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Apache CXF SOAP Performance

You know what would be fun? Attempting to run 1 Billion soap invocations through CXF in 8 hours!

The Setup

Hardware

For our lab test we’ll be using the following hardware:

  • Dell PowerEdge R250 (Client Host)

    • Intel Xeon E-2378 (8c, 16t)

    • 128 GB DDR4 RAM

    • 1 Gigabit Ethernet

    • Ubuntu 22.04 LTS

  • Raptor Blackbird (Server Host)

    • IBM POWER9 v2 SMT4 Sforza (8c, 32 t)

    • 128 GB DDR4 RAM

    • 1 Gigabit Ethernet

    • CentOS Stream 9

The machines are co-located on the same switch, reducing the number of packet hops.

The Performance Harness

As of CXF 4.1 the binary distribution will contain a set of performance scripts in the samples folder. Options to test JAX-WS and JAX-RS are present.

Perf

At its core, the performance harness is a client-server request/response automation. On startup the script initializes and warms up the JVM for executing mass calls.

How it works

The client host runs a number of threads, each running a CXF client which invokes up the server host. For JAX-WS testing, we have a choice of invoking on DocPortType as String, Base64, or as a ComplexType. The client side harness will run N threads for M invocations for a duration of time.

Soap

Once the time duration has been met, it will cease the executing clients, and tabulate the total invocations.

Theory Time!

Given our goal of achieving 1 Billion invocations in an eight hour period, lets take a look at what velocity our clients will need to maintain to collectively reach our goal line. Before setting up a full testing run, we run a 60 second quick test to see what throughput we might expect to see on our lab hardware.

Clients Target Invocations/Second per client Quick Test (Reality) per client
1 34722.2 1486.87
8 4340.27 1429.85
16 2170.14 1153.35
32 1085.07 911.17
64 542.53 523.5
100 347.2 347.6
128 271.27 269.02

As the above table illustrates, we either need to have each client running at a high velocity OR run many clients at a lower velocity to reach our goal line.

Its clear that a single threaded client is not going to achieve our throughput.

Its also clear that as the number of threads increase, the throughput per thread decreases on this system.

The trend line suggests that a setting nearing 100 would be our best bet for extended testing.

Lets get this test case running

To run the performance harness we change directory into samples. Within this folder we’ll build the base harness and the various scenarios.

On each host we will open a terminal to the CXF distribution samples folder.

We’ll ensure we have JAVA_HOME and MAVEN_HOME environment variables set.

For our first run we’ll use Adoptium Eclipse Temurin 17 LTS as Client and Server side JVM.

We set our Heap size to 8GB.

MAVEN_OPTS="-Xms32m -Xmx8192m -Dmaven.artifact.threads=5"
$ cd samples
$ mvn clean install
$ cd performance/soap_http_doc_lit

On the Server host we’ll execute the following maven profile:

$mvn -Pserver -Dhost=0.0.0.0 -Dprotocol=http

On the Client host we’ll execute the client profile, supplying instructions to use HTTP protocol, echoComplexTypeDoc operation, use 100 threads (simulate 100 clients), over a time of 8 hours (60 x 60 x 8 = 28800 seconds).

$mvn -Pclient -Dhost=192.168.50.154 -Dprotocol=http -Doperation=echoComplexTypeDoc -Dthreads=100 -Dtime=28800

For the purposes of our lab test, we’ll allow the suite to execute without added agents to the JVM.

LAB TIME!

First Run

Our first iteration of this test resulted in 953,428,857 invocations in 8 hours…​ 47 Million less than our goal of 1 Billion.

=============Overall Test Result============
Overall Throughput: echoComplexTypeDoc 331.05150369031566 (invocations/sec)
Overall AVG. response time: 3.0206780179299737 (ms)
9.53428857E8 (invocations), running 2880001.5900000003 (sec)
============================================

Second Run

On our second run we re-configure our JAVA_HOME to use Adoptium Eclipse Temurin 21 LTS and pass in the following arguments to the JVMs:

$mvn -Pserver -Dhost=0.0.0.0 -Dprotocol=http
$mvn -Pclient -Dhost=192.168.50.154 -Dprotocol=http -Doperation=echoComplexTypeDoc -Dthreads=100 -Dtime=28800

This resulted in:

=============Overall Test Result============
Overall Throughput: echoComplexTypeDoc 320.70739201496815 (invocations/sec)
Overall AVG. response time: 3.118107112271761 (ms)
9.23639228E8 (invocations), running 2880006.0459999987 (sec)
============================================

