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Java code sample for handling rate limiting and retries in Cassandra API using Cosmos retry policy extension

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Azure Cosmos DB is a globally distributed multi-model database. One of the supported APIs is the Cassandra API
azure-cosmos-db-cassandra-java-retry-sample

Handling rate limited requests in the Azure Cosmos DB API for Cassandra

Azure Cosmos DB is a globally distributed multi-model database. One of the supported APIs is the Cassandra API. This sample illustrates how to handle rate limited requests. These are also known as 429 errors, and are returned when the consumed throughput exceeds the number of Request Units that have been provisioned for the service. In this code sample, we implement the Azure Cosmos DB extension for Cassandra Retry Policy (see pom.xml file).

The retry policy handles errors such as OverLoadedError (which may occur due to rate limiting), and parses the exception message to use RetryAfterMs field provided from the server as the back-off duration for retries. If RetryAfterMs is not available, it defaults to an exponential growing back-off scheme. In this case the time between retries is increased by a growing back off time (default: 1000 ms) on each retry, unless maxRetryCount is -1, in which case it backs off with a fixed duration. It is important to handle rate limiting in Azure Cosmos DB to prevent errors when provisioned throughput has been exhausted.

Prerequisites

  • Before you can run this sample, you must have the following prerequisites:
    • An active Azure Cassandra API account - If you don't have an account, refer to the Create Cassandra API account.
    • Java Development Kit (JDK) 1.8+
      • On Ubuntu, run apt-get install default-jdk to install the JDK.
    • Be sure to set the JAVA_HOME environment variable to point to the folder where the JDK is installed.
    • Download and install a Maven binary archive
      • On Ubuntu, you can run apt-get install maven to install Maven.
    • Git
      • On Ubuntu, you can run sudo apt-get install git to install Git.

Running this sample

  1. Clone this repository using git clone git@github.com:Azure-Samples/azure-cosmos-db-cassandra-java-retry-sample.git cosmosdb.

  2. Change directories to the repo using cd cosmosdb/java-examples

  3. Next, substitute the Cassandra host, username, password java-examples\src\test\resources\config.properties with your Cosmos DB account's values from connectionstring panel of the portal.

    cassandra_host=<FILLME>
    cassandra_username=<FILLME>
    cassandra_password=<FILLME>
    ssl_keystore_file_path=<FILLME>
    ssl_keystore_password=<FILLME>
    

    If ssl_keystore_file_path is not given in config.properties, then by default <JAVA_HOME>/jre/lib/security/cacerts will be used. If ssl_keystore_password is not given in config.properties, then the default password 'changeit' will be used

  4. Run mvn clean install from java-examples folder to build the project. This will generate cosmosdb-cassandra-examples.jar under target folder.

  5. Run java -cp target/cosmosdb-cassandra-examples.jar com.microsoft.azure.cosmosdb.cassandra.examples.UserProfile in a terminal to start your java application. The output will include a number of "overloaded" (rate limited) requests, the insert duration times, average latency, the number of users present in the table after the load test, and the number of user inserts that were attempted. Users in table and records attempted should be identical since rate limits have been successfully handled and retried. Notice that although requests are all successful, you may see significant average latency due to requests being retried after rate limiting:

    Console output

    If you do not see overloaded errors, you can increase the number of threads in UserProfile.java in order to force rate limiting:

        public static final int NUMBER_OF_THREADS = 40;
  6. In a real world scenario, you may wish to take steps to increase the provisioned throughput when the system is experiencing rate limiting. Note that you can do this programmatically in the Azure Cosmos DB API for Cassandra by executing ALTER commends in CQL. In production, you should handle 429 errors in a similar fashion to this sample, and monitor the system, increasing throughput if 429 errors are being recorded by the system. You can monitor whether requests are exceeding provisioned capacity using Azure portal metrics:

    Console output

    You can try increasing the provisioned RUs in the Cassandra Keyspace or table to see how this will improve latencies. You can consult our article on elastic scale to understand the different methods for provisioning throughput in Cassandra API.

