common/dmthin - pub/scm/linux/kernel/git/dgc/xfstests-dev - Git at Google

 #!/bin/bash
 #
 # Copyright (c) 2015 Red Hat, Inc.  All Rights Reserved.
 #
 # This program is free software; you can redistribute it and/or
 # modify it under the terms of the GNU General Public License as
 # published by the Free Software Foundation.
 #
 # This program is distributed in the hope that it would be useful,
 # but WITHOUT ANY WARRANTY; without even the implied warranty of
 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 # GNU General Public License for more details.
 #
 # You should have received a copy of the GNU General Public License
 # along with this program; if not, write the Free Software Foundation,
 # Inc.,  51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
 #
 #
 # common functions for setting up and tearing down a dmthin device

 # SOOO many devices!
 # Create the 2 pool devices on lvs so we can build the whole thing
 # from a single scratch device

 # Backing data dev
 DMTHIN_DATA_NAME="thin-data"
 DMTHIN_DATA_DEV="/dev/mapper/$DMTHIN_DATA_NAME"
 # Backing metadata dev
 DMTHIN_META_NAME="thin-meta"
 DMTHIN_META_DEV="/dev/mapper/$DMTHIN_META_NAME"
 # Backing pool dev (combination of above)
 DMTHIN_POOL_NAME="thin-pool"
 DMTHIN_POOL_DEV="/dev/mapper/$DMTHIN_POOL_NAME"
 # Thin volume
 DMTHIN_VOL_NAME="thin-vol"
 DMTHIN_VOL_DEV="/dev/mapper/$DMTHIN_VOL_NAME"

 echo $MOUNT_OPTIONS | grep -q dax
 if [ $? -eq 0 ]; then
 	_notrun "Cannot run tests with DAX on dmthin devices"
 fi

 _dmthin_cleanup()
 {
 	$UMOUNT_PROG $SCRATCH_MNT > /dev/null 2>&1
 	# wait for device to be fully settled so that 'dmsetup remove' doesn't
 	# fail due to EBUSY
 	$UDEV_SETTLE_PROG >/dev/null 2>&1
 	$DMSETUP_PROG remove $DMTHIN_VOL_NAME> /dev/null 2>&1
 	$DMSETUP_PROG remove $DMTHIN_POOL_NAME> /dev/null 2>&1
 	$DMSETUP_PROG remove $DMTHIN_META_NAME> /dev/null 2>&1
 	$DMSETUP_PROG remove $DMTHIN_DATA_NAME> /dev/null 2>&1
 }

 _dmthin_check_fs()
 {
 	$UMOUNT_PROG $SCRATCH_MNT > /dev/null 2>&1
 	_check_scratch_fs $DMTHIN_VOL_DEV
 }

 # Set up a dm-thin device on $SCRATCH_DEV
 #
 # All arguments are optional, and in this order; defaults follows:
 # data_dev_size: half of $SCRATCH_DEV
 # virtual_size: 10x $data_dev_size
 # cluster_size: 512k
 # low_water: 100M
 #
 # You may specify 0 to 4 of these arguments, but they
 # must be in the above order.
 _dmthin_init()
 {
 	local data_dev_size=$1	# Backing pool data size in sectors
 	local virtual_size=$2	# Virtual size in sectors
 	local cluster_size=$3   # cluster/alloc size, sectors
 	local low_water=$4	# low water mark, sectors

 	local dm_backing_dev=$SCRATCH_DEV
 	local blk_dev_size=`blockdev --getsz $dm_backing_dev`

 	local pool_id=$RANDOM

 	# Default to something small-ish
 	if [ -z "$data_dev_size" ]; then
 		data_dev_size=$(($blk_dev_size / 2))
 	fi

 	# Default to something big-is; 10x backing
 	if [ -z "$virtual_size" ]; then
 		virtual_size=$(($data_dev_size * 10))
 	fi

