xref: /titanic_50/usr/src/test/zfs-tests/include/libtest.shlib (revision 4eab410fb63816fe2c0ad0fd18b4c948613f6616)
1#
2# CDDL HEADER START
3#
4# The contents of this file are subject to the terms of the
5# Common Development and Distribution License (the "License").
6# You may not use this file except in compliance with the License.
7#
8# You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9# or http://www.opensolaris.org/os/licensing.
10# See the License for the specific language governing permissions
11# and limitations under the License.
12#
13# When distributing Covered Code, include this CDDL HEADER in each
14# file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15# If applicable, add the following below this CDDL HEADER, with the
16# fields enclosed by brackets "[]" replaced with your own identifying
17# information: Portions Copyright [yyyy] [name of copyright owner]
18#
19# CDDL HEADER END
20#
21
22#
23# Copyright 2009 Sun Microsystems, Inc.  All rights reserved.
24# Use is subject to license terms.
25#
26
27#
28# Copyright (c) 2012, 2015 by Delphix. All rights reserved.
29#
30
31. ${STF_TOOLS}/contrib/include/logapi.shlib
32
33ZFS=${ZFS:-/usr/sbin/zfs}
34ZPOOL=${ZPOOL:-/usr/sbin/zpool}
35
36# Determine whether a dataset is mounted
37#
38# $1 dataset name
39# $2 filesystem type; optional - defaulted to zfs
40#
41# Return 0 if dataset is mounted; 1 if unmounted; 2 on error
42
43function ismounted
44{
45	typeset fstype=$2
46	[[ -z $fstype ]] && fstype=zfs
47	typeset out dir name ret
48
49	case $fstype in
50		zfs)
51			if [[ "$1" == "/"* ]] ; then
52				for out in $($ZFS mount | $AWK '{print $2}'); do
53					[[ $1 == $out ]] && return 0
54				done
55			else
56				for out in $($ZFS mount | $AWK '{print $1}'); do
57					[[ $1 == $out ]] && return 0
58				done
59			fi
60		;;
61		ufs|nfs)
62			out=$($DF -F $fstype $1 2>/dev/null)
63			ret=$?
64			(($ret != 0)) && return $ret
65
66			dir=${out%%\(*}
67			dir=${dir%% *}
68			name=${out##*\(}
69			name=${name%%\)*}
70			name=${name%% *}
71
72			[[ "$1" == "$dir" || "$1" == "$name" ]] && return 0
73		;;
74	esac
75
76	return 1
77}
78
79# Return 0 if a dataset is mounted; 1 otherwise
80#
81# $1 dataset name
82# $2 filesystem type; optional - defaulted to zfs
83
84function mounted
85{
86	ismounted $1 $2
87	(($? == 0)) && return 0
88	return 1
89}
90
91# Return 0 if a dataset is unmounted; 1 otherwise
92#
93# $1 dataset name
94# $2 filesystem type; optional - defaulted to zfs
95
96function unmounted
97{
98	ismounted $1 $2
99	(($? == 1)) && return 0
100	return 1
101}
102
103# split line on ","
104#
105# $1 - line to split
106
107function splitline
108{
109	$ECHO $1 | $SED "s/,/ /g"
110}
111
112function default_setup
113{
114	default_setup_noexit "$@"
115
116	log_pass
117}
118
119#
120# Given a list of disks, setup storage pools and datasets.
121#
122function default_setup_noexit
123{
124	typeset disklist=$1
125	typeset container=$2
126	typeset volume=$3
127
128	if is_global_zone; then
129		if poolexists $TESTPOOL ; then
130			destroy_pool $TESTPOOL
131		fi
132		[[ -d /$TESTPOOL ]] && $RM -rf /$TESTPOOL
133		log_must $ZPOOL create -f $TESTPOOL $disklist
134	else
135		reexport_pool
136	fi
137
138	$RM -rf $TESTDIR  || log_unresolved Could not remove $TESTDIR
139	$MKDIR -p $TESTDIR || log_unresolved Could not create $TESTDIR
140
141	log_must $ZFS create $TESTPOOL/$TESTFS
142	log_must $ZFS set mountpoint=$TESTDIR $TESTPOOL/$TESTFS
143
144	if [[ -n $container ]]; then
145		$RM -rf $TESTDIR1  || \
146			log_unresolved Could not remove $TESTDIR1
147		$MKDIR -p $TESTDIR1 || \
148			log_unresolved Could not create $TESTDIR1
149
150		log_must $ZFS create $TESTPOOL/$TESTCTR
151		log_must $ZFS set canmount=off $TESTPOOL/$TESTCTR
152		log_must $ZFS create $TESTPOOL/$TESTCTR/$TESTFS1
153		log_must $ZFS set mountpoint=$TESTDIR1 \
154		    $TESTPOOL/$TESTCTR/$TESTFS1
155	fi
156
157	if [[ -n $volume ]]; then
158		if is_global_zone ; then
159			log_must $ZFS create -V $VOLSIZE $TESTPOOL/$TESTVOL
160		else
161			log_must $ZFS create $TESTPOOL/$TESTVOL
162		fi
163	fi
164}
165
166#
167# Given a list of disks, setup a storage pool, file system and
168# a container.
169#
170function default_container_setup
171{
172	typeset disklist=$1
173
174	default_setup "$disklist" "true"
175}
176
177#
178# Given a list of disks, setup a storage pool,file system
179# and a volume.
180#
181function default_volume_setup
182{
183	typeset disklist=$1
184
185	default_setup "$disklist" "" "true"
186}
187
188#
189# Given a list of disks, setup a storage pool,file system,
190# a container and a volume.
191#
192function default_container_volume_setup
193{
194	typeset disklist=$1
195
196	default_setup "$disklist" "true" "true"
197}
198
199#
200# Create a snapshot on a filesystem or volume. Defaultly create a snapshot on
201# filesystem
202#
203# $1 Existing filesystem or volume name. Default, $TESTFS
204# $2 snapshot name. Default, $TESTSNAP
205#
206function create_snapshot
207{
208	typeset fs_vol=${1:-$TESTFS}
209	typeset snap=${2:-$TESTSNAP}
210
211	[[ -z $fs_vol ]] && log_fail "Filesystem or volume's name is undefined."
212	[[ -z $snap ]] && log_fail "Snapshot's name is undefined."
213
214	if snapexists $fs_vol@$snap; then
215		log_fail "$fs_vol@$snap already exists."
216	fi
217	datasetexists $fs_vol || \
218		log_fail "$fs_vol must exist."
219
220	log_must $ZFS snapshot $fs_vol@$snap
221}
222
223#
224# Create a clone from a snapshot, default clone name is $TESTCLONE.
225#
226# $1 Existing snapshot, $TESTPOOL/$TESTFS@$TESTSNAP is default.
227# $2 Clone name, $TESTPOOL/$TESTCLONE is default.
228#
229function create_clone   # snapshot clone
230{
231	typeset snap=${1:-$TESTPOOL/$TESTFS@$TESTSNAP}
232	typeset clone=${2:-$TESTPOOL/$TESTCLONE}
233
234	[[ -z $snap ]] && \
235		log_fail "Snapshot name is undefined."
236	[[ -z $clone ]] && \
237		log_fail "Clone name is undefined."
238
239	log_must $ZFS clone $snap $clone
240}
241
242function default_mirror_setup
243{
244	default_mirror_setup_noexit $1 $2 $3
245
246	log_pass
247}
248
249#
250# Given a pair of disks, set up a storage pool and dataset for the mirror
251# @parameters: $1 the primary side of the mirror
252#   $2 the secondary side of the mirror
253# @uses: ZPOOL ZFS TESTPOOL TESTFS
254function default_mirror_setup_noexit
255{
256	readonly func="default_mirror_setup_noexit"
257	typeset primary=$1
258	typeset secondary=$2
259
260	[[ -z $primary ]] && \
261		log_fail "$func: No parameters passed"
262	[[ -z $secondary ]] && \
263		log_fail "$func: No secondary partition passed"
264	[[ -d /$TESTPOOL ]] && $RM -rf /$TESTPOOL
265	log_must $ZPOOL create -f $TESTPOOL mirror $@
266	log_must $ZFS create $TESTPOOL/$TESTFS
267	log_must $ZFS set mountpoint=$TESTDIR $TESTPOOL/$TESTFS
268}
269
270#
271# create a number of mirrors.
272# We create a number($1) of 2 way mirrors using the pairs of disks named
273# on the command line. These mirrors are *not* mounted
274# @parameters: $1 the number of mirrors to create
275#  $... the devices to use to create the mirrors on
276# @uses: ZPOOL ZFS TESTPOOL
277function setup_mirrors
278{
279	typeset -i nmirrors=$1
280
281	shift
282	while ((nmirrors > 0)); do
283		log_must test -n "$1" -a -n "$2"
284		[[ -d /$TESTPOOL$nmirrors ]] && $RM -rf /$TESTPOOL$nmirrors
285		log_must $ZPOOL create -f $TESTPOOL$nmirrors mirror $1 $2
286		shift 2
287		((nmirrors = nmirrors - 1))
288	done
289}
290
291#
292# create a number of raidz pools.
293# We create a number($1) of 2 raidz pools  using the pairs of disks named
294# on the command line. These pools are *not* mounted
295# @parameters: $1 the number of pools to create
296#  $... the devices to use to create the pools on
297# @uses: ZPOOL ZFS TESTPOOL
298function setup_raidzs
299{
300	typeset -i nraidzs=$1
301
302	shift
303	while ((nraidzs > 0)); do
304		log_must test -n "$1" -a -n "$2"
305		[[ -d /$TESTPOOL$nraidzs ]] && $RM -rf /$TESTPOOL$nraidzs
306		log_must $ZPOOL create -f $TESTPOOL$nraidzs raidz $1 $2
307		shift 2
308		((nraidzs = nraidzs - 1))
309	done
310}
311
312#
313# Destroy the configured testpool mirrors.
