#! /bin/bash # SPDX-License-Identifier: GPL-2.0 # Copyright (C) 2017 CTERA Networks. All Rights Reserved. # # FS QA Test 032 # # Test concurrent copy up of lower hardlinks. # # Two tasks make a metadata change concurrently on two hardlinks of a large # lower inode. The copy up should be triggers by one of the tasks and the # other should be waiting for copy up to complete. Both copy up targets # should end up being upper hardlinks and both metadata changes should be # applied. # seq=`basename $0` seqres=$RESULT_DIR/$seq echo "QA output created by $seq" tmp=/tmp/$$ status=1 # failure is the default! trap "_cleanup; exit \$status" 0 1 2 3 15 _cleanup() { cd / rm -f $tmp.* } # get standard environment, filters and checks . ./common/rc . ./common/filter # remove previous $seqres.full before test rm -f $seqres.full # real QA test starts here _supported_fs overlay _require_scratch _require_scratch_feature index # Remove all files from previous tests _scratch_mkfs # overlay copy_up doesn't deal with sparse file well, holes will be filled by # zeros, so if both hardlinks are broken on copy up, we need (2*1G) free space # on $OVL_BASE_SCRATCH_MNT. _require_fs_space $OVL_BASE_SCRATCH_MNT $((1024*1024*2)) # Create a large file in lower with 2 hardlinks. # Make the file have non zero blocks, so copy up won't be able to do # a naive sparse file copy up optimization. lowerdir=$OVL_BASE_SCRATCH_MNT/$OVL_LOWER mkdir -p $lowerdir $XFS_IO_PROG -fc "pwrite 1g 4k" $lowerdir/zero >> $seqres.full ln $lowerdir/zero $lowerdir/one ln $lowerdir/zero $lowerdir/two # Enable overlay index feature to prevent breaking hardlinks on copy up _scratch_mount -o index=on do_cmd() { echo "`date +%T` $1..." >> $seqres.full eval "$1" echo "`date +%T` ...$1" >> $seqres.full } # Perform one modification on each hardlink (size and owner) do_cmd "echo >> $SCRATCH_MNT/one" & # # When hardlinks are broken and overlayfs supports concurrent copy up, # $seqres.full will show that file two copy up started ~2s after file one # copy up started and ended ~2s after file one copy up ended. # With synchronized copy up of lower inodes, $seqres.full will show that # file two copy up ended at the same time as file one copy up. # Without sparse file copy up optimizations, copy of 1g on a standard disk # is expected to take more than 2s. # If underlying filesystem supports clone, overlay clone up with take less # than 1s and this test will not be doing concurrent copy up of hardlinks, # but rather consequent copy up of hardlinks. # sleep 2 do_cmd "chown 100 $SCRATCH_MNT/two" & wait # Expect all hardlinks to show both metadata modifications (owner and size). # List : for f in zero one two; do _ls_l -n $SCRATCH_MNT/$f | awk '{ print $2, $3, $5, $9 }' | _filter_scratch done status=0 exit