Chapter 4. Configuration


This chapter details various configuration options for the client, such as how to configure and create a JNDI InitialContext, the syntax for its related configuration, and the URI options that can be set when defining a ConnectionFactory.

4.1. Configuring a JNDI InitialContext

JMS applications use a JNDI InitialContext obtained from an InitialContextFactory to look up JMS objects such as ConnectionFactory. The client provides an implementation of the InitialContextFactory in the org.apache.qpid.jms.jndi.JmsInitialContextFactory class. You can configure it three different ways.

Configuring an InitialContext using a jndi.properties file

If you include a file named jndi.properties on the classpath and set the java.naming.factory.initial property value to org.apache.qpid.jms.jndi.JmsInitialContextFactory, the client InitialContextFactory implementation is discovered when the InitialContext object is instantiated.

javax.naming.Context ctx = new javax.naming.InitialContext();

The particular ConnectionFactory, Queue, and Topic objects that you want the Context to contain are configured as properties either directly within the jndi.properties file or in a separate file whose path is referenced in jndi.properties using the java.naming.provider.url property. The syntax for these properties is detailed below.

Configuring an InitialContext using system properties

If you set the java.naming.factory.initial system property to the value org.apache.qpid.jms.jndi.JmsInitialContextFactory, the client InitialContextFactory implementation is discovered when the InitialContext object is instantiated.

javax.naming.Context ctx = new javax.naming.InitialContext();

The particular ConnectionFactory, Queue, and Topic objects that you want the context to contain are configured as properties in a file, the path to which is passed using the java.naming.provider.url system property. The syntax for these properties is detailed below.

Configuring an InitialContext programmatically

You can configure the InitialContext directly by setting an environment variable on a Hashtable environment object.

Hashtable<Object, Object> env = new Hashtable<Object, Object>();
env.put(Context.INITIAL_CONTEXT_FACTORY, "org.apache.qpid.jms.jndi.JmsInitialContextFactory");
javax.naming.Context context = new javax.naming.InitialContext(env);

The particular ConnectionFactory, Queue, and Topic objects that you want the context to contain are configured as properties (the syntax for which is detailed below) either directly within the environment Hashtable or in a separate file whose path is referenced using the java.naming.provider.url property within the environment Hashtable.

JNDI property syntax

The property syntax used in the properties file or environment Hashtable is as follows:

  • To define a ConnectionFactory, use format connectionfactory.<lookup-name> = <connection-uri>.
  • To define a Queue, use format queue.<lookup-name> = <queue-name>.
  • To define a Topic use format topic.<lookup-name> = <topic-name>.

For more details about the connection URI, see the next section.

As an example, consider the following properties that define a ConnectionFactory, Queue, and Topic.

connectionfactory.myFactoryLookup = amqp://localhost:5672
queue.myQueueLookup = queueA
topic.myTopicLookup = topicA

These objects could then be looked up from a Context as follows.

ConnectionFactory factory = (ConnectionFactory) context.lookup("myFactoryLookup");
Queue queue = (Queue) context.lookup("myQueueLookup");
Topic topic = (Topic) context.lookup("myTopicLookup");
Variable expansion

The JNDI property values can contain variables of the form ${<variable-name>}. The library searches for the value in order in the following locations:

  • Java system properties
  • OS environment variables
  • The JNDI properties file or environment Hashtable

For example, on Linux ${HOME} resolves to the HOME environment variable, the current user’s home directory.

A default value can be supplied using the syntax ${<variable-name>:-<default-value>}. If no value for <variable-name> is found, the default value is used instead.

4.2. Connection URIs

A ConnectionFactory is configured using a connection URI.

Connection URI format

amqp[s]://host:port[?option=value[&option2=value...]]

The available connection settings are detailed in the Section 4.3, “Connection URI options” section.

When failover is configured, the client can reconnect to another server automatically if the connection to the current server is lost. Failover URIs start with the prefix failover: and contain a comma-separated list of server URIs inside parentheses. Additional options are specified at the end.

Failover URI format

failover:(amqp://host1:port[,amqp://host2:port...])[?option=value[&option2=value...]]

As with the connection URI example, the client can be configured with a number of different settings using the URI in a failover configuration. These settings are detailed below, with the Section 4.3.5, “Failover options” section being of particular interest.

