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f74b821a66
ZFS allows for specific permissions to be delegated to normal users with the `zfs allow` and `zfs unallow` commands. In addition, non- privileged users should be able to run all of the following commands: * zpool [list | iostat | status | get] * zfs [list | get] Historically this functionality was not available on Linux. In order to add it the secpolicy_* functions needed to be implemented and mapped to the equivalent Linux capability. Only then could the permissions on the `/dev/zfs` be relaxed and the internal ZFS permission checks used. Even with this change some limitations remain. Under Linux only the root user is allowed to modify the namespace (unless it's a private namespace). This means the mount, mountpoint, canmount, unmount, and remount delegations cannot be supported with the existing code. It may be possible to add this functionality in the future. This functionality was validated with the cli_user and delegation test cases from the ZFS Test Suite. These tests exhaustively verify each of the supported permissions which can be delegated and ensures only an authorized user can perform it. Two minor bug fixes were required for test-running.py. First, the Timer() object cannot be safely created in a `try:` block when there is an unconditional `finally` block which references it. Second, when running as a normal user also check for scripts using the both the .ksh and .sh suffixes. Finally, existing users who are simulating delegations by setting group permissions on the /dev/zfs device should revert that customization when updating to a version with this change. Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Signed-off-by: Tony Hutter <hutter2@llnl.gov> Closes #362 Closes #434 Closes #4100 Closes #4394 Closes #4410 Closes #4487
697 lines
21 KiB
Bash
Executable File
697 lines
21 KiB
Bash
Executable File
#!/bin/bash
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#
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# ZFS/ZPOOL configuration test script.
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basedir="$(dirname $0)"
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SCRIPT_COMMON=common.sh
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if [ -f "${basedir}/${SCRIPT_COMMON}" ]; then
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. "${basedir}/${SCRIPT_COMMON}"
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else
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echo "Missing helper script ${SCRIPT_COMMON}" && exit 1
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fi
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PROG=zconfig.sh
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usage() {
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cat << EOF
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USAGE:
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$0 [hvcts]
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DESCRIPTION:
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ZFS/ZPOOL configuration tests
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OPTIONS:
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-h Show this message
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-v Verbose
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-c Cleanup lo+file devices at start
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-t <#> Run listed tests
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-s <#> Skip listed tests
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EOF
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}
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while getopts 'hvct:s:?' OPTION; do
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case $OPTION in
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h)
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usage
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exit 1
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;;
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v)
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VERBOSE=1
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;;
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c)
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CLEANUP=1
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;;
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t)
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TESTS_RUN=($OPTARG)
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;;
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s)
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TESTS_SKIP=($OPTARG)
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;;
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?)
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usage
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exit
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;;
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esac
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done
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if [ $(id -u) != 0 ]; then
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die "Must run as root"
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fi
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# Initialize the test suite
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init
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# Disable the udev rule 90-zfs.rules to prevent the zfs module
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# stack from being loaded due to the detection of a zfs device.
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# This is important because this test scripts require full control
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# over when and how the modules are loaded/unloaded. A trap is
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# set to ensure the udev rule is correctly replaced on exit.
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RULE=${udevruledir}/90-zfs.rules
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if test -e ${RULE}; then
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trap "mv ${RULE}.disabled ${RULE}" INT TERM EXIT
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mv ${RULE} ${RULE}.disabled
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fi
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# Perform pre-cleanup is requested
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if [ ${CLEANUP} ]; then
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${ZFS_SH} -u
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cleanup_md_devices
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cleanup_loop_devices
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rm -f /tmp/zpool.cache.*
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fi
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# Check if we need to skip the tests that require scsi_debug and lsscsi.
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SCSI_DEBUG=0
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${INFOMOD} scsi_debug &>/dev/null && SCSI_DEBUG=1
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HAVE_LSSCSI=0
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test -f ${LSSCSI} && HAVE_LSSCSI=1
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if [ ${SCSI_DEBUG} -eq 0 ] || [ ${HAVE_LSSCSI} -eq 0 ]; then
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echo "Skipping test 10 which requires the scsi_debug " \
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"module and the ${LSSCSI} utility"
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fi
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# Validate persistent zpool.cache configuration.
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test_1() {
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local POOL_NAME=test1
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local TMP_FILE1=`mktemp`
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local TMP_FILE2=`mktemp`
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local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
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# Create a pool save its status for comparison.
