Add zfault zpool configurations and tests

Eleven new zpool configurations were added to allow testing of various
failure cases.  The first 5 zpool configurations leverage the 'faulty'
md device type which allow us to simuluate IO errors at the block layer.
The last 6 zpool configurations leverage the scsi_debug module provided
by modern kernels.  This device allows you to create virtual scsi
devices which are backed by a ram disk.  With this setup we can verify
the full IO stack by injecting faults at the lowest layer.  Both methods
of fault injection are important to verifying the IO stack.

The zfs code itself also provides a mechanism for error injection
via the zinject command line tool.  While we should also take advantage
of this appraoch to validate the code it does not address any of the
Linux integration issues which are the most concerning.  For the
moment we're trusting that the upstream Solaris guys are running
zinject and would have caught internal zfs logic errors.

Currently, there are 6 r/w test cases layered on top of the 'faulty'
md devices.  They include 3 writes tests for soft/transient errors,
hard/permenant errors, and all writes error to the device.  There
are 3 matching read tests for soft/transient errors, hard/permenant
errors, and fixable read error with a write.  Although for this last
case zfs doesn't do anything special.

The seventh test case verifies zfs detects and corrects checksum
errors.  In this case one of the drives is extensively damaged and
by dd'ing over large sections of it.  We then ensure zfs logs the
issue and correctly rebuilds the damage.

The next  test cases use the scsi_debug configuration to injects error
at the bottom of the scsi stack.  This ensures we find any flaws in the
scsi midlayer or our usage of it.  Plus it stresses the device specific
retry, timeout, and error handling outside of zfs's control.

The eighth test case is to verify that the system correctly handles an
intermittent device timeout.  Here the scsi_debug device drops 1 in N
requests resulting in a retry either at the block level.  The ZFS code
does specify the FAILFAST option but it turns out that for this case
the Linux IO stack with still retry the command.  The FAILFAST logic
located in scsi_noretry_cmd() does no seem to apply to the simply
timeout case.  It appears to be more targeted to specific device or
transport errors from the lower layers.

The ninth test case handles a persistent failure in which the device
is removed from the system by Linux.  The test verifies that the failure
is detected, the device is made unavailable, and then can be successfully
re-add when brought back online.  Additionally, it ensures that errors
and events are logged to the correct places and the no data corruption
has occured due to the failure.
This commit is contained in:
Brian Behlendorf 2010-09-28 16:32:12 -07:00
parent baa40d45cb
commit 0ee8118bd3
22 changed files with 2069 additions and 66 deletions

View File

@ -4,6 +4,7 @@ pkglibexecdir = $(libexecdir)/@PACKAGE@
dist_pkglibexec_SCRIPTS = \
$(top_builddir)/scripts/common.sh \
$(top_srcdir)/scripts/zconfig.sh \
$(top_srcdir)/scripts/zfault.sh \
$(top_srcdir)/scripts/zfs.sh \
$(top_srcdir)/scripts/zpool-create.sh \
$(top_srcdir)/scripts/zpios.sh \
@ -12,6 +13,7 @@ dist_pkglibexec_SCRIPTS = \
ZFS=$(top_builddir)/scripts/zfs.sh
ZCONFIG=$(top_builddir)/scripts/zconfig.sh
ZFAULT=$(top_builddir)/scripts/zfault.sh
ZTEST=$(top_builddir)/cmd/ztest/ztest
ZPIOS_SANITY=$(top_builddir)/scripts/zpios-sanity.sh
@ -48,7 +50,13 @@ check:
@echo -n " ZCONFIG "
@echo "==================================="
@echo
@$(ZCONFIG)
@$(ZCONFIG) -c
@echo
@echo -n "==================================="
@echo -n " ZFAULT "
@echo "==================================="
@echo
@$(ZFAULT) -c
@echo
@echo -n "===================================="
@echo -n " ZPIOS "

View File

@ -316,6 +316,7 @@ SUBDIRS = zpool-config zpool-layout zpios-test zpios-profile
dist_pkglibexec_SCRIPTS = \
$(top_builddir)/scripts/common.sh \
$(top_srcdir)/scripts/zconfig.sh \
$(top_srcdir)/scripts/zfault.sh \
$(top_srcdir)/scripts/zfs.sh \
$(top_srcdir)/scripts/zpool-create.sh \
$(top_srcdir)/scripts/zpios.sh \
@ -324,6 +325,7 @@ dist_pkglibexec_SCRIPTS = \
ZFS = $(top_builddir)/scripts/zfs.sh
ZCONFIG = $(top_builddir)/scripts/zconfig.sh
ZFAULT = $(top_builddir)/scripts/zfault.sh
ZTEST = $(top_builddir)/cmd/ztest/ztest
ZPIOS_SANITY = $(top_builddir)/scripts/zpios-sanity.sh
all: all-recursive
@ -744,7 +746,13 @@ check:
@echo -n " ZCONFIG "
@echo "==================================="
@echo
@$(ZCONFIG)
@$(ZCONFIG) -c
@echo
@echo -n "==================================="
@echo -n " ZFAULT "
@echo "==================================="
@echo
@$(ZFAULT) -c
@echo
@echo -n "===================================="
@echo -n " ZPIOS "

View File

@ -61,6 +61,11 @@ LSMOD=${LSMOD:-/sbin/lsmod}
RMMOD=${RMMOD:-/sbin/rmmod}
INFOMOD=${INFOMOD:-/sbin/modinfo}
LOSETUP=${LOSETUP:-/sbin/losetup}
MDADM=${MDADM:-/sbin/mdadm}
PARTED=${PARTED:-/sbin/parted}
BLOCKDEV=${BLOCKDEV:-/sbin/blockdev}
LSSCSI=${LSSCSI:-/usr/bin/lsscsi}
SCSIRESCAN=${SCSIRESCAN:-/usr/bin/scsi-rescan}
SYSCTL=${SYSCTL:-/sbin/sysctl}
UDEVADM=${UDEVADM:-/sbin/udevadm}
AWK=${AWK:-/usr/bin/awk}
@ -225,8 +230,19 @@ unload_modules() {
return 0
}
#
# Check that the mdadm utilities are installed.
#
check_loop_utils() {
test -f ${LOSETUP} || die "${LOSETUP} utility must be installed"
}
#
# Find and return an unused loopback device.
#
unused_loop_device() {
for DEVICE in `ls -1 /dev/loop*`; do
for DEVICE in `ls -1 /dev/loop* 2>/dev/null`; do
${LOSETUP} ${DEVICE} &>/dev/null
if [ $? -ne 0 ]; then
echo ${DEVICE}
@ -239,7 +255,7 @@ unused_loop_device() {
#
# This can be slightly dangerous because the loop devices we are
# cleanup up may not be ours. However, if the devices are currently
# cleaning up may not be ours. However, if the devices are currently
# in use we will not be able to remove them, and we only remove
# devices which include 'zpool' in the name. So any damage we might
# do should be limited to other zfs related testing.
@ -255,6 +271,168 @@ cleanup_loop_devices() {
rm -f ${TMP_FILE}
}
#
# Destroy the passed loopback devices, this is used when you know
# the names of the loopback devices.
#
destroy_loop_devices() {
local LODEVICES="$1"
msg "Destroying ${LODEVICES}"
${LOSETUP} -d ${LODEVICES} || \
die "Error $? destroying ${FILE} -> ${DEVICE} loopback"
rm -f ${FILES}
return 0
}
#
# Check that the mdadm utilities are installed.
#
check_md_utils() {
test -f ${MDADM} || die "${MDADM} utility must be installed"
test -f ${PARTED} || die "${PARTED} utility must be installed"
}
check_md_partitionable() {
local LOFILE=`mktemp -p /tmp zpool-lo.XXXXXXXX`
local LODEVICE=`unused_loop_device`
local MDDEVICE=`unused_md_device`
local RESULT=1
check_md_utils
rm -f ${LOFILE}
dd if=/dev/zero of=${LOFILE} bs=1M count=0 seek=16 \
&>/dev/null || return ${RESULT}
msg "Creating ${LODEVICE} using ${LOFILE}"
${LOSETUP} ${LODEVICE} ${LOFILE}
if [ $? -ne 0 ]; then
rm -f ${LOFILE}
return ${RESULT}
fi
msg "Creating ${MDDEVICE} using ${LODEVICE}"
${MDADM} --build ${MDDEVICE} --level=faulty \
--raid-devices=1 ${LODEVICE} &>/dev/null
if [ $? -ne 0 ]; then
destroy_loop_devices ${LODEVICE}
rm -f ${LOFILE}
return ${RESULT}
fi
wait_udev ${MDDEVICE} 30
${BLOCKDEV} --rereadpt ${MDDEVICE} 2>/dev/null
RESULT=$?
destroy_md_devices ${MDDEVICE}
destroy_loop_devices ${LODEVICE}
rm -f ${LOFILE}
return ${RESULT}
}
#
# Find and return an unused md device.
#
unused_md_device() {
for (( i=0; i<32; i++ )); do
MDDEVICE=md${i}
# Skip active devicesudo in /proc/mdstat.
grep -q "${MDDEVICE} " /proc/mdstat && continue
# Device doesn't exist, use it.
if [ ! -e $/dev/{MDDEVICE} ]; then
echo /dev/${MDDEVICE}
return
fi
# Device exists but may not be in use.
if [ -b /dev/${MDDEVICE} ]; then
${MDADM} --detail /dev/${MDDEVICE} &>/dev/null
if [ $? -eq 1 ]; then
echo /dev/${MDDEVICE}
return
fi
fi
done
die "Error: Unable to find unused md device"
}
#
# This can be slightly dangerous because it is possible the md devices
# we are cleaning up may not be ours. However, if the devices are
# currently in use we will not be able to remove them, and even if
# we remove devices which were not out we do not zero the super block
# so you should be able to reconstruct them.
#
cleanup_md_devices() {
destroy_md_devices "`ls /dev/md* 2>/dev/null | grep -v p`"
udev_trigger
}
#
# Destroy the passed md devices, this is used when you know
# the names of the md devices.
#
destroy_md_devices() {
local MDDEVICES="$1"
msg "Destroying ${MDDEVICES}"
for MDDEVICE in ${MDDEVICES}; do
${MDADM} --stop ${MDDEVICE} &>/dev/null
${MDADM} --remove ${MDDEVICE} &>/dev/null
${MDADM} --detail ${MDDEVICE} &>/dev/null
done
return 0
}
#
# Check that the scsi utilities are installed.
#
check_sd_utils() {
${INFOMOD} scsi_debug &>/dev/null || die "scsi_debug module required"
test -f ${LSSCSI} || die "${LSSCSI} utility must be installed"
}
#
# Rescan the scsi bus for scsi_debug devices. It is preferable to use the
# scsi-rescan tool if it is installed, but if it's not we can fall back to
# removing and readding the device manually. This rescan will only effect
# the first scsi_debug device if scsi-rescan is missing.
#
scsi_rescan() {
local AWK_SCRIPT="/scsi_debug/ { print \$1; exit }"
if [ -f ${SCSIRESCAN} ]; then
${SCSIRESCAN} --forcerescan --remove &>/dev/null
else
local SCSIID=`${LSSCSI} | ${AWK} "${AWK_SCRIPT}" | tr -d '[]'`
local SCSIHOST=`echo ${SCSIID} | cut -f1 -d':'`
echo 1 >"/sys/class/scsi_device/${SCSIID}/device/delete"
udev_trigger
echo "- - -" >/sys/class/scsi_host/host${SCSIHOST}/scan
udev_trigger
fi
}
#
# Trigger udev and wait for it to settle.
#
udev_trigger() {
if [ -f ${UDEVADM} ]; then
${UDEVADM} trigger
${UDEVADM} settle
else
/sbin/udevtrigger
/sbin/udevsettle
fi
}
#
# The following udev helper functions assume that the provided
# udev rules file will create a /dev/disk/zpool/<CHANNEL><RANK>
@ -292,14 +470,7 @@ udev_setup() {
fi
cp ${SRC_PATH} ${DST_PATH}
if [ -f ${UDEVADM} ]; then
${UDEVADM} trigger
${UDEVADM} settle
else
/sbin/udevtrigger
/sbin/udevsettle
fi
udev_trigger
fi
return 0
@ -405,7 +576,7 @@ run_one_test() {
local TEST_NUM=$1
local TEST_NAME=$2
printf "%-4d %-36s " ${TEST_NUM} "${TEST_NAME}"
printf "%-4d %-34s " ${TEST_NUM} "${TEST_NAME}"
test_${TEST_NUM}
}
@ -413,7 +584,7 @@ skip_one_test() {
local TEST_NUM=$1
local TEST_NAME=$2
printf "%-4d %-36s " ${TEST_NUM} "${TEST_NAME}"
printf "%-4d %-34s " ${TEST_NUM} "${TEST_NAME}"
skip
}
@ -447,6 +618,7 @@ wait_udev() {
local DELAY=$2
local COUNT=0
udev_trigger
while [ ! -e ${DEVICE} ]; do
if [ ${COUNT} -gt ${DELAY} ]; then
return 1

