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apfstests/common.rc
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Eric Sandeen 8a5dcff7ca xfstests: 223 - test file alignment on stripe geometry 
A first-cut test to ensure that files are well-aligned on filesystems
with stripe geometry.

Several sizes of stripe units are mkfs'd, and then files are written
and fallocated in various multiples of those stripe sizes.
Each file is checked to ensure that the first block is
stripe-aligned.

(Ideally, for any fragmented files, we should ensure that each
fragment start is well-aligned, but this does not do that yet)

(slightly unrelated: don't send scratch mkfs output to /dev/null,
we'd like to see mkfs output and direct it to $seq.full - this
more or less matches _scratch_mkfs_xfs behavior and doesn't
break any tests that I can see)

Signed-off-by: Eric Sandeen <sandeen@sandeen.net>
Reviewed-by: Christoph Hellwig <hch@lst.de>
2010-02-03 10:43:53 -06:00

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##/bin/bash
#-----------------------------------------------------------------------
# Copyright (c) 2000-2006 Silicon Graphics, 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; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will 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 to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
# USA
#
# Contact information: Silicon Graphics, Inc., 1500 Crittenden Lane,
# Mountain View, CA 94043, USA, or: http://www.sgi.com
#-----------------------------------------------------------------------
dd()
{
if [ "$HOSTOS" == "Linux" ]
then
command dd --help | grep noxfer > /dev/null 2>&1
if [ "$?" -eq 0 ]
then
command dd status=noxfer $@
else
command dd $@
fi
else
command dd $@
fi
}
# ls -l w/ selinux sometimes puts a dot at the end:
# -rwxrw-r--. id1 id2 file1
_ls_l()
{
ls -l $* | sed "s/\(^[-rwxdlbcpsStT]*\)\. /\1 /"
}
_mount_opts()
{
case $FSTYP in
xfs)
export MOUNT_OPTIONS=$XFS_MOUNT_OPTIONS
;;
udf)
export MOUNT_OPTIONS=$UDF_MOUNT_OPTIONS
;;
nfs)
export MOUNT_OPTIONS=$NFS_MOUNT_OPTIONS
;;
ext2|ext3|ext4)
# acls & xattrs aren't turned on by default on ext$FOO
export MOUNT_OPTIONS="-o acl,user_xattr $EXT_MOUNT_OPTIONS"
;;
reiserfs)
# acls & xattrs aren't turned on by default on reiserfs
export MOUNT_OPTIONS="-o acl,user_xattr $REISERFS_MOUNT_OPTIONS"
;;
gfs2)
# acls aren't turned on by default on gfs2
export MOUNT_OPTIONS="-o acl $GFS2_MOUNT_OPTIONS"
;;
*)
;;
esac
}
_mkfs_opts()
{
case $FSTYP in
xfs)
export MKFS_OPTIONS=$XFS_MKFS_OPTIONS
;;
udf)
[ ! -z "$udf_fsize" ] && \
UDF_MKFS_OPTIONS="$UDF_MKFS_OPTIONS -s $udf_fsize"
export MKFS_OPTIONS=$UDF_MKFS_OPTIONS
;;
nfs)
export MKFS_OPTIONS=$NFS_MKFS_OPTIONS
;;
reiserfs)
export MKFS_OPTIONS="$REISERFS_MKFS_OPTIONS -q"
;;
gfs2)
export MKFS_OPTIONS="$GFS2_MKFS_OPTIONS -O -p lock_nolock"
;;
*)
;;
esac
}
_fsck_opts()
{
case $FSTYP in
ext2|ext3|ext4)
export FSCK_OPTIONS="-nf"
;;
reiserfs)
export FSCK_OPTIONS="--yes"
;;
*)
export FSCK_OPTIONS="-n"
;;
esac
}
[ -z "$FSTYP" ] && FSTYP=xfs
[ -z "$MOUNT_OPTIONS" ] && _mount_opts
[ -z "$MKFS_OPTIONS" ] && _mkfs_opts
[ -z "$FSCK_OPTIONS" ] && _fsck_opts