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${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 1
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${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 || fail 2
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${ZPOOL} status ${POOL_NAME} >${TMP_FILE1} || fail 3
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# Unload/load the module stack and verify the pool persists.
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${ZFS_SH} -u || fail 4
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${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 5
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${ZPOOL} import -c ${TMP_CACHE} ${POOL_NAME} || fail 5
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${ZPOOL} status ${POOL_NAME} >${TMP_FILE2} || fail 6
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cmp ${TMP_FILE1} ${TMP_FILE2} || fail 7
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# Cleanup the test pool and temporary files
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${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 -d || fail 8
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rm -f ${TMP_FILE1} ${TMP_FILE2} ${TMP_CACHE} || fail 9
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${ZFS_SH} -u || fail 10
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pass
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}
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run_test 1 "persistent zpool.cache"
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# Validate ZFS disk scanning and import w/out zpool.cache configuration.
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test_2() {
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local POOL_NAME=test2
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local TMP_FILE1=`mktemp`
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local TMP_FILE2=`mktemp`
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local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
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# Create a pool save its status for comparison.
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${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 1
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${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 || fail 2
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${ZPOOL} status ${POOL_NAME} >${TMP_FILE1} || fail 3
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# Unload the module stack, remove the cache file, load the module
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# stack and attempt to probe the disks to import the pool. As
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# a cross check verify the old pool state against the imported.
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${ZFS_SH} -u || fail 4
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rm -f ${TMP_CACHE} || fail 5
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${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 6
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${ZPOOL} import -d /dev ${POOL_NAME} || fail 8
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${ZPOOL} status ${POOL_NAME} >${TMP_FILE2} || fail 9
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cmp ${TMP_FILE1} ${TMP_FILE2} || fail 10
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# Cleanup the test pool and temporary files
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${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 -d || fail 11
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rm -f ${TMP_FILE1} ${TMP_FILE2} || fail 12
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${ZFS_SH} -u || fail 13
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pass
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}
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run_test 2 "scan disks for pools to import"
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zconfig_zvol_device_stat() {
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local EXPECT=$1
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local POOL_NAME=/dev/zvol/$2
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local ZVOL_NAME=/dev/zvol/$3
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local SNAP_NAME=/dev/zvol/$4
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local CLONE_NAME=/dev/zvol/$5
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local COUNT=0
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# Briefly delay for udev
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udev_trigger
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# Pool exists
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stat ${POOL_NAME} &>/dev/null && let COUNT=$COUNT+1
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# Volume and partitions
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stat ${ZVOL_NAME} &>/dev/null && let COUNT=$COUNT+1
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stat ${ZVOL_NAME}-part1 &>/dev/null && let COUNT=$COUNT+1
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stat ${ZVOL_NAME}-part2 &>/dev/null && let COUNT=$COUNT+1
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# Snapshot with partitions
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stat ${SNAP_NAME} &>/dev/null && let COUNT=$COUNT+1
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stat ${SNAP_NAME}-part1 &>/dev/null && let COUNT=$COUNT+1
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stat ${SNAP_NAME}-part2 &>/dev/null && let COUNT=$COUNT+1
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# Clone with partitions
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stat ${CLONE_NAME} &>/dev/null && let COUNT=$COUNT+1
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stat ${CLONE_NAME}-part1 &>/dev/null && let COUNT=$COUNT+1
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stat ${CLONE_NAME}-part2 &>/dev/null && let COUNT=$COUNT+1
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if [ $EXPECT -ne $COUNT ]; then
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return 1
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fi
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return 0
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}
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# zpool import/export device check
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# (1 volume, 2 partitions, 1 snapshot, 1 clone)
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test_3() {
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local POOL_NAME=tank
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local ZVOL_NAME=volume
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local SNAP_NAME=snap
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local CLONE_NAME=clone
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local FULL_ZVOL_NAME=${POOL_NAME}/${ZVOL_NAME}
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local FULL_SNAP_NAME=${POOL_NAME}/${ZVOL_NAME}@${SNAP_NAME}
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local FULL_CLONE_NAME=${POOL_NAME}/${CLONE_NAME}
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local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
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# Create a pool, volume, partition, snapshot, and clone.
