numam-spdk/test/vhost/common.sh
Karol Latecki 5c3852713c test/vhost: add vfio-user option
Add option to connect Qemu VMs to vfio-user sockets.
This needs additional option to vhost_run to run nvmf_tgt
instead of vhost binary (currently the only way to create
vfio-user sockets) and an additional function to find
connected devices in the VMs.

Change-Id: Iaae234a11f4431a307e1da9c9a2eee123290f5a3
Signed-off-by: Karol Latecki <karol.latecki@intel.com>
Reviewed-on: https://review.spdk.io/gerrit/c/spdk/spdk/+/6700
Tested-by: SPDK CI Jenkins <sys_sgci@intel.com>
Reviewed-by: Maciej Wawryk <maciejx.wawryk@intel.com>
Reviewed-by: Tomasz Zawadzki <tomasz.zawadzki@intel.com>
Reviewed-by: Jim Harris <james.r.harris@intel.com>
2021-03-29 07:20:50 +00:00

1261 lines
31 KiB
Bash

: ${SPDK_VHOST_VERBOSE=false}
: ${VHOST_DIR="$HOME/vhost_test"}
: ${QEMU_BIN="qemu-system-x86_64"}
: ${QEMU_IMG_BIN="qemu-img"}
TEST_DIR=$(readlink -f $rootdir/..)
VM_DIR=$VHOST_DIR/vms
TARGET_DIR=$VHOST_DIR/vhost
VM_PASSWORD="root"
VM_IMAGE=${VM_IMAGE:-"$HOME/spdk_test_image.qcow2"}
if ! hash $QEMU_IMG_BIN $QEMU_BIN; then
error 'QEMU is not installed on this system. Unable to run vhost tests.'
exit 1
fi
mkdir -p $VHOST_DIR
mkdir -p $VM_DIR
mkdir -p $TARGET_DIR
#
# Source config describing QEMU and VHOST cores and NUMA
#
source $rootdir/test/vhost/common/autotest.config
function vhosttestinit() {
if [ "$TEST_MODE" == "iso" ]; then
$rootdir/scripts/setup.sh
fi
if [[ -e $VM_IMAGE.gz ]]; then
gzip -dc "$VM_IMAGE.gz" > "$VM_IMAGE"
fi
# Look for the VM image
if [[ ! -f $VM_IMAGE ]]; then
[[ $1 != "--no_vm" ]] || return 0
echo "$VM_IMAGE is missing" >&2
return 1
fi
}
function vhosttestfini() {
if [ "$TEST_MODE" == "iso" ]; then
$rootdir/scripts/setup.sh reset
fi
}
function message() {
local verbose_out
if ! $SPDK_VHOST_VERBOSE; then
verbose_out=""
elif [[ ${FUNCNAME[2]} == "source" ]]; then
verbose_out=" (file $(basename ${BASH_SOURCE[1]}):${BASH_LINENO[1]})"
else
verbose_out=" (function ${FUNCNAME[2]}:${BASH_LINENO[1]})"
fi
local msg_type="$1"
shift
echo -e "${msg_type}${verbose_out}: $*"
}
function fail() {
echo "===========" >&2
message "FAIL" "$@" >&2
echo "===========" >&2
exit 1
}
function error() {
echo "===========" >&2
message "ERROR" "$@" >&2
echo "===========" >&2
# Don't 'return 1' since the stack trace will be incomplete (why?) missing upper command.
false
}
function warning() {
message "WARN" "$@" >&2
}
function notice() {
message "INFO" "$@"
}
function check_qemu_packedring_support() {
qemu_version=$($QEMU_BIN -version | grep -Po "(?<=version )\d+.\d+.\d+")
if [[ "$qemu_version" < "4.2.0" ]]; then
error "This qemu binary does not support packed ring"
fi
}
function get_vhost_dir() {
local vhost_name="$1"
if [[ -z "$vhost_name" ]]; then
error "vhost name must be provided to get_vhost_dir"
return 1
fi
echo "$TARGET_DIR/${vhost_name}"
}
function vhost_run() {
local OPTIND
local vhost_name
local run_gen_nvme=true
local vhost_bin="vhost"
while getopts "n:a:b:g" optchar; do
case "$optchar" in
n) vhost_name="$OPTARG" ;;
a) vhost_args="$OPTARG" ;;
b) vhost_bin="$OPTARG" ;;
g)
run_gen_nvme=false
notice "Skipping gen_nvme.sh NVMe bdev configuration"
;;
*)
error "Unknown param $optchar"
return 1
;;
esac
done
if [[ -z "$vhost_name" ]]; then
error "vhost name must be provided to vhost_run"
return 1
fi
local vhost_dir
vhost_dir="$(get_vhost_dir $vhost_name)"
local vhost_app="$SPDK_BIN_DIR/$vhost_bin"
local vhost_log_file="$vhost_dir/vhost.log"
local vhost_pid_file="$vhost_dir/vhost.pid"
local vhost_socket="$vhost_dir/usvhost"
notice "starting vhost app in background"
[[ -r "$vhost_pid_file" ]] && vhost_kill $vhost_name
[[ -d $vhost_dir ]] && rm -f $vhost_dir/*
mkdir -p $vhost_dir
if [[ ! -x $vhost_app ]]; then
error "application not found: $vhost_app"
return 1
fi
local cmd="$vhost_app -r $vhost_dir/rpc.sock $vhost_args"
notice "Loging to: $vhost_log_file"
notice "Socket: $vhost_socket"
notice "Command: $cmd"
timing_enter vhost_start
cd $vhost_dir
$cmd &
vhost_pid=$!
