#

# CDDL HEADER START

#

# The contents of this file are subject to the terms of the

# Common Development and Distribution License (the "License").

# You may not use this file except in compliance with the License.

#

# You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE

# or http://www.opensolaris.org/os/licensing.

# See the License for the specific language governing permissions

# and limitations under the License.

#

# When distributing Covered Code, include this CDDL HEADER in each

# file and include the License file at usr/src/OPENSOLARIS.LICENSE.

# If applicable, add the following below this CDDL HEADER, with the

# fields enclosed by brackets "[]" replaced with your own identifying

# information: Portions Copyright [yyyy] [name of copyright owner]

#

# CDDL HEADER END

#

#

# Copyright 2009 Sun Microsystems, Inc. All rights reserved.

# Use is subject to license terms.

# Copyright (c) 2012, 2015 by Delphix. All rights reserved.

# Copyright 2016 Nexenta Systems, Inc.

#

. ${STF_TOOLS}/contrib/include/logapi.shlib

ZFS=${ZFS:-/usr/sbin/zfs}

ZPOOL=${ZPOOL:-/usr/sbin/zpool}

# Determine whether a dataset is mounted

#

# $1 dataset name

# $2 filesystem type; optional - defaulted to zfs

#

# Return 0 if dataset is mounted; 1 if unmounted; 2 on error

function ismounted

{

typeset fstype=$2

[[ -z $fstype ]] && fstype=zfs

typeset out dir name ret

case $fstype in

zfs)

if [[ "$1" == "/"* ]] ; then

for out in $($ZFS mount | $AWK '{print $2}'); do

[[ $1 == $out ]] && return 0

done

else

for out in $($ZFS mount | $AWK '{print $1}'); do

[[ $1 == $out ]] && return 0

done

fi

;;

ufs|nfs)

out=$($DF -F $fstype $1 2>/dev/null)

ret=$?

(($ret != 0)) && return $ret

dir=${out%%\(*}

dir=${dir%% *}

name=${out##*\(}

name=${name%%\)*}

name=${name%% *}

[[ "$1" == "$dir" || "$1" == "$name" ]] && return 0

;;

esac

return 1

}

# Return 0 if a dataset is mounted; 1 otherwise

#

# $1 dataset name

# $2 filesystem type; optional - defaulted to zfs

function mounted

{

ismounted $1 $2

(($? == 0)) && return 0

return 1

}

# Return 0 if a dataset is unmounted; 1 otherwise

#

# $1 dataset name

# $2 filesystem type; optional - defaulted to zfs

function unmounted

{

ismounted $1 $2

(($? == 1)) && return 0

return 1

}

# split line on ","

#

# $1 - line to split

function splitline

{

$ECHO $1 | $SED "s/,/ /g"

}

function default_setup

{

default_setup_noexit "$@"

log_pass

}

#

# Given a list of disks, setup storage pools and datasets.

#

function default_setup_noexit

{

typeset disklist=$1

typeset container=$2

typeset volume=$3

if is_global_zone; then

if poolexists $TESTPOOL ; then

destroy_pool $TESTPOOL

fi

[[ -d /$TESTPOOL ]] && $RM -rf /$TESTPOOL

log_must $ZPOOL create -f $TESTPOOL $disklist

else

reexport_pool

fi

$RM -rf $TESTDIR || log_unresolved Could not remove $TESTDIR

$MKDIR -p $TESTDIR || log_unresolved Could not create $TESTDIR

log_must $ZFS create $TESTPOOL/$TESTFS

log_must $ZFS set mountpoint=$TESTDIR $TESTPOOL/$TESTFS

if [[ -n $container ]]; then

$RM -rf $TESTDIR1 || \

log_unresolved Could not remove $TESTDIR1

$MKDIR -p $TESTDIR1 || \

log_unresolved Could not create $TESTDIR1

log_must $ZFS create $TESTPOOL/$TESTCTR

log_must $ZFS set canmount=off $TESTPOOL/$TESTCTR

log_must $ZFS create $TESTPOOL/$TESTCTR/$TESTFS1

log_must $ZFS set mountpoint=$TESTDIR1 \

$TESTPOOL/$TESTCTR/$TESTFS1

fi

if [[ -n $volume ]]; then

if is_global_zone ; then

log_must $ZFS create -V $VOLSIZE $TESTPOOL/$TESTVOL

else

log_must $ZFS create $TESTPOOL/$TESTVOL

fi

fi

}

#

# Given a list of disks, setup a storage pool, file system and

# a container.

#

function default_container_setup

{

typeset disklist=$1

default_setup "$disklist" "true"

}

#

# Given a list of disks, setup a storage pool,file system

# and a volume.

#

function default_volume_setup

{

typeset disklist=$1

default_setup "$disklist" "" "true"

}

#

# Given a list of disks, setup a storage pool,file system,

# a container and a volume.

#

function default_container_volume_setup

{

typeset disklist=$1

default_setup "$disklist" "true" "true"

}

#

# Create a snapshot on a filesystem or volume. Defaultly create a snapshot on

# filesystem

#

# $1 Existing filesystem or volume name. Default, $TESTFS

# $2 snapshot name. Default, $TESTSNAP

#

function create_snapshot

{

typeset fs_vol=${1:-$TESTFS}

typeset snap=${2:-$TESTSNAP}

[[ -z $fs_vol ]] && log_fail "Filesystem or volume's name is undefined."

[[ -z $snap ]] && log_fail "Snapshot's name is undefined."

if snapexists $fs_vol@$snap; then

log_fail "$fs_vol@$snap already exists."

fi

datasetexists $fs_vol || \

log_fail "$fs_vol must exist."

log_must $ZFS snapshot $fs_vol@$snap

}

#

# Create a clone from a snapshot, default clone name is $TESTCLONE.

#

# $1 Existing snapshot, $TESTPOOL/$TESTFS@$TESTSNAP is default.

# $2 Clone name, $TESTPOOL/$TESTCLONE is default.

#

function create_clone # snapshot clone

{

typeset snap=${1:-$TESTPOOL/$TESTFS@$TESTSNAP}

typeset clone=${2:-$TESTPOOL/$TESTCLONE}

[[ -z $snap ]] && \

log_fail "Snapshot name is undefined."

[[ -z $clone ]] && \

log_fail "Clone name is undefined."

log_must $ZFS clone $snap $clone

}

function default_mirror_setup

{

default_mirror_setup_noexit $1 $2 $3

log_pass

}

#

# Given a pair of disks, set up a storage pool and dataset for the mirror

# @parameters: $1 the primary side of the mirror

# $2 the secondary side of the mirror

# @uses: ZPOOL ZFS TESTPOOL TESTFS

function default_mirror_setup_noexit

{

readonly func="default_mirror_setup_noexit"

typeset primary=$1

typeset secondary=$2

[[ -z $primary ]] && \

log_fail "$func: No parameters passed"

[[ -z $secondary ]] && \

log_fail "$func: No secondary partition passed"

[[ -d /$TESTPOOL ]] && $RM -rf /$TESTPOOL

log_must $ZPOOL create -f $TESTPOOL mirror $@

log_must $ZFS create $TESTPOOL/$TESTFS

log_must $ZFS set mountpoint=$TESTDIR $TESTPOOL/$TESTFS

}

#

# create a number of mirrors.

# We create a number($1) of 2 way mirrors using the pairs of disks named

# on the command line. These mirrors are *not* mounted

# @parameters: $1 the number of mirrors to create

# $... the devices to use to create the mirrors on

# @uses: ZPOOL ZFS TESTPOOL

function setup_mirrors

{

typeset -i nmirrors=$1

shift

while ((nmirrors > 0)); do

log_must test -n "$1" -a -n "$2"