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${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 1
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${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 || fail 2
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${ZFS} create -V 100M ${FULL_ZVOL_NAME} || fail 3
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${ZFS} set snapdev=visible ${FULL_ZVOL_NAME} || fail 3
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label /dev/zvol/${FULL_ZVOL_NAME} msdos || fail 4
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partition /dev/zvol/${FULL_ZVOL_NAME} primary 1% 50% || fail 4
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partition /dev/zvol/${FULL_ZVOL_NAME} primary 51% -1 || fail 4
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${ZFS} snapshot ${FULL_SNAP_NAME} || fail 5
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${ZFS} clone ${FULL_SNAP_NAME} ${FULL_CLONE_NAME} || fail 6
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# Verify the devices were created
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zconfig_zvol_device_stat 10 ${POOL_NAME} ${FULL_ZVOL_NAME} \
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${FULL_SNAP_NAME} ${FULL_CLONE_NAME} || fail 7
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# Export the pool
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${ZPOOL} export ${POOL_NAME} || fail 8
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# verify the devices were removed
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zconfig_zvol_device_stat 0 ${POOL_NAME} ${FULL_ZVOL_NAME} \
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${FULL_SNAP_NAME} ${FULL_CLONE_NAME} || fail 9
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# Import the pool, wait 1 second for udev
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${ZPOOL} import ${POOL_NAME} || fail 10
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# Verify the devices were created
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zconfig_zvol_device_stat 10 ${POOL_NAME} ${FULL_ZVOL_NAME} \
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${FULL_SNAP_NAME} ${FULL_CLONE_NAME} || fail 11
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# Toggle the snapdev and observe snapshot device links toggled
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${ZFS} set snapdev=hidden ${FULL_ZVOL_NAME} || fail 12
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zconfig_zvol_device_stat 7 ${POOL_NAME} ${FULL_ZVOL_NAME} \
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"invalid" ${FULL_CLONE_NAME} || fail 13
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${ZFS} set snapdev=visible ${FULL_ZVOL_NAME} || fail 14
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zconfig_zvol_device_stat 10 ${POOL_NAME} ${FULL_ZVOL_NAME} \
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${FULL_SNAP_NAME} ${FULL_CLONE_NAME} || fail 15
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# Destroy the pool and consequently the devices
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${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 -d || fail 16
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# verify the devices were removed
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zconfig_zvol_device_stat 0 ${POOL_NAME} ${FULL_ZVOL_NAME} \
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${FULL_SNAP_NAME} ${FULL_CLONE_NAME} || fail 17
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${ZFS_SH} -u || fail 18
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rm -f ${TMP_CACHE} || fail 19
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pass
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}
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run_test 3 "zpool import/export device"
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# zpool insmod/rmmod device check (1 volume, 1 snapshot, 1 clone)
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test_4() {
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POOL_NAME=tank
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ZVOL_NAME=volume
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SNAP_NAME=snap
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CLONE_NAME=clone
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FULL_ZVOL_NAME=${POOL_NAME}/${ZVOL_NAME}
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FULL_SNAP_NAME=${POOL_NAME}/${ZVOL_NAME}@${SNAP_NAME}
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FULL_CLONE_NAME=${POOL_NAME}/${CLONE_NAME}
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TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
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# Create a pool, volume, snapshot, and clone
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${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 1
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${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 || fail 2
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${ZFS} create -V 100M ${FULL_ZVOL_NAME} || fail 3
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${ZFS} set snapdev=visible ${FULL_ZVOL_NAME} || fail 3
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label /dev/zvol/${FULL_ZVOL_NAME} msdos || fail 4
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partition /dev/zvol/${FULL_ZVOL_NAME} primary 1% 50% || fail 4
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partition /dev/zvol/${FULL_ZVOL_NAME} primary 51% -1 || fail 4
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${ZFS} snapshot ${FULL_SNAP_NAME} || fail 5
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${ZFS} clone ${FULL_SNAP_NAME} ${FULL_CLONE_NAME} || fail 6
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# Verify the devices were created
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zconfig_zvol_device_stat 10 ${POOL_NAME} ${FULL_ZVOL_NAME} \
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${FULL_SNAP_NAME} ${FULL_CLONE_NAME} || fail 7
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# Unload the modules
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${ZFS_SH} -u || fail 8
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# Verify the devices were removed
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zconfig_zvol_device_stat 0 ${POOL_NAME} ${FULL_ZVOL_NAME} \
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${FULL_SNAP_NAME} ${FULL_CLONE_NAME} || fail 9
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# Load the modules, list the pools to ensure they are opened
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${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 10
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${ZPOOL} import -c ${TMP_CACHE} ${POOL_NAME} || fail 10
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${ZPOOL} list &>/dev/null
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# Verify the devices were created
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zconfig_zvol_device_stat 10 ${POOL_NAME} ${FULL_ZVOL_NAME} \
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${FULL_SNAP_NAME} ${FULL_CLONE_NAME} || fail 11
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# Destroy the pool and consequently the devices
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${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 -d || fail 12
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# Verify the devices were removed
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zconfig_zvol_device_stat 0 ${POOL_NAME} ${FULL_ZVOL_NAME} \
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${FULL_SNAP_NAME} ${FULL_CLONE_NAME} || fail 13
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${ZFS_SH} -u || fail 14
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rm -f ${TMP_CACHE} || fail 15
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pass
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}
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run_test 4 "zpool insmod/rmmod device"
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# ZVOL volume sanity check
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test_5() {
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local POOL_NAME=tank
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local ZVOL_NAME=fish
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local FULL_NAME=${POOL_NAME}/${ZVOL_NAME}
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local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
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# Create a pool and volume.
