Address Federation
Introduction
Address federation is like full multicast over the connected brokers, in that every message sent to address
on Broker-A
will be delivered to every queue on that broker, but like wise will be delivered to Broker-B
and all attached queues there.
Address federation dynamically links to other addresses in upstream or downstream brokers. It automatically creates a queue on the remote address for itself, to which then it consumes, copying to the local address, as though they were published directly to it.
The upstream brokers do not need to be reconfigured or the address, simply permissions to the address need to be given to the address for the downstream broker. Similarly the same applies for downstream configurations.
Figure 1. Address Federation
Topology Patterns
Symmetric
Figure 2. Address Federation - Symmetric
As seen above, a publisher and consumer are connected to each broker. Queues and thus consumers on those queues, can receive messages published by either publisher.
It is important in this setup to set max-hops=1
to so that messages are copied only one and avoid cyclic replication.
If max-hops
is not configured correctly, consumers will get multiple copies of the same message.
Full Mesh
Figure 3. Address Federation - Full Mesh
If not already spotted, the setup is identical to symemtric but simply where all brokers are symmetrically federating each other, creating a full mesh.
As illustrated, a publisher and consumer are connected to each broker. Queues and thus consumers on those queues, can receive messages published by either publisher.
As with symmetric setup, it is important in this setup to set max-hops=1
to so that messages are copied only one and avoid cyclic replication.
If max-hops
is not configured correctly, consumers will get multiple copies of the same message.
Ring
Figure 4. Address Federation - Symmetric
In a ring of brokers each federated address is upstream
to just one other in the ring. To avoid the cyclic issue,
it is important to set max-hops
to n - 1
where n
is the number of nodes in the ring.
e.g. in the example above property is set to 5 so that every address in the ring sees the message exactly once.
Whilst this setup is cheap in regards to connections, it is brittle, in that if a single broker fails, the ring fails.
Fan out
Figure 5. Address Federation - Fan Out
One master address (it would required no configuration) is linked to by a tree of downstream federated addresses, the tree can extend to any depth, and can be extended to without needing to re-configure existing brokers.
In this case messages published to the master address can be received by any consumer connected to any broker in the tree.
Configuring Address Federation
Federation is configured in broker.xml
.
Sample Address Federation setup:
<federations>
<federation name="eu-north-1" user="federation_username" password="32a10275cf4ab4e9">
<upstream name="eu-east-1">
<static-connectors>
<connector-ref>eu-east-connector1</connector-ref>
<connector-ref>eu-east-connector1</connector-ref>
</static-connectors>
<policy ref="news-address-federation"/>
</upstream>
<upstream name="eu-west-1" >
<static-connectors>
<connector-ref>eu-west-connector1</connector-ref>
<connector-ref>eu-west-connector1</connector-ref>
</static-connectors>
<policy ref="news-address-federation"/>
</upstream>
<address-policy name="news-address-federation" max-hops="1" auto-delete="true" auto-delete-delay="300000" auto-delete-message-count="-1" transformer-ref="federation-transformer-3">
<include address-match="queue.bbc.new" />
<include address-match="queue.usatoday" />
<include address-match="queue.news.#" />
<exclude address-match="queue.news.sport.#" />
</address-policy>
<transformer name="news-transformer">
<class-name>org.foo.NewsTransformer</class-name>
<property key="key1" value="value1"/>
<property key="key2" value="value2"/>
</transformer>
</federation>
</federations>
In the above setup downstream broker eu-north-1
is configured to connect to two upstream brokers eu-east-1
and eu-east-2
, the credentials used for both connections to both brokers in this sample are shared, you can set user and password at the upstream level should they be different per upstream.
Both upstreams are configured with the same address-policy news-address-federation
, that is selecting addresses which match any of the include criteria, but will exclude anything that starts queue.news.sport
.
It is important that federation name is globally unique.
Let's take a look at all the address-policy
parameters in turn, in order of priority.
name
attribute. All address-policies must have a unique name in the server.include
the address-match pattern to whitelist addresses, multiple of these can be set. If none are set all addresses are matched.exclude
the address-match pattern to blacklist addresses, multiple of these can be set.max-hops
. The number of hops that a message can have made for it to be federated, see Topology Patterns above for more details.auto-delete
. For address federation, the downstream dynamically creates a durable queue on the upstream address. This is used to mark if the upstream queue should be deleted once downstream disconnects, and the delay and message count params have been met. This is useful if you want to automate the clean up, though you may wish to disable this if you want messages to queued for the downstream when disconnect no matter what.auto-delete-delay
. The amount of time in milliseconds after the downstream broker has disconnected before the upstream queue can be eligable forauto-delete
.auto-delete-message-count
. The amount number messages in the upstream queue that the message count must be equal or below before the downstream broker has disconnected before the upstream queue can be eligable forauto-delete
.transformer-ref
. The ref name for a transformer (see transformer config) that you may wish to configure to transform the message on federation transfer.
note address-policy
's and queue-policy
's are able to be defined in the same federation, and be linked to the same upstream.
Now look at all the transformer
parameters in turn, in order of priority:
name
attribute. This must be a unique name in the server, and is used to ref the transformer inaddress-policy
andqueue-policy
transformer-class-name
. An optional transformer-class-name can be specified. This is the name of a user-defined class which implements theorg.apache.activemq.artemis.core.server.transformer.Transformer
interface.If this is specified then the transformer's
transform()
method will be invoked with the message before it is transferred. This gives you the opportunity to transform the message's header or body before it is federated.property
holds key, value pairs that can be used to configure the transformer.