When the amqps scheme is used to specify an SSL/TLS connection, the hostname segment from the URI can be used by the JVM’s TLS SNI (Server Name Indication) extension to communicate the desired server hostname during a TLS handshake. The SNI extension is automatically included if a Fully Qualified Domain Name (for example, "myhost.mydomain") is specified, but not when an unqualified name (for example, "myhost") or a bare IP address is used.

4.3. Connection URI options

4.3.1. JMS options

These options control the behaviour of JMS objects such as Connection, Session, MessageConsumer, and MessageProducer.

jms.username
The user name used to authenticate the connection.
jms.password
The password used to authenticate the connection.
jms.clientID
The client ID that is applied to the connection.
jms.forceAsyncSend
If enabled, all messages from a MessageProducer are sent asynchronously. Otherwise, only certain kinds, such as non-persistent messages or those inside a transaction, are sent asynchronously. It is disabled by default.
jms.forceSyncSend
If enabled, all messages from a MessageProducer are sent synchronously. It is disabled by default.
jms.forceAsyncAcks
If enabled, all message acknowledgments are sent asynchronously. It is disabled by default.
jms.localMessageExpiry
If enabled, any expired messages received by a MessageConsumer are filtered out and not delivered. It is enabled by default.
jms.localMessagePriority
If enabled, prefetched messages are reordered locally based on their message priority value. It is disabled by default.
jms.validatePropertyNames
If enabled, message property names are required to be valid Java identifiers. It is enabled by default.
jms.receiveLocalOnly
If enabled, calls to receive with a timeout argument will check a consumer’s local message buffer only. Otherwise, if the timeout expires, the remote peer is checked to ensure there are really no messages. It is disabled by default.
jms.receiveNoWaitLocalOnly
If enabled, calls to receiveNoWait will check a consumer’s local message buffer only. Otherwise, the remote peer is checked to ensure there are really no messages available. It is disabled by default.
jms.queuePrefix
An optional prefix value added to the name of any Queue created from a Session.
jms.topicPrefix
An optional prefix value added to the name of any Topic created from a Session.
jms.closeTimeout
The time in milliseconds for which the client will wait for normal resource closure before returning. The default is 60000 (60 seconds).
jms.connectTimeout
The time in milliseconds for which the client will wait for connection establishment before returning with an error. The default is 15000 (15 seconds).
jms.sendTimeout
The time in milliseconds for which the client will wait for completion of a synchronous message send before returning an error. By default the client will wait indefinitely for a send to complete.
jms.requestTimeout
The time in milliseconds for which the client will wait for completion of various synchronous interactions like opening a producer or consumer (excluding send) with the remote peer before returning an error. By default the client will wait indefinitely for a request to complete.
jms.clientIDPrefix
An optional prefix value used to generate client ID values when a new Connection is created by the ConnectionFactory. The default is ID:.
jms.connectionIDPrefix
An optional prefix value used to generate connection ID values when a new Connection is created by the ConnectionFactory. This connection ID is used when logging some information from the Connection object, so a configurable prefix can make breadcrumbing the logs easier. The default is ID:.
jms.populateJMSXUserID
If enabled, populate the JMSXUserID property for each sent message using the authenticated user name from the connection. It is disabled by default.
jms.awaitClientID
If enabled, a connection with no client ID configured in the URI will wait for a client ID to be set programmatically, or the connection being used otherwise to signal none can be set, before sending the AMQP connection "open". It is enabled by default.
jms.useDaemonThread
If enabled, a connection will use a daemon thread for its executor, rather than a non-daemon thread. It is disabled by default.
Prefetch policy options

Prefetch policy determines how many messages each MessageConsumer will fetch from the remote peer and hold in a local "prefetch" buffer.

jms.prefetchPolicy.queuePrefetch
The default is 1000.
jms.prefetchPolicy.topicPrefetch
The default is 1000.
jms.prefetchPolicy.queueBrowserPrefetch
The default is 1000.
jms.prefetchPolicy.durableTopicPrefetch
The default is 1000.
jms.prefetchPolicy.all
This can be used to set all prefetch values at once.

The value of prefetch can affect the distribution of messages to multiple consumers on a queue or shared subscription. A higher value can result in larger batches sent at once to each consumer. To achieve more even round-robin distribution, use a lower value.

