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Updated on 2024-01-09 GMT+08:00

Reading Data from Kafka and Writing Data to RDS

This guide provides reference for Flink 1.12 only.

Description

In this example, we aim to query information about top three most-clicked offerings in each hour from a set of real-time click data. Offerings' real-time click data will be sent to Kafka as the input source, and then the analysis result of Kafka data is to be output to RDS.

For example, enter the following sample data:

{"user_id":"0001", "user_name":"Alice", "event_time":"2021-03-24 08:01:00", "product_id":"0002", "product_name":"name1"}
{"user_id":"0002", "user_name":"Bob", "event_time":"2021-03-24 08:02:00", "product_id":"0002", "product_name":"name1"}
{"user_id":"0002", "user_name":"Bob", "event_time":"2021-03-24 08:06:00", "product_id":"0004", "product_name":"name2"}
{"user_id":"0001", "user_name":"Alice", "event_time":"2021-03-24 08:10:00", "product_id":"0003", "product_name":"name3"}
{"user_id":"0003", "user_name":"Cindy", "event_time":"2021-03-24 08:15:00", "product_id":"0005", "product_name":"name4"}
{"user_id":"0003", "user_name":"Cindy", "event_time":"2021-03-24 08:16:00", "product_id":"0005", "product_name":"name4"}
{"user_id":"0001", "user_name":"Alice", "event_time":"2021-03-24 08:56:00", "product_id":"0004", "product_name":"name2"}
{"user_id":"0001", "user_name":"Alice", "event_time":"2021-03-24 09:05:00", "product_id":"0005", "product_name":"name4"} 
{"user_id":"0001", "user_name":"Alice", "event_time":"2021-03-24 09:10:00", "product_id":"0006", "product_name":"name5"}
{"user_id":"0002", "user_name":"Bob", "event_time":"2021-03-24 09:13:00", "product_id":"0006", "product_name":"name5"}
Expected output:
2021-03-24 08:00:00 - 2021-03-24 08:59:59,0002,name1,2
2021-03-24 08:00:00 - 2021-03-24 08:59:59,0004,name2,2
2021-03-24 08:00:00 - 2021-03-24 08:59:59,0005,name4,2
2021-03-24 09:00:00 - 2021-03-24 09:59:59,0006,name5,2
2021-03-24 09:00:00 - 2021-03-24 09:59:59,0005,name4,1

Prerequisites

  1. You have created a DMS for Kafka instance.

    For details, see Getting Started with DMS for Kafka.

    When you create the instance, do not enable Kafka SASL_SSL.

  2. You have created an RDS for MySQL DB instance.

    In this example, the RDS for MySQL database version is 8.0.

    For details, see Getting Started with RDS for MySQL.

Step 1: Create a Queue

  1. Log in to the DLI console. In the navigation pane on the left, choose Resources > Queue Management.
  2. On the displayed page, click Buy Queue in the upper right corner.
  3. On the Buy Queue page, set queue parameters as follows:
    • Billing Mode: .
    • Region and Project: Retain the default values.
    • Name: Enter a queue name.

      The queue name can contain only digits, letters, and underscores (_), but cannot contain only digits or start with an underscore (_). The name must contain 1 to 128 characters.

      The queue name is case-insensitive. Uppercase letters will be automatically converted to lowercase letters.

    • Type: Select For general purpose. Select the Dedicated Resource Mode.
    • AZ Mode and Specifications: Retain the default values.
    • Enterprise Project: Select default.
    • Advanced Settings: Select Custom.
    • CIDR Block: Specify the queue network segment. For example, 10.0.0.0/16.

      The CIDR block of a queue cannot overlap with the CIDR blocks of DMS Kafka and RDS for MySQL DB instances. Otherwise, datasource connections will fail to be created.

    • Set other parameters as required.
  4. Click Buy. Confirm the configuration and click Submit.

Step 2: Create a Kafka Topic

  1. On the Kafka management console, click an instance name on the DMS for Kafka page. Basic information of the Kafka instance is displayed.
  2. Choose Topics. On the displayed page, click Create Topic. Configure the following parameters:
    • Topic Name For this example, enter testkafkatopic.
    • Partitions: Set the value to 1.
    • Replicas: Set the value to 1.

    Retain default values for other parameters.

