numam-spdk/test/common/autotest_common.sh
Michal Berger 18936662df test/common: Supress mem leak triggered during nvme_fio test
This is needed since fio, by default, links to libtcmalloc if found
during the build. See:

01fe773df4

Fixes #2192

Signed-off-by: Michal Berger <michalx.berger@intel.com>
Reviewed-on: https://review.spdk.io/gerrit/c/spdk/spdk/+/9822 (master)

(cherry picked from commit bec627fcb0)
Change-Id: I1de8fe9d489f92acb79ef0f169229a6c09ce1179
Signed-off-by: Krzysztof Karas <krzysztof.karas@intel.com>
Reviewed-on: https://review.spdk.io/gerrit/c/spdk/spdk/+/9859
Reviewed-by: Tomasz Zawadzki <tomasz.zawadzki@intel.com>
Reviewed-by: Jim Harris <james.r.harris@intel.com>
Reviewed-by: Ben Walker <benjamin.walker@intel.com>
Tested-by: Tomasz Zawadzki <tomasz.zawadzki@intel.com>
2021-10-27 08:47:51 +00:00

1374 lines
33 KiB
Bash
Executable File

#!/usr/bin/env bash
function xtrace_disable() {
if [ "$XTRACE_DISABLED" != "yes" ]; then
PREV_BASH_OPTS="$-"
if [[ "$PREV_BASH_OPTS" == *"x"* ]]; then
XTRACE_DISABLED="yes"
fi
set +x
elif [ -z $XTRACE_NESTING_LEVEL ]; then
XTRACE_NESTING_LEVEL=1
else
XTRACE_NESTING_LEVEL=$((++XTRACE_NESTING_LEVEL))
fi
}
xtrace_disable
set -e
shopt -s expand_aliases
source "$rootdir/test/common/applications.sh"
source "$rootdir/scripts/common.sh"
if [[ -e $rootdir/test/common/build_config.sh ]]; then
source "$rootdir/test/common/build_config.sh"
elif [[ -e $rootdir/mk/config.mk ]]; then
build_config=$(< "$rootdir/mk/config.mk")
source <(echo "${build_config//\?=/=}")
else
source "$rootdir/CONFIG"
fi
# Dummy function to be called after restoring xtrace just so that it appears in the
# xtrace log. This way we can consistently track when xtrace is enabled/disabled.
function xtrace_enable() {
# We have to do something inside a function in bash, and calling any command
# (even `:`) will produce an xtrace entry, so we just define another function.
function xtrace_dummy() { :; }
}
# Keep it as alias to avoid xtrace_enable backtrace always pointing to xtrace_restore.
# xtrace_enable will appear as called directly from the user script, from the same line
# that "called" xtrace_restore.
alias xtrace_restore='if [ -z $XTRACE_NESTING_LEVEL ]; then
if [[ "$PREV_BASH_OPTS" == *"x"* ]]; then
XTRACE_DISABLED="no"; PREV_BASH_OPTS=""; set -x; xtrace_enable;
fi
else
XTRACE_NESTING_LEVEL=$((--XTRACE_NESTING_LEVEL));
if [ $XTRACE_NESTING_LEVEL -eq "0" ]; then
unset XTRACE_NESTING_LEVEL
fi
fi'
: ${RUN_NIGHTLY:=0}
export RUN_NIGHTLY
# Set defaults for missing test config options
: ${SPDK_AUTOTEST_DEBUG_APPS:=0}
export SPDK_AUTOTEST_DEBUG_APPS
: ${SPDK_RUN_VALGRIND=0}
export SPDK_RUN_VALGRIND
: ${SPDK_RUN_FUNCTIONAL_TEST=0}
export SPDK_RUN_FUNCTIONAL_TEST
: ${SPDK_TEST_UNITTEST=0}
export SPDK_TEST_UNITTEST
: ${SPDK_TEST_AUTOBUILD=0}
export SPDK_TEST_AUTOBUILD
: ${SPDK_TEST_RELEASE_BUILD=0}
export SPDK_TEST_RELEASE_BUILD
: ${SPDK_TEST_ISAL=0}
export SPDK_TEST_ISAL
: ${SPDK_TEST_ISCSI=0}
export SPDK_TEST_ISCSI
: ${SPDK_TEST_ISCSI_INITIATOR=0}
export SPDK_TEST_ISCSI_INITIATOR
: ${SPDK_TEST_NVME=0}
export SPDK_TEST_NVME
: ${SPDK_TEST_NVME_CLI=0}
export SPDK_TEST_NVME_CLI
: ${SPDK_TEST_NVME_CUSE=0}
export SPDK_TEST_NVME_CUSE
: ${SPDK_TEST_NVMF=0}
export SPDK_TEST_NVMF
: ${SPDK_TEST_VFIOUSER=0}
export SPDK_TEST_VFIOUSER
: ${SPDK_TEST_NVMF_TRANSPORT="rdma"}
export SPDK_TEST_NVMF_TRANSPORT
: ${SPDK_TEST_RBD=0}
export SPDK_TEST_RBD
: ${SPDK_TEST_VHOST=0}
export SPDK_TEST_VHOST
: ${SPDK_TEST_BLOCKDEV=0}
export SPDK_TEST_BLOCKDEV
: ${SPDK_TEST_IOAT=0}
export SPDK_TEST_IOAT
: ${SPDK_TEST_BLOBFS=0}
export SPDK_TEST_BLOBFS
: ${SPDK_TEST_VHOST_INIT=0}
export SPDK_TEST_VHOST_INIT
: ${SPDK_TEST_PMDK=0}
export SPDK_TEST_PMDK
: ${SPDK_TEST_LVOL=0}
export SPDK_TEST_LVOL
: ${SPDK_TEST_JSON=0}
export SPDK_TEST_JSON
: ${SPDK_TEST_REDUCE=0}
