Update benchmarks to include resource utilization

Adds additional polled information on node cpu, memory, and network
bandwidth for the node running the test. This should provide additional
useful information about the results of the test.

Also bumps the test format to 2 to ensure clients can handle the changes
properly.
This commit is contained in:
Joshua Boniface 2024-09-18 10:19:12 -04:00
parent ecb812ccac
commit 736762901c
3 changed files with 418 additions and 232 deletions

View File

@ -5058,95 +5058,7 @@ class API_Storage_Ceph_Benchmark(Resource):
description: The PVC benchmark format of the results
benchmark_result:
type: object
description: A format 0 test result
properties:
test_name:
type: object
properties:
overall:
type: object
properties:
iosize:
type: string (integer)
description: The total size of the benchmark data
bandwidth:
type: string (integer)
description: The average bandwidth (KiB/s)
iops:
type: string (integer)
description: The average IOPS
runtime:
type: string (integer)
description: The total test time in milliseconds
latency:
type: object
properties:
min:
type: string (integer)
description: The minimum latency measurement
max:
type: string (integer)
description: The maximum latency measurement
mean:
type: string (float)
description: The mean latency measurement
stdev:
type: string (float)
description: The standard deviation of latency
bandwidth:
type: object
properties:
min:
type: string (integer)
description: The minimum bandwidth (KiB/s) measurement
max:
type: string (integer)
description: The maximum bandwidth (KiB/s) measurement
mean:
type: string (float)
description: The mean bandwidth (KiB/s) measurement
stdev:
type: string (float)
description: The standard deviation of bandwidth
numsamples:
type: string (integer)
description: The number of samples taken during the test
iops:
type: object
properties:
min:
type: string (integer)
description: The minimum IOPS measurement
max:
type: string (integer)
description: The maximum IOPS measurement
mean:
type: string (float)
description: The mean IOPS measurement
stdev:
type: string (float)
description: The standard deviation of IOPS
numsamples:
type: string (integer)
description: The number of samples taken during the test
cpu:
type: object
properties:
user:
type: string (float percentage)
description: The percentage of test time spent in user space
system:
type: string (float percentage)
description: The percentage of test time spent in system (kernel) space
ctxsw:
type: string (integer)
description: The number of context switches during the test
majfault:
type: string (integer)
description: The number of major page faults during the test
minfault:
type: string (integer)
description: The number of minor page faults during the test
description: A benchmark test result; format not documented due to complexity
"""
return list_benchmarks(config, reqargs.get("job", None))

View File

@ -30,6 +30,7 @@ from requests_toolbelt.multipart.encoder import (
import pvc.lib.ansiprint as ansiprint
from pvc.lib.common import UploadProgressBar, call_api, get_wait_retdata
from pvc.cli.helpers import MAX_CONTENT_WIDTH
#
# Supplemental functions
@ -1804,7 +1805,7 @@ def get_benchmark_list_results(benchmark_format, benchmark_data):
benchmark_bandwidth, benchmark_iops = get_benchmark_list_results_legacy(
benchmark_data
)
elif benchmark_format == 1:
elif benchmark_format == 1 or benchmark_format == 2:
benchmark_bandwidth, benchmark_iops = get_benchmark_list_results_json(
benchmark_data
)
@ -2006,6 +2007,7 @@ def format_info_benchmark(config, benchmark_information):
benchmark_matrix = {
0: format_info_benchmark_legacy,
1: format_info_benchmark_json,
2: format_info_benchmark_json,
}
benchmark_version = benchmark_information[0]["test_format"]
@ -2340,12 +2342,15 @@ def format_info_benchmark_json(config, benchmark_information):
if benchmark_information["benchmark_result"] == "Running":
return "Benchmark test is still running."