Redelivery policy options

Redelivery policy controls how redelivered messages are handled on the client.

jms.redeliveryPolicy.maxRedeliveries
Controls when an incoming message is rejected based on the number of times it has been redelivered. A value of 0 indicates that no message redeliveries are accepted. A value of 5 allows a message to be redelivered five times, and so on. The default is -1, meaning no limit.
Message ID policy options

Message ID policy controls the data type of the message ID assigned to messages sent from the client.

jms.messageIDPolicy.messageIDType
By default, a generated String value is used for the message ID on outgoing messages. Other available types are UUID, UUID_STRING, and PREFIXED_UUID_STRING.
Presettle policy options

Presettle policy controls when a producer or consumer instance will be configured to use AMQP presettled messaging semantics.

jms.presettlePolicy.presettleAll
If enabled, all producers and non-transacted consumers created operate in presettled mode. It is disabled by default.
jms.presettlePolicy.presettleProducers
If enabled, all producers operate in presettled mode. It is disabled by default.
jms.presettlePolicy.presettleTopicProducers
If enabled, any producer that is sending to a Topic or TemporaryTopic destination will operate in presettled mode. It is disabled by default.
jms.presettlePolicy.presettleQueueProducers
If enabled, any producer that is sending to a Queue or TemporaryQueue destination will operate in presettled mode. It is disabled by default.
jms.presettlePolicy.presettleTransactedProducers
If enabled, any producer that is created in a transacted Session will operate in presettled mode. It is disabled by default.
jms.presettlePolicy.presettleConsumers
If enabled, all consumers operate in presettled mode. It is disabled by default.
jms.presettlePolicy.presettleTopicConsumers
If enabled, any consumer that is receiving from a Topic or TemporaryTopic destination will operate in presettled mode. It is disabled by default.
jms.presettlePolicy.presettleQueueConsumers
If enabled, any consumer that is receiving from a Queue or TemporaryQueue destination will operate in presettled mode. It is disabled by default.
Deserialization policy options

Deserialization policy provides a means of controlling which Java types are trusted to be deserialized from the object stream while retrieving the body from an incoming ObjectMessage composed of serialized Java Object content. By default all types are trusted during an attempt to deserialize the body. The default deserialization policy provides URI options that allow specifying a whitelist and a blacklist of Java class or package names.

jms.deserializationPolicy.whiteList
A comma-separated list of class and package names that should be allowed when deserializing the contents of an ObjectMessage, unless overridden by blackList. The names in this list are not pattern values. The exact class or package name must be configured, as in java.util.Map or java.util. Package matches include sub-packages. The default is to allow all.
jms.deserializationPolicy.blackList
A comma-separated list of class and package names that should be rejected when deserializing the contents of a ObjectMessage. The names in this list are not pattern values. The exact class or package name must be configured, as in java.util.Map or java.util. Package matches include sub-packages. The default is to prevent none.

4.3.2. TCP transport options

When connected to a remote server using plain TCP, the following options specify the behavior of the underlying socket. These options are appended to the connection URI along with any other configuration options.

Example: A connection URI with transport options

amqp://localhost:5672?jms.clientID=foo&transport.connectTimeout=30000

The complete set of TCP transport options is listed below.

transport.sendBufferSize
The send buffer size in bytes. The default is 65536 (64 KB).
transport.receiveBufferSize
The receive buffer size in bytes. The default is 65536 (64 KB).
transport.trafficClass
The default is 0.
transport.connectTimeout
The default is 60 seconds.
transport.soTimeout
The default is -1.
transport.soLinger
The default is -1.
transport.tcpKeepAlive
The default is false.
transport.tcpNoDelay
The default is true.
transport.useEpoll
When available, use the native epoll IO layer instead of the NIO layer. This can improve performance. It is enabled by default.

4.3.3. SSL/TLS transport options

The SSL/TLS transport is enabled by using the amqps URI scheme. Because the SSL/TLS transport extends the functionality of the TCP-based transport, all of the TCP transport options are valid on an SSL/TLS transport URI.

Example: A simple SSL/TLS connection URI

amqps://myhost.mydomain:5671

The complete set of SSL/TLS transport options is listed below.

