我正在使用Artemis 2.6.3。我已经在对称拓扑中创建了2个节点。
生产者和消费者由here中所述的Spring Broker Relay处理。它写到
地址:“ / topic / notification / username / lual”(多播),并且生成的队列不持久。
使用者仅在连接到节点1(产生消息的地方)时接收消息。我可以将一个附加到节点1接收消息,将另一个附加到节点2不接收消息。如果在节点2上都没有收到消息。
我认为邮件重新分发无法正常工作,但无法弄清原因。我遵循了示例和可用文档。
我在下面添加了所有配置。
生成的图
broker.xml
<configuration xmlns="urn:activemq"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns:xi="http://www.w3.org/2001/XInclude"
xsi:schemaLocation="urn:activemq /schema/artemis-configuration.xsd">
<core xmlns="urn:activemq:core" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="urn:activemq:core ">
<name>$HOSTNAME</name>
<persistence-enabled>true</persistence-enabled>
<!-- this could be ASYNCIO, MAPPED, NIO
ASYNCIO: Linux Libaio
MAPPED: mmap files
NIO: Plain Java Files
-->
<journal-type>ASYNCIO</journal-type>
<paging-directory>data/paging</paging-directory>
<bindings-directory>data/bindings</bindings-directory>
<journal-directory>data/journal</journal-directory>
<large-messages-directory>data/large-messages</large-messages-directory>
<journal-datasync>true</journal-datasync>
<journal-min-files>2</journal-min-files>
<journal-pool-files>10</journal-pool-files>
<journal-file-size>10M</journal-file-size>
<!--
This value was determined through a calculation.
Your system could perform 0,47 writes per millisecond
on the current journal configuration.
That translates as a sync write every 2148000 nanoseconds.
Note: If you specify 0 the system will perform writes directly to the disk.
We recommend this to be 0 if you are using journalType=MAPPED and journal-datasync=false.
-->
<journal-buffer-timeout>2148000</journal-buffer-timeout>
<!--
When using ASYNCIO, this will determine the writing queue depth for libaio.
-->
<journal-max-io>1</journal-max-io>
<!--
You can verify the network health of a particular NIC by specifying the <network-check-NIC> element.
<network-check-NIC>theNicName</network-check-NIC>
-->
<!--
Use this to use an HTTP server to validate the network
<network-check-URL-list>http://www.apache.org</network-check-URL-list> -->
<!-- <network-check-period>10000</network-check-period> -->
<!-- <network-check-timeout>1000</network-check-timeout> -->
<!-- this is a comma separated list, no spaces, just DNS or IPs
it should accept IPV6
Warning: Make sure you understand your network topology as this is meant to validate if your network is valid.
Using IPs that could eventually disappear or be partially visible may defeat the purpose.
You can use a list of multiple IPs, and if any successful ping will make the server OK to continue running -->
<!-- <network-check-list>10.0.0.1</network-check-list> -->
<!-- use this to customize the ping used for ipv4 addresses -->
<!-- <network-check-ping-command>ping -c 1 -t %d %s</network-check-ping-command> -->
<!-- use this to customize the ping used for ipv6 addresses -->
<!-- <network-check-ping6-command>ping6 -c 1 %2$s</network-check-ping6-command> -->
<connectors>
<!-- Connector used to be announced through cluster connections and notifications -->
<connector name="artemis">tcp://$HOSTNAME:61616</connector>
</connectors>
<!-- how often we are looking for how many bytes are being used on the disk in ms -->
<disk-scan-period>5000</disk-scan-period>
<!-- once the disk hits this limit the system will block, or close the connection in certain protocols
that won't support flow control. -->
<max-disk-usage>90</max-disk-usage>
<!-- should the broker detect dead locks and other issues -->
<critical-analyzer>true</critical-analyzer>
<critical-analyzer-timeout>120000</critical-analyzer-timeout>
<critical-analyzer-check-period>60000</critical-analyzer-check-period>
<critical-analyzer-policy>HALT</critical-analyzer-policy>
<!-- the system will enter into page mode once you hit this limit.
This is an estimate in bytes of how much the messages are using in memory
The system will use half of the available memory (-Xmx) by default for the global-max-size.
You may specify a different value here if you need to customize it to your needs.
<global-max-size>100Mb</global-max-size>
-->
<acceptors>
<!-- useEpoll means: it will use Netty epoll if you are on a system (Linux) that supports it -->
<!-- amqpCredits: The number of credits sent to AMQP producers -->
<!-- amqpLowCredits: The server will send the # credits specified at amqpCredits at this low mark -->
<!-- Note: If an acceptor needs to be compatible with HornetQ and/or Artemis 1.x clients add
"anycastPrefix=jms.queue.;multicastPrefix=jms.topic." to the acceptor url.