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${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 1
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${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raid0 || fail 2
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${ZFS} create -V 800M ${FULL_NAME} || fail 3
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label /dev/zvol/${FULL_NAME} msdos || fail 4
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partition /dev/zvol/${FULL_NAME} primary 1 -1 || fail 4
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format /dev/zvol/${FULL_NAME}-part1 ext2 || fail 5
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# Mount the ext2 filesystem and copy some data to it.
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mkdir -p /tmp/${ZVOL_NAME}-part1 || fail 6
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mount /dev/zvol/${FULL_NAME}-part1 /tmp/${ZVOL_NAME}-part1 || fail 7
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cp -RL ${SRC_DIR} /tmp/${ZVOL_NAME}-part1 || fail 8
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sync
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# Verify the copied files match the original files.
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diff -ur ${SRC_DIR} /tmp/${ZVOL_NAME}-part1/${SRC_DIR##*/} \
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&>/dev/null || fail 9
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# Remove the files, umount, destroy the volume and pool.
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rm -Rf /tmp/${ZVOL_NAME}-part1/${SRC_DIR##*/} || fail 10
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umount /tmp/${ZVOL_NAME}-part1 || fail 11
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rmdir /tmp/${ZVOL_NAME}-part1 || fail 12
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${ZFS} destroy ${FULL_NAME} || fail 13
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${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 -d || fail 14
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${ZFS_SH} -u || fail 15
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rm -f ${TMP_CACHE} || fail 16
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pass
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}
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run_test 5 "zvol+ext2 volume"
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# ZVOL snapshot sanity check
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test_6() {
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local POOL_NAME=tank
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local ZVOL_NAME=fish
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local SNAP_NAME=pristine
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local FULL_ZVOL_NAME=${POOL_NAME}/${ZVOL_NAME}
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local FULL_SNAP_NAME=${POOL_NAME}/${ZVOL_NAME}@${SNAP_NAME}
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local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
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# Create a pool and volume.
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${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 1
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${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raid0 || fail 2
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${ZFS} create -V 800M ${FULL_ZVOL_NAME} || fail 3
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${ZFS} set snapdev=visible ${FULL_ZVOL_NAME} || fail 3
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label /dev/zvol/${FULL_ZVOL_NAME} msdos || fail 4
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partition /dev/zvol/${FULL_ZVOL_NAME} primary 1 -1 || fail 4
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format /dev/zvol/${FULL_ZVOL_NAME}-part1 ext2 || fail 5
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# Mount the ext2 filesystem and copy some data to it.
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mkdir -p /tmp/${ZVOL_NAME}-part1 || fail 6
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mount /dev/zvol/${FULL_ZVOL_NAME}-part1 /tmp/${ZVOL_NAME}-part1 \
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|| fail 7
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# Snapshot the pristine ext2 filesystem and mount it read-only.
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${ZFS} snapshot ${FULL_SNAP_NAME} || fail 8
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wait_udev /dev/zvol/${FULL_SNAP_NAME}-part1 30 || fail 8
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mkdir -p /tmp/${SNAP_NAME}-part1 || fail 9
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mount /dev/zvol/${FULL_SNAP_NAME}-part1 /tmp/${SNAP_NAME}-part1 \
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&>/dev/null || fail 10
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# Copy to original volume
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cp -RL ${SRC_DIR} /tmp/${ZVOL_NAME}-part1 || fail 11
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sync
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# Verify the copied files match the original files,
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# and the copied files do NOT appear in the snapshot.
