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runRestCRUD.py
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runRestCRUD.py
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# Python script to run RestCRUD app in Liberty
import datetime # for datetime.datetime.now()
import logging # https://www.machinelearningplus.com/python/python-logging-guide/
import math
import os # for environment variables
import re # for regular expressions
import shlex, subprocess
import sys # for number of arguments
import time # for sleep
# Set level to level=logging.DEBUG, level=logging.INFO or level=WARNING reduced level of verbosity
logging.basicConfig(level=logging.INFO, format='%(asctime)s :: %(levelname)s :: %(message)s',)
################### Benchmark configuration #################
doColdRun = True # when True we clear the SCC before the first run. Set it to False for embedded SCC
AppServerHost = "localhost" # the host where the app server is running
AppServerPort = 9080
AppServerLocation = "/opt/IBM/OL-23.0.0.3/liberty"
applicationName = "crudserver"
AppServerAffinity = "taskset 0x3"
applicationLocation= f"{AppServerLocation}/usr/servers/{applicationName}"
logFile = f"{applicationLocation}/logs/messages.log"
appServerStartCmd = f"{AppServerAffinity} {AppServerLocation}/bin/server run {applicationName}"
appServerStopCmd = f"{AppServerLocation}/bin/server stop {applicationName}"
startupWaitTime = 20 # seconds to wait before checking to see if AppServer is up
############### SCC configuration ###########################
sccDir = f"{AppServerLocation}/usr/servers/.classCache" # Location of the shared class cache
sccDestroyParams = f"-Xshareclasses:cacheDir={sccDir},destroyall"
############### Database configuration #########
dbMachine = "localhost"
dbUsername = "" # To connect to mongoMachine remotely; leave empty to connect without ssh
startDbScript = "/opt/IBM/OL-23.0.0.3/RestCRUD/startPostgressDocker.sh"
dbImage = "docker.io/postgres:10.5"
dbContainerName = "pgdocker"
############### wrk CONFIG ###############
wrkMachine = "localhost"
wrkUsername = "" # To connect to JMeter machine; leave empty to connect without ssh
wrkCmd = f"/opt/IBM/OL-23.0.0.3/RestCRUD/wrk/wrk"
wrkTarget = f"http://{AppServerHost}:{AppServerPort}/crud/fruits"
wrkAffinity = "taskset -c 4-7"
#printRampup = True # If True, print all JMeter throughput values to plot rampup curve
################ Load CONFIG ###############
numRepetitionsOneClient = 0
numRepetitions50Clients = 3
durationOfOneClient = 60 # seconds
durationOfOneRepetition = 180 # seconds
numClients = 10
delayBetweenRepetitions = 10
numMeasurementTrials = 1 # Last N trials are used in computation of throughput
#thinkTime = 0 # ms
############################# END CONFIG ####################################
# ENV VARS to use for all runs
TR_Options=""
jvmOptions = [
"-Xmx1G",
]
jdks = [
#"/home/mpirvu/FullJava19/openj9-openjdk-jdk19/build/linux-x86_64-server-release/images/jdk",
#"/home/mpirvu/sdks/OpenJ9-JDK17-x86-64_linux-20230217-200907"
#"/home/mpirvu/sdks/OpenJ9-JDK20-x86-64_linux-20230428-201845",
"/home/mpirvu/sdks/OpenJ9-JDK20-x86-64_linux-20230503-200927",
#"/home/mpirvu/sdks/OpenJ9-JDK20-x86-64_linux-20230504-201827"
]
def nanmean(myList):
total = 0
numValidElems = 0
for i in range(len(myList)):
if not math.isnan(myList[i]):
total += myList[i]
numValidElems += 1
return total/numValidElems if numValidElems > 0 else math.nan
def nanstd(myList):
total = 0
numValidElems = 0
for i in range(len(myList)):
if not math.isnan(myList[i]):
total += myList[i]
numValidElems += 1
if numValidElems == 0:
return math.nan
if numValidElems == 1:
return 0
else:
mean = total/numValidElems
total = 0
for i in range(len(myList)):
if not math.isnan(myList[i]):