View File

@ -60,6 +60,7 @@ fi
# Perform pre-cleanup is requested
if [ ${CLEANUP} ]; then
cleanup_md_devices
cleanup_loop_devices
rm -f /tmp/zpool.cache.*
fi

951
scripts/zfault.sh Executable file
View File

@ -0,0 +1,951 @@
#!/bin/bash
#
# ZPOOL fault verification test script.
#
# The current suite of fault tests should not be thought of an exhaustive
# list of failure modes. Rather it is simply an starting point which trys
# to cover the bulk the of the 'easy' and hopefully common, failure modes.
#
# Additional tests should be added but the current suite as new interesting
# failures modes are observed. Additional failure modes I'd like to see
# tests for include, but are not limited too:
#
# * Slow but successful IO.
# * SCSI sense codes generated as zevents.
# * 4k sectors
# * noise
# * medium error
# * recovered error
#
# The current infrastructure using the 'mdadm' faulty device and the
# 'scsi_debug' simulated scsi devices. The idea is to inject the error
# below the zfs stack to validate all the error paths. More targeted
# failure testing should be added using the 'zinject' command line util.
#
# Requires the following packages:
# * mdadm
# * lsscsi
# * sg3-utils
#
basedir="$(dirname $0)"
SCRIPT_COMMON=common.sh
if [ -f "${basedir}/${SCRIPT_COMMON}" ]; then
. "${basedir}/${SCRIPT_COMMON}"
else
echo "Missing helper script ${SCRIPT_COMMON}" && exit 1
fi
PROG=zfault.sh
usage() {
cat << EOF
USAGE:
$0 [hvc]
DESCRIPTION:
ZPOOL fault verification tests
OPTIONS:
-h Show this message
-v Verbose
-c Cleanup md+lo+file devices at start
-t <#> Run listed tests
-s <#> Skip listed tests
EOF
}
while getopts 'hvct:s:?' OPTION; do
case $OPTION in
h)
usage
exit 1
;;
v)
VERBOSE=1
;;
c)
CLEANUP=1
;;
t)
TESTS_RUN=($OPTARG)
;;
s)
TESTS_SKIP=($OPTARG)
;;
?)
usage
exit
;;
esac
done
if [ $(id -u) != 0 ]; then
die "Must run as root"
fi
# Perform pre-cleanup is requested
if [ ${CLEANUP} ]; then
cleanup_md_devices
cleanup_loop_devices
rm -f /tmp/zpool.cache.*
fi
# Check if we need to skip all md based tests.
MD_PARTITIONABLE=0
check_md_partitionable && MD_PARTITIONABLE=1
if [ ${MD_PARTITIONABLE} -eq 0 ]; then
echo "Skipping tests 1-7 which require partitionable md devices"
fi
# Check if we need to skip all the scsi_debug tests.
SCSI_DEBUG=0
${INFOMOD} scsi_debug &>/dev/null && SCSI_DEBUG=1
if [ ${SCSI_DEBUG} -eq 0 ]; then
echo "Skipping tests 8-9 which require the scsi_debug module"
fi
if [ ${MD_PARTITIONABLE} -eq 0 ] || [ ${SCSI_DEBUG} -eq 0 ]; then
echo
fi
printf "%40s%s\t%s\t%s\t%s\t%s\n" "" "raid0" "raid10" "raidz" "raidz2" "raidz3"
pass_nonewline() {
echo -n -e "${COLOR_GREEN}Pass${COLOR_RESET}\t"
}
skip_nonewline() {
echo -n -e "${COLOR_BROWN}Skip${COLOR_RESET}\t"
}
nth_zpool_vdev() {
local POOL_NAME=$1
local DEVICE_TYPE=$2
local DEVICE_NTH=$3
${ZPOOL} status ${POOL_NAME} | grep ${DEVICE_TYPE} ${TMP_STATUS} | \
head -n${DEVICE_NTH} | tail -n1 | ${AWK} "{ print \$1 }"
}
vdev_status() {
local POOL_NAME=$1
local VDEV_NAME=$2
${ZPOOL} status ${POOL_NAME} | ${AWK} "/${VDEV_NAME}/ { print \$2 }"
}
# Required format is x.yz[KMGTP]
expand_numeric_suffix() {
local VALUE=$1
VALUE=`echo "${VALUE/%K/*1000}"`
VALUE=`echo "${VALUE/%M/*1000000}"`
VALUE=`echo "${VALUE/%G/*1000000000}"`
VALUE=`echo "${VALUE/%T/*1000000000000}"`
VALUE=`echo "${VALUE/%P/*1000000000000000}"`
VALUE=`echo "${VALUE}" | bc | cut -d'.' -f1`
echo "${VALUE}"
}
vdev_read_errors() {
local POOL_NAME=$1
local VDEV_NAME=$2
local VDEV_ERRORS=`${ZPOOL} status ${POOL_NAME} |
${AWK} "/${VDEV_NAME}/ { print \\$3 }"`
expand_numeric_suffix ${VDEV_ERRORS}
}
vdev_write_errors() {
local POOL_NAME=$1
local VDEV_NAME=$2
local VDEV_ERRORS=`${ZPOOL} status ${POOL_NAME} |
${AWK} "/${VDEV_NAME}/ { print \\$4 }"`
expand_numeric_suffix ${VDEV_ERRORS}
}
vdev_cksum_errors() {
local POOL_NAME=$1
local VDEV_NAME=$2
local VDEV_ERRORS=`${ZPOOL} status ${POOL_NAME} |
${AWK} "/${VDEV_NAME}/ { print \\$5 }"`
expand_numeric_suffix ${VDEV_ERRORS}
}
zpool_state() {
local POOL_NAME=$1
${ZPOOL} status ${POOL_NAME} | ${AWK} "/state/ { print \$2; exit }"
}
zpool_event() {
local EVENT_NAME=$1
local EVENT_KEY=$2
SCRIPT1="BEGIN {RS=\"\"; FS=\"\n\"} /${EVENT_NAME}/ { print \$0; exit }"
SCRIPT2="BEGIN {FS=\"=\"} /${EVENT_KEY}/ { print \$2; exit }"
${ZPOOL} events -vH | ${AWK} "${SCRIPT1}" | ${AWK} "${SCRIPT2}"
}
zpool_scan_errors() {
local POOL_NAME=$1
${ZPOOL} status ${POOL_NAME} | ${AWK} "/scan: scrub/ { print \$8 }"
${ZPOOL} status ${POOL_NAME} | ${AWK} "/scan: resilver/ { print \$7 }"
}
pattern_create() {
local PATTERN_BLOCK_SIZE=$1
local PATTERN_BLOCK_COUNT=$2
local PATTERN_NAME=`mktemp -p /tmp zpool.pattern.XXXXXXXX`
echo ${PATTERN_NAME}
dd if=/dev/urandom of=${PATTERN_NAME} bs=${PATTERN_BLOCK_SIZE} \
count=${PATTERN_BLOCK_COUNT} &>/dev/null
return $?
}
pattern_write() {
local PATTERN_NAME=$1
local PATTERN_BLOCK_SIZE=$2
local PATTERN_BLOCK_COUNT=$3
local DEVICE_NAME=$4
dd if=${PATTERN_NAME} of=${DEVICE_NAME} bs=${PATTERN_BLOCK_SIZE} \
count=${PATTERN_BLOCK_COUNT} oflag=direct &>/dev/null
return $?
}
pattern_write_bg() {
local PATTERN_NAME=$1
local PATTERN_BLOCK_SIZE=$2
local PATTERN_BLOCK_COUNT=$3
local DEVICE_NAME=$4
dd if=${PATTERN_NAME} of=${DEVICE_NAME} bs=${PATTERN_BLOCK_SIZE} \
count=${PATTERN_BLOCK_COUNT} oflag=direct &>/dev/null &
return $?
}
pattern_verify() {
local PATTERN_NAME=$1
local PATTERN_BLOCK_SIZE=$2
local PATTERN_BLOCK_COUNT=$3
local DEVICE_NAME=$4
local DEVICE_FILE=`mktemp -p /tmp zpool.pattern.XXXXXXXX`
dd if=${DEVICE_NAME} of=${DEVICE_FILE} bs=${PATTERN_BLOCK_SIZE} \
count=${PATTERN_BLOCK_COUNT} iflag=direct &>/dev/null
cmp -s ${PATTERN_NAME} ${DEVICE_FILE}
RC=$?
rm -f ${DEVICE_FILE}
return ${RC}
}
pattern_remove() {
local PATTERN_NAME=$1
rm -f ${PATTERN_NAME}
return $?
}
fault_set_md() {
local VDEV_FAULTY=$1
local FAULT_TYPE=$2
${MDADM} /dev/${VDEV_FAULTY} --grow --level=faulty \
--layout=${FAULT_TYPE} >/dev/null
return $?
}
fault_clear_md() {
local VDEV_FAULTY=$1
# Clear all failure injection.
${MDADM} /dev/${VDEV_FAULTY} --grow --level=faulty \
--layout=clear >/dev/null || return $?
${MDADM} /dev/${VDEV_FAULTY} --grow --level=faulty \
--layout=flush >/dev/null || return $?
return $?
}
fault_set_sd() {
local OPTS=$1
local NTH=$2
echo ${OPTS} >/sys/bus/pseudo/drivers/scsi_debug/opts
echo ${NTH} >/sys/bus/pseudo/drivers/scsi_debug/every_nth
}
fault_clear_sd() {
echo 0 >/sys/bus/pseudo/drivers/scsi_debug/every_nth
echo 0 >/sys/bus/pseudo/drivers/scsi_debug/opts
}
test_setup() {
local POOL_NAME=$1
local POOL_CONFIG=$2
local ZVOL_NAME=$3
local TMP_CACHE=$4
${ZFS_SH} zfs="spa_config_path=${TMP_CACHE}" || fail 1
${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c ${POOL_CONFIG} || fail 2
${ZFS} create -V 64M ${POOL_NAME}/${ZVOL_NAME} || fail 3
# Trigger udev and re-read the partition table to ensure all of
# this IO is out of the way before we begin injecting failures.
udev_trigger || fail 4
${BLOCKDEV} --rereadpt /dev/${POOL_NAME}/${ZVOL_NAME} || fail 5
}
test_cleanup() {
local POOL_NAME=$1
local POOL_CONFIG=$2
local ZVOL_NAME=$3
local TMP_CACHE=$4
${ZFS} destroy ${POOL_NAME}/${ZVOL_NAME} || fail 101
${ZPOOL_CREATE_SH} -p ${POOL_NAME} -c ${POOL_CONFIG} -d || fail 102
${ZFS_SH} -u || fail 103
rm -f ${TMP_CACHE} || fail 104
}
test_write_soft() {
local POOL_NAME=$1
local POOL_CONFIG=$2
local POOL_REDUNDANT=$3
local ZVOL_NAME="zvol"
local ZVOL_DEVICE="/dev/${POOL_NAME}/${ZVOL_NAME}"
if [ ${MD_PARTITIONABLE} -eq 0 ]; then
skip_nonewline
return
fi
local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
test_setup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
# Set soft write failure for first vdev device.
local VDEV_FAULTY=`nth_zpool_vdev ${POOL_NAME} md 1`
fault_set_md ${VDEV_FAULTY} write-transient
# The application must not observe an error.
local TMP_PATTERN=`pattern_create 1M 8` || fail 11
pattern_write ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 12
fault_clear_md ${VDEV_FAULTY}
# Soft errors will not be logged to 'zpool status'
local WRITE_ERRORS=`vdev_write_errors ${POOL_NAME} ${VDEV_FAULTY}`
test ${WRITE_ERRORS} -eq 0 || fail 13
# Soft errors will still generate an EIO (5) event.
test `zpool_event "zfs.io" "zio_err"` = "0x5" || fail 14
# Verify the known pattern.
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 15
pattern_remove ${TMP_PATTERN} || fail 16
test_cleanup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
pass_nonewline
}
# Soft write error.
test_1() {
test_write_soft tank lo-faulty-raid0 0
test_write_soft tank lo-faulty-raid10 1
test_write_soft tank lo-faulty-raidz 1
test_write_soft tank lo-faulty-raidz2 1
test_write_soft tank lo-faulty-raidz3 1
echo
}
run_test 1 "soft write error"
test_write_hard() {
local POOL_NAME=$1
local POOL_CONFIG=$2
local POOL_REDUNDANT=$3
local ZVOL_NAME="zvol"
local ZVOL_DEVICE="/dev/${POOL_NAME}/${ZVOL_NAME}"
if [ ${MD_PARTITIONABLE} -eq 0 ]; then
skip_nonewline
return
fi
local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
test_setup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
# Set hard write failure for first vdev device.
local VDEV_FAULTY=`nth_zpool_vdev ${POOL_NAME} md 1`
