zfs-builds-mm/zfs-0.8.0/scripts/zfs-tests.sh

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2019-07-06 23:40:11 +02:00
#!/bin/bash
#
# CDDL HEADER START
#
# The contents of this file are subject to the terms of the
# Common Development and Distribution License, Version 1.0 only
# (the "License"). You may not use this file except in compliance
# with the License.
#
# You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
# or http://www.opensolaris.org/os/licensing.
# See the License for the specific language governing permissions
# and limitations under the License.
#
# When distributing Covered Code, include this CDDL HEADER in each
# file and include the License file at usr/src/OPENSOLARIS.LICENSE.
# If applicable, add the following below this CDDL HEADER, with the
# fields enclosed by brackets "[]" replaced with your own identifying
# information: Portions Copyright [yyyy] [name of copyright owner]
#
# CDDL HEADER END
#
BASE_DIR=$(dirname "$0")
SCRIPT_COMMON=common.sh
if [ -f "${BASE_DIR}/${SCRIPT_COMMON}" ]; then
. "${BASE_DIR}/${SCRIPT_COMMON}"
else
echo "Missing helper script ${SCRIPT_COMMON}" && exit 1
fi
PROG=zfs-tests.sh
VERBOSE="no"
QUIET=
CLEANUP="yes"
CLEANUPALL="no"
LOOPBACK="yes"
STACK_TRACER="no"
FILESIZE="4G"
RUNFILE=${RUNFILE:-"linux.run"}
FILEDIR=${FILEDIR:-/var/tmp}
DISKS=${DISKS:-""}
SINGLETEST=()
SINGLETESTUSER="root"
TAGS=""
ITERATIONS=1
ZFS_DBGMSG="$STF_SUITE/callbacks/zfs_dbgmsg.ksh"
ZFS_DMESG="$STF_SUITE/callbacks/zfs_dmesg.ksh"
ZFS_MMP="$STF_SUITE/callbacks/zfs_mmp.ksh"
TESTFAIL_CALLBACKS=${TESTFAIL_CALLBACKS:-"$ZFS_DBGMSG:$ZFS_DMESG:$ZFS_MMP"}
LOSETUP=${LOSETUP:-/sbin/losetup}
DMSETUP=${DMSETUP:-/sbin/dmsetup}
#
# Log an informational message when additional verbosity is enabled.
#
msg() {
if [ "$VERBOSE" = "yes" ]; then
echo "$@"
fi
}
#
# Log a failure message, cleanup, and return an error.
#
fail() {
echo -e "$PROG: $1" >&2
cleanup
exit 1
}
#
# Attempt to remove loopback devices and files which where created earlier
# by this script to run the test framework. The '-k' option may be passed
# to the script to suppress cleanup for debugging purposes.
#
cleanup() {
if [ "$CLEANUP" = "no" ]; then
return 0
fi
if [ "$LOOPBACK" = "yes" ]; then
for TEST_LOOPBACK in ${LOOPBACKS}; do
LOOP_DEV=$(basename "$TEST_LOOPBACK")
DM_DEV=$(sudo "${DMSETUP}" ls 2>/dev/null | \
grep "${LOOP_DEV}" | cut -f1)
if [ -n "$DM_DEV" ]; then
sudo "${DMSETUP}" remove "${DM_DEV}" ||
echo "Failed to remove: ${DM_DEV}"
fi
if [ -n "${TEST_LOOPBACK}" ]; then
sudo "${LOSETUP}" -d "${TEST_LOOPBACK}" ||
echo "Failed to remove: ${TEST_LOOPBACK}"
fi
done
fi
for TEST_FILE in ${FILES}; do
rm -f "${TEST_FILE}" &>/dev/null
done
if [ "$STF_PATH_REMOVE" = "yes" ] && [ -d "$STF_PATH" ]; then
rm -Rf "$STF_PATH"