export SPDK_TEST_REDUCE
: ${SPDK_RUN_ASAN=0}
export SPDK_RUN_ASAN
: ${SPDK_RUN_UBSAN=0}
export SPDK_RUN_UBSAN
: ${SPDK_RUN_EXTERNAL_DPDK=""}
export SPDK_RUN_EXTERNAL_DPDK
: ${SPDK_RUN_NON_ROOT=0}
export SPDK_RUN_NON_ROOT
: ${SPDK_TEST_CRYPTO=0}
export SPDK_TEST_CRYPTO
: ${SPDK_TEST_FTL=0}
export SPDK_TEST_FTL
: ${SPDK_TEST_OCF=0}
export SPDK_TEST_OCF
: ${SPDK_TEST_FTL_EXTENDED=0}
export SPDK_TEST_FTL_EXTENDED
: ${SPDK_TEST_VMD=0}
export SPDK_TEST_VMD
: ${SPDK_TEST_OPAL=0}
export SPDK_TEST_OPAL
: ${SPDK_TEST_NATIVE_DPDK}
export SPDK_TEST_NATIVE_DPDK
: ${SPDK_AUTOTEST_X=true}
export SPDK_AUTOTEST_X
: ${SPDK_TEST_RAID5=0}
export SPDK_TEST_RAID5
: ${SPDK_TEST_URING=0}
export SPDK_TEST_URING
: ${SPDK_TEST_USE_IGB_UIO:=0}
export SPDK_TEST_USE_IGB_UIO
: ${SPDK_TEST_SCHEDULER:=0}
export SPDK_TEST_SCHEDULER
export DPDK_LIB_DIR="${SPDK_RUN_EXTERNAL_DPDK:-$rootdir/dpdk/build}/lib"
export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:$SPDK_LIB_DIR:$DPDK_LIB_DIR
# Tell setup.sh to wait for block devices upon each reset
export PCI_BLOCK_SYNC_ON_RESET=yes
# Export PYTHONPATH with addition of RPC framework. New scripts can be created
# specific use cases for tests.
export PYTHONPATH=$PYTHONPATH:$rootdir/scripts
# Don't create Python .pyc files. When running with sudo these will be
# created with root ownership and can cause problems when cleaning the repository.
export PYTHONDONTWRITEBYTECODE=1
# Export flag to skip the known bug that exists in librados
# Bug is reported on ceph bug tracker with number 24078
export ASAN_OPTIONS=new_delete_type_mismatch=0
export UBSAN_OPTIONS='halt_on_error=1:print_stacktrace=1:abort_on_error=1'
# Export LeakSanitizer option to use suppression file in order to prevent false positives
# and known leaks in external executables or libraries from showing up.
asan_suppression_file="/var/tmp/asan_suppression_file"
sudo rm -rf "$asan_suppression_file"
cat << EOL >> "$asan_suppression_file"
# ASAN has some bugs around thread_local variables. We have a destructor in place
# to free the thread contexts, but ASAN complains about the leak before those
# destructors have a chance to run. So suppress this one specific leak using
# LSAN_OPTIONS.
leak:spdk_fs_alloc_thread_ctx
# Suppress known leaks in fio project
leak:$CONFIG_FIO_SOURCE_DIR/parse.c
leak:$CONFIG_FIO_SOURCE_DIR/iolog.c
leak:$CONFIG_FIO_SOURCE_DIR/init.c
leak:$CONFIG_FIO_SOURCE_DIR/filesetup.c
leak:fio_memalign
leak:spdk_fio_io_u_init
# Suppress leaks in gperftools-libs from fio
leak:libtcmalloc_minimal.so
# Suppress leaks in libiscsi
leak:libiscsi.so
EOL
# Suppress leaks in libfuse3
echo "leak:libfuse3.so" >> "$asan_suppression_file"
export LSAN_OPTIONS=suppressions="$asan_suppression_file"
export DEFAULT_RPC_ADDR="/var/tmp/spdk.sock"
if [ -z "$DEPENDENCY_DIR" ]; then
export DEPENDENCY_DIR=/home/sys_sgsw
else
export DEPENDENCY_DIR
fi
# Export location of where all the SPDK binaries are
export SPDK_BIN_DIR="$rootdir/build/bin"
export SPDK_EXAMPLE_DIR="$rootdir/build/examples"
# pass our valgrind desire on to unittest.sh
if [ $SPDK_RUN_VALGRIND -eq 0 ]; then
export valgrind=''
fi
if [ "$(uname -s)" = "Linux" ]; then
export HUGEMEM=4096 CLEAR_HUGE=yes
if [[ $SPDK_TEST_CRYPTO -eq 1 || $SPDK_TEST_REDUCE -eq 1 ]]; then
# Make sure that memory is distributed across all NUMA nodes - by default, all goes to
# node0, but if QAT devices are attached to a different node, all of their VFs will end
# up under that node too and memory needs to be available there for the tests.
export HUGE_EVEN_ALLOC=yes
fi
MAKE="make"
MAKEFLAGS=${MAKEFLAGS:--j$(nproc)}
if [[ $SPDK_TEST_USE_IGB_UIO -eq 1 ]]; then
export DRIVER_OVERRIDE=igb_uio
# Building kernel modules requires root privileges
MAKE="sudo $MAKE"
fi
elif [ "$(uname -s)" = "FreeBSD" ]; then
MAKE="gmake"
