Kafka Driver Deployment Guide

Introduction

The Kafka Driver is an experimental messaging transport backend in oslo.messaging. The driver maps the base oslo.messaging capabilities for notification message exchange onto V2.0 of the Apache Kafka distributed streaming platform. More detail regarding the Apache Kafka server is available from the Apache Kafka website.

More detail regarding the driver’s implementation is available from the adding kafka driver specification and the update kafka driver specification .

Overview

The Kafka driver only supports use for sending and receiving oslo.messaging notifications. Specifically, the Kafka driver does not support oslo.messaging RPC transfers. Communications between the driver and Kafka server backend uses a binary protocol over TCP that defines all APIs as request response message pairs. The Kafka driver integrates the confluent kafka python client for full protocol support and utilizes the Producer API to publish notification messages and the Consumer API for notification listener subscriptions. The driver is able to work with a single instance of a Kafka server or a clustered Kafka server deployment.

Hybrid Messaging Deployment

Oslo.messaging provides a mechanism to configure separate messaging backends for RPC and notification communications. This is supported through the definition of separate RPC and notification transport urls in the service configuration. When the Kafka driver is deployed for oslo.messaging notifications, a separate driver and messaging backend must be deployed for RPC communications. For these hybrid messaging configurations, either the rabbit or amqp drivers can be deployed for oslo.messaging RPC.

Topics and vhost Support

The Kafka topic is the feed name to which records are published. Topics in Kafka are multi-subscriber such that a topic can have zero, one or many consumers that subscribe to the data written to it. In oslo.messaging, a notification listener subscribes to a topic in a supplied target that is directly mapped by the driver to the Kafka topic. The Kafka server architecture does not natively support vhosts. In order to support the presence of a vhost in the transport url provided to the driver, the topic created on the Kafka server will be appended with the virtual host name. This creates a unique topic per virtual host but note there is otherwise no access control or isolation provided by the Kafka server.

Listener Pools

The Kafka driver provides support for listener pools. This capability is realized by mapping the listener pool name to a Kafka server consumer group name. Each record published to a topic will be delivered to one consumer instance within each subscribing pool (e.g. consumer group). If a listener pool name is not assigned to the notification listener, a single default consumer group will be used by the Kafka driver and all listeners will be assigned to that group and the messages will effectively be load balanced across the competing listener instances.

Synchronous Commit

A primary functional difference between a Kafka server and a classic broker queue is that the offset or position of the message read from the commit log is controlled by the listener (e.g. consumer). The driver will advance the offset it maintains linearly as it reads message records from the server. To ensure that duplicate messages are not generated during downtime or communication interruption, the driver will synchronously commit the consumed messages prior to the notification listener dispatch. Due to this, the driver does not support the re-queue operation and the driver can not replay messages from a Kafka partition.

Prerequisites

In order to run the driver the confluent-kafka python client must be installed. The Kafka driver integrates a Python client based on librdkafka for full protocol support and utilizes the Producer API to publish notification messages and the Consumer API for notification listener subscriptions.

Source packages for the confluent-kafka library are available via PyPI. Since the Kafka driver is an optional extension to oslo.messaging these packages are not installed by default. Use the ‘kafka’ extras tag when installing oslo.messaging in order to pull in these extra packages:

python -m pip install oslo.messaging[kafka]

Configuration

Transport URL Enable

In oslo.messaging, the transport_url parameters define the OpenStack service backends for RPC and Notify. The url is of the form:

transport://user:pass@host1:port[,hostN:portN]/virtual_host

Where the transport value specifies the rpc or notification backend as one of amqp, rabbit, kafka, etc. To specify and enable the Kafka driver for notifications, in the section [oslo_messaging_notifications] of the service configuration file, specify the transport_url parameter:

[oslo_messaging_notifications]
transport_url = kafka://username:password@kafkahostname:9092

Note, that if a transport_url parameter is not specified in the [oslo_messaging_notifications] section, the [DEFAULT] transport_url will be used for both RPC and Notify backends.

Driver Options

It is recommended that the default configuration options provided by the Kafka driver be used. The configuration options can be modified in the oslo_messaging_kafka section of the service configuration file.

Notification Listener Options

kafka_max_fetch_bytes

Initial maximum number of bytes per topic+partition to request when fetching messages from the broker.

kafka_consumer_timeout

Consumer polling interval timeout.

consumer_group

The default client group identifier.

enable_auto_commit

Indicator to perform asynchronous consumer message commits.

max_poll_records

The maximum number of messages to return per consume/poll operation.

Notifier Options

producer_batch_timeout

Delay (ms) to wait for messages in the producer queue to accumulate before constructing message sets to transmit to broker

producer_batch_size

The maximum number of messages batched into one message set

Security Options

security_protocol

The protocol used to communicate with the Kafka brokers.

sasl_mechanisms

SASL mechanism to use for authentication. Current driver support is for PLAIN only.

ssl_cafile

A file containing the trusted Certificate Authority’s digital certificate (in PEM format). This certificate is used to authenticate the messaging backend.

DevStack Support

The plugin for the Kafka oslo.messaging driver is supported by DevStack. As the Kafka driver can only be deployed for notifications, the plugin supports the deployment of several message bus configurations. In local.conf [localrc] section, the devstack-plugin-kafka plugin repository must be enabled. For example:

[[local|localrc]]
enable_plugin kafka https://git.openstack.org/openstack/devstack-plugin-kafka

Set the Kafka and Scala version and location variables if needed for the configuration

KAFKA_VERSION=2.0.0
KAFKA_BASEURL=http://www.apache.org/dist/kafka
SCALA_VERSION=2.12
SCALA_BASEURL=http://www.scala-lang.org/riles/archive

The RPC_ and NOTIFY_ variables will define the message bus configuration that will be used. The hybrid configurations will allow for the rabbit and amqp drivers to be used for the RPC transports while the kafka driver will be used for the Notify transport. The setting of the service variables will select which messaging intermediary is enabled for the configuration:

RPC

NOTIFY

SERVICE

PORT

SERVICE

PORT

Config 1

rabbit

5672

kafka

9092

Config 1

amqp

5672

kafka

9092