fi
}
trap cleanup EXIT
#
# Attempt to remove all testpools (testpool.XXX), unopened dm devices,
# loopback devices, and files. This is a useful way to cleanup a previous
# test run failure which has left the system in an unknown state. This can
# be dangerous and should only be used in a dedicated test environment.
#
cleanup_all() {
local TEST_POOLS
TEST_POOLS=$(sudo "$ZPOOL" list -H -o name | grep testpool)
local TEST_LOOPBACKS
TEST_LOOPBACKS=$(sudo "${LOSETUP}" -a|grep file-vdev|cut -f1 -d:)
local TEST_FILES
TEST_FILES=$(ls /var/tmp/file-vdev* 2>/dev/null)
msg
msg "--- Cleanup ---"
msg "Removing pool(s): $(echo "${TEST_POOLS}" | tr '\n' ' ')"
for TEST_POOL in $TEST_POOLS; do
sudo "$ZPOOL" destroy "${TEST_POOL}"
done
msg "Removing dm(s): $(sudo "${DMSETUP}" ls |
grep loop | tr '\n' ' ')"
sudo "${DMSETUP}" remove_all
msg "Removing loopback(s): $(echo "${TEST_LOOPBACKS}" | tr '\n' ' ')"
for TEST_LOOPBACK in $TEST_LOOPBACKS; do
sudo "${LOSETUP}" -d "${TEST_LOOPBACK}"
done
msg "Removing files(s): $(echo "${TEST_FILES}" | tr '\n' ' ')"
for TEST_FILE in $TEST_FILES; do
sudo rm -f "${TEST_FILE}"
done
}
#
# Takes a name as the only arguments and looks for the following variations
# on that name. If one is found it is returned.
#
# $RUNFILE_DIR/<name>
# $RUNFILE_DIR/<name>.run
# <name>
# <name>.run
#
find_runfile() {
local NAME=$1
local RESULT=""
if [ -f "$RUNFILE_DIR/$NAME" ]; then
RESULT="$RUNFILE_DIR/$NAME"
elif [ -f "$RUNFILE_DIR/$NAME.run" ]; then
RESULT="$RUNFILE_DIR/$NAME.run"
elif [ -f "$NAME" ]; then
RESULT="$NAME"
elif [ -f "$NAME.run" ]; then
RESULT="$NAME.run"
fi
echo "$RESULT"
}
#
# Symlink file if it appears under any of the given paths.
#
create_links() {
local dir_list="$1"
local file_list="$2"
[ -n "$STF_PATH" ] || fail "STF_PATH wasn't correctly set"
for i in $file_list; do
for j in $dir_list; do
[ ! -e "$STF_PATH/$i" ] || continue
if [ ! -d "$j/$i" ] && [ -e "$j/$i" ]; then
ln -s "$j/$i" "$STF_PATH/$i" || \
fail "Couldn't link $i"
break
fi
done
[ ! -e "$STF_PATH/$i" ] && STF_MISSING_BIN="$STF_MISSING_BIN$i "
done
}
#
# Constrain the path to limit the available binaries to a known set.
# When running in-tree a top level ./bin/ directory is created for
# convenience, otherwise a temporary directory is used.
#
constrain_path() {
. "$STF_SUITE/include/commands.cfg"
if [ "$INTREE" = "yes" ]; then
# Constrained path set to ./zfs/bin/
STF_PATH="$BIN_DIR"
STF_PATH_REMOVE="no"
STF_MISSING_BIN=""
if [ ! -d "$STF_PATH" ]; then
mkdir "$STF_PATH"
chmod 755 "$STF_PATH" || fail "Couldn't chmod $STF_PATH"
fi
# Special case links for standard zfs utilities
DIRS="$(find "$CMD_DIR" -type d \( ! -name .deps -a \
! -name .libs \) -print | tr '\n' ' ')"
create_links "$DIRS" "$ZFS_FILES"
# Special case links for zfs test suite utilities
DIRS="$(find "$STF_SUITE" -type d \( ! -name .deps -a \
! -name .libs \) -print | tr '\n' ' ')"
create_links "$DIRS" "$ZFSTEST_FILES"
else
# Constrained path set to /var/tmp/constrained_path.*
SYSTEMDIR=${SYSTEMDIR:-/var/tmp/constrained_path.XXXX}
STF_PATH=$(/bin/mktemp -d "$SYSTEMDIR")
STF_PATH_REMOVE="yes"
STF_MISSING_BIN=""
chmod 755 "$STF_PATH" || fail "Couldn't chmod $STF_PATH"
# Special case links for standard zfs utilities
create_links "/bin /usr/bin /sbin /usr/sbin" "$ZFS_FILES"
# Special case links for zfs test suite utilities
create_links "$STF_SUITE/bin" "$ZFSTEST_FILES"
fi
# Standard system utilities
create_links "/bin /usr/bin /sbin /usr/sbin" "$SYSTEM_FILES"
# Exceptions
ln -fs "$STF_PATH/awk" "$STF_PATH/nawk"
ln -fs /sbin/fsck.ext4 "$STF_PATH/fsck"
ln -fs /sbin/mkfs.ext4 "$STF_PATH/newfs"
ln -fs "$STF_PATH/gzip" "$STF_PATH/compress"
ln -fs "$STF_PATH/gunzip" "$STF_PATH/uncompress"
ln -fs "$STF_PATH/exportfs" "$STF_PATH/share"
ln -fs "$STF_PATH/exportfs" "$STF_PATH/unshare"
if [ -L "$STF_PATH/arc_summary3" ]; then
ln -fs "$STF_PATH/arc_summary3" "$STF_PATH/arc_summary"