Step 3: Create an RDS Database and Table

  1. Log in to the RDS console. On the displayed page, locate the target MySQL DB instance and choose More > Log In in the Operation column.
  2. On the displayed login dialog box, enter the username and password and click Log In.
  3. On the Databases page, click Create Database. In the displayed dialog box, enter testrdsdb as the database name and retain default values of rest parameters. Then, click OK.
  4. In the Operation column of row where the created database locates, click SQL Window and enter the following statement to create a table:
    CREATE TABLE clicktop (
    	`range_time` VARCHAR(64) NOT NULL,
    	`product_id` VARCHAR(32) NOT NULL,
    	`product_name` VARCHAR(32),
    	`event_count` VARCHAR(32),
    	PRIMARY KEY (`range_time`,`product_id`)
    )	ENGINE = InnoDB
    	DEFAULT CHARACTER SET = utf8mb4;

Step 4: Create an Enhanced Datasource Connection

  • Connecting DLI to Kafka
    1. On the Kafka management console, click an instance name on the DMS for Kafka page. Basic information of the Kafka instance is displayed.
    2. In the Connection pane, obtain the Instance Address (Private Network). In the Network pane, obtain the VPC and subnet of the instance.
    3. Click the security group name in the Network pane. On the displayed page, click the Inbound Rules tab and add a rule to allow access from DLI queues. For example, if the CIDR block of the queue is 10.0.0.0/16, set Priority to 1, Action to Allow, Protocol to TCP, Type to IPv4, Source to 10.0.0.0/16, and click OK.
    4. Log in to the DLI management console. In the navigation pane on the left, choose Datasource Connections. On the displayed page, click Create in the Enhanced tab.
    5. In the displayed dialog box, set the following parameters:
      • Connection Name: Enter a name for the enhanced datasource connection. For this example, enter dli_kafka.
      • Resource Pool: Select the name of the queue created in Step 1: Create a Queue. (Queues that are not added to a resource pool are displayed in this list.)
      • VPC: Select the VPC of the Kafka instance.
      • Subnet: Select the subnet of Kafka instance.
      • Set other parameters as you need.

      Click OK. Click the name of the created datasource connection to view its status. You can perform subsequent steps only after the connection status changes to Active.

    6. Choose Resources > Queue Management from the navigation pane, locate the queue you created in Step 1: Create a Queue. In the Operation column, click More > Test Address Connectivity.
    7. In the displayed dialog box, enter Kafka instance address (private network):port in the Address box and click Test to check whether the instance is reachable.
  • Connecting DLI to RDS
    1. Go to the RDS console, click the name of the target RDS DB instance on the Instances page. Basic information of the instance is displayed.
    2. In the Connection Information pane, obtain the floating IP address, database port, VPC, and subnet.
    3. Click the security group name. On the displayed page, click the Inbound Rules tab and add a rule to allow access from DLI queues. For example, if the CIDR block of the queue is 10.0.0.0/16, set Priority to 1, Action to Allow, Protocol to TCP, Type to IPv4, Source to 10.0.0.0/16, and click OK.
    4. Check whether the Kafka instance and RDS DB instance are in the same VPC and subnet.
      1. If they are, go to 7. You do not need to create an enhanced datasource connection again.
      2. If they are not, go to 5. Create an enhanced datasource connection to connect DLI to the subnet where the RDS DB instance locates.
    5. Log in to the DLI management console. In the navigation pane on the left, choose Datasource Connections. On the displayed page, click Create in the Enhanced tab.
    6. In the displayed dialog box, set the following parameters:
      • Connection Name: Enter a name of the enhanced datasource connection For this example, enter dli_rds.
      • Resource Pool: Select the name of the queue created in Step 1: Create a Queue. (Queues that are not added to a resource pool are displayed in this list.)
      • VPC: Select the VPC of the RDS DB instance.
      • Subnet: Select the subnet of RDS DB instance.
      • Set other parameters as you need.

      Click OK. Click the name of the created datasource connection to view its status. You can perform subsequent steps only after the connection status changes to Active.

    7. Choose Resources > Queue Management from the navigation pane, locate the queue you created in Step 1: Create a Queue. In the Operation column, click More > Test Address Connectivity.
    8. In the displayed dialog box, enter floating IP address:database port of the RDS DB instance you have obtained in 2 in the Address box and click Test to check whether the database is reachable.

Step 5: Run a Job

  1. On the DLI management console, choose Job Management > Flink Jobs. On the Flink Jobs page, click Create Job.
  2. In the Create Job dialog box, set Type to Flink OpenSource SQL and Name to FlinkKafkaRds. Click OK.
  3. On the job editing page, set the following parameters and retain the default values of other parameters.
    • Queue: Select the queue created in Step 1: Create a Queue.
    • Flink Version: Select 1.12.
    • Save Job Log: Enable this function.
    • OBS Bucket: Select an OBS bucket for storing job logs and grant access permissions of the OBS bucket as prompted.
    • Enable Checkpointing: Enable this function.
    • Enter a SQL statement in the editing pane. The following is an example. Modify the parameters in bold as you need.

