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This section describes how to set up a WSO2 ESB worker/manager separated cluster and how to configure this cluster with different third-party load balancers. The following sections give you information and instructions on how to set up your cluster.

...

Warning

Important: When configuring your WSO2 products for clustering, it is necessary to use a specific IP address and not localhost or host names in your configurations. So, keep this in mind when hosting WSO2 products in your production environment.

See Setting up Up a Cluster in AWS Mode for information on clustering WSO2 products that are deployed on Amazon EC2 instances. The instructions in that topic only include the configurations done to the <PRODUCT_HOME>/repository/conf/axis2/axis2.xml file, so the configuration changes done to other configuration files must be done in addition to the steps in that topic.

...

  1. Install NGINX Plus in a server configured in your cluster.
  2. Configure NGINX Plus to direct the HTTP requests to the two worker nodes via the HTTP 80 port using the http://esb.wso2.com/<service>. To do this, create a VHost file (esb.http.conf) in the /etc/nginx/conf.d directory and add the following configurations into it.

    Code Block
    upstream wso2.esb.com {
            server xxx.xxx.xxx.xx3:8280;
            server xxx.xxx.xxx.xx4:8280;
    }
    
    server {
            listen 80;
            server_name esb.wso2.com;
            location / {
                   proxy_set_header X-Forwarded-Host $host;
                   proxy_set_header X-Forwarded-Server $host;
                   proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
                   proxy_set_header Host $http_host;
                   proxy_read_timeout 5m;
                   proxy_send_timeout 5m;
                   proxy_pass http://wso2.esb.com;
            }
    }
  3. Configure NGINX Plus to direct the HTTPS requests to the two worker nodes via the HTTPS 443 port using https://esb.wso2.com/<service>. To do this, create a VHost file (esb.https.conf) in the /etc/nginx/conf.d directory and add the following configurations into it.

    Code Block
    upstream ssl.wso2.esb.com {
    	server xxx.xxx.xxx.xx3:8243;
    	server xxx.xxx.xxx.xx4:8243;
     
    			sticky learn create=$upstream_cookie_jsessionid
    			lookup=$cookie_jsessionid
    			zone=client_sessions:1m;
    }
    
    server {
    listen 443;
    	server_name esb.wso2.com;
    	ssl on;
    	ssl_certificate /etc/nginx/ssl/wrk.crt;
    	ssl_certificate_key /etc/nginx/ssl/wrk.key;
    	location / {
                   proxy_set_header X-Forwarded-Host $host;
                   proxy_set_header X-Forwarded-Server $host;
                   proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
                   proxy_set_header Host $http_host;
                   proxy_read_timeout 5m;
                   proxy_send_timeout 5m;
    	    proxy_pass https://ssl.wso2.esb.com;
        	}
    }
  4. Configure NGINX Plus to access the Management Console as https://mgt.esb.wso2.com/carbon via HTTPS 443 port. This is to direct requests to the manager node. To do this, create a VHost file (mgt.esb.https.conf) in the /etc/nginx/conf.d directory and add the following configurations into it.

    Code Block
    server {
    	listen 443;
    	server_name mgt.esb.wso2.com;
    	ssl on;
    	ssl_certificate /etc/nginx/ssl/mgt.crt;
    	ssl_certificate_key /etc/nginx/ssl/mgt.key;
    
    	location / {
                   proxy_set_header X-Forwarded-Host $host;
                   proxy_set_header X-Forwarded-Server $host;
                   proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
                   proxy_set_header Host $http_host;
                   proxy_read_timeout 5m;
                   proxy_send_timeout 5m;
    	    proxy_pass https://xxx.xxx.xxx.xx2:9443/;
        	}
    	error_log  /var/log/nginx/mgt-error.log ;
               access_log  /var/log/nginx/mgt-access.log;
    }
  5. Restart the NGINX Plus server.
    $sudo service nginx restart

    Tip

    Tip: You do not need to restart the server if you are simply making a modification to the VHost file. The following command should be sufficient in such cases.