echo $vhost_pid > $vhost_pid_file
notice "waiting for app to run..."
waitforlisten "$vhost_pid" "$vhost_dir/rpc.sock"
#do not generate nvmes if pci access is disabled
if [[ "$cmd" != *"--no-pci"* ]] && [[ "$cmd" != *"-u"* ]] && $run_gen_nvme; then
$rootdir/scripts/gen_nvme.sh | $rootdir/scripts/rpc.py -s $vhost_dir/rpc.sock load_subsystem_config
fi
notice "vhost started - pid=$vhost_pid"
timing_exit vhost_start
}
function vhost_kill() {
local rc=0
local vhost_name="$1"
if [[ -z "$vhost_name" ]]; then
error "Must provide vhost name to vhost_kill"
return 0
fi
local vhost_dir
vhost_dir="$(get_vhost_dir $vhost_name)"
local vhost_pid_file="$vhost_dir/vhost.pid"
if [[ ! -r $vhost_pid_file ]]; then
warning "no vhost pid file found"
return 0
fi
timing_enter vhost_kill
local vhost_pid
vhost_pid="$(cat $vhost_pid_file)"
notice "killing vhost (PID $vhost_pid) app"
if kill -INT $vhost_pid > /dev/null; then
notice "sent SIGINT to vhost app - waiting 60 seconds to exit"
for ((i = 0; i < 60; i++)); do
if kill -0 $vhost_pid; then
echo "."
sleep 1
else
break
fi
done
if kill -0 $vhost_pid; then
error "ERROR: vhost was NOT killed - sending SIGABRT"
kill -ABRT $vhost_pid
rm $vhost_pid_file
rc=1
else
while kill -0 $vhost_pid; do
echo "."
done
fi
elif kill -0 $vhost_pid; then
error "vhost NOT killed - you need to kill it manually"
rc=1
else
notice "vhost was not running"
fi
timing_exit vhost_kill
if [[ $rc == 0 ]]; then
rm $vhost_pid_file
fi
rm -rf "$vhost_dir"
return $rc
}
function vhost_rpc() {
local vhost_name="$1"
if [[ -z "$vhost_name" ]]; then
error "vhost name must be provided to vhost_rpc"
return 1
fi
shift
$rootdir/scripts/rpc.py -s $(get_vhost_dir $vhost_name)/rpc.sock "$@"
}
###
# Mgmt functions
###
function assert_number() {
[[ "$1" =~ [0-9]+ ]] && return 0
error "Invalid or missing paramter: need number but got '$1'"
return 1
}
# Run command on vm with given password
# First argument - vm number
# Second argument - ssh password for vm
#
function vm_sshpass() {
vm_num_is_valid $1 || return 1
local ssh_cmd
ssh_cmd="sshpass -p $2 ssh \
-o UserKnownHostsFile=/dev/null \
-o StrictHostKeyChecking=no \
-o User=root \
-p $(vm_ssh_socket $1) $VM_SSH_OPTIONS 127.0.0.1"
shift 2
$ssh_cmd "$@"
}
# Helper to validate VM number
# param $1 VM number
#
function vm_num_is_valid() {
[[ "$1" =~ ^[0-9]+$ ]] && return 0
error "Invalid or missing paramter: vm number '$1'"
return 1
}
# Print network socket for given VM number
# param $1 virtual machine number
#
function vm_ssh_socket() {
vm_num_is_valid $1 || return 1
local vm_dir="$VM_DIR/$1"
cat $vm_dir/ssh_socket
}
function vm_fio_socket() {
vm_num_is_valid $1 || return 1
local vm_dir="$VM_DIR/$1"
cat $vm_dir/fio_socket
}
# Execute command on given VM
# param $1 virtual machine number
#
function vm_exec() {
vm_num_is_valid $1 || return 1
local vm_num="$1"
shift
sshpass -p "$VM_PASSWORD" ssh \
-o UserKnownHostsFile=/dev/null \
-o StrictHostKeyChecking=no \
-o User=root \
-p $(vm_ssh_socket $vm_num) $VM_SSH_OPTIONS 127.0.0.1 \
"$@"
}
# Execute scp command on given VM
# param $1 virtual machine number
#
function vm_scp() {
vm_num_is_valid $1 || return 1
local vm_num="$1"
shift
sshpass -p "$VM_PASSWORD" scp \
-o UserKnownHostsFile=/dev/null \
-o StrictHostKeyChecking=no \
-o User=root \
-P $(vm_ssh_socket $vm_num) $VM_SSH_OPTIONS \
"$@"
}
# check if specified VM is running
# param $1 VM num
function vm_is_running() {
vm_num_is_valid $1 || return 1
local vm_dir="$VM_DIR/$1"
if [[ ! -r $vm_dir/qemu.pid ]]; then
return 1
fi
local vm_pid
vm_pid="$(cat $vm_dir/qemu.pid)"
if /bin/kill -0 $vm_pid; then
return 0
else
if [[ $EUID -ne 0 ]]; then
warning "not root - assuming VM running since can't be checked"
return 0
fi
# not running - remove pid file
rm $vm_dir/qemu.pid
return 1
fi
}
# check if specified VM is running
# param $1 VM num
function vm_os_booted() {
vm_num_is_valid $1 || return 1
local vm_dir="$VM_DIR/$1"
if [[ ! -r $vm_dir/qemu.pid ]]; then
error "VM $1 is not running"