# we need common.config
if [ "$iam" != "check" ]
then
if ! . ./common.config
then
echo "$iam: failed to source common.config"
exit 1
fi
fi
# make sure we have a standard umask
umask 022
_mount()
{
$MOUNT_PROG `_mount_ops_filter $*`
}
_scratch_options()
{
type=$1
SCRATCH_OPTIONS=""
if [ "$FSTYP" != "xfs" ]; then
return
fi
case $type in
mkfs)
[ "$HOSTOS" != "IRIX" ] && SCRATCH_OPTIONS="$SCRATCH_OPTIONS -f"
rt_opt="-r"
log_opt="-l"
;;
mount)
rt_opt="-o"
log_opt="-o"
;;
esac
[ "$USE_EXTERNAL" = yes -a ! -z "$SCRATCH_RTDEV" ] && \
SCRATCH_OPTIONS="$SCRATCH_OPTIONS ${rt_opt}rtdev=$SCRATCH_RTDEV"
[ "$USE_EXTERNAL" = yes -a ! -z "$SCRATCH_LOGDEV" ] && \
SCRATCH_OPTIONS="$SCRATCH_OPTIONS ${log_opt}logdev=$SCRATCH_LOGDEV"
}
_test_options()
{
type=$1
TEST_OPTIONS=""
if [ "$FSTYP" != "xfs" ]; then
return
fi
case $type in
mkfs)
rt_opt="-r"
log_opt="-l"
;;
mount)
rt_opt="-o"
log_opt="-o"
;;
esac
[ "$USE_EXTERNAL" = yes -a ! -z "$TEST_RTDEV" ] && \
TEST_OPTIONS="$TEST_OPTIONS ${rt_opt}rtdev=$TEST_RTDEV"
[ "$USE_EXTERNAL" = yes -a ! -z "$TEST_LOGDEV" ] && \
TEST_OPTIONS="$TEST_OPTIONS ${log_opt}logdev=$TEST_LOGDEV"
}
_mount_ops_filter()
{
params="$*"
#get mount point to handle dmapi mtpt option correctly
let last_index=$#-1
[ $last_index -gt 0 ] && shift $last_index
FS_ESCAPED=$1
# irix is fussy about how it is fed its mount options
# - multiple -o's are not allowed
# - no spaces between comma delimitered options
# the sed script replaces all -o's (except the first) with a comma
# not required for linux, but won't hurt
echo $params | sed -e 's/[[:space:]]*-o[[:space:]]*/UnIqUe/1; s/[[:space:]]*-o[[:space:]]*/,/g; s/UnIqUe/ -o /1' \
| sed -e 's/dmapi/dmi/' \
| $PERL_PROG -ne "s#mtpt=[^,|^\n|^\s]*#mtpt=$FS_ESCAPED\1\2#; print;"
}
_scratch_mount_options()
{
_scratch_options mount
echo $SCRATCH_OPTIONS $MOUNT_OPTIONS $* $SCRATCH_DEV $SCRATCH_MNT
}
_scratch_mount()
{
_mount -t $FSTYP `_scratch_mount_options $*`
}
_scratch_unmount()
{
$UMOUNT_PROG $SCRATCH_DEV
}
_scratch_remount()
{
_scratch_unmount
_scratch_mount
}
_test_mount()
{
_test_options mount
_mount -t $FSTYP $TEST_OPTIONS $TEST_FS_MOUNT_OPTS $* $TEST_DEV $TEST_DIR
}
_scratch_mkfs_options()
{
_scratch_options mkfs
echo $SCRATCH_OPTIONS $MKFS_OPTIONS $* $SCRATCH_DEV
}
_scratch_mkfs_xfs()
{
# extra mkfs options can be added by tests
local extra_mkfs_options=$*
local tmp_dir=/tmp/
_scratch_options mkfs
# save mkfs output in case conflict means we need to run again.
# only the output for the mkfs that applies should be shown
$MKFS_XFS_PROG $SCRATCH_OPTIONS $MKFS_OPTIONS $extra_mkfs_options $SCRATCH_DEV \
2>$tmp_dir.mkfserr 1>$tmp_dir.mkfsstd
local mkfs_status=$?
# a mkfs failure may be caused by conflicts between
# $MKFS_OPTIONS and $extra_mkfs_options
if [ $mkfs_status -ne 0 -a ! -z "$extra_mkfs_options" ]; then
echo "** mkfs failed with extra mkfs options added to \"$MKFS_OPTIONS\" by test $seq **" \
>>$here/$seq.full
echo "** attempting to mkfs using only test $seq options: $extra_mkfs_options **" \
>>$here/$seq.full
# running mkfs again. overwrite previous mkfs output files
$MKFS_XFS_PROG $SCRATCH_OPTIONS $extra_mkfs_options $SCRATCH_DEV \
2>$tmp_dir.mkfserr 1>$tmp_dir.mkfsstd
mkfs_status=$?