    $sudo service nginx reload 

Create SSL certificates

Create SSL certificates for both the manager and worker nodes using the instructions that follow.

...

  1. Download and unzip the WSO2 ESB binary distribution. Consider the extracted directory as <PRODUCT_HOME>.
  2. Set up the cluster configurations. Edit the <PRODUCT_HOME>/repository/conf/axis2/axis2.xml file as follows.
    1. Enable clustering for this node: 
      <clustering class="org.wso2.carbon.core.clustering.hazelcast.HazelcastClusteringAgent" enable="true">
    2. Set the membership scheme to wka to enable the well-known address registration method (this node sends cluster initiation messages to the WKA members that we define later). 
      <parameter name="membershipScheme">wka</parameter>
    3. Specify the name of the cluster this node will join.
      <parameter name="domain">wso2.esb.domain</parameter>
    4. Specify the host used to communicate cluster messages.
      <parameter name="localMemberHost">xxx.xxx.xxx.xx2</parameter>
    5. Specify the port used to communicate cluster messages. This port number is not affected by the port offset value specified in the <PRODUCT_HOME>/repository/conf/carbon.xml. If this port number is already assigned to another server, the clustering framework automatically increments this port number. However, if two servers are running on the same machine, you must ensure that a unique port is set for each server.
      <parameter name="localMemberPort">4100</parameter>

    6. Specify the well-known members. In this example, the well-known member is a worker node. The port value for the WKA worker node must be the same value as it's localMemberPort (in this case 4200).

      Code Block
      languagexml
      <members>
      	<member>
      		<hostName>xxx.xxx.xxx.xx3</hostName>
      		<port>4200</port> 
      	</member>
      </members>
      Note

      Although this example only indicates one well-known member, it is recommended to add at least two well-known members here. This is done to ensure that there is high availability for the cluster.

      You can also use IP address ranges for the hostName. For example, 192.168.1.2-10. This should ensure that the cluster eventually recovers after failures. One shortcoming of doing this is that you can define a range only for the last portion of the IP address. You should also keep in mind that the smaller the range, the faster the time it takes to discover members since each node has to scan a lesser number of potential members.

    7. Change the following clustering properties. Ensure that you set the value of the subDomain as mgt to specify that this is the manager node. This ensures that traffic for the manager node is routed to this member.

      Code Block
      languagexml
      <parameter name="properties">
                  <property name="backendServerURL" value="https://${hostName}:${httpsPort}/services/"/>
                  <property name="mgtConsoleURL" value="https://${hostName}:${httpsPort}/"/>
                  <property name="subDomain" value="mgt"/>
      </parameter>
  3. Configure the HostName. To do this, edit the <PRODUCT_HOME>/repository/conf/carbon.xml file as follows.

    Code Block
    languagexml
    <HostName>esb.wso2.com</HostName>
    <MgtHostName>mgt.esb.wso2.com</MgtHostName>
  4. Enable SVN-based deployment synchronization with the AutoCommit property marked as true. To do this, edit the <PRODUCT_HOME>/repository/conf/carbon.xml file as follows. See Configuring Deployment Synchronizer for more information on this.

    Code Block
    languagexml
    <DeploymentSynchronizer>
    	<Enabled>true</Enabled>
    	<AutoCommit>true</AutoCommit>
    	<AutoCheckout>true</AutoCheckout>
    	<RepositoryType>svn</RepositoryType>
    	<SvnUrl>https://svn.wso2.org/repos/esb</SvnUrl>
    	<SvnUser>svnuser</SvnUser>
    	<SvnPassword>xxxxxx</SvnPassword>
    	<SvnUrlAppendTenantId>true</SvnUrlAppendTenantId>
    </DeploymentSynchronizer>
  5. In the <PRODUCT_HOME>/repository/conf/carbon.xml file, you can also specify the port offset value. This is ONLY applicable if you have multiple WSO2 products hosted on the same server.

    Expand
    titleClick here for more information on configuring the port offset.