314# the mirrors are of the form ${TESTPOOL}{number}
315# @uses: ZPOOL ZFS TESTPOOL
316function destroy_mirrors
317{
318	default_cleanup_noexit
319
320	log_pass
321}
322
323#
324# Given a minimum of two disks, set up a storage pool and dataset for the raid-z
325# $1 the list of disks
326#
327function default_raidz_setup
328{
329	typeset disklist="$*"
330	disks=(${disklist[*]})
331
332	if [[ ${#disks[*]} -lt 2 ]]; then
333		log_fail "A raid-z requires a minimum of two disks."
334	fi
335
336	[[ -d /$TESTPOOL ]] && $RM -rf /$TESTPOOL
337	log_must $ZPOOL create -f $TESTPOOL raidz $1 $2 $3
338	log_must $ZFS create $TESTPOOL/$TESTFS
339	log_must $ZFS set mountpoint=$TESTDIR $TESTPOOL/$TESTFS
340
341	log_pass
342}
343
344#
345# Common function used to cleanup storage pools and datasets.
346#
347# Invoked at the start of the test suite to ensure the system
348# is in a known state, and also at the end of each set of
349# sub-tests to ensure errors from one set of tests doesn't
350# impact the execution of the next set.
351
352function default_cleanup
353{
354	default_cleanup_noexit
355
356	log_pass
357}
358
359function default_cleanup_noexit
360{
361	typeset exclude=""
362	typeset pool=""
363	#
364	# Destroying the pool will also destroy any
365	# filesystems it contains.
366	#
367	if is_global_zone; then
368		$ZFS unmount -a > /dev/null 2>&1
369		exclude=`eval $ECHO \"'(${KEEP})'\"`
370		ALL_POOLS=$($ZPOOL list -H -o name \
371		    | $GREP -v "$NO_POOLS" | $EGREP -v "$exclude")
372		# Here, we loop through the pools we're allowed to
373		# destroy, only destroying them if it's safe to do
374		# so.
375		while [ ! -z ${ALL_POOLS} ]
376		do
377			for pool in ${ALL_POOLS}
378			do
379				if safe_to_destroy_pool $pool ;
380				then
381					destroy_pool $pool
382				fi
383				ALL_POOLS=$($ZPOOL list -H -o name \
384				    | $GREP -v "$NO_POOLS" \
385				    | $EGREP -v "$exclude")
386			done
387		done
388
389		$ZFS mount -a
390	else
391		typeset fs=""
392		for fs in $($ZFS list -H -o name \
393		    | $GREP "^$ZONE_POOL/$ZONE_CTR[01234]/"); do
394			datasetexists $fs && \
395				log_must $ZFS destroy -Rf $fs
396		done
397
398		# Need cleanup here to avoid garbage dir left.
399		for fs in $($ZFS list -H -o name); do
400			[[ $fs == /$ZONE_POOL ]] && continue
401			[[ -d $fs ]] && log_must $RM -rf $fs/*
402		done
403
404		#
405		# Reset the $ZONE_POOL/$ZONE_CTR[01234] file systems property to
406		# the default value
407		#
408		for fs in $($ZFS list -H -o name); do
409			if [[ $fs == $ZONE_POOL/$ZONE_CTR[01234] ]]; then
410				log_must $ZFS set reservation=none $fs
411				log_must $ZFS set recordsize=128K $fs
412				log_must $ZFS set mountpoint=/$fs $fs
413				typeset enc=""
414				enc=$(get_prop encryption $fs)
415				if [[ $? -ne 0 ]] || [[ -z "$enc" ]] || \
416					[[ "$enc" == "off" ]]; then
417					log_must $ZFS set checksum=on $fs
418				fi
419				log_must $ZFS set compression=off $fs
420				log_must $ZFS set atime=on $fs
421				log_must $ZFS set devices=off $fs
422				log_must $ZFS set exec=on $fs
423				log_must $ZFS set setuid=on $fs
424				log_must $ZFS set readonly=off $fs
425				log_must $ZFS set snapdir=hidden $fs
426				log_must $ZFS set aclmode=groupmask $fs
427				log_must $ZFS set aclinherit=secure $fs
428			fi
429		done
430	fi
431
432	[[ -d $TESTDIR ]] && \
433		log_must $RM -rf $TESTDIR
434}
435
436
437#
438# Common function used to cleanup storage pools, file systems
439# and containers.
440#
441function default_container_cleanup
442{
443	if ! is_global_zone; then
444		reexport_pool
445	fi
446
447	ismounted $TESTPOOL/$TESTCTR/$TESTFS1
448	[[ $? -eq 0 ]] && \
449	    log_must $ZFS unmount $TESTPOOL/$TESTCTR/$TESTFS1
450
451	datasetexists $TESTPOOL/$TESTCTR/$TESTFS1 && \
452	    log_must $ZFS destroy -R $TESTPOOL/$TESTCTR/$TESTFS1
453
454	datasetexists $TESTPOOL/$TESTCTR && \
455	    log_must $ZFS destroy -Rf $TESTPOOL/$TESTCTR
456
457	[[ -e $TESTDIR1 ]] && \
458	    log_must $RM -rf $TESTDIR1 > /dev/null 2>&1
459
460	default_cleanup
461}
462
463#
464# Common function used to cleanup snapshot of file system or volume. Default to
465# delete the file system's snapshot
466#
467# $1 snapshot name
468#
469function destroy_snapshot
470{
471	typeset snap=${1:-$TESTPOOL/$TESTFS@$TESTSNAP}
472
473	if ! snapexists $snap; then
474		log_fail "'$snap' does not existed."
475	fi
476
477	#
478	# For the sake of the value which come from 'get_prop' is not equal
479	# to the really mountpoint when the snapshot is unmounted. So, firstly
480	# check and make sure this snapshot's been mounted in current system.
481	#
482	typeset mtpt=""
483	if ismounted $snap; then
484		mtpt=$(get_prop mountpoint $snap)
485		(($? != 0)) && \
486			log_fail "get_prop mountpoint $snap failed."
487	fi
488
489	log_must $ZFS destroy $snap
490	[[ $mtpt != "" && -d $mtpt ]] && \
491		log_must $RM -rf $mtpt
492}
493
494#
495# Common function used to cleanup clone.
496#
497# $1 clone name
498#
499function destroy_clone
500{
501	typeset clone=${1:-$TESTPOOL/$TESTCLONE}
502
503	if ! datasetexists $clone; then
504		log_fail "'$clone' does not existed."
505	fi
506
507	# With the same reason in destroy_snapshot
508	typeset mtpt=""
509	if ismounted $clone; then
510		mtpt=$(get_prop mountpoint $clone)
511		(($? != 0)) && \
512			log_fail "get_prop mountpoint $clone failed."
513	fi
514
515	log_must $ZFS destroy $clone
516	[[ $mtpt != "" && -d $mtpt ]] && \
517		log_must $RM -rf $mtpt
518}
519
520# Return 0 if a snapshot exists; $? otherwise
521#
522# $1 - snapshot name
523
524function snapexists
525{
526	$ZFS list -H -t snapshot "$1" > /dev/null 2>&1
527	return $?
528}
529
530#
531# Set a property to a certain value on a dataset.
532# Sets a property of the dataset to the value as passed in.
533# @param:
534#	$1 dataset who's property is being set
535#	$2 property to set
536#	$3 value to set property to
537# @return:
538#	0 if the property could be set.
539#	non-zero otherwise.
540# @use: ZFS
541#
542function dataset_setprop
543{
544	typeset fn=dataset_setprop
545
546	if (($# < 3)); then
547		log_note "$fn: Insufficient parameters (need 3, had $#)"
548		return 1
549	fi
550	typeset output=
551	output=$($ZFS set $2=$3 $1 2>&1)
552	typeset rv=$?
553	if ((rv != 0)); then
554		log_note "Setting property on $1 failed."
555		log_note "property $2=$3"
556		log_note "Return Code: $rv"
557		log_note "Output: $output"
558		return $rv
559	fi
560	return 0
561}
562
563#
564# Assign suite defined dataset properties.
565# This function is used to apply the suite's defined default set of
566# properties to a dataset.
567# @parameters: $1 dataset to use
568# @uses: ZFS COMPRESSION_PROP CHECKSUM_PROP
569# @returns:
570#   0 if the dataset has been altered.
571#   1 if no pool name was passed in.
572#   2 if the dataset could not be found.
573#   3 if the dataset could not have it's properties set.
574#
575function dataset_set_defaultproperties
576{
577	typeset dataset="$1"
578
579	[[ -z $dataset ]] && return 1
580
581	typeset confset=
582	typeset -i found=0
583	for confset in $($ZFS list); do
584		if [[ $dataset = $confset ]]; then
585			found=1
586			break
587		fi
588	done
589	[[ $found -eq 0 ]] && return 2
590	if [[ -n $COMPRESSION_PROP ]]; then
591		dataset_setprop $dataset compression $COMPRESSION_PROP || \
592			return 3
593		log_note "Compression set to '$COMPRESSION_PROP' on $dataset"
594	fi
595	if [[ -n $CHECKSUM_PROP ]]; then
596		dataset_setprop $dataset checksum $CHECKSUM_PROP || \
597			return 3
598		log_note "Checksum set to '$CHECKSUM_PROP' on $dataset"
599	fi
600	return 0
601}
602
603#
604# Check a numeric assertion
605# @parameter: $@ the assertion to check
606# @output: big loud notice if assertion failed
607# @use: log_fail
608#
609function assert
610{
611	(($@)) || log_fail "$@"
612}
613
614#
615# Function to format partition size of a disk
616# Given a disk cxtxdx reduces all partitions
617# to 0 size
618#
619function zero_partitions #<whole_disk_name>
620{
621	typeset diskname=$1
622	typeset i
623
624	for i in 0 1 3 4 5 6 7
625	do
626		set_partition $i "" 0mb $diskname
627	done
628}
629
630#
631# Given a slice, size and disk, this function
632# formats the slice to the specified size.
633# Size should be specified with units as per
634# the `format` command requirements eg. 100mb 3gb
635#
636function set_partition #<slice_num> <slice_start> <size_plus_units>  <whole_disk_name>
637{
638	typeset -i slicenum=$1
639	typeset start=$2
640	typeset size=$3
641	typeset disk=$4
642	[[ -z $slicenum || -z $size || -z $disk ]] && \
643	    log_fail "The slice, size or disk name is unspecified."