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diff -ur ${SRC_DIR} /tmp/${ZVOL_NAME}-part1/${SRC_DIR##*/} \
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&>/dev/null || fail 12
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diff -ur ${SRC_DIR} /tmp/${SNAP_NAME}-part1/${SRC_DIR##*/} \
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&>/dev/null && fail 13
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# umount, destroy the snapshot, volume, and pool.
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umount /tmp/${SNAP_NAME}-part1 || fail 14
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rmdir /tmp/${SNAP_NAME}-part1 || fail 15
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${ZFS} destroy ${FULL_SNAP_NAME} || fail 16
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umount /tmp/${ZVOL_NAME}-part1 || fail 17
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rmdir /tmp/${ZVOL_NAME}-part1 || fail 18
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${ZFS} destroy ${FULL_ZVOL_NAME} || fail 19
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${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 -d || fail 20
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${ZFS_SH} -u || fail 21
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rm -f ${TMP_CACHE} || fail 22
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pass
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}
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run_test 6 "zvol+ext2 snapshot"
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# ZVOL clone sanity check
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test_7() {
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local POOL_NAME=tank
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local ZVOL_NAME=fish
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local SNAP_NAME=pristine
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local CLONE_NAME=clone
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local FULL_ZVOL_NAME=${POOL_NAME}/${ZVOL_NAME}
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local FULL_SNAP_NAME=${POOL_NAME}/${ZVOL_NAME}@${SNAP_NAME}
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local FULL_CLONE_NAME=${POOL_NAME}/${CLONE_NAME}
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local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
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# Create a pool and volume.
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${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 1
