mirror_zfs/tests/zfs-tests/include/blkdev.shlib

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#
# This file and its contents are supplied under the terms of the
# Common Development and Distribution License ("CDDL"), version 1.0.
# You may only use this file in accordance with the terms of version
# 1.0 of the CDDL.
#
# A full copy of the text of the CDDL should have accompanied this
# source. A copy of the CDDL is also available via the Internet at
# http://www.illumos.org/license/CDDL.
#
#
# Copyright 2009 Sun Microsystems, Inc. All rights reserved.
# Use is subject to license terms.
# Copyright (c) 2012, 2019 by Delphix. All rights reserved.
# Copyright 2016 Nexenta Systems, Inc.
# Copyright (c) 2016, 2017 by Intel Corporation. All rights reserved.
# Copyright (c) 2017 Lawrence Livermore National Security, LLC.
# Copyright (c) 2017 Datto Inc.
# Copyright (c) 2017 Open-E, Inc. All Rights Reserved.
# Copyright 2019 Richard Elling
#
#
# Returns SCSI host number for the given disk
#
function get_scsi_host #disk
{
typeset disk=$1
ls /sys/block/${disk}/device/scsi_device | cut -d : -f 1
}
#
# Cause a scan of all scsi host adapters by default
#
# $1 optional host number
#
function scan_scsi_hosts
{
typeset hostnum=${1}
if is_linux; then
if [[ -z $hostnum ]]; then
for host in /sys/class/scsi_host/host*; do
log_must eval "echo '- - -' > $host/scan"
done
else
log_must eval \
"echo /sys/class/scsi_host/host$hostnum/scan" \
> /dev/null
log_must eval \
"echo '- - -' > /sys/class/scsi_host/host$hostnum/scan"
fi
fi
}
#
# Wait for newly created block devices to have their minors created.
# Additional arguments can be passed to udevadm trigger, with the expected
# arguments to typically be a block device pathname. This is useful when
# checking waiting on a specific device to settle rather than triggering
# all devices and waiting for them all to settle.
#
# The udevadm settle timeout can be 120 or 180 seconds by default for
# some distros. If a long delay is experienced, it could be due to some
# strangeness in a malfunctioning device that isn't related to the devices
# under test. To help debug this condition, a notice is given if settle takes
# too long.
#
# Note: there is no meaningful return code if udevadm fails. Consumers
# should not expect a return code (do not call as argument to log_must)
#
function block_device_wait
{
if is_linux; then
udevadm trigger $* 2>/dev/null
typeset start=$SECONDS
udevadm settle
typeset elapsed=$((SECONDS - start))
[[ $elapsed > 60 ]] && \
log_note udevadm settle time too long: $elapsed
elif is_freebsd; then
if [[ ${#@} -eq 0 ]]; then
# Do something that has to go through the geom event
# queue to complete.
sysctl kern.geom.conftxt >/dev/null
return
fi
fi
# Poll for the given paths to appear, but give up eventually.
typeset -i i
for (( i = 0; i < 5; ++i )); do
typeset missing=false
typeset dev
for dev in "${@}"; do
if ! [[ -e $dev ]]; then
missing=true
break
fi
done
if ! $missing; then
break
fi
sleep ${#@}
done
}
#
# Check if the given device is physical device
#
function is_physical_device #device
{
typeset device=${1#$DEV_DSKDIR/}
device=${device#$DEV_RDSKDIR/}
if is_linux; then
is_disk_device "$DEV_DSKDIR/$device" && \
[ -f /sys/module/loop/parameters/max_part ]
elif is_freebsd; then
is_disk_device "$DEV_DSKDIR/$device" && \
echo $device | grep -qE \
-e '^a?da[0-9]+$' \
-e '^md[0-9]+$' \
-e '^mfid[0-9]+$' \
-e '^nda[0-9]+$' \
-e '^nvd[0-9]+$' \
-e '^vtbd[0-9]+$'
else
echo $device | grep -qE "^c[0-F]+([td][0-F]+)+$"
fi
}
#
# Check if the given device is a real device (ie SCSI device)
#
function is_real_device #disk
{
typeset disk=$1
[[ -z $disk ]] && log_fail "No argument for disk given."