 	# Default to 512k
 	if [ -z "$cluster_size" ]; then
 		cluster_size=1024	# 512k in sectors
 	fi

 	# Default to 100M
 	if [ -z "$low_water" ]; then
 		low_water=204800	# 100M, in sectors
 	fi
 	# low_water is expressed in blocks of size $cluster_size
 	low_water=$((low_water / cluster_size))

 	# Need to make linear metadata and data devs.  From kernel docs:
 	# As a guide, we suggest you calculate the number of bytes to use in the
 	# metadata device as 48 * $data_dev_size / $data_block_size but round it up
 	# to 2MB (4096 sectors) if the answer is smaller.
 	# So do that:

 	local meta_dev_size=$((48 * $data_dev_size / $cluster_size))
 	if [ "$meta_dev_size" -lt "4096" ]; then
 		meta_dev_size=4096	# 2MB
 	fi

 	# scratch dev gets a metadata vol & data vol, start at this offset
 	local meta_dev_offset=10240

 	local total_data_dev_size=$(($meta_dev_offset + $meta_dev_size + $data_dev_size))
 	if [ "$total_data_dev_size" -gt "$blk_dev_size" ]; then
 		_notrun "$SCRATCH_DEV too small"
 	fi

 	# Unmount & tear down old stuff
 	_dmthin_cleanup

 	# Metadata device
 	DMTHIN_META_TABLE="0 $meta_dev_size linear $dm_backing_dev $meta_dev_offset"
 	$DMSETUP_PROG create $DMTHIN_META_NAME --table "$DMTHIN_META_TABLE" || \
 		_fatal "failed to create dm thin meta device"

 	# Data device
 	local data_dev_offset=$((meta_dev_offset + $meta_dev_size))
 	DMTHIN_DATA_TABLE="0 $data_dev_size linear $dm_backing_dev $data_dev_offset"
 	$DMSETUP_PROG create $DMTHIN_DATA_NAME --table "$DMTHIN_DATA_TABLE" || \
 		_fatal "failed to create dm thin data device"

 	# Zap the pool metadata dev
 	dd if=/dev/zero of=$DMTHIN_META_DEV bs=4096 count=1 &>/dev/null

 	# Thin pool
 	# "start length thin-pool metadata_dev data_dev data_block_size low_water_mark"
 	DMTHIN_POOL_TABLE="0 $data_dev_size thin-pool $DMTHIN_META_DEV $DMTHIN_DATA_DEV $cluster_size $low_water"
 	$DMSETUP_PROG create $DMTHIN_POOL_NAME --table "$DMTHIN_POOL_TABLE" || \
 		_fatal "failed to create dm thin pool device"

 	# Thin volume
 	$DMSETUP_PROG message $DMTHIN_POOL_DEV 0 "create_thin $pool_id" || \
 		_fatal "failed to message pool device"

 	# start length thin pool_dev dev_id [external_origin_dev]
 	DMTHIN_VOL_TABLE="0 $virtual_size thin $DMTHIN_POOL_DEV $pool_id"
 	$DMSETUP_PROG create $DMTHIN_VOL_NAME --table "$DMTHIN_VOL_TABLE" || \
 		_fatal "failed to create dm thin volume device"

 }

 # for internal use
 _dmthin_reload_table()
 {
 	local dev_name=$1
 	local table="$2"

 	$DMSETUP_PROG suspend $dev_name || \
 		_fail  "dmsetup suspend of $dev_name failed"

 	$DMSETUP_PROG load $dev_name --table "$table" || \
 		_fail "dmsetup failed to reload $dev_name table"

 	$DMSETUP_PROG resume $dev_name || \
 		_fail  "dmsetup resume of $dev_name failed"

 }

 # Grow the dm-thin device by the given amount
 # Argument is number of sectors to add, if not specified
 # defaults to 1/4 of the $SCRATCH_DEV size
 _dmthin_grow()
 {
 	local add_sectors=$1	# Number of sectors to add

 	local dm_backing_dev=$SCRATCH_DEV
 	local blk_dev_size=`blockdev --getsz $dm_backing_dev`

