Upsert Kafka Result Table

Function

Apache Kafka is a fast, scalable, and fault-tolerant distributed message publishing and subscription system. It delivers high throughput and built-in partitions and provides data replicas and fault tolerance. Apache Kafka is applicable to scenarios of handling massive messages. DLI outputs the Flink job output data to Kafka in upsert mode.

The Upsert Kafka connector allows for reading data from and writing data into Kafka topics in the upsert fashion.

As a sink, the Upsert Kafka connector can consume a changelog stream. It will write INSERT/UPDATE_AFTER data as normal Kafka messages value, and write DELETE data as Kafka messages with null values (indicate tombstone for the key). Flink will guarantee the message ordering on the primary key by partition data on the values of the primary key columns, so the UPDATE/DELETE messages on the same key will fall into the same partition.

Prerequisites

You have created a Kafka cluster.
An enhanced datasource connection has been created for DLI to connect to Kafka clusters, so that jobs can run on the dedicated queue of DLI and you can set the security group rules as required.
- For details about how to create an enhanced datasource connection, see Enhanced Datasource Connections in the Data Lake Insight User Guide.
- For details about how to configure security group rules, see Security Group in the Virtual Private Cloud User Guide.
In Flink cross-source development scenarios, there is a risk of password leakage if datasource authentication information is directly configured. You are advised to use the datasource authentication provided by DLI.
For details about datasource authentication, see Introduction to Datasource Authentication.

Precautions

When creating a Flink OpenSource SQL job, you need to set Flink Version to 1.12 on the Running Parameters tab of the job editing page, select Save Job Log, and set the OBS bucket for saving job logs.
For details about how to use data types, see section Format.
The Upsert Kafka always works in the upsert fashion and requires to define the primary key in the DDL.
By default, an Upsert Kafka sink ingests data with at-least-once guarantees into a Kafka topic if the query is executed with checkpointing enabled. This means that Flink may write duplicate records with the same key into the Kafka topic. Therefore, the Upsert Kafka connector achieves idempotent writes.

Syntax

    
         create table kafkaSource(
  attr_name attr_type 
  (',' attr_name attr_type)* 
  (','PRIMARY KEY (attr_name, ...) NOT ENFORCED)
)
with (
  'connector' = 'upsert-kafka',
  'topic' = '',
  'properties.bootstrap.servers' = '',
  'key.format' = '',
  'value.format' = ''
);

Parameters

**Table 1** Parameter description
Parameter	Mandatory	Default Value	Data Type	Description
connector	Yes	(none)	String	Connector to be used. Set this parameter to upsert-kafka.
topic	Yes	(none)	String	Kafka topic name.
properties.bootstrap.servers	Yes	(none)	String	Comma separated list of Kafka brokers.
key.format	Yes	(none)	String	Format used to deserialize and serialize the key part of Kafka messages. The key fields are specified by the PRIMARY KEY syntax. The following formats are supported: csv json avro Refer to Format for more details and format parameters.
key.fields-prefix	No	(none)	String	Defines a custom prefix for all fields of the key format to avoid name clashes with fields of the value format. By default, the prefix is empty. If a custom prefix is defined, both the table schema and key.fields will work with prefixed names. When constructing the data type of the key format, the prefix will be removed and the non-prefixed names will be used within the key format. Note that this option requires that value.fields-include must be set to EXCEPT_KEY.
value.format	Yes	(none)	String	Format used to deserialize and serialize the value part of Kafka messages. The following formats are supported: csv json avro Refer to Format for more details and format parameters.
value.fields-include	No	'ALL'	String	Controls which fields should appear in the value part. Options: ALL: All fields in the schema, including the primary key field, are included in the value part. EXCEPT_KEY: All the fields of the table schema are included, except the primary key field.
sink.parallelism	No	(none)	Interger	Defines the parallelism of the Upsert Kafka sink operator. By default, the parallelism is determined by the framework using the same parallelism of the upstream chained operator.
properties.*	No	(none)	String	This option can set and pass arbitrary Kafka configurations. The suffix of this parameter must match the parameter defined in Kafka Configuration documentation. Flink will remove the properties. key prefix and pass the transformed key and value to the underlying KafkaClient. For example, you can disable automatic topic creation via 'properties.allow.auto.create.topics' = 'false'. But there are some configurations that do not support to set, because Flink will override them, for example, 'key.deserializer' and 'value.deserializer'.
ssl_auth_name	No	None	String	Name of datasource authentication of the Kafka_SSL type created on DLI. This configuration is used when SSL is configured for Kafka. Note: If only the SSL type is used, you need to set properties.security.protocol to SSL. If the SASL_SSL type is used, you need to set properties.security.protocol to SASL_SSL, properties.sasl.mechanism to GSSAPI or PLAIN, and properties.sasl.jaas.config to org.apache.kafka.common.security.plain.PlainLoginModule required username=\"xxx\" password=\"xxx\";.
krb_auth_name	No	None	String	Name of datasource authentication of the Kerberos type created on DLI. This configuration is used when SASL is configured for Kafka. Note: If the SASL_PLAINTEXT type and Kerberos authentication are used, you need to set properties.sasl.mechanism to GSSAPI and properties.security.protocol to SASL_PLAINTEXT.