benchmark_format = benchmark_information["test_format"]
benchmark_details = benchmark_information["benchmark_result"]
# Format a nice output; do this line-by-line then concat the elements at the end
ainformation = []
ainformation.append(
"{}Storage Benchmark details:{}".format(ansiprint.bold(), ansiprint.end())
"{}Storage Benchmark details (format {}):{}".format(
ansiprint.bold(), benchmark_format, ansiprint.end()
)
)
nice_test_name_map = {
@ -2393,7 +2398,7 @@ def format_info_benchmark_json(config, benchmark_information):
if element[1] != 0:
useful_latency_tree.append(element)
max_rows = 9
max_rows = 5
if len(useful_latency_tree) > 9:
max_rows = len(useful_latency_tree)
elif len(useful_latency_tree) < 9:
@ -2402,15 +2407,10 @@ def format_info_benchmark_json(config, benchmark_information):
# Format the static data
overall_label = [
"Overall BW/s:",
"Overall IOPS:",
"Total I/O:",
"Runtime (s):",
"User CPU %:",
"System CPU %:",
"Ctx Switches:",
"Major Faults:",
"Minor Faults:",
"BW/s:",
"IOPS:",
"I/O:",
"Time:",
]
while len(overall_label) < max_rows:
overall_label.append("")
@ -2419,68 +2419,149 @@ def format_info_benchmark_json(config, benchmark_information):
format_bytes_tohuman(int(job_details[io_class]["bw_bytes"])),
format_ops_tohuman(int(job_details[io_class]["iops"])),
format_bytes_tohuman(int(job_details[io_class]["io_bytes"])),
job_details["job_runtime"] / 1000,
job_details["usr_cpu"],
job_details["sys_cpu"],
job_details["ctx"],
job_details["majf"],
job_details["minf"],
str(job_details["job_runtime"] / 1000) + "s",
]
while len(overall_data) < max_rows:
overall_data.append("")
cpu_label = [
"Total:",
"User:",
"Sys:",
"OSD:",
"MON:",
]
while len(cpu_label) < max_rows:
cpu_label.append("")
cpu_data = [
(
benchmark_details[test]["avg_cpu_util_percent"]["total"]
if benchmark_format > 1
else "N/A"
),
round(job_details["usr_cpu"], 2),
round(job_details["sys_cpu"], 2),
(
benchmark_details[test]["avg_cpu_util_percent"]["ceph-osd"]
if benchmark_format > 1
else "N/A"
),
(
benchmark_details[test]["avg_cpu_util_percent"]["ceph-mon"]
if benchmark_format > 1
else "N/A"
),
]
while len(cpu_data) < max_rows:
cpu_data.append("")
memory_label = [
"Total:",
"OSD:",
"MON:",
]
while len(memory_label) < max_rows:
memory_label.append("")
memory_data = [
(
benchmark_details[test]["avg_memory_util_percent"]["total"]
if benchmark_format > 1
else "N/A"
),
(
benchmark_details[test]["avg_memory_util_percent"]["ceph-osd"]
if benchmark_format > 1
else "N/A"
),
(
benchmark_details[test]["avg_memory_util_percent"]["ceph-mon"]
if benchmark_format > 1
else "N/A"
),
]
while len(memory_data) < max_rows:
memory_data.append("")
network_label = [
"Total:",
"Sent:",
"Recv:",
]
while len(network_label) < max_rows:
network_label.append("")
network_data = [
(
format_bytes_tohuman(
int(benchmark_details[test]["avg_network_util_bps"]["total"])
