corda/docs/source/loadtesting.rst
Patrick Kuo 28afb6d3ff Added throttling to the load test tool and added stability test. ()
* Added throttling to the load test tool.
* Added stability test to the tool.
* Some refactoring to allow some configuration via vm option.
* updated doc.
* gradle now passes system parameter to load test.
* using Guava's RateLimiter instead of execute at fix rate.
2017-06-16 15:30:11 +01:00

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Load testing

This section explains how to apply random load to nodes to stress test them. It also allows the specification of disruptions that strain different resources, allowing us to inspect the nodes' behaviour under extreme conditions.

The load-testing framework is incomplete and is not part of CI currently, but the basic pieces are there.

Configuration of the load testing cluster

The load-testing framework currently assumes the following about the node cluster:

  • The nodes are managed as a systemd service
  • The node directories are the same across the cluster
  • The messaging ports are the same across the cluster
  • The executing identity of the load-test has SSH access to all machines
  • There is a single network map service node
  • There is a single notary node
  • Some disruptions also assume other tools (like openssl) to be present

Note that these points could and should be relaxed as needed.

The load test Main expects a single command line argument that points to a configuration file specifying the cluster hosts and optional overrides for the default configuration:

../../tools/loadtest/src/main/resources/loadtest-reference.conf

Running the load tests

In order to run the loadtests you need to have an active SSH-agent running with a single identity added that has SSH access to the loadtest cluster.

You can use either IntelliJ or the gradle command line to start the tests.

To use gradle with configuration file: ./gradlew tools:loadtest:run -Ploadtest-config=PATH_TO_LOADTEST_CONF

To use gradle with system properties: ./gradlew tools:loadtest:run -Dloadtest.mode=LOAD_TEST -Dloadtest.nodeHosts.0=node0.myhost.com

Note

You can provide or override any configuration using the system properties, all properties will need to be prefixed with loadtest..

To use IntelliJ simply run Main.kt with the config path supplied as an argument or system properties as vm options.

Configuration of individual load tests

The load testing configurations are not set-in-stone and are meant to be played with to see how the nodes react.

There are a couple of top-level knobs to tweak test behaviour:

../../tools/loadtest/src/main/kotlin/net/corda/loadtest/LoadTest.kt

The one thing of note is disruptionPatterns, which may be used to specify ways of disrupting the normal running of the load tests.

../../tools/loadtest/src/main/kotlin/net/corda/loadtest/Disruption.kt

Disruptions run concurrently in loops on randomly chosen nodes filtered by nodeFilter at somewhat random intervals.

As an example take strainCpu which overutilises the processor:

../../tools/loadtest/src/main/kotlin/net/corda/loadtest/Disruption.kt

We can use this by specifying a DisruptionSpec in the load test's RunParameters:

../../tools/loadtest/src/main/kotlin/net/corda/loadtest/Main.kt

This means every 5-10 seconds at least one randomly chosen nodes' cores will be spinning 100% for 10 seconds.

How to write a load test

A load test is basically defined by a random datastructure generator that specifies a unit of work a node should perform, a function that performs this work, and a function that predicts what state the node should end up in by doing so:

../../tools/loadtest/src/main/kotlin/net/corda/loadtest/LoadTest.kt

LoadTest is parameterised over T, the unit of work, and S, the state type that aims to track remote node states. As an example let's look at the Self Issue test. This test simply creates Cash Issues from nodes to themselves, and then checks the vault to see if the numbers add up:

../../tools/loadtest/src/main/kotlin/net/corda/loadtest/tests/SelfIssueTest.kt

The unit of work SelfIssueCommand simply holds an Issue and a handle to a node where the issue should be submitted. The generate method should provide a generator for these.

The state SelfIssueState then holds a map from node identities to a Long that describes the sum quantity of the generated issues (we fixed the currency to be USD).

The invariant we want to hold then simply is: The sum of submitted Issues should be the sum of the quantities in the vaults.

The interpret function should take a SelfIssueCommand and update SelfIssueState to reflect the change we're expecting in the remote nodes. In our case this will simply be adding the issued amount to the corresponding node's Long.

The execute function should perform the action on the cluster. In our case it will simply take the node handle and submit an RPC request for the Issue.

The gatherRemoteState function should check the actual remote nodes' states and see whether they conflict with our local predictions (and should throw if they do). This function deserves its own paragraph.

../../tools/loadtest/src/main/kotlin/net/corda/loadtest/LoadTest.kt

gatherRemoteState gets as input handles to all the nodes, and the current predicted state, or null if this is the initial gathering.

The reason it gets the previous state boils down to allowing non-deterministic predictions about the nodes' remote states. Say some piece of work triggers an asynchronous notification of a node. We need to account both for the case when the node hasn't received the notification and for the case when it has. In these cases S should somehow represent a collection of possible states, and gatherRemoteState should "collapse" the collection based on the observations it makes. Of course we don't need this for the simple case of the Self Issue test.

The last parameter isConsistent is used to poll for eventual consistency at the end of a load test. This is not needed for self-issuance.

Stability Test

Stability test is one variation of the load test, instead of flooding the nodes with request, the stability test uses execution frequency limit to achieve a constant execution rate.

To run the stability test, set the load test mode to STABILITY_TEST (mode=STABILITY_TEST in config file or -Dloadtest.mode=STABILITY_TEST in system properties).

The stability test will first self issue cash using StabilityTest.selfIssueTest and after that it will randomly pay and exit cash using StabilityTest.crossCashTest for P2P testing, unlike the load test, the stability test will run without any disruption.