return 1
fi
if ! VM_SSH_OPTIONS="-o ControlMaster=no" vm_exec $1 "true" 2> /dev/null; then
# Shutdown existing master. Ignore errors as it might not exist.
VM_SSH_OPTIONS="-O exit" vm_exec $1 "true" 2> /dev/null
return 1
fi
return 0
}
# Shutdown given VM
# param $1 virtual machine number
# return non-zero in case of error.
function vm_shutdown() {
vm_num_is_valid $1 || return 1
local vm_dir="$VM_DIR/$1"
if [[ ! -d "$vm_dir" ]]; then
error "VM$1 ($vm_dir) not exist - setup it first"
return 1
fi
if ! vm_is_running $1; then
notice "VM$1 ($vm_dir) is not running"
return 0
fi
# Temporarily disabling exit flag for next ssh command, since it will
# "fail" due to shutdown
notice "Shutting down virtual machine $vm_dir"
set +e
vm_exec $1 "nohup sh -c 'shutdown -h -P now'" || true
notice "VM$1 is shutting down - wait a while to complete"
set -e
}
# Kill given VM
# param $1 virtual machine number
#
function vm_kill() {
vm_num_is_valid $1 || return 1
local vm_dir="$VM_DIR/$1"
if [[ ! -r $vm_dir/qemu.pid ]]; then
return 0
fi
local vm_pid
vm_pid="$(cat $vm_dir/qemu.pid)"
notice "Killing virtual machine $vm_dir (pid=$vm_pid)"
# First kill should fail, second one must fail
if /bin/kill $vm_pid; then
notice "process $vm_pid killed"
rm $vm_dir/qemu.pid
rm -rf $vm_dir
elif vm_is_running $1; then
error "Process $vm_pid NOT killed"
return 1
fi
}
# List all VM numbers in VM_DIR
#
function vm_list_all() {
local vms
vms="$(
shopt -s nullglob
echo $VM_DIR/[0-9]*
)"
if [[ -n "$vms" ]]; then
basename --multiple $vms
fi
}
# Kills all VM in $VM_DIR
#
function vm_kill_all() {
local vm
for vm in $(vm_list_all); do
vm_kill $vm
done
rm -rf $VM_DIR
}
# Shutdown all VM in $VM_DIR
#
function vm_shutdown_all() {
# XXX: temporarily disable to debug shutdown issue
# xtrace_disable
local vms
vms=$(vm_list_all)
local vm
for vm in $vms; do
vm_shutdown $vm
done
notice "Waiting for VMs to shutdown..."
local timeo=30
while [[ $timeo -gt 0 ]]; do
local all_vms_down=1
for vm in $vms; do
if vm_is_running $vm; then
all_vms_down=0
break
fi
done
if [[ $all_vms_down == 1 ]]; then
notice "All VMs successfully shut down"
xtrace_restore
return 0
fi
((timeo -= 1))
sleep 1
done
rm -rf $VM_DIR
xtrace_restore
}
function vm_setup() {
xtrace_disable
local OPTIND optchar vm_num
local os=""
local os_mode=""
local qemu_args=()
local disk_type_g=NOT_DEFINED
local read_only="false"
# List created of a strings separated with a ":"
local disks=()
local raw_cache=""
local vm_incoming=""
local vm_migrate_to=""
local force_vm=""
local guest_memory=1024
local queue_number=""
local vhost_dir
local packed=false
vhost_dir="$(get_vhost_dir 0)"
while getopts ':-:' optchar; do
case "$optchar" in
-)
case "$OPTARG" in
os=*) os="${OPTARG#*=}" ;;
os-mode=*) os_mode="${OPTARG#*=}" ;;
qemu-args=*) qemu_args+=("${OPTARG#*=}") ;;
disk-type=*) disk_type_g="${OPTARG#*=}" ;;
read-only=*) read_only="${OPTARG#*=}" ;;
disks=*) IFS=":" read -ra disks <<< "${OPTARG#*=}" ;;
raw-cache=*) raw_cache=",cache${OPTARG#*=}" ;;
force=*) force_vm=${OPTARG#*=} ;;
memory=*) guest_memory=${OPTARG#*=} ;;
queue_num=*) queue_number=${OPTARG#*=} ;;
incoming=*) vm_incoming="${OPTARG#*=}" ;;
migrate-to=*) vm_migrate_to="${OPTARG#*=}" ;;
vhost-name=*) vhost_dir="$(get_vhost_dir ${OPTARG#*=})" ;;
spdk-boot=*) local boot_from="${OPTARG#*=}" ;;
packed) packed=true ;;
*)
error "unknown argument $OPTARG"
return 1
;;
esac
;;
*)
error "vm_create Unknown param $OPTARG"
return 1
;;
esac
done
# Find next directory we can use
if [[ -n $force_vm ]]; then
vm_num=$force_vm
vm_num_is_valid $vm_num || return 1
local vm_dir="$VM_DIR/$vm_num"
[[ -d $vm_dir ]] && warning "removing existing VM in '$vm_dir'"
else
local vm_dir=""
set +x
for ((i = 0; i <= 256; i++)); do
local vm_dir="$VM_DIR/$i"
[[ ! -d $vm_dir ]] && break
done
xtrace_restore
vm_num=$i
fi
if [[ $vm_num -eq 256 ]]; then
error "no free VM found. do some cleanup (256 VMs created, are you insane?)"