MAKEFLAGS=${MAKEFLAGS:--j$(sysctl -a | grep -E -i 'hw.ncpu' | awk '{print $2}')}
# FreeBSD runs a much more limited set of tests, so keep the default 2GB.
export HUGEMEM=2048
else
echo "Unknown OS \"$(uname -s)\""
exit 1
fi
if [ -z "$output_dir" ]; then
mkdir -p "$rootdir/../output"
export output_dir="$rootdir/../output"
fi
TEST_MODE=
for i in "$@"; do
case "$i" in
--iso)
TEST_MODE=iso
;;
--transport=*)
TEST_TRANSPORT="${i#*=}"
;;
--sock=*)
TEST_SOCK="${i#*=}"
;;
esac
done
# start rpc.py coprocess if it's not started yet
if [[ -z $RPC_PIPE_PID ]] || ! kill -0 "$RPC_PIPE_PID" &> /dev/null; then
coproc RPC_PIPE { "$rootdir/scripts/rpc.py" --server; }
exec {RPC_PIPE_OUTPUT}<&${RPC_PIPE[0]} {RPC_PIPE_INPUT}>&${RPC_PIPE[1]}
# all descriptors will automatically close together with this bash
# process, this will make rpc.py stop reading and exit gracefully
fi
function set_test_storage() {
[[ -v testdir ]] || return 0
local requested_size=$1 # bytes
local mount target_dir
local -A mounts fss sizes avails uses
local source fs size avail mount use
local storage_fallback storage_candidates
local storage_fallback_purge
shopt -s nullglob
storage_fallback_purge=("${TMPDIR:-/tmp}/spdk."??????)
shopt -u nullglob
if ((${#storage_fallback_purge[@]} > 0)); then
printf '* Purging old temporary test storage (%s)\n' \
"${storage_fallback_purge[*]}" >&2
sudo rm -rf "${storage_fallback_purge[@]}"
fi
storage_fallback=$(mktemp -udt spdk.XXXXXX)
storage_candidates=(
"$testdir"
"$storage_fallback/tests/${testdir##*/}"
"$storage_fallback"
)
if [[ -n $ADD_TEST_STORAGE ]]; then
# List of dirs|mounts separated by whitespaces
storage_candidates+=($ADD_TEST_STORAGE)
fi
if [[ -n $DEDICATED_TEST_STORAGE ]]; then
# Single, dedicated dir|mount
storage_candidates=("$DEDICATED_TEST_STORAGE")
fi
mkdir -p "${storage_candidates[@]}"
# add some headroom - 64M
requested_size=$((requested_size + (64 << 20)))
while read -r source fs size use avail _ mount; do
mounts["$mount"]=$source fss["$mount"]=$fs
avails["$mount"]=$((avail * 1024)) sizes["$mount"]=$((size * 1024))
uses["$mount"]=$((use * 1024))
done < <(df -T | grep -v Filesystem)
printf '* Looking for test storage...\n' >&2
local target_space new_size
for target_dir in "${storage_candidates[@]}"; do
# FreeBSD's df is lacking the --output arg
# mount=$(df --output=target "$target_dir" | grep -v "Mounted on")
mount=$(df "$target_dir" | awk '$1 !~ /Filesystem/{print $6}')
target_space=${avails["$mount"]}
if ((target_space == 0 || target_space < requested_size)); then
continue
fi
if ((target_space >= requested_size)); then
# For in-memory fs, and / make sure our requested size won't fill most of the space.
if [[ ${fss["$mount"]} == tmpfs ]] || [[ ${fss["$mount"]} == ramfs ]] || [[ $mount == / ]]; then
new_size=$((uses["$mount"] + requested_size))
if ((new_size * 100 / sizes["$mount"] > 95)); then
continue
fi
fi
fi
export SPDK_TEST_STORAGE=$target_dir
printf '* Found test storage at %s\n' "$SPDK_TEST_STORAGE" >&2
return 0
done
printf '* Test storage is not available\n'
return 1
}
function get_config_params() {
xtrace_disable
config_params='--enable-debug --enable-werror'
# for options with dependencies but no test flag, set them here
if [ -f /usr/include/infiniband/verbs.h ]; then
config_params+=' --with-rdma'
fi
if [ $(uname -s) == "FreeBSD" ]; then
intel="hw.model: Intel"
cpu_vendor=$(sysctl -a | grep hw.model | cut -c 1-15)
else
intel="GenuineIntel"
cpu_vendor=$(grep -i 'vendor' /proc/cpuinfo --max-count=1)
fi
if [[ "$cpu_vendor" != *"$intel"* ]]; then
config_params+=" --without-idxd"
else
config_params+=" --with-idxd"
fi
if [[ -d $CONFIG_FIO_SOURCE_DIR ]]; then
config_params+=" --with-fio=$CONFIG_FIO_SOURCE_DIR"
fi
if [ -d ${DEPENDENCY_DIR}/vtune_codes ]; then
config_params+=' --with-vtune='${DEPENDENCY_DIR}'/vtune_codes'
fi
if [ -d /usr/include/iscsi ]; then
libiscsi_version=$(grep LIBISCSI_API_VERSION /usr/include/iscsi/iscsi.h | head -1 | awk '{print $3}' | awk -F '(' '{print $2}' | awk -F ')' '{print $1}')
if [ $libiscsi_version -ge 20150621 ]; then
config_params+=' --with-iscsi-initiator'
fi
fi
if [ $SPDK_TEST_UNITTEST -eq 0 ]; then
config_params+=' --disable-unit-tests'
fi
if [ $SPDK_TEST_NVME_CUSE -eq 1 ]; then