[[ -d /$TESTPOOL$nmirrors ]] && $RM -rf /$TESTPOOL$nmirrors

log_must $ZPOOL create -f $TESTPOOL$nmirrors mirror $1 $2

shift 2

((nmirrors = nmirrors - 1))

done

}

#

# create a number of raidz pools.

# We create a number($1) of 2 raidz pools using the pairs of disks named

# on the command line. These pools are *not* mounted

# @parameters: $1 the number of pools to create

# $... the devices to use to create the pools on

# @uses: ZPOOL ZFS TESTPOOL

function setup_raidzs

{

typeset -i nraidzs=$1

shift

while ((nraidzs > 0)); do

log_must test -n "$1" -a -n "$2"

[[ -d /$TESTPOOL$nraidzs ]] && $RM -rf /$TESTPOOL$nraidzs

log_must $ZPOOL create -f $TESTPOOL$nraidzs raidz $1 $2

shift 2

((nraidzs = nraidzs - 1))

done

}

#

# Destroy the configured testpool mirrors.

# the mirrors are of the form ${TESTPOOL}{number}

# @uses: ZPOOL ZFS TESTPOOL

function destroy_mirrors

{

default_cleanup_noexit

log_pass

}

#

# Given a minimum of two disks, set up a storage pool and dataset for the raid-z

# $1 the list of disks

#

function default_raidz_setup

{

typeset disklist="$*"

disks=(${disklist[*]})

if [[ ${#disks[*]} -lt 2 ]]; then

log_fail "A raid-z requires a minimum of two disks."

fi

[[ -d /$TESTPOOL ]] && $RM -rf /$TESTPOOL

log_must $ZPOOL create -f $TESTPOOL raidz $1 $2 $3

log_must $ZFS create $TESTPOOL/$TESTFS

log_must $ZFS set mountpoint=$TESTDIR $TESTPOOL/$TESTFS

log_pass

}

#

# Common function used to cleanup storage pools and datasets.

#

# Invoked at the start of the test suite to ensure the system

# is in a known state, and also at the end of each set of

# sub-tests to ensure errors from one set of tests doesn't

# impact the execution of the next set.

function default_cleanup

{

default_cleanup_noexit

log_pass

}

function default_cleanup_noexit

{

typeset exclude=""

typeset pool=""

#

# Destroying the pool will also destroy any

# filesystems it contains.

#

if is_global_zone; then

$ZFS unmount -a > /dev/null 2>&1

exclude=`eval $ECHO \"'(${KEEP})'\"`

ALL_POOLS=$($ZPOOL list -H -o name \

| $GREP -v "$NO_POOLS" | $EGREP -v "$exclude")

# Here, we loop through the pools we're allowed to

# destroy, only destroying them if it's safe to do

# so.

while [ ! -z ${ALL_POOLS} ]

do

for pool in ${ALL_POOLS}

do

if safe_to_destroy_pool $pool ;

then

destroy_pool $pool

fi

ALL_POOLS=$($ZPOOL list -H -o name \

| $GREP -v "$NO_POOLS" \

| $EGREP -v "$exclude")

done

done

$ZFS mount -a

else

typeset fs=""

for fs in $($ZFS list -H -o name \

| $GREP "^$ZONE_POOL/$ZONE_CTR[01234]/"); do

datasetexists $fs && \

log_must $ZFS destroy -Rf $fs

done

# Need cleanup here to avoid garbage dir left.

for fs in $($ZFS list -H -o name); do

[[ $fs == /$ZONE_POOL ]] && continue

[[ -d $fs ]] && log_must $RM -rf $fs/*

done

#

# Reset the $ZONE_POOL/$ZONE_CTR[01234] file systems property to

# the default value

#

for fs in $($ZFS list -H -o name); do

if [[ $fs == $ZONE_POOL/$ZONE_CTR[01234] ]]; then

log_must $ZFS set reservation=none $fs

log_must $ZFS set recordsize=128K $fs

log_must $ZFS set mountpoint=/$fs $fs

typeset enc=""

enc=$(get_prop encryption $fs)

if [[ $? -ne 0 ]] || [[ -z "$enc" ]] || \

[[ "$enc" == "off" ]]; then

log_must $ZFS set checksum=on $fs

fi

log_must $ZFS set compression=off $fs

log_must $ZFS set atime=on $fs

log_must $ZFS set devices=off $fs

log_must $ZFS set exec=on $fs

log_must $ZFS set setuid=on $fs

log_must $ZFS set readonly=off $fs

log_must $ZFS set snapdir=hidden $fs

log_must $ZFS set aclmode=groupmask $fs

log_must $ZFS set aclinherit=secure $fs

fi

done

fi

[[ -d $TESTDIR ]] && \

log_must $RM -rf $TESTDIR

}

#

# Common function used to cleanup storage pools, file systems

# and containers.

#

function default_container_cleanup

{

if ! is_global_zone; then

reexport_pool

fi

ismounted $TESTPOOL/$TESTCTR/$TESTFS1

[[ $? -eq 0 ]] && \

log_must $ZFS unmount $TESTPOOL/$TESTCTR/$TESTFS1

datasetexists $TESTPOOL/$TESTCTR/$TESTFS1 && \

log_must $ZFS destroy -R $TESTPOOL/$TESTCTR/$TESTFS1

datasetexists $TESTPOOL/$TESTCTR && \

log_must $ZFS destroy -Rf $TESTPOOL/$TESTCTR

[[ -e $TESTDIR1 ]] && \

log_must $RM -rf $TESTDIR1 > /dev/null 2>&1

default_cleanup

}

#

# Common function used to cleanup snapshot of file system or volume. Default to

# delete the file system's snapshot

#

# $1 snapshot name

#

function destroy_snapshot

{

typeset snap=${1:-$TESTPOOL/$TESTFS@$TESTSNAP}

if ! snapexists $snap; then

log_fail "'$snap' does not existed."

fi

#

# For the sake of the value which come from 'get_prop' is not equal

# to the really mountpoint when the snapshot is unmounted. So, firstly

# check and make sure this snapshot's been mounted in current system.

#

typeset mtpt=""

if ismounted $snap; then

mtpt=$(get_prop mountpoint $snap)

(($? != 0)) && \

log_fail "get_prop mountpoint $snap failed."

fi

log_must $ZFS destroy $snap

[[ $mtpt != "" && -d $mtpt ]] && \

log_must $RM -rf $mtpt

}

#

# Common function used to cleanup clone.

#

# $1 clone name

#

function destroy_clone

{

typeset clone=${1:-$TESTPOOL/$TESTCLONE}

if ! datasetexists $clone; then

log_fail "'$clone' does not existed."

fi

# With the same reason in destroy_snapshot

typeset mtpt=""

if ismounted $clone; then

mtpt=$(get_prop mountpoint $clone)

(($? != 0)) && \

log_fail "get_prop mountpoint $clone failed."

fi

log_must $ZFS destroy $clone

[[ $mtpt != "" && -d $mtpt ]] && \

log_must $RM -rf $mtpt

}

# Return 0 if a snapshot exists; $? otherwise

#

# $1 - snapshot name

function snapexists

{

$ZFS list -H -t snapshot "$1" > /dev/null 2>&1

return $?

