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qemu / qemu / 2c075ff3ceb3b18f632c0edbd2c914329dd14e50 / . / tests / qemu-iotests / common.rc
blob: 95c12577dd48ef9b07d1ac0ad1533f359dea8ccb [file] [log] [blame]
#!/usr/bin/env bash
#
# Copyright Red Hat
# 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, see <http://www.gnu.org/licenses/>.
#
export LANG=C
PATH=".:$PATH"
HOSTOS=$(uname -s)
arch=$(uname -m)
[[ "$arch" =~ "ppc64" ]] && qemu_arch=ppc64 || qemu_arch="$arch"
# make sure we have a standard umask
umask 022
# bail out, setting up .notrun file
_notrun()
{
echo "$*" >"$TEST_DIR/$seq.notrun"
echo "$seq not run: $*"
status=0
exit
}
if ! command -v gsed >/dev/null 2>&1; then
if sed --version 2>&1 | grep -v 'not GNU sed' | grep 'GNU sed' > /dev/null;
then
gsed()
{
sed "$@"
}
else
gsed()
{
_notrun "GNU sed not available"
}
fi
fi
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
}
# poke_file 'test.img' 512 '\xff\xfe'
poke_file()
{
printf "$3" | dd "of=$1" bs=1 "seek=$2" conv=notrunc &>/dev/null
}
# poke_file_le $img_filename $offset $byte_width $value
# Example: poke_file_le "$TEST_IMG" 512 2 65534
poke_file_le()
{
local img=$1 ofs=$2 len=$3 val=$4 str=''
while ((len--)); do
str+=$(printf '\\x%02x' $((val & 0xff)))
val=$((val >> 8))
done
poke_file "$img" "$ofs" "$str"
}
# poke_file_be $img_filename $offset $byte_width $value
# Example: poke_file_be "$TEST_IMG" 512 2 65279
poke_file_be()
{
local img=$1 ofs=$2 len=$3 val=$4
local str=$(printf "%0$((len * 2))x\n" $val | sed 's/\(..\)/\\x\1/g')
poke_file "$img" "$ofs" "$str"
}
# peek_file_le 'test.img' 512 2 => 65534
peek_file_le()
{
local val=0 shift=0 byte
# coreutils' od --endian is not portable, so manually assemble bytes.
for byte in $(od -j"$2" -N"$3" -An -v -tu1 "$1"); do
val=$(( val | (byte << shift) ))
shift=$((shift + 8))
done
printf %llu $val
}
# peek_file_be 'test.img' 512 2 => 65279
peek_file_be()
{
local val=0 byte
# coreutils' od --endian is not portable, so manually assemble bytes.
for byte in $(od -j"$2" -N"$3" -An -v -tu1 "$1"); do
val=$(( (val << 8) | byte ))
done
printf %llu $val
}
# peek_file_raw 'test.img' 512 2 => '\xff\xfe'. Do not use if the raw data
# is likely to contain \0 or trailing \n.
peek_file_raw()
{
dd if="$1" bs=1 skip="$2" count="$3" status=none
}
_optstr_add()
{
if [ -n "$1" ]; then
echo "$1,$2"
else
echo "$2"