fi
}
#
# Output a useful usage message.
#
usage() {
cat << EOF
USAGE:
$0 [hvqxkfS] [-s SIZE] [-r RUNFILE] [-t PATH] [-u USER]
DESCRIPTION:
ZFS Test Suite launch script
OPTIONS:
-h Show this message
-v Verbose zfs-tests.sh output
-q Quiet test-runner output
-x Remove all testpools, dm, lo, and files (unsafe)
-k Disable cleanup after test failure
-f Use files only, disables block device tests
-S Enable stack tracer (negative performance impact)
-c Only create and populate constrained path
-n NFSFILE Use the nfsfile to determine the NFS configuration
-I NUM Number of iterations
-d DIR Use DIR for files and loopback devices
-s SIZE Use vdevs of SIZE (default: 4G)
-r RUNFILE Run tests in RUNFILE (default: linux.run)
-t PATH Run single test at PATH relative to test suite
-T TAGS Comma separated list of tags (default: 'functional')
-u USER Run single test as USER (default: root)
EXAMPLES:
# Run the default (linux) suite of tests and output the configuration used.
$0 -v
# Run a smaller suite of tests designed to run more quickly.
$0 -r linux-fast
# Cleanup a previous run of the test suite prior to testing, run the
# default (linux) suite of tests and perform no cleanup on exit.
$0 -x
EOF
}
while getopts 'hvqxkfScn:d:s:r:?t:T:u:I:' OPTION; do
case $OPTION in
h)
usage
exit 1
;;
v)
# shellcheck disable=SC2034
VERBOSE="yes"
;;
q)
QUIET="-q"
;;
x)
CLEANUPALL="yes"
;;
k)
CLEANUP="no"
;;
f)
LOOPBACK="no"
;;
S)
STACK_TRACER="yes"
;;
c)
constrain_path
exit
;;
n)
nfsfile=$OPTARG
[[ -f $nfsfile ]] || fail "Cannot read file: $nfsfile"
export NFS=1
. "$nfsfile"
;;
d)
FILEDIR="$OPTARG"
;;
I)
ITERATIONS="$OPTARG"
if [ "$ITERATIONS" -le 0 ]; then
fail "Iterations must be greater than 0."
fi
;;
s)
FILESIZE="$OPTARG"
;;
r)
RUNFILE="$OPTARG"
;;
t)
if [ ${#SINGLETEST[@]} -ne 0 ]; then
fail "-t can only be provided once."
fi
SINGLETEST+=("$OPTARG")
;;
T)
TAGS="$OPTARG"
;;
u)
SINGLETESTUSER="$OPTARG"
;;
?)
usage
exit
;;
esac
done
shift $((OPTIND-1))
FILES=${FILES:-"$FILEDIR/file-vdev0 $FILEDIR/file-vdev1 $FILEDIR/file-vdev2"}
LOOPBACKS=${LOOPBACKS:-""}
if [ ${#SINGLETEST[@]} -ne 0 ]; then
if [ -n "$TAGS" ]; then
fail "-t and -T are mutually exclusive."