|
|
${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 || fail 2
|
|
${ZFS} create -V 300M ${FULL_ZVOL_NAME} || fail 3
|
|
${ZFS} set snapdev=visible ${FULL_ZVOL_NAME} || fail 3
|
|
label /dev/zvol/${FULL_ZVOL_NAME} msdos || fail 4
|
|
partition /dev/zvol/${FULL_ZVOL_NAME} primary 1 -1 || fail 4
|
|
format /dev/zvol/${FULL_ZVOL_NAME}-part1 ext2 || fail 5
|
|
|
|
# Snapshot the pristine ext2 filesystem.
|
|
${ZFS} snapshot ${FULL_SNAP_NAME} || fail 6
|
|
wait_udev /dev/zvol/${FULL_SNAP_NAME}-part1 30 || fail 7
|
|
|
|
# Mount the ext2 filesystem so some data can be copied to it.
|
|
mkdir -p /tmp/${ZVOL_NAME}-part1 || fail 7
|
|
mount /dev/zvol/${FULL_ZVOL_NAME}-part1 \
|
|
/tmp/${ZVOL_NAME}-part1 || fail 8
|
|
|
|
# Mount the pristine ext2 snapshot.
|
|
mkdir -p /tmp/${SNAP_NAME}-part1 || fail 9
|
|
mount /dev/zvol/${FULL_SNAP_NAME}-part1 \
|
|
/tmp/${SNAP_NAME}-part1 &>/dev/null || fail 10
|
|
|
|
# Copy to original volume.
|
|
cp -RL ${SRC_DIR} /tmp/${ZVOL_NAME}-part1 || fail 11
|
|
sync
|
|
|
|
# Verify the copied files match the original files,
|
|
# and the copied files do NOT appear in the snapshot.
|
|
diff -ur ${SRC_DIR} /tmp/${ZVOL_NAME}-part1/${SRC_DIR##*/} \
|
|
&>/dev/null || fail 12
|
|
diff -ur ${SRC_DIR} /tmp/${SNAP_NAME}-part1/${SRC_DIR##*/} \
|
|
&>/dev/null && fail 13
|
|
|
|
# Clone from the original pristine snapshot
|
|
${ZFS} clone ${FULL_SNAP_NAME} ${FULL_CLONE_NAME} || fail 14
|
|
wait_udev /dev/zvol/${FULL_CLONE_NAME}-part1 30 || fail 14
|
|
mkdir -p /tmp/${CLONE_NAME}-part1 || fail 15
|
|
mount /dev/zvol/${FULL_CLONE_NAME}-part1 \
|
|
/tmp/${CLONE_NAME}-part1 || fail 16
|
|
|
|
# Verify the clone matches the pristine snapshot,
|
|
# and the files copied to the original volume are NOT there.
|
|
diff -ur /tmp/${SNAP_NAME}-part1 /tmp/${CLONE_NAME}-part1 \
|
|
&>/dev/null || fail 17
|
|
diff -ur /tmp/${ZVOL_NAME}-part1 /tmp/${CLONE_NAME}-part1 \
|
|
&>/dev/null && fail 18
|
|
|
|
# Copy to cloned volume.
|
|
cp -RL ${SRC_DIR} /tmp/${CLONE_NAME}-part1 || fail 19
|
|
sync
|
|
|
|
# Verify the clone matches the modified original volume.
|
|
diff -ur /tmp/${ZVOL_NAME}-part1 /tmp/${CLONE_NAME}-part1 \
|
|
&>/dev/null || fail 20
|
|
|
|
# umount, destroy the snapshot, volume, and pool.
|
|
umount /tmp/${CLONE_NAME}-part1 || fail 21
|
|
rmdir /tmp/${CLONE_NAME}-part1 || fail 22
|
|
${ZFS} destroy ${FULL_CLONE_NAME} || fail 23
|
|
|
|
umount /tmp/${SNAP_NAME}-part1 || fail 24
|
|
rmdir /tmp/${SNAP_NAME}-part1 || fail 25
|
|
${ZFS} destroy ${FULL_SNAP_NAME} || fail 26
|
|
|
|
umount /tmp/${ZVOL_NAME}-part1 || fail 27
|
|
rmdir /tmp/${ZVOL_NAME}-part1 || fail 28
|
|
${ZFS} destroy ${FULL_ZVOL_NAME} || fail 29
|
|
|
|
${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 -d || fail 30
|
|
${ZFS_SH} -u || fail 31
|
|
rm -f ${TMP_CACHE} || fail 32
|
|
|
|
pass
|
|
}
|
|
run_test 7 "zvol+ext2 clone"