if is_linux; then
lsblk $DEV_RDSKDIR/$disk -o TYPE 2>/dev/null | \
grep -q disk
fi
}
#
# Check if the given device is a loop device
#
function is_loop_device #disk
{
typeset disk=$1
[[ -z $disk ]] && log_fail "No argument for disk given."
if is_linux; then
lsblk $DEV_RDSKDIR/$disk -o TYPE 2>/dev/null | \
grep -q loop
fi
}
#
# Linux:
# Check if the given device is a multipath device and if there is a symbolic
# link to a device mapper and to a disk
# Currently no support for dm devices alone without multipath
#
# FreeBSD:
# Check if the given device is a gmultipath device.
#
# Others:
# No multipath detection.
#
function is_mpath_device #disk
{
typeset disk=$1
[[ -z $disk ]] && log_fail "No argument for disk given."
if is_linux; then
lsblk $DEV_MPATHDIR/$disk -o TYPE 2>/dev/null | \
grep -q mpath
if (($? == 0)); then
readlink $DEV_MPATHDIR/$disk > /dev/null 2>&1
return $?
else
return $?
fi
elif is_freebsd; then
is_disk_device $DEV_MPATHDIR/$disk
else
false
fi
}
#
# Check if the given path is the appropriate sort of device special node.
#
function is_disk_device #path
{
typeset path=$1
if is_freebsd; then
# FreeBSD doesn't have block devices, only character devices.
test -c $path
else
test -b $path
fi
}
# Set the slice prefix for disk partitioning depending
# on whether the device is a real, multipath, or loop device.
# Currently all disks have to be of the same type, so only
# checks first disk to determine slice prefix.
#
function set_slice_prefix
{
typeset disk
typeset -i i=0
if is_linux; then
while (( i < $DISK_ARRAY_NUM )); do
disk="$(echo $DISKS | awk '{print $(i + 1)}')"
if is_mpath_device $disk && ! echo $disk | awk 'substr($1,18,1) ~ /^[[:digit:]]+$/ {exit 1}' || is_real_device $disk; then
export SLICE_PREFIX=""
return 0
elif is_mpath_device $disk || is_loop_device $disk; then
export SLICE_PREFIX="p"
return 0
else
log_fail "$disk not supported for partitioning."
fi
(( i = i + 1))
done
fi
}
#
# Set the directory path of the listed devices in $DISK_ARRAY_NUM
# Currently all disks have to be of the same type, so only
# checks first disk to determine device directory
# default = /dev (linux)
# real disk = /dev (linux)
# multipath device = /dev/mapper (linux)
#
function set_device_dir
{
typeset disk
typeset -i i=0
if is_linux; then
while (( i < $DISK_ARRAY_NUM )); do
disk="$(echo $DISKS | awk '{print $(i + 1)}')"
if is_mpath_device $disk; then
export DEV_DSKDIR=$DEV_MPATHDIR
return 0
else
export DEV_DSKDIR=$DEV_RDSKDIR
return 0
fi
(( i = i + 1))
done
else
export DEV_DSKDIR=$DEV_RDSKDIR
fi
}
#
# Get the directory path of given device
#
function get_device_dir #device
{
typeset device=$1
if ! is_freebsd && ! is_physical_device $device; then
if [[ $device != "/" ]]; then
device=${device%/*}
fi
if is_disk_device "$DEV_DSKDIR/$device"; then
device="$DEV_DSKDIR"
fi
echo $device
else
echo "$DEV_DSKDIR"