fi
RUNFILE_DIR="/var/tmp"
RUNFILE="zfs-tests.$$.run"
SINGLEQUIET="False"
if [ -n "$QUIET" ]; then
SINGLEQUIET="True"
fi
cat >$RUNFILE_DIR/$RUNFILE << EOF
[DEFAULT]
pre =
quiet = $SINGLEQUIET
pre_user = root
user = $SINGLETESTUSER
timeout = 600
post_user = root
post =
outputdir = /var/tmp/test_results
EOF
for t in "${SINGLETEST[@]}"
do
SINGLETESTDIR=$(dirname "$t")
SINGLETESTFILE=$(basename "$t")
SETUPSCRIPT=
CLEANUPSCRIPT=
if [ -f "$STF_SUITE/$SINGLETESTDIR/setup.ksh" ]; then
SETUPSCRIPT="setup"
fi
if [ -f "$STF_SUITE/$SINGLETESTDIR/cleanup.ksh" ]; then
CLEANUPSCRIPT="cleanup"
fi
cat >>$RUNFILE_DIR/$RUNFILE << EOF
[$SINGLETESTDIR]
tests = ['$SINGLETESTFILE']
pre = $SETUPSCRIPT
post = $CLEANUPSCRIPT
tags = ['functional']
EOF
done
fi
#
# Use default tag if none was specified
#
TAGS=${TAGS:='functional'}
#
# Attempt to locate the runfile describing the test workload.
#
if [ -n "$RUNFILE" ]; then
SAVED_RUNFILE="$RUNFILE"
RUNFILE=$(find_runfile "$RUNFILE")
[ -z "$RUNFILE" ] && fail "Cannot find runfile: $SAVED_RUNFILE"
fi
if [ ! -r "$RUNFILE" ]; then
fail "Cannot read runfile: $RUNFILE"
fi
#
# This script should not be run as root. Instead the test user, which may
# be a normal user account, needs to be configured such that it can
# run commands via sudo passwordlessly.
#
if [ "$(id -u)" = "0" ]; then
fail "This script must not be run as root."
fi
if [ "$(sudo whoami)" != "root" ]; then
fail "Passwordless sudo access required."
fi
#
# Constrain the available binaries to a known set.
#
constrain_path
#
# Check if ksh exists
#
[ -e "$STF_PATH/ksh" ] || fail "This test suite requires ksh."
[ -e "$STF_SUITE/include/default.cfg" ] || fail \
"Missing $STF_SUITE/include/default.cfg file."
#
# Verify the ZFS module stack is loaded.
#
if [ "$STACK_TRACER" = "yes" ]; then
sudo "${ZFS_SH}" -S &>/dev/null
else
sudo "${ZFS_SH}" &>/dev/null
fi
#
# Attempt to cleanup all previous state for a new test run.
#
if [ "$CLEANUPALL" = "yes" ]; then
cleanup_all
fi
#
# By default preserve any existing pools
# NOTE: Since 'zpool list' outputs a newline-delimited list convert $KEEP from
# space-delimited to newline-delimited.
#
if [ -z "${KEEP}" ]; then
KEEP="$(sudo "$ZPOOL" list -H -o name)"
if [ -z "${KEEP}" ]; then
KEEP="rpool"
fi
else
KEEP="$(echo -e "${KEEP//[[:blank:]]/\n}")"
fi
#
# NOTE: The following environment variables are undocumented
# and should be used for testing purposes only:
#
# __ZFS_POOL_EXCLUDE - don't iterate over the pools it lists
# __ZFS_POOL_RESTRICT - iterate only over the pools it lists
#
# See libzfs/libzfs_config.c for more information.
#
__ZFS_POOL_EXCLUDE="$(echo "$KEEP" | sed ':a;N;s/\n/ /g;ba')"
. "$STF_SUITE/include/default.cfg"
msg
msg "--- Configuration ---"
msg "Runfile: $RUNFILE"
msg "STF_TOOLS: $STF_TOOLS"
msg "STF_SUITE: $STF_SUITE"
msg "STF_PATH: $STF_PATH"
#
# No DISKS have been provided so a basic file or loopback based devices
# must be created for the test suite to use.
#
if [ -z "${DISKS}" ]; then
#
# Create sparse files for the test suite. These may be used
# directory or have loopback devices layered on them.
#
for TEST_FILE in ${FILES}; do
[ -f "$TEST_FILE" ] && fail "Failed file exists: ${TEST_FILE}"
truncate -s "${FILESIZE}" "${TEST_FILE}" ||
fail "Failed creating: ${TEST_FILE} ($?)"