    When you run multiple products/clusters or multiple instances of the same product on the same server or virtual machines (VMs), you must change their default ports with an offset value to avoid port conflicts. An offset defines the number by which all ports in the runtime (e.g., HTTP/S ports) are increased. For example, if the default HTTP port is 9763 and the offset is 1, the effective HTTP port will change to 9764. For each additional product instance, you set the port offset to a unique value. The offset of the default ports is considered to be 0.

    The port value will automatically be increased as shown in the Port Value column in the following table, allowing all five WSO2 product instances or servers to run on the same machine.

    WSO2 product instance

    Port Offset

    Port Value

    WSO2 server 1

    0

    9443

    WSO2 server 2

    1

    9444

    WSO2 server 3

    2

    9445

    WSO2 server 4

    3

    9446

    WSO2 server 5

    4

    9447

    Warning

    Important: This step is optional and only required if all server instances are running in the same machine. This is not a recommended approach for production environments. Note that you need to change all ports used in your configurations based on the offset value if you are to do this.

    Code Block
    languagexml
    <Ports>
    	...
    	<Offset>0</Offset>
    	...
    </Ports>
  6. Map the host names to the IP. Add the below host entries to your DNS, or “/etc/hosts” file (in Linux) in all the nodes of the cluster. You can map the IP address of the database server. In this example, MySQL is used as the database server, so <MYSQL-DB-SERVER-IP> is the actual IP address of the database server.

    Code Block
    <IP-of-MYSQL-DB-SERVER>	carbondb.mysql-wso2.com
  7. Allow access the management console only through the load balancer. Configure the HTTP/HTTPS proxy ports to communicate through the load balancer by editing the <PRODUCT_HOME>/repository/conf/tomcat/catalina-server.xml file as follows.

    Code Block
    languagexml
    <Connector protocol="org.apache.coyote.http11.Http11NioProtocol"
    	port="9763"
    	proxyPort="80"
    	...
    	/>
    <Connector protocol="org.apache.coyote.http11.Http11NioProtocol"
    	port="9443"
    	proxyPort="443"
    	...
    	/>
    Expand
    titleClick here for more information on this configuration.

    The Connector protocol tag sets the protocol to handle incoming traffic. The default value is HTTP/1.1, which uses an auto-switching mechanism to select either a blocking Java-based connector or an APR/native connector. If the PATH (Windows) or LD_LIBRARY_PATH (on most UNIX systems) environment variables contain the Tomcat native library, the APR/native connector will be used. If the native library cannot be found, the blocking Java-based connector will be used. Note that the APR/native connector has different settings from the Java connectors for HTTPS.

    The non-blocking Java connector used is an explicit protocol that does not rely on the auto-switching mechanism described above. The following is the value used:
    org.apache.coyote.http11.Http11NioProtocol

    The TCP port number is the value that this Connector will use to create a server socket and await incoming connections. Your operating system will allow only one server application to listen to a particular port number on a particular IP address. If the special value of 0 (zero) is used, Tomcat will select a free port at random to use for this connector. This is typically only useful in embedded and testing applications.

     

...

  1. Download and unzip the WSO2 ESB binary distribution. Consider the extracted directory as <PRODUCT_HOME>.
  2. Set up the cluster configurations. Edit the <PRODUCT_HOME>/repository/conf/axis2/axis2.xml file as follows.
    1. Enable clustering for this node.
      <clustering class="org.wso2.carbon.core.clustering.hazelcast.HazelcastClusteringAgent" enable="true">
    2. Set the membership scheme to wka to enable the well-known address registration method (this node will send cluster initiation messages to WKA members that we will define later).
      <parameter name="membershipScheme">wka</parameter>
    3. Specify the name of the cluster this node will join.
      <parameter name="domain">wso2.esb.domain</parameter>
    4. Specify the host used to communicate cluster messages.
      <parameter name="localMemberHost">xxx.xxx.xxx.xx3</parameter>
    5. Specify the port used to communicate cluster messages. If this node is on the same server as the manager node, or another worker node, set this to a unique value, such as 4000 and 4001 for worker nodes 1 and 2. This port number will not be affected by the port offset in carbon.xml. If this port number is already assigned to another server, the clustering framework will automatically increment this port number.
      <parameter name="localMemberPort">4200</parameter>

    6. Define the sub-domain as worker by adding the following property under the  <parameter name="properties">  element: 
      <property name="subDomain" value="worker"/>

    7. Specify the well known member by providing the host name and localMemberPort values. Here, the well known member is the manager node. Defining the manager node is useful since it is required for the Deployment Synchronizer to function in an efficient manner. The deployment synchronizer uses this configuration to identify the manager and synchronize deployment artifacts across the nodes of a cluster.