fault_set_md ${VDEV_FAULTY} write-persistent
# The application must not observe an error.
local TMP_PATTERN=`pattern_create 1M 8` || fail 11
pattern_write ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 12
fault_clear_md ${VDEV_FAULTY}
local WRITE_ERRORS=`vdev_write_errors ${POOL_NAME} ${VDEV_FAULTY}`
if [ ${POOL_REDUNDANT} -eq 1 ]; then
# For redundant configurations hard errors will not be
# logged to 'zpool status' but will generate EIO events.
test ${WRITE_ERRORS} -eq 0 || fail 21
test `zpool_event "zfs.io" "zio_err"` = "0x5" || fail 22
else
# For non-redundant configurations hard errors will be
# logged to 'zpool status' and generate EIO events. They
# will also trigger a scrub of the impacted sectors.
sleep 10
test ${WRITE_ERRORS} -gt 0 || fail 31
test `zpool_event "zfs.io" "zio_err"` = "0x5" || fail 32
test `zpool_event "zfs.resilver.start" "ena"` != "" || fail 33
test `zpool_event "zfs.resilver.finish" "ena"` != "" || fail 34
test `zpool_scan_errors ${POOL_NAME}` -eq 0 || fail 35
fi
# Verify the known pattern.
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 41
pattern_remove ${TMP_PATTERN} || fail 42
test_cleanup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
pass_nonewline
}
# Hard write error.
test_2() {
test_write_hard tank lo-faulty-raid0 0
test_write_hard tank lo-faulty-raid10 1
test_write_hard tank lo-faulty-raidz 1
test_write_hard tank lo-faulty-raidz2 1
test_write_hard tank lo-faulty-raidz3 1
echo
}
run_test 2 "hard write error"
test_write_all() {
local POOL_NAME=$1
local POOL_CONFIG=$2
local POOL_REDUNDANT=$3
local ZVOL_NAME="zvol"
local ZVOL_DEVICE="/dev/${POOL_NAME}/${ZVOL_NAME}"
if [ ${MD_PARTITIONABLE} -eq 0 ]; then
skip_nonewline
return
fi
local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
test_setup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
# Set all write failures for first vdev device.
local VDEV_FAULTY=`nth_zpool_vdev ${POOL_NAME} md 1`
fault_set_md ${VDEV_FAULTY} write-all
local TMP_PATTERN=`pattern_create 1M 8` || fail 11
if [ ${POOL_REDUNDANT} -eq 1 ]; then
# The application must not observe an error.
pattern_write ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 12
else
# The application is expected to hang in the background until
# the faulty device is repaired and 'zpool clear' is run.
pattern_write_bg ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 13
sleep 10
fi
fault_clear_md ${VDEV_FAULTY}
local WRITE_ERRORS=`vdev_write_errors ${POOL_NAME} ${VDEV_FAULTY}`
local VDEV_STATUS=`vdev_status ${POOL_NAME} ${VDEV_FAULTY}`
local POOL_STATE=`zpool_state ${POOL_NAME}`
# For all configurations write errors are logged to 'zpool status',
# and EIO events are generated. However, only a redundant config
# will cause the vdev to be FAULTED and pool DEGRADED. In a non-
# redundant config the IO will hang until 'zpool clear' is run.
test ${WRITE_ERRORS} -gt 0 || fail 14
test `zpool_event "zfs.io" "zio_err"` = "0x5" || fail 15
if [ ${POOL_REDUNDANT} -eq 1 ]; then
test "${VDEV_STATUS}" = "FAULTED" || fail 21
test "${POOL_STATE}" = "DEGRADED" || fail 22
else
BLOCKED=`ps a | grep "${ZVOL_DEVICE}" | grep -c -v "grep"`
${ZPOOL} clear ${POOL_NAME} || fail 31
test ${BLOCKED} -eq 1 || fail 32
wait
fi
# Verify the known pattern.
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 41
pattern_remove ${TMP_PATTERN} || fail 42
test_cleanup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
pass_nonewline
}
# All write errors.
test_3() {
test_write_all tank lo-faulty-raid0 0
test_write_all tank lo-faulty-raid10 1
test_write_all tank lo-faulty-raidz 1
test_write_all tank lo-faulty-raidz2 1
test_write_all tank lo-faulty-raidz3 1
echo
}
run_test 3 "all write errors"
test_read_soft() {
local POOL_NAME=$1
local POOL_CONFIG=$2
local POOL_REDUNDANT=$3
local ZVOL_NAME="zvol"
local ZVOL_DEVICE="/dev/${POOL_NAME}/${ZVOL_NAME}"
local READ_ERRORS=0
if [ ${MD_PARTITIONABLE} -eq 0 ]; then
skip_nonewline
return
fi
local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
test_setup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
# Create a pattern to be verified during a read error.
local TMP_PATTERN=`pattern_create 1M 8` || fail 11
pattern_write ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 12
# Set soft read failure for all the vdevs to ensure we hit it.
for (( i=1; i<=4; i++ )); do
fault_set_md `nth_zpool_vdev ${POOL_NAME} md $i` read-transient
done
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 13
pattern_remove ${TMP_PATTERN} || fail 14
# Clear all failure injection and sum read errors.
for (( i=1; i<=4; i++ )); do
local VDEV_FAULTY=`nth_zpool_vdev ${POOL_NAME} md $i`
local VDEV_ERRORS=`vdev_read_errors ${POOL_NAME} ${VDEV_FAULTY}`
let READ_ERRORS=${READ_ERRORS}+${VDEV_ERRORS}
fault_clear_md ${VDEV_FAULTY}
done
# Soft errors will not be logged to 'zpool status'.
test ${READ_ERRORS} -eq 0 || fail 15
# Soft errors will still generate an EIO (5) event.
test `zpool_event "zfs.io" "zio_err"` = "0x5" || fail 16
test_cleanup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
pass_nonewline
}
# Soft read error.
test_4() {
test_read_soft tank lo-faulty-raid0 0
test_read_soft tank lo-faulty-raid10 1
test_read_soft tank lo-faulty-raidz 1
test_read_soft tank lo-faulty-raidz2 1
test_read_soft tank lo-faulty-raidz3 1
echo
}
run_test 4 "soft read error"
test_read_hard() {
local POOL_NAME=$1
local POOL_CONFIG=$2
local POOL_REDUNDANT=$3
local ZVOL_NAME="zvol"
local ZVOL_DEVICE="/dev/${POOL_NAME}/${ZVOL_NAME}"
local READ_ERRORS=0
if [ ${MD_PARTITIONABLE} -eq 0 ]; then
skip_nonewline
return
fi
local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
test_setup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
# Create a pattern to be verified during a read error.
local TMP_PATTERN=`pattern_create 1M 8` || fail 11
pattern_write ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 12
# Set hard read failure for the fourth vdev.
local VDEV_FAULTY=`nth_zpool_vdev ${POOL_NAME} md 4`
fault_set_md ${VDEV_FAULTY} read-persistent
# For a redundant pool there must be no IO error, for a non-redundant
# pool we expect permanent damage and an IO error during verify, unless
# we get exceptionally lucky and have just damaged redundant metadata.
if [ ${POOL_REDUNDANT} -eq 1 ]; then
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 21
local READ_ERRORS=`vdev_read_errors ${POOL_NAME} ${VDEV_FAULTY}`
test ${READ_ERRORS} -eq 0 || fail 22
else
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE}
${ZPOOL} scrub ${POOL_NAME} || fail 32
local READ_ERRORS=`vdev_read_errors ${POOL_NAME} ${VDEV_FAULTY}`
test ${READ_ERRORS} -gt 0 || fail 33
${ZPOOL} status -v ${POOL_NAME} | \
grep -A8 "Permanent errors" | \
grep -q "${POOL_NAME}" || fail 34
fi
pattern_remove ${TMP_PATTERN} || fail 41
# Clear all failure injection and sum read errors.
fault_clear_md ${VDEV_FAULTY}
# Hard errors will generate an EIO (5) event.
test `zpool_event "zfs.io" "zio_err"` = "0x5" || fail 42
test_cleanup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
pass_nonewline
}
# Hard read error.
test_5() {
test_read_hard tank lo-faulty-raid0 0
test_read_hard tank lo-faulty-raid10 1
test_read_hard tank lo-faulty-raidz 1
test_read_hard tank lo-faulty-raidz2 1
test_read_hard tank lo-faulty-raidz3 1
echo
}
run_test 5 "hard read error"
# Fixable read error.
test_read_fixable() {
local POOL_NAME=$1
local POOL_CONFIG=$2
local POOL_REDUNDANT=$3
local ZVOL_NAME="zvol"
local ZVOL_DEVICE="/dev/${POOL_NAME}/${ZVOL_NAME}"
local READ_ERRORS=0
if [ ${MD_PARTITIONABLE} -eq 0 ]; then
skip_nonewline
return
fi
local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
test_setup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
# Create a pattern to be verified during a read error.
local TMP_PATTERN=`pattern_create 1M 8` || fail 11
pattern_write ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 12
# Set hard read failure for the fourth vdev.
local VDEV_FAULTY=`nth_zpool_vdev ${POOL_NAME} md 4`
fault_set_md ${VDEV_FAULTY} read-fixable
# For a redundant pool there must be no IO error, for a non-redundant
# pool we expect permanent damage and an IO error during verify, unless
# we get exceptionally lucky and have just damaged redundant metadata.
if [ ${POOL_REDUNDANT} -eq 1 ]; then
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 21
local READ_ERRORS=`vdev_read_errors ${POOL_NAME} ${VDEV_FAULTY}`
test ${READ_ERRORS} -eq 0 || fail 22
else
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE}
${ZPOOL} scrub ${POOL_NAME} || fail 32
local READ_ERRORS=`vdev_read_errors ${POOL_NAME} ${VDEV_FAULTY}`
test ${READ_ERRORS} -gt 0 || fail 33
${ZPOOL} status -v ${POOL_NAME} | \
grep -A8 "Permanent errors" | \
grep -q "${POOL_NAME}" || fail 34
fi
pattern_remove ${TMP_PATTERN} || fail 41
# Clear all failure injection and sum read errors.
fault_clear_md ${VDEV_FAULTY}
# Hard errors will generate an EIO (5) event.
test `zpool_event "zfs.io" "zio_err"` = "0x5" || fail 42
test_cleanup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
pass_nonewline
}