 	# Get current sizes & values
 	local   meta_dev_size=`$DMSETUP_PROG table | grep ^$DMTHIN_META_NAME | awk '{print $3}'`
 	local meta_dev_offset=`$DMSETUP_PROG table | grep ^$DMTHIN_META_NAME | awk '{print $6}'`
 	local   data_dev_size=`$DMSETUP_PROG table | grep ^$DMTHIN_DATA_NAME | awk '{print $3}'`
 	local   pool_dev_size=`$DMSETUP_PROG table | grep ^$DMTHIN_POOL_NAME | awk '{print $3}'`
 	local    cluster_size=`$DMSETUP_PROG table | grep ^$DMTHIN_POOL_NAME | awk '{print $7}'`
 	local       low_water=`$DMSETUP_PROG table | grep ^$DMTHIN_POOL_NAME | awk '{print $8}'`

 	# default to 25% growth
 	if [ -z "$add_sectors" ]; then
 		add_sectors=$(($data_dev_size / 4))
 	fi

 	local data_dev_offset=$(($meta_dev_offset + $meta_dev_size))

 	# Figure new sizes
 	data_dev_size=$(($data_dev_size + $add_sectors))
 	pool_dev_size=$(($pool_dev_size + $add_sectors))

 	# Can we do this?
 	local total_data_dev_size=$(($meta_dev_offset + $meta_dev_size + $data_dev_size))
 	if [ "$total_data_dev_size" -gt "$blk_dev_size" ]; then
 		_fail "$SCRATCH_DEV too small"
 	fi

 	# Grow the data device
 	DMTHIN_DATA_TABLE="0 $data_dev_size linear $dm_backing_dev $data_dev_offset"
 	_dmthin_reload_table $DMTHIN_DATA_NAME "$DMTHIN_DATA_TABLE"

 	# Grow the pool
 	DMTHIN_POOL_TABLE="0 $data_dev_size thin-pool $DMTHIN_META_DEV $DMTHIN_DATA_DEV $cluster_size $low_water"
 	_dmthin_reload_table $DMTHIN_POOL_NAME "$DMTHIN_POOL_TABLE"
 }

 # Queue IOs when full
 _dmthin_set_queue()
 {
 	local   data_dev_size=`$DMSETUP_PROG table | grep $DMTHIN_DATA_NAME | awk '{print $3}'`
 	local    cluster_size=`$DMSETUP_PROG table | grep $DMTHIN_POOL_NAME | awk '{print $7}'`
 	local       low_water=`$DMSETUP_PROG table | grep $DMTHIN_POOL_NAME | awk '{print $8}'`

 	DMTHIN_POOL_TABLE="0 $data_dev_size thin-pool $DMTHIN_META_DEV $DMTHIN_DATA_DEV $cluster_size $low_water"
 	_dmthin_reload_table $DMTHIN_POOL_NAME "$DMTHIN_POOL_TABLE"
 }

 # Fail IOs when full
 _dmthin_set_fail()
 {
 	local   data_dev_size=`$DMSETUP_PROG table | grep $DMTHIN_DATA_NAME | awk '{print $3}'`
 	local    cluster_size=`$DMSETUP_PROG table | grep $DMTHIN_POOL_NAME | awk '{print $7}'`
 	local       low_water=`$DMSETUP_PROG table | grep $DMTHIN_POOL_NAME | awk '{print $8}'`

 	DMTHIN_POOL_TABLE="0 $data_dev_size thin-pool $DMTHIN_META_DEV $DMTHIN_DATA_DEV $cluster_size $low_water 1 error_if_no_space"
 	_dmthin_reload_table $DMTHIN_POOL_NAME "$DMTHIN_POOL_TABLE"
 }

 _dmthin_mount_options()
 {
 	echo `_common_dev_mount_options $*` $DMTHIN_VOL_DEV $SCRATCH_MNT
 }