fi
}
#
# Get persistent name for given disk
#
function get_persistent_disk_name #device
{
typeset device=$1
if is_linux; then
if is_real_device $device; then
udevadm info -q all -n $DEV_DSKDIR/$device \
| awk '/disk\/by-id/ {print $2; exit}' | cut -d/ -f3
elif is_mpath_device $device; then
udevadm info -q all -n $DEV_DSKDIR/$device \
| awk '/disk\/by-id\/dm-uuid/ {print $2; exit}' \
| cut -d/ -f3
else
echo $device
fi
else
echo $device
fi
}
#
# Online or offline a disk on the system
#
# First checks state of disk. Test will fail if disk is not properly onlined
# or offlined. Online is a full rescan of SCSI disks by echoing to every
# host entry.
#
function on_off_disk # disk state{online,offline} host
{
typeset disk=$1
typeset state=$2
typeset host=$3
[[ -z $disk ]] || [[ -z $state ]] && \
log_fail "Arguments invalid or missing"
if is_linux; then
if [[ $state == "offline" ]] && ( is_mpath_device $disk ); then
dm_name="$(readlink $DEV_DSKDIR/$disk | cut -d/ -f2)"
dep="$(ls /sys/block/${dm_name}/slaves | awk '{print $1}')"
while [[ -n $dep ]]; do
#check if disk is online
if lsscsi | grep -qF $dep; then
dep_dir="/sys/block/${dm_name}"
dep_dir+="/slaves/${dep}/device"
ss="${dep_dir}/state"
sd="${dep_dir}/delete"
log_must eval "echo 'offline' > ${ss}"
log_must eval "echo '1' > ${sd}"
if lsscsi | grep -qF $dep; then
log_fail "Offlining $disk failed"
fi
fi
dep="$(ls /sys/block/$dm_name/slaves 2>/dev/null | awk '{print $1}')"
done
elif [[ $state == "offline" ]] && ( is_real_device $disk ); then
#check if disk is online
if lsscsi | grep -qF $disk; then
dev_state="/sys/block/$disk/device/state"
dev_delete="/sys/block/$disk/device/delete"
log_must eval "echo 'offline' > ${dev_state}"
log_must eval "echo '1' > ${dev_delete}"
if lsscsi | grep -qF $disk; then
log_fail "Offlining $disk failed"
fi
else
log_note "$disk is already offline"
fi
elif [[ $state == "online" ]]; then
#force a full rescan
scan_scsi_hosts $host
block_device_wait
if is_mpath_device $disk; then
dm_name="$(readlink $DEV_DSKDIR/$disk | cut -d/ -f2)"
dep="$(ls /sys/block/$dm_name/slaves | awk '{print $1}')"
if lsscsi | grep -qF $dep; then
log_fail "Onlining $disk failed"
fi
elif is_real_device $disk; then
Add support for autoexpand property While the autoexpand property may seem like a small feature it depends on a significant amount of system infrastructure. Enough of that infrastructure is now in place that with a few modifications for Linux it can be supported. Auto-expand works as follows; when a block device is modified (re-sized, closed after being open r/w, etc) a change uevent is generated for udev. The ZED, which is monitoring udev events, passes the change event along to zfs_deliver_dle() if the disk or partition contains a zfs_member as identified by blkid. From here the device is matched against all imported pool vdevs using the vdev_guid which was read from the label by blkid. If a match is found the ZED reopens the pool vdev. This re-opening is important because it allows the vdev to be briefly closed so the disk partition table can be re-read. Otherwise, it wouldn't be possible to report the maximum possible expansion size. Finally, if the property autoexpand=on a vdev expansion will be attempted. After performing some sanity checks on the disk to verify that it is safe to expand, the primary partition (-part1) will be expanded and the partition table updated. The partition is then re-opened (again) to detect the updated size which allows the new capacity to be used. In order to make all of the above