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Chapter 2. Important terms and concepts

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Before using AMQ Interconnect, you should be familiar with AMQP and understand some key concepts about AMQ Interconnect.

2.1. Overview of AMQP

AMQ Interconnect implements version 1.0 of the Advanced Message Queueing Protocol (AMQP) specification. Therefore, you should understand several key AMQP terms and concepts before deploying or configuring AMQ Interconnect.

Containers

AMQP is a wire-level messaging protocol for transferring messages between applications called containers. In AMQP, a container is any application that sends or receives messages, such as a client application or message broker.

Containers connect to each other over connections, which are channels for communication.

Nodes
Containers contain addressable entities called nodes that are responsible for storing or delivering messages. For example, a queue on a message broker is a node.
Links

Messages are transferred between connected containers over links. A link is a unidirectional route between nodes. Essentially, a link is a channel for sending or receiving messages.

Links are established over sesssions, which are contexts for sending and receiving messages. Sessions are established over connections.

2.2. What routers are

AMQ Interconnect is an application layer program running as a normal user program or as a daemon. A running instance of AMQ Interconnect is called a router.

Routers do not take responsibility for messages
Routers transfer messages between producers and consumers, but unlike message brokers, they do not take responsibility for messages. Instead, routers propagate message settlement and disposition across a network such that delivery guarantees are met. That is, the router network will deliver the message – possibly through several intermediate routers – and then route the consumer’s acknowledgement of that message back across the same path. The responsibility for the message is transfered from the producer to the consumer as if they were directly connected.
Routers are combined to form router networks
Routers are often deployed in topologies of multiple routers called a router network. Routers use link-state routing protocols and algorithms similar to the Open Shortest Path First (OSPF) and Intermediate System to Intermediate System (IS-IS) protocols to calculate the best path from every message source to every message destination, and to recover quickly from failures. A router network relies on redundant network paths to provide continued connectivity in case of system or network failure.
Routers enhance both direct and indirect messaging patterns

A messaging client can make a single AMQP connection into a router network and, over that connection, exchange messages with one or more message brokers connected to any router in the network. At the same time, the client can exchange messages directly with other endpoints without involving a broker at all.

Example 2.1. Enhancing the use of message brokers

Routers can enhance a cluster of message brokers that provide a scalable, distributed work queue.

The router network makes the broker cluster appear as a single queue, with producers publishing to a single address, and consumers subscribing to a single address. The router network can distribute work to any broker in the cluster, and collect work from any broker for any consumer.

The routers improve the scalability of the broker cluster, because brokers can be added or removed from the cluster without affecting the clients.

The routers also solve the common difficulty of "stuck messages". Without the router network, if a consumer is connected to a broker that does not have any messages (but other brokers in the cluster do have messages), you must either transfer the messages or leave them "stuck". The routers solve this issue, however, because all of the consumers are connected to all of the brokers through the router network. A message on any broker can be delivered to any of the consumers.

2.3. How routers route messages

In a router network, routing is the process by which messages are delivered to their destinations. To accomplish this, AMQ Interconnect offers two different routing mechanisms:

Message routing

Message routing enables you to distribute messages in anycast and multicast patterns. These patterns can be used for both direct routing, in which the router distributes messages between clients without a message broker, and indirect routing, in which the router enables clients to exchange messages through a message broker.

Message routing is useful for the following types of requirements:

  • Default, basic message routing

    AMQ Interconnect automatically routes messages by default, so manual configuration is only required if you want routing behavior that is different than the default.

  • Message-based routing patterns

    Message routing supports both anycast and multicast routing patterns. You can load-balance individual messages across multiple consumers, and multicast (or fan-out) messages to multiple subscribers.

  • Sharding messages across multiple message brokers when message delivery order is not important

    Sharding messages from one producer might cause that producer’s messages to be received in a different order than the order in which they were sent.

Link routing

Link routing enables you to establish a dedicated, virtual "path" between a sender and receiver that travels through the router network. Link routes are typically used to connect clients to message brokers in scenarios in which a direct connection is unfeasible. Therefore, link routes enable messaging capabilities that are not possible with message routing, such as:

  • Transactional messaging

    Link routing supports local transactions to a single broker. Distributed transactions are not supported.

  • Guaranteed message delivery order

    Link routing to a sharded queue preserves the delivery order of the producer’s messages by causing all messages on that link to go to the same broker instance.

  • End-to-end flow control

    Flow control is "real" in that credits flow across the link route from the receiver to the sender.

  • Server-side selectors

    With a link route, consumers can provide server-side selectors for broker subscriptions.

2.4. Router security

AMQ Interconnect provides authentication and authorization mechanisms so that you can control who can access the router network, and what they can do with the messaging resources.

Authentication

AMQ Interconnect supports both SSL/TLS and SASL for encrypting and authenticating remote peers. Using these mechanisms, you can secure the router network in the following ways:

  • Authenticate incoming connections from remote peers (such as clients and message brokers)
  • Provide authentication credentials for outgoing connections to remote peers (such as clients and message brokers)
  • Secure the inter-router connections between the routers in the router network
Authorization
AMQ Interconnect provides a policy mechanism that you can use to enforce user connection restrictions and AMQP resource access control.

2.5. Router management

AMQ Interconnect provides both graphical and CLI tools for monitoring and managing a router network.

Red Hat AMQ Interconnect Console
A web console for monitoring the layout and health of the router network.
qdstat

A command-line tool for monitoring the status of a router in the router network. Using this tool, you can view the following information about a router:

  • Incoming and outgoing connections
  • Incoming and outgoing links
  • Router network topology from the perspective of this router
  • Addresses known to this router
  • Link routes and autolinks
  • Memory consumption information
qdmanage
A command-line tool for viewing and updating the configuration of a router at runtime.

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