      In this example, the syntax version of Flink OpenSource SQL is 1.12. In this example, the data source is Kafka and the result data is written to RDS.

      For details, see Kafka Source Table and JDBC Result Table (RDS connection).

      create table click_product(
          user_id string, --ID of the user
          user_name string, --Username
          event_time string, --Click time
          product_id string, --Offering ID
          product_name string --Offering name
      ) with (
          "connector" = "kafka",
          "properties.bootstrap.servers" = " 10.128.0.120:9092,10.128.0.89:9092,10.128.0.83:9092 ",-- Internal network address and port number of the Kafka instance
          "properties.group.id" = "click",
          "topic" = " testkafkatopic ",--Name of the created Kafka topic
          "format" = "json",
          "scan.startup.mode" = "latest-offset"
      );
      
      --Result table
      create table top_product (
          range_time string, --Calculated time range
          product_id string, --Offering ID
          product_name string --Offering name
          event_count bigint, --Number of clicks
          primary key (range_time, product_id) not enforced
      ) with (
          "connector" = "jdbc",
          "url" = "jdbc:mysql://192.168.12.148:3306/testrdsdb ",--testrdsdb indicates the name of the created RDS database. Replace the IP address and port number with those of the RDS DB instance.
          "table-name" = "clicktop",
          "pwd_auth_name"="xxxxx", -- Name of the datasource authentication of the password type created on DLI. If datasource authentication is used, you do not need to set the username and password for the job.
          "sink.buffer-flush.max-rows" = "1000",
          "sink.buffer-flush.interval" = "1s"
      );
      
      create view current_event_view
      as
          select product_id, product_name, count(1) as click_count, concat(substring(event_time, 1, 13), ":00:00") as min_event_time, concat(substring(event_time, 1, 13), ":59:59") as max_event_time
          from click_product group by substring (event_time, 1, 13), product_id, product_name;
      
      insert into top_product
          select
              concat(min_event_time, " - ", max_event_time) as range_time,
              product_id,
              product_name,
              click_count
          from (
              select *,
              row_number() over (partition by min_event_time order by click_count desc) as row_num
              from current_event_view
          )
          where row_num <= 3
  4. Click Check Semantic and ensure that the SQL statement passes the check. Click Save. Click Start, confirm the job parameters, and click Start Now to execute the job. Wait until the job status changes to Running.

Step 6: Send Data and Query Results

  1. Use the Kafka client to send data to topics created in Step 2: Create a Kafka Topic to simulate real-time data streams.

    For details about how Kafka creates and retrieves data, visit Connecting to a DMS for Kafka Instance.

    The sample data is as follows:

    {"user_id":"0001", "user_name":"Alice", "event_time":"2021-03-24 08:01:00", "product_id":"0002", "product_name":"name1"}
    {"user_id":"0002", "user_name":"Bob", "event_time":"2021-03-24 08:02:00", "product_id":"0002", "product_name":"name1"}
    {"user_id":"0002", "user_name":"Bob", "event_time":"2021-03-24 08:06:00", "product_id":"0004", "product_name":"name2"}
    {"user_id":"0001", "user_name":"Alice", "event_time":"2021-03-24 08:10:00", "product_id":"0003", "product_name":"name3"}
    {"user_id":"0003", "user_name":"Cindy", "event_time":"2021-03-24 08:15:00", "product_id":"0005", "product_name":"name4"}
    {"user_id":"0003", "user_name":"Cindy", "event_time":"2021-03-24 08:16:00", "product_id":"0005", "product_name":"name4"}
    {"user_id":"0001", "user_name":"Alice", "event_time":"2021-03-24 08:56:00", "product_id":"0004", "product_name":"name2"}
    {"user_id":"0001", "user_name":"Alice", "event_time":"2021-03-24 09:05:00", "product_id":"0005", "product_name":"name4"} 
    {"user_id":"0001", "user_name":"Alice", "event_time":"2021-03-24 09:10:00", "product_id":"0006", "product_name":"name5"}
    {"user_id":"0002", "user_name":"Bob", "event_time":"2021-03-24 09:13:00", "product_id":"0006", "product_name":"name5"}
  2. Log in to the RDS console, click the name of the RDS DB instance. On the displayed page, click the name of the created database, for example, testrdsdb, and click Query SQL Statements in the Operation column of the row that containing the clicktop table.
    select * from `clicktop`;
  3. On the displayed page, click Execute SQL. Check whether data has been written into the RDS table.