      Code Block
      languagexml
      <members>
      	<member>
      		<hostName>xxx.xxx.xxx.xx2</hostName>
      		<port>4100</port> 
      	</member>
      </members>
      Note

      Although this example only indicates one well-known member, it is recommended to add at least two well-known members here. This is done to ensure that there is high availability for the cluster.

      You can also use IP address ranges for the hostName. For example, 192.168.1.2-10. This should ensure that the cluster eventually recovers after failures. One shortcoming of doing this is that you can define a range only for the last portion of the IP address. You should also keep in mind that the smaller the range, the faster the time it takes to discover members, since each node has to scan a lesser number of potential members.

    8. Uncomment and edit the WSDLEPRPrefix element under org.apache.synapse.transport.passthru.PassThroughHttpListener and
      org.apache.synapse.transport.passthru.PassThroughHttpSSLListener in the transportReceiver.

      Code Block
      languagexml
      <parameter name="WSDLEPRPrefix" locked="false">http://esb.wso2.com:80</parameter>
      
      <parameter name="WSDLEPRPrefix" locked="false">https://esb.wso2.com:443</parameter>
  3. Configure the <PRODUCT_HOME>/repository/conf/carbon.xml file to match your clustering configurations with your product.

    1. Configure the HostName. To do this, edit the <PRODUCT_HOME>/repository/conf/carbon.xml file as follows.

      Code Block
      languagexml
      <HostName>esb.wso2.com</HostName>
    2. Enable SVN-based deployment synchronization with the AutoCommit property marked as false. To do this, edit the <PRODUCT_HOME>/repository/conf/carbon.xml file as follows.

      Code Block
      languagexml
      <DeploymentSynchronizer>
      	<Enabled>true</Enabled>
      	<AutoCommit>false</AutoCommit>
      	<AutoCheckout>true</AutoCheckout>
      	<RepositoryType>svn</RepositoryType>
      	<SvnUrl>https://svn.wso2.org/repos/esb</SvnUrl>
      	<SvnUser>svnuser</SvnUser>
      	<SvnPassword>xxxxxx</SvnPassword>
      	<SvnUrlAppendTenantId>true</SvnUrlAppendTenantId>
      </DeploymentSynchronizer>
    3. In the <PRODUCT_HOME>/repository/conf/carbon.xml file, you can also specify the port offset value. This is ONLY applicable if you have multiple WSO2 products hosted on the same server.

      Expand
      titleClick here for more information on configuring the port offset.

      When you run multiple products/clusters or multiple instances of the same product on the same server or virtual machines (VMs), you must change their default ports with an offset value to avoid port conflicts. An offset defines the number by which all ports in the runtime (e.g., HTTP/S ports) are increased. For example, if the default HTTP port is 9763 and the offset is 1, the effective HTTP port will change to 9764. For each additional product instance, you set the port offset to a unique value. The offset of the default ports is considered to be 0.

      The port value will automatically be increased as shown in the Port Value column in the following table, allowing all five WSO2 product instances or servers to run on the same machine.

      WSO2 product instance

      Port Offset

      Port Value

      WSO2 server 1

      0

      9443

      WSO2 server 2

      1

      9444

      WSO2 server 3

      2

      9445

      WSO2 server 4

      3

      9446

      WSO2 server 5

      4

      9447

      Warning

      Important: This step is optional and only required if all server instances are running in the same machine. This is not a recommended approach for production environments. Note that you need to change all ports used in your configurations based on the offset value if you are to do this.