possible the following changes were required: * Updated the zpool_expand_001_pos and zpool_expand_003_pos tests. These tests now create a pool which is layered on a loopback, scsi_debug, and file vdev. This allows for testing of non- partitioned block device (loopback), a partition block device (scsi_debug), and a file which does not receive udev change events. This provided for better test coverage, and by removing the layering on ZFS volumes there issues surrounding layering one pool on another are avoided. * zpool_find_vdev_by_physpath() updated to accept a vdev guid. This allows for matching by guid rather than path which is a more reliable way for the ZED to reference a vdev. * Fixed zfs_zevent_wait() signal handling which could result in the ZED spinning when a signal was not handled. * Removed vdev_disk_rrpart() functionality which can be abandoned in favor of kernel provided blkdev_reread_part() function. * Added a rwlock which is held as a writer while a disk is being reopened. This is important to prevent errors from occurring for any configuration related IOs which bypass the SCL_ZIO lock. The zpool_reopen_007_pos.ksh test case was added to verify IO error are never observed when reopening. This is not expected to impact IO performance. Additional fixes which aren't critical but were discovered and resolved in the course of developing this functionality. * Added PHYS_PATH="/dev/zvol/dataset" to the vdev configuration for ZFS volumes. This is as good as a unique physical path, while the volumes are not used in the test cases anymore for other reasons this improvement was included. Reviewed by: Richard Elling <Richard.Elling@RichardElling.com> Signed-off-by: Sara Hartse <sara.hartse@delphix.com> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Closes #120 Closes #2437 Closes #5771 Closes #7366 Closes #7582 Closes #7629
2018-07-24 01:40:15 +03:00
block_device_wait
typeset -i retries=0
while ! lsscsi | grep -qF $disk; do
if (( $retries > 2 )); then
log_fail "Onlining $disk failed"
break
fi
(( ++retries ))
sleep 1
done
else
log_fail "$disk is not a real dev"
fi
else
log_fail "$disk failed to $state"
fi
fi
}
#
# Simulate disk removal
#
function remove_disk #disk
{
typeset disk=$1
on_off_disk $disk "offline"
block_device_wait
}
#
# Simulate disk insertion for the given SCSI host
#
function insert_disk #disk scsi_host
{
typeset disk=$1
typeset scsi_host=$2
on_off_disk $disk "online" $scsi_host
block_device_wait
}
#
# Load scsi_debug module with specified parameters
# $blksz can be either one of: < 512b | 512e | 4Kn >
#
function load_scsi_debug # dev_size_mb add_host num_tgts max_luns blksz
{
typeset devsize=$1
typeset hosts=$2
typeset tgts=$3
typeset luns=$4
typeset blksz=$5
[[ -z $devsize ]] || [[ -z $hosts ]] || [[ -z $tgts ]] || \
[[ -z $luns ]] || [[ -z $blksz ]] && \
log_fail "Arguments invalid or missing"
case "$5" in
'512b')
typeset sector=512
typeset blkexp=0
;;
'512e')
typeset sector=512
typeset blkexp=3
;;
'4Kn')
typeset sector=4096
typeset blkexp=0
;;
*) log_fail "Unsupported blksz value: $5" ;;
esac
if is_linux; then
modprobe -n scsi_debug
if (($? != 0)); then
log_unsupported "Platform does not have scsi_debug"
"module"
fi
if lsmod | grep -q scsi_debug; then
log_fail "scsi_debug module already installed"
else
log_must modprobe scsi_debug dev_size_mb=$devsize \
add_host=$hosts num_tgts=$tgts max_luns=$luns \
sector_size=$sector physblk_exp=$blkexp
block_device_wait
if ! lsscsi | grep -q scsi_debug; then
log_fail "scsi_debug module install failed"