}

#

# Set a property to a certain value on a dataset.

# Sets a property of the dataset to the value as passed in.

# @param:

# $1 dataset who's property is being set

# $2 property to set

# $3 value to set property to

# @return:

# 0 if the property could be set.

# non-zero otherwise.

# @use: ZFS

#

function dataset_setprop

{

typeset fn=dataset_setprop

if (($# < 3)); then

log_note "$fn: Insufficient parameters (need 3, had $#)"

return 1

fi

typeset output=

output=$($ZFS set $2=$3 $1 2>&1)

typeset rv=$?

if ((rv != 0)); then

log_note "Setting property on $1 failed."

log_note "property $2=$3"

log_note "Return Code: $rv"

log_note "Output: $output"

return $rv

fi

return 0

}

#

# Assign suite defined dataset properties.

# This function is used to apply the suite's defined default set of

# properties to a dataset.

# @parameters: $1 dataset to use

# @uses: ZFS COMPRESSION_PROP CHECKSUM_PROP

# @returns:

# 0 if the dataset has been altered.

# 1 if no pool name was passed in.

# 2 if the dataset could not be found.

# 3 if the dataset could not have it's properties set.

#

function dataset_set_defaultproperties

{

typeset dataset="$1"

[[ -z $dataset ]] && return 1

typeset confset=

typeset -i found=0

for confset in $($ZFS list); do

if [[ $dataset = $confset ]]; then

found=1

break

fi

done

[[ $found -eq 0 ]] && return 2

if [[ -n $COMPRESSION_PROP ]]; then

dataset_setprop $dataset compression $COMPRESSION_PROP || \

return 3

log_note "Compression set to '$COMPRESSION_PROP' on $dataset"

fi

if [[ -n $CHECKSUM_PROP ]]; then

dataset_setprop $dataset checksum $CHECKSUM_PROP || \

return 3

log_note "Checksum set to '$CHECKSUM_PROP' on $dataset"

fi

return 0

}

#

# Check a numeric assertion

# @parameter: $@ the assertion to check

# @output: big loud notice if assertion failed

# @use: log_fail

#

function assert

{

(($@)) || log_fail "$@"

}

#

# Function to format partition size of a disk

# Given a disk cxtxdx reduces all partitions

# to 0 size

#

function zero_partitions #<whole_disk_name>

{

typeset diskname=$1

typeset i

for i in 0 1 3 4 5 6 7

do

set_partition $i "" 0mb $diskname

done

}

#

# Given a slice, size and disk, this function

# formats the slice to the specified size.

# Size should be specified with units as per

# the `format` command requirements eg. 100mb 3gb

#

function set_partition #<slice_num> <slice_start> <size_plus_units> <whole_disk_name>

{

typeset -i slicenum=$1

typeset start=$2

typeset size=$3

typeset disk=$4

[[ -z $slicenum || -z $size || -z $disk ]] && \

log_fail "The slice, size or disk name is unspecified."

typeset format_file=/var/tmp/format_in.$$

$ECHO "partition" >$format_file

$ECHO "$slicenum" >> $format_file

$ECHO "" >> $format_file

$ECHO "" >> $format_file

$ECHO "$start" >> $format_file

$ECHO "$size" >> $format_file

$ECHO "label" >> $format_file

$ECHO "" >> $format_file

$ECHO "q" >> $format_file

$ECHO "q" >> $format_file

$FORMAT -e -s -d $disk -f $format_file

typeset ret_val=$?

$RM -f $format_file

[[ $ret_val -ne 0 ]] && \

log_fail "Unable to format $disk slice $slicenum to $size"

return 0

}

#

# Get the end cyl of the given slice

#

function get_endslice #<disk> <slice>

{

typeset disk=$1

typeset slice=$2

if [[ -z $disk || -z $slice ]] ; then

log_fail "The disk name or slice number is unspecified."

fi

disk=${disk#/dev/dsk/}

disk=${disk#/dev/rdsk/}

disk=${disk%s*}

typeset -i ratio=0

ratio=$($PRTVTOC /dev/rdsk/${disk}s2 | \

$GREP "sectors\/cylinder" | \

$AWK '{print $2}')

if ((ratio == 0)); then

return

fi

typeset -i endcyl=$($PRTVTOC -h /dev/rdsk/${disk}s2 |

$NAWK -v token="$slice" '{if ($1==token) print $6}')

((endcyl = (endcyl + 1) / ratio))

echo $endcyl

}

#

# Given a size,disk and total slice number, this function formats the

# disk slices from 0 to the total slice number with the same specified

# size.

#

function partition_disk #<slice_size> <whole_disk_name> <total_slices>

{

typeset -i i=0

typeset slice_size=$1

typeset disk_name=$2

typeset total_slices=$3

typeset cyl

zero_partitions $disk_name

while ((i < $total_slices)); do

if ((i == 2)); then

((i = i + 1))

continue

fi

set_partition $i "$cyl" $slice_size $disk_name

cyl=$(get_endslice $disk_name $i)

((i = i+1))

done

}

#

# This function continues to write to a filenum number of files into dirnum

# number of directories until either $FILE_WRITE returns an error or the

# maximum number of files per directory have been written.

#

# Usage:

# fill_fs [destdir] [dirnum] [filenum] [bytes] [num_writes] [data]

#

# Return value: 0 on success

# non 0 on error

#

# Where :

# destdir: is the directory where everything is to be created under

# dirnum: the maximum number of subdirectories to use, -1 no limit

# filenum: the maximum number of files per subdirectory

# bytes: number of bytes to write

# num_writes: numer of types to write out bytes

# data: the data that will be writen

#

# E.g.

# file_fs /testdir 20 25 1024 256 0

#

# Note: bytes * num_writes equals the size of the testfile

#

function fill_fs # destdir dirnum filenum bytes num_writes data

{

typeset destdir=${1:-$TESTDIR}

typeset -i dirnum=${2:-50}

typeset -i filenum=${3:-50}

typeset -i bytes=${4:-8192}

typeset -i num_writes=${5:-10240}

typeset -i data=${6:-0}

typeset -i odirnum=1

typeset -i idirnum=0

typeset -i fn=0

typeset -i retval=0

log_must $MKDIR -p $destdir/$idirnum

while (($odirnum > 0)); do

if ((dirnum >= 0 && idirnum >= dirnum)); then

odirnum=0

break

fi

$FILE_WRITE -o create -f $destdir/$idirnum/$TESTFILE.$fn \

-b $bytes -c $num_writes -d $data

retval=$?

if (($retval != 0)); then

odirnum=0

break

fi

if (($fn >= $filenum)); then

fn=0

((idirnum = idirnum + 1))

log_must $MKDIR -p $destdir/$idirnum

else

((fn = fn + 1))

fi

done

return $retval

}

#

# Simple function to get the specified property. If unable to

# get the property then exits.

#

# Note property is in 'parsable' format (-p)

#

function get_prop # property dataset

{

typeset prop_val

typeset prop=$1

typeset dataset=$2

prop_val=$($ZFS get -pH -o value $prop $dataset 2>/dev/null)

if [[ $? -ne 0 ]]; then

log_note "Unable to get $prop property for dataset " \

"$dataset"

return 1

fi

$ECHO $prop_val

return 0

}

#

# Simple function to get the specified property of pool. If unable to

# get the property then exits.

#

function get_pool_prop # property pool

{

typeset prop_val

typeset prop=$1

typeset pool=$2

if poolexists $pool ; then

prop_val=$($ZPOOL get $prop $pool 2>/dev/null | $TAIL -1 | \

$AWK '{print $3}')

if [[ $? -ne 0 ]]; then

log_note "Unable to get $prop property for pool " \

"$pool"

return 1

fi

else

log_note "Pool $pool not exists."

return 1

fi

$ECHO $prop_val

return 0

}

# Return 0 if a pool exists; $? otherwise

#

# $1 - pool name

function poolexists

{

typeset pool=$1

if [[ -z $pool ]]; then

log_note "No pool name given."

return 1

fi

$ZPOOL get name "$pool" > /dev/null 2>&1

return $?

