numam-spdk/autotest.sh
paul luse 85bedfac7a test: run bdev_raid.sh nightly instead of per patch
Existing raid UT already checks the logic in the raid
unmap code to intelligently send IOs to member disks.

The additional value of bdev_raid.sh is in doing a real
data validation on writes as well as confirmation that
unmaps really result in 0's following the action. Both of
these seem worth keeping however with the UT in place to
check the logic they are a better fit for nightly testing.

Change-Id: I1a758f4681d77dbddd4185162b0dd1f46525cabd
Signed-off-by: paul luse <paul.e.luse@intel.com>
Reviewed-on: https://review.gerrithub.io/c/spdk/spdk/+/454668
Tested-by: SPDK CI Jenkins <sys_sgci@intel.com>
Reviewed-by: Jim Harris <james.r.harris@intel.com>
Reviewed-by: Shuhei Matsumoto <shuhei.matsumoto.xt@hitachi.com>
2019-05-20 17:02:32 +00:00

275 lines
7.1 KiB
Bash
Executable File

#!/usr/bin/env bash
rootdir=$(readlink -f $(dirname $0))
# In autotest_common.sh all tests are disabled by default.
# If the configuration of tests is not provided, no tests will be carried out.
if [[ ! -f $1 ]]; then
echo "ERROR: SPDK test configuration not specified"
exit 1
fi
source "$1"
source "$rootdir/test/common/autotest_common.sh"
source "$rootdir/test/nvmf/common.sh"
set -xe
if [ $EUID -ne 0 ]; then
echo "$0 must be run as root"
exit 1
fi
if [ $(uname -s) = Linux ]; then
# set core_pattern to a known value to avoid ABRT, systemd-coredump, etc.
echo "core" > /proc/sys/kernel/core_pattern
# make sure nbd (network block device) driver is loaded if it is available
# this ensures that when tests need to use nbd, it will be fully initialized
modprobe nbd || true
fi
trap "process_core; autotest_cleanup; exit 1" SIGINT SIGTERM EXIT
timing_enter autotest
create_test_list
src=$(readlink -f $(dirname $0))
out=$PWD
cd $src
./scripts/setup.sh status
freebsd_update_contigmem_mod
if hash lcov; then
# setup output dir for unittest.sh
export UT_COVERAGE=$out/ut_coverage
export LCOV_OPTS="
--rc lcov_branch_coverage=1
--rc lcov_function_coverage=1
--rc genhtml_branch_coverage=1
--rc genhtml_function_coverage=1
--rc genhtml_legend=1
--rc geninfo_all_blocks=1
"
export LCOV="lcov $LCOV_OPTS --no-external"
# Print lcov version to log
$LCOV -v
# zero out coverage data
$LCOV -q -c -i -t "Baseline" -d $src -o cov_base.info
fi
# Make sure the disks are clean (no leftover partition tables)
timing_enter cleanup
# Remove old domain socket pathname just in case
rm -f /var/tmp/spdk*.sock
# Load the kernel driver
./scripts/setup.sh reset
# Let the kernel discover any filesystems or partitions
sleep 10
if [ $(uname -s) = Linux ]; then
# OCSSD devices drivers don't support IO issues by kernel so
# detect OCSSD devices and blacklist them (unbind from any driver).
# If test scripts want to use this device it needs to do this explicitly.
#
# If some OCSSD device is bound to other driver than nvme we won't be able to
# discover if it is OCSSD or not so load the kernel driver first.
for dev in $(find /dev -maxdepth 1 -regex '/dev/nvme[0-9]+'); do
# Send Open Channel 2.0 Geometry opcode "0xe2" - not supported by NVMe device.
if nvme admin-passthru $dev --namespace-id=1 --data-len=4096 --opcode=0xe2 --read >/dev/null; then
bdf="$(basename $(readlink -e /sys/class/nvme/${dev#/dev/}/device))"
echo "INFO: blacklisting OCSSD device: $dev ($bdf)"
PCI_BLACKLIST+=" $bdf"
OCSSD_PCI_DEVICES+=" $bdf"
fi
done
export OCSSD_PCI_DEVICES
# Now, bind blacklisted devices to pci-stub module. This will prevent
# automatic grabbing these devices when we add device/vendor ID to
# proper driver.
if [[ -n "$PCI_BLACKLIST" ]]; then
PCI_WHITELIST="$PCI_BLACKLIST" \
PCI_BLACKLIST="" \
DRIVER_OVERRIDE="pci-stub" \
./scripts/setup.sh
# Export our blacklist so it will take effect during next setup.sh
export PCI_BLACKLIST
fi
fi
# Delete all leftover lvols and gpt partitions
# Matches both /dev/nvmeXnY on Linux and /dev/nvmeXnsY on BSD
# Filter out nvme with partitions - the "p*" suffix
for dev in $(ls /dev/nvme*n* | grep -v p || true); do