See https://issues.apache.org/jira/browse/ARTEMIS-1644 for more information. -->
<!-- Acceptor for every supported protocol -->
<acceptor name="artemis">tcp://$HOSTNAME:61616?tcpSendBufferSize=1048576;tcpReceiveBufferSize=1048576;protocols=CORE,AMQP,STOMP,HORNETQ,MQTT,OPENWIRE;useEpoll=true;amqpCredits=1000;amqpLowCredits=300</acceptor>
<!-- AMQP Acceptor. Listens on default AMQP port for AMQP traffic.-->
<acceptor name="amqp">tcp://$HOSTNAME:5672?tcpSendBufferSize=1048576;tcpReceiveBufferSize=1048576;protocols=AMQP;useEpoll=true;amqpCredits=1000;amqpLowCredits=300</acceptor>
<!-- STOMP Acceptor. -->
<acceptor name="stomp">tcp://$HOSTNAME:61613?tcpSendBufferSize=1048576;tcpReceiveBufferSize=1048576;protocols=STOMP;useEpoll=true</acceptor>
<!-- HornetQ Compatibility Acceptor. Enables HornetQ Core and STOMP for legacy HornetQ clients. -->
<acceptor name="hornetq">tcp://$HOSTNAME:5445?anycastPrefix=jms.queue.;multicastPrefix=jms.topic.;protocols=HORNETQ,STOMP;useEpoll=true</acceptor>
<!-- MQTT Acceptor -->
<acceptor name="mqtt">tcp://$HOSTNAME:1883?tcpSendBufferSize=1048576;tcpReceiveBufferSize=1048576;protocols=MQTT;useEpoll=true</acceptor>
</acceptors>
<cluster-user>adminCluster</cluster-user>
<cluster-password>adminCluster</cluster-password>
<broadcast-groups>
<broadcast-group name="artemis-broadcast-group">
<jgroups-file>jgroups-stacks.xml</jgroups-file>
<jgroups-channel>artemis_broadcast_channel</jgroups-channel>
<!--<broadcast-period>5000</broadcast-period>-->
<connector-ref>artemis</connector-ref>
</broadcast-group>
</broadcast-groups>
<discovery-groups>
<discovery-group name="artemis-discovery-group">
<jgroups-file>jgroups-stacks.xml</jgroups-file>
<jgroups-channel>artemis_broadcast_channel</jgroups-channel>
<refresh-timeout>10000</refresh-timeout>
</discovery-group>
</discovery-groups>
<cluster-connections>
<cluster-connection name="artemis-cluster">
<address>#</address>
<connector-ref>artemis</connector-ref>
<check-period>1000</check-period>
<connection-ttl>5000</connection-ttl>
<min-large-message-size>50000</min-large-message-size>
<call-timeout>5000</call-timeout>
<retry-interval>500</retry-interval>
<retry-interval-multiplier>2.0</retry-interval-multiplier>
<max-retry-interval>5000</max-retry-interval>
<initial-connect-attempts>-1</initial-connect-attempts>
<reconnect-attempts>-1</reconnect-attempts>
<use-duplicate-detection>true</use-duplicate-detection>
<forward-when-no-consumers>false</forward-when-no-consumers>
<max-hops>1</max-hops>
<confirmation-window-size>32000</confirmation-window-size>
<call-failover-timeout>30000</call-failover-timeout>
<notification-interval>1000</notification-interval>
<notification-attempts>2</notification-attempts>
<discovery-group-ref discovery-group-name="artemis-discovery-group"/>
</cluster-connection>
</cluster-connections>
<security-settings>
<security-setting match="#">
<permission type="createNonDurableQueue" roles="amq"/>
<permission type="deleteNonDurableQueue" roles="amq"/>
<permission type="createDurableQueue" roles="amq"/>
<permission type="deleteDurableQueue" roles="amq"/>
<permission type="createAddress" roles="amq"/>
<permission type="deleteAddress" roles="amq"/>
<permission type="consume" roles="amq"/>
<permission type="browse" roles="amq"/>
<permission type="send" roles="amq"/>
<!-- we need this otherwise ./artemis data imp wouldn't work -->
<permission type="manage" roles="amq"/>
</security-setting>
</security-settings>