return 1
fi
if [[ -n "$vm_migrate_to" && -n "$vm_incoming" ]]; then
error "'--incoming' and '--migrate-to' cannot be used together"
return 1
elif [[ -n "$vm_incoming" ]]; then
if [[ -n "$os_mode" || -n "$os" ]]; then
error "'--incoming' can't be used together with '--os' nor '--os-mode'"
return 1
fi
os_mode="original"
os="$VM_DIR/$vm_incoming/os.qcow2"
elif [[ -n "$vm_migrate_to" ]]; then
[[ "$os_mode" != "backing" ]] && warning "Using 'backing' mode for OS since '--migrate-to' is used"
os_mode=backing
fi
notice "Creating new VM in $vm_dir"
mkdir -p $vm_dir
if [[ "$os_mode" == "backing" ]]; then
notice "Creating backing file for OS image file: $os"
if ! $QEMU_IMG_BIN create -f qcow2 -b $os $vm_dir/os.qcow2; then
error "Failed to create OS backing file in '$vm_dir/os.qcow2' using '$os'"
return 1
fi
local os=$vm_dir/os.qcow2
elif [[ "$os_mode" == "original" ]]; then
warning "Using original OS image file: $os"
elif [[ "$os_mode" != "snapshot" ]]; then
if [[ -z "$os_mode" ]]; then
notice "No '--os-mode' parameter provided - using 'snapshot'"
os_mode="snapshot"
else
error "Invalid '--os-mode=$os_mode'"
return 1
fi
fi
local qemu_mask_param="VM_${vm_num}_qemu_mask"
local qemu_numa_node_param="VM_${vm_num}_qemu_numa_node"
if [[ -z "${!qemu_mask_param}" ]] || [[ -z "${!qemu_numa_node_param}" ]]; then
error "Parameters ${qemu_mask_param} or ${qemu_numa_node_param} not found in autotest.config file"
return 1
fi
local task_mask=${!qemu_mask_param}
notice "TASK MASK: $task_mask"
local cmd=(taskset -a -c "$task_mask" "$QEMU_BIN")
local vm_socket_offset=$((10000 + 100 * vm_num))
local ssh_socket=$((vm_socket_offset + 0))
local fio_socket=$((vm_socket_offset + 1))
local monitor_port=$((vm_socket_offset + 2))
local migration_port=$((vm_socket_offset + 3))
local gdbserver_socket=$((vm_socket_offset + 4))
local vnc_socket=$((100 + vm_num))
local qemu_pid_file="$vm_dir/qemu.pid"
local cpu_num=0
set +x
# cpu list for taskset can be comma separated or range
# or both at the same time, so first split on commas
cpu_list=$(echo $task_mask | tr "," "\n")
queue_number=0
for c in $cpu_list; do
# if range is detected - count how many cpus
if [[ $c =~ [0-9]+-[0-9]+ ]]; then
val=$((c - 1))
val=${val#-}
else
val=1
fi
cpu_num=$((cpu_num + val))
queue_number=$((queue_number + val))
done
if [ -z $queue_number ]; then
queue_number=$cpu_num
fi
xtrace_restore
local node_num=${!qemu_numa_node_param}
local boot_disk_present=false
notice "NUMA NODE: $node_num"
cmd+=(-m "$guest_memory" --enable-kvm -cpu host -smp "$cpu_num" -vga std -vnc ":$vnc_socket" -daemonize)
cmd+=(-object "memory-backend-file,id=mem,size=${guest_memory}M,mem-path=/dev/hugepages,share=on,prealloc=yes,host-nodes=$node_num,policy=bind")
[[ $os_mode == snapshot ]] && cmd+=(-snapshot)
[[ -n "$vm_incoming" ]] && cmd+=(-incoming "tcp:0:$migration_port")
cmd+=(-monitor "telnet:127.0.0.1:$monitor_port,server,nowait")
cmd+=(-numa "node,memdev=mem")
cmd+=(-pidfile "$qemu_pid_file")
cmd+=(-serial "file:$vm_dir/serial.log")
cmd+=(-D "$vm_dir/qemu.log")
cmd+=(-chardev "file,path=$vm_dir/seabios.log,id=seabios" -device "isa-debugcon,iobase=0x402,chardev=seabios")
cmd+=(-net "user,hostfwd=tcp::$ssh_socket-:22,hostfwd=tcp::$fio_socket-:8765")
cmd+=(-net nic)
if [[ -z "$boot_from" ]]; then
cmd+=(-drive "file=$os,if=none,id=os_disk")
cmd+=(-device "ide-hd,drive=os_disk,bootindex=0")
fi
if ((${#disks[@]} == 0)) && [[ $disk_type_g == virtio* ]]; then
disks=("default_virtio.img")
elif ((${#disks[@]} == 0)); then
error "No disks defined, aborting"