total += (myList[i] - mean)**2
return math.sqrt(total/(numValidElems-1))
def nanmin(myList):
min = math.inf
for i in range(len(myList)):
if not math.isnan(myList[i]) and myList[i] < min:
min = myList[i]
return min
def nanmax(myList):
max = -math.inf
for i in range(len(myList)):
if not math.isnan(myList[i]) and myList[i] > max:
max = myList[i]
return max
def tDistributionValue95(degreeOfFreedom):
if degreeOfFreedom < 1:
return math.nan
#import scipy.stats as stats
# stats.t.ppf(0.975, degreesOfFreedom))
tValues = [12.706, 4.303, 3.182, 2.776, 2.571, 2.447, 2.365, 2.306, 2.262, 2.228,
2.201, 2.179, 2.160, 2.145, 2.131, 2.120, 2.110, 2.101, 2.093, 2.086,
2.080, 2.074, 2.069, 2.064, 2.060, 2.056, 2.052, 2.048, 2.045, 2.042,]
if degreeOfFreedom <= 30:
return tValues[degreeOfFreedom-1]
else:
if degreeOfFreedom <= 60:
return 2.042 - 0.001 * (degreeOfFreedom - 30)
else:
return 1.96
# Confidence intervals tutorial
# mean +- t * std / sqrt(n)
# For 95% confidence interval, t = 1.96 if we have many samples
def meanConfidenceInterval95(myList):
n = len(myList)
if n <= 1:
return math.nan
tvalue = tDistributionValue95(n-1)
avg, stdDev = nanmean(myList), nanstd(myList)
marginOfError = tvalue * stdDev / math.sqrt(n)
return 100.0*marginOfError/avg
def computeStats(myList):
avg = nanmean(myList)
stdDev = nanstd(myList)
min = nanmin(myList)
max = nanmax(myList)
ci95 = meanConfidenceInterval95(myList)
return avg, stdDev, min, max, ci95
def meanLastValues(myList, numLastValues):
assert numLastValues > 0
if numLastValues > len(myList):
numLastValues = len(myList)
return nanmean(myList[-numLastValues:])
def getJavaProcesses():
cmd = "ps -eo pid,cmd --no-headers"
output = subprocess.check_output(shlex.split(cmd), universal_newlines=True)
lines = output.splitlines()
pattern = re.compile("^\s*(\d+)\s+(\S+)")
for line in lines:
m = pattern.match(line)
if m:
pid = m.group(1)
cmd = m.group(2)
if "/bin/java" in cmd:
print("WARNING: Java process still running: {pid} {cmd}".format(pid=pid,cmd=cmd))
def stopContainersFromImage(host, username, imageName):
# Find all running containers from image
remoteCmd = f"docker ps --quiet --filter ancestor={imageName}"
cmd = f"ssh {username}@{host} \"{remoteCmd}\"" if username else remoteCmd
output = subprocess.check_output(shlex.split(cmd), universal_newlines=True)
lines = output.splitlines()
for containerID in lines:
remoteCmd = f"docker stop {containerID}"
cmd = f"ssh {username}@{host} \"{remoteCmd}\"" if username else remoteCmd
logging.debug(f"Stopping container: {cmd}")
output = subprocess.check_output(shlex.split(cmd), universal_newlines=True)
def startDatabase(dbMachine, dbUsername, startDbScript):
remoteCmd = f"{startDbScript}"
cmd = f"ssh {dbUsername}@{dbMachine} \"{remoteCmd}\"" if dbUsername else remoteCmd
logging.info("Starting database: {cmd}".format(cmd=cmd))
output = subprocess.check_output(shlex.split(cmd), universal_newlines=True)
logging.debug(output)
def stopDatabase(dbMachine, dbUsername):
remoteCmd = f"docker stop {dbContainerName}"
cmd = f"ssh {dbUsername}@{dbMachine} \"{remoteCmd}\"" if dbUsername else remoteCmd
logging.info("Stopping database: {cmd}".format(cmd=cmd))
output = subprocess.check_output(shlex.split(cmd), universal_newlines=True)
logging.debug(output)
# Given a PID, return RSS and peakRSS in MB for the process
def getRss(pid):
_scale = {'kB': 1024, 'mB': 1024*1024, 'KB': 1024, 'MB': 1024*1024}
# get pseudo file /proc/<pid>/status
filename = f"/proc/{pid}/status"
cmd = f"cat {filename}"
try:
s = subprocess.check_output(shlex.split(cmd), universal_newlines=True)
#lines = s.splitlines()
except IOError as ioe:
logging.warning("Cannot open {filename}: {msg}".format(filename=filename,msg=str(ioe)))
return [math.nan, math.nan] # wrong pid?