fi
}
# Set the variables to the empty string to turn Valgrind off
# for specific processes, e.g.
# $ VALGRIND_QEMU_IO= ./check -qcow2 -valgrind 015
: ${VALGRIND_QEMU_VM=$VALGRIND_QEMU}
: ${VALGRIND_QEMU_IMG=$VALGRIND_QEMU}
: ${VALGRIND_QEMU_IO=$VALGRIND_QEMU}
: ${VALGRIND_QEMU_NBD=$VALGRIND_QEMU}
: ${VALGRIND_QSD=$VALGRIND_QEMU}
# The Valgrind own parameters may be set with
# its environment variable VALGRIND_OPTS, e.g.
# $ VALGRIND_OPTS="--leak-check=yes" ./check -qcow2 -valgrind 015
_qemu_proc_exec()
{
local VALGRIND_LOGFILE="$1"
shift
if [[ "${VALGRIND_QEMU}" == "y" && "${NO_VALGRIND}" != "y" ]]; then
exec valgrind --log-file="${VALGRIND_LOGFILE}" --error-exitcode=99 "$@"
else
exec "$@"
fi
}
_qemu_proc_valgrind_log()
{
local VALGRIND_LOGFILE="$1"
local RETVAL="$2"
if [[ "${VALGRIND_QEMU}" == "y" && "${NO_VALGRIND}" != "y" ]]; then
if [ $RETVAL == 99 ]; then
cat "${VALGRIND_LOGFILE}"
fi
rm -f "${VALGRIND_LOGFILE}"
fi
}
_qemu_wrapper()
{
local VALGRIND_LOGFILE="${TEST_DIR}"/$$.valgrind
(
if [ -n "${QEMU_NEED_PID}" ]; then
echo $BASHPID > "${QEMU_TEST_DIR}/qemu-${_QEMU_HANDLE}.pid"
fi
GDB=""
if [ -n "${GDB_OPTIONS}" ]; then
GDB="gdbserver ${GDB_OPTIONS}"
fi
VALGRIND_QEMU="${VALGRIND_QEMU_VM}" _qemu_proc_exec "${VALGRIND_LOGFILE}" \
$GDB "$QEMU_PROG" $QEMU_OPTIONS "$@"
)
RETVAL=$?
_qemu_proc_valgrind_log "${VALGRIND_LOGFILE}" $RETVAL
return $RETVAL
}
_qemu_img_wrapper()
{
local VALGRIND_LOGFILE="${TEST_DIR}"/$$.valgrind
(
VALGRIND_QEMU="${VALGRIND_QEMU_IMG}" _qemu_proc_exec "${VALGRIND_LOGFILE}" \
"$QEMU_IMG_PROG" $QEMU_IMG_OPTIONS "$@"
)
RETVAL=$?
_qemu_proc_valgrind_log "${VALGRIND_LOGFILE}" $RETVAL
return $RETVAL
}
_qemu_io_wrapper()
{
local VALGRIND_LOGFILE="${TEST_DIR}"/$$.valgrind
local QEMU_IO_ARGS="$QEMU_IO_OPTIONS"
if [ "$IMGOPTSSYNTAX" = "true" ]; then
QEMU_IO_ARGS="--image-opts $QEMU_IO_ARGS"
if [ -n "$IMGKEYSECRET" ]; then
QEMU_IO_ARGS="--object secret,id=keysec0,data=$IMGKEYSECRET $QEMU_IO_ARGS"
fi
fi
(
VALGRIND_QEMU="${VALGRIND_QEMU_IO}" _qemu_proc_exec "${VALGRIND_LOGFILE}" \
"$QEMU_IO_PROG" $QEMU_IO_ARGS "$@"
)
RETVAL=$?
_qemu_proc_valgrind_log "${VALGRIND_LOGFILE}" $RETVAL
return $RETVAL
}
_qemu_nbd_wrapper()
{
local VALGRIND_LOGFILE="${TEST_DIR}"/$$.valgrind
(
VALGRIND_QEMU="${VALGRIND_QEMU_NBD}" _qemu_proc_exec "${VALGRIND_LOGFILE}" \
"$QEMU_NBD_PROG" --pid-file="${QEMU_TEST_DIR}/qemu-nbd.pid" \
$QEMU_NBD_OPTIONS "$@"
)
RETVAL=$?
_qemu_proc_valgrind_log "${VALGRIND_LOGFILE}" $RETVAL
return $RETVAL
}
_qemu_storage_daemon_wrapper()
{
local VALGRIND_LOGFILE="${TEST_DIR}"/$$.valgrind
(
if [ -n "${QSD_NEED_PID}" ]; then
echo $BASHPID > "${QEMU_TEST_DIR}/qemu-storage-daemon.pid"
fi
VALGRIND_QEMU="${VALGRIND_QSD}" _qemu_proc_exec "${VALGRIND_LOGFILE}" \
"$QSD_PROG" $QSD_OPTIONS "$@"
)
RETVAL=$?
