# Configuring the Transport In this chapter we'll describe the concepts required for understanding Apache ActiveMQ Artemis transports and where and how they're configured. ## Understanding Acceptors One of the most important concepts in Apache ActiveMQ Artemis transports is the *acceptor*. Let's dive straight in and take a look at an acceptor defined in xml in the configuration file `broker.xml`. tcp://localhost:61617 Acceptors are always defined inside an `acceptors` element. There can be one or more acceptors defined in the `acceptors` element. There's no upper limit to the number of acceptors per server. Each acceptor defines a way in which connections can be made to the Apache ActiveMQ Artemis server. In the above example we're defining an acceptor that uses [Netty](http://netty.io/) to listen for connections at port `61617`. The `acceptor` element contains a `URI` that defines the kind of Acceptor to create along with its configuration. The `schema` part of the `URI` defines the Acceptor type which can either be `tcp` or `vm` which is `Netty` or an In VM Acceptor respectively. For `Netty` the host and the port of the `URI` define what host and port the Acceptor will bind to. For In VM the `Authority` part of the `URI` defines a unique server id. The `acceptor` can also be configured with a set of key, value pairs used to configure the specific transport, the set of valid key-value pairs depends on the specific transport be used and are passed straight through to the underlying transport. These are set on the `URI` as part of the query, like so: tcp://localhost:61617?sslEnabled=true;key-store-path=/path ## Understanding Connectors Whereas acceptors are used on the server to define how we accept connections, connectors are used by a client to define how it connects to a server. Let's look at a connector defined in our `broker.xml` file: tcp://localhost:61617 Connectors can be defined inside a `connectors` element. There can be one or more connectors defined in the `connectors` element. There's no upper limit to the number of connectors per server. You make ask yourself, if connectors are used by the *client* to make connections then why are they defined on the *server*? There are a couple of reasons for this: - Sometimes the server acts as a client itself when it connects to another server, for example when one server is bridged to another, or when a server takes part in a cluster. In this cases the server needs to know how to connect to other servers. That's defined by *connectors*. - If you're using JMS and you're using JNDI on the client to look up your JMS connection factory instances then when creating the `ActiveMQConnectionFactory` it needs to know what server that connection factory will create connections to. That's defined by the `java.naming.provider.url` element in the JNDI context environment, e.g. `jndi.properties`. Behind the scenes, the `ActiveMQInitialContextFactory` uses the `java.naming.provider.url` to construct the transport. Here's a simple example: java.naming.factory.initial=org.apache.activemq.artemis.jndi.ActiveMQInitialContextFactory connectionFactory.MyConnectionFactory=tcp://myhost:61616 ## Configuring the transport directly from the client side. How do we configure a core `ClientSessionFactory` with the information that it needs to connect with a server? Connectors are also used indirectly when directly configuring a core `ClientSessionFactory` to directly talk to a server. Although in this case there's no need to define such a connector in the server side configuration, instead we just create the parameters and tell the `ClientSessionFactory` which connector factory to use. Here's an example of creating a `ClientSessionFactory` which will connect directly to the acceptor we defined earlier in this chapter, it uses the standard Netty TCP transport and will try and connect on port 61617 to localhost (default): ``` java Map connectionParams = new HashMap(); connectionParams.put(org.apache.activemq.artemis.core.remoting.impl.netty.TransportConstants.PORT_PROP_NAME, 61617); TransportConfiguration transportConfiguration = new TransportConfiguration( "org.apache.activemq.artemis.core.remoting.impl.netty.NettyConnectorFactory", connectionParams); ServerLocator locator = ActiveMQClient.createServerLocatorWithoutHA(transportConfiguration); ClientSessionFactory sessionFactory = locator.createClientSessionFactory(); ClientSession session = sessionFactory.createSession(...); etc ``` Similarly, if you're using JMS, you can configure the JMS connection factory directly on the client side without having to define a connector on the server side or define a connection factory in `activemq-jms.xml`: ``` java Map connectionParams = new HashMap(); connectionParams.put(org.apache.activemq.artemis.core.remoting.impl.netty.TransportConstants.PORT_PROP_NAME, 61617); TransportConfiguration transportConfiguration = new TransportConfiguration( "org.apache.activemq.artemis.core.remoting.impl.netty.NettyConnectorFactory", connectionParams); ConnectionFactory connectionFactory = ActiveMQJMSClient.createConnectionFactoryWithoutHA(JMSFactoryType.CF, transportConfiguration); Connection jmsConnection = connectionFactory.createConnection(); etc ``` ## Configuring the Netty transport Out of the box, Apache ActiveMQ Artemis currently uses [Netty](http://netty.io/), a high performance low level network library. Our Netty transport can be configured in several different ways; to use old (blocking) Java IO, or NIO (non-blocking), also to use straightforward TCP sockets, SSL, or to tunnel over HTTP or HTTPS.. We believe this caters for the vast majority of transport requirements. ## Single Port Support Apache ActiveMQ Artemis supports using a single port for all protocols, Apache ActiveMQ Artemis will automatically detect which protocol is being used CORE, AMQP, STOMP or OPENWIRE and use the appropriate Apache ActiveMQ Artemis handler. It will also detect whether protocols