config_params+=' --with-nvme-cuse'
fi
# for options with both dependencies and a test flag, set them here
if [ -f /usr/include/libpmemblk.h ] && [ $SPDK_TEST_PMDK -eq 1 ]; then
config_params+=' --with-pmdk'
fi
if [ -f /usr/include/libpmem.h ] && [ $SPDK_TEST_REDUCE -eq 1 ]; then
if ge "$(nasm --version | awk '{print $3}')" 2.14 && [[ $SPDK_TEST_ISAL -eq 1 ]]; then
config_params+=' --with-reduce'
fi
fi
if [ -d /usr/include/rbd ] && [ -d /usr/include/rados ] && [ $SPDK_TEST_RBD -eq 1 ]; then
config_params+=' --with-rbd'
fi
# for options with no required dependencies, just test flags, set them here
if [ $SPDK_TEST_CRYPTO -eq 1 ]; then
config_params+=' --with-crypto'
fi
if [ $SPDK_TEST_OCF -eq 1 ]; then
config_params+=" --with-ocf"
fi
if [ $SPDK_RUN_UBSAN -eq 1 ]; then
config_params+=' --enable-ubsan'
fi
if [ $SPDK_RUN_ASAN -eq 1 ]; then
config_params+=' --enable-asan'
fi
if [ "$(uname -s)" = "Linux" ]; then
config_params+=' --enable-coverage'
fi
if [ $SPDK_TEST_ISAL -eq 0 ]; then
config_params+=' --without-isal'
fi
if [ $SPDK_TEST_BLOBFS -eq 1 ]; then
if [[ -d /usr/include/fuse3 ]] || [[ -d /usr/local/include/fuse3 ]]; then
config_params+=' --with-fuse'
fi
fi
if [ $SPDK_TEST_RAID5 -eq 1 ]; then
config_params+=' --with-raid5'
fi
if [ $SPDK_TEST_VFIOUSER -eq 1 ]; then
config_params+=' --with-vfio-user'
fi
# Check whether liburing library header exists
if [ -f /usr/include/liburing/io_uring.h ] && [ $SPDK_TEST_URING -eq 1 ]; then
config_params+=' --with-uring'
fi
if [ -n "$SPDK_RUN_EXTERNAL_DPDK" ]; then
config_params+=" --with-dpdk=$SPDK_RUN_EXTERNAL_DPDK"
fi
echo "$config_params"
xtrace_restore
}
function rpc_cmd() {
xtrace_disable
local rsp rc
echo "$@" >&$RPC_PIPE_INPUT
while read -t 5 -ru $RPC_PIPE_OUTPUT rsp; do
if [[ $rsp == "**STATUS="* ]]; then
break
fi
echo "$rsp"
done
rc=${rsp#*=}
xtrace_restore
[[ $rc == 0 ]]
}
function rpc_cmd_simple_data_json() {
local elems="$1[@]" elem
local -gA jq_out=()
local jq val
local lvs=(
"uuid"
"name"
"base_bdev"
"total_data_clusters"
"free_clusters"
"block_size"
"cluster_size"
)
local bdev=(
"name"
"aliases[0]"
"block_size"
"num_blocks"
"uuid"
"product_name"
)
[[ -v $elems ]] || return 1
for elem in "${!elems}"; do
jq="${jq:+$jq,\"\\n\",}\"$elem\",\" \",.[0].$elem"
done
jq+=',"\n"'
shift
while read -r elem val; do
jq_out["$elem"]=$val
done < <(rpc_cmd "$@" | jq -jr "$jq")
((${#jq_out[@]} > 0)) || return 1
}
function NOT() {
local es=0
"$@" || es=$?
# Logic looks like so:
# - return false if command exit successfully
# - return false if command exit after receiving a core signal (FIXME: or any signal?)
# - return true if command exit with an error
# This naively assumes that the process doesn't exit with > 128 on its own.
if ((es > 128)); then
es=$((es & ~128))
case "$es" in
3) ;& # SIGQUIT
4) ;& # SIGILL
6) ;& # SIGABRT
8) ;& # SIGFPE
9) ;& # SIGKILL
11) es=0 ;; # SIGSEGV
*) es=1 ;;
esac
elif [[ -n $EXIT_STATUS ]] && ((es != EXIT_STATUS)); then
es=0
fi
# invert error code of any command and also trigger ERR on 0 (unlike bash ! prefix)
((!es == 0))
}
function timing() {
direction="$1"
testname="$2"
now=$(date +%s)
if [ "$direction" = "enter" ]; then
export timing_stack="${timing_stack};${now}"
export test_stack="${test_stack};${testname}"
else
touch "$output_dir/timing.txt"
child_time=$(grep "^${test_stack:1};" $output_dir/timing.txt | awk '{s+=$2} END {print s}')
start_time=$(echo "$timing_stack" | sed -e 's@^.*;@@')
timing_stack=$(echo "$timing_stack" | sed -e 's@;[^;]*$@@')
elapsed=$((now - start_time - child_time))
echo "${test_stack:1} $elapsed" >> $output_dir/timing.txt
test_stack=$(echo "$test_stack" | sed -e 's@;[^;]*$@@')
fi
}
function timing_enter() {
xtrace_disable
timing "enter" "$1"
xtrace_restore
}
function timing_exit() {
xtrace_disable
timing "exit" "$1"
xtrace_restore
}
function timing_finish() {
flamegraph='/usr/local/FlameGraph/flamegraph.pl'
if [ -x "$flamegraph" ]; then
"$flamegraph" \
--title 'Build Timing' \
--nametype 'Step:' \
--countname seconds \
$output_dir/timing.txt \
> $output_dir/timing.svg
fi
}
function create_test_list() {
xtrace_disable
# First search all scripts in main SPDK directory.
completion=$(grep -shI -d skip --include="*.sh" -e "run_test " $rootdir/*)
