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Chapter 3. Using the command line interface


The command line interface (CLI) allows interaction with the message broker by use of an interactive terminal. Manage broker actions, configure messages, and enter useful commands by using the CLI.

The command line interface (CLI) allows users and roles to be added to files, by using an interactive process.

3.1. Starting broker instances

A broker instance is a directory containing all the configuration and runtime data, such as logs and data files. The runtime data is associated with a unique broker process.

You can start a broker in the foreground by using the artemis script, as a Linux service, or as a Windows service.

3.1.1. Starting the broker instance

After the broker instance is created, you use the artemis run command to start it.

Procedure

  1. Switch to the user account you created during installation.

    $ su - amq-broker
  2. Use the artemis run command to start the broker instance.

    $ /var/opt/amq-broker/mybroker/bin/artemis run
    
              __  __  ____    ____            _
        /\   |  \/  |/ __ \  |  _ \          | |
       /  \  | \  / | |  | | | |_) |_ __ ___ | | _____ _ __
      / /\ \ | |\/| | |  | | |  _ <| '__/ _ \| |/ / _ \ '__|
     / ____ \| |  | | |__| | | |_) | | | (_) |   <  __/ |
    /_/    \_\_|  |_|\___\_\ |____/|_|  \___/|_|\_\___|_|
    
    Red Hat JBoss AMQ 7.2.1.GA
    
    10:53:43,959 INFO  [org.apache.activemq.artemis.integration.bootstrap] AMQ101000: Starting ActiveMQ Artemis Server
    10:53:44,076 INFO  [org.apache.activemq.artemis.core.server] AMQ221000: live Message Broker is starting with configuration Broker Configuration (clustered=false,journalDirectory=./data/journal,bindingsDirectory=./data/bindings,largeMessagesDirectory=./data/large-messages,pagingDirectory=./data/paging)
    10:53:44,099 INFO  [org.apache.activemq.artemis.core.server] AMQ221012: Using AIO Journal
    ...

    The broker starts and displays log output with the following information:

    • The location of the transaction logs and cluster configuration.
    • The type of journal being used for message persistence (AIO in this case).
    • The URI(s) that can accept client connections.

      By default, port 61616 can accept connections from any of the supported protocols (CORE, MQTT, AMQP, STOMP, HORNETQ, and OPENWIRE). There are separate, individual ports for each protocol as well.

    • The web console is available at http://localhost:8161.
    • The Jolokia service (JMX over REST) is available at http://localhost:8161/jolokia.

3.1.2. Starting a broker as a Linux service

If the broker is installed on Linux, you can run it as a service.

Procedure

  1. Create a new amq-broker.service file in the /etc/systemd/system/ directory.
  2. Copy the following text into the file.

    Modify the path and user fields according to the information provided during the broker instance creation. In the example below, the user amq-broker starts the broker service installed under the /var/opt/amq-broker/mybroker/ directory.

    [Unit]
    Description=AMQ Broker
    After=syslog.target network.target
    
    [Service]
    ExecStart=/var/opt/amq-broker/mybroker/bin/artemis run
    Restart=on-failure
    User=amq-broker
    Group=amq-broker
    
    # A workaround for Java signal handling
    SuccessExitStatus=143
    
    [Install]
    WantedBy=multi-user.target
  3. Open a terminal.
  4. Enable the broker service using the following command:

    sudo systemctl enable amq-broker
  5. Run the broker service using the following command:

    sudo systemctl start amq-broker

3.1.3. Starting a broker as a Windows service

If the broker is installed on Windows, you can run it as a service.

Procedure

  1. Open a command prompt to enter the commands
  2. Install the broker as a service with the following command:

    <broker_instance_dir>\bin\artemis-service.exe install
  3. Start the service by using the following command:

    <broker_instance_dir>\bin\artemis-service.exe start
  4. (Optional) Uninstall the service:

    <broker_instance_dir>\bin\artemis-service.exe uninstall

3.2. Stopping broker instances

Stop the broker instance manually or configure the broker to shutdown gracefully.

3.2.1. Stopping the broker instance

After creating the standalone broker and producing and consuming test messages, you can stop the broker instance.

This procedure manually stops the broker, which forcefully closes all client connections. In a production environment, you should configure the broker to stop gracefully so that client connections can be closed properly.