)
if benchmark_format > 1
else "N/A"
),
(
format_bytes_tohuman(
int(benchmark_details[test]["avg_network_util_bps"]["sent"])
)
if benchmark_format > 1
else "N/A"
),
(
format_bytes_tohuman(
int(benchmark_details[test]["avg_network_util_bps"]["recv"])
)
if benchmark_format > 1
else "N/A"
),
]
while len(network_data) < max_rows:
network_data.append("")
bandwidth_label = [
"Min:",
"Max:",
"Mean:",
"StdDev:",
"Samples:",
"",
"",
"",
"",
]
while len(bandwidth_label) < max_rows:
bandwidth_label.append("")
bandwidth_data = [
format_bytes_tohuman(int(job_details[io_class]["bw_min"]) * 1024),
format_bytes_tohuman(int(job_details[io_class]["bw_max"]) * 1024),
format_bytes_tohuman(int(job_details[io_class]["bw_mean"]) * 1024),
format_bytes_tohuman(int(job_details[io_class]["bw_dev"]) * 1024),
job_details[io_class]["bw_samples"],
"",
"",
"",
"",
format_bytes_tohuman(int(job_details[io_class]["bw_min"]) * 1024)
+ " / "
+ format_ops_tohuman(int(job_details[io_class]["iops_min"])),
format_bytes_tohuman(int(job_details[io_class]["bw_max"]) * 1024)
+ " / "
+ format_ops_tohuman(int(job_details[io_class]["iops_max"])),
format_bytes_tohuman(int(job_details[io_class]["bw_mean"]) * 1024)
+ " / "
+ format_ops_tohuman(int(job_details[io_class]["iops_mean"])),
format_bytes_tohuman(int(job_details[io_class]["bw_dev"]) * 1024)
+ " / "
+ format_ops_tohuman(int(job_details[io_class]["iops_stddev"])),
str(job_details[io_class]["bw_samples"])
+ " / "
+ str(job_details[io_class]["iops_samples"]),
]
while len(bandwidth_data) < max_rows:
bandwidth_data.append("")
iops_data = [
format_ops_tohuman(int(job_details[io_class]["iops_min"])),
format_ops_tohuman(int(job_details[io_class]["iops_max"])),
format_ops_tohuman(int(job_details[io_class]["iops_mean"])),
format_ops_tohuman(int(job_details[io_class]["iops_stddev"])),
job_details[io_class]["iops_samples"],
"",
"",
"",
"",
lat_label = [
"Min:",
"Max:",
"Mean:",
"StdDev:",
]
while len(iops_data) < max_rows:
iops_data.append("")
while len(lat_label) < max_rows:
lat_label.append("")
lat_data = [
int(job_details[io_class]["lat_ns"]["min"]) / 1000,
int(job_details[io_class]["lat_ns"]["max"]) / 1000,
int(job_details[io_class]["lat_ns"]["mean"]) / 1000,
int(job_details[io_class]["lat_ns"]["stddev"]) / 1000,
"",
"",
"",
"",
"",
]
while len(lat_data) < max_rows:
lat_data.append("")
@ -2489,98 +2570,119 @@ def format_info_benchmark_json(config, benchmark_information):
lat_bucket_label = list()
lat_bucket_data = list()
for element in useful_latency_tree:
lat_bucket_label.append(element[0])
lat_bucket_data.append(element[1])
lat_bucket_label.append(element[0] + ":" if element[0] else "")
lat_bucket_data.append(round(float(element[1]), 2) if element[1] else "")
while len(lat_bucket_label) < max_rows:
lat_bucket_label.append("")
while len(lat_bucket_data) < max_rows:
lat_bucket_label.append("")
