RabbitMQ tutorial - Routing
Routing
(using the Pika Python client)
Prerequisites
This tutorial assumes RabbitMQ is installed and running on
localhost
on the standard port (5672). In case you
use a different host, port or credentials, connections settings would require
adjusting.
Where to get help
If you're having trouble going through this tutorial you can contact us through GitHub Discussions or RabbitMQ community Discord.
Prerequisites
As with other Python tutorials, we will use the Pika RabbitMQ client version 1.0.0.
What This Tutorial Focuses On
In the previous tutorial we built a simple logging system. We were able to broadcast log messages to many receivers.
In this tutorial we're going to add a feature to it - we're going to make it possible to subscribe only to a subset of the messages. For example, we will be able to direct only critical error messages to the log file (to save disk space), while still being able to print all of the log messages on the console.
Bindings
In previous examples we were already creating bindings. You may recall code like:
channel.queue_bind(exchange=exchange_name,
queue=queue_name)
A binding is a relationship between an exchange and a queue. This can be simply read as: the queue is interested in messages from this exchange.
Bindings can take an extra routing_key
parameter. To avoid the
confusion with a basic_publish
parameter we're going to call it a
binding key
. This is how we could create a binding with a key:
channel.queue_bind(exchange=exchange_name,
queue=queue_name,
routing_key='black')
The meaning of a binding key depends on the exchange type. The
fanout
exchanges, which we used previously, simply ignored its
value.
Direct exchange
Our logging system from the previous tutorial broadcasts all messages to all consumers. We want to extend that to allow filtering messages based on their severity. For example we may want the script which is writing log messages to the disk to only receive critical errors, and not waste disk space on warning or info log messages.
We were using a fanout
exchange, which doesn't give us too much
flexibility - it's only capable of mindless broadcasting.
We will use a direct
exchange instead. The routing algorithm behind
a direct
exchange is simple - a message goes to the queues whose
binding key
exactly matches the routing key
of the message.
To illustrate that, consider the following setup:
In this setup, we can see the direct
exchange X
with two queues bound
to it. The first queue is bound with binding key orange
, and the second
has two bindings, one with binding key black
and the other one
with green
.
In such a setup a message published to the exchange with a routing key
orange
will be routed to queue Q1
. Messages with a routing key of black
or green
will go to Q2
. All other messages will be discarded.
Multiple bindings
It is perfectly legal to bind multiple queues with the same binding
key. In our example we could add a binding between X
and Q1
with
binding key black
. In that case, the direct
exchange will behave
like fanout
and will broadcast the message to all the matching
queues. A message with routing key black
will be delivered to both
Q1
and Q2
.
Emitting logs
We'll use this model for our logging system. Instead of fanout
we'll
send messages to a direct
exchange. We will supply the log severity as
a routing key
. That way the receiving script will be able to select
the severity it wants to receive. Let's focus on emitting logs
first.
Like always we need to create an exchange first:
channel.exchange_declare(exchange='direct_logs',
exchange_type='direct')
And we're ready to send a message:
channel.basic_publish(exchange='direct_logs',
routing_key=severity,
body=message)
To simplify things we will assume that 'severity' can be one of 'info', 'warning', 'error'.
Subscribing
Receiving messages will work just like in the previous tutorial, with one exception - we're going to create a new binding for each severity we're interested in.
result = channel.queue_declare(queue='', exclusive=True)
queue_name = result.method.queue
for severity in severities:
channel.queue_bind(exchange='direct_logs',
queue=queue_name,
routing_key=severity)
Putting it all together
emit_log_direct.py
(source)
#!/usr/bin/env python
import pika
import sys
connection = pika.BlockingConnection(
pika.ConnectionParameters(host='localhost'))
channel = connection.channel()
channel.exchange_declare(exchange='direct_logs', exchange_type='direct')
severity = sys.argv[1] if len(sys.argv) > 1 else 'info'
message = ' '.join(sys.argv[2:]) or 'Hello World!'
channel.basic_publish(
exchange='direct_logs', routing_key=severity, body=message)
print(f" [x] Sent {severity}:{message}")
connection.close()
receive_logs_direct.py
(source)
#!/usr/bin/env python
import pika
import sys
connection = pika.BlockingConnection(
pika.ConnectionParameters(host='localhost'))
channel = connection.channel()
channel.exchange_declare(exchange='direct_logs', exchange_type='direct')
result = channel.queue_declare(queue='', exclusive=True)
queue_name = result.method.queue
severities = sys.argv[1:]
if not severities:
sys.stderr.write("Usage: %s [info] [warning] [error]\n" % sys.argv[0])
sys.exit(1)
for severity in severities:
channel.queue_bind(
exchange='direct_logs', queue=queue_name, routing_key=severity)
print(' [*] Waiting for logs. To exit press CTRL+C')
def callback(ch, method, properties, body):
print(f" [x] {method.routing_key}:{body}")
channel.basic_consume(
queue=queue_name, on_message_callback=callback, auto_ack=True)
channel.start_consuming()
If you want to save only 'warning' and 'error' (and not 'info') log messages to a file, just open a console and type:
python receive_logs_direct.py warning error > logs_from_rabbit.log
If you'd like to see all the log messages on your screen, open a new terminal and do:
python receive_logs_direct.py info warning error
# => [*] Waiting for logs. To exit press CTRL+C
And, for example, to emit an error
log message just type:
python emit_log_direct.py error "Run. Run. Or it will explode."
# => [x] Sent 'error':'Run. Run. Or it will explode.'
Move on to tutorial 5 to find out how to listen for messages based on a pattern.