Configuration Reference for Apache HBase Sink Connector for Confluent Platform

To use this connector, specify the name of the connector class in the connector.class configuration property.

connector.class=io.confluent.connect.hbase.HBaseSinkConnector

Connector-specific configuration properties are described below.

Connection

hbase.zookeeper.quorum

The Zookeeper service that retrieves the HBase master address in order to establish a connection. This value can be found in hbase-site.xml.

  • Type: string
  • Importance: high
hbase.zookeeper.property.clientPort

The port of the Zookeeper service that retrieves the HBase master address in order to establish a connection. This value can be found in hbase-site.xml.

  • Type: int
  • Default: 2181
  • Valid Values: [0,…,65535]
  • Importance: high

Authentication

hbase.master.kerberos.principal

Kerberos principal used to run the HMaster process. Required for Kerberos authentication configurations to be used, otherwise they are ignored.

  • Type: string
  • Default: “”
  • Importance: medium
hbase.regionserver.kerberos.principal

Kerberos principal used to run the HRegionserver process. Required for Kerberos authentication configurations to be used, otherwise they are ignored.

  • Type: string
  • Default: “”
  • Importance: medium
hbase.keytab.file

The path to the keytab file used to authenticate HBase. Required for Kerberos authentication configurations to be used, otherwise they are ignored.

  • Type: string
  • Default: “”
  • Importance: medium
hbase.user.principal

Kerberos user principal to login as to the hbase.master.kerberos.principal. Required for Kerberos authentication configurations to be used, otherwise they are ignored.

  • Type: string
  • Default: “”
  • Importance: medium
hbase.rpc.protection

The level of encryption for RPC communication. The supported levels are:

  • privacy provides authentication, integrity, and confidentiality checking.
  • integrity provides authentication and integrity checking.
  • authentication provides authentication checking.
  • Type: string
  • Default: authentication
  • Importance: low
hbase.cluster.distributed

Whether the HBase cluster is in standalone or distributed mode.

  • Type: boolean
  • Default: true
  • Importance: low
zookeeper.znode.parent

The root directory for HBase’s Zookeeper files

  • Type: string
  • Default: /hbase-secure
  • Importance: low
kerberos.ticket.renew.period.ms

How often in milliseconds to renew the Kerberos ticket when using Kerberos authentication with HBase.

  • Type: long
  • Default: 3600000
  • Importance: low

Writes

insert.mode

Defines the insertion mode to use. Supported modes are:

  • insert - Insert new record only. If the row to be written already exists in the table, an error is thrown.
  • upsert - If the row to be written already exists, then its column values are overwritten with the ones provided.
  • Type: string
  • Default: INSERT
  • Valid Values: one of [UPSERT, INSERT]
  • Importance: high
max.batch.size

The maximum number of records that can be batched into a batch of upserts. Note that since only a batch size of 1 for inserts is supported, max.batch.size must be exactly 1 when insert.mode is set to INSERT.

  • Type: int
  • Default: 1
  • Valid Values: [1,…]
  • Importance: medium
error.mode

Specifies how to handle errors that result from writes, after retries. Supported modes are:

  • fail - The connector fails and must be manually restarted.
  • warn - The connector logs a warning and continues operating normally.
  • ignore - The connector does not log a warning but continues operating normally.
  • Type: string
  • Default: FAIL
  • Valid Values: one of [IGNORE, FAIL, WARN]
  • Importance: medium

Data Mapping

table.name.format

Name of the destination table. Use ${topic} within the table name to specify the originating topic name.

For example, user_${topic} for the topic stats will map to the table name user_stats.

  • Type: string
  • Default: ${topic}
  • Valid Values: Either optionally includes substitutions(s): ${topic}, or after replacing ${topic}, this must be a valid table name.
  • Importance: medium
row.key.definition

A comma separated list of Kafka Record key field names that specifies the order of Kafka key fields to be concatenated to form the row key.

For example the list: 'username, post_id, time_stamp' when applied to a Kafka key: {'username': 'bob','post_id': '213', 'time_stamp': '123123'} and with delimiter # gives the row key 'bob#213#123123'. You can also access terms nested in the key by using . as a delimiter. If this configuration is empty or unspecified and the Kafka Message Key is a

  • struct, all the fields in the struct are used to construct the row key.
  • byte array, the row key is set to the byte array as is.
  • primitive, the row key is set to the primitive stringified.

If prefixes, more complicated delimiters, and string constants are required in your Row Key, consider configuring an SMT to add relevant fields to the Kafka Record key.

  • Type: list
  • Default: “”
  • Importance: medium
row.key.delimiter

The delimiter used in concatenating Kafka key fields in the row key. If this configuration is empty or unspecified, the key fields will be concatenated together directly.

  • Type: string
  • Default: “”
  • Importance: low
auto.create.tables

Whether to automatically create the destination table if it is found to be missing.

  • Type: boolean
  • Default: false
  • Importance: medium
auto.create.column.families

Whether to automatically create missing columns families in the table relative to the record schema.

  • Type: boolean
  • Default: false
  • Importance: medium

Retries

retry.timeout.ms

Maximum time in milliseconds allocated for retrying database operations before trying other error handling mechanisms.

  • Type: long
  • Default: 90000
  • Valid Values: [0,…]
  • Importance: medium

Proxy

proxy.url

The url of a proxy to connect through. This property should only be used if you want to access through a proxy.

  • Type: string
  • Default: “”
  • Importance: low
proxy.user

Proxy user. This property should only be used if you want to access through a proxy. Using proxy.user instead of embedding the username in proxy.url allows the proxy credentials to be hidden in logs.

  • Type: string
  • Default: “”
  • Importance: low
proxy.password

Proxy password. This property should only be used if you want to access through a proxy. Using proxy.password instead of embedding the password in proxy.url allows the proxy credentials to be hidden in logs.