      Code Block
      languagexml
      <Ports>
      	...
      	<Offset>0</Offset>
      	...
      </Ports>
  4. Map the host names to the IP. Add the following host entries to your DNS, or “/etc/hosts” file (in Linux) in all the nodes of the cluster. You can map the IP address of the database server. In this example, MySQL is used as the database server, so <MYSQL-DB-SERVER-IP> is the actual IP address of the database server.

    Code Block
    <IP-of-MYSQL-DB-SERVER>	carbondb.mysql-wso2.com
  5. Create the second worker node by getting a copy of the WSO2 product you just configured as a worker node and change the following in the <PRODUCT_HOME>/repository/conf/axis2/axis2.xml file. This copy of the WSO2 product can be moved to a server of its own.
    <parameter name="localMemberPort">4300</parameter>

Setting up Scheduled Tasks

warning

This

is available only as a WUM update and is effective from 23rd May 2018 (2018-5-123). For more information on updating WSO2 Identity Server, see Updating WSO2 Products.

This section is applicable if you have Scheduled Tasks configured in your ESB server nodes.

For instructions on how to configure task distribution in a clustered deployment, see Configuring a clustered task server in the Administration Guide.

Info

When there is no worker manager separation in your clustering configuration, to ensure that tasks are scheduled in all ESB nodes, you need to edit the clusteringPattern parameter in <ESB_HOME>/repository/conf/axis2/axis2.xml file as follows:

Code Block
<parameter name="clusteringPattern">nonWorkerManager</parameter>

Note: This is available only as a WUM update and is effective from 23rd May 2018 (2018-5-23). For more information on updating WSO2 Enterprise Service Bus, see Updating WSO2 Products.


Testing the cluster

  1. Restart the configured load balancer.
  2. Start the manager node. The additional -Dsetup argument creates the required tables in the database. 
    sh <PRODUCT_HOME>/bin/wso2server.sh -Dsetup
  3. Start the two worker nodes. The additional -DworkerNode=true argument indicates that this is a worker node. This parameter basically makes a server read-only. A node with this parameter will not be able to do any changes such as writing or making modifications to the deployment repository etc. This parameter also enables the worker profile, where the UI bundles will not be activated and only the back end bundles will be activated once the server starts up. When you configure the axis2.xml file, the cluster sub domain must indicate that this node belongs to the "worker" sub domain in the cluster.

    Tip

    Tip: It is recommendation is to delete the <PRODUCT_HOME>/repository/deployment/server directory and create an empty server directory in the worker node. This is done to avoid any SVN conflicts that may arise.

    sh <PRODUCT_HOME>/bin/wso2server.sh -DworkerNode=true

  4. Check for ‘member joined’ log messages in all consoles.

    Info
    titleAdditional information on logs and new nodes

    When you terminate one node, all nodes identify that the node has left the cluster. The same applies when a new node joins the cluster. 

    If you want to add another new worker node, you can simply copy worker1 without any changes if you are running it on a new server (such as xxx.xxx.xxx.184). If you intend to use the new node on a server where another WSO2 product is running, you can use a copy of worker1 and change the port offset accordingly in the carbon.xml file. You also have to change localMemberPort in axis2.xml if that product has clustering enabled. Be sure to map all host names to the relevant IP addresses when creating a new node. The log messages indicate if the new node joins the cluster.

  5. Access management console through the LB using the following URL: https://xxx.xxx.xxx.xx2:443/carbon
  6. Test load distribution via http://xxx.xxx.xxx.xx3:80/ or https://xxx.xxx.xxx.xx3:443/.
  7. Add a sample proxy service with the log mediator in the inSequence so that logs will be displayed in the worker terminals, and then observe the cluster messages sent from the manager node to the workers.

    The load balancer manages the active and passive states of the worker nodes, activating nodes as needed and leaving the rest in passive mode. To test this, send a request to the end point through the load balancer to verify that the proxy service is activated only on the active worker node(s) while the remaining worker nodes remain passive. For example, you would send the request to the following URL:

    http://{Load_Balancer_Mapped_URL_for_worker}/services/{Sample_Proxy_Name}