}

# Return 0 if all the specified datasets exist; $? otherwise

#

# $1-n dataset name

function datasetexists

{

if (($# == 0)); then

log_note "No dataset name given."

return 1

fi

while (($# > 0)); do

$ZFS get name $1 > /dev/null 2>&1 || \

return $?

shift

done

return 0

}

# return 0 if none of the specified datasets exists, otherwise return 1.

#

# $1-n dataset name

function datasetnonexists

{

if (($# == 0)); then

log_note "No dataset name given."

return 1

fi

while (($# > 0)); do

$ZFS list -H -t filesystem,snapshot,volume $1 > /dev/null 2>&1 \

&& return 1

shift

done

return 0

}

#

# Given a mountpoint, or a dataset name, determine if it is shared.

#

# Returns 0 if shared, 1 otherwise.

#

function is_shared

{

typeset fs=$1

typeset mtpt

if [[ $fs != "/"* ]] ; then

if datasetnonexists "$fs" ; then

return 1

else

mtpt=$(get_prop mountpoint "$fs")

case $mtpt in

none|legacy|-) return 1

;;

*) fs=$mtpt

;;

esac

fi

fi

for mtpt in `$SHARE | $AWK '{print $2}'` ; do

if [[ $mtpt == $fs ]] ; then

return 0

fi

done

typeset stat=$($SVCS -H -o STA nfs/server:default)

if [[ $stat != "ON" ]]; then

log_note "Current nfs/server status: $stat"

fi

return 1

}

#

# Given a mountpoint, determine if it is not shared.

#

# Returns 0 if not shared, 1 otherwise.

#

function not_shared

{

typeset fs=$1

is_shared $fs

if (($? == 0)); then

return 1

fi

return 0

}

#

# Helper function to unshare a mountpoint.

#

function unshare_fs #fs

{

typeset fs=$1

is_shared $fs

if (($? == 0)); then

log_must $ZFS unshare $fs

fi

return 0

}

#

# Check NFS server status and trigger it online.

#

function setup_nfs_server

{

# Cannot share directory in non-global zone.

#

if ! is_global_zone; then

log_note "Cannot trigger NFS server by sharing in LZ."

return

fi

typeset nfs_fmri="svc:/network/nfs/server:default"

if [[ $($SVCS -Ho STA $nfs_fmri) != "ON" ]]; then

#

# Only really sharing operation can enable NFS server

# to online permanently.

#

typeset dummy=/tmp/dummy

if [[ -d $dummy ]]; then

log_must $RM -rf $dummy

fi

log_must $MKDIR $dummy

log_must $SHARE $dummy

#

# Waiting for fmri's status to be the final status.

# Otherwise, in transition, an asterisk (*) is appended for

# instances, unshare will reverse status to 'DIS' again.

#

# Waiting for 1's at least.

#

log_must $SLEEP 1

timeout=10

while [[ timeout -ne 0 && $($SVCS -Ho STA $nfs_fmri) == *'*' ]]

do

log_must $SLEEP 1

((timeout -= 1))

done

log_must $UNSHARE $dummy

log_must $RM -rf $dummy

fi

log_note "Current NFS status: '$($SVCS -Ho STA,FMRI $nfs_fmri)'"

}

#

# To verify whether calling process is in global zone

#

# Return 0 if in global zone, 1 in non-global zone

#

function is_global_zone

{

typeset cur_zone=$($ZONENAME 2>/dev/null)

if [[ $cur_zone != "global" ]]; then

return 1

fi

return 0

}

#

# Verify whether test is permitted to run from

# global zone, local zone, or both

#

# $1 zone limit, could be "global", "local", or "both"(no limit)

#

# Return 0 if permitted, otherwise exit with log_unsupported

#

function verify_runnable # zone limit

{

typeset limit=$1

[[ -z $limit ]] && return 0

if is_global_zone ; then

case $limit in

global|both)

;;

local) log_unsupported "Test is unable to run from "\

"global zone."

;;

*) log_note "Warning: unknown limit $limit - " \

"use both."

;;

esac

else

case $limit in

local|both)

;;

global) log_unsupported "Test is unable to run from "\

"local zone."

;;

*) log_note "Warning: unknown limit $limit - " \

"use both."

;;

esac

reexport_pool

fi

return 0

}

# Return 0 if create successfully or the pool exists; $? otherwise

# Note: In local zones, this function should return 0 silently.

#

# $1 - pool name

# $2-n - [keyword] devs_list

function create_pool #pool devs_list

{

typeset pool=${1%%/*}

shift

if [[ -z $pool ]]; then

log_note "Missing pool name."

return 1

fi

if poolexists $pool ; then

destroy_pool $pool

fi

if is_global_zone ; then

[[ -d /$pool ]] && $RM -rf /$pool

log_must $ZPOOL create -f $pool $@

fi

return 0

}

# Return 0 if destroy successfully or the pool exists; $? otherwise

# Note: In local zones, this function should return 0 silently.

#

# $1 - pool name

# Destroy pool with the given parameters.

function destroy_pool #pool

{

typeset pool=${1%%/*}

typeset mtpt

if [[ -z $pool ]]; then

log_note "No pool name given."

return 1

fi

if is_global_zone ; then

if poolexists "$pool" ; then

mtpt=$(get_prop mountpoint "$pool")

# At times, syseventd activity can cause attempts to

# destroy a pool to fail with EBUSY. We retry a few

# times allowing failures before requiring the destroy

# to succeed.

typeset -i wait_time=10 ret=1 count=0

must=""

while [[ $ret -ne 0 ]]; do

$must $ZPOOL destroy -f $pool

ret=$?

[[ $ret -eq 0 ]] && break

log_note "zpool destroy failed with $ret"

[[ count++ -ge 7 ]] && must=log_must

$SLEEP $wait_time

done

[[ -d $mtpt ]] && \

log_must $RM -rf $mtpt

else

log_note "Pool does not exist. ($pool)"

return 1

fi

fi

return 0

}

#

# Firstly, create a pool with 5 datasets. Then, create a single zone and

# export the 5 datasets to it. In addition, we also add a ZFS filesystem

# and a zvol device to the zone.

#

# $1 zone name

# $2 zone root directory prefix

# $3 zone ip

#

function zfs_zones_setup #zone_name zone_root zone_ip

{

typeset zone_name=${1:-$(hostname)-z}

typeset zone_root=${2:-"/zone_root"}

typeset zone_ip=${3:-"10.1.1.10"}

typeset prefix_ctr=$ZONE_CTR

typeset pool_name=$ZONE_POOL

typeset -i cntctr=5

typeset -i i=0

# Create pool and 5 container within it

#

[[ -d /$pool_name ]] && $RM -rf /$pool_name

log_must $ZPOOL create -f $pool_name $DISKS

while ((i < cntctr)); do

log_must $ZFS create $pool_name/$prefix_ctr$i

((i += 1))

done

# create a zvol

log_must $ZFS create -V 1g $pool_name/zone_zvol

#

# If current system support slog, add slog device for pool

#

if verify_slog_support ; then

typeset sdevs="/var/tmp/sdev1 /var/tmp/sdev2"

log_must $MKFILE 100M $sdevs

log_must $ZPOOL add $pool_name log mirror $sdevs

fi

# this isn't supported just yet.

# Create a filesystem. In order to add this to

# the zone, it must have it's mountpoint set to 'legacy'

# log_must $ZFS create $pool_name/zfs_filesystem

# log_must $ZFS set mountpoint=legacy $pool_name/zfs_filesystem

[[ -d $zone_root ]] && \

log_must $RM -rf $zone_root/$zone_name

[[ ! -d $zone_root ]] && \

log_must $MKDIR -p -m 0700 $zone_root/$zone_name

# Create zone configure file and configure the zone

#

typeset zone_conf=/tmp/zone_conf.$$

$ECHO "create" > $zone_conf

$ECHO "set zonepath=$zone_root/$zone_name" >> $zone_conf

$ECHO "set autoboot=true" >> $zone_conf

i=0

while ((i < cntctr)); do

$ECHO "add dataset" >> $zone_conf

$ECHO "set name=$pool_name/$prefix_ctr$i" >> \

$zone_conf

$ECHO "end" >> $zone_conf

((i += 1))