# Read errors fixable with a write.
test_6() {
test_read_fixable tank lo-faulty-raid0 0
test_read_fixable tank lo-faulty-raid10 1
test_read_fixable tank lo-faulty-raidz 1
test_read_fixable tank lo-faulty-raidz2 1
test_read_fixable tank lo-faulty-raidz3 1
echo
}
run_test 6 "fixable read error"
test_cksum() {
local POOL_NAME=$1
local POOL_CONFIG=$2
local POOL_REDUNDANT=$3
local VDEV_DAMAGE="$4"
local ZVOL_NAME="zvol"
local ZVOL_DEVICE="/dev/${POOL_NAME}/${ZVOL_NAME}"
if [ ${MD_PARTITIONABLE} -eq 0 ]; then
skip_nonewline
return
fi
local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
test_setup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
# Create a pattern to be verified.
local TMP_PATTERN=`pattern_create 1M 8` || fail 11
pattern_write ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 12
# Verify the pattern and that no vdev has cksum errors.
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 13
for (( i=1; i<4; i++ )); do
VDEV_FAULTY=`nth_zpool_vdev ${POOL_NAME} md ${i}`
CKSUM_ERRORS=`vdev_cksum_errors ${POOL_NAME} ${VDEV_FAULTY}`
test ${CKSUM_ERRORS} -eq 0 || fail 14
done
# Corrupt the bulk of a vdev with random garbage, we damage as many
# vdevs as we have levels of redundancy. For example for a raidz3
# configuration we can trash 3 vdevs and still expect correct data.
# This improves the odds that we read one of the damaged vdevs.
for VDEV in ${VDEV_DAMAGE}; do
VDEV_FAULTY=`nth_zpool_vdev ${POOL_NAME} md $VDEV`
pattern_write /dev/urandom 1M 64 /dev/${VDEV_FAULTY}p1
done
# Verify the pattern is still correct. For non-redundant pools
# expect failure and for redundant pools success due to resilvering.
if [ ${POOL_REDUNDANT} -eq 1 ]; then
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 16
else
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} && fail 17
fi
CKSUM_ERRORS=`vdev_cksum_errors ${POOL_NAME} ${VDEV_FAULTY}`
test ${CKSUM_ERRORS} -gt 0 || fail 18
STATUS=`vdev_status ${POOL_NAME} ${VDEV_FAULTY}`
test "${STATUS}" = "ONLINE" || fail 19
# The checksum errors must be logged as an event.
local CKSUM_ERRORS=`zpool_event "zfs.checksum" "zio_err"`
test ${CKSUM_ERRORS} = "0x34" || test ${CKSUM_ERRORS} = "0x0" || fail 20
# Verify permant errors for non-redundant pools, and for redundant
# pools trigger a scrub and check that all checksums have been fixed.
if [ ${POOL_REDUNDANT} -eq 1 ]; then
# Scrub the checksum errors and clear the faults.
${ZPOOL} scrub ${POOL_NAME} || fail 21
sleep 3
${ZPOOL} clear ${POOL_NAME} || fail 22
# Re-verify the pattern for fixed checksums.
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 23
CKSUM_ERRORS=`vdev_cksum_errors ${POOL_NAME} ${VDEV_FAULTY}`
test ${CKSUM_ERRORS} -eq 0 || fail 24
# Re-verify the entire pool for fixed checksums.
${ZPOOL} scrub ${POOL_NAME} || fail 25
CKSUM_ERRORS=`vdev_cksum_errors ${POOL_NAME} ${VDEV_FAULTY}`
test ${CKSUM_ERRORS} -eq 0 || fail 26
else
${ZPOOL} status -v ${POOL_NAME} | \
grep -A8 "Permanent errors" | \
grep -q "${POOL_NAME}/${ZVOL_NAME}" || fail 31
${ZPOOL} clear ${POOL_NAME} || fail 32
fi
pattern_remove ${TMP_PATTERN} || fail 41
test_cleanup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
pass_nonewline
}
# Silent data corruption
test_7() {
test_cksum tank lo-faulty-raid0 0 "1"
test_cksum tank lo-faulty-raid10 1 "1 3"
test_cksum tank lo-faulty-raidz 1 "4"
test_cksum tank lo-faulty-raidz2 1 "3 4"
test_cksum tank lo-faulty-raidz3 1 "2 3 4"
echo
}
run_test 7 "silent data corruption"
# Soft write timeout at the scsi device layer.
test_write_timeout_soft() {
local POOL_NAME=$1
local POOL_CONFIG=$2
local POOL_REDUNDANT=$3
local POOL_NTH=$4
local ZVOL_NAME="zvol"
local ZVOL_DEVICE="/dev/${POOL_NAME}/${ZVOL_NAME}"
if [ ${SCSI_DEBUG} -eq 0 ]; then
skip_nonewline
return
fi
local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
test_setup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
# Set timeout(0x4) for every nth command.
fault_set_sd 4 ${POOL_NTH}
# The application must not observe an error.
local TMP_PATTERN=`pattern_create 1M 8` || fail 11
pattern_write ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 12
fault_clear_sd
# Intermittent write timeouts even with FAILFAST set may not cause
# an EIO (5) event. This is because how FAILFAST is handled depends
# a log on the low level driver and the exact nature of the failure.
# We will however see a 'zfs.delay' event logged due to the timeout.
VDEV_DELAY=`zpool_event "zfs.delay" "zio_delay"`
test `printf "%d" ${VDEV_DELAY}` -ge 30000 || fail 13
# Verify the known pattern.
pattern_verify ${TMP_PATTERN} 1M 8 ${ZVOL_DEVICE} || fail 14
pattern_remove ${TMP_PATTERN} || fail 15
test_cleanup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
pass_nonewline
}
test_8() {
test_write_timeout_soft tank scsi_debug-raid0 0 50
test_write_timeout_soft tank scsi_debug-raid10 1 100
test_write_timeout_soft tank scsi_debug-raidz 1 75
test_write_timeout_soft tank scsi_debug-raidz2 1 150
test_write_timeout_soft tank scsi_debug-raidz3 1 300
echo
}
run_test 8 "soft write timeout"
# Persistent write timeout at the scsi device layer.
test_write_timeout_hard() {
local POOL_NAME=$1
local POOL_CONFIG=$2
local POOL_REDUNDANT=$3
local POOL_NTH=$4
local ZVOL_NAME="zvol"
local ZVOL_DEVICE="/dev/${POOL_NAME}/${ZVOL_NAME}"
local RESCAN=1
if [ ${SCSI_DEBUG} -eq 0 ]; then
skip_nonewline
return
fi
local TMP_CACHE=`mktemp -p /tmp zpool.cache.XXXXXXXX`
test_setup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
local TMP_PATTERN1=`pattern_create 1M 8`
local TMP_PATTERN2=`pattern_create 1M 8`
local TMP_PATTERN3=`pattern_create 1M 8`
# Create three partitions each one gets a unique pattern. The first
# pattern is written before the failure, the second pattern during
# the failure, and the third pattern while the vdev is degraded.
# All three patterns are verified while the vdev is degraded and
# then again once it is brought back online.
${PARTED} -s ${ZVOL_DEVICE} mklabel gpt || fail 11
${PARTED} -s ${ZVOL_DEVICE} mkpart primary 1M 16M || fail 12
${PARTED} -s ${ZVOL_DEVICE} mkpart primary 16M 32M || fail 13
${PARTED} -s ${ZVOL_DEVICE} mkpart primary 32M 48M || fail 14
wait_udev ${ZVOL_DEVICE}1 30
wait_udev ${ZVOL_DEVICE}2 30
wait_udev ${ZVOL_DEVICE}3 30
# Before the failure.
pattern_write ${TMP_PATTERN1} 1M 8 ${ZVOL_DEVICE}1 || fail 15
# Get the faulty vdev name.
local VDEV_FAULTY=`nth_zpool_vdev ${POOL_NAME} sd 1`
# Set timeout(0x4) for every nth command.
fault_set_sd 4 ${POOL_NTH}
# During the failure.
pattern_write ${TMP_PATTERN2} 1M 8 ${ZVOL_DEVICE}2 || fail 21
# Expect write errors to be logged to 'zpool status'
local WRITE_ERRORS=`vdev_write_errors ${POOL_NAME} ${VDEV_FAULTY}`
test ${WRITE_ERRORS} -gt 0 || fail 22
local VDEV_STATUS=`vdev_status ${POOL_NAME} ${VDEV_FAULTY}`
test "${VDEV_STATUS}" = "UNAVAIL" || fail 23
# Clear the error and remove it from /dev/.
fault_clear_sd
rm -f /dev/${VDEV_FAULTY}[0-9]
# Verify the first two patterns and write out the third.
pattern_write ${TMP_PATTERN3} 1M 8 ${ZVOL_DEVICE}3 || fail 31
pattern_verify ${TMP_PATTERN1} 1M 8 ${ZVOL_DEVICE}1 || fail 32
pattern_verify ${TMP_PATTERN2} 1M 8 ${ZVOL_DEVICE}2 || fail 33
pattern_verify ${TMP_PATTERN3} 1M 8 ${ZVOL_DEVICE}3 || fail 34
# Bring the device back online by rescanning for it. It must appear
# in lsscsi and be available to dd before allowing ZFS to bring it
# online. This is not required but provides additional sanity.
while [ ${RESCAN} -eq 1 ]; do
scsi_rescan
wait_udev /dev/${VDEV_FAULTY} 30
if [ `${LSSCSI} | grep -c "/dev/${VDEV_FAULTY}"` -eq 0 ]; then
continue
fi
dd if=/dev/${VDEV_FAULTY} of=/dev/null bs=8M count=1 &>/dev/null
if [ $? -ne 0 ]; then
continue
fi
RESCAN=0
done
# Bring the device back online. We expect it to be automatically
# resilvered without error and we should see minimally the zfs.io,
# zfs.statechange (VDEV_STATE_HEALTHY (0x7)), and zfs.resilver.*
# events posted.
${ZPOOL} online ${POOL_NAME} ${VDEV_FAULTY}1 || fail 51
sleep 3
test `zpool_event "zfs.io" "zio_err"` = "0x5" || fail 52
test `zpool_event "zfs.statechange" "vdev_state"` = "0x7" || fail 53
test `zpool_event "zfs.resilver.start" "ena"` != "" || fail 54
test `zpool_event "zfs.resilver.finish" "ena"` != "" || fail 55
test `zpool_scan_errors ${POOL_NAME}` -eq 0 || fail 56
local VDEV_STATUS=`vdev_status ${POOL_NAME} ${VDEV_FAULTY}`
test "${VDEV_STATUS}" = "ONLINE" || fail 57
# Verify the known pattern.
pattern_verify ${TMP_PATTERN1} 1M 8 ${ZVOL_DEVICE}1 || fail 61
pattern_verify ${TMP_PATTERN2} 1M 8 ${ZVOL_DEVICE}2 || fail 62
pattern_verify ${TMP_PATTERN3} 1M 8 ${ZVOL_DEVICE}3 || fail 63
pattern_remove ${TMP_PATTERN1} || fail 64
pattern_remove ${TMP_PATTERN2} || fail 65
pattern_remove ${TMP_PATTERN3} || fail 66
test_cleanup ${POOL_NAME} ${POOL_CONFIG} ${ZVOL_NAME} ${TMP_CACHE}
pass_nonewline
}
test_9() {
skip_nonewline # Skip non-redundant config
test_write_timeout_hard tank scsi_debug-raid10 1 -50
test_write_timeout_hard tank scsi_debug-raidz 1 -50
test_write_timeout_hard tank scsi_debug-raidz2 1 -50
test_write_timeout_hard tank scsi_debug-raidz3 1 -50
echo
}
run_test 9 "hard write timeout"
exit 0