644	typeset format_file=/var/tmp/format_in.$$
645
646	$ECHO "partition" >$format_file
647	$ECHO "$slicenum" >> $format_file
648	$ECHO "" >> $format_file
649	$ECHO "" >> $format_file
650	$ECHO "$start" >> $format_file
651	$ECHO "$size" >> $format_file
652	$ECHO "label" >> $format_file
653	$ECHO "" >> $format_file
654	$ECHO "q" >> $format_file
655	$ECHO "q" >> $format_file
656
657	$FORMAT -e -s -d $disk -f $format_file
658	typeset ret_val=$?
659	$RM -f $format_file
660	[[ $ret_val -ne 0 ]] && \
661	    log_fail "Unable to format $disk slice $slicenum to $size"
662	return 0
663}
664
665#
666# Get the end cyl of the given slice
667#
668function get_endslice #<disk> <slice>
669{
670	typeset disk=$1
671	typeset slice=$2
672	if [[ -z $disk || -z $slice ]] ; then
673		log_fail "The disk name or slice number is unspecified."
674	fi
675
676	disk=${disk#/dev/dsk/}
677	disk=${disk#/dev/rdsk/}
678	disk=${disk%s*}
679
680	typeset -i ratio=0
681	ratio=$($PRTVTOC /dev/rdsk/${disk}s2 | \
682		$GREP "sectors\/cylinder" | \
683		$AWK '{print $2}')
684
685	if ((ratio == 0)); then
686		return
687	fi
688
689	typeset -i endcyl=$($PRTVTOC -h /dev/rdsk/${disk}s2 |
690		$NAWK -v token="$slice" '{if ($1==token) print $6}')
691
692	((endcyl = (endcyl + 1) / ratio))
693	echo $endcyl
694}
695
696
697#
698# Given a size,disk and total slice number,  this function formats the
699# disk slices from 0 to the total slice number with the same specified
700# size.
701#
702function partition_disk	#<slice_size> <whole_disk_name>	<total_slices>
703{
704	typeset -i i=0
705	typeset slice_size=$1
706	typeset disk_name=$2
707	typeset total_slices=$3
708	typeset cyl
709
710	zero_partitions $disk_name
711	while ((i < $total_slices)); do
712		if ((i == 2)); then
713			((i = i + 1))
714			continue
715		fi
716		set_partition $i "$cyl" $slice_size $disk_name
717		cyl=$(get_endslice $disk_name $i)
718		((i = i+1))
719	done
720}
721
722#
723# This function continues to write to a filenum number of files into dirnum
724# number of directories until either $FILE_WRITE returns an error or the
725# maximum number of files per directory have been written.
726#
727# Usage:
728# fill_fs [destdir] [dirnum] [filenum] [bytes] [num_writes] [data]
729#
730# Return value: 0 on success
731#		non 0 on error
732#
733# Where :
734#	destdir:    is the directory where everything is to be created under
735#	dirnum:	    the maximum number of subdirectories to use, -1 no limit
736#	filenum:    the maximum number of files per subdirectory
737#	bytes:	    number of bytes to write
738#	num_writes: numer of types to write out bytes
739#	data:	    the data that will be writen
740#
741#	E.g.
742#	file_fs /testdir 20 25 1024 256 0
743#
744# Note: bytes * num_writes equals the size of the testfile
745#
746function fill_fs # destdir dirnum filenum bytes num_writes data
747{
748	typeset destdir=${1:-$TESTDIR}
749	typeset -i dirnum=${2:-50}
750	typeset -i filenum=${3:-50}
751	typeset -i bytes=${4:-8192}
752	typeset -i num_writes=${5:-10240}
753	typeset -i data=${6:-0}
754
755	typeset -i odirnum=1
756	typeset -i idirnum=0
757	typeset -i fn=0
758	typeset -i retval=0
759
760	log_must $MKDIR -p $destdir/$idirnum
761	while (($odirnum > 0)); do
762		if ((dirnum >= 0 && idirnum >= dirnum)); then
763			odirnum=0
764			break
765		fi
766		$FILE_WRITE -o create -f $destdir/$idirnum/$TESTFILE.$fn \
767		    -b $bytes -c $num_writes -d $data
768		retval=$?
769		if (($retval != 0)); then
770			odirnum=0
771			break
772		fi
773		if (($fn >= $filenum)); then
774			fn=0
775			((idirnum = idirnum + 1))
776			log_must $MKDIR -p $destdir/$idirnum
777		else
778			((fn = fn + 1))
779		fi
780	done
781	return $retval
782}
783
784#
785# Simple function to get the specified property. If unable to
786# get the property then exits.
787#
788# Note property is in 'parsable' format (-p)
789#
790function get_prop # property dataset
791{
792	typeset prop_val
793	typeset prop=$1
794	typeset dataset=$2
795
796	prop_val=$($ZFS get -pH -o value $prop $dataset 2>/dev/null)
797	if [[ $? -ne 0 ]]; then
798		log_note "Unable to get $prop property for dataset " \
799		"$dataset"
800		return 1
801	fi
802
803	$ECHO $prop_val
804	return 0
805}
806
807#
808# Simple function to get the specified property of pool. If unable to
809# get the property then exits.
810#
811function get_pool_prop # property pool
812{
813	typeset prop_val
814	typeset prop=$1
815	typeset pool=$2
816
817	if poolexists $pool ; then
818		prop_val=$($ZPOOL get $prop $pool 2>/dev/null | $TAIL -1 | \
819			$AWK '{print $3}')
820		if [[ $? -ne 0 ]]; then
821			log_note "Unable to get $prop property for pool " \
822			"$pool"
823			return 1
824		fi
825	else
826		log_note "Pool $pool not exists."
827		return 1
828	fi
829
830	$ECHO $prop_val
831	return 0
832}
833
834# Return 0 if a pool exists; $? otherwise
835#
836# $1 - pool name
837
838function poolexists
839{
840	typeset pool=$1
841
842	if [[ -z $pool ]]; then
843		log_note "No pool name given."
844		return 1
845	fi
846
847	$ZPOOL get name "$pool" > /dev/null 2>&1
848	return $?
849}
850
851# Return 0 if all the specified datasets exist; $? otherwise
852#
853# $1-n  dataset name
854function datasetexists
855{
856	if (($# == 0)); then
857		log_note "No dataset name given."
858		return 1
859	fi
860
861	while (($# > 0)); do
862		$ZFS get name $1 > /dev/null 2>&1 || \
863			return $?
864		shift
865	done
866
867	return 0
868}
869
870# return 0 if none of the specified datasets exists, otherwise return 1.
871#
872# $1-n  dataset name
873function datasetnonexists
874{
875	if (($# == 0)); then
876		log_note "No dataset name given."
877		return 1
878	fi
879
880	while (($# > 0)); do
881		$ZFS list -H -t filesystem,snapshot,volume $1 > /dev/null 2>&1 \
882		    && return 1
883		shift
884	done
885
886	return 0
887}
888
889#
890# Given a mountpoint, or a dataset name, determine if it is shared.
891#
892# Returns 0 if shared, 1 otherwise.
893#
894function is_shared
895{
896	typeset fs=$1
897	typeset mtpt
898
899	if [[ $fs != "/"* ]] ; then
900		if datasetnonexists "$fs" ; then
901			return 1
902		else
903			mtpt=$(get_prop mountpoint "$fs")
904			case $mtpt in
905				none|legacy|-) return 1
906					;;
907				*)	fs=$mtpt
908					;;
909			esac
910		fi
911	fi
912
913	for mtpt in `$SHARE | $AWK '{print $2}'` ; do
914		if [[ $mtpt == $fs ]] ; then
915			return 0
916		fi
917	done
918
919	typeset stat=$($SVCS -H -o STA nfs/server:default)
920	if [[ $stat != "ON" ]]; then
921		log_note "Current nfs/server status: $stat"
922	fi
923
924	return 1
925}
926
927#
928# Given a mountpoint, determine if it is not shared.
929#
930# Returns 0 if not shared, 1 otherwise.
931#
932function not_shared
933{
934	typeset fs=$1
935
936	is_shared $fs
937	if (($? == 0)); then
938		return 1
939	fi
940
941	return 0
942}
943
944#
945# Helper function to unshare a mountpoint.
946#
947function unshare_fs #fs
948{
949	typeset fs=$1
950
951	is_shared $fs
952	if (($? == 0)); then
953		log_must $ZFS unshare $fs
954	fi
955
956	return 0
957}
958
959#
960# Check NFS server status and trigger it online.
961#
962function setup_nfs_server
963{
964	# Cannot share directory in non-global zone.
965	#
966	if ! is_global_zone; then
967		log_note "Cannot trigger NFS server by sharing in LZ."
968		return
969	fi
970
971	typeset nfs_fmri="svc:/network/nfs/server:default"
972	if [[ $($SVCS -Ho STA $nfs_fmri) != "ON" ]]; then
973		#
974		# Only really sharing operation can enable NFS server
975		# to online permanently.
976		#
977		typeset dummy=/tmp/dummy
978
979		if [[ -d $dummy ]]; then
980			log_must $RM -rf $dummy
981		fi
982
983		log_must $MKDIR $dummy
984		log_must $SHARE $dummy
985
986		#
987		# Waiting for fmri's status to be the final status.
988		# Otherwise, in transition, an asterisk (*) is appended for
989		# instances, unshare will reverse status to 'DIS' again.
990		#
991		# Waiting for 1's at least.