dd if=/dev/zero of="$dev" bs=1M count=1
done
sync
if [ $(uname -s) = Linux ]; then
# Load RAM disk driver if available
modprobe brd || true
fi
timing_exit cleanup
# set up huge pages
timing_enter afterboot
./scripts/setup.sh
timing_exit afterboot
timing_enter nvmf_setup
rdma_device_init
timing_exit nvmf_setup
if [[ $SPDK_TEST_CRYPTO -eq 1 || $SPDK_TEST_REDUCE -eq 1 ]]; then
if grep -q '#define SPDK_CONFIG_IGB_UIO_DRIVER 1' $rootdir/include/spdk/config.h; then
./scripts/qat_setup.sh igb_uio
else
./scripts/qat_setup.sh
fi
fi
#####################
# Unit Tests
#####################
if [ $SPDK_TEST_UNITTEST -eq 1 ]; then
timing_enter unittest
run_test suite ./test/unit/unittest.sh
report_test_completion "unittest"
timing_exit unittest
fi
if [ $SPDK_RUN_FUNCTIONAL_TEST -eq 1 ]; then
timing_enter lib
run_test suite test/env/env.sh
run_test suite test/rpc_client/rpc_client.sh
run_test suite ./test/json_config/json_config.sh
if [ $SPDK_TEST_BLOCKDEV -eq 1 ]; then
run_test suite test/bdev/blockdev.sh
if [[ $RUN_NIGHTLY -eq 1 ]]; then
run_test suite test/bdev/bdev_raid.sh
fi
fi
if [ $SPDK_TEST_JSON -eq 1 ]; then
run_test suite test/config_converter/test_converter.sh
fi
if [ $SPDK_TEST_EVENT -eq 1 ]; then
run_test suite test/event/event.sh
fi
if [ $SPDK_TEST_NVME -eq 1 ]; then
run_test suite test/nvme/nvme.sh
if [ $SPDK_TEST_NVME_CLI -eq 1 ]; then
run_test suite test/nvme/spdk_nvme_cli.sh
fi
# Only test hotplug without ASAN enabled. Since if it is
# enabled, it catches SEGV earlier than our handler which
# breaks the hotplug logic.
# Temporary workaround for issue #542, annotated for no VM image.
#if [ $SPDK_RUN_ASAN -eq 0 ]; then
# run_test suite test/nvme/hotplug.sh intel
#fi
fi
if [ $SPDK_TEST_IOAT -eq 1 ]; then
run_test suite test/ioat/ioat.sh
fi
timing_exit lib
if [ $SPDK_TEST_ISCSI -eq 1 ]; then
run_test suite ./test/iscsi_tgt/iscsi_tgt.sh posix
run_test suite ./test/spdkcli/iscsi.sh
# Run raid spdkcli test under iSCSI since blockdev tests run on systems that can't run spdkcli yet
run_test suite test/spdkcli/raid.sh
fi
if [ $SPDK_TEST_BLOBFS -eq 1 ]; then
run_test suite ./test/blobfs/rocksdb/rocksdb.sh
run_test suite ./test/blobstore/blobstore.sh
fi
if [ $SPDK_TEST_NVMF -eq 1 ]; then
run_test suite ./test/nvmf/nvmf.sh
run_test suite ./test/spdkcli/nvmf.sh
fi
if [ $SPDK_TEST_VHOST -eq 1 ]; then
run_test suite ./test/vhost/vhost.sh
report_test_completion "vhost"
fi
if [ $SPDK_TEST_LVOL -eq 1 ]; then
timing_enter lvol
run_test suite ./test/lvol/lvol.sh --test-cases=all
run_test suite ./test/blobstore/blob_io_wait/blob_io_wait.sh
report_test_completion "lvol"
timing_exit lvol
fi
if [ $SPDK_TEST_VHOST_INIT -eq 1 ]; then
timing_enter vhost_initiator
run_test suite ./test/vhost/initiator/blockdev.sh
run_test suite ./test/spdkcli/virtio.sh
run_test suite ./test/vhost/shared/shared.sh
report_test_completion "vhost_initiator"
timing_exit vhost_initiator
fi
if [ $SPDK_TEST_PMDK -eq 1 ]; then
run_test suite ./test/pmem/pmem.sh -x
run_test suite ./test/spdkcli/pmem.sh
fi
if [ $SPDK_TEST_RBD -eq 1 ]; then
run_test suite ./test/spdkcli/rbd.sh
fi
if [ $SPDK_TEST_OCF -eq 1 ]; then
run_test suite ./test/ocf/ocf.sh
fi
if [ $SPDK_TEST_BDEV_FTL -eq 1 ]; then
run_test suite ./test/ftl/ftl.sh
fi
fi
timing_enter cleanup
autotest_cleanup
timing_exit cleanup
timing_exit autotest
chmod a+r $output_dir/timing.txt
trap - SIGINT SIGTERM EXIT
# catch any stray core files
process_core
if hash lcov; then
# generate coverage data and combine with baseline
$LCOV -q -c -d $src -t "$(hostname)" -o cov_test.info
$LCOV -q -a cov_base.info -a cov_test.info -o $out/cov_total.info
$LCOV -q -r $out/cov_total.info '*/dpdk/*' -o $out/cov_total.info
$LCOV -q -r $out/cov_total.info '/usr/*' -o $out/cov_total.info
git clean -f "*.gcda"
rm -f cov_base.info cov_test.info OLD_STDOUT OLD_STDERR
fi