View File

@ -1,31 +1,42 @@
pkglibexecdir = $(libexecdir)/@PACKAGE@/zpool-config
dist_pkglibexec_SCRIPTS = \
$(top_srcdir)/scripts/zpool-config/dm0-raid0.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raid0-1x70.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raid10-35x2.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raidz2-7x10.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raidz-7x10.sh \
$(top_srcdir)/scripts/zpool-config/file-raid0.sh \
$(top_srcdir)/scripts/zpool-config/file-raid10.sh \
$(top_srcdir)/scripts/zpool-config/file-raidz2.sh \
$(top_srcdir)/scripts/zpool-config/file-raidz.sh \
$(top_srcdir)/scripts/zpool-config/hda-raid0.sh \
$(top_srcdir)/scripts/zpool-config/lo-raid0.sh \
$(top_srcdir)/scripts/zpool-config/lo-raid10.sh \
$(top_srcdir)/scripts/zpool-config/lo-raidz2.sh \
$(top_srcdir)/scripts/zpool-config/lo-raidz.sh \
$(top_srcdir)/scripts/zpool-config/md0-raid10.sh \
$(top_srcdir)/scripts/zpool-config/md0-raid5.sh \
$(top_srcdir)/scripts/zpool-config/ram0-raid0.sh \
$(top_srcdir)/scripts/zpool-config/sda-raid0.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raid0-1x16.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raid10-8x2.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raidz2-4x4.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raidz-4x4.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raid0-1x48.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raid10-24x2.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raidz2-8x6.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raidz-8x6.sh
$(top_srcdir)/scripts/zpool-config/dm0-raid0.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raid0-1x70.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raid10-35x2.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raidz2-7x10.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raidz-7x10.sh \
$(top_srcdir)/scripts/zpool-config/file-raid0.sh \
$(top_srcdir)/scripts/zpool-config/file-raid10.sh \
$(top_srcdir)/scripts/zpool-config/file-raidz2.sh \
$(top_srcdir)/scripts/zpool-config/file-raidz.sh \
$(top_srcdir)/scripts/zpool-config/hda-raid0.sh \
$(top_srcdir)/scripts/zpool-config/lo-raid0.sh \
$(top_srcdir)/scripts/zpool-config/lo-raid10.sh \
$(top_srcdir)/scripts/zpool-config/lo-raidz2.sh \
$(top_srcdir)/scripts/zpool-config/lo-raidz.sh \
$(top_srcdir)/scripts/zpool-config/lo-faulty-raid0.sh \
$(top_srcdir)/scripts/zpool-config/lo-faulty-raid10.sh \
$(top_srcdir)/scripts/zpool-config/lo-faulty-raidz.sh \
$(top_srcdir)/scripts/zpool-config/lo-faulty-raidz2.sh \
$(top_srcdir)/scripts/zpool-config/lo-faulty-raidz3.sh \
$(top_srcdir)/scripts/zpool-config/md0-raid10.sh \
$(top_srcdir)/scripts/zpool-config/md0-raid5.sh \
$(top_srcdir)/scripts/zpool-config/ram0-raid0.sh \
$(top_srcdir)/scripts/zpool-config/scsi_debug-noraid.sh \
$(top_srcdir)/scripts/zpool-config/scsi_debug-raid0.sh \
$(top_srcdir)/scripts/zpool-config/scsi_debug-raid10.sh \
$(top_srcdir)/scripts/zpool-config/scsi_debug-raidz.sh \
$(top_srcdir)/scripts/zpool-config/scsi_debug-raidz2.sh \
$(top_srcdir)/scripts/zpool-config/scsi_debug-raidz3.sh \
$(top_srcdir)/scripts/zpool-config/sda-raid0.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raid0-1x16.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raid10-8x2.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raidz2-4x4.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raidz-4x4.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raid0-1x48.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raid10-24x2.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raidz2-8x6.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raidz-8x6.sh
all:
@list='$(dist_pkglibexec_SCRIPTS)'; \

View File

@ -273,32 +273,43 @@ top_build_prefix = @top_build_prefix@
top_builddir = @top_builddir@
top_srcdir = @top_srcdir@
dist_pkglibexec_SCRIPTS = \
$(top_srcdir)/scripts/zpool-config/dm0-raid0.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raid0-1x70.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raid10-35x2.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raidz2-7x10.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raidz-7x10.sh \
$(top_srcdir)/scripts/zpool-config/file-raid0.sh \
$(top_srcdir)/scripts/zpool-config/file-raid10.sh \
$(top_srcdir)/scripts/zpool-config/file-raidz2.sh \
$(top_srcdir)/scripts/zpool-config/file-raidz.sh \
$(top_srcdir)/scripts/zpool-config/hda-raid0.sh \
$(top_srcdir)/scripts/zpool-config/lo-raid0.sh \
$(top_srcdir)/scripts/zpool-config/lo-raid10.sh \
$(top_srcdir)/scripts/zpool-config/lo-raidz2.sh \
$(top_srcdir)/scripts/zpool-config/lo-raidz.sh \
$(top_srcdir)/scripts/zpool-config/md0-raid10.sh \
$(top_srcdir)/scripts/zpool-config/md0-raid5.sh \
$(top_srcdir)/scripts/zpool-config/ram0-raid0.sh \
$(top_srcdir)/scripts/zpool-config/sda-raid0.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raid0-1x16.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raid10-8x2.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raidz2-4x4.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raidz-4x4.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raid0-1x48.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raid10-24x2.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raidz2-8x6.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raidz-8x6.sh
$(top_srcdir)/scripts/zpool-config/dm0-raid0.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raid0-1x70.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raid10-35x2.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raidz2-7x10.sh \
$(top_srcdir)/scripts/zpool-config/dragon-raidz-7x10.sh \
$(top_srcdir)/scripts/zpool-config/file-raid0.sh \
$(top_srcdir)/scripts/zpool-config/file-raid10.sh \
$(top_srcdir)/scripts/zpool-config/file-raidz2.sh \
$(top_srcdir)/scripts/zpool-config/file-raidz.sh \
$(top_srcdir)/scripts/zpool-config/hda-raid0.sh \
$(top_srcdir)/scripts/zpool-config/lo-raid0.sh \
$(top_srcdir)/scripts/zpool-config/lo-raid10.sh \
$(top_srcdir)/scripts/zpool-config/lo-raidz2.sh \
$(top_srcdir)/scripts/zpool-config/lo-raidz.sh \
$(top_srcdir)/scripts/zpool-config/lo-faulty-raid0.sh \
$(top_srcdir)/scripts/zpool-config/lo-faulty-raid10.sh \
$(top_srcdir)/scripts/zpool-config/lo-faulty-raidz.sh \
$(top_srcdir)/scripts/zpool-config/lo-faulty-raidz2.sh \
$(top_srcdir)/scripts/zpool-config/lo-faulty-raidz3.sh \
$(top_srcdir)/scripts/zpool-config/md0-raid10.sh \
$(top_srcdir)/scripts/zpool-config/md0-raid5.sh \
$(top_srcdir)/scripts/zpool-config/ram0-raid0.sh \
$(top_srcdir)/scripts/zpool-config/scsi_debug-noraid.sh \
$(top_srcdir)/scripts/zpool-config/scsi_debug-raid0.sh \
$(top_srcdir)/scripts/zpool-config/scsi_debug-raid10.sh \
$(top_srcdir)/scripts/zpool-config/scsi_debug-raidz.sh \
$(top_srcdir)/scripts/zpool-config/scsi_debug-raidz2.sh \
$(top_srcdir)/scripts/zpool-config/scsi_debug-raidz3.sh \
$(top_srcdir)/scripts/zpool-config/sda-raid0.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raid0-1x16.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raid10-8x2.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raidz2-4x4.sh \
$(top_srcdir)/scripts/zpool-config/supermicro-raidz-4x4.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raid0-1x48.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raid10-24x2.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raidz2-8x6.sh \
$(top_srcdir)/scripts/zpool-config/x4550-raidz-8x6.sh
all: all-am