fi
# output stored mkfs output
cat $tmp_dir.mkfserr >&2
cat $tmp_dir.mkfsstd
rm -f $tmp_dir.mkfserr $tmp_dir.mkfsstd
if [ "$USE_BIG_LOOPFS" = yes ]; then
[ -z "$RETAIN_AG_BYTES" ] && RETAIN_AG_BYTES=0
./tools/ag-wipe -q -r $RETAIN_AG_BYTES $SCRATCH_DEV
fi
return $mkfs_status
}
_scratch_mkfs()
{
case $FSTYP in
xfs)
_scratch_mkfs_xfs $*
;;
nfs*)
# do nothing for nfs
;;
udf)
$MKFS_UDF_PROG $MKFS_OPTIONS $* $SCRATCH_DEV > /dev/null
;;
*)
/sbin/mkfs -t $FSTYP -- $MKFS_OPTIONS $* $SCRATCH_DEV
;;
esac
}
# Emulate an N-data-disk stripe w/ various stripe units
# _scratch_mkfs_geom <sunit bytes> <swidth multiplier> [optional blocksize]
_scratch_mkfs_geom()
{
sunit_bytes=$1
swidth_mult=$2
blocksize=$3
[ -z "$blocksize" ] && blocksize=4096
let sunit_blocks=$sunit_bytes/$blocksize
let swidth_blocks=$sunit_blocks*$swidth_mult
case $FSTYP in
xfs)
MKFS_OPTIONS="-b size=$blocksize, -d su=$sunit_bytes,sw=$swidth_mult"
;;
ext4)
MKFS_OPTIONS="-b $blocksize -E stride=$sunit_blocks,stripe_width=$swidth_blocks"
;;
*)
_notrun "can't mkfs $FSTYP with geometry"
;;
esac
_scratch_mkfs
}
_scratch_xfs_db_options()
{
SCRATCH_OPTIONS=""
[ "$USE_EXTERNAL" = yes -a ! -z "$SCRATCH_LOGDEV" ] && \
SCRATCH_OPTIONS="-l$SCRATCH_LOGDEV"
echo $SCRATCH_OPTIONS $* $SCRATCH_DEV
}
_scratch_xfs_logprint()
{
SCRATCH_OPTIONS=""
[ "$USE_EXTERNAL" = yes -a ! -z "$SCRATCH_LOGDEV" ] && \
SCRATCH_OPTIONS="-l$SCRATCH_LOGDEV"
$XFS_LOGPRINT_PROG $SCRATCH_OPTIONS $* $SCRATCH_DEV
}
_scratch_xfs_check()
{
SCRATCH_OPTIONS=""
[ "$USE_EXTERNAL" = yes -a ! -z "$SCRATCH_LOGDEV" ] && \
SCRATCH_OPTIONS="-l $SCRATCH_LOGDEV"
$XFS_CHECK_PROG $SCRATCH_OPTIONS $* $SCRATCH_DEV
}
_scratch_xfs_repair()
{
SCRATCH_OPTIONS=""
[ "$USE_EXTERNAL" = yes -a ! -z "$SCRATCH_LOGDEV" ] && \
SCRATCH_OPTIONS="-l$SCRATCH_LOGDEV"
[ "$USE_EXTERNAL" = yes -a ! -z "$SCRATCH_RTDEV" ] && \
SCRATCH_OPTIONS=$SCRATCH_OPTIONS" -r$SCRATCH_RTDEV"
[ "$USE_BIG_LOOPFS" = yes ] && SCRATCH_OPTIONS=$SCRATCH_OPTIONS" -t"
$XFS_REPAIR_PROG $SCRATCH_OPTIONS $* $SCRATCH_DEV
}
_get_pids_by_name()
{
if [ $# -ne 1 ]
then
echo "Usage: _get_pids_by_name process-name" 1>&2
exit 1
fi
# Algorithm ... all ps(1) variants have a time of the form MM:SS or
# HH:MM:SS before the psargs field, use this as the search anchor.
#
# Matches with $1 (process-name) occur if the first psarg is $1
# or ends in /$1 ... the matching uses sed's regular expressions,
# so passing a regex into $1 will work.
ps $PS_ALL_FLAGS \
| sed -n \
-e 's/$/ /' \
-e 's/[ ][ ]*/ /g' \
-e 's/^ //' \
-e 's/^[^ ]* //' \
-e "/[0-9]:[0-9][0-9] *[^ ]*\/$1 /s/ .*//p" \
-e "/[0-9]:[0-9][0-9] *$1 /s/ .*//p"
}
# fix malloc libs output
#
_fix_malloc()
{
# filter out the Electric Fence notice
$PERL_PROG -e '
while (<>) {
if (defined $o && /^\s+Electric Fence/) {
chomp($o);
print "$o";
undef $o;
next;
}
print $o if (defined $o);
$o=$_;
}
print $o if (defined $o);
'
}
# check if run as root
#
_need_to_be_root()
{
id=`id | $SED_PROG -e 's/(.*//' -e 's/.*=//'`
if [ "$id" -ne 0 ]
then
echo "Arrgh ... you need to be root (not uid=$id) to run this test"
exit 1
fi
}
#
# _df_device : get an IRIX style df line for a given device
#
# - returns "" if not mounted
# - returns fs type in field two (ala IRIX)
# - joins line together if split by fancy df formatting
# - strips header etc
#
_df_device()
{
if [ $# -ne 1 ]
then
echo "Usage: _df_device device" 1>&2
exit 1
fi
$DF_PROG 2>/dev/null | $AWK_PROG -v what=$1 '
match($1,what) && NF==1 {
v=$1
getline
print v, $0
exit
}
match($1,what) {
print
exit
}
'
}
#
# _df_dir : get an IRIX style df line for device where a directory resides
#
# - returns fs type in field two (ala IRIX)
# - joins line together if split by fancy df formatting
# - strips header etc
#
_df_dir()
{
if [ $# -ne 1 ]
then
echo "Usage: _df_dir device" 1>&2
exit 1
fi
$DF_PROG $1 2>/dev/null | $AWK_PROG -v what=$1 '
NR == 2 && NF==1 {
v=$1
getline
print v, $0;
exit 0
}
NR == 2 {
print;
exit 0
}
{}
'
# otherwise, nada
}
# return percentage used disk space for mounted device
_used()
{
if [ $# -ne 1 ]
then
echo "Usage: _used device" 1>&2
exit 1
fi
_df_device $1 | $AWK_PROG '{ sub("%", "") ; print $6 }'
}
# return the FS type of a mounted device
#
_fs_type()
{
if [ $# -ne 1 ]
then
