to $2"
    fi
}

#
# Op data of different Log Record sizes will mean that data is
# split at different points and in op printing it will not
# try and decode the data which has been split up.
# So we do a special diff processing to complain of differences
# if no split is involved.
#
# Example diff with forms of:
# "Left over region from split log item"
# "Not printing rest of data"
#
#   2149c2149
#   < Left over region from split log item
#   ---
#   > BUF DATA
#   2888c2888,2889
#   < INODE: #regs: 3 Not printing rest of data
#   ---
#   > INODE: #regs: 3 ino: 0x80 flags: 0x5 dsize: 16
#   >  blkno: <BLKNO> len:<LEN> boff: <BOFF>
#
_process_op_diff()
{
    $AWK_PROG <$1 '
	BEGIN { num_splits = 1; max_splits = 50 }
	/^[0-9]/ {

		# ensure a split happened in previous difference
		if (num_splits < 1 || num_splits > max_splits) {
			print num_splits, " split(s) found prior to diff cmd: ", $0
			num_splits = 1 # shut-up end condition
			exit 1
		}
		num_splits = 0

		next
	}
	/Left over region/ || /Not printing rest/ { 
		num_splits++
		next
	}
	{ next }
	END { 
		if (num_splits < 1 || num_splits > max_splits) {
			print num_splits, " split(s) found prior to diff end"
			exit 1
		}
	}
    '
    return $?
}

_cmp_op_output()
{
    echo "*** compare logprint: $1 with $2"

    diff $1 $2 >$filtered.diff
    if ! _process_op_diff $filtered.diff
    then
	_fail "logprint output $1 differs to $2 considering splits"
    fi
}

# return xfs log version of device
# e.g.
#   _log_version /dev/dsk/dks0d1s4
#
_log_version()
{
    _dev=$1 
    vers=`xfs_db -c 'sb 0' -c 'p versionnum' -r $_dev | $AWK_PROG '{print $3}'`
    logver=`echo $vers | sed -e 's/0x[0-9a-f]\([0-9a-f]\)[0-9a-f][0-9a-f]/\1/'` 
    if [ $logver = 4 -o $logver = 5 -o $logver = 6 -o $logver = 7 -o \
         $logver = c -o $logver = d -o $logver = e -o $logver = f ]; then
	echo 2
    else
	echo 1
    fi
}

_require_v2log()
{
    # test out mkfs to see if it supports "-l version=2"
    export MKFS_OPTIONS="-l version=2"
    if ! _try_scratch_mkfs_xfs >>$seqres.full 2>&1; then
        _notrun "mkfs does not support v2 logs"
    fi

    # test out mount to see if it mounts a v2 log fs
    export MOUNT_OPTIONS="-o logbsize=32k"
    if ! _try_scratch_mount >>$seqres.full 2>&1; then
        _notrun "mount/kernel does not support v2 logs"
    fi

    # check after unmount to see if it is clean
    # i.e. it is not a 6.5.25 buggy version checking kernel
    touch $SCRATCH_MNT/file
    _scratch_unmount >>$seqres.full 2>&1
    if _scratch_xfs_logprint -t | tee -a $seqres.full \
        | head | grep -q "<DIRTY>"; then
        _notrun "kernel does not support v2 logs"
    fi
 
    # otherwise presume it does support v2 logs...:)
}

_require_logstate()
{
    case "$FSTYP" in
    xfs)
        if [ -z "$XFS_LOGPRINT_PROG" ]; then
            _notrun "This test requires xfs_logprint utility."
        fi
        ;;
    f2fs)
        if [ -z "$DUMP_F2FS_PROG" ]; then
            _notrun "This test requires dump.f2fs utility."
        fi
        ;;
    ext4)
	if [ -z "$DUMPE2FS_PROG" ]; then
		_notrun "This test requires dumpe2fs utility."
	fi
	;;
    *)
        _notrun "$FSTYP does not support log state probing."
        ;;
    esac
}

_xfs_log_config()
{
    echo "# mkfs-opt             mount-opt"
    echo "# ------------------------------"
    echo "  version=2            logbsize=32k"
    echo "  version=2,su=4096    logbsize=32k"
    echo "  version=2,su=32768   logbsize=32k"
    echo "  version=2,su=32768   logbsize=64k"
    echo "  version=2            logbsize=64k"
    echo "  version=2,su=64k     logbsize=64k"
    echo "  version=2            logbsize=128k"
    echo "  version=2,su=128k    logbsize=128k"
    echo "  version=2            logbsize=256k"
    echo "  version=2,su=256k    logbsize=256k"
}

_f2fs_log_config()
{
    echo "# mkfs-opt             mount-opt"
    echo "# ------------------------------"
    echo "  test1     active_logs=6,background_gc=off"
    echo "  test2     active_logs=6,background_gc=off,inline_data"
    echo "  test3     active_logs=6,background_gc=off,inline_dentry"
    echo "  test4     active_logs=6,background_gc=off,inline_data,inline_dentry"
    echo "  test5     active_logs=6,background_gc=off,disable_roll_forward"
    echo "  test6     active_logs=6,background_gc=off,discard,inline_data,inline_dentry"
    echo "  test7     active_logs=6,background_gc=on"
    echo "  test8     active_logs=6,background_gc=on,inline_data"
    echo "  test9     active_logs=6,background_gc=on,inline_data,inline_dentry"
    echo "  test10    active_logs=6,background_gc=on,discard,inline_data,inline_dentry"
}

_ext4_log_config()
{
    echo "# mkfs-opt             mount-opt"
    echo "# ------------------------------"
    echo "  /dev/null     data=writeback"
    echo "  /dev/null     data=ordered"
    echo "  /dev/null     data=journal"
    echo "  /dev/null     data=ordered,data_err=abort"
    echo "  /dev/null     data=writeback,nojournal_checksum"
    echo "  /dev/null     data=ordered,nojournal_checksum"
    echo "  /dev/null     data=journal,nojournal_checksum"
    echo "  /dev/null     data=ordered,data_err=abort,nojournal_checksum"
    echo "  /dev/null     data=writeback,journal_checksum"
    echo "  /dev/null     data=ordered,journal_checksum"
}

_get_log_configs()
{
    case "$FSTYP" in
    xfs)
        _xfs_log_config
        ;;
    f2fs)
        _f2fs_log_config
        ;;
    ext4)
        _ext4_log_config
        ;;
    *)
        _notrun "$FSTYP does not support log configs."
        ;;
    esac
}

# Unmount and remount the scratch device, dumping the log
_scratch_remount_dump_log()
{
	local opts="$1"

	if test -n "$opts"; then
		opts="-o $opts"
	fi
	_scratch_unmount
	_scratch_dump_log
	_scratch_mount "$opts"
}

# Unmount and remount the test device, dumping the log
_test_remount_dump_log()
{
	local opts="$1"

	if test -n "$opts"; then
		opts="-o $opts"
	fi
	_test_unmount
	_test_dump_log
	_test_mount "$opts"
}

# make sure this script returns success
/bin/true
