12 KiB
Flow Control
Flow control is used to limit the flow of data between a client and server, or a server and another server in order to prevent the client or server being overwhelmed with data.
Consumer Flow Control
This controls the flow of data between the server and the client as the
client consumes messages. For performance reasons clients normally
buffer messages before delivering to the consumer via the receive()
method or asynchronously via a message listener. If the consumer cannot
process messages as fast as they are being delivered and stored in the
internal buffer, then you could end up with a situation where messages
would keep building up possibly causing out of memory on the client if
they cannot be processed in time.
Window-Based Flow Control
By default, ActiveMQ consumers buffer messages from the server in a client side buffer before the client consumes them. This improves performance: otherwise every time the client consumes a message, ActiveMQ would have to go the server to request the next message. In turn, this message would then get sent to the client side, if one was available.
A network round trip would be involved for every message and considerably reduce performance.
To prevent this, ActiveMQ pre-fetches messages into a buffer on each
consumer. The total maximum size of messages (in bytes) that will be
buffered on each consumer is determined by the consumer-window-size
parameter.
By default, the consumer-window-size
is set to 1 MiB (1024 * 1024
bytes).
The value can be:
-
-1
for an unbounded buffer -
0
to not buffer any messages. See ? for working example of a consumer with no buffering. -
>0
for a buffer with the given maximum size in bytes.
Setting the consumer window size can considerably improve performance depending on the messaging use case. As an example, let's consider the two extremes:
Fast consumers
Fast consumers can process messages as fast as they consume them (or even faster)
To allow fast consumers, set the consumer-window-size
to -1. This
will allow unbounded message buffering on the client side.
Use this setting with caution: it can overflow the client memory if the consumer is not able to process messages as fast as it receives them.
Slow consumers
Slow consumers takes significant time to process each message and it is desirable to prevent buffering messages on the client side so that they can be delivered to another consumer instead.
Consider a situation where a queue has 2 consumers; 1 of which is very slow. Messages are delivered in a round robin fashion to both consumers, the fast consumer processes all of its messages very quickly until its buffer is empty. At this point there are still messages awaiting to be processed in the buffer of the slow consumer thus preventing them being processed by the fast consumer. The fast consumer is therefore sitting idle when it could be processing the other messages.
To allow slow consumers, set the consumer-window-size
to 0 (for no
buffer at all). This will prevent the slow consumer from buffering
any messages on the client side. Messages will remain on the server
side ready to be consumed by other consumers.
Setting this to 0 can give deterministic distribution between multiple consumers on a queue.
Most of the consumers cannot be clearly identified as fast or slow
consumers but are in-between. In that case, setting the value of
consumer-window-size
to optimize performance depends on the messaging
use case and requires benchmarks to find the optimal value, but a value
of 1MiB is fine in most cases.
Using Core API
If ActiveMQ Core API is used, the consumer window size is specified by
ServerLocator.setConsumerWindowSize()
method and some of the
ClientSession.createConsumer()
methods.
Using JMS
If JNDI is used on the client to instantiate and look up the connection
factory the consumer window size is configured in the JNDI context
environment, e.g. jndi.properties
. Here's a simple example using the
"ConnectionFactory" connection factory which is available in the context
by default:
java.naming.factory.initial=org.apache.activemq.jndi.ActiveMQInitialContextFactory
java.naming.provider.url=tcp://localhost:5445
connection.ConnectionFactory.consumerWindowSize=0
If the connection factory is directly instantiated, the consumer window
size is specified by ActiveMQConnectionFactory.setConsumerWindowSize()
method.
Please see ? for an example which shows how to configure ActiveMQ to prevent consumer buffering when dealing with slow consumers.
Rate limited flow control
It is also possible to control the rate at which a consumer can consume messages. This is a form of throttling and can be used to make sure that a consumer never consumes messages at a rate faster than the rate specified.
The rate must be a positive integer to enable this functionality and is
the maximum desired message consumption rate specified in units of
messages per second. Setting this to -1
disables rate limited flow
control. The default value is -1
.
Please see ? for a working example of limiting consumer rate.
Using Core API
If the ActiveMQ core API is being used the rate can be set via the
ServerLocator.setConsumerMaxRate(int consumerMaxRate)
method or
alternatively via some of the ClientSession.createConsumer()
methods.
Using JMS
If JNDI is used to instantiate and look up the connection factory, the
max rate can be configured in the JNDI context environment, e.g.
jndi.properties
. Here's a simple example using the "ConnectionFactory"
connection factory which is available in the context by default:
java.naming.factory.initial=org.apache.activemq.jndi.ActiveMQInitialContextFactory
java.naming.provider.url=tcp://localhost:5445
connection.ConnectionFactory.consumerMaxRate=10
If the connection factory is directly instantiated, the max rate size
can be set via the ActiveMQConnectionFactory.setConsumerMaxRate(int consumerMaxRate)
method.