return 1
fi
for disk in "${disks[@]}"; do
# Each disk can define its type in a form of a disk_name,type. The remaining parts
# of the string are dropped.
IFS="," read -r disk disk_type _ <<< "$disk"
[[ -z $disk_type ]] && disk_type=$disk_type_g
case $disk_type in
virtio)
local raw_name="RAWSCSI"
local raw_disk=$vm_dir/test.img
if [[ -n $disk ]]; then
[[ ! -b $disk ]] && touch $disk
local raw_disk
raw_disk=$(readlink -f $disk)
fi
# Create disk file if it not exist or it is smaller than 1G
if { [[ -f $raw_disk ]] && [[ $(stat --printf="%s" $raw_disk) -lt $((1024 * 1024 * 1024)) ]]; } \
|| [[ ! -e $raw_disk ]]; then
if [[ $raw_disk =~ /dev/.* ]]; then
error \
"ERROR: Virtio disk point to missing device ($raw_disk) -\n" \
" this is probably not what you want."
return 1
fi
notice "Creating Virtio disc $raw_disk"
dd if=/dev/zero of=$raw_disk bs=1024k count=1024
else
notice "Using existing image $raw_disk"
fi
cmd+=(-device "virtio-scsi-pci,num_queues=$queue_number")
cmd+=(-device "scsi-hd,drive=hd$i,vendor=$raw_name")
cmd+=(-drive "if=none,id=hd$i,file=$raw_disk,format=raw$raw_cache")
;;
spdk_vhost_scsi)
notice "using socket $vhost_dir/naa.$disk.$vm_num"
cmd+=(-chardev "socket,id=char_$disk,path=$vhost_dir/naa.$disk.$vm_num")
cmd+=(-device "vhost-user-scsi-pci,id=scsi_$disk,num_queues=$queue_number,chardev=char_$disk")
if [[ "$disk" == "$boot_from" ]]; then
cmd[-1]+=,bootindex=0
boot_disk_present=true
fi
;;
spdk_vhost_blk)
notice "using socket $vhost_dir/naa.$disk.$vm_num"
cmd+=(-chardev "socket,id=char_$disk,path=$vhost_dir/naa.$disk.$vm_num")
cmd+=(-device "vhost-user-blk-pci,num-queues=$queue_number,chardev=char_$disk")
if [[ "$disk" == "$boot_from" ]]; then
cmd[-1]+=,bootindex=0
boot_disk_present=true
fi
if $packed; then
check_qemu_packedring_support
notice "Enabling packed ring support for VM $vm_num, controller $vhost_dir/naa.$disk.$vm_num"
cmd[-1]+=,packed=on
fi
;;
kernel_vhost)
if [[ -z $disk ]]; then
error "need WWN for $disk_type"
return 1
elif [[ ! $disk =~ ^[[:alpha:]]{3}[.][[:xdigit:]]+$ ]]; then
error "$disk_type - disk(wnn)=$disk does not look like WNN number"
return 1
fi
notice "Using kernel vhost disk wwn=$disk"
cmd+=(-device "vhost-scsi-pci,wwpn=$disk,num_queues=$queue_number")
;;
vfio_user)
notice "using socket $VM_DIR/$vm_num/domain/muser$disk/$disk/cntrl"
cmd+=(-device "vfio-user-pci,socket=$VM_DIR/$vm_num/muser/domain/muser$disk/$disk/cntrl")
if [[ "$disk" == "$boot_from" ]]; then
cmd[-1]+=",bootindex=0"
boot_disk_present=true
fi
;;
*)
error "unknown mode '$disk_type', use: virtio, spdk_vhost_scsi, spdk_vhost_blk, kernel_vhost or vfio_user"
return 1
;;
esac
done
if [[ -n $boot_from ]] && [[ $boot_disk_present == false ]]; then
error "Boot from $boot_from is selected but device is not present"
return 1
fi
((${#qemu_args[@]})) && cmd+=("${qemu_args[@]}")
notice "Saving to $vm_dir/run.sh"
cat <<- RUN > "$vm_dir/run.sh"
#!/bin/bash
qemu_log () {
echo "=== qemu.log ==="
[[ -s $vm_dir/qemu.log ]] && cat $vm_dir/qemu.log
echo "=== qemu.log ==="
}
if [[ \$EUID -ne 0 ]]; then
echo "Go away user come back as root"
exit 1
fi
trap "qemu_log" EXIT
qemu_cmd=($(printf '%s\n' "${cmd[@]}"))
chmod +r $vm_dir/*
echo "Running VM in $vm_dir"
rm -f $qemu_pid_file
"\${qemu_cmd[@]}"
echo "Waiting for QEMU pid file"
sleep 1
[[ ! -f $qemu_pid_file ]] && sleep 1
[[ ! -f $qemu_pid_file ]] && echo "ERROR: no qemu pid file found" && exit 1
exit 0
# EOF
RUN
chmod +x $vm_dir/run.sh
# Save generated sockets redirection
echo $ssh_socket > $vm_dir/ssh_socket
echo $fio_socket > $vm_dir/fio_socket
echo $monitor_port > $vm_dir/monitor_port
rm -f $vm_dir/migration_port
[[ -z $vm_incoming ]] || echo $migration_port > $vm_dir/migration_port
echo $gdbserver_socket > $vm_dir/gdbserver_socket
echo $vnc_socket >> $vm_dir/vnc_socket
[[ -z $vm_incoming ]] || ln -fs $VM_DIR/$vm_incoming $vm_dir/vm_incoming