echo "Usage: _fs_type device" 1>&2
exit 1
fi
_df_device $1 | $AWK_PROG '{ print $2 }'
}
# return the FS mount options of a mounted device
#
# should write a version which just parses the output of mount for IRIX
# compatibility, but since this isn't used at all, at the moment I'll leave
# this for now
#
_fs_options()
{
if [ $# -ne 1 ]
then
echo "Usage: _fs_options device" 1>&2
exit 1
fi
$AWK_PROG -v dev=$1 '
match($1,dev) { print $4 }
' </proc/mounts
}
# returns device number if a file is a block device
#
_is_block_dev()
{
if [ $# -ne 1 ]
then
echo "Usage: _is_block_dev dev" 1>&2
exit 1
fi
[ -b $1 ] && src/lstat64 $1 | $AWK_PROG '/Device type:/ { print $9 }'
}
# Do a command, log it to $seq.full, optionally test return status
# and die if command fails. If called with one argument _do executes the
# command, logs it, and returns its exit status. With two arguments _do
# first prints the message passed in the first argument, and then "done"
# or "fail" depending on the return status of the command passed in the
# second argument. If the command fails and the variable _do_die_on_error
# is set to "always" or the two argument form is used and _do_die_on_error
# is set to "message_only" _do will print an error message to
# $seq.out and exit.
_do()
{
if [ $# -eq 1 ]; then
_cmd=$1
elif [ $# -eq 2 ]; then
_note=$1
_cmd=$2
echo -n "$_note... "
else
echo "Usage: _do [note] cmd" 1>&2
status=1; exit
fi
(eval "echo '---' \"$_cmd\"") >>$here/$seq.full
(eval "$_cmd") >$tmp._out 2>&1; ret=$?
cat $tmp._out | _fix_malloc >>$here/$seq.full
if [ $# -eq 2 ]; then
if [ $ret -eq 0 ]; then
echo "done"
else
echo "fail"
fi
fi
if [ $ret -ne 0 ] \
&& [ "$_do_die_on_error" = "always" \
-o \( $# -eq 2 -a "$_do_die_on_error" = "message_only" \) ]
then
[ $# -ne 2 ] && echo
eval "echo \"$_cmd\" failed \(returned $ret\): see $seq.full"
status=1; exit
fi
return $ret
}
# bail out, setting up .notrun file
#
_notrun()
{
echo "$*" >$seq.notrun
echo "$seq not run: $*"
status=0
exit
}
# just plain bail out
#
_fail()
{
echo "$*" | tee -a $here/$seq.full
echo "(see $seq.full for details)"
status=1
exit 1
}
# tests whether $FSTYP is one of the supported filesystems for a test
#
_supported_fs()
{
for f
do
if [ "$f" = "$FSTYP" -o "$f" = "generic" ]
then
return
fi
done
_notrun "not suitable for this filesystem type: $FSTYP"
}
# tests whether $FSTYP is one of the supported OSes for a test
#
_supported_os()
{
for h
do
if [ "$h" = "$HOSTOS" ]
then
return
fi
done
_notrun "not suitable for this OS: $HOSTOS"
}
# this test needs a scratch partition - check we're ok & unmount it
#
_require_scratch()
{
case "$FSTYP" in
nfs*)
echo $SCRATCH_DEV | grep -q ":" > /dev/null 2>&1
if [ -z "$SCRATCH_DEV" -o "$?" != "0" ]
then
_notrun "this test requires a valid \$SCRATCH_DEV"
fi
;;
*)
if [ -z "$SCRATCH_DEV" -o "`_is_block_dev $SCRATCH_DEV`" = "" ]
then
_notrun "this test requires a valid \$SCRATCH_DEV"
fi
if [ "`_is_block_dev $SCRATCH_DEV`" = "`_is_block_dev $TEST_DEV`" ]
then
_notrun "this test requires a valid \$SCRATCH_DEV"
fi
;;
esac
# mounted?
if _mount | grep -q $SCRATCH_DEV
then
# if it's mounted, make sure its on $SCRATCH_MNT
if ! _mount | grep $SCRATCH_DEV | grep -q $SCRATCH_MNT
then
echo "\$SCRATCH_DEV is mounted but not on \$SCRATCH_MNT - aborting"
exit 1
fi
# and then unmount it
if ! $UMOUNT_PROG $SCRATCH_DEV
then
echo "failed to unmount $SCRATCH_DEV"
exit 1
fi
fi
}
# this test needs a logdev
#
_require_logdev()
{
[ -z "$SCRATCH_LOGDEV" -o ! -b "$SCRATCH_LOGDEV" ] && \
_notrun "This test requires a valid \$SCRATCH_LOGDEV"
[ "$USE_EXTERNAL" != yes ] && \
_notrun "This test requires USE_EXTERNAL to be enabled"
# ensure its not mounted
$UMOUNT_PROG $SCRATCH_LOGDEV 2>/dev/null
}
# this test requires loopback device support
#
_require_loop()
{
if [ "$HOSTOS" != "Linux" ]
then
_notrun "This test requires linux for loopback device support"
fi
modprobe loop >/dev/null 2>&1
if grep loop /proc/devices >/dev/null 2>&1
then
:
else
_notrun "This test requires loopback device support"
fi
}
# this test requires that (large) loopback device files are not in use
#
_require_nobigloopfs()
{
[ "$USE_BIG_LOOPFS" = yes ] && \
_notrun "Large filesystem testing in progress, skipped this test"