# Follow up with search in test directory recursively.
completion+=$(grep -rshI --include="*.sh" --exclude="autotest_common.sh" -e "run_test " $rootdir/test)
printf "%s" "$completion" | grep -v "#" \
| sed 's/^.*run_test/run_test/' | awk '{print $2}' \
| sed 's/\"//g' | sort > $output_dir/all_tests.txt || true
xtrace_restore
}
function gdb_attach() {
gdb -q --batch \
-ex 'handle SIGHUP nostop pass' \
-ex 'handle SIGQUIT nostop pass' \
-ex 'handle SIGPIPE nostop pass' \
-ex 'handle SIGALRM nostop pass' \
-ex 'handle SIGTERM nostop pass' \
-ex 'handle SIGUSR1 nostop pass' \
-ex 'handle SIGUSR2 nostop pass' \
-ex 'handle SIGCHLD nostop pass' \
-ex 'set print thread-events off' \
-ex 'cont' \
-ex 'thread apply all bt' \
-ex 'quit' \
--tty=/dev/stdout \
-p $1
}
function process_core() {
# Note that this always was racy as we can't really sync with the kernel
# to see if there's any core queued up for writing. We could check if
# collector is running and wait for it explicitly, but it doesn't seem
# to be worth the effort. So assume that if we are being called via
# trap, as in, when some error has occurred, wait up to 5s for any
# potential cores. If we are called just for cleanup at the very end,
# don't wait since all the tests ended successfully, hence having any
# critical cores lying around is unlikely.
local es=$?
((es != 0)) && sleep 5s
local coredumps core
shopt -s nullglob
coredumps=("$output_dir/coredumps/"*.bt.txt)
shopt -u nullglob
((${#coredumps[@]} > 0)) || return 0
chmod -R a+r "$output_dir/coredumps"
for core in "${coredumps[@]}"; do
cat <<- BT
##### CORE BT ${core##*/} #####
$(<"$core")
--
BT
done
return 1
}
function process_shm() {
type=$1
id=$2
if [ "$type" = "--pid" ]; then
id="pid${id}"
fi
shm_files=$(find /dev/shm -name "*.${id}" -printf "%f\n")
if [[ -z $shm_files ]]; then
echo "SHM File for specified PID or shared memory id: ${id} not found!"
return 1
fi
for n in $shm_files; do
tar -C /dev/shm/ -cvzf $output_dir/${n}_shm.tar.gz ${n}
done
return 0
}
function waitforlisten() {
# $1 = process pid
if [ -z "$1" ]; then
exit 1
fi
local rpc_addr="${2:-$DEFAULT_RPC_ADDR}"
echo "Waiting for process to start up and listen on UNIX domain socket $rpc_addr..."
# turn off trace for this loop
xtrace_disable
local ret=0
local i
for ((i = 40; i != 0; i--)); do
# if the process is no longer running, then exit the script
# since it means the application crashed
if ! kill -s 0 $1; then
echo "ERROR: process (pid: $1) is no longer running"
ret=1
break
fi
if $rootdir/scripts/rpc.py -t 1 -s "$rpc_addr" rpc_get_methods &> /dev/null; then
break
fi
sleep 0.5
done
xtrace_restore
if ((i == 0)); then
echo "ERROR: timeout while waiting for process (pid: $1) to start listening on '$rpc_addr'"
ret=1
fi
return $ret
}
function waitfornbd() {
local nbd_name=$1
local i
for ((i = 1; i <= 20; i++)); do
if grep -q -w $nbd_name /proc/partitions; then
break
else
sleep 0.1
fi
done
# The nbd device is now recognized as a block device, but there can be
# a small delay before we can start I/O to that block device. So loop
# here trying to read the first block of the nbd block device to a temp
# file. Note that dd returns success when reading an empty file, so we
# need to check the size of the output file instead.
for ((i = 1; i <= 20; i++)); do
dd if=/dev/$nbd_name of="$SPDK_TEST_STORAGE/nbdtest" bs=4096 count=1 iflag=direct
size=$(stat -c %s "$SPDK_TEST_STORAGE/nbdtest")
rm -f "$SPDK_TEST_STORAGE/nbdtest"
if [ "$size" != "0" ]; then
return 0
else
sleep 0.1
fi
done
return 1
}
function waitforbdev() {
local bdev_name=$1
local i
for ((i = 1; i <= 20; i++)); do
if $rpc_py bdev_get_bdevs | jq -r '.[] .name' | grep -qw $bdev_name; then
return 0
fi
if $rpc_py bdev_get_bdevs | jq -r '.[] .aliases' | grep -qw $bdev_name; then
return 0
fi
sleep 0.1
done
return 1
}
function make_filesystem() {
local fstype=$1
local dev_name=$2
local i=0
local force
if [ $fstype = ext4 ]; then
force=-F
else
force=-f
fi
while ! mkfs.${fstype} $force ${dev_name}; do
if [ $i -ge 15 ]; then
return 1
fi
i=$((i + 1))
sleep 1
done
return 0
}
function killprocess() {
# $1 = process pid
if [ -z "$1" ]; then
exit 1
fi
if kill -0 $1; then
if [ $(uname) = Linux ]; then
process_name=$(ps --no-headers -o comm= $1)
else
process_name=$(ps -c -o command $1 | tail -1)
fi
if [ "$process_name" = "sudo" ]; then
# kill the child process, which is the actual app
# (assume $1 has just one child)
local child
child="$(pgrep -P $1)"
echo "killing process with pid $child"
kill $child
else
echo "killing process with pid $1"
kill $1
fi
# wait for the process regardless if its the dummy sudo one
# or the actual app - it should terminate anyway
wait $1
else
# the process is not there anymore
echo "Process with pid $1 is not found"
exit 1
fi
}
function iscsicleanup() {
echo "Cleaning up iSCSI connection"
iscsiadm -m node --logout || true
iscsiadm -m node -o delete || true
rm -rf /var/lib/iscsi/nodes/*
}
function stop_iscsi_service() {
if cat /etc/*-release | grep Ubuntu; then
service open-iscsi stop
else
service iscsid stop
fi
}
function start_iscsi_service() {
if cat /etc/*-release | grep Ubuntu; then
service open-iscsi start
else
service iscsid start
fi
}
function rbd_setup() {
# $1 = monitor ip address
# $2 = name of the namespace
if [ -z "$1" ]; then
echo "No monitor IP address provided for ceph"
exit 1
fi
if [ -n "$2" ]; then
if ip netns list | grep "$2"; then
NS_CMD="ip netns exec $2"
else
echo "No namespace $2 exists"