done

# add our zvol to the zone

$ECHO "add device" >> $zone_conf

$ECHO "set match=/dev/zvol/dsk/$pool_name/zone_zvol" >> $zone_conf

$ECHO "end" >> $zone_conf

# add a corresponding zvol rdsk to the zone

$ECHO "add device" >> $zone_conf

$ECHO "set match=/dev/zvol/rdsk/$pool_name/zone_zvol" >> $zone_conf

$ECHO "end" >> $zone_conf

# once it's supported, we'll add our filesystem to the zone

# $ECHO "add fs" >> $zone_conf

# $ECHO "set type=zfs" >> $zone_conf

# $ECHO "set special=$pool_name/zfs_filesystem" >> $zone_conf

# $ECHO "set dir=/export/zfs_filesystem" >> $zone_conf

# $ECHO "end" >> $zone_conf

$ECHO "verify" >> $zone_conf

$ECHO "commit" >> $zone_conf

log_must $ZONECFG -z $zone_name -f $zone_conf

log_must $RM -f $zone_conf

# Install the zone

$ZONEADM -z $zone_name install

if (($? == 0)); then

log_note "SUCCESS: $ZONEADM -z $zone_name install"

else

log_fail "FAIL: $ZONEADM -z $zone_name install"

fi

# Install sysidcfg file

#

typeset sysidcfg=$zone_root/$zone_name/root/etc/sysidcfg

$ECHO "system_locale=C" > $sysidcfg

$ECHO "terminal=dtterm" >> $sysidcfg

$ECHO "network_interface=primary {" >> $sysidcfg

$ECHO "hostname=$zone_name" >> $sysidcfg

$ECHO "}" >> $sysidcfg

$ECHO "name_service=NONE" >> $sysidcfg

$ECHO "root_password=mo791xfZ/SFiw" >> $sysidcfg

$ECHO "security_policy=NONE" >> $sysidcfg

$ECHO "timezone=US/Eastern" >> $sysidcfg

# Boot this zone

log_must $ZONEADM -z $zone_name boot

}

#

# Reexport TESTPOOL & TESTPOOL(1-4)

#

function reexport_pool

{

typeset -i cntctr=5

typeset -i i=0

while ((i < cntctr)); do

if ((i == 0)); then

TESTPOOL=$ZONE_POOL/$ZONE_CTR$i

if ! ismounted $TESTPOOL; then

log_must $ZFS mount $TESTPOOL

fi

else

eval TESTPOOL$i=$ZONE_POOL/$ZONE_CTR$i

if eval ! ismounted \$TESTPOOL$i; then

log_must eval $ZFS mount \$TESTPOOL$i

fi

fi

((i += 1))

done

}

#

# Verify a given disk is online or offline

#

# Return 0 is pool/disk matches expected state, 1 otherwise

#

function check_state # pool disk state{online,offline}

{

typeset pool=$1

typeset disk=${2#/dev/dsk/}

typeset state=$3

$ZPOOL status -v $pool | grep "$disk" \

| grep -i "$state" > /dev/null 2>&1

return $?

}

#

# Get the mountpoint of snapshot

# For the snapshot use <mp_filesystem>/.zfs/snapshot/<snap>

# as its mountpoint

#

function snapshot_mountpoint

{

typeset dataset=${1:-$TESTPOOL/$TESTFS@$TESTSNAP}

if [[ $dataset != *@* ]]; then

log_fail "Error name of snapshot '$dataset'."

fi

typeset fs=${dataset%@*}

typeset snap=${dataset#*@}

if [[ -z $fs || -z $snap ]]; then

log_fail "Error name of snapshot '$dataset'."

fi

$ECHO $(get_prop mountpoint $fs)/.zfs/snapshot/$snap

}

#

# Given a pool and file system, this function will verify the file system

# using the zdb internal tool. Note that the pool is exported and imported

# to ensure it has consistent state.

#

function verify_filesys # pool filesystem dir

{

typeset pool="$1"

typeset filesys="$2"

typeset zdbout="/tmp/zdbout.$$"

shift

shift

typeset dirs=$@

typeset search_path=""

log_note "Calling $ZDB to verify filesystem '$filesys'"

$ZFS unmount -a > /dev/null 2>&1

log_must $ZPOOL export $pool

if [[ -n $dirs ]] ; then

for dir in $dirs ; do

search_path="$search_path -d $dir"

done

fi

log_must $ZPOOL import $search_path $pool

$ZDB -cudi $filesys > $zdbout 2>&1

if [[ $? != 0 ]]; then

log_note "Output: $ZDB -cudi $filesys"

$CAT $zdbout

log_fail "$ZDB detected errors with: '$filesys'"

fi

log_must $ZFS mount -a

log_must $RM -rf $zdbout

}

#

# Given a pool, and this function list all disks in the pool

#

function get_disklist # pool

{

typeset disklist=""

disklist=$($ZPOOL iostat -v $1 | $NAWK '(NR >4) {print $1}' | \

$GREP -v "\-\-\-\-\-" | \

$EGREP -v -e "^(mirror|raidz1|raidz2|spare|log|cache)$")

$ECHO $disklist

}

# /**

# This function kills a given list of processes after a time period. We use

# this in the stress tests instead of STF_TIMEOUT so that we can have processes

# run for a fixed amount of time, yet still pass. Tests that hit STF_TIMEOUT

# would be listed as FAIL, which we don't want : we're happy with stress tests

# running for a certain amount of time, then finishing.

#

# @param $1 the time in seconds after which we should terminate these processes

# @param $2..$n the processes we wish to terminate.

# */

function stress_timeout

{

typeset -i TIMEOUT=$1

shift

typeset cpids="$@"

log_note "Waiting for child processes($cpids). " \

"It could last dozens of minutes, please be patient ..."

log_must $SLEEP $TIMEOUT

log_note "Killing child processes after ${TIMEOUT} stress timeout."

typeset pid

for pid in $cpids; do

$PS -p $pid > /dev/null 2>&1

if (($? == 0)); then

log_must $KILL -USR1 $pid

fi

done

}

#

# Verify a given hotspare disk is inuse or avail

#

# Return 0 is pool/disk matches expected state, 1 otherwise

#

function check_hotspare_state # pool disk state{inuse,avail}

{

typeset pool=$1

typeset disk=${2#/dev/dsk/}

typeset state=$3

cur_state=$(get_device_state $pool $disk "spares")

if [[ $state != ${cur_state} ]]; then

return 1

fi

return 0

}

#

# Verify a given slog disk is inuse or avail

#

# Return 0 is pool/disk matches expected state, 1 otherwise

#

function check_slog_state # pool disk state{online,offline,unavail}

{

typeset pool=$1

typeset disk=${2#/dev/dsk/}

typeset state=$3

cur_state=$(get_device_state $pool $disk "logs")

if [[ $state != ${cur_state} ]]; then

return 1

fi

return 0

}

#

# Verify a given vdev disk is inuse or avail

#

# Return 0 is pool/disk matches expected state, 1 otherwise

#

function check_vdev_state # pool disk state{online,offline,unavail}

{

typeset pool=$1

typeset disk=${2#/dev/dsk/}

typeset state=$3

cur_state=$(get_device_state $pool $disk)

if [[ $state != ${cur_state} ]]; then

return 1

fi

return 0

}

#

# Check the output of 'zpool status -v <pool>',

# and to see if the content of <token> contain the <keyword> specified.

#

# Return 0 is contain, 1 otherwise

#

function check_pool_status # pool token keyword

{

typeset pool=$1

typeset token=$2

typeset keyword=$3

$ZPOOL status -v "$pool" 2>/dev/null | $NAWK -v token="$token:" '

($1==token) {print $0}' \

| $GREP -i "$keyword" > /dev/null 2>&1

return $?