i = s.index("VmRSS:") # Find the position of the substring
# Take everything from this position till the very end
# Then split the string 3 times, taking first 3 "words" and putting them into a list
tokens = s[i:].split(None, 3)
if len(tokens) < 3:
return [0, 0] # invalid format
rss = float(tokens[1]) * _scale[tokens[2]] / 1048576.0 # convert value to bytes and then to MB
# repeat for peak RSS
i = s.index("VmHWM:")
tokens = s[i:].split(None, 3)
if len(tokens) < 3:
return [0, 0] # invalid format
peakRss = float(tokens[1]) * _scale[tokens[2]] / 1048576.0 # convert value to bytes and then to MB
return [rss, peakRss]
def clearSCC(jdk, sccDestroyParams):
cmd = f"{jdk}/bin/java {sccDestroyParams}"
logging.info("Clearing SCC with cmd: {cmd}".format(cmd=cmd))
try:
output = subprocess.check_output(shlex.split(cmd), universal_newlines=True, stderr=subprocess.STDOUT)
except subprocess.CalledProcessError as e:
# If the SCC does not exist, we get a non-zero return code
output = e.output
except subprocess.SubprocessError as e:
logging.warning("SubprocessError clearing SCC: {e}".format(e=e))
output = str(e)
logging.info(output)
# TODO: make sure the SCC does not exist anymore
def verifyAppserverStarted():
#[5/3/23, 8:27:25:850 PDT] 0000002a com.ibm.ws.kernel.feature.internal.FeatureManager A CWWKF0011I: The crudserver server is ready to run a smarter planet. The crudserver server started in 48.607 seconds.
# Look for "server is ready to run a smarter planet" in messages.log
errPattern = re.compile('.+\[ERROR')
readyPattern = re.compile(".+is ready to run a smarter planet")
for iter in range(20):
with open(logFile) as f:
for line in f:
m = errPattern.match(line)
if m:
logging.warning("AppServer {applicationName} errored while starting:\n\t {line}").format(applicationName=applicationName,line=line)
return False
m1 = readyPattern.match(line)
if m1:
return True # True means success
logging.warning("sleeping 1 sec and trying again")
time.sleep(1) # wait 1 sec and try again
return False # False means failure
def killAppServerIfRunning(childProcess):
if childProcess.poll() is None: # Still running
logging.error("Killing AppServer")
childProcess.kill()
childProcess.wait()
def startAppServer(jdk, jvmArgs):
logging.info("Starting AppServer with command: {appServerStartCmd}".format(appServerStartCmd=appServerStartCmd))
myEnv = os.environ.copy()
myEnv["JAVA_HOME"] = jdk
myEnv["JVM_ARGS"] = jvmArgs
myEnv["TR_PrintCompTime"] = "1"
# Fork a process and run in background
childProcess = subprocess.Popen(shlex.split(appServerStartCmd), env=myEnv, universal_newlines=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
logging.debug(f"Waiting for {startupWaitTime} sec for the AppServer to start")
time.sleep(startupWaitTime)
if childProcess.poll() is None: # It's running
logging.debug("AppServer started with pid {pid}".format(pid=childProcess.pid))
# Verify that server started correctly
startOK = verifyAppserverStarted()
if not startOK:
logging.error("AppServer did not start correctly")
killAppServerIfRunning(childProcess)
return None
logging.debug("AppServer started OK")
return childProcess
def stopAppServer(childProcess):
# Stop the AppServer
logging.info("Stopping AppServer")
if childProcess.poll() is None: # Still running
output = subprocess.check_output(shlex.split(appServerStopCmd))
logging.debug(output)
time.sleep(1) # Allow some quiesce time
else:
logging.error("AppServer is not running")
killAppServerIfRunning(childProcess)
'''
Extract the start-up timestamp from logFile and compute start-up time of AppServer.
