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Stomp Benchmark

A benchmarking tool for Stomp servers.

Build Prep

  • Install sbt 0.7.7 and follow the setup instructions but instead of setting up the sbt script to use sbt-launch.jar "$@" please use sbt-launch.jar "$*" instead.

  • run: sbt update in the stomp-benchmark directory

Running the Benchmark

The benchmark assumes that a Stomp 1.0 server is running on the local host on port 61613. Use the sbt run command to execute the benchmark. Run sbt run --help to get a listing of all the command line arguments that the benchmark supports.

For each broker you are benchmarking you will typically execute:

sbt run reports/foo-3.2.json

The benchmarking tool will then execute a large number of predefined usage scenarios and gather the performance metrics for each. Those metrics will get stored in a reports/foo-3.2.json file.

Updating the Report

The reports/report.html file can load and display the results of multiple benchmark runs. You can updated which benchmark results are displayed by the report.html by editing it and updating to the line which defines the products variable (around line 34).

  var products = [
    'apollo-1.0-SNAPSHOT', 
    'activemq-5.4.2'
  ];

Note: To display the results of reports/report.html, first you need to serve all the files from the same domain. In google chrome, if you use file:///, the same origin policy wont allow to load the results. You can relax that restriction in Chrome by starting it with the --allow-file-access-from-files argument. On OS X you can do that with the following command: open -a 'Google Chrome' --args --allow-file-access-from-files

Running against Apollo 1.0-beta1

Apollo is a new Stomp based message server from good folks at the Apache ActiveMQ project.

  1. Follow the getting started guide to install, setup, and start the server.

  2. Run the benchmark with the admin credentials. Example:

    sbt run --login admin --passcode password reports/ubuntu-intel-2600k/apollo-1.0-beta1.json

Running against ActiveMQ 5.5.0

ActiveMQ 5.5.0 was the first Stomp Server implementation and as such is sometimes considered to be the reference implementation for Stomp 1.0.

  1. Update the conf/activemq.xml configuration file and add in the Stomp transport connector:

  2. Start the server by running:

    ./bin/activemq console

  3. Run the benchmark using the default options. Example:

    sbt run reports/ubuntu-intel-2600k/activemq-5.5.0.json

Running against HornetQ 2.2.0.Final

HornetQ provides native Stomp 1.0 Support.

  1. Update the config/stand-alone/non-clustered/hornetq-configuration.xml file add stomp acceptor: org.hornetq.core.remoting.impl.netty.NettyAcceptorFactory

  2. Add the queues and topics used by the load test by updating the config/stand-alone/non-clustered/hornetq-jms.xml with the following:

  3. Start the server by running:

    cd bin ./run.sh

  4. Run the benchmark with the --topic-prefix and --queue-prefix options. For example:

    sbt run --topic-prefix=jms.topic. --queue-prefix=jms.queue. reports/ubuntu-intel-2600k/hornetq-2.2.0.Final.json

Running against RabbitMQ 2.4.1

RabbitMQ is an erlang based message server..

  1. Install RabbitMQ and the Stomp Plugin.

  2. Run the benchmark with the default guest credentatials and the --persistent-header option. Example:

    sbt run --login guest --passcode guest reports/ubuntu-intel-2600k/rabbitmq-2.4.1.json

Running a Custom Scenario

If there is a particular scenario you want to manually execute against the broker, you can do so by starting up the Scala interactive interpreter by running sbt console

Then at the console you execute:

scala> val scenario = new com.github.stomp.benchmark.NonBlockingScenario
scenario: com.github.stomp.benchmark.Scenario = 
--------------------------------------
Scenario Settings
--------------------------------------
  host                  = 127.0.0.1
  port                  = 61613
  destination_type      = queue
  destination_count     = 1
  destination_name      = load
  sample_interval (ms)  = 1000

  --- Producer Properties ---
  producers             = 1
  message_size          = 1024
  persistent            = false
  sync_send             = false
  content_length        = true
  producer_sleep (ms)   = 0
  headers               = List()