View File

@ -0,0 +1,78 @@
#!/bin/bash
#
# 4 loopback devices using the md faulty level for easy
# fault injection on top of which is layered raid0 (striped).
#
# zpool-vdev0 zpool-vdev1 zpool-vdev2 zpool-vdev3
# loop0 loop1 loop2 loop3
# md0 (faulty) md1 (faulty) md2 (faulty) md3 (faulty)
# <--------------------- raid0 zpool --------------------->
#
FILES="/tmp/zpool-vdev0 \
/tmp/zpool-vdev1 \
/tmp/zpool-vdev2 \
/tmp/zpool-vdev3"
LODEVICES=""
MDDEVICES=""
zpool_create() {
check_loop_utils
check_md_utils
check_md_partitionable || die "Error non-partitionable md devices"
for FILE in ${FILES}; do
LODEVICE=`unused_loop_device`
MDDEVICE=`unused_md_device`
rm -f ${FILE} || exit 1
dd if=/dev/zero of=${FILE} bs=1M count=0 seek=256 \
&>/dev/null || die "Error $? creating ${FILE}"
# Setup the loopback device on the file.
msg "Creating ${LODEVICE} using ${FILE}"
${LOSETUP} ${LODEVICE} ${FILE} || \
die "Error $? creating ${LODEVICE} using ${FILE}"
LODEVICES="${LODEVICES} ${LODEVICE}"
# Setup the md device on the loopback device.
msg "Creating ${MDDEVICE} using ${LODEVICE}"
${MDADM} --build ${MDDEVICE} --level=faulty \
--raid-devices=1 ${LODEVICE} &>/dev/null || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && \
die "Error $? creating ${MDDEVICE} using ${LODEVICE}")
wait_udev ${MDDEVICE} 30 || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && \
die "Error udev never created ${MDDEVICE}")
# Check if the md device support partitions
${BLOCKDEV} --rereadpt ${MDDEVICE} 2>/dev/null || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && \
die "Error ${MDDEVICE} does not support partitions")
# Create a GPT/EFI partition table for ZFS to use.
${PARTED} --script ${MDDEVICE} mklabel gpt
MDDEVICES="${MDDEVICES} ${MDDEVICE}"
done
msg ${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} ${MDDEVICES}
${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} ${MDDEVICES} || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && exit 1)
echo "$LODEVICES" >/tmp/zpool-lo.txt
echo "$MDDEVICES" >/tmp/zpool-md.txt
}
zpool_destroy() {
msg ${ZPOOL} destroy ${ZPOOL_NAME}
${ZPOOL} destroy ${ZPOOL_NAME}
destroy_md_devices "`cat /tmp/zpool-md.txt`"
destroy_loop_devices "`cat /tmp/zpool-lo.txt`"
rm -f /tmp/zpool-md.txt /tmp/zpool-lo.txt
}

View File

@ -0,0 +1,84 @@
#!/bin/bash
#
# 4 loopback devices using the md faulty level for easy
# fault injection on top of which is layered raid10 (mirrored).
#
# zpool-vdev0 zpool-vdev1 zpool-vdev2 zpool-vdev3
# loop0 loop1 loop2 loop3
# md0 (faulty) md1 (faulty) md2 (faulty) md3 (faulty)
# <--------------------- raid10 zpool --------------------->
#
FILES="/tmp/zpool-vdev0 \
/tmp/zpool-vdev1 \
/tmp/zpool-vdev2 \
/tmp/zpool-vdev3"
LODEVICES=""
MDDEVICES=""
MDDEVICES_M1=""
MDDEVICES_M2=""
zpool_create() {
local COUNT=0
check_loop_utils
check_md_utils
check_md_partitionable || die "Error non-partitionable md devices"
for FILE in ${FILES}; do
LODEVICE=`unused_loop_device`
MDDEVICE=`unused_md_device`
let COUNT=${COUNT}+1
rm -f ${FILE} || exit 1
dd if=/dev/zero of=${FILE} bs=1M count=0 seek=256 \
&>/dev/null || die "Error $? creating ${FILE}"
# Setup the loopback device on the file.
msg "Creating ${LODEVICE} using ${FILE}"
${LOSETUP} ${LODEVICE} ${FILE} || \
die "Error $? creating ${LODEVICE} using ${FILE}"
LODEVICES="${LODEVICES} ${LODEVICE}"
# Setup the md device on the loopback device.
msg "Creating ${MDDEVICE} using ${LODEVICE}"
${MDADM} --build ${MDDEVICE} --level=faulty \
--raid-devices=1 ${LODEVICE} &>/dev/null || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && \
die "Error $? creating ${MDDEVICE} using ${LODEVICE}")
wait_udev ${MDDEVICE} 30 || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && \
die "Error udev never created ${MDDEVICE}")
# Create empty GPT/EFI partition table.
${PARTED} --script ${MDDEVICE} mklabel gpt
MDDEVICES="${MDDEVICES} ${MDDEVICE}"
if [ $((COUNT % 2)) -eq 0 ]; then
MDDEVICES_M2="${MDDEVICES_M2} ${MDDEVICE}"
else
MDDEVICES_M1="${MDDEVICES_M1} ${MDDEVICE}"
fi
done
msg ${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} \
mirror ${MDDEVICES_M1} mirror ${MDDEVICES_M2}
${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} \
mirror ${MDDEVICES_M1} mirror ${MDDEVICES_M2} || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && exit 1)
echo "$LODEVICES" >/tmp/zpool-lo.txt
echo "$MDDEVICES" >/tmp/zpool-md.txt
}
zpool_destroy() {
msg ${ZPOOL} destroy ${ZPOOL_NAME}
${ZPOOL} destroy ${ZPOOL_NAME}
destroy_md_devices "`cat /tmp/zpool-md.txt`"
destroy_loop_devices "`cat /tmp/zpool-lo.txt`"
rm -f /tmp/zpool-md.txt /tmp/zpool-lo.txt
}

View File

@ -0,0 +1,72 @@
#!/bin/bash
#
# 4 loopback devices using the md faulty level for easy
# fault injection on top of which is layered raidz.
#
# zpool-vdev0 zpool-vdev1 zpool-vdev2 zpool-vdev3
# loop0 loop1 loop2 loop3
# md0 (faulty) md1 (faulty) md2 (faulty) md3 (faulty)
# <--------------------- raidz zpool --------------------->
#
FILES="/tmp/zpool-vdev0 \
/tmp/zpool-vdev1 \
/tmp/zpool-vdev2 \
/tmp/zpool-vdev3"
LODEVICES=""
MDDEVICES=""
zpool_create() {
check_loop_utils
check_md_utils
check_md_partitionable || die "Error non-partitionable md devices"
for FILE in ${FILES}; do
LODEVICE=`unused_loop_device`
MDDEVICE=`unused_md_device`
rm -f ${FILE} || exit 1
dd if=/dev/zero of=${FILE} bs=1M count=0 seek=256 \
&>/dev/null || die "Error $? creating ${FILE}"
# Setup the loopback device on the file.
msg "Creating ${LODEVICE} using ${FILE}"
${LOSETUP} ${LODEVICE} ${FILE} || \
die "Error $? creating ${LODEVICE} using ${FILE}"
LODEVICES="${LODEVICES} ${LODEVICE}"
# Setup the md device on the loopback device.
msg "Creating ${MDDEVICE} using ${LODEVICE}"
${MDADM} --build ${MDDEVICE} --level=faulty \
--raid-devices=1 ${LODEVICE} &>/dev/null || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && \
die "Error $? creating ${MDDEVICE} using ${LODEVICE}")
wait_udev ${MDDEVICE} 30 || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && \
die "Error udev never created ${MDDEVICE}")
# Create empty GPT/EFI partition table.
${PARTED} --script ${MDDEVICE} mklabel gpt
MDDEVICES="${MDDEVICES} ${MDDEVICE}"
done
msg ${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} raidz ${MDDEVICES}
${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} raidz ${MDDEVICES} || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && exit 1)
echo "$LODEVICES" >/tmp/zpool-lo.txt
echo "$MDDEVICES" >/tmp/zpool-md.txt
}
zpool_destroy() {
msg ${ZPOOL} destroy ${ZPOOL_NAME}
${ZPOOL} destroy ${ZPOOL_NAME}
destroy_md_devices "`cat /tmp/zpool-md.txt`"
destroy_loop_devices "`cat /tmp/zpool-lo.txt`"
rm -f /tmp/zpool-md.txt /tmp/zpool-lo.txt
}

View File

@ -0,0 +1,72 @@
#!/bin/bash
#
# 4 loopback devices using the md faulty level for easy
# fault injection on top of which is layered raidz2.
#
# zpool-vdev0 zpool-vdev1 zpool-vdev2 zpool-vdev3
# loop0 loop1 loop2 loop3
# md0 (faulty) md1 (faulty) md2 (faulty) md3 (faulty)
# <--------------------- raidz2 zpool -------------------->
#
FILES="/tmp/zpool-vdev0 \
/tmp/zpool-vdev1 \
/tmp/zpool-vdev2 \
/tmp/zpool-vdev3"
LODEVICES=""
MDDEVICES=""
zpool_create() {
check_loop_utils
check_md_utils
check_md_partitionable || die "Error non-partitionable md devices"
for FILE in ${FILES}; do
LODEVICE=`unused_loop_device`
MDDEVICE=`unused_md_device`
rm -f ${FILE} || exit 1
dd if=/dev/zero of=${FILE} bs=1M count=0 seek=256 \
&>/dev/null || die "Error $? creating ${FILE}"
# Setup the loopback device on the file.
msg "Creating ${LODEVICE} using ${FILE}"
${LOSETUP} ${LODEVICE} ${FILE} || \
die "Error $? creating ${LODEVICE} using ${FILE}"
LODEVICES="${LODEVICES} ${LODEVICE}"
# Setup the md device on the loopback device.
msg "Creating ${MDDEVICE} using ${LODEVICE}"
${MDADM} --build ${MDDEVICE} --level=faulty \
--raid-devices=1 ${LODEVICE} &>/dev/null || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && \
die "Error $? creating ${MDDEVICE} using ${LODEVICE}")
wait_udev ${MDDEVICE} 30 || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && \
die "Error udev never created ${MDDEVICE}")
# Create empty GPT/EFI partition table.
${PARTED} --script ${MDDEVICE} mklabel gpt
MDDEVICES="${MDDEVICES} ${MDDEVICE}"
done
msg ${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} raidz2 ${MDDEVICES}
${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} raidz2 ${MDDEVICES} || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && exit 1)
echo "$LODEVICES" >/tmp/zpool-lo.txt
echo "$MDDEVICES" >/tmp/zpool-md.txt
}
zpool_destroy() {
msg ${ZPOOL} destroy ${ZPOOL_NAME}
${ZPOOL} destroy ${ZPOOL_NAME}
destroy_md_devices "`cat /tmp/zpool-md.txt`"
destroy_loop_devices "`cat /tmp/zpool-lo.txt`"
rm -f /tmp/zpool-md.txt /tmp/zpool-lo.txt
}