exit 1
fi
fi
if hash ceph; then
export PG_NUM=128
export RBD_POOL=rbd
export RBD_NAME=foo
$NS_CMD $rootdir/scripts/ceph/stop.sh || true
$NS_CMD $rootdir/scripts/ceph/start.sh $1
$NS_CMD ceph osd pool create $RBD_POOL $PG_NUM || true
$NS_CMD rbd create $RBD_NAME --size 1000
fi
}
function rbd_cleanup() {
if hash ceph; then
$rootdir/scripts/ceph/stop.sh || true
rm -f /var/tmp/ceph_raw.img
fi
}
function _start_stub() {
# Disable ASLR for multi-process testing. SPDK does support using DPDK multi-process,
# but ASLR can still be unreliable in some cases.
# We will reenable it again after multi-process testing is complete in kill_stub().
# Save current setting so it can be restored upon calling kill_stub().
_randomize_va_space=$(< /proc/sys/kernel/randomize_va_space)
echo 0 > /proc/sys/kernel/randomize_va_space
$rootdir/test/app/stub/stub $1 &
stubpid=$!
echo Waiting for stub to ready for secondary processes...
while ! [ -e /var/run/spdk_stub0 ]; do
# If stub dies while we wait, bail
[[ -e /proc/$stubpid ]] || return 1
sleep 1s
done
echo done.
}
function start_stub() {
if ! _start_stub "$@"; then
echo "stub failed" >&2
return 1
fi
}
function kill_stub() {
if [[ -e /proc/$stubpid ]]; then
kill $1 $stubpid
wait $stubpid
fi 2> /dev/null || :
rm -f /var/run/spdk_stub0
# Re-enable ASLR now that we are done with multi-process testing
# Note: "1" enables ASLR w/o randomizing data segments, "2" adds data segment
# randomizing and is the default on all recent Linux kernels
echo "${_randomize_va_space:-2}" > /proc/sys/kernel/randomize_va_space
}
function run_test() {
if [ $# -le 1 ]; then
echo "Not enough parameters"
echo "usage: run_test test_name test_script [script_params]"
exit 1
fi
xtrace_disable
local test_name="$1"
shift
if [ -n "$test_domain" ]; then
export test_domain="${test_domain}.${test_name}"
else
export test_domain="$test_name"
fi
timing_enter $test_name
echo "************************************"
echo "START TEST $test_name"
echo "************************************"
xtrace_restore
time "$@"
xtrace_disable
echo "************************************"
echo "END TEST $test_name"
echo "************************************"
timing_exit $test_name
export test_domain=${test_domain%"$test_name"}
if [ -n "$test_domain" ]; then
export test_domain=${test_domain%?}
fi
if [ -z "$test_domain" ]; then
echo "top_level $test_name" >> $output_dir/test_completions.txt
else
echo "$test_domain $test_name" >> $output_dir/test_completions.txt
fi
xtrace_restore
}
function skip_run_test_with_warning() {
echo "WARNING: $1"
echo "Test run may fail if run with autorun.sh"
echo "Please check your $rootdir/test/common/skipped_tests.txt"
}
function print_backtrace() {
# if errexit is not enabled, don't print a backtrace
[[ "$-" =~ e ]] || return 0
local args=("${BASH_ARGV[@]}")
xtrace_disable
echo "========== Backtrace start: =========="
echo ""
for i in $(seq 1 $((${#FUNCNAME[@]} - 1))); do
local func="${FUNCNAME[$i]}"
local line_nr="${BASH_LINENO[$((i - 1))]}"
local src="${BASH_SOURCE[$i]}"
local bt="" cmdline=()
if [[ -f $src ]]; then
bt=$(nl -w 4 -ba -nln $src | grep -B 5 -A 5 "^${line_nr}[^0-9]" \
| sed "s/^/ /g" | sed "s/^ $line_nr /=> $line_nr /g")
fi
# If extdebug set the BASH_ARGC[i], try to fetch all the args
if ((BASH_ARGC[i] > 0)); then
# Use argc as index to reverse the stack
local argc=${BASH_ARGC[i]} arg
for arg in "${args[@]::BASH_ARGC[i]}"; do
cmdline[argc--]="[\"$arg\"]"
done
args=("${args[@]:BASH_ARGC[i]}")
fi
echo "in $src:$line_nr -> $func($(
IFS=","
printf '%s\n' "${cmdline[*]:-[]}"
))"
echo " ..."
echo "${bt:-backtrace unavailable}"
echo " ..."