Third Run

The first two test iterations used default CXF and JVM properties. On our third run lets pass in a simple CXF configuration to Client and Server JVMs to instruct them enable HTTP2 & AsyncHTTPConduit.

client.xml

<beans xmlns="http://www.springframework.org/schema/beans"
    xmlns:cxf="http://cxf.apache.org/core"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
    xsi:schemaLocation="http://cxf.apache.org/core
    http://cxf.apache.org/schemas/core.xsd
    http://www.springframework.org/schema/beans
    http://www.springframework.org/schema/beans/spring-beans.xsd">

    <cxf:bus>
        <cxf:properties>
            <entry key="use.async.http.conduit" value="true"/>
            <entry key="org.apache.cxf.transports.http2.enabled" value="true"/>
        </cxf:properties>
    </cxf:bus>

</beans>

server.xml

<beans xmlns="http://www.springframework.org/schema/beans"
    xmlns:cxf="http://cxf.apache.org/core"
    xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
    xsi:schemaLocation="http://cxf.apache.org/core
    http://cxf.apache.org/schemas/core.xsd
    http://www.springframework.org/schema/beans
    http://www.springframework.org/schema/beans/spring-beans.xsd">

    <cxf:bus>
        <cxf:properties>
            <entry key="use.async.http.conduit" value="true"/>
            <entry key="org.apache.cxf.transports.http2.enabled" value="true"/>
        </cxf:properties>
    </cxf:bus>

</beans>

Before we can execute this iteration, we’ll need to update the pom.xml to include a few more dependencies:

<dependency>
    <groupId>org.apache.cxf</groupId>
    <artifactId>cxf-rt-transports-http-jetty</artifactId>
    <version>${project.version}</version>
</dependency>
<dependency>
    <groupId>org.springframework</groupId>
    <artifactId>spring-beans</artifactId>
    <version>6.1.11</version>
</dependency>
<dependency>
    <groupId>org.springframework</groupId>
    <artifactId>spring-context</artifactId>
    <version>6.1.11</version>
</dependency>
<dependency>
    <groupId>org.eclipse.jetty.http2</groupId>
    <artifactId>jetty-http2-server</artifactId>
    <version>${cxf.jetty12.version}</version>
</dependency>

Reusing Adoptium Eclipse Temurin 21 LTS, we pass the following arguments to the JVMs:

$mvn -Pserver -Dhost=0.0.0.0 -Dprotocol=http -Dcfg=client.xml
$mvn -Pclient -Dhost=192.168.50.154 -Dprotocol=http -Doperation=echoComplexTypeDoc -Dthreads=100 -Dtime=28800 -Dcfg=server.xml

When the server side starts up, we’ll observe h2c in the logging.

INFO: Started ServerConnector@9f73b40{HTTP/1.1, (http/1.1, h2c)}{localhost:8080}

This resulted in:

=============Overall Test Result============
Overall Throughput: echoComplexTypeDoc 320.834130463552 (invocations/sec)
Overall AVG. response time: 3.116875372813878 (ms)
9.24006644E8 (invocations), running 2880013.553 (sec)
============================================

Fourth Run

We do not appear to be achieving the theoretical velocity our quick tests suggested, lets see if GC is our bottleneck.

For this run we return to Java 17, and switch our Client Xmx setting to 100GB. The extra heap space may help reduce runtime GC.

MAVEN_OPTS="-Xms32m -Xmx102400m -Dmaven.artifact.threads=5"
$mvn -Pserver -Dhost=0.0.0.0 -Dprotocol=http
$mvn mvn -Pclient -Dhost=192.168.50.154 -Dprotocol=http -Doperation=echoComplexTypeDoc -Dthreads=100 -Dtime=28800

This resulted in:

=============Overall Test Result============
Overall Throughput: echoComplexTypeDoc 334.5341555307743 (invocations/sec)
Overall AVG. response time: 2.9892313937672315 (ms)
9.63461638E8 (invocations), running 2880009.7749999994 (sec)
============================================

Fifth Run

Time for more JVM tuning. This time we’ll reduce memory resizing by equalizing XMS and XMX settings, and relax G1GC soft limits. These settings will be placed on Client and Server side.