  7. One alternative to increasing RU provisioning for mitigating rate limiting, which might be more useful in scenarios where there is a highly asymmetrical distribution of consumed throughput between regions (i.e. you have many more reads/writes in one region than others), is to load balance between regions on the client. The load balancing policy implemented in this sample provides one part of the the mechanism to facilitate this, by allowing you to select a read or write region:

        CosmosLoadBalancingPolicy loadBalancingPolicy1 = CosmosLoadBalancingPolicy.builder().withGlobalEndpoint(CONTACT_POINTS[0]).build();
        CosmosLoadBalancingPolicy loadBalancingPolicy2 = CosmosLoadBalancingPolicy.builder().withWriteDC("West US").withReadDC("West US").build();

    To test this out, set the loadBalanceRegions variable to true:

    Boolean loadBalanceRegions = true;

    Note: when running this, you should ensure that you have two regions, one in West US (or you can change the above to a region of your choice), and multi-master writes configured. When you run the test again with load balancing configured, you should see requests being written to different regions, with latencies reduced, without having to increase provisioned throughput (RUs):

    Console output

    Note: you may notice that if you are not experiencing rate limiting even when load balancing is set to false in this sample, then the average latency if load balancing is set to true might be higher. There is because there is a cost trade off between the latency incurred when routing to a further away region (in order to lower cost of RU provisioning by leveraging under-used regions) and keeping latency down to an absolute minimum by always routing to the nearest region, and ensuring that RUs are provisioned at a level which always accounts for the region that has the highest activity. This is trade-off that you will need to decide upon within your business.

    Also bear in mind that when writing data to Cassandra, you should ensure that you account for query idempotence, and the relevant rules for retries. You should always perform sufficient load testing to ensure that the implementation meets your requirements.

About the code

The code included in this sample is a load test to simulate a scenario where Cosmos DB will rate limit requests (return a 429 error) because there are too many requests for the provisioned throughput in the service. In this sample, we create a Keyspace and table, and run a multi-threaded process that will insert users concurrently into the user table. To help generate random data for users, we use a java library called "javafaker", which is included in the build dependencies. The loadTest() will eventually exhaust the provisioned Keyspace RU allocation (default is 400RUs).

Review the code

You can review the following files: src/test/java/com/microsoft/azure/cosmosdb/cassandra/util/CassandraUtils.java and src/test/java/com/microsoft/azure/cosmosdb/cassandra/repository/UserRepository.java to understand how sessions and the retry and load balancing policies are being added. You should also review the main class file src/test/java/com/microsoft/azure/cosmosdb/cassandra/examples/UserProfile.java where the load test is created and run. We first create the retry policy in UserProfile.java:

    CosmosRetryPolicy retryPolicy = new CosmosRetryPolicy(MAX_RETRY_COUNT, FIXED_BACK_OFF_TIME, GROWING_BACK_OFF_TIME);

We then create two load balancing policies. One with a global endpoint, and one with a specified region:

    CosmosLoadBalancingPolicy loadBalancingPolicy1 = CosmosLoadBalancingPolicy.builder().withGlobalEndpoint(CONTACT_POINTS[0]).build();
    CosmosLoadBalancingPolicy loadBalancingPolicy2 = CosmosLoadBalancingPolicy.builder().withWriteDC("West US").withReadDC("West US").build();

We can then pass the policies to getSession() (see CassandraUtils.java - in this case we create two sessions in order to toggle between running our load test while load balancing across regions, or a single region - but typically you will create 1 session):

    CassandraUtils utils = new CassandraUtils();
    UserProfile u = new UserProfile();
    Session cassandraSessionWithRetry1 = utils.getSession(CONTACT_POINTS, PORT, u.retryPolicy, u.loadBalancingPolicy1);
    Session cassandraSessionWithRetry2 = utils.getSession(CONTACT_POINTS, PORT, u.retryPolicy, u.loadBalancingPolicy2);

Please note that timeout limits are set in getSession():

        SocketOptions options = new SocketOptions();
        options.setConnectTimeoutMillis(30000);
        options.setReadTimeoutMillis(30000);

You should also consult the Azure Cosmos DB extension for Cassandra Retry Policy if you want to understand how retry policy is implemented.

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