done
echo ""
echo "========== Backtrace end =========="
xtrace_restore
return 0
}
function waitforserial() {
local i=0
local nvme_device_counter=1
if [[ -n "$2" ]]; then
nvme_device_counter=$2
fi
while [ $(lsblk -l -o NAME,SERIAL | grep -c $1) -lt $nvme_device_counter ]; do
[ $i -lt 15 ] || break
i=$((i + 1))
echo "Waiting for devices"
sleep 1
done
if [[ $(lsblk -l -o NAME,SERIAL | grep -c $1) -lt $nvme_device_counter ]]; then
return 1
fi
return 0
}
function waitforserial_disconnect() {
local i=0
while lsblk -o NAME,SERIAL | grep -q -w $1; do
[ $i -lt 15 ] || break
i=$((i + 1))
echo "Waiting for disconnect devices"
sleep 1
done
if lsblk -l -o NAME | grep -q -w $1; then
return 1
fi
return 0
}
function waitforblk() {
local i=0
while ! lsblk -l -o NAME | grep -q -w $1; do
[ $i -lt 15 ] || break
i=$((i + 1))
sleep 1
done
if ! lsblk -l -o NAME | grep -q -w $1; then
return 1
fi
return 0
}
function waitforblk_disconnect() {
local i=0
while lsblk -l -o NAME | grep -q -w $1; do
[ $i -lt 15 ] || break
i=$((i + 1))
sleep 1
done
if lsblk -l -o NAME | grep -q -w $1; then
return 1
fi
return 0
}
function waitforfile() {
local i=0
while [ ! -e $1 ]; do
[ $i -lt 200 ] || break
i=$((i + 1))
sleep 0.1
done
if [ ! -e $1 ]; then
return 1
fi
return 0
}
function fio_config_gen() {
local config_file=$1
local workload=$2
local bdev_type=$3
local fio_dir=$CONFIG_FIO_SOURCE_DIR
if [ -e "$config_file" ]; then
echo "Configuration File Already Exists!: $config_file"
return 1
fi
if [ -z "$workload" ]; then
workload=randrw
fi
touch $1
cat > $1 << EOL
[global]
thread=1
group_reporting=1
direct=1
norandommap=1
percentile_list=50:99:99.9:99.99:99.999
time_based=1
ramp_time=0
EOL
if [ "$workload" == "verify" ]; then
cat <<- EOL >> $config_file
verify=sha1
verify_backlog=1024
rw=randwrite
EOL
# To avoid potential data race issue due to the AIO device
# flush mechanism, add the flag to serialize the writes.
# This is to fix the intermittent IO failure issue of #935
if [ "$bdev_type" == "AIO" ]; then
if [[ $($fio_dir/fio --version) == *"fio-3"* ]]; then
echo "serialize_overlap=1" >> $config_file
fi
fi
elif [ "$workload" == "trim" ]; then
echo "rw=trimwrite" >> $config_file
else
echo "rw=$workload" >> $config_file
fi
}
function fio_bdev() {
# Setup fio binary cmd line
local fio_dir=$CONFIG_FIO_SOURCE_DIR
local bdev_plugin="$rootdir/build/fio/spdk_bdev"
# Preload AddressSanitizer library to fio if fio_plugin was compiled with it
local asan_lib
asan_lib=$(ldd $bdev_plugin | grep libasan | awk '{print $3}')
LD_PRELOAD="$asan_lib $bdev_plugin" "$fio_dir"/fio "$@"
}
function fio_nvme() {
# Setup fio binary cmd line
local fio_dir=$CONFIG_FIO_SOURCE_DIR
local nvme_plugin="$rootdir/build/fio/spdk_nvme"
# Preload AddressSanitizer library to fio if fio_plugin was compiled with it
asan_lib=$(ldd $nvme_plugin | grep libasan | awk '{print $3}')
LD_PRELOAD="$asan_lib $nvme_plugin" "$fio_dir"/fio "$@"
}
function get_lvs_free_mb() {
local lvs_uuid=$1
local lvs_info
local fc
local cs
lvs_info=$($rpc_py bdev_lvol_get_lvstores)
fc=$(jq ".[] | select(.uuid==\"$lvs_uuid\") .free_clusters" <<< "$lvs_info")
cs=$(jq ".[] | select(.uuid==\"$lvs_uuid\") .cluster_size" <<< "$lvs_info")
# Change to MB's
free_mb=$((fc * cs / 1024 / 1024))
echo "$free_mb"
}
function get_bdev_size() {
local bdev_name=$1
local bdev_info
local bs
local nb
bdev_info=$($rpc_py bdev_get_bdevs -b $bdev_name)
bs=$(jq ".[] .block_size" <<< "$bdev_info")
nb=$(jq ".[] .num_blocks" <<< "$bdev_info")
# Change to MB's
bdev_size=$((bs * nb / 1024 / 1024))
echo "$bdev_size"
}
function autotest_cleanup() {
$rootdir/scripts/setup.sh reset
$rootdir/scripts/setup.sh cleanup
if [ $(uname -s) = "Linux" ]; then
if [[ $SPDK_TEST_USE_IGB_UIO -eq 1 ]]; then
[[ -e /sys/module/igb_uio ]] && rmmod igb_uio
else
modprobe -r uio_pci_generic
fi
fi
rm -rf "$asan_suppression_file"
if [[ -n $old_core_pattern ]]; then
echo "$old_core_pattern" > /proc/sys/kernel/core_pattern
fi
if [[ -e /proc/$udevadm_pid/status ]]; then
kill "$udevadm_pid" || :
fi
revert_soft_roce
}
function freebsd_update_contigmem_mod() {
if [ $(uname) = FreeBSD ]; then
kldunload contigmem.ko || true
if [ -n "$SPDK_RUN_EXTERNAL_DPDK" ]; then