_qemu_proc_valgrind_log "${VALGRIND_LOGFILE}" $RETVAL
return $RETVAL
}
# Valgrind bug #409141 https://bugs.kde.org/show_bug.cgi?id=409141
# Until valgrind 3.16+ is ubiquitous, we must work around a hang in
# valgrind when issuing sigkill. Disable valgrind for this invocation.
_NO_VALGRIND()
{
NO_VALGRIND="y" "$@"
}
export QEMU=_qemu_wrapper
export QEMU_IMG=_qemu_img_wrapper
export QEMU_IO=_qemu_io_wrapper
export QEMU_NBD=_qemu_nbd_wrapper
export QSD=_qemu_storage_daemon_wrapper
if [ "$IMGOPTSSYNTAX" = "true" ]; then
DRIVER="driver=$IMGFMT"
QEMU_IMG_EXTRA_ARGS="--image-opts $QEMU_IMG_EXTRA_ARGS"
if [ -n "$IMGKEYSECRET" ]; then
QEMU_IMG_EXTRA_ARGS="--object secret,id=keysec0,data=$IMGKEYSECRET $QEMU_IMG_EXTRA_ARGS"
fi
if [ "$IMGFMT" = "luks" ]; then
DRIVER="$DRIVER,key-secret=keysec0"
fi
if [ "$IMGPROTO" = "file" ]; then
TEST_IMG_FILE=$TEST_DIR/t.$IMGFMT
TEST_IMG="$DRIVER,file.filename=$TEST_DIR/t.$IMGFMT"
elif [ "$IMGPROTO" = "nbd" ]; then
TEST_IMG_FILE=$TEST_DIR/t.$IMGFMT
TEST_IMG="$DRIVER,file.driver=nbd,file.type=unix"
TEST_IMG="$TEST_IMG,file.path=$SOCK_DIR/nbd"
elif [ "$IMGPROTO" = "fuse" ]; then
TEST_IMG_FILE=$TEST_DIR/t.$IMGFMT
TEST_IMG="$DRIVER,file.filename=$SOCK_DIR/fuse-t.$IMGFMT"
elif [ "$IMGPROTO" = "ssh" ]; then
TEST_IMG_FILE=$TEST_DIR/t.$IMGFMT
TEST_IMG="$DRIVER,file.driver=ssh,file.host=127.0.0.1,file.path=$TEST_IMG_FILE"
elif [ "$IMGPROTO" = "nfs" ]; then
TEST_DIR="$DRIVER,file.driver=nfs,file.filename=nfs://127.0.0.1/$TEST_DIR"
TEST_IMG=$TEST_DIR/t.$IMGFMT
else
TEST_IMG="$DRIVER,file.driver=$IMGPROTO,file.filename=$TEST_DIR/t.$IMGFMT"
fi
else
QEMU_IMG_EXTRA_ARGS=
if [ "$IMGPROTO" = "file" ]; then
TEST_IMG=$TEST_DIR/t.$IMGFMT
elif [ "$IMGPROTO" = "nbd" ]; then
TEST_IMG_FILE=$TEST_DIR/t.$IMGFMT
TEST_IMG="nbd+unix:///?socket=$SOCK_DIR/nbd"
elif [ "$IMGPROTO" = "fuse" ]; then
TEST_IMG_FILE=$TEST_DIR/t.$IMGFMT
TEST_IMG="$SOCK_DIR/fuse-t.$IMGFMT"
elif [ "$IMGPROTO" = "ssh" ]; then
TEST_IMG_FILE=$TEST_DIR/t.$IMGFMT
REMOTE_TEST_DIR="ssh://\\($USER@\\)\\?127.0.0.1\\(:[0-9]\\+\\)\\?$TEST_DIR"
TEST_IMG="ssh://127.0.0.1$TEST_IMG_FILE"
elif [ "$IMGPROTO" = "nfs" ]; then
TEST_IMG_FILE=$TEST_DIR/t.$IMGFMT
REMOTE_TEST_DIR="nfs://127.0.0.1$TEST_DIR"
TEST_IMG="nfs://127.0.0.1$TEST_IMG_FILE"
else
TEST_IMG=$IMGPROTO:$TEST_DIR/t.$IMGFMT
fi
fi
ORIG_TEST_IMG_FILE=$TEST_IMG_FILE
ORIG_TEST_IMG="$TEST_IMG"
FUSE_PIDS=()
FUSE_EXPORTS=()
if [ -z "$TEST_DIR" ]; then
TEST_DIR=$PWD/scratch
fi
QEMU_TEST_DIR="${TEST_DIR}"
if [ ! -e "$TEST_DIR" ]; then
mkdir "$TEST_DIR"
fi
if [ ! -d "$TEST_DIR" ]; then
echo "common.rc: Error: \$TEST_DIR ($TEST_DIR) is not a directory"
exit 1
fi
if [ -z "$REMOTE_TEST_DIR" ]; then
REMOTE_TEST_DIR="$TEST_DIR"
fi
if [ ! -d "$SAMPLE_IMG_DIR" ]; then