  --- Consumer Properties ---
  consumers             = 1
  consumer_sleep (ms)   = 0
  ack                   = auto
  selector              = null
  durable               = false

This creates a new NonBlockingScenario object which you can adjust it's properties and then run by executing scenario.run. For example, to run 10 producers and no consumer on a topic, you would update the scenario object properties as follows:

scala> scenario.producers = 10

scala> scenario.consumers = 0

scala> scenario.destination_type = "topic"

When you actually run the scenario, you it will report back the throughput metrics. Press enter to stop the run.

scala> scenario.run                                          
--------------------------------------
Scenario Settings
--------------------------------------
  host                  = 127.0.0.1
  port                  = 61613
  destination_type      = topic
  destination_count     = 1
  destination_name      = load
  sample_interval (ms)  = 1000

  --- Producer Properties ---
  producers             = 10
  message_size          = 1024
  persistent            = false
  sync_send             = false
  content_length        = true
  producer_sleep (ms)   = 0
  headers               = List()

  --- Consumer Properties ---
  consumers             = 0
  consumer_sleep (ms)   = 0
  ack                   = auto
  selector              = null
  durable               = false
--------------------------------------
     Running: Press ENTER to stop
--------------------------------------

Producer total: 345,362, rate: 345,333.688 per second
Producer total: 725,058, rate: 377,908.125 per second
Producer total: 1,104,673, rate: 379,252.813 per second
Producer total: 1,479,280, rate: 373,913.750 per second
... <enter pressed> ...

scala>

Running a custom scenario from XML file

Is it possible to run stomp-benchmark using scenarios defined in XML files providing the option --scenario-file

Also, to be able to display this scenario results using generic_report.html, you need to provide the option --new-json

The scenario file has a "scenarios" root element. Inside, first you define some information that will be displayed on the report. Afterwards, you can place a common section, defining values for some properties to be used in all the scenarios (exceptions can be made, redefining the value in a lower level).

After the common section, you can define one or more groups, and give them a name. Also, it can have a description, and a common section as before.

For simple groups, you can just start defining scenarios.

Then you can define one or more scenarios, and give them a name (internal name) and a label (it will be displayed in the report). You can also define a common section here.

Then, you just have to create one or more clients sections, and define the properties for this clients. All clients in one scenario will run in parallel, but scenarios will run in sequence.

For more complex groups, you can define variables inside a loop section, and give different values to each variable. All the possible combinations of the values for each variable will be generated, and a scenario for each combination will be generated using a scenario template. A scenario template is defined as a normal scenario, but you can use placeholders like ${variable_name} that will be substituted with the real value.

The use of multiple scenario templates in one group with loop variables is supported in stomp-benchmark, but only the first one will be displayed using the generic_report.html. Also note, that if more than 1 variable is defined, a table will be used to display the results. The odd variables (in definition order) will be horizontal headers, the even ones, vertical headers.

The last thing to note, is that for the properties producer_sleep and consumer_sleep, message_size and messages_per_connection, instead of providing a single value, different values or functions for different time ranges can be provided.

In a range, you can specify the value to be used up to the millisecond specified in the end attribute. The end attribute can take positive values, negative values counting from the end, or the word "end". This way, it's possible to write scenarios that are independent from the scenario duration.

For the values, it's possible to provide three different functions: burst (with fast value, slow value, duration of the fast period, and period of bursts), random (with min and max values) and normal(with mean and variance values).

For example you could define:

<producer_sleep>
    <range end="10000">sleep</range>
    <range end="15000">0</range>
    <range end="-10000"><burst fast="0" slow="100" duration="500" period="10000" /></range>
    <range end="end">sleep</range>
</producer_sleep>

That means, form 0ms until 10000ms, don't send any message. From 10000ms to 15000ms, send as fast as possible. From 15000ms to 70000ms, send in bursts, sometimes fast, sometimes slow. The fast value is the sleep time when it's in a burst, the slow value is the sleep time when it isn't in a burst, the duration of the burst, and period is the period of time when, in average, a burst should occur. So, in this case, in average, every 10 seconds we will have a burst of 0.5 seconds, sending as fast as possible. The rest of the time, is sending slow.

