From: Darrick J. Wong <djwong@xxxxxxxxxx>
This is a regression test for the two realtime allocator bug fixes:
xfs: adjust rt allocation minlen when extszhint > rtextsize
xfs: retry allocations when locality-based search fails
Signed-off-by: Darrick J. Wong <djwong@xxxxxxxxxx>
---
tests/xfs/775 | 165 +++++++++++++++++++++++++++++++++++++++++++++++++++++
tests/xfs/775.out | 3 +
2 files changed, 168 insertions(+)
create mode 100755 tests/xfs/775
create mode 100644 tests/xfs/775.out
diff --git a/tests/xfs/775 b/tests/xfs/775
new file mode 100755
index 00000000..e6a4c28b
--- /dev/null
+++ b/tests/xfs/775
@@ -0,0 +1,165 @@
+#! /bin/bash
+# SPDX-License-Identifier: GPL-2.0
+# Copyright (c) 2021, Oracle. All Rights Reserved.
+#
+# FS QA Test No. 775
+#
+# Regression test for two fixes in the realtime allocator:
+#
+# xfs: adjust rt allocation minlen when extszhint > rtextsize
+# xfs: retry allocations when locality-based search fails
+#
+# The first bug occurs when an extent size hint is set on a realtime file.
+# xfs_bmapi_rtalloc adjusts the offset and length of the allocation request to
+# try to satisfy the hint, but doesn't adjust minlen to match. If the
+# allocator finds free space that isn't large enough to map even a single block
+# of the original request, bmapi_write will return ENOSPC and the write fails
+# even though there's plenty of space.
+#
+# The second bug occurs when an extent size hint is set on a file, we ask to
+# allocate blocks in an empty region immediately adjacent to a previous
+# allocation, and the nearest available free space isn't anywhere near the
+# previous allocation, the near allocator will give up and return ENOSPC, even
+# if there's sufficient free realtime extents to satisfy the allocation
+# request.
+#
+# Both bugs can be exploited by the same user call sequence, so here's a
+# targeted test that runs in less time than the reproducers that are listed in
+# the fix patches themselves.
+#
+. ./common/preamble
+_begin_fstest auto quick rw realtime
+
+# Override the default cleanup function.
+_cleanup()
+{
+ cd /
+}
+
+# Import common functions.
+. ./common/filter
+
+# real QA test starts here
+_require_scratch
+_require_realtime
+_require_xfs_io_command "falloc"
+_require_xfs_io_command "fpunch"
+_require_test_program "punch-alternating"
+
+fill_rtdev()
+{
+ file=$1
+
+ filesize=`_get_available_space $SCRATCH_MNT`
+ $XFS_IO_PROG -f -c "truncate $filesize" -c "falloc 0 $filesize" $file
+
+ chunks=20
+ chunksizemb=$((filesize / chunks / 1048576))
+ seq 1 $chunks | while read f; do
+ echo "$((f * chunksizemb)) file size $f / 20"
+ $XFS_IO_PROG -fc "falloc -k $(( (f - 1) * chunksizemb))m ${chunksizemb}m" $file
+ done
+
+ chunks=100
+ chunksizemb=$((filesize / chunks / 1048576))
+ seq 80 $chunks | while read f; do
+ echo "$((f * chunksizemb)) file size $f / $chunks"
+ $XFS_IO_PROG -fc "falloc -k $(( (f - 1) * chunksizemb))m ${chunksizemb}m" $file
+ done
+
+ filesizemb=$((filesize / 1048576))
+ $XFS_IO_PROG -fc "falloc -k 0 ${filesizemb}m" $file
+
+ # Try again anyway
+ avail=`_get_available_space $SCRATCH_MNT`
+ $XFS_IO_PROG -fc "pwrite -S 0x65 0 $avail" ${file}
+}
+
+echo "Format and mount"
+_scratch_mkfs > $seqres.full 2>&1
+_scratch_mount >> $seqres.full 2>&1
+
+# This is a test of the rt allocator; force all files to be created realtime
+_xfs_force_bdev realtime $SCRATCH_MNT
+
+# Set the extent size hint larger than the realtime extent size. This is
+# necessary to exercise the minlen constraints on the realtime allocator.