}

#

# These 5 following functions are instance of check_pool_status()

# is_pool_resilvering - to check if the pool is resilver in progress

# is_pool_resilvered - to check if the pool is resilver completed

# is_pool_scrubbing - to check if the pool is scrub in progress

# is_pool_scrubbed - to check if the pool is scrub completed

# is_pool_scrub_stopped - to check if the pool is scrub stopped

#

function is_pool_resilvering #pool

{

check_pool_status "$1" "scan" "resilver in progress since "

return $?

}

function is_pool_resilvered #pool

{

check_pool_status "$1" "scan" "resilvered "

return $?

}

function is_pool_scrubbing #pool

{

check_pool_status "$1" "scan" "scrub in progress since "

return $?

}

function is_pool_scrubbed #pool

{

check_pool_status "$1" "scan" "scrub repaired"

return $?

}

function is_pool_scrub_stopped #pool

{

check_pool_status "$1" "scan" "scrub canceled"

return $?

}

#

# Use create_pool()/destroy_pool() to clean up the infomation in

# in the given disk to avoid slice overlapping.

#

function cleanup_devices #vdevs

{

typeset pool="foopool$$"

if poolexists $pool ; then

destroy_pool $pool

fi

create_pool $pool $@

destroy_pool $pool

return 0

}

#

# Verify the rsh connectivity to each remote host in RHOSTS.

#

# Return 0 if remote host is accessible; otherwise 1.

# $1 remote host name

# $2 username

#

function verify_rsh_connect #rhost, username

{

typeset rhost=$1

typeset username=$2

typeset rsh_cmd="$RSH -n"

typeset cur_user=

$GETENT hosts $rhost >/dev/null 2>&1

if (($? != 0)); then

log_note "$rhost cannot be found from" \

"administrative database."

return 1

fi

$PING $rhost 3 >/dev/null 2>&1

if (($? != 0)); then

log_note "$rhost is not reachable."

return 1

fi

if ((${#username} != 0)); then

rsh_cmd="$rsh_cmd -l $username"

cur_user="given user \"$username\""

else

cur_user="current user \"`$LOGNAME`\""

fi

if ! $rsh_cmd $rhost $TRUE; then

log_note "$RSH to $rhost is not accessible" \

"with $cur_user."

return 1

fi

return 0

}

#

# Verify the remote host connection via rsh after rebooting

# $1 remote host

#

function verify_remote

{

rhost=$1

#

# The following loop waits for the remote system rebooting.

# Each iteration will wait for 150 seconds. there are

# total 5 iterations, so the total timeout value will

# be 12.5 minutes for the system rebooting. This number

# is an approxiate number.

#

typeset -i count=0

while ! verify_rsh_connect $rhost; do

sleep 150

((count = count + 1))

if ((count > 5)); then

return 1

fi

done

return 0

}

#

# Replacement function for /usr/bin/rsh. This function will include

# the /usr/bin/rsh and meanwhile return the execution status of the

# last command.

#

# $1 usrname passing down to -l option of /usr/bin/rsh

# $2 remote machine hostname

# $3... command string

#

function rsh_status

{

typeset ruser=$1

typeset rhost=$2

typeset -i ret=0

typeset cmd_str=""

typeset rsh_str=""

shift; shift

cmd_str="$@"

err_file=/tmp/${rhost}.$$.err

if ((${#ruser} == 0)); then

rsh_str="$RSH -n"

else

rsh_str="$RSH -n -l $ruser"

fi

$rsh_str $rhost /usr/bin/ksh -c "'$cmd_str; \

print -u 2 \"status=\$?\"'" \

>/dev/null 2>$err_file

ret=$?

if (($ret != 0)); then

$CAT $err_file

$RM -f $std_file $err_file

log_fail "$RSH itself failed with exit code $ret..."

fi

ret=$($GREP -v 'print -u 2' $err_file | $GREP 'status=' | \

$CUT -d= -f2)

(($ret != 0)) && $CAT $err_file >&2

$RM -f $err_file >/dev/null 2>&1

return $ret

}

#

# Get the SUNWstc-fs-zfs package installation path in a remote host

# $1 remote host name

#

function get_remote_pkgpath

{

typeset rhost=$1

typeset pkgpath=""

pkgpath=$($RSH -n $rhost "$PKGINFO -l SUNWstc-fs-zfs | $GREP BASEDIR: |\

$CUT -d: -f2")

$ECHO $pkgpath

}

#/**

# A function to find and locate free disks on a system or from given

# disks as the parameter. It works by locating disks that are in use

# as swap devices and dump devices, and also disks listed in /etc/vfstab

#

# $@ given disks to find which are free, default is all disks in

# the test system

#

# @return a string containing the list of available disks

#*/

function find_disks

{

sfi=/tmp/swaplist.$$

dmpi=/tmp/dumpdev.$$

max_finddisksnum=${MAX_FINDDISKSNUM:-6}

$SWAP -l > $sfi

$DUMPADM > $dmpi 2>/dev/null

# write an awk script that can process the output of format

# to produce a list of disks we know about. Note that we have

# to escape "$2" so that the shell doesn't interpret it while

# we're creating the awk script.

# -------------------

$CAT > /tmp/find_disks.awk <<EOF

#!/bin/nawk -f

BEGIN { FS="."; }

/^Specify disk/{

searchdisks=0;

}

{

if (searchdisks && \$2 !~ "^$"){

split(\$2,arr," ");

print arr[1];

}

}

/^AVAILABLE DISK SELECTIONS:/{

searchdisks=1;

}

EOF

#---------------------

$CHMOD 755 /tmp/find_disks.awk

disks=${@:-$($ECHO "" | $FORMAT -e 2>/dev/null | /tmp/find_disks.awk)}

$RM /tmp/find_disks.awk

unused=""

for disk in $disks; do

# Check for mounted

$GREP "${disk}[sp]" /etc/mnttab >/dev/null

(($? == 0)) && continue

# Check for swap

$GREP "${disk}[sp]" $sfi >/dev/null

(($? == 0)) && continue

# check for dump device

$GREP "${disk}[sp]" $dmpi >/dev/null

(($? == 0)) && continue

# check to see if this disk hasn't been explicitly excluded

# by a user-set environment variable

$ECHO "${ZFS_HOST_DEVICES_IGNORE}" | $GREP "${disk}" > /dev/null

(($? == 0)) && continue

unused_candidates="$unused_candidates $disk"

done

$RM $sfi

$RM $dmpi

# now just check to see if those disks do actually exist

# by looking for a device pointing to the first slice in

# each case. limit the number to max_finddisksnum

count=0

for disk in $unused_candidates; do

if [ -b /dev/dsk/${disk}s0 ]; then

if [ $count -lt $max_finddisksnum ]; then

unused="$unused $disk"

# do not impose limit if $@ is provided

[[ -z $@ ]] && ((count = count + 1))

fi

fi

done

# finally, return our disk list

$ECHO $unused

}

#

# Add specified user to specified group

#

# $1 group name

# $2 user name

# $3 base of the homedir (optional)

#

function add_user #<group_name> <user_name> <basedir>

{

typeset gname=$1

typeset uname=$2

typeset basedir=${3:-"/var/tmp"}

if ((${#gname} == 0 || ${#uname} == 0)); then

log_fail "group name or user name are not defined."

fi

log_must $USERADD -g $gname -d $basedir/$uname -m $uname

return 0

}

#

# Delete the specified user.

#

# $1 login name

# $2 base of the homedir (optional)

#

function del_user #<logname> <basedir>

{

typeset user=$1

typeset basedir=${2:-"/var/tmp"}

if ((${#user} == 0)); then

log_fail "login name is necessary."

fi

if $ID $user > /dev/null 2>&1; then

log_must $USERDEL $user

fi

[[ -d $basedir/$user ]] && $RM -fr $basedir/$user

return 0

}

#

# Select valid gid and create specified group.

#

# $1 group name

#

function add_group #<group_name>

{

typeset group=$1

if ((${#group} == 0)); then

log_fail "group name is necessary."