There are some properties that can only be defined in the common sections: sample_interval, sample_count, drain, blocking_io and warm_up_count.

These properties can be defined anywhere: login, passcode, host, port, producers, consumers, destination_type, destination_name, consumer_prefix, queue_prefix, topic_prefix, message_size, content_length, drain_timeout, persistent, durable, sync_send, ack, messages_per_connection, producers_per_sample, consumers_per_sample, selector, producer_sleep, consumer_sleep

An example from default_scenarios.xml:

<scenarios>
    <broker_name>Test Broker</broker_name>
    <description>This is the general description for the scenarios in this file.</description>
    <platform_name>Test Platform</platform_name>
    <platform_desc>Platform description</platform_desc>
    <common>
        <sample_interval>1000</sample_interval>
        <blocking_io>false</blocking_io>
        <warm_up_count>3</warm_up_count>
        <drain>true</drain>
    </common>
    <group name="Persistent Queue Load/Unload - Non Persistent Queue Load">
        <description>
            Persistent Queue Load/Unload - Non Persistent Queue Load
        </description>
        <common>
            <sample_count>30</sample_count>
            <destination_type>queue</destination_type>
            <destination_count>1</destination_count>
            <destination_name>load_me_up</destination_name>
        </common>
        <scenario name="non_persistent_queue_load" label="Non Persistent Queue Load">
            <clients name="20b_1a_1queue_0">
                <producers>1</producers>
                <consumers>0</consumers>
                <message_size>20</message_size>
                <persistent>false</persistent>
                <sync_send>false</sync_send>
            </clients>
        </scenario>
        <scenario name="persistent_queue_load" label="Persistent Queue Load">
            <common>
                <drain>false</drain>
            </common>
            <clients name="20b_1p_1queue_0">
                <producers>1</producers>
                <consumers>0</consumers>
                <message_size>20</message_size>
                <persistent>true</persistent>
                <sync_send>true</sync_send>
            </clients>
        </scenario>
        <scenario name="persistent_queue_unload" label="Persistent Queue Unload">
            <clients name="20b_0_1queue_1">
                <producers>0</producers>
                <consumers>1</consumers>
            </clients>
        </scenario>
    </group>
    <group name="Fast and Slow Consumers">
        <loop>
            <var name="destination_type" label="Destination type">
                <value label="Queue">queue</value>
                <value label="Topic">topic</value>
            </var>
        </loop>
        <description>
            Scenario with fast and slow consumers
        </description>
        <scenario name="fast_slow_consumers_${destination_type}" label="Fast and Slow consumers on a ${destination_type}">
            <common>
                <sample_count>15</sample_count>
                <destination_type>${destination_type}</destination_type>
                <destination_count>1</destination_count>
            </common>
            <clients name="20b_1a_1${destination_type}_1fast">
                <producers>1</producers>
                <consumers>1</consumers>
                <message_size>20</message_size>
                <persistent>false</persistent>
                <sync_send>false</sync_send>
            </clients>
            <clients name="20b_1a_1${destination_type}_1slow">
                <producers>0</producers>
                <consumers>1</consumers>
                <consumer_sleep>100</consumer_sleep>
            </clients>
        </scenario>
    </group>
<scenarios>

Display the results of a custom XML scenario using the generic_report.html

To display the results on generic_report.html, first you need to serve all the files from the same domain. In google chrome, if you use file:///, the same origin policy wont allow to load the results. You can relax that restriction in Chrome by starting it with the --allow-file-access-from-files argument. On OS X you can do that with the following command: open -a 'Google Chrome' --args --allow-file-access-from-files

Please note that, to be able to display the scenario results using generic_report.html, you need to provide the option --new-json when you run the benchmark.

Then, you can create different directories for the different platforms you have and copy the json files to each directory.

Finally, you need to modify the generic_report.html to include the names of your json files (without extension) in the products array, and the names of the platform directories in the platforms array. Platform is an array of arrays, each element is an array where the first element it's the name of the directory, and the second, the name we want to display in the report.

Now, you can just open generic_report.html to see the results.

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