tests/xfs/008 - pub/scm/fs/xfs/xfstests-dev - Git at Google

 #! /bin/bash
 # SPDX-License-Identifier: GPL-2.0
 # Copyright (c) 2000-2002 Silicon Graphics, Inc.  All Rights Reserved.
 #
 # FS QA Test No. 008
 #
 # randholes test
 #
 seq=`basename $0`
 seqres=$RESULT_DIR/$seq
 echo "QA output created by $seq"

 here=`pwd`
 tmp=/tmp/$$
 status=0	# success is the default!
 pgsize=`$here/src/feature -s`
 trap "_cleanup; exit \$status" 0 1 2 3 15

 _cleanup()
 {
     rm -f $tmp.*
     rm -rf $TEST_DIR/randholes.$$.*
 }

 _filter()
 {
     sed -e "s/-b $pgsize/-b PGSIZE/g" \
 	-e "s/-l .* -c/-l FSIZE -c/g"
 }

 # get standard environment, filters and checks
 . ./common/rc
 . ./common/filter

 _do_test()
 {
     _n="$1"
     _holes="$2"
     _param="$3"

     out=$TEST_DIR/randholes.$$.$_n
     echo ""
     echo "randholes.$_n : $_param" | _filter
     echo "------------------------------------------"
     if $here/src/randholes $_param $out >$tmp.out
     then
 	# only check if we're not allocating in huge chunks (extsz flag)
 	if _test_inode_flag extsize $out || _test_inode_flag realtime $out
 	then
 		echo "holes is in range"
 	else
 		# quick check - how many holes did we get?
 	        count=`xfs_bmap $out | egrep -c ': hole'`
 		# blocks can end up adjacent, therefore number of holes varies
 		_within_tolerance "holes" $count $_holes 10% -v
 	fi
     else
         echo "    randholes returned $? - see $seq.out.full"
         echo "--------------------------------------"       >>$seqres.full
         echo "$_n - output from randholes:"                 >>$seqres.full
         echo "--------------------------------------"       >>$seqres.full
         cat $tmp.out                                        >>$seqres.full
         echo "--------------------------------------"       >>$seqres.full
         echo "$_n - output from bmap:"                      >>$seqres.full
         echo "--------------------------------------"       >>$seqres.full
         xfs_bmap -vvv $out                                  >>$seqres.full
         status=1
     fi
 }

 # real QA test starts here
 _supported_fs xfs
 _require_test

 rm -f $seqres.full

 # Note on special numbers here.
 #
 # We are trying to create roughly 50 or 100 holes in a file
 # using random writes. Assuming a good distribution of 50 writes
 # in a file, the file only needs to be 3-4x the size of the write
 # size muliplied by the number of writes. Hence we use 200 * pgsize
 # for files we want 50 holes in and 400 * pgsize for files we want
 # 100 holes in. This keeps the runtime down as low as possible.
 #
 _do_test 1 50 "-l `expr 200 \* $pgsize` -c 50 -b $pgsize"
 _do_test 2 100 "-l `expr 400 \* $pgsize` -c 100 -b $pgsize"
 _do_test 3 100 "-l `expr 400 \* $pgsize` -c 100 -b 512"   # test partial pages

 # rinse, lather, repeat for direct IO
 _do_test 4 50 "-d -l `expr 200 \* $pgsize` -c 50 -b $pgsize"
 _do_test 5 100 "-d -l `expr 400 \* $pgsize` -c 100 -b $pgsize"
 # note: direct IO requires page aligned IO

 # todo: realtime.

 # success, all done
 exit
	#! /bin/bash
	# SPDX-License-Identifier: GPL-2.0
	# Copyright (c) 2000-2002 Silicon Graphics, Inc. All Rights Reserved.
	#
	# FS QA Test No. 008
	#
	# randholes test
	#
	seq=`basename $0`
	seqres=$RESULT_DIR/$seq
	echo "QA output created by $seq"

	here=`pwd`
	tmp=/tmp/$$
	status=0 # success is the default!
	pgsize=`$here/src/feature -s`
	trap "_cleanup; exit \$status" 0 1 2 3 15

	_cleanup()
	{
	rm -f $tmp.*
	rm -rf $TEST_DIR/randholes.$$.*
	}

	_filter()
	{
	sed -e "s/-b $pgsize/-b PGSIZE/g" \
	-e "s/-l .* -c/-l FSIZE -c/g"
	}

	# get standard environment, filters and checks
	. ./common/rc
	. ./common/filter

	_do_test()
	{
	_n="$1"
	_holes="$2"
	_param="$3"

	out=$TEST_DIR/randholes.$$.$_n
	echo ""
	echo "randholes.$_n : $_param" \| _filter
	echo "------------------------------------------"
	if $here/src/randholes $_param $out >$tmp.out
	then
	# only check if we're not allocating in huge chunks (extsz flag)
	if _test_inode_flag extsize $out \|\| _test_inode_flag realtime $out
	then
	echo "holes is in range"
	else
	# quick check - how many holes did we get?
	count=`xfs_bmap $out \| egrep -c ': hole'`
	# blocks can end up adjacent, therefore number of holes varies
	_within_tolerance "holes" $count $_holes 10% -v
	fi
	else
	echo " randholes returned $? - see $seq.out.full"
	echo "--------------------------------------" >>$seqres.full
	echo "$_n - output from randholes:" >>$seqres.full
	echo "--------------------------------------" >>$seqres.full
	cat $tmp.out >>$seqres.full
	echo "--------------------------------------" >>$seqres.full
	echo "$_n - output from bmap:" >>$seqres.full
	echo "--------------------------------------" >>$seqres.full
	xfs_bmap -vvv $out >>$seqres.full
	status=1
	fi
	}

	# real QA test starts here
	_supported_fs xfs
	_require_test

	rm -f $seqres.full

	# Note on special numbers here.
	#
	# We are trying to create roughly 50 or 100 holes in a file
	# using random writes. Assuming a good distribution of 50 writes
	# in a file, the file only needs to be 3-4x the size of the write
	# size muliplied by the number of writes. Hence we use 200 * pgsize
	# for files we want 50 holes in and 400 * pgsize for files we want
	# 100 holes in. This keeps the runtime down as low as possible.
	#
	_do_test 1 50 "-l `expr 200 \* $pgsize` -c 50 -b $pgsize"
	_do_test 2 100 "-l `expr 400 \* $pgsize` -c 100 -b $pgsize"
	_do_test 3 100 "-l `expr 400 \* $pgsize` -c 100 -b 512" # test partial pages

	# rinse, lather, repeat for direct IO
	_do_test 4 50 "-d -l `expr 200 \* $pgsize` -c 50 -b $pgsize"
	_do_test 5 100 "-d -l `expr 400 \* $pgsize` -c 100 -b $pgsize"
	# note: direct IO requires page aligned IO

	# todo: realtime.

	# success, all done
	exit