#!/usr/bin/env bash # SPDX-License-Identifier: BSD-3-Clause # Copyright (C) 2020 Intel Corporation # All rights reserved. # testdir=$(readlink -f $(dirname $0)) rootdir=$(readlink -f $testdir/../../..) source $rootdir/scripts/common.sh source $rootdir/test/common/autotest_common.sh NVME_CMD="/usr/local/src/nvme-cli/nvme" rpc_py=$rootdir/scripts/rpc.py $rootdir/scripts/setup.sh sleep 1 bdfs=$(get_nvme_bdfs) $rootdir/scripts/setup.sh reset # Find bdf that supports Namespace Management for bdf in $bdfs; do nvme_name=$(get_nvme_ctrlr_from_bdf ${bdf}) if [[ -z "$nvme_name" ]]; then continue fi # Check Optional Admin Command Support for Namespace Management oacs=$($NVME_CMD id-ctrl /dev/${nvme_name} | grep oacs | cut -d: -f2) oacs_ns_manage=$((oacs & 0x8)) if [[ "$oacs_ns_manage" -ne 0 ]]; then break fi done if [[ "${nvme_name}" == "" ]] || [[ "$oacs_ns_manage" -eq 0 ]]; then echo "No NVMe device supporting Namespace management found" $rootdir/scripts/setup.sh exit 1 fi nvme_dev=/dev/${nvme_name} # Detect supported features and configuration oaes=$($NVME_CMD id-ctrl ${nvme_dev} | grep oaes | cut -d: -f2) aer_ns_change=$((oaes & 0x100)) function reset_nvme_if_aer_unsupported() { if [[ "$aer_ns_change" -eq "0" ]]; then sleep 1 $NVME_CMD reset "$1" || true fi } function remove_all_namespaces() { info_print "delete all namespaces" active_nsids=$($NVME_CMD list-ns ${nvme_dev} | cut -f2 -d:) # Cant globally detach all namespaces ... must do so one by one for n in ${active_nsids}; do info_print "removing nsid=${n}" $NVME_CMD detach-ns ${nvme_dev} -n ${n} -c 0 || true $NVME_CMD delete-ns ${nvme_dev} -n ${n} || true done } function clean_up() { $rootdir/scripts/setup.sh reset # This assumes every NVMe controller contains single namespace, # encompassing Total NVM Capacity and formatted as 512 block size. # 512 block size is needed for test/vhost/vhost_boot.sh to # successfully run. tnvmcap=$($NVME_CMD id-ctrl ${nvme_dev} | grep tnvmcap | cut -d: -f2) blksize=512 size=$((tnvmcap / blksize)) echo "Restoring $nvme_dev..." remove_all_namespaces nsid=$($NVME_CMD create-ns ${nvme_dev} -s ${size} -c ${size} -b ${blksize} | grep -o 'nsid:[0-9].*' | cut -f2 -d:) $NVME_CMD attach-ns ${nvme_dev} -n ${nsid} -c 0 $NVME_CMD reset ${nvme_dev} $rootdir/scripts/setup.sh } function info_print() { echo "---" echo "$@" echo "---" } # Prepare controller remove_all_namespaces reset_nvme_if_aer_unsupported ${nvme_dev} sleep 1 PCI_ALLOWED="${bdf}" $rootdir/scripts/setup.sh $SPDK_BIN_DIR/spdk_tgt -m 0x3 & spdk_tgt_pid=$! trap 'kill -9 ${spdk_tgt_pid}; clean_up; exit 1' SIGINT SIGTERM EXIT waitforlisten $spdk_tgt_pid $rpc_py bdev_nvme_attach_controller -b Nvme0 -t PCIe -a ${bdf} $rpc_py bdev_nvme_cuse_register -n Nvme0 ctrlr="/dev/spdk/nvme0" sleep 1 [[ -c $ctrlr ]] for dev in "${ctrlr}"n*; do [[ ! -c ${dev} ]] done sleep 1 nsids=() for i in {1..2}; do info_print "create ns: nsze=10000 ncap=10000 flbias=0" nsid=$($NVME_CMD create-ns ${ctrlr} -s 10000 -c 10000 -f 0 | grep -o 'nsid:[0-9].*' | cut -f2 -d:) nsids+=(${nsid}) info_print "attach ns: nsid=${nsid} controller=0" $NVME_CMD attach-ns ${ctrlr} -n ${nsid} -c 0 reset_nvme_if_aer_unsupported ${ctrlr} sleep 1 [[ -c "${ctrlr}n${nsid}" ]] done for n in "${nsids[@]}"; do info_print "detach ns: nsid=${n} controller=0" $NVME_CMD detach-ns ${ctrlr} -n ${n} -c 0 || true info_print "delete ns: nsid=${n}" $NVME_CMD delete-ns ${ctrlr} -n ${n} || true reset_nvme_if_aer_unsupported ${ctrlr} sleep 1 [[ ! -c "${ctrlr}n${n}" ]] done # Here we should not have any cuse devices for dev in "${ctrlr}"n*; do [[ ! -c ${dev} ]] done $rpc_py bdev_nvme_detach_controller Nvme0 sleep 1 [[ ! -c ${ctrlr} ]] trap - SIGINT SIGTERM EXIT killprocess $spdk_tgt_pid clean_up