 _dmthin_mount()
 {
 	_mount -t $FSTYP `_dmthin_mount_options $*`
 }
	#!/bin/bash
	#
	# Copyright (c) 2015 Red Hat, Inc. All Rights Reserved.
	#
	# This program is free software; you can redistribute it and/or
	# modify it under the terms of the GNU General Public License as
	# published by the Free Software Foundation.
	#
	# This program is distributed in the hope that it would be useful,
	# but WITHOUT ANY WARRANTY; without even the implied warranty of
	# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	# GNU General Public License for more details.
	#
	# You should have received a copy of the GNU General Public License
	# along with this program; if not, write the Free Software Foundation,
	# Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
	#
	#
	# common functions for setting up and tearing down a dmthin device

	# SOOO many devices!
	# Create the 2 pool devices on lvs so we can build the whole thing
	# from a single scratch device

	# Backing data dev
	DMTHIN_DATA_NAME="thin-data"
	DMTHIN_DATA_DEV="/dev/mapper/$DMTHIN_DATA_NAME"
	# Backing metadata dev
	DMTHIN_META_NAME="thin-meta"
	DMTHIN_META_DEV="/dev/mapper/$DMTHIN_META_NAME"
	# Backing pool dev (combination of above)
	DMTHIN_POOL_NAME="thin-pool"
	DMTHIN_POOL_DEV="/dev/mapper/$DMTHIN_POOL_NAME"
	# Thin volume
	DMTHIN_VOL_NAME="thin-vol"
	DMTHIN_VOL_DEV="/dev/mapper/$DMTHIN_VOL_NAME"

	echo $MOUNT_OPTIONS \| grep -q dax
	if [ $? -eq 0 ]; then
	_notrun "Cannot run tests with DAX on dmthin devices"
	fi

	_dmthin_cleanup()
	{
	$UMOUNT_PROG $SCRATCH_MNT > /dev/null 2>&1
	# wait for device to be fully settled so that 'dmsetup remove' doesn't
	# fail due to EBUSY
	$UDEV_SETTLE_PROG >/dev/null 2>&1
	$DMSETUP_PROG remove $DMTHIN_VOL_NAME> /dev/null 2>&1
	$DMSETUP_PROG remove $DMTHIN_POOL_NAME> /dev/null 2>&1
	$DMSETUP_PROG remove $DMTHIN_META_NAME> /dev/null 2>&1
	$DMSETUP_PROG remove $DMTHIN_DATA_NAME> /dev/null 2>&1
	}

	_dmthin_check_fs()
	{
	$UMOUNT_PROG $SCRATCH_MNT > /dev/null 2>&1
	_check_scratch_fs $DMTHIN_VOL_DEV
	}

	# Set up a dm-thin device on $SCRATCH_DEV
	#
	# All arguments are optional, and in this order; defaults follows:
	# data_dev_size: half of $SCRATCH_DEV
	# virtual_size: 10x $data_dev_size
	# cluster_size: 512k
	# low_water: 100M
	#
	# You may specify 0 to 4 of these arguments, but they
	# must be in the above order.
	_dmthin_init()
	{
	local data_dev_size=$1 # Backing pool data size in sectors
	local virtual_size=$2 # Virtual size in sectors
	local cluster_size=$3 # cluster/alloc size, sectors
	local low_water=$4 # low water mark, sectors

	local dm_backing_dev=$SCRATCH_DEV
	local blk_dev_size=`blockdev --getsz $dm_backing_dev`

	local pool_id=$RANDOM

	# Default to something small-ish
	if [ -z "$data_dev_size" ]; then
	data_dev_size=$(($blk_dev_size / 2))
	fi

	# Default to something big-is; 10x backing
	if [ -z "$virtual_size" ]; then
	virtual_size=$(($data_dev_size * 10))
	fi

	# Default to 512k
	if [ -z "$cluster_size" ]; then
	cluster_size=1024 # 512k in sectors
	fi

	# Default to 100M
	if [ -z "$low_water" ]; then
	low_water=204800 # 100M, in sectors
	fi
	# low_water is expressed in blocks of size $cluster_size
	low_water=$((low_water / cluster_size))