fi
fi
fi
}
#
# Unload scsi_debug module, if needed.
#
function unload_scsi_debug
{
Add support for autoexpand property While the autoexpand property may seem like a small feature it depends on a significant amount of system infrastructure. Enough of that infrastructure is now in place that with a few modifications for Linux it can be supported. Auto-expand works as follows; when a block device is modified (re-sized, closed after being open r/w, etc) a change uevent is generated for udev. The ZED, which is monitoring udev events, passes the change event along to zfs_deliver_dle() if the disk or partition contains a zfs_member as identified by blkid. From here the device is matched against all imported pool vdevs using the vdev_guid which was read from the label by blkid. If a match is found the ZED reopens the pool vdev. This re-opening is important because it allows the vdev to be briefly closed so the disk partition table can be re-read. Otherwise, it wouldn't be possible to report the maximum possible expansion size. Finally, if the property autoexpand=on a vdev expansion will be attempted. After performing some sanity checks on the disk to verify that it is safe to expand, the primary partition (-part1) will be expanded and the partition table updated. The partition is then re-opened (again) to detect the updated size which allows the new capacity to be used. In order to make all of the above possible the following changes were required: * Updated the zpool_expand_001_pos and zpool_expand_003_pos tests. These tests now create a pool which is layered on a loopback, scsi_debug, and file vdev. This allows for testing of non- partitioned block device (loopback), a partition block device (scsi_debug), and a file which does not receive udev change events. This provided for better test coverage, and by removing the layering on ZFS volumes there issues surrounding layering one pool on another are avoided. * zpool_find_vdev_by_physpath() updated to accept a vdev guid. This allows for matching by guid rather than path which is a more reliable way for the ZED to reference a vdev. * Fixed zfs_zevent_wait() signal handling which could result in the ZED spinning when a signal was not handled. * Removed vdev_disk_rrpart() functionality which can be abandoned in favor of kernel provided blkdev_reread_part() function. * Added a rwlock which is held as a writer while a disk is being reopened. This is important to prevent errors from occurring for any configuration related IOs which bypass the SCL_ZIO lock. The zpool_reopen_007_pos.ksh test case was added to verify IO error are never observed when reopening. This is not expected to impact IO performance. Additional fixes which aren't critical but were discovered and resolved in the course of developing this functionality. * Added PHYS_PATH="/dev/zvol/dataset" to the vdev configuration for ZFS volumes. This is as good as a unique physical path, while the volumes are not used in the test cases anymore for other reasons this improvement was included. Reviewed by: Richard Elling <Richard.Elling@RichardElling.com> Signed-off-by: Sara Hartse <sara.hartse@delphix.com> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Closes #120 Closes #2437 Closes #5771 Closes #7366 Closes #7582 Closes #7629
2018-07-24 01:40:15 +03:00
log_must_retry "in use" 5 modprobe -r scsi_debug
}
#
# Get scsi_debug device name.
# Returns basename of scsi_debug device (for example "sdb").
#
function get_debug_device
{
for i in {1..10} ; do
val=$(lsscsi | awk '/scsi_debug/ {print $6; exit}' | cut -d/ -f3)
# lsscsi can take time to settle
if [ "$val" != "-" ] ; then
break
fi
sleep 1
done
echo "$val"
}
#
# Get actual devices used by the pool (i.e. linux sdb1 not sdb).
#
function get_pool_devices #testpool #devdir
{
typeset testpool=$1
typeset devdir=$2
typeset out=""
case $(uname) in
Linux|FreeBSD)
zpool status -P $testpool | awk -v d="$devdir" '$1 ~ d {sub(d "/", ""); printf("%s ", $1)}'
;;