echo "common.rc: Error: \$SAMPLE_IMG_DIR ($SAMPLE_IMG_DIR) is not a directory"
exit 1
fi
_use_sample_img()
{
SAMPLE_IMG_FILE="${1%\.bz2}"
TEST_IMG="$TEST_DIR/$SAMPLE_IMG_FILE"
bzcat "$SAMPLE_IMG_DIR/$1" > "$TEST_IMG"
if [ $? -ne 0 ]
then
echo "_use_sample_img error, cannot extract '$SAMPLE_IMG_DIR/$1'"
exit 1
fi
}
_stop_nbd_server()
{
if [ -f "${QEMU_TEST_DIR}/qemu-nbd.pid" ]; then
local QEMU_NBD_PID
read QEMU_NBD_PID < "${QEMU_TEST_DIR}/qemu-nbd.pid"
kill ${QEMU_NBD_PID}
rm -f "${QEMU_TEST_DIR}/qemu-nbd.pid" "$SOCK_DIR/nbd"
fi
}
# Gets the data_file value from IMGOPTS and replaces the '$TEST_IMG'
# pattern by '$1'
# Caution: The replacement is done with sed, so $1 must be escaped
# properly. (The delimiter is '#'.)
_get_data_file()
{
if ! echo "$IMGOPTS" | grep -q 'data_file='; then
return 1
fi
echo "$IMGOPTS" | sed -e 's/.*data_file=\([^,]*\).*/\1/' \
| sed -e "s#\\\$TEST_IMG#$1#"
}
# Translate a $TEST_IMG to its corresponding $TEST_IMG_FILE for
# different protocols
_test_img_to_test_img_file()
{
case "$IMGPROTO" in
file)
echo "$1"
;;
fuse)
echo "$1" | sed -e "s#$SOCK_DIR/fuse-#$TEST_DIR/#"
;;
nfs)
echo "$1" | sed -e "s#nfs://127.0.0.1##"
;;
ssh)
echo "$1" | \
sed -e "s#ssh://\\($USER@\\)\\?127.0.0.1\\(:[0-9]\\+\\)\\?##"
;;
*)
return 1
;;
esac
}
_make_test_img()
{
# extra qemu-img options can be added by tests
# at least one argument (the image size) needs to be added
local extra_img_options=""
local optstr=""
local img_name=""
local use_backing=0
local backing_file=""
local object_options=""
local opts_param=false
local misc_params=()
if [[ $IMGPROTO == fuse && $TEST_IMG == $SOCK_DIR/fuse-* ]]; then
# The caller may be trying to overwrite an existing image
_rm_test_img "$TEST_IMG"
fi
if [ -z "$TEST_IMG_FILE" ]; then
img_name=$TEST_IMG
elif [ "$IMGOPTSSYNTAX" != "true" -a \
"$TEST_IMG_FILE" = "$ORIG_TEST_IMG_FILE" ]; then
# Handle cases of tests only updating TEST_IMG, but not TEST_IMG_FILE
img_name=$(_test_img_to_test_img_file "$TEST_IMG")
if [ "$?" != 0 ]; then
img_name=$TEST_IMG_FILE
fi
else
# $TEST_IMG_FILE is not the default value, so it definitely has been
# modified by the test
img_name=$TEST_IMG_FILE
fi
if [ -n "$IMGOPTS" ]; then
imgopts_expanded=$(echo "$IMGOPTS" | sed -e "s#\\\$TEST_IMG#$img_name#")
optstr=$(_optstr_add "$optstr" "$imgopts_expanded")
fi
if [ -n "$IMGKEYSECRET" ]; then
object_options="--object secret,id=keysec0,data=$IMGKEYSECRET"
optstr=$(_optstr_add "$optstr" "key-secret=keysec0")
fi
for param; do
if [ "$use_backing" = "1" -a -z "$backing_file" ]; then
backing_file=$param
continue
elif $opts_param; then
optstr=$(_optstr_add "$optstr" "$param")
opts_param=false
continue
fi
case "$param" in
-b)
use_backing=1
;;
-o)
opts_param=true
;;
--no-opts)
optstr=""
;;
*)