|
|
|
|
# Send/Receive sanity check
|
|
test_8() {
|
|
local POOL_NAME1=tank1
|
|
local POOL_NAME2=tank2
|
|
local ZVOL_NAME=fish
|
|
local SNAP_NAME=snap
|
|
local FULL_ZVOL_NAME1=${POOL_NAME1}/${ZVOL_NAME}
|
|
local FULL_ZVOL_NAME2=${POOL_NAME2}/${ZVOL_NAME}
|
|
local FULL_SNAP_NAME1=${POOL_NAME1}/${ZVOL_NAME}@${SNAP_NAME}
|
|
local FULL_SNAP_NAME2=${POOL_NAME2}/${ZVOL_NAME}@${SNAP_NAME}
|
|
local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
|
|
|
|
# Create two pools and a volume
|
|
${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 1
|
|
${ZPOOL_CREATE_SH} -p ${POOL_NAME1} -c lo-raidz2 || fail 2
|
|
${ZPOOL_CREATE_SH} -p ${POOL_NAME2} -c lo-raidz2 || fail 2
|
|
${ZFS} create -V 300M ${FULL_ZVOL_NAME1} || fail 3
|
|
${ZFS} set snapdev=visible ${FULL_ZVOL_NAME1} || fail 3
|
|
label /dev/zvol/${FULL_ZVOL_NAME1} msdos || fail 4
|
|
partition /dev/zvol/${FULL_ZVOL_NAME1} primary 1 -1 || fail 4
|
|
format /dev/zvol/${FULL_ZVOL_NAME1}-part1 ext2 || fail 5
|
|
|
|
# Mount the ext2 filesystem and copy some data to it.
|
|
mkdir -p /tmp/${FULL_ZVOL_NAME1}-part1 || fail 6
|
|
mount /dev/zvol/${FULL_ZVOL_NAME1}-part1 \
|
|
/tmp/${FULL_ZVOL_NAME1}-part1 || fail 7
|
|
cp -RL ${SRC_DIR} /tmp/${FULL_ZVOL_NAME1}-part1 || fail 8
|
|
|
|
# Unmount, snapshot, mount the ext2 filesystem so it may be sent.
|
|
# We only unmount to ensure the ext2 filesystem is clean.
|
|
umount /tmp/${FULL_ZVOL_NAME1}-part1 || fail 9
|
|
${ZFS} snapshot ${FULL_SNAP_NAME1} || fail 10
|
|
wait_udev /dev/zvol/${FULL_SNAP_NAME1} 30 || fail 10
|
|
mount /dev/zvol/${FULL_ZVOL_NAME1}-part1 \
|
|
/tmp/${FULL_ZVOL_NAME1}-part1 || 11
|
|
|
|
# Send/receive the snapshot from POOL_NAME1 to POOL_NAME2
|
|
(${ZFS} send ${FULL_SNAP_NAME1} | \
|
|
${ZFS} receive ${FULL_ZVOL_NAME2}) || fail 12
|
|
wait_udev /dev/zvol/${FULL_ZVOL_NAME2}-part1 30 || fail 12
|
|
|
|
# Mount the sent ext2 filesystem.
|
|
mkdir -p /tmp/${FULL_ZVOL_NAME2}-part1 || fail 13
|
|
mount /dev/zvol/${FULL_ZVOL_NAME2}-part1 \
|
|
/tmp/${FULL_ZVOL_NAME2}-part1 || fail 14
|
|
|
|
# Verify the contents of the volumes match
|
|
diff -ur /tmp/${FULL_ZVOL_NAME1}-part1 /tmp/${FULL_ZVOL_NAME2}-part1 \
|
|
&>/dev/null || fail 15
|
|
|
|
# Umount, destroy the volume and pool.
|
|
umount /tmp/${FULL_ZVOL_NAME1}-part1 || fail 16
|
|
umount /tmp/${FULL_ZVOL_NAME2}-part1 || fail 17
|
|
rmdir /tmp/${FULL_ZVOL_NAME1}-part1 || fail 18
|
|
rmdir /tmp/${FULL_ZVOL_NAME2}-part1 || fail 19
|
|
rmdir /tmp/${POOL_NAME1} || fail 20
|
|
rmdir /tmp/${POOL_NAME2} || fail 21
|
|
|
|
${ZFS} destroy ${FULL_SNAP_NAME1} || fail 22
|
|
${ZFS} destroy ${FULL_SNAP_NAME2} || fail 23
|
|
${ZFS} destroy ${FULL_ZVOL_NAME1} || fail 24
|
|
${ZFS} destroy ${FULL_ZVOL_NAME2} || fail 25
|
|
${ZPOOL_CREATE_SH} -p ${POOL_NAME1} -c lo-raidz2 -d || fail 26
|
|
${ZPOOL_CREATE_SH} -p ${POOL_NAME2} -c lo-raidz2 -d || fail 27
|
|
${ZFS_SH} -u || fail 28
|
|
rm -f ${TMP_CACHE} || fail 29
|
|
|
|
pass
|
|
}
|
|
run_test 8 "zfs send/receive"