[[ -z $vm_migrate_to ]] || ln -fs $VM_DIR/$vm_migrate_to $vm_dir/vm_migrate_to
}
function vm_run() {
local OPTIND optchar vm
local run_all=false
local vms_to_run=""
while getopts 'a-:' optchar; do
case "$optchar" in
a) run_all=true ;;
*)
error "Unknown param $OPTARG"
return 1
;;
esac
done
if $run_all; then
vms_to_run="$(vm_list_all)"
else
shift $((OPTIND - 1))
for vm in "$@"; do
vm_num_is_valid $1 || return 1
if [[ ! -x $VM_DIR/$vm/run.sh ]]; then
error "VM$vm not defined - setup it first"
return 1
fi
vms_to_run+=" $vm"
done
fi
for vm in $vms_to_run; do
if vm_is_running $vm; then
warning "VM$vm ($VM_DIR/$vm) already running"
continue
fi
notice "running $VM_DIR/$vm/run.sh"
if ! $VM_DIR/$vm/run.sh; then
error "FAILED to run vm $vm"
return 1
fi
done
}
function vm_print_logs() {
vm_num=$1
warning "================"
warning "QEMU LOG:"
if [[ -r $VM_DIR/$vm_num/qemu.log ]]; then
cat $VM_DIR/$vm_num/qemu.log
else
warning "LOG qemu.log not found"
fi
warning "VM LOG:"
if [[ -r $VM_DIR/$vm_num/serial.log ]]; then
cat $VM_DIR/$vm_num/serial.log
else
warning "LOG serial.log not found"
fi
warning "SEABIOS LOG:"
if [[ -r $VM_DIR/$vm_num/seabios.log ]]; then
cat $VM_DIR/$vm_num/seabios.log
else
warning "LOG seabios.log not found"
fi
warning "================"
}
# Wait for all created VMs to boot.
# param $1 max wait time
function vm_wait_for_boot() {
assert_number $1
xtrace_disable
local all_booted=false
local timeout_time=$1
[[ $timeout_time -lt 10 ]] && timeout_time=10
local timeout_time
timeout_time=$(date -d "+$timeout_time seconds" +%s)
notice "Waiting for VMs to boot"
shift
if [[ "$*" == "" ]]; then
local vms_to_check="$VM_DIR/[0-9]*"
else
local vms_to_check=""
for vm in "$@"; do
vms_to_check+=" $VM_DIR/$vm"
done
fi
for vm in $vms_to_check; do
local vm_num
vm_num=$(basename $vm)
local i=0
notice "waiting for VM$vm_num ($vm)"
while ! vm_os_booted $vm_num; do
if ! vm_is_running $vm_num; then
warning "VM $vm_num is not running"
vm_print_logs $vm_num
xtrace_restore
return 1
fi
if [[ $(date +%s) -gt $timeout_time ]]; then
warning "timeout waiting for machines to boot"
vm_print_logs $vm_num
xtrace_restore
return 1
fi
if ((i > 30)); then
local i=0
echo
fi
echo -n "."
sleep 1
done
echo ""
notice "VM$vm_num ready"
#Change Timeout for stopping services to prevent lengthy powerdowns
#Check that remote system is not Cygwin in case of Windows VMs
local vm_os
vm_os=$(vm_exec $vm_num "uname -o")
if [[ "$vm_os" != "Cygwin" ]]; then
vm_exec $vm_num "echo 'DefaultTimeoutStopSec=10' >> /etc/systemd/system.conf; systemctl daemon-reexec"
fi
done
notice "all VMs ready"
xtrace_restore
return 0
}
function vm_start_fio_server() {
local OPTIND optchar
local readonly=''
local fio_bin=''
while getopts ':-:' optchar; do
case "$optchar" in
-)
case "$OPTARG" in
fio-bin=*) local fio_bin="${OPTARG#*=}" ;;
readonly) local readonly="--readonly" ;;
*) error "Invalid argument '$OPTARG'" && return 1 ;;
esac
;;
*) error "Invalid argument '$OPTARG'" && return 1 ;;
esac
done
shift $((OPTIND - 1))
for vm_num in "$@"; do
notice "Starting fio server on VM$vm_num"
if [[ $fio_bin != "" ]]; then
vm_exec $vm_num 'cat > /root/fio; chmod +x /root/fio' < $fio_bin
vm_exec $vm_num /root/fio $readonly --eta=never --server --daemonize=/root/fio.pid
else
vm_exec $vm_num fio $readonly --eta=never --server --daemonize=/root/fio.pid
fi
done
}
function vm_check_scsi_location() {
# Script to find wanted disc
local script='shopt -s nullglob;
for entry in /sys/block/sd*; do
disk_type="$(cat $entry/device/vendor)";
if [[ $disk_type == INTEL* ]] || [[ $disk_type == RAWSCSI* ]] || [[ $disk_type == LIO-ORG* ]]; then
fname=$(basename $entry);
echo -n " $fname";
fi;
done'
SCSI_DISK="$(echo "$script" | vm_exec $1 bash -s)"
if [[ -z "$SCSI_DISK" ]]; then
error "no test disk found!"