# Column default widths
overall_label_length = 0
overall_label_length = 5
overall_column_length = 0
bandwidth_label_length = 0
bandwidth_column_length = 11
iops_column_length = 4
latency_column_length = 12
cpu_label_length = 6
cpu_column_length = 0
memory_label_length = 6
memory_column_length = 0
network_label_length = 6
network_column_length = 6
bandwidth_label_length = 8
bandwidth_column_length = 0
latency_label_length = 7
latency_column_length = 0
latency_bucket_label_length = 0
latency_bucket_column_length = 0
# Column layout:
# General Bandwidth IOPS Latency Percentiles
# --------- ---------- -------- -------- ---------------
# Size Min Min Min A
# BW Max Max Max B
# IOPS Mean Mean Mean ...
# Runtime StdDev StdDev StdDev Z
# UsrCPU Samples Samples
# SysCPU
# CtxSw
# MajFault
# MinFault
# Overall CPU Memory Network Bandwidth/IOPS Latency Percentiles
# --------- ----- ------- -------- -------------- -------- ---------------
# BW Total Total Total Min Min A
# IOPS Usr OSD Send Max Max B
# Time Sys MON Recv Mean Mean ...
# Size OSD StdDev StdDev Z
# MON Samples
# Set column widths
for item in overall_label:
_item_length = len(str(item))
if _item_length > overall_label_length:
overall_label_length = _item_length
for item in overall_data:
_item_length = len(str(item))
if _item_length > overall_column_length:
overall_column_length = _item_length
test_name_length = len(nice_test_name_map[test])
if test_name_length > overall_label_length + overall_column_length:
_diff = test_name_length - (overall_label_length + overall_column_length)
overall_column_length += _diff
for item in bandwidth_label:
for item in cpu_data:
_item_length = len(str(item))
if _item_length > bandwidth_label_length:
bandwidth_label_length = _item_length
if _item_length > cpu_column_length:
cpu_column_length = _item_length
for item in memory_data:
_item_length = len(str(item))
if _item_length > memory_column_length:
memory_column_length = _item_length
for item in network_data:
_item_length = len(str(item))
if _item_length > network_column_length:
network_column_length = _item_length
for item in bandwidth_data:
_item_length = len(str(item))
if _item_length > bandwidth_column_length:
bandwidth_column_length = _item_length
for item in iops_data:
_item_length = len(str(item))
if _item_length > iops_column_length:
iops_column_length = _item_length
for item in lat_data:
_item_length = len(str(item))
if _item_length > latency_column_length:
latency_column_length = _item_length
for item in lat_bucket_label:
for item in lat_bucket_data:
_item_length = len(str(item))
if _item_length > latency_bucket_label_length:
latency_bucket_label_length = _item_length
if _item_length > latency_bucket_column_length:
latency_bucket_column_length = _item_length
# Top row (Headers)
ainformation.append(
"{bold}\
{overall_label: <{overall_label_length}} \
{bandwidth_label: <{bandwidth_label_length}} \
{bandwidth: <{bandwidth_length}} \
{iops: <{iops_length}} \
{latency: <{latency_length}} \
{latency_bucket_label: <{latency_bucket_label_length}} \
{latency_bucket} \
{end_bold}".format(
"{bold}{overall_label: <{overall_label_length}} {header_fill}{end_bold}".format(
bold=ansiprint.bold(),
end_bold=ansiprint.end(),
overall_label=nice_test_name_map[test],
overall_label_length=overall_label_length,
bandwidth_label="",
bandwidth_label_length=bandwidth_label_length,
bandwidth="Bandwidth/s",
bandwidth_length=bandwidth_column_length,
iops="IOPS",