Parameters: appServerStartTimeMs - time in ms when AppServer was started (only minutes, seconds and millisec are used)
'''
def getStartupTime(appServerStartTimeMs):
# [10/29/20, 23:18:49:468 UTC] 00000024 com.ibm.ws.kernel.feature.internal.FeatureManager A CWWKF0011I: The defaultServer server is ready to run a smarter planet. The defaultServer server started in 2.885 seconds.
readyPattern = re.compile('\[(.+)\] .+is ready to run a smarter planet')
dateTimePattern = re.compile("(\d+)\/(\d+)\/(\d+),? (\d+):(\d+):(\d+):(\d+) (.+)") # [10/29/20, 17:53:03:894 EDT]
try:
with open(logFile) as f:
for line in f:
m = readyPattern.match(line)
if m:
timestamp = m.group(1)
m1 = dateTimePattern.match(timestamp)
if m1:
# Ignore the hour to avoid time zone issues
endTime = (int(m1.group(5)) * 60 + int(m1.group(6)))*1000 + int(m1.group(7))
if endTime < appServerStartTimeMs:
endTime = endTime + 3600*1000 # add one hour
return float(endTime - appServerStartTimeMs)
else:
logging.error("Liberty timestamp is in the wrong format: {timestamp}".format(timestamp=timestamp))
return math.nan
except FileNotFoundError:
logging.error("Cannot find log file: {logFile}".format(logFile=logFile))
except IOError as e:
print("I/O error({num}): {msg}".format(num=e.errno, msg=e.strerror))
logging.error("Cannot read start-up time. AppServer may not have started correctly")
return math.nan
def getCompCPU(childProcess):
outs, errs = childProcess.communicate()
lines = errs.splitlines()
threadTime = 0.0
compTimePattern = re.compile("^Time spent in compilation thread =(\d+) ms")
for line in lines:
m = compTimePattern.match(line)
if m:
threadTime += float(m.group(1))
return threadTime/1000.0 if threadTime > 0 else math.nan
def applyLoadGetThroughput(duration, numClients):
remoteCmd = f"{wrkAffinity} {wrkCmd} --threads {numClients} --connections {numClients} --duration {duration}s {wrkTarget}"
cmd = f"ssh {wrkUsername}@{wrkMachine} \"{remoteCmd}\"" if wrkUsername else remoteCmd
logging.info("Apply load: {cmd}".format(cmd=cmd))
output = subprocess.check_output(shlex.split(cmd), universal_newlines=True)
#Running 5m test @ http://localhost:9080/crud/fruits
#10 threads and 10 connections
#Thread Stats Avg Stdev Max +/- Stdev
#Latency 7.16ms 48.48ms 1.39s 99.21%
#Req/Sec 434.50 220.28 0.88k 68.14%
#1291284 requests in 5.00m, 256.14MB read
#Requests/sec: 4302.85
#Transfer/sec: 0.85MB
pattern = re.compile('Requests/sec:\s+(\d+\.\d+)')
lines = output.splitlines()
for line in lines:
m = pattern.match(line)
if m:
return float(m.group(1))
logging.debug(output)
return math.nan # Error case
def runPhase(duration, numClients):
logging.debug("Sleeping for {n} sec before applying load".format(n=delayBetweenRepetitions))
time.sleep(delayBetweenRepetitions)
return applyLoadGetThroughput(duration, numClients)
def runBenchmarkOnce(jdk, jvmArgs):
# must remove the logFile before starting the AppServer
if os.path.exists(logFile):
os.remove(logFile)
# Will apply load in small bursts
maxPulses = numRepetitionsOneClient + numRepetitions50Clients
thrResults = [math.nan for i in range(maxPulses)] # np.full((maxPulses), fill_value=np.nan, dtype=np.float)
rss, peakRss, cpu, startupTime = math.nan, math.nan, math.nan, math.nan
#restoreDatabase(mongoMachine, mongoUsername, mongoImage)
crtTime = datetime.datetime.now()
startTimeMs = (crtTime.minute * 60 + crtTime.second)*1000 + crtTime.microsecond//1000
childProcess = startAppServer(jdk=jdk, jvmArgs=jvmArgs)
if childProcess is None: # Failed to start properly
return thrResults, rss, peakRss, cpu, startupTime
# Compute AppServer start-up time
startupTime = getStartupTime(startTimeMs)
for pulse in range(maxPulses):
if pulse >= numRepetitionsOneClient:
cli = numClients
duration = durationOfOneRepetition
else:
cli = 1
duration = durationOfOneClient
thrResults[pulse] = runPhase(duration, cli)
logging.info("Throughput={thr}".format(thr=thrResults[pulse]))
# Collect RSS at end of run
if childProcess.poll() is None: # Still running
rss, peakRss = getRss(pid=childProcess.pid)
# Stop the AppServer
stopAppServer(childProcess)
# Must compute the CPU after stopping the AppServer
cpu = getCompCPU(childProcess)
# return throughput as an array of throughput values for each burst and also the RSS, PeakRSS and CPU
return thrResults, rss, peakRss, cpu, startupTime
def runBenchmarkIteratively(numIter, jdk, javaOpts):
# Initialize stats; 2D array of throughput results
numPulses = numRepetitionsOneClient + numRepetitions50Clients
thrResults = [] # List of lists
rssResults = [] # Just a list
cpuResults = []
startupResults = []
# clear SCC if needed (by destroying the SCC volume)
if doColdRun:
clearSCC(jdk, sccDestroyParams)
for iter in range(numIter):
thrList, rss, peakRss, cpu, startupTime = runBenchmarkOnce(jdk, javaOpts)
lastThr = meanLastValues(thrList, numMeasurementTrials) # average for last N pulses
print(f"Run {iter}: Thr={lastThr:6.1f} RSS={rss:6.1f} MB PeakRSS={peakRss:6.1f} MB CPU={cpu:4.1f} sec Startup={startupTime:5.0f}".