992		#
993		log_must $SLEEP 1
994		timeout=10
995		while [[ timeout -ne 0 && $($SVCS -Ho STA $nfs_fmri) == *'*' ]]
996		do
997			log_must $SLEEP 1
998
999			((timeout -= 1))
1000		done
1001
1002		log_must $UNSHARE $dummy
1003		log_must $RM -rf $dummy
1004	fi
1005
1006	log_note "Current NFS status: '$($SVCS -Ho STA,FMRI $nfs_fmri)'"
1007}
1008
1009#
1010# To verify whether calling process is in global zone
1011#
1012# Return 0 if in global zone, 1 in non-global zone
1013#
1014function is_global_zone
1015{
1016	typeset cur_zone=$($ZONENAME 2>/dev/null)
1017	if [[ $cur_zone != "global" ]]; then
1018		return 1
1019	fi
1020	return 0
1021}
1022
1023#
1024# Verify whether test is permitted to run from
1025# global zone, local zone, or both
1026#
1027# $1 zone limit, could be "global", "local", or "both"(no limit)
1028#
1029# Return 0 if permitted, otherwise exit with log_unsupported
1030#
1031function verify_runnable # zone limit
1032{
1033	typeset limit=$1
1034
1035	[[ -z $limit ]] && return 0
1036
1037	if is_global_zone ; then
1038		case $limit in
1039			global|both)
1040				;;
1041			local)	log_unsupported "Test is unable to run from "\
1042					"global zone."
1043				;;
1044			*)	log_note "Warning: unknown limit $limit - " \
1045					"use both."
1046				;;
1047		esac
1048	else
1049		case $limit in
1050			local|both)
1051				;;
1052			global)	log_unsupported "Test is unable to run from "\
1053					"local zone."
1054				;;
1055			*)	log_note "Warning: unknown limit $limit - " \
1056					"use both."
1057				;;
1058		esac
1059
1060		reexport_pool
1061	fi
1062
1063	return 0
1064}
1065
1066# Return 0 if create successfully or the pool exists; $? otherwise
1067# Note: In local zones, this function should return 0 silently.
1068#
1069# $1 - pool name
1070# $2-n - [keyword] devs_list
1071
1072function create_pool #pool devs_list
1073{
1074	typeset pool=${1%%/*}
1075
1076	shift
1077
1078	if [[ -z $pool ]]; then
1079		log_note "Missing pool name."
1080		return 1
1081	fi
1082
1083	if poolexists $pool ; then
1084		destroy_pool $pool
1085	fi
1086
1087	if is_global_zone ; then
1088		[[ -d /$pool ]] && $RM -rf /$pool
1089		log_must $ZPOOL create -f $pool $@
1090	fi
1091
1092	return 0
1093}
1094
1095# Return 0 if destroy successfully or the pool exists; $? otherwise
1096# Note: In local zones, this function should return 0 silently.
1097#
1098# $1 - pool name
1099# Destroy pool with the given parameters.
1100
1101function destroy_pool #pool
1102{
1103	typeset pool=${1%%/*}
1104	typeset mtpt
1105
1106	if [[ -z $pool ]]; then
1107		log_note "No pool name given."
1108		return 1
1109	fi
1110
1111	if is_global_zone ; then
1112		if poolexists "$pool" ; then
1113			mtpt=$(get_prop mountpoint "$pool")
1114
1115			# At times, syseventd activity can cause attempts to
1116			# destroy a pool to fail with EBUSY. We retry a few
1117			# times allowing failures before requiring the destroy
1118			# to succeed.
1119			typeset -i wait_time=10 ret=1 count=0
1120			must=""
1121			while [[ $ret -ne 0 ]]; do
1122				$must $ZPOOL destroy -f $pool
1123				ret=$?
1124				[[ $ret -eq 0 ]] && break
1125				log_note "zpool destroy failed with $ret"
1126				[[ count++ -ge 7 ]] && must=log_must
1127				$SLEEP $wait_time
1128			done
1129
1130			[[ -d $mtpt ]] && \
1131				log_must $RM -rf $mtpt
1132		else
1133			log_note "Pool does not exist. ($pool)"
1134			return 1
1135		fi
1136	fi
1137
1138	return 0
1139}
1140
1141#
1142# Firstly, create a pool with 5 datasets. Then, create a single zone and
1143# export the 5 datasets to it. In addition, we also add a ZFS filesystem
1144# and a zvol device to the zone.
1145#
1146# $1 zone name
1147# $2 zone root directory prefix
1148# $3 zone ip
1149#
1150function zfs_zones_setup #zone_name zone_root zone_ip
1151{
1152	typeset zone_name=${1:-$(hostname)-z}
1153	typeset zone_root=${2:-"/zone_root"}
1154	typeset zone_ip=${3:-"10.1.1.10"}
1155	typeset prefix_ctr=$ZONE_CTR
1156	typeset pool_name=$ZONE_POOL
1157	typeset -i cntctr=5
1158	typeset -i i=0
1159
1160	# Create pool and 5 container within it
1161	#
1162	[[ -d /$pool_name ]] && $RM -rf /$pool_name
1163	log_must $ZPOOL create -f $pool_name $DISKS
1164	while ((i < cntctr)); do
1165		log_must $ZFS create $pool_name/$prefix_ctr$i
1166		((i += 1))
1167	done
1168
1169	# create a zvol
1170	log_must $ZFS create -V 1g $pool_name/zone_zvol
1171
1172	#
1173	# If current system support slog, add slog device for pool
1174	#
1175	if verify_slog_support ; then
1176		typeset sdevs="/var/tmp/sdev1 /var/tmp/sdev2"
1177		log_must $MKFILE 100M $sdevs
1178		log_must $ZPOOL add $pool_name log mirror $sdevs
1179	fi
1180
1181	# this isn't supported just yet.
1182	# Create a filesystem. In order to add this to
1183	# the zone, it must have it's mountpoint set to 'legacy'
1184	# log_must $ZFS create $pool_name/zfs_filesystem
1185	# log_must $ZFS set mountpoint=legacy $pool_name/zfs_filesystem
1186
1187	[[ -d $zone_root ]] && \
1188		log_must $RM -rf $zone_root/$zone_name
1189	[[ ! -d $zone_root ]] && \
1190		log_must $MKDIR -p -m 0700 $zone_root/$zone_name
1191
1192	# Create zone configure file and configure the zone
1193	#
1194	typeset zone_conf=/tmp/zone_conf.$$
1195	$ECHO "create" > $zone_conf
1196	$ECHO "set zonepath=$zone_root/$zone_name" >> $zone_conf
1197	$ECHO "set autoboot=true" >> $zone_conf
1198	i=0
1199	while ((i < cntctr)); do
1200		$ECHO "add dataset" >> $zone_conf
1201		$ECHO "set name=$pool_name/$prefix_ctr$i" >> \
1202			$zone_conf
1203		$ECHO "end" >> $zone_conf
1204		((i += 1))
1205	done
1206
1207	# add our zvol to the zone
1208	$ECHO "add device" >> $zone_conf
1209	$ECHO "set match=/dev/zvol/dsk/$pool_name/zone_zvol" >> $zone_conf
1210	$ECHO "end" >> $zone_conf
1211
1212	# add a corresponding zvol rdsk to the zone
1213	$ECHO "add device" >> $zone_conf
1214	$ECHO "set match=/dev/zvol/rdsk/$pool_name/zone_zvol" >> $zone_conf
1215	$ECHO "end" >> $zone_conf
1216
1217	# once it's supported, we'll add our filesystem to the zone
1218	# $ECHO "add fs" >> $zone_conf
1219	# $ECHO "set type=zfs" >> $zone_conf
1220	# $ECHO "set special=$pool_name/zfs_filesystem" >> $zone_conf
1221	# $ECHO "set dir=/export/zfs_filesystem" >> $zone_conf
1222	# $ECHO "end" >> $zone_conf
1223
1224	$ECHO "verify" >> $zone_conf
1225	$ECHO "commit" >> $zone_conf
1226	log_must $ZONECFG -z $zone_name -f $zone_conf
1227	log_must $RM -f $zone_conf
1228
1229	# Install the zone
1230	$ZONEADM -z $zone_name install
1231	if (($? == 0)); then
1232		log_note "SUCCESS: $ZONEADM -z $zone_name install"
1233	else
1234		log_fail "FAIL: $ZONEADM -z $zone_name install"
1235	fi
1236
1237	# Install sysidcfg file
1238	#
1239	typeset sysidcfg=$zone_root/$zone_name/root/etc/sysidcfg
1240	$ECHO "system_locale=C" > $sysidcfg
1241	$ECHO  "terminal=dtterm" >> $sysidcfg
1242	$ECHO  "network_interface=primary {" >> $sysidcfg
1243	$ECHO  "hostname=$zone_name" >> $sysidcfg
1244	$ECHO  "}" >> $sysidcfg
1245	$ECHO  "name_service=NONE" >> $sysidcfg
1246	$ECHO  "root_password=mo791xfZ/SFiw" >> $sysidcfg
1247	$ECHO  "security_policy=NONE" >> $sysidcfg
1248	$ECHO  "timezone=US/Eastern" >> $sysidcfg
1249
1250	# Boot this zone
1251	log_must $ZONEADM -z $zone_name boot
1252}
1253
1254#
1255# Reexport TESTPOOL & TESTPOOL(1-4)
1256#
1257function reexport_pool
1258{
1259	typeset -i cntctr=5
1260	typeset -i i=0
1261
1262	while ((i < cntctr)); do
1263		if ((i == 0)); then
1264			TESTPOOL=$ZONE_POOL/$ZONE_CTR$i
1265			if ! ismounted $TESTPOOL; then
1266				log_must $ZFS mount $TESTPOOL
1267			fi
1268		else
1269			eval TESTPOOL$i=$ZONE_POOL/$ZONE_CTR$i
1270			if eval ! ismounted \$TESTPOOL$i; then
1271				log_must eval $ZFS mount \$TESTPOOL$i
1272			fi
1273		fi
1274		((i += 1))
1275	done
1276}
1277
1278#
1279# Verify a given disk is online or offline
1280#
1281# Return 0 is pool/disk matches expected state, 1 otherwise
1282#
1283function check_state # pool disk state{online,offline}
1284{
1285	typeset pool=$1
1286	typeset disk=${2#/dev/dsk/}
1287	typeset state=$3
1288
1289	$ZPOOL status -v $pool | grep "$disk"  \
1290	    | grep -i "$state" > /dev/null 2>&1
1291
1292	return $?