iops_length=iops_column_length,
latency="Latency (μs)",
latency_length=latency_column_length,
latency_bucket_label="Latency Buckets (μs/%)",
latency_bucket_label_length=latency_bucket_label_length,
latency_bucket="",
header_fill="-"
* (
(MAX_CONTENT_WIDTH if MAX_CONTENT_WIDTH <= 120 else 120)
- len(nice_test_name_map[test])
- 4
),
)
)
ainformation.append(
"{bold}\
{overall_label: <{overall_label_length}} \
{cpu_label: <{cpu_label_length}} \
{memory_label: <{memory_label_length}} \
{network_label: <{network_label_length}} \
{bandwidth_label: <{bandwidth_label_length}} \
{latency_label: <{latency_label_length}} \
{latency_bucket_label: <{latency_bucket_label_length}}\
{end_bold}".format(
bold=ansiprint.bold(),
end_bold=ansiprint.end(),
overall_label="Overall",
overall_label_length=overall_label_length + overall_column_length + 1,
cpu_label="CPU (%)",
cpu_label_length=cpu_label_length + cpu_column_length + 1,
memory_label="Memory (%)",
memory_label_length=memory_label_length + memory_column_length + 1,
network_label="Network (bps)",
network_label_length=network_label_length + network_column_length + 1,
bandwidth_label="Bandwidth / IOPS",
bandwidth_label_length=bandwidth_label_length
+ bandwidth_column_length
+ 1,
latency_label="Latency (μs)",
latency_label_length=latency_label_length + latency_column_length + 1,
latency_bucket_label="Buckets (μs/%)",
latency_bucket_label_length=latency_bucket_label_length
+ latency_bucket_column_length,
)
)
@ -2588,13 +2690,19 @@ def format_info_benchmark_json(config, benchmark_information):
# Top row (Headers)
ainformation.append(
"{bold}\
{overall_label: >{overall_label_length}} \
{overall_label: <{overall_label_length}} \
{overall: <{overall_length}} \
{bandwidth_label: >{bandwidth_label_length}} \
{cpu_label: <{cpu_label_length}} \
{cpu: <{cpu_length}} \
{memory_label: <{memory_label_length}} \
{memory: <{memory_length}} \
{network_label: <{network_label_length}} \
{network: <{network_length}} \
{bandwidth_label: <{bandwidth_label_length}} \
{bandwidth: <{bandwidth_length}} \
{iops: <{iops_length}} \
{latency_label: <{latency_label_length}} \
{latency: <{latency_length}} \
{latency_bucket_label: >{latency_bucket_label_length}} \
{latency_bucket_label: <{latency_bucket_label_length}} \
{latency_bucket}\
{end_bold}".format(
bold="",
@ -2603,12 +2711,24 @@ def format_info_benchmark_json(config, benchmark_information):
overall_label_length=overall_label_length,
overall=overall_data[idx],
overall_length=overall_column_length,
cpu_label=cpu_label[idx],
cpu_label_length=cpu_label_length,
cpu=cpu_data[idx],
cpu_length=cpu_column_length,
memory_label=memory_label[idx],
memory_label_length=memory_label_length,
memory=memory_data[idx],
memory_length=memory_column_length,
network_label=network_label[idx],
network_label_length=network_label_length,
network=network_data[idx],
network_length=network_column_length,
bandwidth_label=bandwidth_label[idx],
bandwidth_label_length=bandwidth_label_length,
bandwidth=bandwidth_data[idx],
bandwidth_length=bandwidth_column_length,
iops=iops_data[idx],
iops_length=iops_column_length,
latency_label=lat_label[idx],
latency_label_length=latency_label_length,
latency=lat_data[idx],
latency_length=latency_column_length,
latency_bucket_label=lat_bucket_label[idx],
@ -2617,4 +2737,4 @@ def format_info_benchmark_json(config, benchmark_information):
)
)
return "\n".join(ainformation)
return "\n".join(ainformation) + "\n"

View File