Procedure

  • Use the artemis stop command to stop the broker instance:

    $ /var/opt/amq-broker/mybroker/bin/artemis stop
    2018-12-03 14:37:30,630 INFO  [org.apache.activemq.artemis.core.server] AMQ221002: Apache ActiveMQ Artemis Message Broker version 2.6.1.amq-720004-redhat-1 [b6c244ef-f1cb-11e8-a2d7-0800271b03bd] stopped, uptime 35 minutes
    Server stopped!

3.2.2. Stopping a broker instance gracefully

A manual shutdown forcefully disconnects all clients after a stop command is entered. As an alternative, configure the broker to shut down gracefully by using the graceful-shutdown-enabled configuration element.

When graceful-shutdown-enabled is set to true, no new client connections are allowed after a stop command is entered. However, existing connections are allowed to close on the client-side before the shutdown process is started. The default value for graceful-shutdown-enabled is false.

Use the graceful-shutdown-timeout configuration element to set a length of time, in milliseconds, for clients to disconnect before connections are forcefully closed from the broker side. After all connections are closed, the shutdown process is started. One advantage of using graceful-shutdown-timeout is that it prevents client connections from delaying a shutdown. The default value for graceful-shutdown-timeout is -1, meaning the broker waits indefinitely for clients to disconnect.

The following procedure demonstrates how to configure a graceful shutdown that uses a timeout.

Procedure

  1. Open the configuration file <broker_instance_dir>\etc\broker.xml.
  2. Add the graceful-shutdown-enabled configuration element and set the value to true.

    <configuration>
         <core>
              ...
              <graceful-shutdown-enabled>
                  true
              </graceful-shutdown-enabled>
              ...
         </core>
    </configuration>
  3. Add the graceful-shutdown-timeout configuration element and set a value for the timeout in milliseconds. In the following example, client connections are forcefully closed 30 seconds (30000 milliseconds) after the stop command is issued.

    <configuration>
         <core>
              ...
              <graceful-shutdown-enabled>
                  true
              </graceful-shutdown-enabled>
              <graceful-shutdown-timeout>
                  30000
              </graceful-shutdown-timeout>
              ...
         </core>
    </configuration>

3.3. Auditing messages by intercepting packets

Intercept packets entering or exiting the broker, to audit packets or filter messages. Interceptors change the packets that they intercept. This makes interceptors powerful, but also potentially dangerous.

Develop interceptors to meet your business requirements. Interceptors are protocol specific and must implement the appropriate interface.

Interceptors must implement the intercept() method, which returns a boolean value. If the value is true, the message packet continues onward. If false, the process is aborted, no other interceptors are called, and the message packet is not processed further.

3.3.1. Creating interceptors

Interceptors can change the packets they intercept. You can create your own incoming and outgoing interceptors. All interceptors are protocol specific and are called for any packet entering or exiting the server respectively. This allows you to create interceptors to meet business requirements such as auditing packets.

Interceptors and their dependencies must be placed in the Java classpath of the broker. You can use the <broker_instance_dir>/lib directory because it is part of the classpath by default.

The following examples demonstrate how to create an interceptor that checks the size of each packet passed to it.

Note

The examples implement a specific interface for each protocol.

Procedure

  1. Implement the appropriate interface and override its intercept() method.

    1. If you are using the AMQP protocol, implement the org.apache.activemq.artemis.protocol.amqp.broker.AmqpInterceptor interface.

      package com.example;
      
      import org.apache.activemq.artemis.protocol.amqp.broker.AMQPMessage;
      import org.apache.activemq.artemis.protocol.amqp.broker.AmqpInterceptor;
      import org.apache.activemq.artemis.spi.core.protocol.RemotingConnection;
      
      public class MyInterceptor implements AmqpInterceptor
      {
        private final int ACCEPTABLE_SIZE = 1024;
      
        @Override
        public boolean intercept(final AMQPMessage message, RemotingConnection connection)
        {
          int size = message.getEncodeSize();
          if (size <= ACCEPTABLE_SIZE) {
            System.out.println("This AMQPMessage has an acceptable size.");
            return true;
          }
          return false;
        }
      }
    2. If you are using Core Protocol, your interceptor must implement the org.apache.artemis.activemq.api.core.Interceptor interface.