1293}
1294
1295#
1296# Get the mountpoint of snapshot
1297# For the snapshot use <mp_filesystem>/.zfs/snapshot/<snap>
1298# as its mountpoint
1299#
1300function snapshot_mountpoint
1301{
1302	typeset dataset=${1:-$TESTPOOL/$TESTFS@$TESTSNAP}
1303
1304	if [[ $dataset != *@* ]]; then
1305		log_fail "Error name of snapshot '$dataset'."
1306	fi
1307
1308	typeset fs=${dataset%@*}
1309	typeset snap=${dataset#*@}
1310
1311	if [[ -z $fs || -z $snap ]]; then
1312		log_fail "Error name of snapshot '$dataset'."
1313	fi
1314
1315	$ECHO $(get_prop mountpoint $fs)/.zfs/snapshot/$snap
1316}
1317
1318#
1319# Given a pool and file system, this function will verify the file system
1320# using the zdb internal tool. Note that the pool is exported and imported
1321# to ensure it has consistent state.
1322#
1323function verify_filesys # pool filesystem dir
1324{
1325	typeset pool="$1"
1326	typeset filesys="$2"
1327	typeset zdbout="/tmp/zdbout.$$"
1328
1329	shift
1330	shift
1331	typeset dirs=$@
1332	typeset search_path=""
1333
1334	log_note "Calling $ZDB to verify filesystem '$filesys'"
1335	$ZFS unmount -a > /dev/null 2>&1
1336	log_must $ZPOOL export $pool
1337
1338	if [[ -n $dirs ]] ; then
1339		for dir in $dirs ; do
1340			search_path="$search_path -d $dir"
1341		done
1342	fi
1343
1344	log_must $ZPOOL import $search_path $pool
1345
1346	$ZDB -cudi $filesys > $zdbout 2>&1
1347	if [[ $? != 0 ]]; then
1348		log_note "Output: $ZDB -cudi $filesys"
1349		$CAT $zdbout
1350		log_fail "$ZDB detected errors with: '$filesys'"
1351	fi
1352
1353	log_must $ZFS mount -a
1354	log_must $RM -rf $zdbout
1355}
1356
1357#
1358# Given a pool, and this function list all disks in the pool
1359#
1360function get_disklist # pool
1361{
1362	typeset disklist=""
1363
1364	disklist=$($ZPOOL iostat -v $1 | $NAWK '(NR >4) {print $1}' | \
1365	    $GREP -v "\-\-\-\-\-" | \
1366	    $EGREP -v -e "^(mirror|raidz1|raidz2|spare|log|cache)$")
1367
1368	$ECHO $disklist
1369}
1370
1371# /**
1372#  This function kills a given list of processes after a time period. We use
1373#  this in the stress tests instead of STF_TIMEOUT so that we can have processes
1374#  run for a fixed amount of time, yet still pass. Tests that hit STF_TIMEOUT
1375#  would be listed as FAIL, which we don't want : we're happy with stress tests
1376#  running for a certain amount of time, then finishing.
1377#
1378# @param $1 the time in seconds after which we should terminate these processes
1379# @param $2..$n the processes we wish to terminate.
1380# */
1381function stress_timeout
1382{
1383	typeset -i TIMEOUT=$1
1384	shift
1385	typeset cpids="$@"
1386
1387	log_note "Waiting for child processes($cpids). " \
1388		"It could last dozens of minutes, please be patient ..."
1389	log_must $SLEEP $TIMEOUT
1390
1391	log_note "Killing child processes after ${TIMEOUT} stress timeout."
1392	typeset pid
1393	for pid in $cpids; do
1394		$PS -p $pid > /dev/null 2>&1
1395		if (($? == 0)); then
1396			log_must $KILL -USR1 $pid
1397		fi
1398	done
1399}
1400
1401#
1402# Verify a given hotspare disk is inuse or avail
1403#
1404# Return 0 is pool/disk matches expected state, 1 otherwise
1405#
1406function check_hotspare_state # pool disk state{inuse,avail}
1407{
1408	typeset pool=$1
1409	typeset disk=${2#/dev/dsk/}
1410	typeset state=$3
1411
1412	cur_state=$(get_device_state $pool $disk "spares")
1413
1414	if [[ $state != ${cur_state} ]]; then
1415		return 1
1416	fi
1417	return 0
1418}
1419
1420#
1421# Verify a given slog disk is inuse or avail
1422#
1423# Return 0 is pool/disk matches expected state, 1 otherwise
1424#
1425function check_slog_state # pool disk state{online,offline,unavail}
1426{
1427	typeset pool=$1
1428	typeset disk=${2#/dev/dsk/}
1429	typeset state=$3
1430
1431	cur_state=$(get_device_state $pool $disk "logs")
1432
1433	if [[ $state != ${cur_state} ]]; then
1434		return 1
1435	fi
1436	return 0
1437}
1438
1439#
1440# Verify a given vdev disk is inuse or avail
1441#
1442# Return 0 is pool/disk matches expected state, 1 otherwise
1443#
1444function check_vdev_state # pool disk state{online,offline,unavail}
1445{
1446	typeset pool=$1
1447	typeset disk=${2#/dev/dsk/}
1448	typeset state=$3
1449
1450	cur_state=$(get_device_state $pool $disk)
1451
1452	if [[ $state != ${cur_state} ]]; then
1453		return 1
1454	fi
1455	return 0
1456}
1457
1458#
1459# Check the output of 'zpool status -v <pool>',
1460# and to see if the content of <token> contain the <keyword> specified.
1461#
1462# Return 0 is contain, 1 otherwise
1463#
1464function check_pool_status # pool token keyword
1465{
1466	typeset pool=$1
1467	typeset token=$2
1468	typeset keyword=$3
1469
1470	$ZPOOL status -v "$pool" 2>/dev/null | $NAWK -v token="$token:" '
1471		($1==token) {print $0}' \
1472	| $GREP -i "$keyword" > /dev/null 2>&1
1473
1474	return $?
1475}
1476
1477#
1478# These 5 following functions are instance of check_pool_status()
1479#	is_pool_resilvering - to check if the pool is resilver in progress
1480#	is_pool_resilvered - to check if the pool is resilver completed
1481#	is_pool_scrubbing - to check if the pool is scrub in progress
1482#	is_pool_scrubbed - to check if the pool is scrub completed
1483#	is_pool_scrub_stopped - to check if the pool is scrub stopped
1484#
1485function is_pool_resilvering #pool
1486{
1487	check_pool_status "$1" "scan" "resilver in progress since "
1488	return $?
1489}
1490
1491function is_pool_resilvered #pool
1492{
1493	check_pool_status "$1" "scan" "resilvered "
1494	return $?
1495}
1496
1497function is_pool_scrubbing #pool
1498{
1499	check_pool_status "$1" "scan" "scrub in progress since "
1500	return $?
1501}
1502
1503function is_pool_scrubbed #pool
1504{
1505	check_pool_status "$1" "scan" "scrub repaired"
1506	return $?
1507}
1508
1509function is_pool_scrub_stopped #pool
1510{
1511	check_pool_status "$1" "scan" "scrub canceled"
1512	return $?
1513}
1514
1515#
1516# Use create_pool()/destroy_pool() to clean up the infomation in
1517# in the given disk to avoid slice overlapping.
1518#
1519function cleanup_devices #vdevs
1520{
1521	typeset pool="foopool$$"
1522
1523	if poolexists $pool ; then
1524		destroy_pool $pool
1525	fi
1526
1527	create_pool $pool $@
1528	destroy_pool $pool
1529
1530	return 0
1531}
1532
1533#
1534# Verify the rsh connectivity to each remote host in RHOSTS.
1535#
1536# Return 0 if remote host is accessible; otherwise 1.
1537# $1 remote host name
1538# $2 username
1539#
1540function verify_rsh_connect #rhost, username
1541{
1542	typeset rhost=$1
1543	typeset username=$2
1544	typeset rsh_cmd="$RSH -n"
1545	typeset cur_user=
1546
1547	$GETENT hosts $rhost >/dev/null 2>&1
1548	if (($? != 0)); then
1549		log_note "$rhost cannot be found from" \
1550			"administrative database."
1551		return 1
1552	fi
1553
1554	$PING $rhost 3 >/dev/null 2>&1
1555	if (($? != 0)); then
1556		log_note "$rhost is not reachable."
1557		return 1
1558	fi
1559
1560	if ((${#username} != 0)); then
1561		rsh_cmd="$rsh_cmd -l $username"
1562		cur_user="given user \"$username\""
1563	else
1564		cur_user="current user \"`$LOGNAME`\""
1565	fi
1566
1567	 if ! $rsh_cmd $rhost $TRUE; then
1568		log_note "$RSH to $rhost is not accessible" \
1569			"with $cur_user."
1570		return 1
1571	fi
1572
1573	return 0
1574}
1575
1576#
1577# Verify the remote host connection via rsh after rebooting
1578# $1 remote host
1579#
1580function verify_remote
1581{
1582	rhost=$1
1583
1584	#
1585	# The following loop waits for the remote system rebooting.
1586	# Each iteration will wait for 150 seconds. there are
1587	# total 5 iterations, so the total timeout value will
1588	# be 12.5  minutes for the system rebooting. This number
1589	# is an approxiate number.
1590	#
1591	typeset -i count=0
1592	while ! verify_rsh_connect $rhost; do
1593		sleep 150
1594		((count = count + 1))
1595		if ((count > 5)); then
1596			return 1
1597		fi
1598	done
1599	return 0
1600}
1601
1602#
1603# Replacement function for /usr/bin/rsh. This function will include
1604# the /usr/bin/rsh and meanwhile return the execution status of the
1605# last command.
1606#
1607# $1 usrname passing down to -l option of /usr/bin/rsh
1608# $2 remote machine hostname
1609# $3... command string
1610#
1611
1612function rsh_status
1613{
1614	typeset ruser=$1
1615	typeset rhost=$2
1616	typeset -i ret=0
1617	typeset cmd_str=""
1618	typeset rsh_str=""
1619
1620	shift; shift
1621	cmd_str="$@"
1622
1623	err_file=/tmp/${rhost}.$$.err
1624	if ((${#ruser} == 0)); then
1625		rsh_str="$RSH -n"
1626	else
1627		rsh_str="$RSH -n -l $ruser"
1628	fi
1629
1630	$rsh_str $rhost /usr/bin/ksh -c "'$cmd_str; \
1631		print -u 2 \"status=\$?\"'" \
1632		>/dev/null 2>$err_file
1633	ret=$?
