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This is unreleased documentation for Rasa Documentation Main/Unreleased version.
For the latest released documentation, see the latest version (3.x).

Version: Main/Unreleased

Event Brokers

An event broker allows you to connect your running assistant to other services that process the data coming in from conversations. The event broker publishes messages to a message streaming service, also known as a message broker, to forward Rasa Events from the Rasa server to other services.

Format

All events are streamed to the broker as serialized dictionaries every time the tracker updates its state. An example event emitted from the default tracker looks like this:

{
"sender_id": "default",
"timestamp": 1528402837.617099,
"event": "bot",
"text": "what your bot said",
"data": "some data about e.g. attachments"
"metadata" {
"a key": "a value",
}
}

The event field takes the event's type_name (for more on event types, check out the events docs).

Pika Event Broker

The example implementation we're going to show you here uses Pika , the Python client library for RabbitMQ.

Adding a Pika Event Broker Using the Endpoint Configuration

You can instruct Rasa to stream all events to your Pika event broker by adding an event_broker section to your endpoints.yml:

event_broker:
type: pika
url: localhost
username: username
password: password
queues:
- queue-1
# you may supply more than one queue to publish to
# - queue-2
# - queue-3
exchange_name: exchange

A comprehensive list of all arguments that can be customized in the endpoints.yml file can be found in the reference documentation. Rasa will automatically start streaming events when you restart the Rasa server.

Adding SSL options to the Pika Event Broker

You can create RabbitMQ SSL options by setting the following required environment variables:

  • RABBITMQ_SSL_CLIENT_CERTIFICATE: path to the SSL client certificate
  • RABBITMQ_SSL_CLIENT_KEY: path to the SSL client key

Please note that specifying 'RABBITMQ_SSL_CA_FILE' via environment variables is no longer supported, as well as specifying RABBITMQ_SSL_KEY_PASSWORD environment variable - please use a key file that is not encrypted instead.

Adding a Pika Event Broker in Python

Here is how you add it using Python code:

import asyncio
from rasa.core.brokers.pika import PikaEventBroker
from rasa.core.tracker_store import InMemoryTrackerStore
pika_broker = PikaEventBroker('localhost',
'username',
'password',
queues=['rasa_events'],
event_loop=event_loop
)
asyncio.run(pika_broker.connect())
tracker_store = InMemoryTrackerStore(domain=domain, event_broker=pika_broker)

Implementing a Pika Event Consumer

You need to have a RabbitMQ server running, as well as another application that consumes the events. This consumer to needs to implement Pika's start_consuming() method with a callback action. Here's a simple example:

import json
import pika
def _callback(ch, method, properties, body):
# Do something useful with your incoming message body here, e.g.
# saving it to a database
print("Received event {}".format(json.loads(body)))
if __name__ == "__main__":
# RabbitMQ credentials with username and password
credentials = pika.PlainCredentials("username", "password")
# Pika connection to the RabbitMQ host - typically 'rabbit' in a
# docker environment, or 'localhost' in a local environment
connection = pika.BlockingConnection(
pika.ConnectionParameters("rabbit", credentials=credentials)
)
# start consumption of channel
channel = connection.channel()
channel.basic_consume(queue="rasa_events", on_message_callback=_callback, auto_ack=True)
channel.start_consuming()

Sending Events to Multiple Queues

You can specify multiple event queues to publish events to. This should work for all event brokers supported by Pika (e.g. RabbitMQ)

Kafka Event Broker

While RabbitMQ is the default event broker, it is possible to use Kafka as the main broker for your events. Rasa uses the confluent-kafka library, a Kafka client written in Python. You will need a running Kafka server.

Partition Key

Rasa's Kafka producer can optionally be configured to partition messages by conversation ID. This can be configured by setting partition_by_sender in the endpoints.yml file to True. By default, this parameter is set to False and the producer will randomly assign a partition to each message.

endpoints.yml
event_broker:
type: kafka
partition_by_sender: True
security_protocol: PLAINTEXT
topic: topic
url: localhost
client_id: kafka-python-rasa

Authentication and Authorization

Rasa's Kafka producer accepts the following types of security protocols: SASL_PLAINTEXT, SSL, PLAINTEXT and SASL_SSL.