esac
}
#
# Write to standard out giving the level, device name, offset and length
# of all blocks in an input file. The offset and length are in units of
# 512 byte blocks. In the case of mirrored vdevs, only the first
# device is listed, as the levels, blocks and offsets will be the same
# on other devices. Note that this function only works with mirrored
# or non-redundant pools, not raidz.
#
# The output of this function can be used to introduce corruption at
# varying levels of indirection.
#
function list_file_blocks # input_file
{
typeset input_file=$1
[[ -f $input_file ]] || log_fail "Couldn't find $input_file"
typeset ds="$(zfs list -H -o name $input_file)"
typeset pool="${ds%%/*}"
typeset objnum="$(get_objnum $input_file)"
#
# Establish a mapping between vdev ids as shown in a DVA and the
# pathnames they correspond to in ${VDEV_MAP[][]}.
#
# The vdev bits in a DVA refer to the top level vdev id.
# ${VDEV_MAP[$id]} is an array of the vdev paths within that vdev.
#
eval $(zdb -C $pool | awk '
BEGIN { printf "typeset -a VDEV_MAP;" }
function subscript(s) {
# "[#]" is more convenient than the bare "#"
match(s, /\[[0-9]*\]/)
return substr(s, RSTART, RLENGTH)
}
id && !/^ / {
# left a top level vdev
id = 0
}
id && $1 ~ /^path:$/ {
# found a vdev path; save it in the map
printf "VDEV_MAP%s%s=%s;", id, child, $2
}
/^ children/ {
# entering a top level vdev
id = subscript($0)
child = "[0]" # default in case there is no nested vdev
printf "typeset -a VDEV_MAP%s;", id
}
/^ children/ {
# entering a nested vdev (e.g. child of a top level mirror)
child = subscript($0)
}
')
#
# The awk below parses the output of zdb, printing out the level
# of each block along with vdev id, offset and length. The last
# two are converted to decimal in the while loop. 4M is added to
# the offset to compensate for the first two labels and boot
# block. Lastly, the offset and length are printed in units of
# 512B blocks for ease of use with dd.
#
typeset level vdev path offset length
if awk -n '' 2>/dev/null; then
# gawk needs -n to decode hex
AWK='awk -n'
else
AWK='awk'
fi
sync_all_pools true
zdb -dddddd $ds $objnum | $AWK -v pad=$((4<<20)) -v bs=512 '
/^$/ { looking = 0 }
looking {
level = $2
field = 3
while (split($field, dva, ":") == 3) {
# top level vdev id
vdev = int(dva[1])
# offset + 4M label/boot pad in 512B blocks
offset = (int("0x"dva[2]) + pad) / bs
# length in 512B blocks
len = int("0x"dva[3]) / bs
print level, vdev, offset, len
++field
}
}
/^Indirect blocks:/ { looking = 1 }
' | \
while read level vdev offset length; do
for path in ${VDEV_MAP[$vdev][@]}; do
echo "$level $path $offset $length"
done
done 2>/dev/null
}
function corrupt_blocks_at_level # input_file corrupt_level
{
typeset input_file=$1
typeset corrupt_level="L${2:-0}"
typeset level path offset length
[[ -f $input_file ]] || log_fail "Couldn't find $input_file"
if is_freebsd; then
# Temporarily allow corrupting an inuse device.
debugflags=$(sysctl -n kern.geom.debugflags)
sysctl kern.geom.debugflags=16
fi
list_file_blocks $input_file | \
while read level path offset length; do
if [[ $level = $corrupt_level ]]; then
log_must dd if=/dev/urandom of=$path bs=512 \
count=$length seek=$offset conv=notrunc
fi
done
if is_freebsd; then
sysctl kern.geom.debugflags=$debugflags
fi
# This is necessary for pools made of loop devices.
sync
}
function corrupt_label_checksum # label_number vdev_path
{
typeset label_size=$((256*1024))
typeset vdev_size=$(stat_size ${2})
typeset -a offsets=("$((128*1024 - 32))" \
"$(($label_size + (128*1024 - 32)))" \
"$(($vdev_size - $label_size - (128*1024 + 32)))" \
"$(($vdev_size - (128*1024 + 32)))")
dd if=/dev/urandom of=${2} seek=${offsets[$1]} bs=1 count=32 \
conv=notrunc
}