	# Need to make linear metadata and data devs. From kernel docs:
	# As a guide, we suggest you calculate the number of bytes to use in the
	# metadata device as 48 * $data_dev_size / $data_block_size but round it up
	# to 2MB (4096 sectors) if the answer is smaller.
	# So do that:

	local meta_dev_size=$((48 * $data_dev_size / $cluster_size))
	if [ "$meta_dev_size" -lt "4096" ]; then
	meta_dev_size=4096 # 2MB
	fi

	# scratch dev gets a metadata vol & data vol, start at this offset
	local meta_dev_offset=10240

	local total_data_dev_size=$(($meta_dev_offset + $meta_dev_size + $data_dev_size))
	if [ "$total_data_dev_size" -gt "$blk_dev_size" ]; then
	_notrun "$SCRATCH_DEV too small"
	fi

	# Unmount & tear down old stuff
	_dmthin_cleanup

	# Metadata device
	DMTHIN_META_TABLE="0 $meta_dev_size linear $dm_backing_dev $meta_dev_offset"
	$DMSETUP_PROG create $DMTHIN_META_NAME --table "$DMTHIN_META_TABLE" \|\| \
	_fatal "failed to create dm thin meta device"

	# Data device
	local data_dev_offset=$((meta_dev_offset + $meta_dev_size))
	DMTHIN_DATA_TABLE="0 $data_dev_size linear $dm_backing_dev $data_dev_offset"
	$DMSETUP_PROG create $DMTHIN_DATA_NAME --table "$DMTHIN_DATA_TABLE" \|\| \
	_fatal "failed to create dm thin data device"

	# Zap the pool metadata dev
	dd if=/dev/zero of=$DMTHIN_META_DEV bs=4096 count=1 &>/dev/null

	# Thin pool
	# "start length thin-pool metadata_dev data_dev data_block_size low_water_mark"
	DMTHIN_POOL_TABLE="0 $data_dev_size thin-pool $DMTHIN_META_DEV $DMTHIN_DATA_DEV $cluster_size $low_water"
	$DMSETUP_PROG create $DMTHIN_POOL_NAME --table "$DMTHIN_POOL_TABLE" \|\| \
	_fatal "failed to create dm thin pool device"

	# Thin volume
	$DMSETUP_PROG message $DMTHIN_POOL_DEV 0 "create_thin $pool_id" \|\| \
	_fatal "failed to message pool device"

	# start length thin pool_dev dev_id [external_origin_dev]
	DMTHIN_VOL_TABLE="0 $virtual_size thin $DMTHIN_POOL_DEV $pool_id"
	$DMSETUP_PROG create $DMTHIN_VOL_NAME --table "$DMTHIN_VOL_TABLE" \|\| \
	_fatal "failed to create dm thin volume device"

	}

	# for internal use
	_dmthin_reload_table()
	{
	local dev_name=$1
	local table="$2"

	$DMSETUP_PROG suspend $dev_name \|\| \
	_fail "dmsetup suspend of $dev_name failed"

	$DMSETUP_PROG load $dev_name --table "$table" \|\| \
	_fail "dmsetup failed to reload $dev_name table"

	$DMSETUP_PROG resume $dev_name \|\| \
	_fail "dmsetup resume of $dev_name failed"

	}

	# Grow the dm-thin device by the given amount
	# Argument is number of sectors to add, if not specified
	# defaults to 1/4 of the $SCRATCH_DEV size
	_dmthin_grow()
	{
	local add_sectors=$1 # Number of sectors to add

	local dm_backing_dev=$SCRATCH_DEV
	local blk_dev_size=`blockdev --getsz $dm_backing_dev`