|
|
|
|
# zpool event sanity check
|
|
test_9() {
|
|
local POOL_NAME=tank
|
|
local ZVOL_NAME=fish
|
|
local FULL_NAME=${POOL_NAME}/${ZVOL_NAME}
|
|
local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
|
|
local TMP_EVENTS=`mktemp -p /tmp zpool.events.XXXXXXXX`
|
|
|
|
# Create a pool and volume.
|
|
${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 1
|
|
${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 || fail 2
|
|
${ZFS} create -V 300M ${FULL_NAME} || fail 3
|
|
udev_trigger
|
|
|
|
# Dump the events, there should be at least 5 lines.
|
|
${ZPOOL} events >${TMP_EVENTS} || fail 4
|
|
EVENTS=`wc -l ${TMP_EVENTS} | cut -f1 -d' '`
|
|
[ $EVENTS -lt 5 ] && fail 5
|
|
|
|
# Clear the events and ensure there are none.
|
|
${ZPOOL} events -c >/dev/null || fail 6
|
|
${ZPOOL} events >${TMP_EVENTS} || fail 7
|
|
EVENTS=`wc -l ${TMP_EVENTS} | cut -f1 -d' '`
|
|
[ $EVENTS -gt 1 ] && fail 8
|
|
|
|
${ZFS} destroy ${FULL_NAME} || fail 9
|
|
${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 -d || fail 10
|
|
${ZFS_SH} -u || fail 11
|
|
rm -f ${TMP_CACHE} || fail 12
|
|
rm -f ${TMP_EVENTS} || fail 13
|
|
|
|
pass
|
|
}
|
|
run_test 9 "zpool events"
|
|
|
|
zconfig_add_vdev() {
|
|
local POOL_NAME=$1
|
|
local TYPE=$2
|
|
local DEVICE=$3
|
|
local TMP_FILE1=`mktemp`
|
|
local TMP_FILE2=`mktemp`
|
|
local TMP_FILE3=`mktemp`
|
|
|
|
BASE_DEVICE=`basename ${DEVICE}`
|
|
|
|
${ZPOOL} status ${POOL_NAME} >${TMP_FILE1}
|
|
${ZPOOL} add -f ${POOL_NAME} ${TYPE} ${DEVICE} 2>/dev/null || return 1
|
|
${ZPOOL} status ${POOL_NAME} >${TMP_FILE2}
|
|
diff ${TMP_FILE1} ${TMP_FILE2} > ${TMP_FILE3}
|
|
|
|
[ `wc -l ${TMP_FILE3}|${AWK} '{print $1}'` -eq 3 ] || return 1
|
|
|
|
PARENT_VDEV=`tail -2 ${TMP_FILE3} | head -1 | ${AWK} '{print $NF}'`
|
|
case $TYPE in
|
|
cache)
|
|
[ "${PARENT_VDEV}" = "${TYPE}" ] || return 1
|
|
;;
|
|
log)
|
|
[ "${PARENT_VDEV}" = "logs" ] || return 1
|
|
;;
|
|
esac
|
|
|
|
if ! tail -1 ${TMP_FILE3} |
|
|
egrep -q "^>[[:space:]]+${BASE_DEVICE}[[:space:]]+ONLINE" ; then
|
|
return 1
|
|
fi
|
|
rm -f ${TMP_FILE1} ${TMP_FILE2} ${TMP_FILE3}
|
|
|
|
return 0
|
|
}
|
|
|
|
# zpool add and remove sanity check
|
|
test_10() {
|
|
local POOL_NAME=tank
|
|
local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
|
|
local TMP_FILE1=`mktemp`
|
|
local TMP_FILE2=`mktemp`
|
|
|
|
if [ ${SCSI_DEBUG} -eq 0 ] || [ ${HAVE_LSSCSI} -eq 0 ] ; then
|
|
skip
|
|
return
|
|
fi
|
|
|
|
test `${LSMOD} | grep -c scsi_debug` -gt 0 && \
|
|
(${RMMOD} scsi_debug || exit 1)
|
|
|
|
/sbin/modprobe scsi_debug dev_size_mb=128 ||
|
|
die "Error $? creating scsi_debug device"
|
|
udev_trigger
|
|
|
|
SDDEVICE=`${LSSCSI}|${AWK} '/scsi_debug/ { print $6; exit }'`
|
|
BASE_SDDEVICE=`basename $SDDEVICE`
|
|
|
|
# Create a pool
|
|
${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 1
|
|
${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 || fail 2
|
|
${ZPOOL} status ${POOL_NAME} >${TMP_FILE1} || fail 3
|
|
|
|
# Add and remove a cache vdev by full path
|
|
zconfig_add_vdev ${POOL_NAME} cache ${SDDEVICE} || fail 4
|
|
${ZPOOL} remove ${POOL_NAME} ${SDDEVICE} || fail 5
|
|
${ZPOOL} status ${POOL_NAME} >${TMP_FILE2} || fail 6
|
|
cmp ${TMP_FILE1} ${TMP_FILE2} || fail 7
|
|
sleep 1
|
|
|
|
# Add and remove a cache vdev by shorthand path
|
|
zconfig_add_vdev ${POOL_NAME} cache ${BASE_SDDEVICE} || fail 8
|
|
${ZPOOL} remove ${POOL_NAME} ${BASE_SDDEVICE} || fail 9
|
|
${ZPOOL} status ${POOL_NAME} >${TMP_FILE2} || fail 10
|
|
cmp ${TMP_FILE1} ${TMP_FILE2} || fail 11
|
|
sleep 1
|
|
|
|
# Add and remove a log vdev
|
|
zconfig_add_vdev ${POOL_NAME} log ${BASE_SDDEVICE} || fail 12
|
|
${ZPOOL} remove ${POOL_NAME} ${BASE_SDDEVICE} || fail 13
|
|
${ZPOOL} status ${POOL_NAME} >${TMP_FILE2} || fail 14
|
|
cmp ${TMP_FILE1} ${TMP_FILE2} || fail 15
|
|
|
|
${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c lo-raidz2 -d || fail 16
|
|
${ZFS_SH} -u || fail 17
|
|
${RMMOD} scsi_debug || fail 18
|
|
|
|
rm -f ${TMP_FILE1} ${TMP_FILE2} ${TMP_CACHE} || fail 19
|
|
|
|
pass
|
|
}
|
|
run_test 10 "zpool add/remove vdev"
|
|
|
|
exit 0
|