View File

@ -0,0 +1,72 @@
#!/bin/bash
#
# 4 loopback devices using the md faulty level for easy
# fault injection on top of which is layered raidz3.
#
# zpool-vdev0 zpool-vdev1 zpool-vdev2 zpool-vdev3
# loop0 loop1 loop2 loop3
# md0 (faulty) md1 (faulty) md2 (faulty) md3 (faulty)
# <--------------------- raidz3 zpool -------------------->
#
FILES="/tmp/zpool-vdev0 \
/tmp/zpool-vdev1 \
/tmp/zpool-vdev2 \
/tmp/zpool-vdev3"
LODEVICES=""
MDDEVICES=""
zpool_create() {
check_loop_utils
check_md_utils
check_md_partitionable || die "Error non-partitionable md devices"
for FILE in ${FILES}; do
LODEVICE=`unused_loop_device`
MDDEVICE=`unused_md_device`
rm -f ${FILE} || exit 1
dd if=/dev/zero of=${FILE} bs=1M count=0 seek=256 \
&>/dev/null || die "Error $? creating ${FILE}"
# Setup the loopback device on the file.
msg "Creating ${LODEVICE} using ${FILE}"
${LOSETUP} ${LODEVICE} ${FILE} || \
die "Error $? creating ${LODEVICE} using ${FILE}"
LODEVICES="${LODEVICES} ${LODEVICE}"
# Setup the md device on the loopback device.
msg "Creating ${MDDEVICE} using ${LODEVICE}"
${MDADM} --build ${MDDEVICE} --level=faulty \
--raid-devices=1 ${LODEVICE} &>/dev/null || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && \
die "Error $? creating ${MDDEVICE} using ${LODEVICE}")
wait_udev ${MDDEVICE} 30 || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && \
die "Error udev never created ${MDDEVICE}")
# Create empty GPT/EFI partition table.
${PARTED} --script ${MDDEVICE} mklabel gpt
MDDEVICES="${MDDEVICES} ${MDDEVICE}"
done
msg ${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} raidz3 ${MDDEVICES}
${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} raidz3 ${MDDEVICES} || \
(destroy_md_devices "${MDDEVICES}" && \
destroy_loop_devices "${LODEVICES}" && exit 1)
echo "$LODEVICES" >/tmp/zpool-lo.txt
echo "$MDDEVICES" >/tmp/zpool-md.txt
}
zpool_destroy() {
msg ${ZPOOL} destroy ${ZPOOL_NAME}
${ZPOOL} destroy ${ZPOOL_NAME}
destroy_md_devices "`cat /tmp/zpool-md.txt`"
destroy_loop_devices "`cat /tmp/zpool-lo.txt`"
rm -f /tmp/zpool-md.txt /tmp/zpool-lo.txt
}

View File

@ -10,6 +10,8 @@ FILES="/tmp/zpool-vdev0 \
DEVICES=""
zpool_create() {
check_loop_utils
for FILE in ${FILES}; do
DEVICE=`unused_loop_device`
msg "Creating ${FILE} using loopback device ${DEVICE}"

View File

@ -12,6 +12,8 @@ DEVICES_M1=""
DEVICES_M2=""
zpool_create() {
check_loop_utils
for FILE in ${FILES_M1}; do
DEVICE=`unused_loop_device`
msg "Creating ${FILE} using loopback device ${DEVICE}"

View File

@ -10,6 +10,8 @@ FILES="/tmp/zpool-vdev0 \
DEVICES=""
zpool_create() {
check_loop_utils
for FILE in ${FILES}; do
DEVICE=`unused_loop_device`
msg "Creating ${FILE} using loopback device ${DEVICE}"

View File

@ -10,6 +10,8 @@ FILES="/tmp/zpool-vdev0 \
DEVICES=""
zpool_create() {
check_loop_utils
for FILE in ${FILES}; do
DEVICE=`unused_loop_device`
msg "Creating ${FILE} using loopback device ${DEVICE}"

View File

@ -0,0 +1,46 @@
#!/bin/bash
#
# 1 scsi_debug devices on top of which is layered no raid.
#
SDSIZE=${SDSIZE:-128}
SDHOSTS=${SDHOSTS:-1}
SDTGTS=${SDTGTS:-1}
SDLUNS=${SDLUNS:-1}
LDMOD=/sbin/modprobe
zpool_create() {
check_sd_utils
test `${LSMOD} | grep -c scsi_debug` -gt 0 && \
(echo 0 >/sys/module/scsi_debug/parameters/every_nth && \
${RMMOD} scsi_debug || exit 1)
udev_trigger
msg "${LDMOD} scsi_debug dev_size_mb=${SDSIZE} " \
"add_host=${SDHOSTS} num_tgts=${SDTGTS} " \
"max_luns=${SDLUNS}"
${LDMOD} scsi_debug \
dev_size_mb=${SDSIZE} \
add_host=${SDHOSTS} \
num_tgts=${SDTGTS} \
max_luns=${SDLUNS} || \
die "Error $? creating scsi_debug devices"
udev_trigger
SDDEVICE=`${LSSCSI}|${AWK} '/scsi_debug/ { print $6; exit }'`
msg "${PARTED} -s ${SDDEVICE} mklabel gpt"
${PARTED} -s ${SDDEVICE} mklabel gpt || \
(${RMMOD} scsi_debug && die "Error $? creating gpt label")
msg "${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} ${SDDEVICE}"
${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} ${SDDEVICE} || \
(${RMMOD} scsi_debug && exit 1)
}
zpool_destroy() {
msg ${ZPOOL} destroy ${ZPOOL_NAME}
${ZPOOL} destroy ${ZPOOL_NAME}
msg "${RMMOD} scsi_debug"
${RMMOD} scsi_debug || die "Error $? removing scsi_debug devices"
}

View File

@ -0,0 +1,79 @@
#!/bin/bash
#
# 1 scsi_debug device for fault injection and 3 loopback devices
# on top of which is layered raid0 (striped).
#
SDSIZE=${SDSIZE:-256}
SDHOSTS=${SDHOSTS:-1}
SDTGTS=${SDTGTS:-1}
SDLUNS=${SDLUNS:-1}
LDMOD=/sbin/modprobe
FILES="/tmp/zpool-vdev0 \
/tmp/zpool-vdev1 \
/tmp/zpool-vdev2"
DEVICES=""
zpool_create() {
check_loop_utils
check_sd_utils
test `${LSMOD} | grep -c scsi_debug` -gt 0 && \
(echo 0 >/sys/module/scsi_debug/parameters/every_nth && \
${RMMOD} scsi_debug || exit 1)
udev_trigger
msg "${LDMOD} scsi_debug dev_size_mb=${SDSIZE} " \
"add_host=${SDHOSTS} num_tgts=${SDTGTS} " \
"max_luns=${SDLUNS}"
${LDMOD} scsi_debug \
dev_size_mb=${SDSIZE} \
add_host=${SDHOSTS} \
num_tgts=${SDTGTS} \
max_luns=${SDLUNS} || \
die "Error $? creating scsi_debug devices"
udev_trigger
SDDEVICE=`${LSSCSI} | ${AWK} '/scsi_debug/ { print $6; exit }'`
msg "${PARTED} -s ${SDDEVICE} mklabel gpt"
${PARTED} -s ${SDDEVICE} mklabel gpt || \
(${RMMOD} scsi_debug && die "Error $? creating gpt label")
for FILE in ${FILES}; do
LODEVICE=`unused_loop_device`
rm -f ${FILE} || exit 1
dd if=/dev/zero of=${FILE} bs=1024k count=0 seek=256 \
&>/dev/null || (${RMMOD} scsi_debug && \
die "Error $? creating ${FILE}")
# Setup the loopback device on the file.
msg "Creating ${LODEVICE} using ${FILE}"
${LOSETUP} ${LODEVICE} ${FILE} || (${RMMOD} scsi_debug \
die "Error $? creating ${LODEVICE} using ${FILE}")
DEVICES="${DEVICES} ${LODEVICE}"
done
DEVICES="${DEVICES} ${SDDEVICE}"
msg "${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} ${DEVICES}"
${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} ${DEVICES} || \
(${RMMOD} scsi_debug && exit 1)
}
zpool_destroy() {
msg ${ZPOOL} destroy ${ZPOOL_NAME}
${ZPOOL} destroy ${ZPOOL_NAME}
for FILE in ${FILES}; do
LODEVICE=`${LOSETUP} -a | grep ${FILE} | head -n1|cut -f1 -d:`
msg "Removing ${LODEVICE} using ${FILE}"
${LOSETUP} -d ${LODEVICE} ||
die "Error $? destroying ${LODEVICE} using ${FILE}"
rm -f ${FILE} || exit 1
done
msg "${RMMOD} scsi_debug"
${RMMOD} scsi_debug || die "Error $? removing scsi_debug devices"
}

