#! /bin/bash # SPDX-License-Identifier: GPL-2.0 # Copyright (c) 2000-2003 Silicon Graphics, Inc. All Rights Reserved. # # FS QA Test No. 071 # # Exercise IO at large file offsets. seqfull=$0 seq=`basename $0` seqres=$RESULT_DIR/$seq echo "QA output created by $seq" rm -f $seqres.full here=`pwd` tmp=/tmp/$$ status=1 # failure is the default! _cleanup() { cd / rm -f $tmp.* _scratch_unmount 2>/dev/null } trap "_cleanup; exit \$status" 0 1 2 3 15 # get standard environment, filters and checks . ./common/rc . ./common/filter bitsperlong=`$here/src/feature -w` # link correct .out file rm -f $seqfull.out if [ "$bitsperlong" -eq 32 ]; then ln -s $seq.out.32 $seqfull.out else ln -s $seq.out.64 $seqfull.out fi _filter_io() { sed -e "s/$dbsize/1FSB/g" -e '/.* ops; /d' } _filter_off() { sed -e "s/$1//g" | _filter_io } _filter_pwrite() { sed -e "s/pwrite.*: Invalid argument/pwrite: File too large/g" } _filter_pread() { sed -e "s/pread.*: Invalid argument/read 0\/$bytes bytes at offset /g" | _filter_io } write_block() { location=$1 words=$2 offset=$3 bytes=$4 direct=$5 [ `$direct` ] && flags=-d echo "Writing $bytes bytes, offset is $words (direct=$direct)" | _filter_io echo "Writing $bytes bytes at $location $words (direct=$direct)" >>$seqres.full $XFS_IO_PROG -c "pwrite $offset 512" $flags $SCRATCH_MNT/$seq \ 2>&1 | _filter_off $offset | tee -a $seqres.full | _filter_pwrite xfs_bmap -v $SCRATCH_MNT/$seq >>$seqres.full echo "Reading $bytes bytes (direct=$direct)" | _filter_io echo "Reading $bytes bytes at $location (direct=$direct)" >>$seqres.full $XFS_IO_PROG -c "pread $offset $bytes" $flags $SCRATCH_MNT/$seq \ 2>&1 | _filter_off $offset | tee -a $seqres.full | _filter_pread $XFS_IO_PROG -c "pread -v $offset $bytes" $flags $SCRATCH_MNT/$seq >>$seqres.full 2>&1 echo | tee -a $seqres.full } # real QA test starts here _supported_fs xfs [ -n "$XFS_IO_PROG" ] || _notrun "xfs_io executable not found" _require_scratch _scratch_mkfs_xfs | _filter_mkfs 2>$tmp.mkfs . $tmp.mkfs echo _scratch_mount # Okay... filesize limit depends on blocksize, bits per long and # also if large block device patch is enabled (can't dynamically # check that, so use env var USE_LBD_PATCH to override default). # # Note: # We check from 1Tb below our guessed limit to 1Tb above it, and # see what happens for each 1Tb increment along the way (first # half should succeed, second half should fail to create a file). # So, number calculated here is not the actual limit, its a ways # above that, hopefully. if [ "$bitsperlong" -eq 32 ]; then upperbound=`expr $dbsize / 512` # which is 8(TB) for 4K, 4(TB) for 2k, ... etc. [ "$USE_LBD_PATCH" = yes ] && upperbound=16 # limited by page cache index when LBD patch onboard. else upperbound=`echo 8 \* 1024 \* 1024 | bc` # 8 exabytes (working in TBs below) fi # Step from (upperbound-1)(Tb) through (upperbound+1(Tb), & # seeks/writes/reads on each boundary (using holey files) - # 1byte back from the boundary, and 1FSB back from the same # boundary (and stash xfs_bmap output), before moving onto # each new test point. $XFS_IO_PROG -c "truncate 0" -f $SCRATCH_MNT/$seq oneTB=`echo 1024 \* 1024 \* 1024 \* 1024 | bc` count=`expr $upperbound - 1` upperbound=`expr $upperbound + 1` while [ $count -le $upperbound ] do # buffered IO offset=`echo $oneTB \* $count | bc` write_block $count "+0" $offset 512 false offset=`echo $oneTB \* $count \- 1 | bc` write_block $count "minus 1 byte" $offset 512 false offset=`echo $oneTB \* $count \- $dbsize | bc` write_block $count "minus 1FSB" $offset 512 false write_block $count "minus 1FSB" $offset 1 false # direct IO offset=`echo $oneTB \* $count | bc` write_block $count "+0" $offset $dbsize true offset=`echo $oneTB \* $count \- 1 | bc` write_block $count "minus 1FSB" $offset $dbsize true echo === Iterating, `expr $upperbound - $count` remains echo echo let count=$count+1 done # success, all done status=0 exit