Finally look at upstream
, this is what defines the upstream broker connection and the policies to use against it.
name
attribute. This must be a unique name in the server, and is used to ref the transformer inaddress-policy
andqueue-policy
user
. This optional attribute determines the user name to use when creating the upstream connection to the remote server. If it is not specified the shared federation user and password will be used if set.password
. This optional attribute determines the password to use when creating the upstream connection to the remote server. If it is not specified the shared federation user and password will be used if set.static-connectors
ordiscovery-group-ref
. Pick either of these options to connect the bridge to the target server.The
static-connectors
is a list ofconnector-ref
elements pointing toconnector
elements defined elsewhere. A connector encapsulates knowledge of what transport to use (TCP, SSL, HTTP etc) as well as the server connection parameters (host, port etc). For more information about what connectors are and how to configure them, please see Configuring the Transport.The
discovery-group-ref
element has one attribute -discovery-group-name
. This attribute points to adiscovery-group
defined elsewhere. For more information about what discovery-groups are and how to configure them, please see Discovery Groups.ha
. This optional parameter determines whether or not this bridge should support high availability. True means it will connect to any available server in a cluster and support failover. The default value isfalse
.circuit-breaker-timeout
in milliseconds, When a connection issue occurs, as the single connection is shared by many federated queue and address consumers, to avoid each one trying to reconnect and possibly causing a thundering heard issue, the first one will try, if unsuccessful the circuit breaker will open, returning the same exception to all, this is the timeout until the circuit can be closed and connection retried.share-connection
. If there is a downstream and upstream connection configured for the same broker then the same connection will be shared as long as both stream configs set this flag to true. Default is false.check-period
. The period (in milliseconds) used to check if the federation connection has failed to receive pings from another server. Default is 30000.connection-ttl
. This is how long a federation connection should stay alive if it stops receiving messages from the remote broker. Default is 60000.call-timeout
. When a packet is sent via a federation connection and is a blocking call, i.e. for acknowledgements, this is how long it will wait (in milliseconds) for the reply before throwing an exception. Default is 30000.call-failover-timeout
. Similar tocall-timeout
but used when a call is made during a failover attempt. Default is -1 (no timeout).retry-interval
. This optional parameter determines the period in milliseconds between subsequent reconnection attempts, if the connection to the target server has failed. The default value is500
milliseconds.retry-interval-multiplier
. This is a multiplier used to increase theretry-interval
after each reconnect attempt, default is 1.max-retry-interval
. The maximum delay (in milliseconds) for retries. Default is 2000.initial-connect-attempts
. The number of times the system will try to connect to the remote broker in the federation. If the max-retry is achieved this broker will be considered permanently down and the system will not route messages to this broker. Default is -1 (infinite retries).reconnect-attempts
. The number of times the system will try to reconnect to the remote broker in the federation. If the max-retry is achieved this broker will be considered permanently down and the system will stop routing messages to this broker. Default is -1 (infinite retries).
Configuring Downstream Federation
Similarly to upstream
configuration, a downstream configuration can be configured. This works by sending a command
to the downstream
broker to have it create an upstream
connection back to the downstream broker. The benefit of
this is being able to configure everything for federation on one broker in some cases to make it easier, such
as a hub and spoke topology
All of the same configuration options apply to to downstream
as does upstream
with the exception of one
extra configuration flag that needs to be set:
The transport-connector-ref
is an element pointing to a
connector
elements defined elsewhere. This ref is used to tell the downstream broker
what connector to use to create a new upstream connection back to the downstream broker.
A connector encapsulates knowledge of what transport to use (TCP, SSL, HTTP etc) as well as the server connection parameters (host, port etc). For more information about what connectors are and how to configure them, please see Configuring the Transport.
Sample Downstream Address Federation setup:
<!--Other config Here -->
<connectors>
<connector name="netty-connector">tcp://localhost:61616</connector>
<connector name="eu-west-1-connector">tcp://localhost:61616</connector>
<connector name="eu-east-1-connector">tcp://localhost:61617</connector>
</connectors>
<acceptors>
<acceptor name="netty-acceptor">tcp://localhost:61616</acceptor>
</acceptors>
<!--Other config Here -->
<federations>
<federation name="eu-north-1" user="federation_username" password="32a10275cf4ab4e9">
<downstream name="eu-east-1">
<static-connectors>
<connector-ref>eu-east-connector1</connector-ref>
</static-connectors>
<transport-connector-ref>netty-connector</transport-connector-ref>
<policy ref="news-address-federation"/>
</downstream>
<downstream name="eu-west-1" >
<static-connectors>
<connector-ref>eu-west-connector1</connector-ref>
</static-connectors>
<transport-connector-ref>netty-connector</transport-connector-ref>
<policy ref="news-address-federation"/>
</downstream>
<address-policy name="news-address-federation" max-hops="1" auto-delete="true" auto-delete-delay="300000" auto-delete-message-count="-1" transformer-ref="federation-transformer-3">
<include address-match="queue.bbc.new" />
<include address-match="queue.usatoday" />
<include address-match="queue.news.#" />
<exclude address-match="queue.news.sport.#" />
</address-policy>
<transformer name="news-transformer">
<class-name>org.foo.NewsTransformer</class-name>
<property key="key1" value="value1"/>
<property key="key2" value="value2"/>
</transformer>
</federation>
</federations>