For development environments, or if the brokers servers and clients are located into the same machine, you can use simple authentication with SASL_PLAINTEXT or PLAINTEXT. By using this protocol, the credentials and messages exchanged between the clients and servers will be sent in plaintext. Thus, this is not the most secure approach, but since it's simple to configure, it is useful for simple cluster configurations. SASL_PLAINTEXT protocol requires the setup of the username and password previously configured in the broker server.

If the clients or the brokers in the kafka cluster are located in different machines, it's important to use the SSL or SASL_SSL protocol to ensure encryption of data and client authentication. After generating valid certificates for the brokers and the clients, the path to the certificate and key generated for the producer must be provided as arguments, as well as the CA's root certificate.

When using the SASL_PLAINTEXT and SASL_SSL protocols, the sasl_mechanism can be optionally configured and is set to PLAIN by default. Valid values for sasl_mechanism are: PLAIN, GSSAPI, OAUTHBEARER, SCRAM-SHA-256, and SCRAM-SHA-512.

If GSSAPI is used for the sasl_mechanism, you will need to additionally install python-gssapi and the necessary C library Kerberos dependencies.

If the ssl_check_hostname parameter is enabled, the clients will verify if the broker's hostname matches the certificate. It's used on client's connections and inter-broker connections to prevent man-in-the-middle attacks.

Adding a Kafka Event Broker Using the Endpoint Configuration

You can instruct Rasa to stream all events to your Kafka event broker by adding an event_broker section to your endpoints.yml.

Using the SASL_PLAINTEXT protocol the endpoints file must have the following entries:

event_broker:
type: kafka
security_protocol: SASL_PLAINTEXT
topic: topic
url: localhost
partition_by_sender: True
sasl_username: username
sasl_password: password
sasl_mechanism: PLAIN

Using the PLAINTEXT protocol the endpoints file must have the following entries:

event_broker:
type: kafka
security_protocol: PLAINTEXT
topic: topic
url: localhost
client_id: kafka-python-rasa

If using the SSL protocol, the endpoints file should look like:

event_broker:
type: kafka
security_protocol: SSL
topic: topic
url: localhost
ssl_cafile: CARoot.pem
ssl_certfile: certificate.pem
ssl_keyfile: key.pem
ssl_check_hostname: True

If using the SASL_SSL protocol, the endpoints file should look like:

event_broker:
type: kafka
security_protocol: SASL_SSL
topic: topic
url: localhost
sasl_username: username
sasl_password: password
sasl_mechanism: PLAIN
ssl_cafile: CARoot.pem
ssl_certfile: certificate.pem
ssl_keyfile: key.pem
ssl_check_hostname: True

Sending Events to Multiple Queues

Kafka does not allow you to configure multiple topics.

However, multiple consumers can read from the same queue as long as they are in different consumer groups. Each consumer group will process all events independent of each other (in a sense, each group has their own reference to the last event they have processed). Kafka: The Definitive Guide

SQL Event Broker

It is possible to use an SQL database as an event broker. Connections to databases are established using SQLAlchemy, a Python library which can interact with many different types of SQL databases, such as SQLite, PostgreSQL and more. The default Rasa installation allows connections to SQLite and PostgreSQL databases. To see other options, please see the SQLAlchemy documentation on SQL dialects.

Adding a SQL Event Broker Using the Endpoint Configuration

To instruct Rasa to save all events to your SQL event broker, add an event_broker section to your endpoints.yml. For example, a valid SQLite configuration could look like this:

endpoints.yml
event_broker:
type: SQL
dialect: sqlite
db: events.db

PostgreSQL databases can be used as well:

endpoints.yml
event_broker:
type: SQL
url: 127.0.0.1
port: 5432
dialect: postgresql
username: myuser
password: mypassword
db: mydatabase

With this configuration applied, Rasa will create a table called events on the database, where all events will be added.

FileEventBroker

It is possible to use the FileEventBroker as an event broker. This implementation will log events to a file in json format. You can provide a path key in the endpoints.yml file if you wish to override the default file name: rasa_event.log.

Custom Event Broker

If you need an event broker which is not available out of the box, you can implement your own. This is done by extending the base class EventBroker.

Your custom event broker class must also implement the following base class methods:

Configuration

Put the module path to your custom event broker and the parameters you require in your endpoints.yml:

endpoints.yml
event_broker:
type: path.to.your.module.Class
url: localhost
a_parameter: a value
another_parameter: another value