1634	if (($ret != 0)); then
1635		$CAT $err_file
1636		$RM -f $std_file $err_file
1637		log_fail  "$RSH itself failed with exit code $ret..."
1638	fi
1639
1640	 ret=$($GREP -v 'print -u 2' $err_file | $GREP 'status=' | \
1641		$CUT -d= -f2)
1642	(($ret != 0)) && $CAT $err_file >&2
1643
1644	$RM -f $err_file >/dev/null 2>&1
1645	return $ret
1646}
1647
1648#
1649# Get the SUNWstc-fs-zfs package installation path in a remote host
1650# $1 remote host name
1651#
1652function get_remote_pkgpath
1653{
1654	typeset rhost=$1
1655	typeset pkgpath=""
1656
1657	pkgpath=$($RSH -n $rhost "$PKGINFO -l SUNWstc-fs-zfs | $GREP BASEDIR: |\
1658			$CUT -d: -f2")
1659
1660	$ECHO $pkgpath
1661}
1662
1663#/**
1664# A function to find and locate free disks on a system or from given
1665# disks as the parameter. It works by locating disks that are in use
1666# as swap devices and dump devices, and also disks listed in /etc/vfstab
1667#
1668# $@ given disks to find which are free, default is all disks in
1669# the test system
1670#
1671# @return a string containing the list of available disks
1672#*/
1673function find_disks
1674{
1675	sfi=/tmp/swaplist.$$
1676	dmpi=/tmp/dumpdev.$$
1677	max_finddisksnum=${MAX_FINDDISKSNUM:-6}
1678
1679	$SWAP -l > $sfi
1680	$DUMPADM > $dmpi 2>/dev/null
1681
1682# write an awk script that can process the output of format
1683# to produce a list of disks we know about. Note that we have
1684# to escape "$2" so that the shell doesn't interpret it while
1685# we're creating the awk script.
1686# -------------------
1687	$CAT > /tmp/find_disks.awk <<EOF
1688#!/bin/nawk -f
1689	BEGIN { FS="."; }
1690
1691	/^Specify disk/{
1692		searchdisks=0;
1693	}
1694
1695	{
1696		if (searchdisks && \$2 !~ "^$"){
1697			split(\$2,arr," ");
1698			print arr[1];
1699		}
1700	}
1701
1702	/^AVAILABLE DISK SELECTIONS:/{
1703		searchdisks=1;
1704	}
1705EOF
1706#---------------------
1707
1708	$CHMOD 755 /tmp/find_disks.awk
1709	disks=${@:-$($ECHO "" | $FORMAT -e 2>/dev/null | /tmp/find_disks.awk)}
1710	$RM /tmp/find_disks.awk
1711
1712	unused=""
1713	for disk in $disks; do
1714	# Check for mounted
1715		$GREP "${disk}[sp]" /etc/mnttab >/dev/null
1716		(($? == 0)) && continue
1717	# Check for swap
1718		$GREP "${disk}[sp]" $sfi >/dev/null
1719		(($? == 0)) && continue
1720	# check for dump device
1721		$GREP "${disk}[sp]" $dmpi >/dev/null
1722		(($? == 0)) && continue
1723	# check to see if this disk hasn't been explicitly excluded
1724	# by a user-set environment variable
1725		$ECHO "${ZFS_HOST_DEVICES_IGNORE}" | $GREP "${disk}" > /dev/null
1726		(($? == 0)) && continue
1727		unused_candidates="$unused_candidates $disk"
1728	done
1729	$RM $sfi
1730	$RM $dmpi
1731
1732# now just check to see if those disks do actually exist
1733# by looking for a device pointing to the first slice in
1734# each case. limit the number to max_finddisksnum
1735	count=0
1736	for disk in $unused_candidates; do
1737		if [ -b /dev/dsk/${disk}s0 ]; then
1738		if [ $count -lt $max_finddisksnum ]; then
1739			unused="$unused $disk"
1740			# do not impose limit if $@ is provided
1741			[[ -z $@ ]] && ((count = count + 1))
1742		fi
1743		fi
1744	done
1745
1746# finally, return our disk list
1747	$ECHO $unused
1748}
1749
1750#
1751# Add specified user to specified group
1752#
1753# $1 group name
1754# $2 user name
1755# $3 base of the homedir (optional)
1756#
1757function add_user #<group_name> <user_name> <basedir>
1758{
1759	typeset gname=$1
1760	typeset uname=$2
1761	typeset basedir=${3:-"/var/tmp"}
1762
1763	if ((${#gname} == 0 || ${#uname} == 0)); then
1764		log_fail "group name or user name are not defined."
1765	fi
1766
1767	log_must $USERADD -g $gname -d $basedir/$uname -m $uname
1768
1769	return 0
1770}
1771
1772#
1773# Delete the specified user.
1774#
1775# $1 login name
1776# $2 base of the homedir (optional)
1777#
1778function del_user #<logname> <basedir>
1779{
1780	typeset user=$1
1781	typeset basedir=${2:-"/var/tmp"}
1782
1783	if ((${#user} == 0)); then
1784		log_fail "login name is necessary."
1785	fi
1786
1787	if $ID $user > /dev/null 2>&1; then
1788		log_must $USERDEL $user
1789	fi
1790
1791	[[ -d $basedir/$user ]] && $RM -fr $basedir/$user
1792
1793	return 0
1794}
1795
1796#
1797# Select valid gid and create specified group.
1798#
1799# $1 group name
1800#
1801function add_group #<group_name>
1802{
1803	typeset group=$1
1804
1805	if ((${#group} == 0)); then
1806		log_fail "group name is necessary."
1807	fi
1808
1809	# Assign 100 as the base gid
1810	typeset -i gid=100
1811	while true; do
1812		$GROUPADD -g $gid $group > /dev/null 2>&1
1813		typeset -i ret=$?
1814		case $ret in
1815			0) return 0 ;;
1816			# The gid is not  unique
1817			4) ((gid += 1)) ;;
1818			*) return 1 ;;
1819		esac
1820	done
1821}
1822
1823#
1824# Delete the specified group.
1825#
1826# $1 group name
1827#
1828function del_group #<group_name>
1829{
1830	typeset grp=$1
1831	if ((${#grp} == 0)); then
1832		log_fail "group name is necessary."
1833	fi
1834
1835	$GROUPMOD -n $grp $grp > /dev/null 2>&1
1836	typeset -i ret=$?
1837	case $ret in
1838		# Group does not exist.
1839		6) return 0 ;;
1840		# Name already exists as a group name
1841		9) log_must $GROUPDEL $grp ;;
1842		*) return 1 ;;
1843	esac
1844
1845	return 0
1846}
1847
1848#
1849# This function will return true if it's safe to destroy the pool passed
1850# as argument 1. It checks for pools based on zvols and files, and also
1851# files contained in a pool that may have a different mountpoint.
1852#
1853function safe_to_destroy_pool { # $1 the pool name
1854
1855	typeset pool=""
1856	typeset DONT_DESTROY=""
1857
1858	# We check that by deleting the $1 pool, we're not
1859	# going to pull the rug out from other pools. Do this
1860	# by looking at all other pools, ensuring that they
1861	# aren't built from files or zvols contained in this pool.
1862
1863	for pool in $($ZPOOL list -H -o name)
1864	do
1865		ALTMOUNTPOOL=""
1866
1867		# this is a list of the top-level directories in each of the
1868		# files that make up the path to the files the pool is based on
1869		FILEPOOL=$($ZPOOL status -v $pool | $GREP /$1/ | \
1870			$AWK '{print $1}')
1871
1872		# this is a list of the zvols that make up the pool
1873		ZVOLPOOL=$($ZPOOL status -v $pool | $GREP "/dev/zvol/dsk/$1$" \
1874		    | $AWK '{print $1}')
1875
1876		# also want to determine if it's a file-based pool using an
1877		# alternate mountpoint...
1878		POOL_FILE_DIRS=$($ZPOOL status -v $pool | \
1879					$GREP / | $AWK '{print $1}' | \
1880					$AWK -F/ '{print $2}' | $GREP -v "dev")
1881
1882		for pooldir in $POOL_FILE_DIRS
1883		do
1884			OUTPUT=$($ZFS list -H -r -o mountpoint $1 | \
1885					$GREP "${pooldir}$" | $AWK '{print $1}')
1886
1887			ALTMOUNTPOOL="${ALTMOUNTPOOL}${OUTPUT}"
1888		done
1889
1890
1891		if [ ! -z "$ZVOLPOOL" ]
1892		then
1893			DONT_DESTROY="true"
1894			log_note "Pool $pool is built from $ZVOLPOOL on $1"
1895		fi
1896
1897		if [ ! -z "$FILEPOOL" ]
1898		then
1899			DONT_DESTROY="true"
1900			log_note "Pool $pool is built from $FILEPOOL on $1"
1901		fi
1902
1903		if [ ! -z "$ALTMOUNTPOOL" ]
1904		then
1905			DONT_DESTROY="true"
1906			log_note "Pool $pool is built from $ALTMOUNTPOOL on $1"
1907		fi
1908	done
1909
1910	if [ -z "${DONT_DESTROY}" ]
1911	then
1912		return 0
1913	else
1914		log_note "Warning: it is not safe to destroy $1!"
1915		return 1
1916	fi
1917}
1918
1919#
1920# Get IP address of hostname
1921# $1 hostname
1922#
1923function getipbyhost
1924{
1925	typeset ip
1926	ip=`$ARP $1 2>/dev/null | $AWK -F\) '{print $1}' \
1927		| $AWK -F\('{print $2}'`
1928	$ECHO $ip
1929}
1930
1931#
1932# Setup iSCSI initiator to target
1933# $1 target hostname
1934#
1935function iscsi_isetup
1936{
1937	# check svc:/network/iscsi_initiator:default state, try to enable it
1938	# if the state is not ON
1939	typeset ISCSII_FMRI="svc:/network/iscsi_initiator:default"
1940	if [[ "ON" != $($SVCS -H -o sta $ISCSII_FMRI) ]]; then
1941		log_must $SVCADM enable $ISCSII_FMRI
1942
1943		typeset -i retry=20
1944		while [[ "ON" != $($SVCS -H -o sta $ISCSII_FMRI) && \
1945			($retry -ne 0) ]]
1946		do
1947			((retry = retry - 1))
1948			$SLEEP 1
1949		done
1950
1951		if [[ "ON" != $($SVCS -H -o sta $ISCSII_FMRI) ]]; then
1952			log_fail "$ISCSII_FMRI service can not be enabled!"