fi

# Assign 100 as the base gid

typeset -i gid=100

while true; do

$GROUPADD -g $gid $group > /dev/null 2>&1

typeset -i ret=$?

case $ret in

0) return 0 ;;

# The gid is not unique

4) ((gid += 1)) ;;

*) return 1 ;;

esac

done

}

#

# Delete the specified group.

#

# $1 group name

#

function del_group #<group_name>

{

typeset grp=$1

if ((${#grp} == 0)); then

log_fail "group name is necessary."

fi

$GROUPMOD -n $grp $grp > /dev/null 2>&1

typeset -i ret=$?

case $ret in

# Group does not exist.

6) return 0 ;;

# Name already exists as a group name

9) log_must $GROUPDEL $grp ;;

*) return 1 ;;

esac

return 0

}

#

# This function will return true if it's safe to destroy the pool passed

# as argument 1. It checks for pools based on zvols and files, and also

# files contained in a pool that may have a different mountpoint.

#

function safe_to_destroy_pool { # $1 the pool name

typeset pool=""

typeset DONT_DESTROY=""

# We check that by deleting the $1 pool, we're not

# going to pull the rug out from other pools. Do this

# by looking at all other pools, ensuring that they

# aren't built from files or zvols contained in this pool.

for pool in $($ZPOOL list -H -o name)

do

ALTMOUNTPOOL=""

# this is a list of the top-level directories in each of the

# files that make up the path to the files the pool is based on

FILEPOOL=$($ZPOOL status -v $pool | $GREP /$1/ | \

$AWK '{print $1}')

# this is a list of the zvols that make up the pool

ZVOLPOOL=$($ZPOOL status -v $pool | $GREP "/dev/zvol/dsk/$1$" \

| $AWK '{print $1}')

# also want to determine if it's a file-based pool using an

# alternate mountpoint...

POOL_FILE_DIRS=$($ZPOOL status -v $pool | \

$GREP / | $AWK '{print $1}' | \

$AWK -F/ '{print $2}' | $GREP -v "dev")

for pooldir in $POOL_FILE_DIRS

do

OUTPUT=$($ZFS list -H -r -o mountpoint $1 | \

$GREP "${pooldir}$" | $AWK '{print $1}')

ALTMOUNTPOOL="${ALTMOUNTPOOL}${OUTPUT}"

done

if [ ! -z "$ZVOLPOOL" ]

then

DONT_DESTROY="true"

log_note "Pool $pool is built from $ZVOLPOOL on $1"

fi

if [ ! -z "$FILEPOOL" ]

then

DONT_DESTROY="true"

log_note "Pool $pool is built from $FILEPOOL on $1"

fi

if [ ! -z "$ALTMOUNTPOOL" ]

then

DONT_DESTROY="true"

log_note "Pool $pool is built from $ALTMOUNTPOOL on $1"

fi

done

if [ -z "${DONT_DESTROY}" ]

then

return 0

else

log_note "Warning: it is not safe to destroy $1!"

return 1

fi

}

#

# Get the available ZFS compression options

# $1 option type zfs_set|zfs_compress

#

function get_compress_opts

{

typeset COMPRESS_OPTS

typeset GZIP_OPTS="gzip gzip-1 gzip-2 gzip-3 gzip-4 gzip-5 \

gzip-6 gzip-7 gzip-8 gzip-9"

if [[ $1 == "zfs_compress" ]] ; then

COMPRESS_OPTS="on lzjb"

elif [[ $1 == "zfs_set" ]] ; then

COMPRESS_OPTS="on off lzjb"

fi

typeset valid_opts="$COMPRESS_OPTS"

$ZFS get 2>&1 | $GREP gzip >/dev/null 2>&1

if [[ $? -eq 0 ]]; then

valid_opts="$valid_opts $GZIP_OPTS"

fi

$ECHO "$valid_opts"

}

#

# Verify zfs operation with -p option work as expected

# $1 operation, value could be create, clone or rename

# $2 dataset type, value could be fs or vol

# $3 dataset name

# $4 new dataset name

#

function verify_opt_p_ops

{

typeset ops=$1

typeset datatype=$2

typeset dataset=$3

typeset newdataset=$4

if [[ $datatype != "fs" && $datatype != "vol" ]]; then

log_fail "$datatype is not supported."

fi

# check parameters accordingly

case $ops in

create)

newdataset=$dataset

dataset=""

if [[ $datatype == "vol" ]]; then

ops="create -V $VOLSIZE"

fi

;;

clone)

if [[ -z $newdataset ]]; then

log_fail "newdataset should not be empty" \

"when ops is $ops."

fi

log_must datasetexists $dataset

log_must snapexists $dataset

;;

rename)

if [[ -z $newdataset ]]; then

log_fail "newdataset should not be empty" \

"when ops is $ops."

fi

log_must datasetexists $dataset

log_mustnot snapexists $dataset

;;

*)

log_fail "$ops is not supported."

;;

esac

# make sure the upper level filesystem does not exist

if datasetexists ${newdataset%/*} ; then

log_must $ZFS destroy -rRf ${newdataset%/*}

fi

# without -p option, operation will fail

log_mustnot $ZFS $ops $dataset $newdataset

log_mustnot datasetexists $newdataset ${newdataset%/*}

# with -p option, operation should succeed

log_must $ZFS $ops -p $dataset $newdataset

if ! datasetexists $newdataset ; then

log_fail "-p option does not work for $ops"

fi

# when $ops is create or clone, redo the operation still return zero

if [[ $ops != "rename" ]]; then

log_must $ZFS $ops -p $dataset $newdataset

fi

return 0

}

#

# Get configuration of pool

# $1 pool name

# $2 config name

#

function get_config

{

typeset pool=$1

typeset config=$2

typeset alt_root

if ! poolexists "$pool" ; then

return 1

fi

alt_root=$($ZPOOL list -H $pool | $AWK '{print $NF}')

if [[ $alt_root == "-" ]]; then

value=$($ZDB -C $pool | $GREP "$config:" | $AWK -F: \

'{print $2}')

else

value=$($ZDB -e $pool | $GREP "$config:" | $AWK -F: \

'{print $2}')

fi

if [[ -n $value ]] ; then

value=${value#'}

value=${value%'}

fi

echo $value

return 0

}

#

# Privated function. Random select one of items from arguments.

#

# $1 count

# $2-n string

#

function _random_get

{

typeset cnt=$1

shift

typeset str="$@"

typeset -i ind

((ind = RANDOM % cnt + 1))

typeset ret=$($ECHO "$str" | $CUT -f $ind -d ' ')

$ECHO $ret

}

#

# Random select one of item from arguments which include NONE string

#

function random_get_with_non

{

typeset -i cnt=$#

((cnt =+ 1))

_random_get "$cnt" "$@"

}

#

# Random select one of item from arguments which doesn't include NONE string

#

function random_get

{

_random_get "$#" "$@"

}

#

# Detect if the current system support slog

#

function verify_slog_support

{

typeset dir=/tmp/disk.$$

typeset pool=foo.$$

typeset vdev=$dir/a

typeset sdev=$dir/b

$MKDIR -p $dir

$MKFILE 64M $vdev $sdev

typeset -i ret=0

if ! $ZPOOL create -n $pool $vdev log $sdev > /dev/null 2>&1; then

ret=1

fi

$RM -r $dir

return $ret

}

#

# The function will generate a dataset name with specific length

# $1, the length of the name

# $2, the base string to construct the name

#

function gen_dataset_name

{

typeset -i len=$1

typeset basestr="$2"

typeset -i baselen=${#basestr}

typeset -i iter=0

typeset l_name=""

if ((len % baselen == 0)); then

((iter = len / baselen))

else

((iter = len / baselen + 1))

fi

while ((iter > 0)); do

l_name="${l_name}$basestr"