such as HTTP or Web Sockets are being used and also use the appropriate decoders It is possible to limit which protocols are supported by using the `protocols` parameter on the Acceptor like so: tcp://localhost:61617?protocols=CORE,AMQP ## Configuring Netty TCP Netty TCP is a simple unencrypted TCP sockets based transport. Netty TCP can be configured to use old blocking Java IO or non blocking Java NIO. We recommend you use the Java NIO on the server side for better scalability with many concurrent connections. However using Java old IO can sometimes give you better latency than NIO when you're not so worried about supporting many thousands of concurrent connections. If you're running connections across an untrusted network please bear in mind this transport is unencrypted. You may want to look at the SSL or HTTPS configurations. With the Netty TCP transport all connections are initiated from the client side. I.e. the server does not initiate any connections to the client. This works well with firewall policies that typically only allow connections to be initiated in one direction. All the valid Netty transport keys are defined in the class `org.apache.activemq.artemis.core.remoting.impl.netty.TransportConstants`. Most parameters can be used either with acceptors or connectors, some only work with acceptors. The following parameters can be used to configure Netty for simple TCP: > **Note** > > The `host` and `port` parameters are only used in the core API, in > XML configuration these are set in the URI host and port. - `host`. This specifies the host name or IP address to connect to (when configuring a connector) or to listen on (when configuring an acceptor). The default value for this property is `localhost`. When configuring acceptors, multiple hosts or IP addresses can be specified by separating them with commas. It is also possible to specify `0.0.0.0` to accept connection from all the host's network interfaces. It's not valid to specify multiple addresses when specifying the host for a connector; a connector makes a connection to one specific address. > **Note** > > Don't forget to specify a host name or IP address! If you want > your server able to accept connections from other nodes you must > specify a hostname or IP address at which the acceptor will bind > and listen for incoming connections. The default is localhost > which of course is not accessible from remote nodes! - `port`. This specified the port to connect to (when configuring a connector) or to listen on (when configuring an acceptor). The default value for this property is `61616`. - `tcpNoDelay`. If this is `true` then [Nagle's algorithm](http://en.wikipedia.org/wiki/Nagle%27s_algorithm) will be disabled. This is a [Java (client) socket option](http://docs.oracle.com/javase/7/docs/technotes/guides/net/socketOpt.html). The default value for this property is `true`. - `tcpSendBufferSize`. This parameter determines the size of the TCP send buffer in bytes. The default value for this property is `32768` bytes (32KiB). TCP buffer sizes should be tuned according to the bandwidth and latency of your network. Here's a good link that explains the theory behind [this](http://www-didc.lbl.gov/TCP-tuning/). In summary TCP send/receive buffer sizes should be calculated as: buffer_size = bandwidth * RTT. Where bandwidth is in *bytes per second* and network round trip time (RTT) is in seconds. RTT can be easily measured using the `ping` utility. For fast networks you may want to increase the buffer sizes from the defaults. - `tcpReceiveBufferSize`. This parameter determines the size of the TCP receive buffer in bytes. The default value for this property is `32768` bytes (32KiB). - `batchDelay`. Before writing packets to the transport, Apache ActiveMQ Artemis can be configured to batch up writes for a maximum of `batchDelay` milliseconds. This can increase overall throughput for very small messages. It does so at the expense of an increase in average latency for message transfer. The default value for this property is `0` ms. - `directDeliver`. When a message arrives on the server and is delivered to waiting consumers, by default, the delivery is done on the same thread as that on which the message arrived. This gives good latency in environments with relatively small messages and a small number of consumers, but at the cost of overall throughput and scalability - especially on multi-core machines. If you want the lowest latency and a possible reduction in throughput then you can use the default value for `directDeliver` (i.e. `true`). If you are willing to take some small extra hit on latency but want the highest throughput set `directDeliver` to `false`. - `nioRemotingThreads`. When configured to use NIO, Apache ActiveMQ Artemis will, by default, use a number of threads equal to three times the number of cores (or hyper-threads) as reported by `Runtime.getRuntime().availableProcessors()` for processing incoming packets. If you want to override this value, you can set the number of threads by specifying this parameter. The default value for this parameter is `-1` which means use the value from `Runtime.getRuntime().availableProcessors()` \* 3. - `localAddress`. When configured a Netty Connector it is possible to specify which local address the client will use when connecting to the remote address. This is typically used in the Application Server or when running Embedded to control which address is used for outbound connections. If the local-address is not set then the connector will use any local address available - `localPort`. When configured a Netty Connector it is possible to specify which local port the client will use when connecting to the remote address. This is typically used in the Application Server or when running Embedded to control which port is used for outbound connections. If the local-port default is used, which is 0, then the connector will let the system pick up an ephemeral port. valid ports