misc_params=("${misc_params[@]}" "$param")
;;
esac
done
if [ \( "$IMGFMT" = "qcow2" -o "$IMGFMT" = "qed" \) -a -n "$CLUSTER_SIZE" ]; then
optstr=$(_optstr_add "$optstr" "cluster_size=$CLUSTER_SIZE")
fi
if [ -n "$optstr" ]; then
extra_img_options="-o $optstr $extra_img_options"
fi
if [ $IMGPROTO = "nbd" ]; then
_stop_nbd_server
fi
# XXX(hch): have global image options?
(
if [ $use_backing = 1 ]; then
$QEMU_IMG create $object_options -f $IMGFMT $extra_img_options -b "$backing_file" "$img_name" "${misc_params[@]}" 2>&1
else
$QEMU_IMG create $object_options -f $IMGFMT $extra_img_options "$img_name" "${misc_params[@]}" 2>&1
fi
) | _filter_img_create
# Start an NBD server on the image file, which is what we'll be talking to.
# Once NBD gains resize support, we may also want to use -f raw at the
# server and interpret format over NBD, but for now, the format is
# interpreted at the server and raw data sent over NBD.
if [ $IMGPROTO = "nbd" ]; then
# Pass a sufficiently high number to -e that should be enough for all
# tests
eval "$QEMU_NBD -v -t -k '$SOCK_DIR/nbd' -f $IMGFMT -e 42 -x '' $TEST_IMG_FILE >/dev/null &"
sleep 1 # FIXME: qemu-nbd needs to be listening before we continue
fi
if [ $IMGPROTO = "fuse" -a -f "$img_name" ]; then
local export_mp
local pid
local pidfile
local timeout
export_mp=$(echo "$img_name" | sed -e "s#$TEST_DIR/#$SOCK_DIR/fuse-#")
if ! echo "$export_mp" | grep -q "^$SOCK_DIR"; then
echo 'Cannot use FUSE exports with images outside of TEST_DIR' >&2
return 1
fi
touch "$export_mp"
rm -f "$SOCK_DIR/fuse-output"
# Usually, users would export formatted nodes. But we present fuse as a
# protocol-level driver here, so we have to leave the format to the
# client.
# Switch off allow-other, because in general we do not need it for
# iotests. The default allow-other=auto has the downside of printing a
# fusermount error on its first attempt if allow_other is not
# permissible, which we would need to filter.
QSD_NEED_PID=y $QSD \
--blockdev file,node-name=export-node,filename=$img_name,discard=unmap \
--export fuse,id=fuse-export,node-name=export-node,mountpoint="$export_mp",writable=on,growable=on,allow-other=off \
&
pidfile="$QEMU_TEST_DIR/qemu-storage-daemon.pid"
# Wait for the PID file
while [ ! -f "$pidfile" ]; do
sleep 0.5
done
pid=$(cat "$pidfile")
rm -f "$pidfile"
FUSE_PIDS+=($pid)
FUSE_EXPORTS+=("$export_mp")
fi
}
_rm_test_img()
{
local img=$1
if [[ $IMGPROTO == fuse && $img == $SOCK_DIR/fuse-* ]]; then
# Drop a FUSE export
local df_output
local i
local image_file
local index=''
local timeout
for i in "${!FUSE_EXPORTS[@]}"; do
if [ "${FUSE_EXPORTS[i]}" = "$img" ]; then
index=$i
break
fi
done
if [ -z "$index" ]; then
# Probably gone already
return 0
fi
kill "${FUSE_PIDS[index]}"
