[PATCH v2] overlay/066: adjust test file size && add more test patterns

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

 



Making many small holes in 10M test file seems not very
helpful for test coverage and it takes too much time on
creating test files. In order to improve test speed we
adjust test file size to (10 * iosize) for iosize aligned
hole files and meanwhile add more test patterns for small
random holes and small empty file.

Signed-off-by: Chengguang Xu <cgxu519@xxxxxxxxxxxx>
---
v1->v2:
- Check result in one diff command.
- Print more information(file layout) to full log when test failed.
- Truncate test file name.

 tests/overlay/066 | 97 +++++++++++++++++++++++++++++++++--------------
 1 file changed, 69 insertions(+), 28 deletions(-)

diff --git a/tests/overlay/066 b/tests/overlay/066
index 285a5aff..c353bdc7 100755
--- a/tests/overlay/066
+++ b/tests/overlay/066
@@ -40,48 +40,85 @@ _require_scratch
 # Remove all files from previous tests
 _scratch_mkfs
 
-# We have totally 14 test files in this test.
+# We have totally 16 test files in this test.
 # The detail as below:
-# 1 empty file(10M) + 2^0(K)..2^11(K) hole size files(each 10M) + 1 random hole size file(100M).
+# 1 small empty file 4K
+# 1 big empty file 4M
+# 1 small random hole file 10M
+# 1 big random hole file 100M
+#
+# 12 files with variant iosize aligned holes.
+# 2^0(K)..2^11(K) hole size files(file size = 10 * iosize)
 #
 # Considering both upper and lower fs will fill zero when copy-up
 # hole area in the file, this test at least requires double disk
 # space of the sum of above test files' size.
 
-_require_fs_space $OVL_BASE_SCRATCH_MNT $(((10*1024*13 + 100*1024*1) * 2))
+_require_fs_space $OVL_BASE_SCRATCH_MNT $((((4) + (4096) + (10 * 1024) \
+		 + (100 * 1024) + (10 * (1 + 2048) * 12 / 2)) * 2))
 
 lowerdir=$OVL_BASE_SCRATCH_MNT/$OVL_LOWER
 upperdir=$OVL_BASE_SCRATCH_MNT/$OVL_UPPER
 testfile="copyup_sparse_test"
 
-# Create a completely empty hole file(10M).
-file_size=10240
-$XFS_IO_PROG -fc "truncate ${file_size}K" "${lowerdir}/${testfile}_empty_holefile" \
+# Create a small completely empty hole file(4K).
+file_size=4
+$XFS_IO_PROG -fc "truncate ${file_size}K" "${lowerdir}/${testfile}_empty_small" \
 		 >>$seqres.full
 
-# Create 2^0(K)..2^11(K) hole size test files(each 10M).
+# Create a big completely empty hole file(4M).
+file_size=4096
+$XFS_IO_PROG -fc "truncate ${file_size}K" "${lowerdir}/${testfile}_empty_big" \
+		 >>$seqres.full
+
+# Create 2^0(K)..2^11(K) hole size test files(file size = 10 * iosize).
 #
 # The pattern is like below, both hole and data are equal to
 # iosize except last hole.
 #
 # |-- hole --|-- data --| ... |-- data --|-- hole --|
 
-iosize=1
+min_iosize=1
 max_iosize=2048
-file_size=10240
-max_pos=`expr $file_size - $max_iosize`
+iosize=$min_iosize
 