@ -19,31 +19,34 @@
#
###############################################################################
import os
import psutil
import psycopg2
import psycopg2.extras
import subprocess
from datetime import datetime
from json import loads, dumps
from time import sleep
from daemon_lib.celery import start, fail, log_info, update, finish
import daemon_lib.common as pvc_common
import daemon_lib.ceph as pvc_ceph
# Define the current test format
TEST_FORMAT = 1
TEST_FORMAT = 2
# We run a total of 8 tests, to give a generalized idea of performance on the cluster:
# 1. A sequential read test of 8GB with a 4M block size
# 2. A sequential write test of 8GB with a 4M block size
# 3. A random read test of 8GB with a 4M block size
# 4. A random write test of 8GB with a 4M block size
# 5. A random read test of 8GB with a 256k block size
# 6. A random write test of 8GB with a 256k block size
# 7. A random read test of 8GB with a 4k block size
# 8. A random write test of 8GB with a 4k block size
# 1. A sequential read test of 64GB with a 4M block size
# 2. A sequential write test of 64GB with a 4M block size
# 3. A random read test of 64GB with a 4M block size
# 4. A random write test of 64GB with a 4M block size
# 5. A random read test of 64GB with a 256k block size
# 6. A random write test of 64GB with a 256k block size
# 7. A random read test of 64GB with a 4k block size
# 8. A random write test of 64GB with a 4k block size
# Taken together, these 8 results should give a very good indication of the overall storage performance
# for a variety of workloads.
test_matrix = {
@ -100,7 +103,7 @@ test_matrix = {
# Specify the benchmark volume name and size
benchmark_volume_name = "pvcbenchmark"
benchmark_volume_size = "8G"
benchmark_volume_size = "64G"
#
@ -226,7 +229,7 @@ def cleanup_benchmark_volume(
def run_benchmark_job(
test, pool, job_name=None, db_conn=None, db_cur=None, zkhandler=None
config, test, pool, job_name=None, db_conn=None, db_cur=None, zkhandler=None
):
test_spec = test_matrix[test]
log_info(None, f"Running test '{test}'")
@ -256,24 +259,155 @@ def run_benchmark_job(
)
log_info(None, "Running fio job: {}".format(" ".join(fio_cmd.split())))
retcode, stdout, stderr = pvc_common.run_os_command(fio_cmd)
# Run the fio command manually instead of using our run_os_command wrapper
# This will help us gather statistics about this node while it's running
process = subprocess.Popen(
fio_cmd.split(),
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
text=True,
)
# Wait 15 seconds for the test to start
log_info(None, "Waiting 15 seconds for test resource stabilization")
sleep(15)
# Set up function to get process CPU utilization by name
def get_cpu_utilization_by_name(process_name):
cpu_usage = 0
for proc in psutil.process_iter(["name", "cpu_percent"]):
if proc.info["name"] == process_name:
cpu_usage += proc.info["cpu_percent"]
return cpu_usage
# Set up function to get process memory utilization by name
def get_memory_utilization_by_name(process_name):
memory_usage = 0
for proc in psutil.process_iter(["name", "memory_percent"]):
if proc.info["name"] == process_name:
memory_usage += proc.info["memory_percent"]
return memory_usage
# Set up function to get network traffic utilization in bps
def get_network_traffic_bps(interface, duration=1):
# Get initial network counters
net_io_start = psutil.net_io_counters(pernic=True)
if interface not in net_io_start:
return None, None
stats_start = net_io_start[interface]
bytes_sent_start = stats_start.bytes_sent
bytes_recv_start = stats_start.bytes_recv
# Wait for the specified duration
sleep(duration)
# Get final network counters
net_io_end = psutil.net_io_counters(pernic=True)
stats_end = net_io_end[interface]
bytes_sent_end = stats_end.bytes_sent
bytes_recv_end = stats_end.bytes_recv
# Calculate bytes per second
bytes_sent_per_sec = (bytes_sent_end - bytes_sent_start) / duration
bytes_recv_per_sec = (bytes_recv_end - bytes_recv_start) / duration
# Convert to bits per second (bps)
bits_sent_per_sec = bytes_sent_per_sec * 8
bits_recv_per_sec = bytes_recv_per_sec * 8
bits_total_per_sec = bits_sent_per_sec + bits_recv_per_sec
return bits_sent_per_sec, bits_recv_per_sec, bits_total_per_sec