# Wait until the mount is gone
timeout=10 # *0.5 s
while true; do
# Will show the mount point; if the mount is still there,
# it will be $img.
df_output=$(df "$img" 2>/dev/null)
# But df may also show an error ("Transpoint endpoint not
# connected"), so retry in such cases
if [ -n "$df_output" ]; then
if ! echo "$df_output" | grep -q "$img"; then
break
fi
fi
sleep 0.5
timeout=$((timeout - 1))
if [ "$timeout" = 0 ]; then
echo 'Failed to take down FUSE export' >&2
return 1
fi
done
rm -f "$img"
unset "FUSE_PIDS[$index]"
unset "FUSE_EXPORTS[$index]"
image_file=$(echo "$img" | sed -e "s#$SOCK_DIR/fuse-#$TEST_DIR/#")
_rm_test_img "$image_file"
return
fi
if [ "$IMGFMT" = "vmdk" ]; then
# Remove all the extents for vmdk
"$QEMU_IMG" info "$img" 2>/dev/null | grep 'filename:' | cut -f 2 -d: \
| xargs -I {} rm -f "{}"
elif [ "$IMGFMT" = "qcow2" ]; then
# Remove external data file
if data_file=$(_get_data_file "$img"); then
rm -f "$data_file"
fi
fi
rm -f "$img"
}
_cleanup_test_img()
{
case "$IMGPROTO" in
nbd)
_stop_nbd_server
rm -f "$TEST_IMG_FILE"
;;
fuse)
local mp
for mp in "${FUSE_EXPORTS[@]}"; do
_rm_test_img "$mp"
done
FUSE_PIDS=()
FUSE_EXPORTS=()
;;
file)
_rm_test_img "$TEST_DIR/t.$IMGFMT"
_rm_test_img "$TEST_DIR/t.$IMGFMT.orig"
_rm_test_img "$TEST_DIR/t.$IMGFMT.base"
if [ -n "$SAMPLE_IMG_FILE" ]
then
rm -f "$TEST_DIR/$SAMPLE_IMG_FILE"
SAMPLE_IMG_FILE=
TEST_IMG="$ORIG_TEST_IMG"
fi
;;
rbd)
rbd --no-progress rm "$TEST_DIR/t.$IMGFMT" > /dev/null
;;
esac
}
_check_test_img()
{
(
if [ "$IMGOPTSSYNTAX" = "true" ]; then
$QEMU_IMG check $QEMU_IMG_EXTRA_ARGS "$@" "$TEST_IMG" 2>&1
else
$QEMU_IMG check "$@" -f $IMGFMT "$TEST_IMG" 2>&1
fi
) | _filter_testdir | _filter_qemu_img_check
# return real qemu_img check status, to analyze in
# _check_test_img_ignore_leaks
return ${PIPESTATUS[0]}
}
_check_test_img_ignore_leaks()
{
out=$(_check_test_img "$@")
status=$?
if [ $status = 3 ]; then
# This must correspond to success output in dump_human_image_check()
echo "No errors were found on the image."