((iter -= 1))

done

$ECHO $l_name

}

#

# Get cksum tuple of dataset

# $1 dataset name

#

# sample zdb output:

# Dataset data/test [ZPL], ID 355, cr_txg 2413856, 31.0K, 7 objects, rootbp

# DVA[0]=<0:803046400:200> DVA[1]=<0:81199000:200> [L0 DMU objset] fletcher4

# lzjb LE contiguous unique double size=800L/200P birth=2413856L/2413856P

# fill=7 cksum=11ce125712:643a9c18ee2:125e25238fca0:254a3f74b59744

function datasetcksum

{

typeset cksum

$SYNC

cksum=$($ZDB -vvv $1 | $GREP "^Dataset $1 \[" | $GREP "cksum" \

| $AWK -F= '{print $7}')

$ECHO $cksum

}

#

# Get cksum of file

# #1 file path

#

function checksum

{

typeset cksum

cksum=$($CKSUM $1 | $AWK '{print $1}')

$ECHO $cksum

}

#

# Get the given disk/slice state from the specific field of the pool

#

function get_device_state #pool disk field("", "spares","logs")

{

typeset pool=$1

typeset disk=${2#/dev/dsk/}

typeset field=${3:-$pool}

state=$($ZPOOL status -v "$pool" 2>/dev/null | \

$NAWK -v device=$disk -v pool=$pool -v field=$field \

'BEGIN {startconfig=0; startfield=0; }

/config:/ {startconfig=1}

(startconfig==1) && ($1==field) {startfield=1; next;}

(startfield==1) && ($1==device) {print $2; exit;}

(startfield==1) &&

($1==field || $1 ~ "^spares$" || $1 ~ "^logs$") {startfield=0}')

echo $state

}

#

# print the given directory filesystem type

#

# $1 directory name

#

function get_fstype

{

typeset dir=$1

if [[ -z $dir ]]; then

log_fail "Usage: get_fstype <directory>"

fi

#

# $ df -n /

# / : ufs

#

$DF -n $dir | $AWK '{print $3}'

}

#

# Given a disk, label it to VTOC regardless what label was on the disk

# $1 disk

#

function labelvtoc

{

typeset disk=$1

if [[ -z $disk ]]; then

log_fail "The disk name is unspecified."

fi

typeset label_file=/var/tmp/labelvtoc.$$

typeset arch=$($UNAME -p)

if [[ $arch == "i386" ]]; then

$ECHO "label" > $label_file

$ECHO "0" >> $label_file

$ECHO "" >> $label_file

$ECHO "q" >> $label_file

$ECHO "q" >> $label_file

$FDISK -B $disk >/dev/null 2>&1

# wait a while for fdisk finishes

$SLEEP 60

elif [[ $arch == "sparc" ]]; then

$ECHO "label" > $label_file

$ECHO "0" >> $label_file

$ECHO "" >> $label_file

$ECHO "" >> $label_file

$ECHO "" >> $label_file

$ECHO "q" >> $label_file

else

log_fail "unknown arch type"

fi

$FORMAT -e -s -d $disk -f $label_file

typeset -i ret_val=$?

$RM -f $label_file

#

# wait the format to finish

#

$SLEEP 60

if ((ret_val != 0)); then

log_fail "unable to label $disk as VTOC."

fi

return 0

}

#

# check if the system was installed as zfsroot or not

# return: 0 ture, otherwise false

#

function is_zfsroot

{

$DF -n / | $GREP zfs > /dev/null 2>&1

return $?

}

#

# get the root filesystem name if it's zfsroot system.

#

# return: root filesystem name

function get_rootfs

{

typeset rootfs=""

rootfs=$($AWK '{if ($2 == "/" && $3 == "zfs") print $1}' \

/etc/mnttab)

if [[ -z "$rootfs" ]]; then

log_fail "Can not get rootfs"

fi

$ZFS list $rootfs > /dev/null 2>&1

if (($? == 0)); then

$ECHO $rootfs

else

log_fail "This is not a zfsroot system."

fi

}

#

# get the rootfs's pool name

# return:

# rootpool name

#

function get_rootpool

{

typeset rootfs=""

typeset rootpool=""

rootfs=$($AWK '{if ($2 == "/" && $3 =="zfs") print $1}' \

/etc/mnttab)

if [[ -z "$rootfs" ]]; then

log_fail "Can not get rootpool"

fi

$ZFS list $rootfs > /dev/null 2>&1

if (($? == 0)); then

rootpool=`$ECHO $rootfs | awk -F\/ '{print $1}'`

$ECHO $rootpool

else

log_fail "This is not a zfsroot system."

fi

}

#

# Check if the given device is physical device

#

function is_physical_device #device

{

typeset device=${1#/dev/dsk/}

device=${device#/dev/rdsk/}

$ECHO $device | $EGREP "^c[0-F]+([td][0-F]+)+$" > /dev/null 2>&1

return $?

}

#

# Get the directory path of given device

#

function get_device_dir #device

{

typeset device=$1

if ! $(is_physical_device $device) ; then

if [[ $device != "/" ]]; then

device=${device%/*}

fi

$ECHO $device

else

$ECHO "/dev/dsk"

fi

}

#

# Get the package name

#

function get_package_name

{

typeset dirpath=${1:-$STC_NAME}

echo "SUNWstc-${dirpath}" | /usr/bin/sed -e "s/\//-/g"

}

#

# Get the word numbers from a string separated by white space

#

function get_word_count

{

$ECHO $1 | $WC -w

}

#

# To verify if the require numbers of disks is given

#

function verify_disk_count

{

typeset -i min=${2:-1}

typeset -i count=$(get_word_count "$1")

if ((count < min)); then

log_untested "A minimum of $min disks is required to run." \

" You specified $count disk(s)"

fi

}

function ds_is_volume

{

typeset type=$(get_prop type $1)

[[ $type = "volume" ]] && return 0

return 1

}

function ds_is_filesystem

{

typeset type=$(get_prop type $1)

[[ $type = "filesystem" ]] && return 0

return 1

}

function ds_is_snapshot

{

typeset type=$(get_prop type $1)

[[ $type = "snapshot" ]] && return 0

return 1

}

#

# Check if Trusted Extensions are installed and enabled

#

function is_te_enabled

{

$SVCS -H -o state labeld 2>/dev/null | $GREP "enabled"

if (($? != 0)); then

return 1

else

return 0

fi

}

# Utility function to determine if a system has multiple cpus.

function is_mp

{

(($($PSRINFO | $WC -l) > 1))

}

function get_cpu_freq

{

$PSRINFO -v 0 | $AWK '/processor operates at/ {print $6}'

}

# Run the given command as the user provided.

function user_run

{

typeset user=$1

shift

eval \$SU \$user -c \"$@\" > /tmp/out 2>/tmp/err

return $?

}

#

# Check if the pool contains the specified vdevs

#

# $1 pool

# $2..n <vdev> ...

#

# Return 0 if the vdevs are contained in the pool, 1 if any of the specified

# vdevs is not in the pool, and 2 if pool name is missing.

#

function vdevs_in_pool

{

typeset pool=$1

typeset vdev

if [[ -z $pool ]]; then

log_note "Missing pool name."

return 2

fi

shift

typeset tmpfile=$($MKTEMP)

$ZPOOL list -Hv "$pool" >$tmpfile

for vdev in $@; do

$GREP -w ${vdev##*/} $tmpfile >/dev/null 2>&1

[[ $? -ne 0 ]] && return 1

done

$RM -f $tmpfile

return 0;

}

function get_max

{

typeset -l i max=$1

shift

for i in "$@"; do

max=$(echo $((max > i ? max : i)))

done

echo $max

}

function get_min

{

typeset -l i min=$1

shift

for i in "$@"; do

min=$(echo $((min < i ? min : i)))

done

echo $min

}