}
# this test requires that a realtime subvolume is in use, and
# that the kernel supports realtime as well.
#
_require_realtime()
{
[ "$USE_EXTERNAL" = yes ] || \
_notrun "External volumes not in use, skipped this test"
[ "$SCRATCH_RTDEV" = "" ] && \
_notrun "Realtime device required, skipped this test"
}
# this test requires that a specified command (executable) exists
#
_require_command()
{
[ -x "$1" ] || _notrun "$1 utility required, skipped this test"
}
# this test requires that external log/realtime devices are not in use
#
_require_nonexternal()
{
[ "$USE_EXTERNAL" = yes ] && \
_notrun "External device testing in progress, skipped this test"
}
# check for the fsgqa user on the machine
#
_require_user()
{
qa_user=fsgqa
cat /etc/passwd | grep -q $qa_user
[ "$?" == "0" ] || _notrun "$qa_user user not defined."
}
# check that xfs_io, glibc, kernel, and filesystem all (!) support
# fallocate
#
_require_xfs_io_falloc()
{
testio=`$XFS_IO_PROG -F -f -c "falloc 0 1m" $TEST_DIR/$tmp.io 2>&1`
rm -f $TEST_DIR/$tmp.io 2>&1 > /dev/null
echo $testio | grep -q "not found" && \
_notrun "xfs_io fallocate support is missing"
echo $testio | grep -q "Operation not supported" && \
_notrun "xfs_io fallocate command failed (old kernel/wrong fs?)"
}
# Check that a fs has enough free space (in 1024b blocks)
#
_require_fs_space()
{
MNT=$1
BLOCKS=$2 # in units of 1024
let GB=$BLOCKS/1024/1024
FREE_BLOCKS=`df -klP $MNT | grep -v Filesystem | awk '{print $4}'`
[ $FREE_BLOCKS -lt $BLOCKS ] && \
_notrun "This test requires at least ${GB}GB free on $MNT to run"
}
# check that a FS on a device is mounted
# if so, return mount point
#
_is_mounted()
{
if [ $# -ne 1 ]
then
echo "Usage: _is_mounted device" 1>&2
exit 1
fi
device=$1
if _mount | grep "$device " | $AWK_PROG -v pattern="type $FSTYP" '
pattern { print $3 ; exit 0 }
END { exit 1 }
'
then
echo "_is_mounted: $device is not a mounted $FSTYP FS"
exit 1
fi
}
# remount a FS to a new mode (ro or rw)
#
_remount()
{
if [ $# -ne 2 ]
then
echo "Usage: _remount device ro/rw" 1>&2
exit 1
fi
device=$1
mode=$2
if ! mount -o remount,$mode $device
then
echo "_remount: failed to remount filesystem on $device as $mode"
exit 1
fi
}
# Run the appropriate repair/check on a filesystem
#
# if the filesystem is mounted, it's either remounted ro before being
# checked or it's unmounted and then remounted
#
# If set, we remount ro instead of unmounting for fsck
USE_REMOUNT=0
_umount_or_remount_ro()
{
if [ $# -ne 1 ]
then
echo "Usage: _umount_or_remount_ro <device>" 1>&2
exit 1
fi
device=$1
mountpoint=`_is_mounted $device`
if [ $USE_REMOUNT -eq 0 ]; then
$UMOUNT_PROG $device
else
_remount $device ro
fi
echo "$mountpoint"
}
_mount_or_remount_rw()
{
if [ $# -ne 3 ]
then
echo "Usage: _mount_or_remount_rw <opts> <device> <mountpoint>" 1>&2
exit 1
fi
mount_opts=$1
device=$2
mountpoint=$3
if [ $USE_REMOUNT -eq 0 ]
then
if ! _mount -t $FSTYP $mount_opts $device $mountpoint
then
echo "!!! failed to remount $device on $mountpoint"