  • Type: password
  • Default: [hidden]
  • Importance: low

Confluent Platform license

confluent.topic.bootstrap.servers A list of host/port pairs to use for establishing the initial connection to the Kafka cluster used for licensing. All servers in the cluster will be discovered from the initial connection. This list should be in the form <code>host1:port1,host2:port2,…</code>. Since these servers are just used for the initial connection to discover the full cluster membership (which may change dynamically), this list need not contain the full set of servers (you may want more than one, though, in case a server is down).

  • Type: list
  • Importance: high

confluent.topic Name of the Kafka topic used for Confluent Platform configuration, including licensing information.

  • Type: string
  • Default: _confluent-command
  • Importance: low

confluent.topic.replication.factor The replication factor for the Kafka topic used for Confluent Platform configuration, including licensing information. This is used only if the topic does not already exist, and the default of 3 is appropriate for production use. If you are using a development environment with less than 3 brokers, you must set this to the number of brokers (often 1).

  • Type: int
  • Default: 3
  • Importance: low

Confluent license properties

You can put license-related properties in the connector configuration, or starting with Confluent Platform version 6.0, you can put license-related properties in the Connect worker configuration instead of in each connector configuration.

This connector is proprietary and requires a license. The license information is stored in the _confluent-command topic. If the broker requires SSL for connections, you must include the security-related confluent.topic.* properties as described below.

confluent.license

Confluent issues enterprise license keys to each subscriber. The license key is text that you can copy and paste as the value for confluent.license. A trial license allows using the connector for a 30-day trial period. A developer license allows using the connector indefinitely for single-broker development environments.

If you are a subscriber, contact Confluent Support for more information.

  • Type: string
  • Default: “”
  • Valid Values: Confluent Platform license
  • Importance: high
confluent.topic.ssl.truststore.location

The location of the trust store file.

  • Type: string
  • Default: null
  • Importance: high
confluent.topic.ssl.truststore.password

The password for the trust store file. If a password is not set access to the truststore is still available, but integrity checking is disabled.

  • Type: password
  • Default: null
  • Importance: high
confluent.topic.ssl.keystore.location

The location of the key store file. This is optional for client and can be used for two-way authentication for client.

  • Type: string
  • Default: null
  • Importance: high
confluent.topic.ssl.keystore.password

The store password for the key store file. This is optional for client and only needed if ssl.keystore.location is configured.

  • Type: password
  • Default: null
  • Importance: high
confluent.topic.ssl.key.password

The password of the private key in the key store file. This is optional for client.

  • Type: password
  • Default: null
  • Importance: high
confluent.topic.security.protocol

Protocol used to communicate with brokers. Valid values are: PLAINTEXT, SSL, SASL_PLAINTEXT, SASL_SSL.

  • Type: string
  • Default: “PLAINTEXT”
  • Importance: medium

License topic configuration

A Confluent enterprise license is stored in the _confluent-command topic. This topic is created by default and contains the license that corresponds to the license key supplied through the confluent.license property. No public keys are stored in Kafka topics.

The following describes how the default _confluent-command topic is generated under different scenarios:

  • A 30-day trial license is automatically generated for the _confluent command topic if you do not add the confluent.license property or leave this property empty (for example, confluent.license=).
  • Adding a valid license key (for example, confluent.license=<valid-license-key>) adds a valid license in the _confluent-command topic.

Here is an example of the minimal properties for development and testing.

You can change the name of the _confluent-command topic using the confluent.topic property (for instance, if your environment has strict naming conventions). The example below shows this change and the configured Kafka bootstrap server.

confluent.topic=foo_confluent-command
confluent.topic.bootstrap.servers=localhost:9092

The example above shows the minimally required bootstrap server property that you can use for development and testing. For a production environment, you add the normal producer, consumer, and topic configuration properties to the connector properties, prefixed with confluent.topic..

License topic ACLs

The _confluent-command topic contains the license that corresponds to the license key supplied through the confluent.license property. It is created by default. Connectors that access this topic require the following ACLs configured:

  • CREATE and DESCRIBE on the resource cluster, if the connector needs to create the topic.

  • DESCRIBE, READ, and WRITE on the _confluent-command topic.

    Important

    You can also use DESCRIBE and READ without WRITE to restrict access to read-only for license topic ACLs. If a topic exists, the LicenseManager will not try to create the topic.

You can provide access either individually for each principal that will use the license or use a wildcard entry to allow all clients. The following examples show commands that you can use to configure ACLs for the resource cluster and _confluent-command topic.

  1. Set a CREATE and DESCRIBE ACL on the resource cluster:

    kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \
    --add --allow-principal User:<principal> \
    --operation CREATE --operation DESCRIBE --cluster
    
  2. Set a DESCRIBE, READ, and WRITE ACL on the _confluent-command topic:

    kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \
    --add --allow-principal User:<principal> \
    --operation DESCRIBE --operation READ --operation WRITE --topic _confluent-command
    

Override Default Configuration Properties

You can override the replication factor using confluent.topic.replication.factor. For example, when using a Kafka cluster as a destination with less than three brokers (for development and testing) you should set the confluent.topic.replication.factor property to 1.

You can override producer-specific properties by using the producer.override.* prefix (for source connectors) and consumer-specific properties by using the consumer.override.* prefix (for sink connectors).

You can use the defaults or customize the other properties as well. For example, the confluent.topic.client.id property defaults to the name of the connector with -licensing suffix. You can specify the configuration settings for brokers that require SSL or SASL for client connections using this prefix.

You cannot override the cleanup policy of a topic because the topic always has a single partition and is compacted. Also, do not specify serializers and deserializers using this prefix; they are ignored if added.