Objective: Demonstrate the weighted load balancing among a set of endpoints
<definitions xmlns="http://ws.apache.org/ns/synapse"> <sequence name="errorHandler"> <makefault response="true"> <code xmlns:tns="http://www.w3.org/2003/05/soap-envelope" value="tns:Receiver" /> <reason value="COULDN'T SEND THE MESSAGE TO THE SERVER." /> </makefault> <send /> </sequence> <sequence name="fault"> <log level="full"> <property name="MESSAGE" value="Executing default "fault" sequence" /> <property name="ERROR_CODE" expression="get-property('ERROR_CODE')" /> <property name="ERROR_MESSAGE" expression="get-property('ERROR_MESSAGE')" /> </log> <drop /> </sequence> <sequence name="main" onError="errorHandler"> <in> <send> <endpoint> <loadbalance algorithm="org.apache.synapse.endpoints.algorithms.WeightedRoundRobin"> <endpoint> <address uri="http://localhost:9001/services/LBService1"> <enableAddressing /> <suspendOnFailure> <initialDuration>20000</initialDuration> <progressionFactor>1.0</progressionFactor> </suspendOnFailure> </address> <property name="loadbalance.weight" value="1" /> </endpoint> <endpoint> <address uri="http://localhost:9002/services/LBService1"><enableAddressing /> <suspendOnFailure> <initialDuration>20000</initialDuration> <progressionFactor>1.0</progressionFactor> </suspendOnFailure> </address> <property name="loadbalance.weight" value="2" /> </endpoint> <endpoint> <address uri="http://localhost:9003/services/LBService1"> <enableAddressing/> <suspendOnFailure> <initialDuration>20000</initialDuration> <progressionFactor>1.0</progressionFactor> </suspendOnFailure> </address> <property name="loadbalance.weight" value="3" /> </endpoint> </loadbalance> </endpoint> </send> <drop /> </in> <out> <send /></out> </sequence> </definitions>
Prerequisites:
- Start ESB with sample configuration 59: i.e.
wso2esb-samples.sh -sn 59
- Deploy the
LoadbalanceFailoverService
and start three instances of sample Axis2 server as mentioned in sample 52.
Above configuration sends messages with the weighted loadbalance behaviour. Weight of each leaf address endpoint is defined by integer value of "loadbalance.weight" property associated with each endpoint. If weight of a endpoint is x, x number of requests will send to that endpoint before switch to next active endpoint.
To test this, run the loadbalancefailover client to send 100 requests as follows:
ant loadbalancefailover -Di=100
This client sends 100 requests to the LoadbalanceFailoverService through ESB. ESB will distribute the load among the three endpoints mentioned in the configuration in weighted round-robin manner. LoadbalanceFailoverService appends the name of the server to the response, so that client can determine which server has processed the message. If you examine the console output of the client, you can see that requests are processed by three servers as follows:
[java] Request: 1 ==> Response from server: MyServer1 [java] Request: 2 ==> Response from server: MyServer2 [java] Request: 3 ==> Response from server: MyServer2 [java] Request: 4 ==> Response from server: MyServer3 [java] Request: 5 ==> Response from server: MyServer3 [java] Request: 6 ==> Response from server: MyServer3 [java] Request: 7 ==> Response from server: MyServer1 [java] Request: 8 ==> Response from server: MyServer2 [java] Request: 9 ==> Response from server: MyServer2 [java] Request: 10 ==> Response from server: MyServer3 [java] Request: 11 ==> Response from server: MyServer3 [java] Request: 12 ==> Response from server: MyServer3 ...
As logs, endpoint with weight 1 received a 1 request and endpoint with weight 2 received 2 requests and etc... in a cycle