MAVEN_OPTS="-Xms102400m -Xmx102400m -Dmaven.artifact.threads=5 -XX:MaxGCPauseMillis=400 -XX:+ParallelRefProcEnabled"
$mvn -Pserver -Dhost=0.0.0.0 -Dprotocol=http
$mvn mvn -Pclient -Dhost=192.168.50.154 -Dprotocol=http -Doperation=echoComplexTypeDoc -Dthreads=100 -Dtime=28800

This resulted in:

=============Overall Test Result============
Overall Throughput: echoComplexTypeDoc 345.9386518961459 (invocations/sec)
Overall AVG. response time: 2.890685948270994 (ms)
9.96304924E8 (invocations), running 2880004.644000001 (sec)
============================================

Sixth Run

Extend GC timing by 100ms.

MAVEN_OPTS="-Xms102400m -Xmx102400m -Dmaven.artifact.threads=5 -XX:MaxGCPauseMillis=500 -XX:+ParallelRefProcEnabled"
$mvn -Pserver -Dhost=0.0.0.0 -Dprotocol=http
$mvn mvn -Pclient -Dhost=192.168.50.154 -Dprotocol=http -Doperation=echoComplexTypeDoc -Dthreads=100 -Dtime=28800

This resulted in:

=============Overall Test Result============
Overall Throughput: echoComplexTypeDoc 346.62366823033824 (invocations/sec)
Overall AVG. response time: 2.884973219242145 (ms)
9.98279255E8 (invocations), running 2880008.9159999997 (sec)
============================================

Seventh Run

Extend GC timing by 100ms, and an extra 10 GB on the Heap.

MAVEN_OPTS="-Xms112640m -Xmx112640m -Dmaven.artifact.threads=5 -XX:MaxGCPauseMillis=600 -XX:+ParallelRefProcEnabled"
$mvn -Pserver -Dhost=0.0.0.0 -Dprotocol=http
$mvn mvn -Pclient -Dhost=192.168.50.154 -Dprotocol=http -Doperation=echoComplexTypeDoc -Dthreads=100 -Dtime=28800

This resulted in:

=============Overall Test Result============
Overall Throughput: echoComplexTypeDoc 348.5338799400768 (invocations/sec)
Overall AVG. response time: 2.86916152935241 (ms)
1.003791036E9 (invocations), running 2880038.624 (sec)
============================================

Results and Conclusion

Lets recap:

Our aim is to meet or exceed 347.2 invocations per second per client on average over a time of 8 hours. Each of our test iterations are summarized below.

Iteration JVM Throughput (invocations/sec) Total Invocations in 8 Hours Notes
1 Adoptium 17 331.0 953,428,857 Default Bus, Client & Server 8GB heap.
2 Adoptium 21 320.7 923,639,228 Default Bus, Client & Server 8GB heap.
3 Adoptium 21 320.8 924,006,644 HTTP2 enabled, Client & Server 8GB heap.
4 Adoptium 17 334.5 963,461,638 Default Bus, Client 100GB heap, Server 8GB heap.
5 Adoptium 17 345.9 996,304,924 Default Bus, Client and Server side JVM tuning.
6 Adoptium 17 346.6 998,279,255 100ms more lax GC than run 5.
7 Adoptium 17 348.5 1,003,791,036 200ms more lax GC than run 5. 110GB heaps!

Our calculations suggested that 100 client threads could achieve 1 Billion invocations in 8 hours on our lab hardware. Testing data however shows that over time our initial rates slow down, missing our objective by 5 to 8%. Surprisingly, Java 21 fared poorer than Java 17 runs.

When we began providing additional heap space to Client & Server, relaxing Max GC pause times, our throughput improved.

On our seventh iteration we achieved our goal! The key to success was ensuring GC pause times was kept to minimum.

Interesting Notes

During seventh test iteration zero client or server side errors were recorded.

Perf

During the iteration approximately 2 TiB (~275 GB) of data was transferred between client and server.

Future Considerations

Now that we’ve established the system can handle 1 Billion invocations in an 8-hour period we can consider how to do so while using less resources.

  • Smaller Heap

  • G1GC more tuning

  • ZGC w/ tuning

  • Retest Java 21 with iteration 7’s settings.

About the Authors

Jamie Goodyear

Reaching Out

Please do not hesitate to reach out with questions and comments, here on the Blog, or through the Savoir Technologies website at https://www.savoirtech.com.

With Thanks

Thank you to the Apache CXF community.

(c) 2024 Savoir Technologies

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