<address-settings>
<!-- if you define auto-create on certain queues, management has to be auto-create -->
<address-setting match="activemq.management#">
<dead-letter-address>DLQ</dead-letter-address>
<expiry-address>ExpiryQueue</expiry-address>
<redelivery-delay>0</redelivery-delay>
<!-- with -1 only the global-max-size is in use for limiting -->
<max-size-bytes>-1</max-size-bytes>
<message-counter-history-day-limit>10</message-counter-history-day-limit>
<address-full-policy>PAGE</address-full-policy>
<auto-create-queues>true</auto-create-queues>
<auto-create-addresses>true</auto-create-addresses>
<auto-create-jms-queues>true</auto-create-jms-queues>
<auto-create-jms-topics>true</auto-create-jms-topics>
</address-setting>
<!--default for catch all-->
<address-setting match="#">
<dead-letter-address>DLQ</dead-letter-address>
<expiry-address>ExpiryQueue</expiry-address>
<redelivery-delay>0</redelivery-delay>
<!-- with -1 only the global-max-size is in use for limiting -->
<max-size-bytes>-1</max-size-bytes>
<message-counter-history-day-limit>10</message-counter-history-day-limit>
<address-full-policy>PAGE</address-full-policy>
<auto-create-queues>true</auto-create-queues>
<auto-create-addresses>true</auto-create-addresses>
<auto-create-jms-queues>true</auto-create-jms-queues>
<auto-create-jms-topics>true</auto-create-jms-topics>
<redistribution-delay>0</redistribution-delay>
</address-setting>
</address-settings>
<addresses>
<address name="DLQ">
<anycast>
<queue name="DLQ" />
</anycast>
</address>
<address name="ExpiryQueue">
<anycast>
<queue name="ExpiryQueue" />
</anycast>
</address>
</addresses>
</core>
</configuration>
jgroups.xml
<config xmlns="urn:org:jgroups"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="urn:org:jgroups http://www.jgroups.org/schema/JGroups-3.0.xsd">
<UDP ip_ttl="8"
max_bundle_size="64000"
ip_mcast="false"
thread_pool.enabled="true"
thread_pool.min_threads="1"
thread_pool.max_threads="10"
thread_pool.keep_alive_time="5000"
thread_pool.queue_enabled="false"
thread_pool.queue_max_size="100"
thread_pool.rejection_policy="run"
oob_thread_pool.enabled="true"
oob_thread_pool.min_threads="1"
oob_thread_pool.max_threads="8"
oob_thread_pool.keep_alive_time="5000"
oob_thread_pool.queue_enabled="false"
oob_thread_pool.queue_max_size="100"
oob_thread_pool.rejection_policy="run"
bind_addr="match-interface:eth.*"
receive_interfaces="eth0"
/>
<BPING
dest="$BROADCAST_ADDR"
port_range="10"
bind_port="8555"/>
<MERGE2 max_interval="30000"
min_interval="10000"/>
<FD_SOCK/>
<FD timeout="10000" max_tries="5" />
<VERIFY_SUSPECT timeout="1500" />
<BARRIER />
<pbcast.NAKACK
use_mcast_xmit="false"
retransmit_timeout="300,600,1200,2400,4800"
discard_delivered_msgs="true"/>
<UNICAST />
<pbcast.STABLE stability_delay="1000" desired_avg_gossip="50000"
max_bytes="400000"/>
<pbcast.GMS print_local_addr="true" join_timeout="3000"
view_bundling="true"/>
<FC max_credits="2000000"
min_threshold="0.10"/>
<FRAG2 frag_size="60000" />
<pbcast.STATE_TRANSFER/>
<pbcast.FLUSH/>
</config>
调试日志为here
答案 0 :(得分:1)
我相信您的问题是您的address中cluster-connection使用的值:
<address>#</address>
您实际上在将address视为支持通配符匹配,而实际上却不支持。 The documentation明确了这一点(强调我的意思):
每个群集连接仅适用于与指定的
address字段匹配的地址。 以该字段中指定的字符串开头的地址在群集连接上匹配。群集连接上的address字段还支持逗号分隔的列表和排除语法!。为防止在此群集连接上匹配地址,请在群集连接地址字符串前添加!。
因此,通过将#用作address的值,您是说仅将开头 #的地址进行群集处理-可能不是这样你要。我的猜测是,您希望所有地址进行聚类,在这种情况下,您应该将address留空。文档中的示例为空,文档中指出:
在上面显示的情况下,群集连接将平衡发送到所有地址的消息的负载(因为它为空)。