Example

In this example, Kafka source topic data is read from the Kafka source table and written to the Kafka sink topic through the Upsert Kafka result table.

Create an enhanced datasource connection in the VPC and subnet where Kafka locates, and bind the connection to the required Flink elastic resource pool. For details, see Enhanced Datasource Connections.
Set Kafka security groups and add inbound rules to allow access from the Flink queue. Test the connectivity using the Kafka address by referring to Testing Address Connectivity. If the connection is successful, the datasource is bound to the queue. Otherwise, the binding fails.

Create a Flink OpenSource SQL job. Enter the following job script and submit the job.

When you create a job, set Flink Version to 1.12 on the Running Parameters tab. Select Save Job Log, and specify the OBS bucket for saving job logs. Change the values of the parameters in bold as needed in the following script.

CREATE TABLE orders (
  order_id string,
  order_channel string,
  order_time string,
  pay_amount double,
  real_pay double,
  pay_time string,
  user_id string,
  user_name string,
  area_id string
) WITH (
  'connector' = 'kafka',
  'topic' = 'KafkaTopic',
  'properties.bootstrap.servers' = 'KafkaAddress1:KafkaPort,KafkAddress2:KafkaPort',
  'properties.group.id' = 'GroupId',
  'scan.startup.mode' = 'latest-offset',
  "format" = "json"
);
CREATE TABLE UPSERTKAFKASINK (
  order_id string,
  order_channel string,
  order_time string,
  pay_amount double,
  real_pay double,
  pay_time string,
  user_id string,
  user_name string,
  area_id string,
  PRIMARY KEY (order_id) NOT ENFORCED
) WITH (
  'connector' = 'upsert-kafka',
  'topic' = 'KafkaTopic',
  'properties.bootstrap.servers' =  'KafkaAddress1:KafkaPort,KafkAddress2:KafkaPort',
  'key.format' = 'json',
  'value.format' = 'json'
);
insert into UPSERTKAFKASINK
select * from orders;

Connect to the Kafka cluster and send the following test data to the Kafka source topic:

{"order_id":"202103251202020001", "order_channel":"miniAppShop", "order_time":"2021-03-25 12:02:02", "pay_amount":"60.00", "real_pay":"60.00", "pay_time":"2021-03-25 12:03:00", "user_id":"0002", "user_name":"Bob", "area_id":"330110"}

{"order_id":"202103251505050001", "order_channel":"qqShop", "order_time":"2021-03-25 15:05:05", "pay_amount":"500.00", "real_pay":"400.00", "pay_time":"2021-03-25 15:10:00", "user_id":"0003", "user_name":"Cindy", "area_id":"330108"}

{"order_id":"202103251202020001", "order_channel":"miniAppShop", "order_time":"2021-03-25 12:02:02", "pay_amount":"60.00", "real_pay":"60.00", "pay_time":"2021-03-25 12:03:00", "user_id":"0002", "user_name":"Bob", "area_id":"330110"}

Connect to the Kafka cluster and read data from the Kafka sink topic. The result is as follows:

{"order_id":"202103251202020001", "order_channel":"miniAppShop", "order_time":"2021-03-25 12:02:02", "pay_amount":"60.00", "real_pay":"60.00", "pay_time":"2021-03-25 12:03:00", "user_id":"0002", "user_name":"Bob", "area_id":"330110"}

{"order_id":"202103251505050001", "order_channel":"qqShop", "order_time":"2021-03-25 15:05:05", "pay_amount":"500.00", "real_pay":"400.00", "pay_time":"2021-03-25 15:10:00", "user_id":"0003", "user_name":"Cindy", "area_id":"330108"}

{"order_id":"202103251202020001", "order_channel":"miniAppShop", "order_time":"2021-03-25 12:02:02", "pay_amount":"60.00", "real_pay":"60.00", "pay_time":"2021-03-25 12:03:00", "user_id":"0002", "user_name":"Bob", "area_id":"330110"}