1953		fi
1954	fi
1955
1956	log_must $ISCSIADM add discovery-address $(getipbyhost $1)
1957	log_must $ISCSIADM modify discovery --sendtargets enable
1958	log_must $DEVFSADM -i iscsi
1959}
1960
1961#
1962# Check whether iscsi parameter is set as remote
1963#
1964# return 0 if iscsi is set as remote, otherwise 1
1965#
1966function check_iscsi_remote
1967{
1968	if [[ $iscsi == "remote" ]] ; then
1969		return 0
1970	else
1971		return 1
1972	fi
1973}
1974
1975#
1976# Check if a volume is a valide iscsi target
1977# $1 volume name
1978# return 0 if suceeds, otherwise, return 1
1979#
1980function is_iscsi_target
1981{
1982	typeset dataset=$1
1983	typeset target targets
1984
1985	[[ -z $dataset ]] && return 1
1986
1987	targets=$($ISCSITADM list target | $GREP "Target:" | $AWK '{print $2}')
1988	[[ -z $targets ]] && return 1
1989
1990	for target in $targets; do
1991		[[ $dataset == $target ]] && return 0
1992	done
1993
1994	return 1
1995}
1996
1997#
1998# Get the iSCSI name of a target
1999# $1 target name
2000#
2001function iscsi_name
2002{
2003	typeset target=$1
2004	typeset name
2005
2006	[[ -z $target ]] && log_fail "No parameter."
2007
2008	if ! is_iscsi_target $target ; then
2009		log_fail "Not a target."
2010	fi
2011
2012	name=$($ISCSITADM list target $target | $GREP "iSCSI Name:" \
2013		| $AWK '{print $2}')
2014
2015	return $name
2016}
2017
2018#
2019# check svc:/system/iscsitgt:default state, try to enable it if the state
2020# is not ON
2021#
2022function iscsitgt_setup
2023{
2024	log_must $RM -f $ISCSITGTFILE
2025	if [[ "ON" == $($SVCS -H -o sta $ISCSITGT_FMRI) ]]; then
2026		log_note "iscsitgt is already enabled"
2027		return
2028	fi
2029
2030	log_must $SVCADM enable -t $ISCSITGT_FMRI
2031
2032	typeset -i retry=20
2033	while [[ "ON" != $($SVCS -H -o sta $ISCSITGT_FMRI) && \
2034		($retry -ne 0) ]]
2035	do
2036		$SLEEP 1
2037		((retry = retry - 1))
2038	done
2039
2040	if [[ "ON" != $($SVCS -H -o sta $ISCSITGT_FMRI) ]]; then
2041		log_fail "$ISCSITGT_FMRI service can not be enabled!"
2042	fi
2043
2044	log_must $TOUCH $ISCSITGTFILE
2045}
2046
2047#
2048# set DISABLED state of svc:/system/iscsitgt:default
2049# which is the most suiteable state if $ISCSITGTFILE exists
2050#
2051function iscsitgt_cleanup
2052{
2053	if [[ -e $ISCSITGTFILE ]]; then
2054		log_must $SVCADM disable $ISCSITGT_FMRI
2055		log_must $RM -f $ISCSITGTFILE
2056	fi
2057}
2058
2059#
2060# Close iSCSI initiator to target
2061# $1 target hostname
2062#
2063function iscsi_iclose
2064{
2065	log_must $ISCSIADM modify discovery --sendtargets disable
2066	log_must $ISCSIADM remove discovery-address $(getipbyhost $1)
2067	$DEVFSADM -Cv
2068}
2069
2070#
2071# Get the available ZFS compression options
2072# $1 option type zfs_set|zfs_compress
2073#
2074function get_compress_opts
2075{
2076	typeset COMPRESS_OPTS
2077	typeset GZIP_OPTS="gzip gzip-1 gzip-2 gzip-3 gzip-4 gzip-5 \
2078			gzip-6 gzip-7 gzip-8 gzip-9"
2079
2080	if [[ $1 == "zfs_compress" ]] ; then
2081		COMPRESS_OPTS="on lzjb"
2082	elif [[ $1 == "zfs_set" ]] ; then
2083		COMPRESS_OPTS="on off lzjb"
2084	fi
2085	typeset valid_opts="$COMPRESS_OPTS"
2086	$ZFS get 2>&1 | $GREP gzip >/dev/null 2>&1
2087	if [[ $? -eq 0 ]]; then
2088		valid_opts="$valid_opts $GZIP_OPTS"
2089	fi
2090	$ECHO "$valid_opts"
2091}
2092
2093#
2094# Verify zfs operation with -p option work as expected
2095# $1 operation, value could be create, clone or rename
2096# $2 dataset type, value could be fs or vol
2097# $3 dataset name
2098# $4 new dataset name
2099#
2100function verify_opt_p_ops
2101{
2102	typeset ops=$1
2103	typeset datatype=$2
2104	typeset dataset=$3
2105	typeset newdataset=$4
2106
2107	if [[ $datatype != "fs" && $datatype != "vol" ]]; then
2108		log_fail "$datatype is not supported."
2109	fi
2110
2111	# check parameters accordingly
2112	case $ops in
2113		create)
2114			newdataset=$dataset
2115			dataset=""
2116			if [[ $datatype == "vol" ]]; then
2117				ops="create -V $VOLSIZE"
2118			fi
2119			;;
2120		clone)
2121			if [[ -z $newdataset ]]; then
2122				log_fail "newdataset should not be empty" \
2123					"when ops is $ops."
2124			fi
2125			log_must datasetexists $dataset
2126			log_must snapexists $dataset
2127			;;
2128		rename)
2129			if [[ -z $newdataset ]]; then
2130				log_fail "newdataset should not be empty" \
2131					"when ops is $ops."
2132			fi
2133			log_must datasetexists $dataset
2134			log_mustnot snapexists $dataset
2135			;;
2136		*)
2137			log_fail "$ops is not supported."
2138			;;
2139	esac
2140
2141	# make sure the upper level filesystem does not exist
2142	if datasetexists ${newdataset%/*} ; then
2143		log_must $ZFS destroy -rRf ${newdataset%/*}
2144	fi
2145
2146	# without -p option, operation will fail
2147	log_mustnot $ZFS $ops $dataset $newdataset
2148	log_mustnot datasetexists $newdataset ${newdataset%/*}
2149
2150	# with -p option, operation should succeed
2151	log_must $ZFS $ops -p $dataset $newdataset
2152	if ! datasetexists $newdataset ; then
2153		log_fail "-p option does not work for $ops"
2154	fi
2155
2156	# when $ops is create or clone, redo the operation still return zero
2157	if [[ $ops != "rename" ]]; then
2158		log_must $ZFS $ops -p $dataset $newdataset
2159	fi
2160
2161	return 0
2162}
2163
2164#
2165# Get configuration of pool
2166# $1 pool name
2167# $2 config name
2168#
2169function get_config
2170{
2171	typeset pool=$1
2172	typeset config=$2
2173	typeset alt_root
2174
2175	if ! poolexists "$pool" ; then
2176		return 1
2177	fi
2178	alt_root=$($ZPOOL list -H $pool | $AWK '{print $NF}')
2179	if [[ $alt_root == "-" ]]; then
2180		value=$($ZDB -C $pool | $GREP "$config:" | $AWK -F: \
2181		    '{print $2}')
2182	else
2183		value=$($ZDB -e $pool | $GREP "$config:" | $AWK -F: \
2184		    '{print $2}')
2185	fi
2186	if [[ -n $value ]] ; then
2187		value=${value#'}
2188		value=${value%'}
2189	fi
2190	echo $value
2191
2192	return 0
2193}
2194
2195#
2196# Privated function. Random select one of items from arguments.