return 0 # ok=0
fi
else
_remount $device rw
fi
return 1 # ok=1
}
# Check a generic filesystem in no-op mode; this assumes that the
# underlying fsck program accepts "-n" for a no-op (check-only) run,
# and that it will still return an errno for corruption in this mode.
#
# Filesystems which don't support this will need to define their
# own check routine.
#
_check_generic_filesystem()
{
device=$1
# If type is set, we're mounted
type=`_fs_type $device`
ok=1
if [ "$type" = "$FSTYP" ]
then
# mounted ...
mountpoint=`_umount_or_remount_ro $device`
fi
fsck -t $FSTYP $FSCK_OPTIONS $device >$tmp.fsck 2>&1
if [ $? -ne 0 ]
then
echo "_check_generic_filesystem: filesystem on $device is inconsistent (see $seq.full)"
echo "_check_generic filesystem: filesystem on $device is inconsistent" >>$here/$seq.full
echo "*** fsck.$FSTYP output ***" >>$here/$seq.full
cat $tmp.fsck >>$here/$seq.full
echo "*** end fsck.$FSTYP output" >>$here/$seq.full
ok=0
fi
rm -f $tmp.fsck
if [ $ok -eq 0 ]
then
echo "*** mount output ***" >>$here/$seq.full
_mount >>$here/$seq.full
echo "*** end mount output" >>$here/$seq.full
elif [ "$type" = "$FSTYP" ]
then
# was mounted ...
_mount_or_remount_rw "$MOUNT_OPTIONS" $device $mountpoint
ok=$?
fi
[ $ok -eq 0 ] && exit 1
return 0
}
# run xfs_check and friends on a FS.
_check_xfs_filesystem()
{
if [ $# -ne 3 ]
then
echo "Usage: _check_xfs_filesystem device <logdev>|none <rtdev>|none" 1>&2
exit 1
fi
extra_mount_options=""
device=$1
if [ "$2" != "none" ]; then
extra_log_options="-l$2"
extra_mount_options="-ologdev=$2"
fi
if [ "$3" != "none" ]; then
extra_rt_options="-r$3"
extra_mount_options=$extra_mount_options" -ortdev=$3"
fi
extra_mount_options=$extra_mount_options" $MOUNT_OPTIONS"
[ "$FSTYP" != xfs ] && return 0
testoption=""
[ "$USE_BIG_LOOPFS" = yes ] && testoption=-t
type=`_fs_type $device`
ok=1
if [ "$type" = "xfs" ]
then
# mounted ...
mountpoint=`_umount_or_remount_ro $device`
fi
$XFS_LOGPRINT_PROG -t $extra_log_options $device 2>&1 \
| tee $tmp.logprint | grep -q "<CLEAN>"
if [ $? -ne 0 -a "$HOSTOS" = "Linux" ]
then
echo "_check_xfs_filesystem: filesystem on $device has dirty log (see $seq.full)"
echo "_check_xfs_filesystem: filesystem on $device has dirty log" >>$here/$seq.full
echo "*** xfs_logprint -t output ***" >>$here/$seq.full
cat $tmp.logprint >>$here/$seq.full
echo "*** end xfs_logprint output" >>$here/$seq.full
ok=0
fi
$XFS_CHECK_PROG $testoption $extra_log_options $device 2>&1 |\
_fix_malloc >$tmp.fs_check
if [ -s $tmp.fs_check ]
then
echo "_check_xfs_filesystem: filesystem on $device is inconsistent (c) (see $seq.full)"
echo "_check_xfs_filesystem: filesystem on $device is inconsistent" >>$here/$seq.full
echo "*** xfs_check output ***" >>$here/$seq.full
cat $tmp.fs_check >>$here/$seq.full
echo "*** end xfs_check output" >>$here/$seq.full
ok=0
fi
# repair doesn't scale massively at this stage, optionally skip it for now
[ "$USE_BIG_LOOPFS" = yes ] || \
$XFS_REPAIR_PROG -n $extra_log_options $extra_rt_options $device >$tmp.repair 2>&1
if [ $? -ne 0 ]
then
echo "_check_xfs_filesystem: filesystem on $device is inconsistent (r) (see $seq.full)"
echo "_check_xfs_filesystem: filesystem on $device is inconsistent" >>$here/$seq.full
echo "*** xfs_repair -n output ***" >>$here/$seq.full
cat $tmp.repair | _fix_malloc >>$here/$seq.full
echo "*** end xfs_repair output" >>$here/$seq.full
ok=0
fi
rm -f $tmp.fs_check $tmp.logprint $tmp.repair
if [ $ok -eq 0 ]
then
echo "*** mount output ***" >>$here/$seq.full
_mount >>$here/$seq.full
echo "*** end mount output" >>$here/$seq.full
elif [ "$type" = "xfs" ]
then
_mount_or_remount_rw "$extra_mount_options" $device $mountpoint
fi
[ $ok -eq 0 ] && exit 1
return 0
}
# Filter the knowen errors the UDF Verifier reports.
_udf_test_known_error_filter()
{
egrep -v "PVD 60 Error: Interchange Level: 1, Maximum Interchange Level: 0|FSD 28 Error: Interchange Level: 1, Maximum Interchange Level: 1,|PVD 72 Warning: Volume Set Identifier: \"\*IRIX UDF\",|Warning: [0-9]+ unused blocks NOT marked as unallocated."