return 1
fi
}
# Script to perform scsi device reset on all disks in VM
# param $1 VM num
# param $2..$n Disks to perform reset on
function vm_reset_scsi_devices() {
for disk in "${@:2}"; do
notice "VM$1 Performing device reset on disk $disk"
vm_exec $1 sg_reset /dev/$disk -vNd
done
}
function vm_check_blk_location() {
local script='shopt -s nullglob; cd /sys/block; echo vd*'
SCSI_DISK="$(echo "$script" | vm_exec $1 bash -s)"
if [[ -z "$SCSI_DISK" ]]; then
error "no blk test disk found!"
return 1
fi
}
function vm_check_nvme_location() {
SCSI_DISK="$(vm_exec $1 grep -l SPDK /sys/class/nvme/*/model | awk -F/ '{print $5"n1"}')"
if [[ -z "$SCSI_DISK" ]]; then
error "no vfio-user nvme test disk found!"
return 1
fi
}
function run_fio() {
local arg
local job_file=""
local fio_bin=""
local vms=()
local out=""
local vm
local run_server_mode=true
local run_plugin_mode=false
local fio_start_cmd
local fio_output_format="normal"
local fio_gtod_reduce=false
local wait_for_fio=true
for arg in "$@"; do
case "$arg" in
--job-file=*) local job_file="${arg#*=}" ;;
--fio-bin=*) local fio_bin="${arg#*=}" ;;
--vm=*) vms+=("${arg#*=}") ;;
--out=*)
local out="${arg#*=}"
mkdir -p $out
;;
--local) run_server_mode=false ;;
--plugin)
notice "Using plugin mode. Disabling server mode."
run_plugin_mode=true
run_server_mode=false
;;
--json) fio_output_format="json" ;;
--hide-results) hide_results=true ;;
--no-wait-for-fio) wait_for_fio=false ;;
--gtod-reduce) fio_gtod_reduce=true ;;
*)
error "Invalid argument '$arg'"
return 1
;;
esac
done
if [[ -n "$fio_bin" && ! -r "$fio_bin" ]]; then
error "FIO binary '$fio_bin' does not exist"
return 1
fi
if [[ -z "$fio_bin" ]]; then
fio_bin="fio"
fi
if [[ ! -r "$job_file" ]]; then
error "Fio job '$job_file' does not exist"
return 1
fi
fio_start_cmd="$fio_bin --eta=never "
local job_fname
job_fname=$(basename "$job_file")
log_fname="${job_fname%%.*}.log"
fio_start_cmd+=" --output=$out/$log_fname --output-format=$fio_output_format "
# prepare job file for each VM
for vm in "${vms[@]}"; do
local vm_num=${vm%%:*}
local vmdisks=${vm#*:}
sed "s@filename=@filename=$vmdisks@" $job_file | vm_exec $vm_num "cat > /root/$job_fname"
if $fio_gtod_reduce; then
vm_exec $vm_num "echo 'gtod_reduce=1' >> /root/$job_fname"
fi
vm_exec $vm_num cat /root/$job_fname
if $run_server_mode; then
fio_start_cmd+="--client=127.0.0.1,$(vm_fio_socket $vm_num) --remote-config /root/$job_fname "
fi
if ! $run_server_mode; then
if [[ -n "$fio_bin" ]]; then
if ! $run_plugin_mode; then
vm_exec $vm_num 'cat > /root/fio; chmod +x /root/fio' < $fio_bin
vm_fio_bin="/root/fio"
else
vm_fio_bin="/usr/src/fio/fio"
fi
fi
notice "Running local fio on VM $vm_num"
vm_exec $vm_num "$vm_fio_bin --output=/root/$log_fname --output-format=$fio_output_format /root/$job_fname & echo \$! > /root/fio.pid" &
vm_exec_pids+=("$!")
fi
done
if ! $run_server_mode; then
if ! $wait_for_fio; then
return 0
fi
echo "Waiting for guest fio instances to finish.."