 while [ $iosize -le $max_iosize ]; do
+	file_size=$(($iosize * 10))
+	max_pos=$(($file_size - $iosize))
 	pos=$iosize
 	$XFS_IO_PROG -fc "truncate ${file_size}K" \
-		"${lowerdir}/${testfile}_iosize${iosize}K_holefile" >>$seqres.full
+		"${lowerdir}/${testfile}_iosize${iosize}K" >>$seqres.full
+	echo -e "\niosize=${iosize}K hole test write scenarios ---\n" >>$seqres.full
 	while [ $pos -lt $max_pos ]; do
 		$XFS_IO_PROG -fc "pwrite ${pos}K ${iosize}K" \
-		"${lowerdir}/${testfile}_iosize${iosize}K_holefile" >>$seqres.full
-		pos=`expr $pos + $iosize + $iosize`
+		"${lowerdir}/${testfile}_iosize${iosize}K" >>$seqres.full
+		pos=$(($pos + $iosize * 2))
 	done
-	iosize=`expr $iosize + $iosize`
+	iosize=$(($iosize * 2))
 done
+echo >>$seqres.full
+
+# Create test file with many random small holes(hole size is between 4K and 512K),
+# total file size is 10M.
+
+pos=4
+max_pos=9216
+file_size=10240
+min_hole=4
+max_hole=512
+
+$XFS_IO_PROG -fc "truncate ${file_size}K" "${lowerdir}/${testfile}_random_small" \
+		>>$seqres.full
+
+echo -e "\nSmall random hole test write scenarios ---\n" >>$seqres.full
+while [ $pos -le $max_pos ]; do
+	iosize=$(($RANDOM % ($max_hole - $min_hole) + $min_hole))
+	$XFS_IO_PROG -fc "pwrite ${pos}K ${iosize}K" \
+		"${lowerdir}/${testfile}_random_small" >>$seqres.full
+	pos=$(($pos + $iosize * 2))
+done
+echo >>$seqres.full
+
 
 # Create test file with many random holes(hole size is between 1M and 5M),
 # total file size is 100M.
@@ -92,19 +129,22 @@ file_size=102400
 min_hole=1024
 max_hole=5120
 
-$XFS_IO_PROG -fc "truncate ${file_size}K" "${lowerdir}/${testfile}_random_holefile" \
+$XFS_IO_PROG -fc "truncate ${file_size}K" "${lowerdir}/${testfile}_random_big" \
 		>>$seqres.full
 
+echo -e "\nBig random hole test write scenarios ---\n" >>$seqres.full
 while [ $pos -le $max_pos ]; do
 	iosize=$(($RANDOM % ($max_hole - $min_hole) + $min_hole))
 	$XFS_IO_PROG -fc "pwrite ${pos}K ${iosize}K" \
-		"${lowerdir}/${testfile}_random_holefile" >>$seqres.full
-	pos=`expr $pos + $iosize + $iosize`
+		"${lowerdir}/${testfile}_random_big" >>$seqres.full
+	pos=$(($pos + $iosize * 2))
 done
+echo >>$seqres.full
 
 _scratch_mount
 
 # Open the test files, no errors are expected.
+echo -e "\nDoing copy-up...\n" >>$seqres.full
 for f in $SCRATCH_MNT/*; do
 	$XFS_IO_PROG -c "open" $f >>$seqres.full
 done
@@ -112,18 +152,19 @@ done
 echo "Silence is golden"
 
 # Check all copy-up files in upper layer.
-iosize=1
-while [ $iosize -le 2048 ]; do
-	diff "${lowerdir}/${testfile}_iosize${iosize}K_holefile" \
-		"${upperdir}/${testfile}_iosize${iosize}K_holefile" >>$seqres.full ||\
-		echo "${upperdir}/${testfile}_iosize${iosize}K_holefile" copy up failed!
-	iosize=`expr $iosize + $iosize`
-done
 
-diff "${lowerdir}/${testfile}_empty_holefile"  "${upperdir}/${testfile}_empty_holefile"  \
-	>>$seqres.full || echo "${upperdir}/${testfile}_empty_holefile" copy up failed!
-diff "${lowerdir}/${testfile}_random_holefile" "${upperdir}/${testfile}_random_holefile" \
-	>>$seqres.full || echo "${upperdir}/${testfile}_random_holefile" copy up failed!
+diff -qr ${upperdir} ${lowerdir} >>$seqres.full
+if [ $? -ne 0 ]; then
+	echo "Copy-up failed!!!"
+
+	echo "\n----------------------------------------" >>$seqres.full
+	echo -e "The layout of files in lowerdir\n" >>$seqres.full
+	$FILEFRAG_PROG -k -e $lowerdir/* >>$seqres.full
+	echo "\n----------------------------------------" >>$seqres.full
+	echo -e "The layer of files in upperdir\n" >>$seqres.full
+	$FILEFRAG_PROG -k -e $upperdir/* >>$seqres.full
+
+fi
 
 # success, all done
 status=0
-- 
2.20.1







[Index of Archives]     [Linux Filesystems Devel]     [Linux NFS]     [Linux NILFS]     [Linux USB Devel]     [Linux Audio Users]     [Yosemite News]     [Linux Kernel]     [Linux SCSI]

  Powered by Linux