transport.keyStoreLocation
If unset, the value of the javax.net.ssl.keyStore system property is used.
transport.keyStorePassword
If unset, the value of the javax.net.ssl.keyStorePassword system property is used.
transport.trustStoreLocation
If unset, the value of the javax.net.ssl.trustStore system property is used.
transport.trustStorePassword
If unset, the value of the javax.net.ssl.trustStorePassword system property is used.
transport.keyStoreType
If unset, the value of the javax.net.ssl.keyStoreType system property is used. If the system property is unset, the default is JKS.
transport.trustStoreType
If unset, the value of the javax.net.ssl.trustStoreType system property is used. If the system property is unset, the default is JKS.
transport.storeType
Sets both keyStoreType and trustStoreType to the same value. If unset, keyStoreType and trustStoreType default to the values specified above.
transport.contextProtocol
The protocol argument used when getting an SSLContext. The default is TLS, or TLSv1.2 if using OpenSSL.
transport.enabledCipherSuites
A comma-separated list of cipher suites to enable. If unset, the context-default ciphers are used. Any disabled ciphers are removed from this list.
transport.disabledCipherSuites
A comma-separated list of cipher suites to disable. Ciphers listed here are removed from the enabled ciphers.
transport.enabledProtocols
A comma-separated list of protocols to enable. If unset, the context-default protocols are used. Any disabled protocols are removed from this list.
transport.disabledProtocols
A comma-separated list of protocols to disable. Protocols listed here are removed from the enabled protocol list. The default is SSLv2Hello,SSLv3.
transport.trustAll
If enabled, trust the provided server certificate implicitly, regardless of any configured trust store. It is disabled by default.
transport.verifyHost
If enabled, verify that the connection hostname matches the provided server certificate. It is enabled by default.
transport.keyAlias
The alias to use when selecting a key pair from the key store if required to send a client certificate to the server.
transport.useOpenSSL

If enabled, use native OpenSSL libraries for SSL/TLS connections if available. It is disabled by default.

For more information, see Section 4.4.2, “Enabling OpenSSL support”.

4.3.4. AMQP options

The following options apply to aspects of behavior related to the AMQP wire protocol.

amqp.idleTimeout
The time in milliseconds after which the connection will be failed if the peer sends no AMQP frames. The default is 60000 (1 minute).
amqp.vhost
The virtual host to connect to. This is used to populate the SASL and AMQP hostname fields. The default is the main hostname from the connection URI.
amqp.saslLayer
If enabled, SASL is used when establishing connections. It is enabled by default.
amqp.saslMechanisms
A comma-separated list of SASL mechanisms the client should allow selection of, if offered by the server and usable with the configured credentials. The supported mechanisms are EXTERNAL, SCRAM-SHA-256, SCRAM-SHA-1, CRAM-MD5, PLAIN, ANONYMOUS, and GSSAPI for Kerberos. The default is to allow selection from all mechanisms except GSSAPI, which must be explicitly included here to enable.
amqp.maxFrameSize
The maximum AMQP frame size in bytes allowed by the client. This value will be advertised to the remote peer. The default is 1048576 (1 MiB).
amqp.drainTimeout
The time in milliseconds that the client will wait for a response from the remote peer when a consumer drain request is made. If no response is seen in the allotted timeout period, the link will be considered failed and the associated consumer will be closed. The default is 60000 (1 minute).
amqp.allowNonSecureRedirects
If enabled, allow AMQP redirects to alternative hosts when the existing connection is secure and the alternative connection is not. For example, if enabled this would permit redirecting an SSL/TLS connection to a raw TCP connection. It is disabled by default.

4.3.5. Failover options

Failover URIs start with the prefix failover: and contain a comma-separated list of server URIs inside parentheses. Additional options are specified at the end. Options prefixed with jms. are applied to the overall failover URI, outside of parentheses, and affect the Connection object for its lifetime.

Example: A failover URI with failover options

failover:(amqp://host1:5672,amqp://host2:5672)?jms.clientID=foo&failover.maxReconnectAttempts=20

The individual broker details within the parentheses can use the transport. or amqp. options defined earlier. These are applied as each host is connected to.

Example: A failover URI with per-connection transport and AMQP options

failover:(amqp://host1:5672?amqp.option=value,amqp://host2:5672?transport.option=value)?jms.clientID=foo

All of the configuration options for failover are listed below.