      package com.example;
      
      import org.apache.artemis.activemq.api.core.Interceptor;
      import org.apache.activemq.artemis.core.protocol.core.Packet;
      import org.apache.activemq.artemis.spi.core.protocol.RemotingConnection;
      
      public class MyInterceptor implements Interceptor
      {
        private final int ACCEPTABLE_SIZE = 1024;
      
        @Override
        boolean intercept(Packet packet, RemotingConnection connection)
        throws ActiveMQException
        {
          int size = packet.getPacketSize();
          if (size <= ACCEPTABLE_SIZE) {
            System.out.println("This Packet has an acceptable size.");
            return true;
          }
          return false;
        }
      }
    3. If you are using the MQTT protocol, implement the org.apache.activemq.artemis.core.protocol.mqtt.MQTTInterceptor interface.

      package com.example;
      
      import org.apache.activemq.artemis.core.protocol.mqtt.MQTTInterceptor;
      import io.netty.handler.codec.mqtt.MqttMessage;
      import org.apache.activemq.artemis.spi.core.protocol.RemotingConnection;
      
      public class MyInterceptor implements Interceptor
      {
        private final int ACCEPTABLE_SIZE = 1024;
      
        @Override
        boolean intercept(MqttMessage mqttMessage, RemotingConnection connection)
        throws ActiveMQException
        {
          byte[] msg = (mqttMessage.toString()).getBytes();
          int size = msg.length;
          if (size <= ACCEPTABLE_SIZE) {
            System.out.println("This MqttMessage has an acceptable size.");
            return true;
          }
          return false;
        }
      }
    4. If you are using the STOMP protocol, implement the org.apache.activemq.artemis.core.protocol.stomp.StompFrameInterceptor interface.

      package com.example;
      
      import org.apache.activemq.artemis.core.protocol.stomp.StompFrameInterceptor;
      import org.apache.activemq.artemis.core.protocol.stomp.StompFrame;
      import org.apache.activemq.artemis.spi.core.protocol.RemotingConnection;
      
      public class MyInterceptor implements Interceptor
      {
        private final int ACCEPTABLE_SIZE = 1024;
      
        @Override
        boolean intercept(StompFrame stompFrame, RemotingConnection connection)
        throws ActiveMQException
        {
          int size = stompFrame.getEncodedSize();
          if (size <= ACCEPTABLE_SIZE) {
            System.out.println("This StompFrame has an acceptable size.");
            return true;
          }
          return false;
        }
      }

3.3.2. Configuring the broker to use interceptors

Prerequisites

  • Create an interceptor class and add it (and its dependencies) to the Java classpath of the broker. You can use the <broker_instance_dir>/lib directory since it is part of the classpath by default.

Procedure

  1. Open <broker_instance_dir>/etc/broker.xml
  2. Configure the broker to use an interceptor by adding configuration to <broker_instance_dir>/etc/broker.xml

    1. If the interceptor is intended for incoming messages, add its class-name to the list of remoting-incoming-interceptors.

      <configuration>
        <core>
          ...
          <remoting-incoming-interceptors>
             <class-name>org.example.MyIncomingInterceptor</class-name>
          </remoting-incoming-interceptors>
          ...
        </core>
      </configuration>
    2. If the interceptor is intended for outgoing messages, add its class-name to the list of remoting-outgoing-interceptors.

      <configuration>
        <core>
          ...
          <remoting-outgoing-interceptors>
             <class-name>org.example.MyOutgoingInterceptor</class-name>
          </remoting-outgoing-interceptors>
        </core>
      </configuration>

3.3.3. Interceptors on the client side

Clients can use interceptors to intercept packets either sent by the client to the server or by the server to the client. If the broker-side interceptor returns a false value, then no other interceptors are called and the client does not process the packet further. This process happens transparently, unless an outgoing packet is sent in a blocking fashion. In this case, an ActiveMQException is thrown to the caller. The ActiveMQException thrown contains the name of the interceptor that returned the false value.

On the server, the client interceptor classes and their dependencies must be added to the Java classpath of the client, to be properly instantiated and invoked.

3.4. Checking the health of brokers and queues

AMQ Broker includes a command-line utility that enables you to perform various health checks on brokers and queues in your broker topology.