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#!/bin/bash
#
# 1 scsi_debug device for fault injection and 3 loopback devices
# on top of which is layered raid10 (mirrored).
#
SDSIZE=${SDSIZE:-256}
SDHOSTS=${SDHOSTS:-1}
SDTGTS=${SDTGTS:-1}
SDLUNS=${SDLUNS:-1}
LDMOD=/sbin/modprobe
FILES="/tmp/zpool-vdev0 \
/tmp/zpool-vdev1 \
/tmp/zpool-vdev2"
DEVICES_M1=""
DEVICES_M2=""
zpool_create() {
local COUNT=0
check_loop_utils
check_sd_utils
test `${LSMOD} | grep -c scsi_debug` -gt 0 && \
(echo 0 >/sys/module/scsi_debug/parameters/every_nth && \
${RMMOD} scsi_debug || exit 1)
udev_trigger
msg "${LDMOD} scsi_debug dev_size_mb=${SDSIZE} " \
"add_host=${SDHOSTS} num_tgts=${SDTGTS} " \
"max_luns=${SDLUNS}"
${LDMOD} scsi_debug \
dev_size_mb=${SDSIZE} \
add_host=${SDHOSTS} \
num_tgts=${SDTGTS} \
max_luns=${SDLUNS} || \
die "Error $? creating scsi_debug devices"
udev_trigger
SDDEVICE=`${LSSCSI}|${AWK} '/scsi_debug/ { print $6; exit }'`
msg "${PARTED} -s ${SDDEVICE} mklabel gpt"
${PARTED} -s ${SDDEVICE} mklabel gpt || \
(${RMMOD} scsi_debug && die "Error $? creating gpt label")
for FILE in ${FILES}; do
LODEVICE=`unused_loop_device`
rm -f ${FILE} || exit 1
dd if=/dev/zero of=${FILE} bs=1024k count=0 seek=256 \
&>/dev/null || (${RMMOD} scsi_debug && \
die "Error $? creating ${FILE}")
# Setup the loopback device on the file.
msg "Creating ${LODEVICE} using ${FILE}"
${LOSETUP} ${LODEVICE} ${FILE} || (${RMMOD} scsi_debug \
die "Error $? creating ${LODEVICE} using ${FILE}")
DEVICES="${DEVICES} ${LODEVICE}"
done
DEVICES="${DEVICES} ${SDDEVICE}"
for DEVICE in ${DEVICES}; do
let COUNT=${COUNT}+1
if [ $((COUNT % 2)) -eq 0 ]; then
DEVICES_M2="${DEVICES_M2} ${DEVICE}"
else
DEVICES_M1="${DEVICES_M1} ${DEVICE}"
fi
done
msg "${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} " \
"mirror ${DEVICES_M1} mirror ${DEVICES_M2}"
${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} \
mirror ${DEVICES_M1} mirror ${DEVICES_M2} || \
(${RMMOD} scsi_debug && exit 1)
}
zpool_destroy() {
msg ${ZPOOL} destroy ${ZPOOL_NAME}
${ZPOOL} destroy ${ZPOOL_NAME}
for FILE in ${FILES}; do
LODEVICE=`${LOSETUP} -a | grep ${FILE} | head -n1|cut -f1 -d:`
msg "Removing ${LODEVICE} using ${FILE}"
${LOSETUP} -d ${LODEVICE} ||
die "Error $? destroying ${LODEVICE} using ${FILE}"
rm -f ${FILE} || exit 1
done
msg "${RMMOD} scsi_debug"
${RMMOD} scsi_debug || die "Error $? removing scsi_debug devices"
}

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#!/bin/bash
#
# 1 scsi_debug device for fault injection and 3 loopback devices
# on top of which is layered raidz.
#
SDSIZE=${SDSIZE:-256}
SDHOSTS=${SDHOSTS:-1}
SDTGTS=${SDTGTS:-1}
SDLUNS=${SDLUNS:-1}
LDMOD=/sbin/modprobe
FILES="/tmp/zpool-vdev0 \
/tmp/zpool-vdev1 \
/tmp/zpool-vdev2"
DEVICES=""
zpool_create() {
check_loop_utils
check_sd_utils
test `${LSMOD} | grep -c scsi_debug` -gt 0 && \
(echo 0 >/sys/module/scsi_debug/parameters/every_nth && \
${RMMOD} scsi_debug || exit 1)
udev_trigger
msg "${LDMOD} scsi_debug dev_size_mb=${SDSIZE} " \
"add_host=${SDHOSTS} num_tgts=${SDTGTS} " \
"max_luns=${SDLUNS}"
${LDMOD} scsi_debug \
dev_size_mb=${SDSIZE} \
add_host=${SDHOSTS} \
num_tgts=${SDTGTS} \
max_luns=${SDLUNS} || \
die "Error $? creating scsi_debug devices"
udev_trigger
SDDEVICE=`${LSSCSI} | ${AWK} '/scsi_debug/ { print $6; exit }'`
msg "${PARTED} -s ${SDDEVICE} mklabel gpt"
${PARTED} -s ${SDDEVICE} mklabel gpt || \
(${RMMOD} scsi_debug && die "Error $? creating gpt label")
for FILE in ${FILES}; do
LODEVICE=`unused_loop_device`
rm -f ${FILE} || exit 1
dd if=/dev/zero of=${FILE} bs=1024k count=0 seek=256 \
&>/dev/null || (${RMMOD} scsi_debug && \
die "Error $? creating ${FILE}")
# Setup the loopback device on the file.
msg "Creating ${LODEVICE} using ${FILE}"
${LOSETUP} ${LODEVICE} ${FILE} || (${RMMOD} scsi_debug \
die "Error $? creating ${LODEVICE} using ${FILE}")
DEVICES="${DEVICES} ${LODEVICE}"
done
DEVICES="${DEVICES} ${SDDEVICE}"
msg "${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} raidz ${DEVICES}"
${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} raidz ${DEVICES} || \
(${RMMOD} scsi_debug && exit 1)
}
zpool_destroy() {
msg ${ZPOOL} destroy ${ZPOOL_NAME}
${ZPOOL} destroy ${ZPOOL_NAME}
for FILE in ${FILES}; do
LODEVICE=`${LOSETUP} -a | grep ${FILE} | head -n1|cut -f1 -d:`
msg "Removing ${LODEVICE} using ${FILE}"
${LOSETUP} -d ${LODEVICE} ||
die "Error $? destroying ${LODEVICE} using ${FILE}"
rm -f ${FILE} || exit 1
done
msg "${RMMOD} scsi_debug"
${RMMOD} scsi_debug || die "Error $? removing scsi_debug devices"
}

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#!/bin/bash
#
# 1 scsi_debug device for fault injection and 3 loopback devices
# on top of which is layered raidz2.
#
SDSIZE=${SDSIZE:-256}
SDHOSTS=${SDHOSTS:-1}
SDTGTS=${SDTGTS:-1}
SDLUNS=${SDLUNS:-1}
LDMOD=/sbin/modprobe
FILES="/tmp/zpool-vdev0 \
/tmp/zpool-vdev1 \
/tmp/zpool-vdev2"
DEVICES=""
zpool_create() {
check_loop_utils
check_sd_utils
test `${LSMOD} | grep -c scsi_debug` -gt 0 && \
(echo 0 >/sys/module/scsi_debug/parameters/every_nth && \
${RMMOD} scsi_debug || exit 1)
udev_trigger
msg "${LDMOD} scsi_debug dev_size_mb=${SDSIZE} " \
"add_host=${SDHOSTS} num_tgts=${SDTGTS} " \
"max_luns=${SDLUNS}"
${LDMOD} scsi_debug \
dev_size_mb=${SDSIZE} \
add_host=${SDHOSTS} \
num_tgts=${SDTGTS} \
max_luns=${SDLUNS} || \
die "Error $? creating scsi_debug devices"
udev_trigger
SDDEVICE=`${LSSCSI} | ${AWK} '/scsi_debug/ { print $6; exit }'`
msg "${PARTED} -s ${SDDEVICE} mklabel gpt"
${PARTED} -s ${SDDEVICE} mklabel gpt || \
(${RMMOD} scsi_debug && die "Error $? creating gpt label")
for FILE in ${FILES}; do
LODEVICE=`unused_loop_device`
rm -f ${FILE} || exit 1
dd if=/dev/zero of=${FILE} bs=1024k count=0 seek=256 \
&>/dev/null || (${RMMOD} scsi_debug && \
die "Error $? creating ${FILE}")
# Setup the loopback device on the file.
msg "Creating ${LODEVICE} using ${FILE}"
${LOSETUP} ${LODEVICE} ${FILE} || (${RMMOD} scsi_debug \
die "Error $? creating ${LODEVICE} using ${FILE}")
DEVICES="${DEVICES} ${LODEVICE}"
done
DEVICES="${DEVICES} ${SDDEVICE}"
msg "${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} raidz2 ${DEVICES}"
${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} raidz2 ${DEVICES} || \
(${RMMOD} scsi_debug && exit 1)
}
zpool_destroy() {
msg ${ZPOOL} destroy ${ZPOOL_NAME}
${ZPOOL} destroy ${ZPOOL_NAME}
for FILE in ${FILES}; do
LODEVICE=`${LOSETUP} -a | grep ${FILE} | head -n1|cut -f1 -d:`
msg "Removing ${LODEVICE} using ${FILE}"
${LOSETUP} -d ${LODEVICE} ||
die "Error $? destroying ${LODEVICE} using ${FILE}"
rm -f ${FILE} || exit 1
done
msg "${RMMOD} scsi_debug"
${RMMOD} scsi_debug || die "Error $? removing scsi_debug devices"
}

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#!/bin/bash
#
# 1 scsi_debug device for fault injection and 3 loopback devices
# on top of which is layered raidz3.
#
SDSIZE=${SDSIZE:-256}
SDHOSTS=${SDHOSTS:-1}
SDTGTS=${SDTGTS:-1}
SDLUNS=${SDLUNS:-1}
LDMOD=/sbin/modprobe
FILES="/tmp/zpool-vdev0 \
/tmp/zpool-vdev1 \
/tmp/zpool-vdev2"
DEVICES=""
zpool_create() {
check_loop_utils
check_sd_utils
test `${LSMOD} | grep -c scsi_debug` -gt 0 && \
(echo 0 >/sys/module/scsi_debug/parameters/every_nth && \
${RMMOD} scsi_debug || exit 1)
udev_trigger
msg "${LDMOD} scsi_debug dev_size_mb=${SDSIZE} " \
"add_host=${SDHOSTS} num_tgts=${SDTGTS} " \
"max_luns=${SDLUNS}"
${LDMOD} scsi_debug \
dev_size_mb=${SDSIZE} \
add_host=${SDHOSTS} \
num_tgts=${SDTGTS} \
max_luns=${SDLUNS} || \
die "Error $? creating scsi_debug devices"
udev_trigger
SDDEVICE=`${LSSCSI} | ${AWK} '/scsi_debug/ { print $6; exit }'`
msg "${PARTED} -s ${SDDEVICE} mklabel gpt"
${PARTED} -s ${SDDEVICE} mklabel gpt || \
(${RMMOD} scsi_debug && die "Error $? creating gpt label")
for FILE in ${FILES}; do
LODEVICE=`unused_loop_device`
rm -f ${FILE} || exit 1
dd if=/dev/zero of=${FILE} bs=1024k count=0 seek=256 \
&>/dev/null || (${RMMOD} scsi_debug && \
die "Error $? creating ${FILE}")
# Setup the loopback device on the file.
msg "Creating ${LODEVICE} using ${FILE}"
${LOSETUP} ${LODEVICE} ${FILE} || (${RMMOD} scsi_debug \
die "Error $? creating ${LODEVICE} using ${FILE}")
DEVICES="${DEVICES} ${LODEVICE}"
done
DEVICES="${DEVICES} ${SDDEVICE}"
msg "${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} raidz3 ${DEVICES}"
${ZPOOL} create ${FORCE_FLAG} ${ZPOOL_NAME} raidz3 ${DEVICES} || \
(${RMMOD} scsi_debug && exit 1)
}
zpool_destroy() {
msg ${ZPOOL} destroy ${ZPOOL_NAME}
${ZPOOL} destroy ${ZPOOL_NAME}
for FILE in ${FILES}; do
LODEVICE=`${LOSETUP} -a | grep ${FILE} | head -n1|cut -f1 -d:`
msg "Removing ${LODEVICE} using ${FILE}"
${LOSETUP} -d ${LODEVICE} ||
die "Error $? destroying ${LODEVICE} using ${FILE}"
rm -f ${FILE} || exit 1
done
msg "${RMMOD} scsi_debug"
${RMMOD} scsi_debug || die "Error $? removing scsi_debug devices"
}