failover.initialReconnectDelay
The time in milliseconds the client will wait before the first attempt to reconnect to a remote peer. The default is 0, meaning the first attempt happens immediately.
failover.reconnectDelay
The time in milliseconds between reconnection attempts. If the backoff option is not enabled, this value remains constant. The default is 10.
failover.maxReconnectDelay
The maximum time that the client will wait before attempting to reconnect. This value is only used when the backoff feature is enabled to ensure that the delay does not grow too large. The default is 30 seconds.
failover.useReconnectBackOff
If enabled, the time between reconnection attempts grows based on a configured multiplier. It is enabled by default.
failover.reconnectBackOffMultiplier
The multiplier used to grow the reconnection delay value. The default is 2.0.
failover.maxReconnectAttempts
The number of reconnection attempts allowed before reporting the connection as failed to the client. The default is -1, meaning no limit.
failover.startupMaxReconnectAttempts
For a client that has never connected to a remote peer before, this option controls how many attempts are made to connect before reporting the connection as failed. If unset, the value of maxReconnectAttempts is used.
failover.warnAfterReconnectAttempts
The number of failed reconnection attempts until a warning is logged. The default is 10.
failover.randomize
If enabled, the set of failover URIs is randomly shuffled before attempting to connect to one of them. This can help to distribute client connections more evenly across multiple remote peers. It is disabled by default.
failover.amqpOpenServerListAction
Controls how the failover transport behaves when the connection "open" frame from the server provides a list of failover hosts to the client. Valid values are REPLACE, ADD, or IGNORE. If REPLACE is configured, all failover URIs other than the one for the current server are replaced with those provided by the server. If ADD is configured, the URIs provided by the server are added to the existing set of failover URIs, with deduplication. If IGNORE is configured, any updates from the server are ignored and no changes are made to the set of failover URIs in use. The default is REPLACE.

The failover URI also supports defining nested options as a means of specifying AMQP and transport option values applicable to all the individual nested broker URIs. This is accomplished using the same transport. and amqp. URI options outlined earlier for a non-failover broker URI but prefixed with failover.nested.. For example, to apply the same value for the amqp.vhost option to every broker connected to you might have a URI like the following:

Example: A failover URI with shared transport and AMQP options

failover:(amqp://host1:5672,amqp://host2:5672)?jms.clientID=foo&failover.nested.amqp.vhost=myhost

4.3.6. Discovery options

The client has an optional discovery module that provides a customized failover layer where the broker URIs to connect to are not given in the initial URI but instead are discovered by interacting with a discovery agent. There are currently two discovery agent implementations: a file watcher that loads URIs from a file and a multicast listener that works with ActiveMQ 5.x brokers that are configured to broadcast their broker addresses for listening clients.

The general set of failover-related options when using discovery are the same as those detailed earlier, with the main prefix changed from failover. to discovery., and with the nested prefix used to supply URI options common to all the discovered broker URIs. For example, without the agent URI details, a general discovery URI might look like the following:

Example: A discovery URI

discovery:(<agent-uri>)?discovery.maxReconnectAttempts=20&discovery.discovered.jms.clientID=foo

To use the file watcher discovery agent, create an agent URI like the following:

Example: A discovery URI using the file watcher agent

discovery:(file:///path/to/monitored-file?updateInterval=60000)

The URI options for the file watcher discovery agent are listed below.

updateInterval
The time in milliseconds between checks for file changes. The default is 30000 (30 seconds).

To use the multicast discovery agent with an ActiveMQ 5.x broker, create an agent URI like the following:

Example: A discovery URI using the multicast listener agent

discovery:(multicast://default?group=default)

Note that the use of default as the host in the multicast agent URI above is a special value that is substituted by the agent with the default 239.255.2.3:6155. You can change this to specify the actual IP address and port in use with your multicast configuration.

The URI option for the multicast discovery agent is listed below.

group
The multicast group used to listen for updates. The default is default.

4.4. Security

AMQ JMS has a range of security-related configuration options that can be leveraged according to your application’s needs.

Basic user credentials such as username and password should be passed directly to the ConnectionFactory when creating the Connection within the application. However, if you are using the no-argument factory method, it is also possible to supply user credentials in the connection URI. For more information, see the Section 4.3.1, “JMS options” section.

Another common security consideration is use of SSL/TLS. The client connects to servers over an SSL/TLS transport when the amqps URI scheme is specified in the connection URI, with various options available to configure behavior. For more information, see the Section 4.3.3, “SSL/TLS transport options” section.

In concert with the earlier items, it may be desirable to restrict the client to allow use of only particular SASL mechanisms from those that may be offered by a server, rather than selecting from all it supports. For more information, see the Section 4.3.4, “AMQP options” section.

Applications calling getObject() on a received ObjectMessage may wish to restrict the types created during deserialization. Note that message bodies composed using the AMQP type system do not use the ObjectInputStream mechanism and therefore do not require this precaution. For more information, see the the section called “Deserialization policy options” section.