Note
Rate limited flow control can be used in conjunction with window based flow control. Rate limited flow control only effects how many messages a client can consume in a second and not how many messages are in its buffer. So if you had a slow rate limit and a high window based limit the clients internal buffer would soon fill up with messages.
Please see ? for an example which shows how to configure ActiveMQ to prevent consumer buffering when dealing with slow consumers.
Producer flow control
ActiveMQ also can limit the amount of data sent from a client to a server to prevent the server being overwhelmed.
Window based flow control
In a similar way to consumer window based flow control, ActiveMQ producers, by default, can only send messages to an address as long as they have sufficient credits to do so. The amount of credits required to send a message is given by the size of the message.
As producers run low on credits they request more from the server, when the server sends them more credits they can send more messages.
The amount of credits a producer requests in one go is known as the window size.
The window size therefore determines the amount of bytes that can be in-flight at any one time before more need to be requested - this prevents the remoting connection from getting overloaded.
Using Core API
If the ActiveMQ core API is being used, window size can be set via the
ServerLocator.setProducerWindowSize(int producerWindowSize)
method.
Using JMS
If JNDI is used to instantiate and look up the connection factory, the
producer window size can be configured in the JNDI context environment,
e.g. jndi.properties
. Here's a simple example using the
"ConnectionFactory" connection factory which is available in the context
by default:
java.naming.factory.initial=org.apache.activemq.jndi.ActiveMQInitialContextFactory
java.naming.provider.url=tcp://localhost:5445
connection.ConnectionFactory.producerWindowSize=10
If the connection factory is directly instantiated, the producer window
size can be set via the
ActiveMQConnectionFactory.setProducerWindowSize(int producerWindowSize)
method.
Blocking producer window based flow control
Normally the server will always give the same number of credits as have been requested. However, it is also possible to set a maximum size on any address, and the server will never send more credits than could cause the address's upper memory limit to be exceeded.
For example, if I have a JMS queue called "myqueue", I could set the maximum memory size to 10MiB, and the the server will control the number of credits sent to any producers which are sending any messages to myqueue such that the total messages in the queue never exceeds 10MiB.
When the address gets full, producers will block on the client side until more space frees up on the address, i.e. until messages are consumed from the queue thus freeing up space for more messages to be sent.
We call this blocking producer flow control, and it's an efficient way to prevent the server running out of memory due to producers sending more messages than can be handled at any time.
It is an alternative approach to paging, which does not block producers but instead pages messages to storage.
To configure an address with a maximum size and tell the server that you
want to block producers for this address if it becomes full, you need to
define an AddressSettings (Configuring Queues Via Address Settings) block for the address and specify
max-size-bytes
and address-full-policy
The address block applies to all queues registered to that address. I.e.
the total memory for all queues bound to that address will not exceed
max-size-bytes
. In the case of JMS topics this means the total
memory of all subscriptions in the topic won't exceed max-size-bytes.
Here's an example:
<address-settings>
<address-setting match="jms.queue.exampleQueue">
<max-size-bytes>100000</max-size-bytes>
<address-full-policy>BLOCK</address-full-policy>
</address-setting>
</address-settings>
The above example would set the max size of the JMS queue "exampleQueue" to be 100000 bytes and would block any producers sending to that address to prevent that max size being exceeded.
Note the policy must be set to BLOCK
to enable blocking producer flow
control.
Note
Note that in the default configuration all addresses are set to block producers after 10 MiB of message data is in the address. This means you cannot send more than 10MiB of message data to an address without it being consumed before the producers will be blocked. If you do not want this behaviour increase the
max-size-bytes
parameter or change the address full message policy.
Rate limited flow control
ActiveMQ also allows the rate a producer can emit message to be limited, in units of messages per second. By specifying such a rate, ActiveMQ will ensure that producer never produces messages at a rate higher than that specified.
The rate must be a positive integer to enable this functionality and is
the maximum desired message consumption rate specified in units of
messages per second. Setting this to -1
disables rate limited flow
control. The default value is -1
.
Please see the ? for a working example of limiting producer rate.
Using Core API
If the ActiveMQ core API is being used the rate can be set via the
ServerLocator.setProducerMaxRate(int producerMaxRate)
method or
alternatively via some of the ClientSession.createProducer()
methods.
Using JMS
If JNDI is used to instantiate and look up the connection factory, the
max rate size can be configured in the JNDI context environment, e.g.
jndi.properties
. Here's a simple example using the "ConnectionFactory"
connection factory which is available in the context by default:
java.naming.factory.initial=org.apache.activemq.jndi.ActiveMQInitialContextFactory
java.naming.provider.url=tcp://localhost:5445
connection.ConnectionFactory.producerMaxRate=10
If the connection factory is directly instantiated, the max rate size
can be set via the ActiveMQConnectionFactory.setProducerMaxRate(int producerMaxRate)
method.