From: Darrick J. Wong <djwong@xxxxxxxxxx> Add new helpers to dmerror to provide for marking selected ranges totally bad -- both reads and writes will fail. Create a new test for xfs_scrub to check that it reports media errors in data files correctly. Signed-off-by: Darrick J. Wong <djwong@xxxxxxxxxx> --- common/dmerror | 140 ++++++++++++++++++++++++++++++++++++++++++++++++ common/xfs | 9 +++ tests/xfs/747 | 155 +++++++++++++++++++++++++++++++++++++++++++++++++++++ tests/xfs/747.out | 12 ++++ 4 files changed, 316 insertions(+) create mode 100755 tests/xfs/747 create mode 100644 tests/xfs/747.out diff --git a/common/dmerror b/common/dmerror index 54122b12ea..ca71fc11b4 100644 --- a/common/dmerror +++ b/common/dmerror @@ -250,3 +250,143 @@ _dmerror_load_working_table() [ $load_res -ne 0 ] && _fail "dmsetup failed to load error table" [ $resume_res -ne 0 ] && _fail "dmsetup resume failed" } + +# Given a list of (start, length) tuples on stdin, combine adjacent tuples into +# larger ones and write the new list to stdout. +__dmerror_combine_extents() +{ + awk 'BEGIN{start = 0; len = 0;}{ +if (start + len == $1) { + len += $2; +} else { + if (len > 0) + printf("%d %d\n", start, len); + start = $1; + len = $2; +} +} END { + if (len > 0) + printf("%d %d\n", start, len); +}' +} + +# Given a block device, the name of a preferred dm target, the name of an +# implied dm target, and a list of (start, len) tuples on stdin, create a new +# dm table which maps each of the tuples to the preferred target and all other +# areas to the implied dm target. +__dmerror_recreate_map() +{ + local device="$1" + local preferred_tgt="$2" + local implied_tgt="$3" + local size=$(blockdev --getsz "$device") + + local awk_program=' + BEGIN { + implied_start = 0; + } + { + extent_start = $1; + extent_len = $2; + + if (extent_start > size) { + extent_start = size; + extent_len = 0; + } else if (extent_start + extent_len > size) { + extent_len = size - extent_start; + } + + if (implied_start < extent_start) + printf("%d %d %s %s %d\n", implied_start, + extent_start - implied_start, + implied_tgt, device, implied_start); + printf("%d %d %s %s %d\n", extent_start, extent_len, + preferred_tgt, device, extent_start); + implied_start = extent_start + extent_len; + } + END { + if (implied_start < size) + printf("%d %d %s %s %d\n", implied_start, + size - implied_start, implied_tgt, + device, implied_start); + }' + + awk -v device="$device" -v size=$size -v implied_tgt="$implied_tgt" \ + -v preferred_tgt="$preferred_tgt" "$awk_program" +} + +# Update the dm error table so that the range (start, len) maps to the +# preferred dm target, overriding anything that maps to the implied dm target. +# This assumes that the only desired targets for this dm device are the +# preferred and and implied targets. The fifth argument is the scratch device +# that we want to change the table for. +__dmerror_change() +{ + local start="$1" + local len="$2" + local preferred_tgt="$3" + local implied_tgt="$4" + local whichdev="$5" + local old_table + local new_table + + case "$whichdev" in + "SCRATCH_DEV"|"") whichdev="$SCRATCH_DEV";; + "SCRATCH_LOGDEV"|"LOG") whichdev="$NON_ERROR_LOGDEV";; + "SCRATCH_RTDEV"|"RT") whichdev="$NON_ERROR_RTDEV";; + esac + + case "$whichdev" in + "$SCRATCH_DEV") old_table="$DMERROR_TABLE";; + "$NON_ERROR_LOGDEV") old_table="$DMERROR_LOGTABLE";; + "$NON_ERROR_RTDEV") old_table="$DMERROR_RTTABLE";; + *) + echo "$whichdev: Unknown dmerror device." + return + ;; + esac + + new_table="$( (echo "$old_table"; echo "$start $len $preferred_tgt") | \ + awk -v type="$preferred_tgt" '{if ($3 == type) print $0;}' | \ + sort -g | \ + __dmerror_combine_extents | \ + __dmerror_recreate_map "$whichdev" "$preferred_tgt" \ + "$implied_tgt" )" + + case "$whichdev" in + "$SCRATCH_DEV") DMERROR_TABLE="$new_table";; + "$NON_ERROR_LOGDEV") DMERROR_LOGTABLE="$new_table";; + "$NON_ERROR_RTDEV") DMERROR_RTTABLE="$new_table";; + esac +} + +# Reset the dm error table to everything ok. The dm device itself must be +# remapped by calling _dmerror_load_error_table. +_dmerror_reset_table() +{ + DMERROR_TABLE="$DMLINEAR_TABLE" + DMERROR_LOGTABLE="$DMLINEAR_LOGTABLE" + DMERROR_RTTABLE="$DMLINEAR_RTTABLE" +} + +# Update the dm error table so that IOs to the given range will return EIO. +# The dm device itself must be remapped by calling _dmerror_load_error_table. +_dmerror_mark_range_bad() +{ + local start="$1" + local len="$2" + local dev="$3" + + __dmerror_change "$start" "$len" error linear "$dev" +} + +# Update the dm error table so that IOs to the given range will succeed. +# The dm device itself must be remapped by calling _dmerror_load_error_table. +_dmerror_mark_range_good() +{ + local start="$1" + local len="$2" + local dev="$3" + + __dmerror_change "$start" "$len" linear error "$dev" +} diff --git a/common/xfs b/common/xfs index 8ac1964e9c..f466d2c42f 100644 --- a/common/xfs +++ b/common/xfs @@ -218,6 +218,15 @@ _xfs_get_dir_blocksize() $XFS_INFO_PROG "$fs" | sed -n "s/^naming.*bsize=\([[:digit:]]*\).*/\1/p" } +# Decide if this path is a file on the realtime device +_xfs_is_realtime_file() +{ + if [ "$USE_EXTERNAL" != "yes" ] || [ -z "$SCRATCH_RTDEV" ]; then + return 1 + fi + $XFS_IO_PROG -c 'stat -v' "$1" | grep -q -w realtime +} + # Set or clear the realtime status of every supplied path. The first argument # is either 'data' or 'realtime'. All other arguments should be paths to # existing directories or empty regular files. diff --git a/tests/xfs/747 b/tests/xfs/747 new file mode 100755 index 0000000000..8b828bc48d --- /dev/null +++ b/tests/xfs/747 @@ -0,0 +1,155 @@ +#! /bin/bash +# SPDX-License-Identifier: GPL-2.0-or-later +# Copyright (c) 2022 Oracle. All Rights Reserved. +# +# FS QA Test No. 747 +# +# Check xfs_scrub's media scan can actually return diagnostic information for +# media errors in file data extents. + +. ./common/preamble +_begin_fstest auto quick scrub + +# Override the default cleanup function. +_cleanup() +{ + cd / + rm -f $tmp.* + _dmerror_cleanup +} + +# Import common functions. +. ./common/fuzzy +. ./common/filter +. ./common/dmerror + +# real QA test starts here +_supported_fs xfs +_require_dm_target error +_require_scratch +_require_scratch_xfs_crc +_require_scrub + +filter_scrub_errors() { + _filter_scratch | sed \ + -e "s/offset $((fs_blksz * 2)) /offset 2FSB /g" \ + -e "s/length $fs_blksz.*/length 1FSB./g" +} + +_scratch_mkfs >> $seqres.full +_dmerror_init +_dmerror_mount >> $seqres.full 2>&1 + +_supports_xfs_scrub $SCRATCH_MNT $SCRATCH_DEV || _notrun "Scrub not supported" + +# Write a file with 4 file blocks worth of data +victim=$SCRATCH_MNT/a +file_blksz=$(_get_file_block_size $SCRATCH_MNT) +$XFS_IO_PROG -f -c "pwrite -S 0x58 0 $((4 * file_blksz))" -c "fsync" $victim >> $seqres.full +unset errordev +_xfs_is_realtime_file $victim && errordev="RT" +bmap_str="$($XFS_IO_PROG -c "bmap -elpv" $victim | grep "^[[:space:]]*0:")" +echo "$errordev:$bmap_str" >> $seqres.full + +phys="$(echo "$bmap_str" | $AWK_PROG '{print $3}')" +if [ "$errordev" = "RT" ]; then + len="$(echo "$bmap_str" | $AWK_PROG '{print $4}')" +else + len="$(echo "$bmap_str" | $AWK_PROG '{print $6}')" +fi +fs_blksz=$(_get_block_size $SCRATCH_MNT) +echo "file_blksz:$file_blksz:fs_blksz:$fs_blksz" >> $seqres.full +kernel_sectors_per_fs_block=$((fs_blksz / 512)) + +# Did we get at least 4 fs blocks worth of extent? +min_len_sectors=$(( 4 * kernel_sectors_per_fs_block )) +test "$len" -lt $min_len_sectors && \ + _fail "could not format a long enough extent on an empty fs??" + +phys_start=$(echo "$phys" | sed -e 's/\.