+fsbsize=$($XFS_IO_PROG -c 'statfs' $SCRATCH_MNT | grep geom.bsize | awk '{print $3}')
+rtextsize_blks=$($XFS_IO_PROG -c 'statfs' $SCRATCH_MNT | grep geom.rtextsize | awk '{print $3}')
+extsize=$((2 * rtextsize_blks * fsbsize))
+
+echo "rtextsize_blks=$rtextsize_blks extsize=$extsize" >> $seqres.full
+_xfs_force_bdev realtime $SCRATCH_MNT
+$XFS_IO_PROG -c "extsize $extsize" $SCRATCH_MNT
+
+# Compute the geometry of the test files we're going to create. Realtime
+# volumes are simple, which means that we can control the space allocations
+# exactly to exploit bugs!
+#
+# Since this is a test of the near rt allocator, we need to set up the test to
+# have a victim file with at least one rt extent allocated to it and enough
+# free space to allocate at least one more rt extent at an adjacent file
+# offset. The free space must not be immediately adjacent to the the first
+# extent that we allocate to the victim file, and it must not be large enough
+# to satisfy the entire allocation request all at once.
+#
+# Our free space fragmentation strategy is the usual fallocate-and-punch swiss
+# cheese file, which means the free space is split into five sections:
+#
+# The first will be remapped into the victim file.
+#
+# The second section exists to prevent the free extents from being adjacent to
+# the first section. It will be very large, since we allocate all the rt
+# space.
+#
+# The last three sections will have every other rt extent punched out to create
+# some free space.
+remap_sz=$((extsize * 2))
+required_sz=$((5 * remap_sz))
+free_rtspace=$(_get_available_space $SCRATCH_MNT)
+if [ $free_rtspace -lt $required_sz ]; then
+ _notrun "Insufficient free space on rt volume. Needed $required_sz, saw $free_rtspace."
+fi
+
+# Allocate all the space on the rt volume so that we can control space
+# allocations exactly.
+fill_rtdev $SCRATCH_MNT/bigfile &>> $seqres.full
+
+# We need at least 4 remap sections to proceed
+bigfile_sz=$(stat -c '%s' $SCRATCH_MNT/bigfile)
+if [ $bigfile_sz -lt $required_sz ]; then
+ _notrun "Free space control file needed $required_sz bytes, got $bigfile_sz."
+fi
+
+# Remap the first remap section to a victim file.
+$XFS_IO_PROG -c "fpunch 0 $remap_sz" $SCRATCH_MNT/bigfile
+$XFS_IO_PROG -f -c "truncate $required_sz" -c "falloc 0 $remap_sz" $SCRATCH_MNT/victim
+
+# Punch out every other extent of the last two sections, to fragment free space.
+frag_sz=$((remap_sz * 3))
+punch_off=$((bigfile_sz - frag_sz))
+$here/src/punch-alternating $SCRATCH_MNT/bigfile -o $((punch_off / fsbsize)) -i $((rtextsize_blks * 2)) -s $rtextsize_blks
+
+# Make sure we have some free rtextents.
+free_rtx=$($XFS_IO_PROG -c 'statfs' $SCRATCH_MNT | grep counts.freertx | awk '{print $3}')
+if [ $free_rtx -eq 0 ]; then
+ echo "Expected fragmented free rt space, found none."
+fi
+
+# Try to double the amount of blocks in the victim file. On a buggy kernel,
+# the rt allocator will fail immediately with ENOSPC even though we left enough
+# free space for the write will complete fully.
+echo "Try to write a bunch of stuff to the fragmented rt space"
+$XFS_IO_PROG -c "pwrite -S 0x63 -b $remap_sz $remap_sz $remap_sz" -c stat $SCRATCH_MNT/victim >> $seqres.full
+
+# The victim file should own at least two sections' worth of blocks.
+victim_sectors=$(stat -c '%b' $SCRATCH_MNT/victim)
+victim_space_usage=$((victim_sectors * 512))
+expected_usage=$((remap_sz * 2))
+
+if [ $victim_space_usage -lt $expected_usage ]; then
+ echo "Victim file should be using at least $expected_usage bytes, saw $victim_space_usage."
+fi
+
+status=0
+exit
diff --git a/tests/xfs/775.out b/tests/xfs/775.out
new file mode 100644
index 00000000..f5a72156
--- /dev/null
+++ b/tests/xfs/775.out
@@ -0,0 +1,3 @@
+QA output created by 775
+Format and mount
+Try to write a bunch of stuff to the fragmented rt space
