Golang Developers, In this article, we shall see how to implement message queues in Golang using RabbitMQ.
We believe message queues are a vital component to any architecture or application. For example, some process takes more time to process or occasionally, one needs to delay a time-consuming job for a while. In such cases, the process needs to be queued for future execution.
For this to happen, you need a broker: someone who will accept messages (e.g. jobs, tasks) from various senders (i.e. a web application), queue them up, and distribute them to the relevant parties (i.e. workers) to make use of them – all asynchronously and on-demand.
We can use NSQ for the purpose, which is purely written in Golang or alternatively we can use RabbitMQ which is written in Erlang but wholly supports Golang.
As mentioned above, in this article, we will walk you through RabbitMQ queue implementation in Golang. It is written based on Ubuntu, but it works in other Linux libraries too.
Why use message queues?
Here are the main reasons:
- Decoupling – allows you to extend and modify these processes independently
- Elasticity & Spikability – Reduce loads and delivery times
- Persistence – Persistence is needed to pass the information along from one place to another. This eliminates data loss since it is readily available in the queue until the process in the queue is completed
- Scalability – Easy to scale up the rate with which messages are added to the queue or processed
- Asynchronous Communication – Allows you to put a message on the queue without processing it immediately. Queue up as many messages as you like, then process them at your leisure
- Delivery Guarantee – Provides guaranteed delivery
What is RabbitMQ?
It is an open-source message-broker application stack which implements the Advanced Message Queuing Protocol (AMQP) to facilitate the passing of messages between or within systems.
How does it work?
RabbitMQ connects message senders (Publishers) with receivers (Consumers) through an exchange (Broker) which distributes the data to relevant lists (Message Queues).
Installing RabbitMQ
Install RabbitMQ with following commands
## Enable RabbitMQ application repository ## echo 'deb http://www.rabbitmq.com/debian/ testing main' | sudo tee /etc/apt/sources.list.d/rabbitmq.list ## Add the verification key for the package ## curl http://www.rabbitmq.com/rabbitmq-signing-key-public.asc | sudo apt-key add - ## Update ## sudo apt-get update ## Install RabbitMQ ## sudo apt-get install rabbitmq-server ## to manage the maximum amount of connections upon launch, open up and edit the following configuration file ## sudo nano /etc/default/rabbitmq-server Uncomment the limit line (i.e. remove #)
## To enable RabbitMQ Management ## sudo rabbitmq-plugins enable rabbitmq_management Then we can be accessed using web browser: http://localhost:15672/ ## To start/stop the service ## service rabbitmq-server start service rabbitmq-server stop
Using RabbitMQ:
The following steps explains how your message gets published and how your message gets handled correctly:
- Requirement
- Making a connection
- Making a channel
- Declaring a queue
- Publishing a message
- Consuming a message
Requirement
To implement message queue, we need Go RabbitMQ client
go get github.com/streadway/amqp
Making a connection
AMQP connections are typically long-lived. AMQP is an application level protocol that uses TCP for reliable delivery. AMQP connections use authentication and can be protected using TLS (SSL). When an application no longer needs to be connected to an AMQP broker, it should gracefully close the AMQP connection instead of abruptly closing the underlying TCP connection.
This creates long-lived TCP connection between an AMQP client and a queue broker.
conn, err := amqp.Dial("amqp://guest:guest@localhost:5672/") failOnError(err, "Failed to connect to RabbitMQ") defer conn.Close()
Making a channel
This creates a short-lived sub-connection between a client and a broker.
ch, err := conn.Channel() failOnError(err, "Failed to open a channel") defer ch.Close()
Declaring a queue
A queue is a first-in, first out (FIFO) holder of messages.
We can handle several queues at the same time. This facilitates categorisation.
q, err := ch.QueueDeclare( "retaildash-scrapy", // name false, // durable false, // delete when unused false, // exclusive false, // no-wait (wait time for processing) nil, // arguments ) failOnError(err, "Failed to declare a queue")
Publishing a message
Publish() is the method that puts (publishes) the data into the queue.
err = ch.Publish( "", // exchange q.Name, // routing key false, // mandatory false, // immediate amqp.Publishing{ ContentType: "text/plain", Body: []byte(body), }) log.Printf(" [x] Sent %s", body) failOnError(err, "Failed to publish a message")
Consuming a message
Now that the data is ‘published’ into the queue, it has to be consumed so as to handle the data for the processing.
msgs, err := ch.Consume( q.Name, // queue "", // consumer true, // auto-ack false, // exclusive false, // no-local false, // no-wait nil, // args ) failOnError(err, "Failed to register a consumer") for d := range msgs { log.Printf("Received a message: %s", d.Body) //any kind of further processing code }
This is a sample usage of the RabbitMQ to handle message queueing. As mentioned above, the advantages of queueing messages are numerous, and RabbitMQ in Golang enables easy usage to implement it.
For more examples, Check this https://github.com/rabbitmq/rabbitmq-tutorials/tree/master/go
To learn more, see RabbitMQ.
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