return 0
fi
echo "$out"
return $status
}
_img_info()
{
if [[ "$1" == "--format-specific" ]]; then
local format_specific=1
shift
else
local format_specific=0
fi
discard=0
regex_json_spec_start='^ *"format-specific": \{'
regex_json_child_start='^ *"children": \['
$QEMU_IMG info $QEMU_IMG_EXTRA_ARGS "$@" "$TEST_IMG" 2>&1 | \
sed -e "s#$REMOTE_TEST_DIR#TEST_DIR#g" \
-e "s#$IMGPROTO:$TEST_DIR#TEST_DIR#g" \
-e "s#$TEST_DIR#TEST_DIR#g" \
-e "s#$SOCK_DIR/fuse-#TEST_DIR/#g" \
-e "s#$SOCK_DIR/#SOCK_DIR/#g" \
-e "s#$IMGFMT#IMGFMT#g" \
-e 's/\(compression type: \)\(zlib\|zstd\)/\1COMPRESSION_TYPE/' \
-e "/^disk size:/ D" \
-e "/actual-size/ D" | \
while IFS='' read -r line; do
if [[ $discard == 0 ]]; then
if [[ $format_specific == 0 && $line == "Format specific information:" ]]; then
discard=1
elif [[ $line =~ "Child node '/" ]]; then
discard=1
elif [[ $format_specific == 0 && $line =~ $regex_json_spec_start ]]; then
discard=2
regex_json_end="^${line%%[^ ]*}\\},? *$"
elif [[ $line =~ $regex_json_child_start ]]; then
discard=2
regex_json_end="^${line%%[^ ]*}\\],? *$"
fi
fi
if [[ $discard == 0 ]]; then
echo "$line"
elif [[ $discard == 1 && ! $line ]]; then
echo
discard=0
elif [[ $discard == 2 && $line =~ $regex_json_end ]]; then
discard=0
fi
done
}
# bail out, setting up .casenotrun file
# The function _casenotrun() is used as a notifier. It is the
# caller's responsibility to make skipped a particular test.
#
_casenotrun()
{
echo " [case not run] $*" >>"$TEST_DIR/$seq.casenotrun"
}
# just plain bail out
#
_fail()
{
echo "$*" | tee -a "$TEST_DIR/$seq.full"
echo "(see $seq.full for details)"
status=1
exit 1
}
# tests whether $IMGFMT is one of the supported image formats for a test
#
_supported_fmt()
{
# "generic" is suitable for most image formats. For some formats it doesn't
# work, however (most notably read-only formats), so they can opt out by
# setting IMGFMT_GENERIC to false.
for f; do
if [ "$f" = "$IMGFMT" -o "$f" = "generic" -a "$IMGFMT_GENERIC" = "true" ]; then
if [ "$IMGFMT" = "luks" ]; then
_require_working_luks
fi
return
fi
done
_notrun "not suitable for this image format: $IMGFMT"
}
# tests whether $IMGFMT is one of the unsupported image format for a test
#
_unsupported_fmt()
{
for f; do
if [ "$f" = "$IMGFMT" ]; then
_notrun "not suitable for this image format: $IMGFMT"
fi
done
}
# tests whether $IMGPROTO is one of the supported image protocols for a test
#
_supported_proto()
{
for f; do
if [ "$f" = "$IMGPROTO" -o "$f" = "generic" ]; then
return
fi
done
_notrun "not suitable for this image protocol: $IMGPROTO"
}
# tests whether $IMGPROTO is specified as an unsupported image protocol for a test
#
_unsupported_proto()
{
for f; do
if [ "$f" = "$IMGPROTO" ]; then
_notrun "not suitable for this image protocol: $IMGPROTO"
return
fi
done
}
# tests whether the host OS is one of the supported OSes for a test
#
_supported_os()
{
for h
do
if [ "$h" = "$HOSTOS" ]
then
return
fi
done
_notrun "not suitable for this OS: $HOSTOS"
}
_supported_cache_modes()
{
for mode; do
if [ "$mode" = "$CACHEMODE" ]; then
return
fi
done
_notrun "not suitable for cache mode: $CACHEMODE"
}
# Check whether the filesystem supports O_DIRECT
_check_o_direct()
{
testfile="$TEST_DIR"/_check_o_direct
$QEMU_IMG create -f raw "$testfile" 1M > /dev/null
out=$($QEMU_IO -f raw -t none -c quit "$testfile" 2>&1)
rm -f "$testfile"
[[ "$out" != *"O_DIRECT"* ]]
}
_require_o_direct()