The following example shows how to the use the utility to run health checks.

Procedure

  1. See the list of checks that you can run for a particular broker (that is, node) in your broker topology.

    $ <broker_instance_dir>/bin/artemis help check node

    You see output that describes the set of options that you can use with the artemis check node command.

    NAME
            artemis check node - Check a node
    
    SYNOPSIS
            artemis check node [--backup] [--clientID <clientID>]
                    [--diskUsage <diskUsage>] [--fail-at-end] [--live]
                    [--memoryUsage <memoryUsage>] [--name <name>] [--password <password>]
                    [--peers <peers>] [--protocol <protocol>] [--silent]
                    [--timeout <timeout>] [--up] [--url <brokerURL>] [--user <user>]
                    [--verbose]
    
    OPTIONS
            --backup
                Check that the node has a backup
    
            --clientID <clientID>
                ClientID to be associated with connection
    
            --diskUsage <diskUsage>
                Disk usage percentage to check or -1 to use the max-disk-usage
    
            --fail-at-end
                If a particular module check fails, continue the rest of the checks
    
            --live
                Check that the node has a live
    
            --memoryUsage <memoryUsage>
                Memory usage percentage to check
    
            --name <name>
                Name of the target to check
    
            --password <password>
                Password used to connect
    
            --peers <peers>
                Number of peers to check
    
            --protocol <protocol>
                Protocol used. Valid values are amqp or core. Default=core.
    
            --silent
                It will disable all the inputs, and it would make a best guess for any required input
    
            --timeout <timeout>
                Time to wait for the check execution, in milliseconds
    
            --up
                Check that the node is started, it is executed by default if there are no other checks
    
            --url <brokerURL>
                URL towards the broker. (default: tcp://localhost:61616)
    
            --user <user>
                User used to connect
    
            --verbose
                Adds more information on the execution
  2. For example, check that the disk usage of the local broker is below the maximum disk usage configured for the broker.

    $ <broker_instance_dir>/bin/artemis check node --url tcp://localhost:61616 --diskUsage -1
    
    Connection brokerURL = tcp://localhost:61616
    Running NodeCheck
    Checking that the disk usage is less then the max-disk-usage ... success
    Checks run: 1, Failures: 0, Errors: 0, Skipped: 0, Time elapsed: 0.065 sec - NodeCheck

    In the preceding example, specifying a value of -1 for the --diskUsage option means that the utility checks disk usage against the maximum disk usage configured for the broker. The maximum disk usage of a broker is configured using the max-disk-usage parameter in the broker.xml configuration file. The value specified for max-disk-usage represents the percentage of available physical disk space that the broker is allowed to consume.

  3. See the list of checks that you can run for a particular queue in your broker topology.

    $ <broker_instance_dir>/bin/artemis help check queue

    You see output that describes the set of options that you can use with the artemis check queue command.

    NAME
            artemis check queue - Check a queue
    
    SYNOPSIS
            artemis check queue [--browse <browse>] [--clientID <clientID>]
                    [--consume <consume>] [--fail-at-end] [--name <name>]
                    [--password <password>] [--produce <produce>] [--protocol <protocol>]
                    [--silent] [--timeout <timeout>] [--up] [--url <brokerURL>]
                    [--user <user>] [--verbose]
    
    OPTIONS
            --browse <browse>
                Number of the messages to browse or -1 to check that the queue is
                browsable
    
            --clientID <clientID>
                ClientID to be associated with connection
    
            --consume <consume>
                Number of the messages to consume or -1 to check that the queue is consumable
    
            --fail-at-end
                If a particular module check fails, continue the rest of the checks
    
            --name <name>
                Name of the target to check
    
            --password <password>
                Password used to connect
    
            --produce <produce>
                Number of the messages to produce
    
            --protocol <protocol>
                Protocol used. Valid values are amqp or core. Default=core.
    