if [[ "$DISKS" ]]; then
DISKS="$DISKS $TEST_FILE"
else
DISKS="$TEST_FILE"
fi
done
#
# If requested setup loopback devices backed by the sparse files.
#
if [ "$LOOPBACK" = "yes" ]; then
DISKS=""
test -x "$LOSETUP" || fail "$LOSETUP utility must be installed"
for TEST_FILE in ${FILES}; do
TEST_LOOPBACK=$(sudo "${LOSETUP}" -f)
sudo "${LOSETUP}" "${TEST_LOOPBACK}" "${TEST_FILE}" ||
fail "Failed: ${TEST_FILE} -> ${TEST_LOOPBACK}"
LOOPBACKS="${LOOPBACKS}${TEST_LOOPBACK} "
BASELOOPBACKS=$(basename "$TEST_LOOPBACK")
if [[ "$DISKS" ]]; then
DISKS="$DISKS $BASELOOPBACKS"
else
DISKS="$BASELOOPBACKS"
fi
done
fi
fi
NUM_DISKS=$(echo "${DISKS}" | awk '{print NF}')
[ "$NUM_DISKS" -lt 3 ] && fail "Not enough disks ($NUM_DISKS/3 minimum)"
#
# Disable SELinux until the ZFS Test Suite has been updated accordingly.
#
if [ -x "$STF_PATH/setenforce" ]; then
sudo setenforce permissive &>/dev/null
fi
#
# Enable internal ZFS debug log and clear it.
#
if [ -e /sys/module/zfs/parameters/zfs_dbgmsg_enable ]; then
sudo /bin/sh -c "echo 1 >/sys/module/zfs/parameters/zfs_dbgmsg_enable"
sudo /bin/sh -c "echo 0 >/proc/spl/kstat/zfs/dbgmsg"
fi
msg "FILEDIR: $FILEDIR"
msg "FILES: $FILES"
msg "LOOPBACKS: $LOOPBACKS"
msg "DISKS: $DISKS"
msg "NUM_DISKS: $NUM_DISKS"
msg "FILESIZE: $FILESIZE"
msg "ITERATIONS: $ITERATIONS"
msg "TAGS: $TAGS"
msg "STACK_TRACER: $STACK_TRACER"
msg "Keep pool(s): $KEEP"
msg "Missing util(s): $STF_MISSING_BIN"
msg ""
export STF_TOOLS
export STF_SUITE
export STF_PATH
export DISKS
export FILEDIR
export KEEP
export __ZFS_POOL_EXCLUDE
export TESTFAIL_CALLBACKS
export PATH=$STF_PATH
RESULTS_FILE=$(mktemp -u -t zts-results.XXXX -p "$FILEDIR")
REPORT_FILE=$(mktemp -u -t zts-report.XXXX -p "$FILEDIR")
#
# Run all the tests as specified.
#
msg "${TEST_RUNNER} ${QUIET} -c ${RUNFILE} -T ${TAGS} -i ${STF_SUITE}" \
"-I ${ITERATIONS}"
${TEST_RUNNER} ${QUIET} -c "${RUNFILE}" -T "${TAGS}" -i "${STF_SUITE}" \
-I "${ITERATIONS}" 2>&1 | tee "$RESULTS_FILE"
#
# Analyze the results.
#
set -o pipefail
${ZTS_REPORT} "$RESULTS_FILE" | tee "$REPORT_FILE"
RESULT=$?
set +o pipefail
RESULTS_DIR=$(awk '/^Log directory/ { print $3 }' "$RESULTS_FILE")
if [ -d "$RESULTS_DIR" ]; then
cat "$RESULTS_FILE" "$REPORT_FILE" >"$RESULTS_DIR/results"
fi
rm -f "$RESULTS_FILE" "$REPORT_FILE"
if [ ${#SINGLETEST[@]} -ne 0 ]; then
rm -f "$RUNFILE" &>/dev/null
fi
exit ${RESULT}