{
if ! _check_o_direct; then
_notrun "file system on $TEST_DIR does not support O_DIRECT"
fi
}
_check_cache_mode()
{
if [ $CACHEMODE == "none" ] || [ $CACHEMODE == "directsync" ]; then
_require_o_direct
fi
}
_check_cache_mode
# $1 - cache mode to use by default
# $2 - (optional) cache mode to use by default if O_DIRECT is not supported
_default_cache_mode()
{
if $CACHEMODE_IS_DEFAULT; then
if [ -z "$2" ] || _check_o_direct; then
CACHEMODE="$1"
else
CACHEMODE="$2"
fi
QEMU_IO="$QEMU_IO --cache $CACHEMODE"
_check_cache_mode
return
fi
}
_supported_aio_modes()
{
for mode; do
if [ "$mode" = "$AIOMODE" ]; then
return
fi
done
_notrun "not suitable for aio mode: $AIOMODE"
}
_default_aio_mode()
{
AIOMODE="$1"
QEMU_IO="$QEMU_IO --aio $1"
}
_unsupported_imgopts()
{
for bad_opt
do
# Add a space so tests can match for whitespace that marks the
# end of an option (\b or \> are not portable)
if echo "$IMGOPTS " | grep -q 2>/dev/null "$bad_opt"
then
_notrun "not suitable for image option: $bad_opt"
fi
done
}
# Caution: Overwrites $TEST_DIR/t.luks
_require_working_luks()
{
file="$TEST_DIR/t.luks"
output=$(
$QEMU_IMG create -f luks \
--object secret,id=sec0,data=hunter0 \
-o key-secret=sec0 \
-o iter-time=10 \
"$file" \
1M \
2>&1
)
status=$?
IMGFMT='luks' _rm_test_img "$file"
if [ $status != 0 ]; then
reason=$(echo "$output" | grep "$file:" | sed -e "s#.*$file: *##")
if [ -z "$reason" ]; then
reason="Failed to create a LUKS image"
fi
_notrun "$reason"
fi
}
# this test requires that a specified command (executable) exists
#
_require_command()
{
if [ "$1" = "QEMU" ]; then
c=$QEMU_PROG
elif [ "$1" = "QEMU_IMG" ]; then
c=$QEMU_IMG_PROG
elif [ "$1" = "QEMU_IO" ]; then
c=$QEMU_IO_PROG
elif [ "$1" = "QEMU_NBD" ]; then
c=$QEMU_NBD_PROG
else
eval c=\$$1
fi
[ -x "$c" ] || _notrun "$1 utility required, skipped this test"
}
# Check that a set of drivers has been whitelisted in the QEMU binary
#
_require_drivers()
{
available=$($QEMU -drive format=help | \
sed -e '/Supported formats:/!d' -e 's/Supported formats://')
for driver
do
if ! echo "$available" | grep -q " $driver\( \|$\)"; then
_notrun "$driver not available"
fi
done
}
# Check that we have a file system that allows huge (but very sparse) files
#
_require_large_file()
{
if [ -z "$TEST_IMG_FILE" ]; then
FILENAME="$TEST_IMG"
else
FILENAME="$TEST_IMG_FILE"
fi
if ! truncate --size="$1" "$FILENAME"; then
_notrun "file system on $TEST_DIR does not support large enough files"
fi
rm "$FILENAME"
}
# Check that a set of devices is available in the QEMU binary
#
_require_devices()
{
available=$($QEMU -M none -device help 2> /dev/null | \
grep ^name | sed -e 's/^name "//' -e 's/".*$//')
for device
do
if ! echo "$available" | grep -q "$device" ; then
_notrun "$device not available"
fi
done
}
_require_one_device_of()
{
available=$($QEMU -M none -device help 2> /dev/null | \
grep ^name | sed -e 's/^name "//' -e 's/".*$//')
for device
do
if echo "$available" | grep -q "$device" ; then
return
fi
done
_notrun "$* not available"
}
_qcow2_dump_header()
{
if [[ "$1" == "--no-filter-compression" ]]; then
local filter_compression=0
shift
else
local filter_compression=1
fi
img="$1"
if [ -z "$img" ]; then
img="$TEST_IMG"
fi
if [[ $filter_compression == 0 ]]; then
$PYTHON qcow2.py "$img" dump-header
else
$PYTHON qcow2.py "$img" dump-header | _filter_qcow2_compression_type_bit
fi
}
# make sure this script returns success
true