are 0 to 65535 - `connectionsAllowed`. This is only valid for acceptors. It limits the number of connections which the acceptor will allow. When this limit is reached a DEBUG level message is issued to the log, and the connection is refused. The type of client in use will determine what happens when the connection is refused. In the case of a `core` client, it will result in a `org.apache.activemq.artemis.api.core.ActiveMQConnectionTimedOutException`. ## Configuring Netty SSL Netty SSL is similar to the Netty TCP transport but it provides additional security by encrypting TCP connections using the Secure Sockets Layer SSL Please see the examples for a full working example of using Netty SSL. Netty SSL uses all the same properties as Netty TCP but adds the following additional properties: - `sslEnabled` Must be `true` to enable SSL. Default is `false`. - `keyStorePath` When used on an `acceptor` this is the path to the SSL key store on the server which holds the server's certificates (whether self-signed or signed by an authority). When used on a `connector` this is the path to the client-side SSL key store which holds the client certificates. This is only relevant for a `connector` if you are using 2-way SSL (i.e. mutual authentication). Although this value is configured on the server, it is downloaded and used by the client. If the client needs to use a different path from that set on the server then it can override the server-side setting by either using the customary "javax.net.ssl.keyStore" system property or the ActiveMQ-specific "org.apache.activemq.ssl.keyStore" system property. The ActiveMQ-specific system property is useful if another component on client is already making use of the standard, Java system property. - `keyStorePassword` When used on an `acceptor` this is the password for the server-side keystore. When used on a `connector` this is the password for the client-side keystore. This is only relevant for a `connector` if you are using 2-way SSL (i.e. mutual authentication). Although this value can be configured on the server, it is downloaded and used by the client. If the client needs to use a different password from that set on the server then it can override the server-side setting by either using the customary "javax.net.ssl.keyStorePassword" system property or the ActiveMQ-specific "org.apache.activemq.ssl.keyStorePassword" system property. The ActiveMQ-specific system property is useful if another component on client is already making use of the standard, Java system property. - `trustStorePath` When used on an `acceptor` this is the path to the server-side SSL key store that holds the keys of all the clients that the server trusts. This is only relevant for an `acceptor` if you are using 2-way SSL (i.e. mutual authentication). When used on a `connector` this is the path to the client-side SSL key store which holds the public keys of all the servers that the client trusts. Although this value can be configured on the server, it is downloaded and used by the client. If the client needs to use a different path from that set on the server then it can override the server-side setting by either using the customary "javax.net.ssl.trustStore" system property or the ActiveMQ-specific "org.apache.activemq.ssl.trustStore" system property. The ActiveMQ-specific system property is useful if another component on client is already making use of the standard, Java system property. - `trustStorePassword` When used on an `acceptor` this is the password for the server-side trust store. This is only relevant for an `acceptor` if you are using 2-way SSL (i.e. mutual authentication). When used on a `connector` this is the password for the client-side truststore. Although this value can be configured on the server, it is downloaded and used by the client. If the client needs to use a different password from that set on the server then it can override the server-side setting by either using the customary "javax.net.ssl.trustStorePassword" system property or the ActiveMQ-specific "org.apache.activemq.ssl.trustStorePassword" system property. The ActiveMQ-specific system property is useful if another component on client is already making use of the standard, Java system property. - `enabledCipherSuites` Whether used on an `acceptor` or `connector` this is a comma separated list of cipher suites used for SSL communication. The default value is `null` which means the JVM's default will be used. - `enabledProtocols` Whether used on an `acceptor` or `connector` this is a comma separated list of protocols used for SSL communication. The default value is `null` which means the JVM's default will be used. - `needClientAuth` This property is only for an `acceptor`. It tells a client connecting to this acceptor that 2-way SSL is required. Valid values are `true` or `false`. Default is `false`. ## Configuring Netty HTTP Netty HTTP tunnels packets over the HTTP protocol. It can be useful in scenarios where firewalls only allow HTTP traffic to pass. Please see the examples for a full working example of using Netty HTTP. Netty HTTP uses the same properties as Netty TCP but adds the following additional properties: - `httpEnabled`. This is now no longer needed as of version 2.4. With single port support Apache ActiveMQ Artemis will now automatically detect if http is being used and configure itself. - `httpClientIdleTime`. How long a client can be idle before sending an empty http request to keep the connection alive - `httpClientIdleScanPeriod`. How often, in milliseconds, to scan for idle clients - `httpResponseTime`. How long the server can wait before sending an empty http response to keep the connection alive - `httpServerScanPeriod`. How often, in milliseconds, to scan for clients needing responses - `httpRequiresSessionId`. If `true` the client will wait after the first call to receive a session id. Used the http connector is connecting to servlet acceptor (not recommended)