log_info(None, f"Starting system resource polling for test '{test}'")
storage_interface = config["storage_dev"]
total_cpus = psutil.cpu_count(logical=True)
ticks = 1
osd_cpu_utilization = 0
osd_memory_utilization = 0
mon_cpu_utilization = 0
mon_memory_utilization = 0
total_cpu_utilization = 0
total_memory_utilization = 0
storage_sent_bps = 0
storage_recv_bps = 0
storage_total_bps = 0
while process.poll() is None:
# Do collection of statistics like network bandwidth and cpu utilization
current_osd_cpu_utilization = get_cpu_utilization_by_name("ceph-osd")
current_osd_memory_utilization = get_memory_utilization_by_name("ceph-osd")
current_mon_cpu_utilization = get_cpu_utilization_by_name("ceph-mon")
current_mon_memory_utilization = get_memory_utilization_by_name("ceph-mon")
current_total_cpu_utilization = psutil.cpu_percent(interval=1)
current_total_memory_utilization = psutil.virtual_memory().percent
(
current_storage_sent_bps,
current_storage_recv_bps,
current_storage_total_bps,
) = get_network_traffic_bps(storage_interface)
# Recheck if the process is done yet; if it's not, we add the values and increase the ticks
# This helps ensure that if the process finishes earlier than the longer polls above,
# this particular tick isn't counted which can skew the average
if process.poll() is None:
osd_cpu_utilization += current_osd_cpu_utilization
osd_memory_utilization += current_osd_memory_utilization
mon_cpu_utilization += current_mon_cpu_utilization
mon_memory_utilization += current_mon_memory_utilization
total_cpu_utilization += current_total_cpu_utilization
total_memory_utilization += current_total_memory_utilization
storage_sent_bps += current_storage_sent_bps
storage_recv_bps += current_storage_recv_bps
storage_total_bps += current_storage_total_bps
ticks += 1
# Get the 1-minute load average and CPU utilization, which covers the test duration
load1, _, _ = os.getloadavg()
load1 = round(load1, 2)
# Calculate the average CPU utilization values over the runtime
# Divide the OSD and MON CPU utilization by the total number of CPU cores, because
# the total is divided this way
avg_osd_cpu_utilization = round(osd_cpu_utilization / ticks / total_cpus, 2)
avg_osd_memory_utilization = round(osd_memory_utilization / ticks, 2)
avg_mon_cpu_utilization = round(mon_cpu_utilization / ticks / total_cpus, 2)
avg_mon_memory_utilization = round(mon_memory_utilization / ticks, 2)
avg_total_cpu_utilization = round(total_cpu_utilization / ticks, 2)
avg_total_memory_utilization = round(total_memory_utilization / ticks, 2)
avg_storage_sent_bps = round(storage_sent_bps / ticks, 2)
avg_storage_recv_bps = round(storage_recv_bps / ticks, 2)
avg_storage_total_bps = round(storage_total_bps / ticks, 2)
stdout, stderr = process.communicate()
retcode = process.returncode
resource_data = {
"avg_cpu_util_percent": {
"total": avg_total_cpu_utilization,
"ceph-mon": avg_mon_cpu_utilization,
"ceph-osd": avg_osd_cpu_utilization,
},
"avg_memory_util_percent": {
"total": avg_total_memory_utilization,
"ceph-mon": avg_mon_memory_utilization,
"ceph-osd": avg_osd_memory_utilization,
},
"avg_network_util_bps": {
"sent": avg_storage_sent_bps,
"recv": avg_storage_recv_bps,
"total": avg_storage_total_bps,
},
}
try:
jstdout = loads(stdout)
if retcode:
raise
except Exception:
cleanup(
job_name,
db_conn=db_conn,
db_cur=db_cur,
zkhandler=zkhandler,
)
fail(
None,
f"Failed to run fio test '{test}': {stderr}",
)
return None, None
return jstdout
return resource_data, jstdout
def worker_run_benchmark(zkhandler, celery, config, pool):
@ -358,7 +492,8 @@ def worker_run_benchmark(zkhandler, celery, config, pool):
total=total_stages,
)
results[test] = run_benchmark_job(
resource_data, fio_data = run_benchmark_job(
config,
test,
pool,
job_name=job_name,
@ -366,6 +501,25 @@ def worker_run_benchmark(zkhandler, celery, config, pool):
db_cur=db_cur,
zkhandler=zkhandler,
)
if resource_data is None or fio_data is None:
cleanup_benchmark_volume(
pool,
job_name=job_name,
db_conn=db_conn,
db_cur=db_cur,
zkhandler=zkhandler,
)
cleanup(
job_name,
db_conn=db_conn,
db_cur=db_cur,
zkhandler=zkhandler,
)
fail(
None,
f"Failed to run fio test '{test}'",
)
results[test] = {**resource_data, **fio_data}
# Phase 3 - cleanup
current_stage += 1