The RabbitMQ Java client has the following concepts:

  • Connection - a connection to a RabbitMQ server instance
  • Channel - ???
  • Consumer thread pool - a pool of threads that consume messages off the RabbitMQ server queues
  • Queue - a structure that holds messages in FIFO order

I'm trying to understand the relationship, and more importantly, the associations between them.

  1. I'm still not quite sure what a Channel is, other than the fact that this is the structure that you publish and consume from, and that it is created from an open connection. If someone could explain to me what the "Channel" represents, it might help clear a few things up.
  2. What is the relationship between Channel and Queue? Can the same Channel be used to communicate to multiples Queues, or does it have to be 1:1?
  3. What is the relationship between Queue and the Consumer Pool? Can multiple Consumers be subscribed to the same Queue? Can multiple Queues be consumed by the same Consumer? Or is the relationship 1:1?
  • The answers to this question led to me reporting this issue with the golang client rather than asking the question here. Commented Feb 28, 2020 at 18:43
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    The channel is a logical concept used to multiplex a single physical TCP connection between a client and a node. The channel number is included in the message header of the AMQP frame.
    – ymas
    Commented Jul 5, 2020 at 10:47

4 Answers 4

  1. A Connection represents a real TCP connection to the message broker, whereas a Channel is a virtual connection (AMQP connection) inside it. This way you can use as many (virtual) connections as you want inside your application without overloading the broker with TCP connections.

  2. You can use one Channel for everything. However, if you have multiple threads, it's suggested to use a different Channel for each thread.

    Channel thread-safety in Java Client API Guide:

    Channel instances are safe for use by multiple threads. Requests into a Channel are serialized, with only one thread being able to run a command on the Channel at a time. Even so, applications should prefer using a Channel per thread instead of sharing the same Channel across multiple threads.

    There is no direct relation between Channel and Queue. A Channel is used to send AMQP commands to the broker. This can be the creation of a queue or similar, but these concepts are not tied together.

  3. Each Consumer runs in its own thread allocated from the consumer thread pool. If multiple Consumers are subscribed to the same Queue, the broker uses round-robin to distribute the messages between them equally. See Tutorial two: "Work Queues".

    It is also possible to attach the same Consumer to multiple Queues. You can understand Consumers as callbacks. These are called everytime a message arrives on a Queue the Consumer is bound to. For the case of the Java Client, each Consumers has a method handleDelivery(...), which represents the callback method. What you typically do is, subclass DefaultConsumer and override handleDelivery(...). Note: If you attach the same Consumer instance to multiple queues, this method will be called by different threads. So take care of synchronization if necessary.

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    Just to add from the documentation: Callbacks to Consumers are dispatched on a thread separate from the thread managed by the Connection. This means that Consumers can safely call blocking methods on the Connection or Channel, such as queueDeclare, txCommit, basicCancel or basicPublish. Each Channel has its own dispatch thread. For the most common use case of one Consumer per Channel, this means Consumers do not hold up other Consumers. If you have multiple Consumers per Channel be aware that a long-running Consumer may hold up dispatch of callbacks to other Consumers on that Channel.
    – filip
    Commented Jul 22, 2014 at 15:04
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    If you attach the same Consumer instance to multiple Queues from the same Channel that would mean that the callbacks are dispatched on the same thread. In that case you would not need synchronization, would you?
    – filip
    Commented Jul 22, 2014 at 15:14
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    Can I use only one connection and use a pool of channels instead of a connection pool? Will this affect message publishing throughput?
    – qeek
    Commented Jun 18, 2015 at 9:19
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    I think this reference to the Java Client API is now outdated and in fact today's reference directly contradicts the quote in this answer. Today's reference says "Channel instances must not be shared between threads". Commented Jan 23, 2017 at 2:07
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    @EdwinDalorzo - it looks like whomever originally wrote the documentation didn't fully understand the channel-connection dichotomy. The fundamental architecture of AMQP 0.9.1 really treats a channel as a session, so different threads sharing a session really is nonsense. My guess is that's the reason for the change.
    – theMayer
    Commented Feb 26, 2018 at 17:30

A good conceptual understanding of what the AMQP protocol does "under the hood" is useful here. I would offer that the documentation and API that AMQP 0.9.1 chose to deploy makes this particularly confusing, so the question itself is one which many people have to wrestle with.


A connection is the physical negotiated TCP socket with the AMQP server. Properly-implemented clients will have one of these per application, thread-safe, sharable among threads.

A channel is a single application session on the connection. A thread will have one or more of these sessions. AMQP architecture 0.9.1 is that these are not to be shared among threads, and should be closed/destroyed when the thread that created it is finished with it. They are also closed by the server when various protocol violations occur.

A consumer is a virtual construct that represents the presence of a "mailbox" on a particular channel. The use of a consumer tells the broker to push messages from a particular queue to that channel endpoint.

Connection Facts

First, as others have correctly pointed out, a connection is the object that represents the actual TCP connection to the server. Connections are specified at the protocol level in AMQP, and all communication with the broker happens over one or more connections.

  • Since it's an actual TCP connection, it has an IP Address and Port #.
  • Protocol parameters are negotiated on a per-client basis as part of setting up the connection (a process known as the handshake.
  • It is designed to be long-lived; there are few cases where connection closure is part of the protocol design.
  • From an OSI perspective, it probably resides somewhere around Layer 6
  • Heartbeats can be set up to monitor the connection status, as TCP does not contain anything in and of itself to do this.
  • It is best to have a dedicated thread manage reads and writes to the underlying TCP socket. Most, if not all, RabbitMQ clients do this. In that regard, they are generally thread-safe.
  • Relatively speaking, connections are "expensive" to create (due to the handshake), but practically speaking, this really doesn't matter. Most processes really will only need one connection object. But, you can maintain connections in a pool, if you find you need more throughput than a single thread/socket can provide (unlikely with current computing technology).