format(lastThr=lastThr, rss=rss, peakRss=peakRss, cpu=cpu, startupTime=startupTime))
thrResults.append(thrList) # copy all the pulses
rssResults.append(rss)
cpuResults.append(cpu)
startupResults.append(startupTime)
# print stats
print(f"\nResults for jdk: {jdk} and opts: {javaOpts}")
thrAvgResults = [math.nan for i in range(numIter)] # np.full((numIter), fill_value=np.nan, dtype=np.float)
for iter in range(numIter):
print("Run", iter, end="")
for pulse in range(numPulses):
print("\t{thr:7.1f}".format(thr=thrResults[iter][pulse]), end="")
thrAvgResults[iter] = meanLastValues(thrResults[iter], numMeasurementTrials) #np.nanmean(thrResults[iter][-numMeasurementTrials:])
print("\tAvg={thr:7.1f} RSS={rss:7.0f} MB CompCPU={cpu:5.1f} sec Startup={startup:5.0f} ms".
format(thr=thrAvgResults[iter], rss=rssResults[iter], cpu=cpuResults[iter], startup=startupResults[iter]))
verticalAverages = [] #verticalAverages = np.nanmean(thrResults, axis=0)
for pulse in range(numPulses):
total = 0
numValidEntries = 0
for iter in range(numIter):
if not math.isnan(thrResults[iter][pulse]):
total += thrResults[iter][pulse]
numValidEntries += 1
verticalAverages.append(total/numValidEntries if numValidEntries > 0 else math.nan)
print("Avg:", end="")
for pulse in range(numPulses):
print("\t{thr:7.1f}".format(thr=verticalAverages[pulse]), end="")
print("\tAvg={avgThr:7.1f} RSS={rss:7.0f} MB CompCPU={cpu:5.1f} sec Startup={startup:5.0f} ms".
format(avgThr=nanmean(thrAvgResults), rss=nanmean(rssResults), cpu=nanmean(cpuResults), startup=nanmean(startupResults)))
# Throughput stats
avg, stdDev, min, max, ci95 = computeStats(thrAvgResults)
print("Throughput stats: Avg={avg:7.1f} StdDev={stdDev:7.1f} Min={min:7.1f} Max={max:7.1f} Max/Min={maxmin:7.1f} CI95={ci95:7.1f}%".
format(avg=avg, stdDev=stdDev, min=min, max=max, maxmin=max/min, ci95=ci95))
def cleanup():
stopContainersFromImage(dbMachine, dbUsername, dbImage)
# CWWKE0029E: An instance of server crudserver is already running.
getJavaProcesses()
############################ MAIN ##################################
if len(sys.argv) < 2:
print ("Program must have an argument: the number of iterations\n")
sys.exit(-1)
# Clean-up from a previous possible bad run
cleanup()
# Database needs to be started only once
startDatabase(dbMachine, dbUsername, startDbScript)
if doColdRun:
print("Will do a cold run before each set")
for jvmOpts in jvmOptions:
for jdk in jdks:
runBenchmarkIteratively(numIter=int(sys.argv[1]), jdk=jdk, javaOpts=jvmOpts)
# Stop the database
stopDatabase(dbMachine, dbUsername)