}
_check_udf_filesystem()
{
[ "$DISABLE_UDF_TEST" == "1" ] && return
if [ $# -ne 1 -a $# -ne 2 ]
then
echo "Usage: _check_udf_filesystem device [last_block]" 1>&2
exit 1
fi
if [ ! -x $here/src/udf_test ]
then
echo "udf_test not installed, please download and build the Philips"
echo "UDF Verification Software from http://www.extra.research.philips.com/udf/."
echo "Then copy the udf_test binary to $here/src/."
echo "If you do not wish to run udf_test then set environment variable DISABLE_UDF_TEST"
echo "to 1."
return
fi
device=$1
if [ $# -eq 2 ];
then
LAST_BLOCK=`expr \( $2 - 1 \)`
OPT_ARG="-lastvalidblock $LAST_BLOCK"
fi
rm -f $seq.checkfs
sleep 1 # Due to a problem with time stamps in udf_test
$here/src/udf_test $OPT_ARG $device | tee $here/$seq.checkfs | egrep "Error|Warning" | \
_udf_test_known_error_filter | \
egrep -iv "Error count:.*[0-9]+.*total occurrences:.*[0-9]+|Warning count:.*[0-9]+.*total occurrences:.*[0-9]+" | \
sed "s/^.*$/Warning UDF Verifier reported errors see $seq.checkfs./g"
}
_check_xfs_test_fs()
{
TEST_LOG="none"
TEST_RT="none"
[ "$USE_EXTERNAL" = yes -a ! -z "$TEST_LOGDEV" ] && \
TEST_LOG="$TEST_LOGDEV"
[ "$USE_EXTERNAL" = yes -a ! -z "$TEST_RTDEV" ] && \
TEST_RT="$TEST_RTDEV"
_check_xfs_filesystem $TEST_DEV $TEST_LOG $TEST_RT
# check for ipath consistency
if $XFS_GROWFS_PROG -n $TEST_DIR | grep -q 'inode-paths=1'; then
# errors go to stderr
xfs_check_ipaths $TEST_DIR >/dev/null
xfs_repair_ipaths -n $TEST_DIR >/dev/null
fi
}
_check_test_fs()
{
case $FSTYP in
xfs)
_check_xfs_test_fs
;;
nfs)
# no way to check consistency for nfs
;;
udf)
# do nothing for now
;;
*)
_check_generic_filesystem $TEST_DEV
;;
esac
}
_check_scratch_fs()
{
case $FSTYP in
xfs)
SCRATCH_LOG="none"
SCRATCH_RT="none"
[ "$USE_EXTERNAL" = yes -a ! -z "$SCRATCH_LOGDEV" ] && \
SCRATCH_LOG="$SCRATCH_LOGDEV"
[ "$USE_EXTERNAL" = yes -a ! -z "$SCRATCH_RTDEV" ] && \
SCRATCH_RT="$SCRATCH_RTDEV"
_check_xfs_filesystem $SCRATCH_DEV $SCRATCH_LOG $SCRATCH_RT
;;
udf)
_check_udf_filesystem $SCRATCH_DEV $udf_fsize
;;
nfs*)
# Don't know how to check an NFS filesystem, yet.
;;
*)
_check_generic_filesystem $SCRATCH_DEV
;;
esac
}
_full_fstyp_details()
{
[ -z "$FSTYP" ] && FSTYP=xfs
if [ $FSTYP = xfs ]; then
if [ -d /proc/fs/xfs ]; then
if grep -q 'debug 0' /proc/fs/xfs/stat; then
FSTYP="$FSTYP (non-debug)"
elif grep -q 'debug 1' /proc/fs/xfs/stat; then
FSTYP="$FSTYP (debug)"
fi
else
if uname -a | grep -qi 'debug'; then
FSTYP="$FSTYP (debug)"
else
FSTYP="$FSTYP (non-debug)"
fi
fi
fi
echo $FSTYP
}
_full_platform_details()
{
os=`uname -s`
host=`hostname -s`
kernel=`uname -r`
platform=`uname -m`
echo "$os/$platform $host $kernel"
}
_setup_udf_scratchdir()
{
[ "$FSTYP" != "udf" ] \
&& _fail "setup_udf_testdir: \$FSTYP is not udf"
[ -z "$SCRATCH_DEV" -o ! -b "$SCRATCH_DEV" ] \
&& _notrun "this test requires a valid \$SCRATCH_DEV"
[ -z "$SCRATCH_MNT" ] \
&& _notrun "this test requires a valid \$SCRATCH_MNT"
# mounted?
if _mount | grep -q $SCRATCH_DEV
then
# if it's mounted, make sure its on $TEST_RW_DIR
if ! _mount | grep $SCRATCH_DEV | grep -q $SCRATCH_MNT
then
_fail "\$SCRATCH_DEV is mounted but not on \$SCRATCH_MNT - aborting"
fi
$UMOUNT_PROG $SCRATCH_DEV
fi
_scratch_mkfs
_scratch_mount
testdir=$SCRATCH_MNT
}
_setup_nfs_scratchdir()
{
[ "$FSTYP" != "nfs" ] \
&& _fail "setup_nfs_testdir: \$FSTYP is not nfs"
[ -z "$SCRATCH_DEV" ] \
&& _notrun "this test requires a valid host fs for \$SCRATCH_DEV"
[ -z "$SCRATCH_MNT" ] \
&& _notrun "this test requires a valid \$SCRATCH_MNT"
# mounted?
if _mount | grep -q $SCRATCH_DEV
then
# if it's mounted, make sure its on $SCRATCH_MNT
if ! _mount | grep $SCRATCH_DEV | grep -q $SCRATCH_MNT
then
_fail "\$SCRATCH_DEV is mounted but not on \$SCRATCH_MNT - aborting"