4.4.1. Authenticating using Kerberos

The client can be configured to authenticate using Kerberos when used with an appropriately configured server. To enable Kerberos, use the following steps.

  1. Configure the client to use the GSSAPI mechanism for SASL authentication using the amqp.saslMechanisms URI option.

    amqp://myhost:5672?amqp.saslMechanisms=GSSAPI
    failover:(amqp://myhost:5672?amqp.saslMechanisms=GSSAPI)
  2. Set the java.security.auth.login.config system property to the path of a JAAS login configuration file containing appropriate configuration for a Kerberos LoginModule.

    -Djava.security.auth.login.config=<login-config-file>

    The login configuration file might look like the following example:

    amqp-jms-client {
        com.sun.security.auth.module.Krb5LoginModule required
        useTicketCache=true;
    };

The precise configuration used will depend on how you wish the credentials to be established for the connection, and the particular LoginModule in use. For details of the Oracle Krb5LoginModule, see the Oracle Krb5LoginModule class reference. For details of the IBM Java 8 Krb5LoginModule, see the IBM Krb5LoginModule class reference.

It is possible to configure a LoginModule to establish the credentials to use for the Kerberos process, such as specifying a principal and whether to use an existing ticket cache or keytab. If, however, the LoginModule configuration does not provide the means to establish all necessary credentials, it may then request and be passed the username and password values from the client Connection object if they were either supplied when creating the Connection using the ConnectionFactory or previously configured via its URI options.

Note that Kerberos is supported only for authentication purposes. Use SSL/TLS connections for encryption.

The following connection URI options can be used to influence the Kerberos authentication process.

sasl.options.configScope
The name of the login configuration entry used to authenticate. The default is amqp-jms-client.
sasl.options.protocol
The protocol value used during the GSSAPI SASL process. The default is amqp.
sasl.options.serverName
The serverName value used during the GSSAPI SASL process. The default is the server hostname from the connection URI.

Similar to the amqp. and transport. options detailed previously, these options must be specified on a per-host basis or as all-host nested options in a failover URI.

4.4.2. Enabling OpenSSL support

SSL/TLS connections can be configured to use a native OpenSSL implementation for improved performance. To use OpenSSL, the transport.useOpenSSL option must be enabled, and an OpenSSL support library must be available on the classpath.

To use the system-installed OpenSSL libraries on Red Hat Enterprise Linux, install the openssl and apr RPM packages and add the following dependency to your POM file:

Example: Adding native OpenSSL support

<dependency>
  <groupId>io.netty</groupId>
  <artifactId>netty-tcnative</artifactId>
  <version>2.0.22.Final-redhat-00001</version>
</dependency>

A list of OpenSSL library implementations is available from the Netty project.

4.5. Logging

The client uses the SLF4J API, enabling users to select a particular logging implementation based on their needs by supplying an SLF4J binding, such as slf4j-log4j, in order to use Log4J. More details on SLF4J are available from its website.

The client uses Logger names residing within the org.apache.qpid.jms hierarchy, which you can use to configure a logging implementation based on your needs.

When debugging, it is sometimes useful to enable additional protocol trace logging from the Qpid Proton AMQP 1.0 library. There are two ways to achieve this.

  • Set the environment variable (not the Java system property) PN_TRACE_FRM to 1. This will cause Proton to emit frame logging to the console.
  • Add the option amqp.traceFrames=true to your connection URI and configure the org.apache.qpid.jms.provider.amqp.FRAMES logger to log level TRACE. This will add a protocol tracer to Proton and include the output in your logs.

You can also configure the client to emit low-level tracing of input and output bytes. To enable this, add the option transport.traceBytes=true to your connection URI and configure the org.apache.qpid.jms.transports.netty.NettyTcpTransport logger to log level DEBUG.

4.6. Extended session acknowledgment modes

The client supports two additional session acknowledgement modes beyond those defined in the JMS specification.

Individual acknowledge

In this mode, messages must be acknowledged individually by the application using the Message.acknowledge() method used when the session is in CLIENT_ACKNOWLEDGE mode. Unlike with CLIENT_ACKNOWLEDGE mode, only the target message is acknowledged. All other delivered messages remain unacknowledged. The integer value used to activate this mode is 101.

connection.createSession(false, 101);

No acknowledge

In this mode, messages are accepted at the server before being dispatched to the client, and no acknowledgment is performed by the client. The client supports two integer values to activate this mode, 100 and 257.

connection.createSession(false, 100);
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