echo "Warning: SPDK only works on FreeBSD with patches that only exist in SPDK's dpdk submodule"
cp -f "$SPDK_RUN_EXTERNAL_DPDK/kmod/contigmem.ko" /boot/modules/
cp -f "$SPDK_RUN_EXTERNAL_DPDK/kmod/contigmem.ko" /boot/kernel/
cp -f "$SPDK_RUN_EXTERNAL_DPDK/kmod/nic_uio.ko" /boot/modules/
cp -f "$SPDK_RUN_EXTERNAL_DPDK/kmod/nic_uio.ko" /boot/kernel/
else
cp -f "$rootdir/dpdk/build/kmod/contigmem.ko" /boot/modules/
cp -f "$rootdir/dpdk/build/kmod/contigmem.ko" /boot/kernel/
cp -f "$rootdir/dpdk/build/kmod/nic_uio.ko" /boot/modules/
cp -f "$rootdir/dpdk/build/kmod/nic_uio.ko" /boot/kernel/
fi
fi
}
function get_nvme_name_from_bdf() {
blkname=()
nvme_devs=$(lsblk -d --output NAME | grep "^nvme") || true
if [ -z "$nvme_devs" ]; then
return
fi
for dev in $nvme_devs; do
link_name=$(readlink /sys/block/$dev/device/device) || true
if [ -z "$link_name" ]; then
link_name=$(readlink /sys/block/$dev/device)
fi
bdf=$(basename "$link_name")
if [ "$bdf" = "$1" ]; then
blkname+=($dev)
fi
done
printf '%s\n' "${blkname[@]}"
}
function get_nvme_ctrlr_from_bdf() {
bdf_sysfs_path=$(readlink -f /sys/class/nvme/nvme* | grep "$1/nvme/nvme")
if [[ -z "$bdf_sysfs_path" ]]; then
return
fi
printf '%s\n' "$(basename $bdf_sysfs_path)"
}
# Get BDF addresses of all NVMe drives currently attached to
# uio-pci-generic or vfio-pci
function get_nvme_bdfs() {
xtrace_disable
bdfs=$(jq -r .config[].params.traddr <<< $($rootdir/scripts/gen_nvme.sh))
if [[ -z $bdfs ]]; then
echo "No devices to test on!"
exit 1
fi
echo "$bdfs"
xtrace_restore
}
# Same as function above, but just get the first disks BDF address
function get_first_nvme_bdf() {
head -1 <<< "$(get_nvme_bdfs)"
}
function nvme_namespace_revert() {
$rootdir/scripts/setup.sh
sleep 1
bdfs=$(get_nvme_bdfs)
$rootdir/scripts/setup.sh reset
for bdf in $bdfs; do
nvme_ctrlr=/dev/$(get_nvme_ctrlr_from_bdf ${bdf})
if [[ -z "$nvme_ctrlr" ]]; then
continue
fi
# Check Optional Admin Command Support for Namespace Management
oacs=$(nvme id-ctrl ${nvme_ctrlr} | grep oacs | cut -d: -f2)
oacs_ns_manage=$((oacs & 0x8))
if [[ "$oacs_ns_manage" -ne 0 ]]; then
# This assumes every NVMe controller contains single namespace,
# encompassing Total NVM Capacity and formatted as 512 block size.
# 512 block size is needed for test/vhost/vhost_boot.sh to
# succesfully run.
unvmcap=$(nvme id-ctrl ${nvme_ctrlr} | grep unvmcap | cut -d: -f2)
if [[ "$unvmcap" -eq 0 ]]; then
# All available space already used
continue
fi
tnvmcap=$(nvme id-ctrl ${nvme_ctrlr} | grep tnvmcap | cut -d: -f2)
blksize=512
size=$((tnvmcap / blksize))
nvme detach-ns ${nvme_ctrlr} -n 0xffffffff -c 0 || true
nvme delete-ns ${nvme_ctrlr} -n 0xffffffff || true
nvme create-ns ${nvme_ctrlr} -s ${size} -c ${size} -b ${blksize}
nvme attach-ns ${nvme_ctrlr} -n 1 -c 0
nvme reset ${nvme_ctrlr}
waitforfile "${nvme_ctrlr}n1"
fi
done
}
# Get BDFs based on device ID, such as 0x0a54
function get_nvme_bdfs_by_id() {
local bdfs=()
for bdf in $(get_nvme_bdfs); do
device=$(cat /sys/bus/pci/devices/$bdf/device) || true
if [[ "$device" == "$1" ]]; then
bdfs+=($bdf)
fi
done
printf '%s\n' "${bdfs[@]}"
}
function opal_revert_cleanup() {
# The OPAL CI tests is only used for P4510 devices.
mapfile -t bdfs < <(get_nvme_bdfs_by_id 0x0a54)
if [[ -z ${bdfs[0]} ]]; then
return 0
fi
$SPDK_BIN_DIR/spdk_tgt &
spdk_tgt_pid=$!
waitforlisten $spdk_tgt_pid
bdf_id=0
for bdf in "${bdfs[@]}"; do
$rootdir/scripts/rpc.py bdev_nvme_attach_controller -b "nvme"${bdf_id} -t "pcie" -a ${bdf}
# Ignore if this fails.
$rootdir/scripts/rpc.py bdev_nvme_opal_revert -b "nvme"${bdf_id} -p test || true
((++bdf_id))
done
killprocess $spdk_tgt_pid
}
function pap() {
while read -r file; do
cat <<- FILE
--- $file ---
$(<"$file")
--- $file ---
FILE
rm -f "$file"
done < <(find "$@" -type f | sort -u)
}
# Define temp storage for all the tests. Look for 2GB at minimum
set_test_storage "${TEST_MIN_STORAGE_SIZE:-$((1 << 31))}"
set -o errtrace
shopt -s extdebug
trap "trap - ERR; print_backtrace >&2" ERR
PS4=' \t \$ '
if $SPDK_AUTOTEST_X; then
# explicitly enable xtraces, overriding any tracking information.
unset XTRACE_DISABLED
unset XTRACE_NESTING_LEVEL
set -x
xtrace_enable
else
xtrace_restore
fi