wait "${vm_exec_pids[@]}"
for vm in "${vms[@]}"; do
local vm_num=${vm%%:*}
vm_exec $vm_num cat /root/$log_fname > "$out/vm${vm_num}_${log_fname}"
done
return 0
fi
$fio_start_cmd
sleep 1
if [[ "$fio_output_format" == "json" ]]; then
# Fio in client-server mode produces a lot of "trash" output
# preceding JSON structure, making it not possible to parse.
# Remove these lines from file.
# shellcheck disable=SC2005
echo "$(grep -vP '^[<\w]' "$out/$log_fname")" > "$out/$log_fname"
fi
if [[ ! $hide_results ]]; then
cat $out/$log_fname
fi
}
# Parsing fio results for json output and client-server mode only!
function parse_fio_results() {
local fio_log_dir=$1
local fio_log_filename=$2
local fio_csv_filename
# Variables used in parsing loop
local log_file
local rwmode mixread mixwrite
local lat_key lat_divisor
local client_stats iops bw
local read_avg_lat read_min_lat read_max_lat
local write_avg_lat write_min_lat write_min_lat
declare -A results
results["iops"]=0
results["bw"]=0
results["avg_lat"]=0
results["min_lat"]=0
results["max_lat"]=0
# Loop using the log filename to see if there are any other
# matching files. This is in case we ran fio test multiple times.
log_files=("$fio_log_dir/$fio_log_filename"*)
for log_file in "${log_files[@]}"; do
rwmode=$(jq -r '.["client_stats"][0]["job options"]["rw"]' "$log_file")
mixread=1
mixwrite=1
if [[ $rwmode = *"rw"* ]]; then
mixread=$(jq -r '.["client_stats"][0]["job options"]["rwmixread"]' "$log_file")
mixread=$(bc -l <<< "scale=3; $mixread/100")
mixwrite=$(bc -l <<< "scale=3; 1-$mixread")
fi
client_stats=$(jq -r '.["client_stats"][] | select(.jobname == "All clients")' "$log_file")
# Check latency unit and later normalize to microseconds
lat_key="lat_us"
lat_divisor=1
if jq -er '.read["lat_ns"]' &> /dev/null <<< $client_stats; then
lat_key="lat_ns"
lat_divisor=1000
fi
# Horrific bash float point arithmetic oprations below.
# Viewer discretion is advised.
iops=$(jq -r '[.read["iops"],.write["iops"]] | add' <<< $client_stats)
bw=$(jq -r '[.read["bw"],.write["bw"]] | add' <<< $client_stats)
read_avg_lat=$(jq -r --arg lat_key $lat_key '.read[$lat_key]["mean"]' <<< $client_stats)
read_min_lat=$(jq -r --arg lat_key $lat_key '.read[$lat_key]["min"]' <<< $client_stats)
read_max_lat=$(jq -r --arg lat_key $lat_key '.read[$lat_key]["max"]' <<< $client_stats)
write_avg_lat=$(jq -r --arg lat_key $lat_key '.write[$lat_key]["mean"]' <<< $client_stats)
write_min_lat=$(jq -r --arg lat_key $lat_key '.write[$lat_key]["min"]' <<< $client_stats)
write_max_lat=$(jq -r --arg lat_key $lat_key '.write[$lat_key]["max"]' <<< $client_stats)
results["iops"]=$(bc -l <<< "${results[iops]} + $iops")
results["bw"]=$(bc -l <<< "${results[bw]} + $bw")
results["avg_lat"]=$(bc -l <<< "${results[avg_lat]} + ($mixread*$read_avg_lat + $mixwrite*$write_avg_lat)/$lat_divisor")
results["min_lat"]=$(bc -l <<< "${results[min_lat]} + ($mixread*$read_min_lat + $mixwrite*$write_min_lat)/$lat_divisor")
results["max_lat"]=$(bc -l <<< "${results[max_lat]} + ($mixread*$read_max_lat + $mixwrite*$write_max_lat)/$lat_divisor")
done
results["iops"]=$(bc -l <<< "scale=3; ${results[iops]} / ${#log_files[@]}")
results["bw"]=$(bc -l <<< "scale=3; ${results[bw]} / ${#log_files[@]}")
results["avg_lat"]=$(bc -l <<< "scale=3; ${results[avg_lat]} / ${#log_files[@]}")
results["min_lat"]=$(bc -l <<< "scale=3; ${results[min_lat]} / ${#log_files[@]}")
results["max_lat"]=$(bc -l <<< "scale=3; ${results[max_lat]} / ${#log_files[@]}")
fio_csv_filename="${fio_log_filename%%.*}.csv"
cat <<- EOF > "$fio_log_dir/$fio_csv_filename"
iops,bw,avg_lat,min_lat,max_lat
${results["iops"]},${results["bw"]},${results["avg_lat"]},${results["min_lat"]},${results["max_lat"]}
EOF
}
# Shutdown or kill any running VM and SPDK APP.
#
function at_app_exit() {
local vhost_name
notice "APP EXITING"
notice "killing all VMs"
vm_kill_all
# Kill vhost application
notice "killing vhost app"
for vhost_name in "$TARGET_DIR"/*; do
vhost_kill "$(basename "$vhost_name")"
done
notice "EXIT DONE"
}
function error_exit() {
trap - ERR
print_backtrace
set +e
error "Error on $1 $2"
at_app_exit
exit 1
}