\..*//g') + +echo "$errordev:$phys:$len:$fs_blksz:$phys_start" >> $seqres.full +echo "victim file:" >> $seqres.full +od -tx1 -Ad -c $victim >> $seqres.full + +# Set the dmerror table so that all IO will pass through. +_dmerror_reset_table + +cat >> $seqres.full << ENDL +dmerror before: +$DMERROR_TABLE +$DMERROR_RTTABLE +<end table> +ENDL + +# All sector numbers that we feed to the kernel must be in units of 512b, but +# they also must be aligned to the device's logical block size. +logical_block_size=$(_min_dio_alignment $SCRATCH_DEV) +kernel_sectors_per_device_lba=$((logical_block_size / 512)) + +# Mark as bad one of the device LBAs in the middle of the extent. Target the +# second LBA of the third block of the four-block file extent that we allocated +# earlier, but without overflowing into the fourth file block. +bad_sector=$(( phys_start + (2 * kernel_sectors_per_fs_block) )) +bad_len=$kernel_sectors_per_device_lba +if (( kernel_sectors_per_device_lba < kernel_sectors_per_fs_block )); then + bad_sector=$((bad_sector + kernel_sectors_per_device_lba)) +fi +if (( (bad_sector % kernel_sectors_per_device_lba) != 0)); then + echo "bad_sector $bad_sector not congruent with device logical block size $logical_block_size" +fi +_dmerror_mark_range_bad $bad_sector $bad_len $errordev + +cat >> $seqres.full << ENDL +dmerror after marking bad: +$DMERROR_TABLE +$DMERROR_RTTABLE +<end table> +ENDL + +_dmerror_load_error_table + +# See if the media scan picks it up. +echo "Scrub for injected media error (single threaded)" + +# Once in single-threaded mode +_scratch_scrub -b -x >> $seqres.full 2> $tmp.error +cat $tmp.error | filter_scrub_errors + +# Once in parallel mode +echo "Scrub for injected media error (multi threaded)" +_scratch_scrub -x >> $seqres.full 2> $tmp.error +cat $tmp.error | filter_scrub_errors + +# Remount to flush the page cache and reread to see the IO error +_dmerror_unmount +_dmerror_mount +echo "victim file:" >> $seqres.full +od -tx1 -Ad -c $victim >> $seqres.full 2> $tmp.error +cat $tmp.error | sed -e 's/read error: //g' | _filter_scratch + +# Scrub again to re-confirm the media error across a remount +echo "Scrub for injected media error (after remount)" +_scratch_scrub -x >> $seqres.full 2> $tmp.error +cat $tmp.error | filter_scrub_errors + +# Now mark the bad range good so that a retest shows no media failure. +_dmerror_mark_range_good $bad_sector $bad_len $errordev +_dmerror_load_error_table + +cat >> $seqres.full << ENDL +dmerror after marking good: +$DMERROR_TABLE +$DMERROR_RTTABLE +<end table> +ENDL + +echo "Scrub after removing injected media error" + +# Scrub one last time to make sure the error's gone. +_scratch_scrub -x >> $seqres.full 2> $tmp.error +cat $tmp.error | filter_scrub_errors + +# success, all done +status=0 +exit diff --git a/tests/xfs/747.out b/tests/xfs/747.out new file mode 100644 index 0000000000..714ceb2e56 --- /dev/null +++ b/tests/xfs/747.out @@ -0,0 +1,12 @@ +QA output created by 747 +Scrub for injected media error (single threaded) +Unfixable Error: SCRATCH_MNT/a: media error at data offset 2FSB length 1FSB. +SCRATCH_MNT: unfixable errors found: 1 +Scrub for injected media error (multi threaded) +Unfixable Error: SCRATCH_MNT/a: media error at data offset 2FSB length 1FSB. +SCRATCH_MNT: unfixable errors found: 1 +od: SCRATCH_MNT/a: Input/output error +Scrub for injected media error (after remount) +Unfixable Error: SCRATCH_MNT/a: media error at data offset 2FSB length 1FSB. +SCRATCH_MNT: unfixable errors found: 1 +Scrub after removing injected media error