            --silent
                It will disable all the inputs, and it would make a best guess for any required input
    
            --timeout <timeout>
                Time to wait for the check execution, in milliseconds
    
            --up
                Check that the queue exists and is not paused, it is executed by default if there are no other checks
    
            --url <brokerURL>
                URL towards the broker. (default: tcp://localhost:61616)
    
            --user <user>
                User used to connect
    
            --verbose
                Adds more information on the execution
  4. The utility can execute multiple options with a single command. For example, to check production, browsing, and consumption of 1000 messages on the default helloworld queue on the local broker, use the following command:

    $ <broker_instance_dir>/bin/artemis check queue --name helloworld --produce 1000 --browse 1000 --consume 1000
    
    Connection brokerURL = tcp://localhost:61616
    Running QueueCheck
    Checking that a producer can send 1000 messages to the queue helloworld ... success
    Checking that a consumer can browse 1000 messages from the queue helloworld ... success
    Checking that a consumer can consume 1000 messages from the queue helloworld ... success
    Checks run: 3, Failures: 0, Errors: 0, Skipped: 0, Time elapsed: 2.882 sec - QueueCheck

    In the preceding example, observe that you did not specify a broker URL when running the queue check. If you do not explicitly specify a URL, the utility uses a default value of tcp://localhost:61616.

3.5. Command line tools

AMQ Broker includes a set of command line interface (CLI) tools, so you can manage your messaging journal. The table below lists the name for each tool and its corresponding description.

ToolDescription

address

Addresses tool groups (create/delete/update/show) (example ./artemis address create).

browser

Browses messages on an instance.

consumer

Consumes messages on an instance.

data

Prints reports about journal records and compacts the data.

decode

Imports the internal journal format from encode.

encode

Shows an internal format of the journal encoded to String.

exp

Exports the message data using a special and independent XML format.

help

Displays help information.

imp

Imports the journal to a running broker using the output provided by exp.

kill

Kills a broker instance started with --allow-kill.

mask

Masks a password and prints it out.

perf-journal

Calculates the journal-buffer timeout you should use with the current data folder.

queue

Queues tool groups (create/delete/update/stat) (example ./artemis queue create).

run

Runs the broker instance.

stop

Stops the broker instance.

user

Default file-based user managament (add/rm/list/reset) (example ./artemis user list)

For a full list of commands available for each tool, use the help parameter followed by the tool’s name. For instance, in the example below, the CLI output lists all the commands available to the data tool after the user enters the command ./artemis help data.

$ ./artemis help data

NAME
        artemis data - data tools group
        (print|imp|exp|encode|decode|compact) (example ./artemis data print)

SYNOPSIS
        artemis data
        artemis data compact [--broker <brokerConfig>] [--verbose]
                [--paging <paging>] [--journal <journal>]
                [--large-messages <largeMessges>] [--bindings <binding>]
        artemis data decode [--broker <brokerConfig>] [--suffix <suffix>]
                [--verbose] [--paging <paging>] [--prefix <prefix>] [--file-size <size>]
                [--directory <directory>] --input <input> [--journal <journal>]
                [--large-messages <largeMessges>] [--bindings <binding>]
        artemis data encode [--directory <directory>] [--broker <brokerConfig>]
                [--suffix <suffix>] [--verbose] [--paging <paging>] [--prefix <prefix>]
                [--file-size <size>] [--journal <journal>]
                [--large-messages <largeMessges>] [--bindings <binding>]
        artemis data exp [--broker <brokerConfig>] [--verbose]
                [--paging <paging>] [--journal <journal>]
                [--large-messages <largeMessges>] [--bindings <binding>]
        artemis data imp [--host <host>] [--verbose] [--port <port>]
                [--password <password>] [--transaction] --input <input> [--user <user>]
        artemis data print [--broker <brokerConfig>] [--verbose]
                [--paging <paging>] [--journal <journal>]
                [--large-messages <largeMessges>] [--bindings <binding>]

COMMANDS
        With no arguments, Display help information

        print
            Print data records information (WARNING: don't use while a
            production server is running)

        ...

You can use the help parameter for more information on how to execute each of the commands. For example, the CLI lists more information about the data print command after the user enters the ./artemis help data print.

$ ./artemis help data print

NAME
        artemis data print - Print data records information (WARNING: don't use
        while a production server is running)

SYNOPSIS
        artemis data print [--bindings <binding>] [--journal <journal>]
                [--paging <paging>]

OPTIONS
        --bindings <binding>
            The folder used for bindings (default ../data/bindings)

        --journal <journal>
            The folder used for messages journal (default ../data/journal)

        --paging <paging>
            The folder used for paging (default ../data/paging)
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