2197#
2198# $1 count
2199# $2-n string
2200#
2201function _random_get
2202{
2203	typeset cnt=$1
2204	shift
2205
2206	typeset str="$@"
2207	typeset -i ind
2208	((ind = RANDOM % cnt + 1))
2209
2210	typeset ret=$($ECHO "$str" | $CUT -f $ind -d ' ')
2211	$ECHO $ret
2212}
2213
2214#
2215# Random select one of item from arguments which include NONE string
2216#
2217function random_get_with_non
2218{
2219	typeset -i cnt=$#
2220	((cnt =+ 1))
2221
2222	_random_get "$cnt" "$@"
2223}
2224
2225#
2226# Random select one of item from arguments which doesn't include NONE string
2227#
2228function random_get
2229{
2230	_random_get "$#" "$@"
2231}
2232
2233#
2234# Detect if the current system support slog
2235#
2236function verify_slog_support
2237{
2238	typeset dir=/tmp/disk.$$
2239	typeset pool=foo.$$
2240	typeset vdev=$dir/a
2241	typeset sdev=$dir/b
2242
2243	$MKDIR -p $dir
2244	$MKFILE 64M $vdev $sdev
2245
2246	typeset -i ret=0
2247	if ! $ZPOOL create -n $pool $vdev log $sdev > /dev/null 2>&1; then
2248		ret=1
2249	fi
2250	$RM -r $dir
2251
2252	return $ret
2253}
2254
2255#
2256# The function will generate a dataset name with specific length
2257# $1, the length of the name
2258# $2, the base string to construct the name
2259#
2260function gen_dataset_name
2261{
2262	typeset -i len=$1
2263	typeset basestr="$2"
2264	typeset -i baselen=${#basestr}
2265	typeset -i iter=0
2266	typeset l_name=""
2267
2268	if ((len % baselen == 0)); then
2269		((iter = len / baselen))
2270	else
2271		((iter = len / baselen + 1))
2272	fi
2273	while ((iter > 0)); do
2274		l_name="${l_name}$basestr"
2275
2276		((iter -= 1))
2277	done
2278
2279	$ECHO $l_name
2280}
2281
2282#
2283# Get cksum tuple of dataset
2284# $1 dataset name
2285#
2286# sample zdb output:
2287# Dataset data/test [ZPL], ID 355, cr_txg 2413856, 31.0K, 7 objects, rootbp
2288# DVA[0]=<0:803046400:200> DVA[1]=<0:81199000:200> [L0 DMU objset] fletcher4
2289# lzjb LE contiguous unique double size=800L/200P birth=2413856L/2413856P
2290# fill=7 cksum=11ce125712:643a9c18ee2:125e25238fca0:254a3f74b59744
2291function datasetcksum
2292{
2293	typeset cksum
2294	$SYNC
2295	cksum=$($ZDB -vvv $1 | $GREP "^Dataset $1 \[" | $GREP "cksum" \
2296		| $AWK -F= '{print $7}')
2297	$ECHO $cksum
2298}
2299
2300#
2301# Get cksum of file
2302# #1 file path
2303#
2304function checksum
2305{
2306	typeset cksum
2307	cksum=$($CKSUM $1 | $AWK '{print $1}')
2308	$ECHO $cksum
2309}
2310
2311#
2312# Get the given disk/slice state from the specific field of the pool
2313#
2314function get_device_state #pool disk field("", "spares","logs")
2315{
2316	typeset pool=$1
2317	typeset disk=${2#/dev/dsk/}
2318	typeset field=${3:-$pool}
2319
2320	state=$($ZPOOL status -v "$pool" 2>/dev/null | \
2321		$NAWK -v device=$disk -v pool=$pool -v field=$field \
2322		'BEGIN {startconfig=0; startfield=0; }
2323		/config:/ {startconfig=1}
2324		(startconfig==1) && ($1==field) {startfield=1; next;}
2325		(startfield==1) && ($1==device) {print $2; exit;}
2326		(startfield==1) &&
2327		($1==field || $1 ~ "^spares$" || $1 ~ "^logs$") {startfield=0}')
2328	echo $state
2329}
2330
2331
2332#
2333# print the given directory filesystem type
2334#
2335# $1 directory name
2336#
2337function get_fstype
2338{
2339	typeset dir=$1
2340
2341	if [[ -z $dir ]]; then
2342		log_fail "Usage: get_fstype <directory>"
2343	fi
2344
2345	#
2346	#  $ df -n /
2347	#  /		  : ufs
2348	#
2349	$DF -n $dir | $AWK '{print $3}'
2350}
2351
2352#
2353# Given a disk, label it to VTOC regardless what label was on the disk
2354# $1 disk
2355#
2356function labelvtoc
2357{
2358	typeset disk=$1
2359	if [[ -z $disk ]]; then
2360		log_fail "The disk name is unspecified."
2361	fi
2362	typeset label_file=/var/tmp/labelvtoc.$$
2363	typeset arch=$($UNAME -p)
2364
2365	if [[ $arch == "i386" ]]; then
2366		$ECHO "label" > $label_file
2367		$ECHO "0" >> $label_file
2368		$ECHO "" >> $label_file
2369		$ECHO "q" >> $label_file
2370		$ECHO "q" >> $label_file
2371
2372		$FDISK -B $disk >/dev/null 2>&1
2373		# wait a while for fdisk finishes
2374		$SLEEP 60
2375	elif [[ $arch == "sparc" ]]; then
2376		$ECHO "label" > $label_file
2377		$ECHO "0" >> $label_file
2378		$ECHO "" >> $label_file
2379		$ECHO "" >> $label_file
2380		$ECHO "" >> $label_file
2381		$ECHO "q" >> $label_file
2382	else
2383		log_fail "unknown arch type"
2384	fi
2385
2386	$FORMAT -e -s -d $disk -f $label_file
2387	typeset -i ret_val=$?
2388	$RM -f $label_file
2389	#
2390	# wait the format to finish
2391	#
2392	$SLEEP 60
2393	if ((ret_val != 0)); then
2394		log_fail "unable to label $disk as VTOC."
2395	fi
2396
2397	return 0
2398}
2399
2400#
2401# check if the system was installed as zfsroot or not
2402# return: 0 ture, otherwise false
2403#
2404function is_zfsroot
2405{
2406	$DF -n / | $GREP zfs > /dev/null 2>&1
2407	return $?
2408}
2409
2410#
2411# get the root filesystem name if it's zfsroot system.
2412#
2413# return: root filesystem name
2414function get_rootfs
2415{
2416	typeset rootfs=""
2417	rootfs=$($AWK '{if ($2 == "/" && $3 == "zfs") print $1}' \
2418		/etc/mnttab)
2419	if [[ -z "$rootfs" ]]; then
2420		log_fail "Can not get rootfs"
2421	fi
2422	$ZFS list $rootfs > /dev/null 2>&1
2423	if (($? == 0)); then
2424		$ECHO $rootfs
2425	else
2426		log_fail "This is not a zfsroot system."
2427	fi
2428}
2429
2430#
2431# get the rootfs's pool name
2432# return:
2433#       rootpool name
2434#
2435function get_rootpool
2436{
2437	typeset rootfs=""
2438	typeset rootpool=""
2439	rootfs=$($AWK '{if ($2 == "/" && $3 =="zfs") print $1}' \
2440		 /etc/mnttab)
2441	if [[ -z "$rootfs" ]]; then
2442		log_fail "Can not get rootpool"
2443	fi
2444	$ZFS list $rootfs > /dev/null 2>&1
2445	if (($? == 0)); then
2446		rootpool=`$ECHO $rootfs | awk -F\/ '{print $1}'`
2447		$ECHO $rootpool
2448	else
2449		log_fail "This is not a zfsroot system."
2450	fi
2451}
2452
2453#
2454# Get the sub string from specified source string
2455#
2456# $1 source string
2457# $2 start position. Count from 1
2458# $3 offset
2459#
2460function get_substr #src_str pos offset
2461{
2462	typeset pos offset
2463
2464	$ECHO $1 | \
2465		$NAWK -v pos=$2 -v offset=$3 '{print substr($0, pos, offset)}'
2466}
2467
2468#
2469# Check if the given device is physical device
2470#
2471function is_physical_device #device
2472{
2473	typeset device=${1#/dev/dsk/}
2474	device=${device#/dev/rdsk/}
2475
2476	$ECHO $device | $EGREP "^c[0-F]+([td][0-F]+)+$" > /dev/null 2>&1
2477	return $?
2478}
2479
2480#
2481# Get the directory path of given device
2482#
2483function get_device_dir #device
2484{
2485	typeset device=$1
2486
2487	if ! $(is_physical_device $device) ; then
2488		if [[ $device != "/" ]]; then
2489			device=${device%/*}
2490		fi
2491		$ECHO $device
2492	else
2493		$ECHO "/dev/dsk"
2494	fi
2495}
2496
2497#
2498# Get the package name
2499#
2500function get_package_name
2501{
2502	typeset dirpath=${1:-$STC_NAME}
2503
2504	echo "SUNWstc-${dirpath}" | /usr/bin/sed -e "s/\//-/g"
2505}
2506
2507#
2508# Get the word numbers from a string separated by white space
2509#
2510function get_word_count
2511{
2512	$ECHO $1 | $WC -w
2513}
2514
2515#
2516# To verify if the require numbers of disks is given
2517#
2518function verify_disk_count
2519{
2520	typeset -i min=${2:-1}
2521
2522	typeset -i count=$(get_word_count "$1")
2523
2524	if ((count < min)); then
2525		log_untested "A minimum of $min disks is required to run." \
2526			" You specified $count disk(s)"
2527	fi
2528}
2529
2530function ds_is_volume
2531{
2532	typeset type=$(get_prop type $1)
2533	[[ $type = "volume" ]] && return 0
2534	return 1
2535}
2536
2537function ds_is_filesystem
2538{
2539	typeset type=$(get_prop type $1)
2540	[[ $type = "filesystem" ]] && return 0
2541	return 1
2542}
2543
2544function ds_is_snapshot
2545{
2546	typeset type=$(get_prop type $1)
2547	[[ $type = "snapshot" ]] && return 0
2548	return 1
2549}
2550
2551#
2552# Check if Trusted Extensions are installed and enabled
2553#
2554function is_te_enabled
2555{
2556	$SVCS -H -o state labeld 2>/dev/null | $GREP "enabled"
2557	if (($? != 0)); then
2558		return 1
2559	else
2560		return 0
2561	fi
2562}
2563
2564# Utility function to determine if a system has multiple cpus.
2565function is_mp
2566{
2567	(($($PSRINFO | $WC -l) > 1))
2568}
2569
2570function get_cpu_freq
2571{
2572	$PSRINFO -v 0 | $AWK '/processor operates at/ {print $6}'
2573}
2574
2575# Run the given command as the user provided.
2576function user_run
2577{
2578	typeset user=$1
2579	shift
2580
2581	eval \$SU \$user -c \"$@\" > /tmp/out 2>/tmp/err
2582	return $?
2583}
2584
2585#
2586# Check if the pool contains the specified vdevs
2587#
2588# $1 pool
2589# $2..n <vdev> ...
2590#
2591# Return 0 if the vdevs are contained in the pool, 1 if any of the specified
2592# vdevs is not in the pool, and 2 if pool name is missing.
2593#
2594function vdevs_in_pool
2595{
2596	typeset pool=$1
2597	typeset vdev
2598
2599        if [[ -z $pool ]]; then
2600                log_note "Missing pool name."
2601                return 2
2602        fi
2603
2604	shift
2605
2606	typeset tmpfile=$($MKTEMP)
2607	$ZPOOL list -Hv "$pool" >$tmpfile
2608	for vdev in $@; do
2609		$GREP -w ${vdev##*/} $tmpfile >/dev/null 2>&1
2610		[[ $? -ne 0 ]] && return 1
2611	done
2612
2613	$RM -f $tmpfile
2614
2615	return 0;
2616}
2617