	# Get current sizes & values
	local meta_dev_size=`$DMSETUP_PROG table \| grep ^$DMTHIN_META_NAME \| awk '{print $3}'`
	local meta_dev_offset=`$DMSETUP_PROG table \| grep ^$DMTHIN_META_NAME \| awk '{print $6}'`
	local data_dev_size=`$DMSETUP_PROG table \| grep ^$DMTHIN_DATA_NAME \| awk '{print $3}'`
	local pool_dev_size=`$DMSETUP_PROG table \| grep ^$DMTHIN_POOL_NAME \| awk '{print $3}'`
	local cluster_size=`$DMSETUP_PROG table \| grep ^$DMTHIN_POOL_NAME \| awk '{print $7}'`
	local low_water=`$DMSETUP_PROG table \| grep ^$DMTHIN_POOL_NAME \| awk '{print $8}'`

	# default to 25% growth
	if [ -z "$add_sectors" ]; then
	add_sectors=$(($data_dev_size / 4))
	fi

	local data_dev_offset=$(($meta_dev_offset + $meta_dev_size))

	# Figure new sizes
	data_dev_size=$(($data_dev_size + $add_sectors))
	pool_dev_size=$(($pool_dev_size + $add_sectors))

	# Can we do this?
	local total_data_dev_size=$(($meta_dev_offset + $meta_dev_size + $data_dev_size))
	if [ "$total_data_dev_size" -gt "$blk_dev_size" ]; then
	_fail "$SCRATCH_DEV too small"
	fi

	# Grow the data device
	DMTHIN_DATA_TABLE="0 $data_dev_size linear $dm_backing_dev $data_dev_offset"
	_dmthin_reload_table $DMTHIN_DATA_NAME "$DMTHIN_DATA_TABLE"

	# Grow the pool
	DMTHIN_POOL_TABLE="0 $data_dev_size thin-pool $DMTHIN_META_DEV $DMTHIN_DATA_DEV $cluster_size $low_water"
	_dmthin_reload_table $DMTHIN_POOL_NAME "$DMTHIN_POOL_TABLE"
	}

	# Queue IOs when full
	_dmthin_set_queue()
	{
	local data_dev_size=`$DMSETUP_PROG table \| grep $DMTHIN_DATA_NAME \| awk '{print $3}'`
	local cluster_size=`$DMSETUP_PROG table \| grep $DMTHIN_POOL_NAME \| awk '{print $7}'`
	local low_water=`$DMSETUP_PROG table \| grep $DMTHIN_POOL_NAME \| awk '{print $8}'`

	DMTHIN_POOL_TABLE="0 $data_dev_size thin-pool $DMTHIN_META_DEV $DMTHIN_DATA_DEV $cluster_size $low_water"
	_dmthin_reload_table $DMTHIN_POOL_NAME "$DMTHIN_POOL_TABLE"
	}

	# Fail IOs when full
	_dmthin_set_fail()
	{
	local data_dev_size=`$DMSETUP_PROG table \| grep $DMTHIN_DATA_NAME \| awk '{print $3}'`
	local cluster_size=`$DMSETUP_PROG table \| grep $DMTHIN_POOL_NAME \| awk '{print $7}'`
	local low_water=`$DMSETUP_PROG table \| grep $DMTHIN_POOL_NAME \| awk '{print $8}'`

	DMTHIN_POOL_TABLE="0 $data_dev_size thin-pool $DMTHIN_META_DEV $DMTHIN_DATA_DEV $cluster_size $low_water 1 error_if_no_space"
	_dmthin_reload_table $DMTHIN_POOL_NAME "$DMTHIN_POOL_TABLE"
	}

	_dmthin_mount_options()
	{
	echo `_common_dev_mount_options $*` $DMTHIN_VOL_DEV $SCRATCH_MNT
	}

	_dmthin_mount()
	{
	_mount -t $FSTYP `_dmthin_mount_options $*`
	}