Channel Facts

A Channel is the application session that is opened for each piece of your app to communicate with the RabbitMQ broker. It operates over a single connection, and represents a session with the broker.

  • As it represents a logical part of application logic, each channel usually exists on its own thread.
  • Typically, all channels opened by your app will share a single connection (they are lightweight sessions that operate on top of the connection). Connections are thread-safe, so this is OK.
  • Most AMQP operations take place over channels.
  • From an OSI Layer perspective, channels are probably around Layer 7.
  • Channels are designed to be transient; part of the design of AMQP is that the channel is typically closed in response to an error (e.g. re-declaring a queue with different parameters before deleting the existing queue).
  • Since they are transient, channels should not be pooled by your app.
  • The server uses an integer to identify a channel. When the thread managing the connection receives a packet for a particular channel, it uses this number to tell the broker which channel/session the packet belongs to.
  • Channels are not generally thread-safe as it would make no sense to share them among threads. If you have another thread that needs to use the broker, a new channel is needed.

Consumer Facts

A consumer is an object defined by the AMQP protocol. It is neither a channel nor a connection, instead being something that your particular application uses as a "mailbox" of sorts to drop messages.

  • "Creating a consumer" means that you tell the broker (using a channel via a connection) that you would like messages pushed to you over that channel. In response, the broker will register that you have a consumer on the channel and begin pushing messages to you.
  • Each message pushed over the connection will reference both a channel number and a consumer number. In that way, the connection-managing thread (in this case, within the Java API) knows what to do with the message; then, the channel-handling thread also knows what to do with the message.
  • Consumer implementation has the widest amount of variation, because it's literally application-specific. In my implementation, I chose to spin off a task each time a message arrived via the consumer; thus, I had a thread managing the connection, a thread managing the channel (and by extension, the consumer), and one or more task threads for each message delivered via the consumer.
  • Closing a connection closes all channels on the connection. Closing a channel closes all consumers on the channel. It is also possible to cancel a consumer (without closing the channel). There are various cases when it makes sense to do any of the three things.
  • Typically, the implementation of a consumer in an AMQP client will allocate one dedicated channel to the consumer to avoid conflicts with the activities of other threads or code (including publishing).

In terms of what you mean by consumer thread pool, I suspect that Java client is doing something similar to what I programmed my client to do (mine was based off the .Net client, but heavily modified).

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    "channels should not be pooled", that's what I'm looking for
    – ospider
    Commented Aug 11, 2018 at 21:38
  • "Since they are transient, channels should not be pooled by your app." - can you clarify how you came to this conclusion please. The docs recommend channel pooling if the "one channel per thread" implementation is using too much resource, see here: rabbitmq.com/channels.html#resource-usage
    – ymas
    Commented Jul 5, 2020 at 10:35
  • @ymas - The documentation you are referring to is speculative, and in my opinion, poor guidance. I am reading the source code and protocol spec. Channels are not to be pooled, period. Further, one channel per thread is guidance based on this same principle. If you find that you have so many open channels that the server is resource-constrained, you need to reevaluate your architecture (i.e. switch to a high-availability scheme and/or reduce concurrency).
    – theMayer
    Commented Jul 5, 2020 at 18:45
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    @theMayer I did not ask that. In any case, let's terminate the debate. I just signal to you a paragraph of the official docs: Those with particularly high concurrency rates (usually such applications are consumers) can start with one channel per thread/process/coroutine and switch to channel pooling when metrics suggest that the original model is no longer sustainable, e.g. because it consumes too much memory (emphasis mine)
    – MatteoSp
    Commented Jul 20, 2021 at 8:43
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    @theMayer, great answer, thanks for the information. However, I too think that the part about not pooling channels is an opinion and you seem to confirm this by saying that it is the result of experience and analysis of the source code which means it is your opinion. Therefore, I would really appreciate if you could expand on it and help me understand what undesirable outcomes should I expect if I use a pooling mechanism for channels and how I can get around the limitations that forced me to use pooling in the first place. Thanks Commented Oct 8, 2021 at 18:13

I found this article which explains all aspects of the AMQP model, of which, channel is one. I found it very helpful in rounding out my understanding


Some applications need multiple connections to an AMQP broker. However, it is undesirable to keep many TCP connections open at the same time because doing so consumes system resources and makes it more difficult to configure firewalls. AMQP 0-9-1 connections are multiplexed with channels that can be thought of as "lightweight connections that share a single TCP connection".

For applications that use multiple threads/processes for processing, it is very common to open a new channel per thread/process and not share channels between them.

Communication on a particular channel is completely separate from communication on another channel, therefore every AMQP method also carries a channel number that clients use to figure out which channel the method is for (and thus, which event handler needs to be invoked, for example).


There is a relation between like A TCP connection can have multiple Channels.

Channel: It is a virtual connection inside a connection. When publishing or consuming messages from a queue - it's all done over a channel Whereas Connection: It is a TCP connection between your application and the RabbitMQ broker.

In multi-threading architecture, you may need a separate connection per thread. That may lead to underutilization of TCP connection, also it adds overhead to the operating system to establish as many TCP connections it requires during the peak time of the network. The performance of the system could be drastically reduced. This is where the channel comes handy, it creates virtual connections inside a TCP connection. It straightaway reduces the overhead of the OS, also it allows us to perform asynchronous operations in a more faster, reliable and simultaneously way. enter image description here

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