fi
$UMOUNT_PROG $SCRATCH_DEV
fi
_scratch_mkfs
_scratch_mount
testdir=$SCRATCH_MNT
}
#
# Warning for UDF and NFS:
# this function calls _setup_udf_scratchdir and _setup_udf_scratchdir
# which actually uses the scratch dir for the test dir.
#
# This was done because testdir was intended to be a persistent
# XFS only partition. This should eventually change, and treat
# at least local filesystems all the same.
#
_setup_testdir()
{
case $FSTYP in
udf)
_setup_udf_scratchdir
;;
nfs*)
_setup_nfs_scratchdir
;;
*)
testdir=$TEST_DIR
;;
esac
}
_cleanup_testdir()
{
case $FSTYP in
udf)
# umount testdir as it is $SCRATCH_MNT which could be used by xfs next
[ -n "$testdir" ] && $UMOUNT_PROG $testdir
;;
nfs*)
# umount testdir as it is $SCRATCH_MNT which could be used by xfs next
[ -n "$testdir" ] && $UMOUNT_PROG $testdir
;;
*)
# do nothing, testdir is $TEST_DIR
:
;;
esac
}
_link_out_file()
{
if [ -z "$1" ]; then
echo Error must pass \$seq.
exit
fi
rm -f $1
if [ "`uname`" == "IRIX64" ] || [ "`uname`" == "IRIX" ]; then
ln -s $1.irix $1
elif [ "`uname`" == "Linux" ]; then
ln -s $1.linux $1
else
echo Error test $seq does not run on the operating system: `uname`
exit
fi
}
_die()
{
echo $@
exit 1
}
_nfiles()
{
f=0
while [ $f -lt $1 ]
do
file=f$f
echo > $file
if [ $size -gt 0 ]; then
dd if=/dev/zero of=$file bs=1024 count=$size
fi
let f=$f+1
done
}
# takes dirname, depth
_descend()
{
dirname=$1; depth=$2
mkdir $dirname || die "mkdir $dirname failed"
cd $dirname
_nfiles $files # files for this dir
[ $depth -eq 0 ] && return
let deep=$depth-1 # go 1 down
[ $verbose = true ] && echo "descending, depth from leaves = $deep"
d=0
while [ $d -lt $dirs ]
do
_descend d$d $deep &
let d=$d+1
wait
done
}
# Populate a filesystem with inodes for performance experiments
#
# usage: populate [-v] [-n ndirs] [-f nfiles] [-d depth] [-r root] [-s size]
#
_populate_fs()
{
here=`pwd`
dirs=5 # ndirs in each subdir till leaves
size=0 # sizeof files in K
files=100 # num files in _each_ subdir
depth=2 # depth of tree from root to leaves
verbose=false
root=root # path of initial root of directory tree
while getopts "d:f:n:r:s:v" c
do
case $c in
d) depth=$OPTARG;;
n) dirs=$OPTARG;;
f) files=$OPTARG;;
s) size=$OPTARG;;
v) verbose=true;;
r) root=$OPTARG;;
esac
done
_descend $root $depth
wait
cd $here
[ $verbose = true ] && echo done
}
# query whether the given file has the given inode flag set
#
_test_inode_flag()
{
flag=$1
file=$2
if which $XFS_IO_PROG >/dev/null; then
if $XFS_IO_PROG -r -c 'lsattr -v' "$file" | grep -q "$flag" ; then
return 0
fi
fi
return 1
}
# query the given files extsize allocator hint in bytes (if any)
#
_test_inode_extsz()
{
file=$1
blocks=""
if which $XFS_IO_PROG >/dev/null; then
blocks=`$XFS_IO_PROG -r -c 'stat' "$file" | \
awk '/^xattr.extsize =/ { print $3 }'`
fi
[ -z "$blocks" ] && blocks="0"
echo $blocks
}
################################################################################
if [ "$iam" != new -a "$iam" != bench ]
then
# make some further configuration checks here
if [ "$TEST_DEV" = "" ]
then
echo "common.rc: Error: \$TEST_DEV is not set"
exit 1
fi
# if $TEST_DEV is not mounted, mount it now as XFS
if [ -z "`_fs_type $TEST_DEV`" ]
then
# $TEST_DEV is not mounted
if ! _test_mount
then
echo "common.rc: retrying test device mount with external set"
[ "$USE_EXTERNAL" != "yes" ] && export USE_EXTERNAL=yes
if ! _test_mount
then
echo "common.rc: could not mount $TEST_DEV on $TEST_DIR"
exit 1
fi
fi
fi
if [ "`_fs_type $TEST_DEV`" != "$FSTYP" ]
then
echo "common.rc: Error: \$TEST_DEV ($TEST_DEV) is not a MOUNTED $FSTYP filesystem"
$DF_PROG $TEST_DEV
exit 1
fi
fi
# make sure this script returns success
/bin/true
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