### # ============LICENSE_START======================================================= # feature-server-pool # ================================================================================ # Copyright (C) 2020 AT&T Intellectual Property. All rights reserved. # ================================================================================ # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ============LICENSE_END========================================================= ### # The following properties control the IP address and port that a given # server binds to. The default will bind to all interfaces on the host, # and choose a port number at random. server.pool.server.ipAddress=127.0.0.1 server.pool.server.port=20000 # The following properties determine whether HTTPS is used -- note that HTTPS # also requires that the 'java.net.ssl.*' parameters in 'system.properties' be # specified, and the key store and trust store be configured, as appropriate. server.pool.server.https= server.pool.server.selfSignedCerts=false # The IP address and port that servers on the geo-redundant site # should use to connect to servers on this site. server.pool.server.site.ip= server.pool.server.site.port= # A comma-separated list of host names -- if an entry is found that refers # to an HTTP/HTTPS destination IP address, the host name will used as the # destination, instead of the IP address server.pool.server.hostlist= # The servers send 'pings' to each other once per main loop cycle. They # also measure the gap between 'pings' from each server, and calculate # an allowed time gap based upon this. 'server.pool.server.allowedGap' is the initial # allowed gap prior to receiving any pings (default=30 seconds), and # 'server.pool.server.adaptiveGapAdjust' is a value that is added to the calculated # gap "just in case" (default=5 seconds) server.pool.server.allowedGap=30000 server.pool.server.adaptiveGapAdjust=5000 # 'connectTimeout' and 'readTimeout' affect the client end of a REST # connection (default=10 seconds each) server.pool.server.connectTimeout=10000 server.pool.server.readTimeout=10000 # Each server has a thread pool per remote server, which is used when # sending HTTP REST messages -- the following parameters determine the # configuration. server.pool.server.threads.corePoolSize=5 server.pool.server.threads.maximumPoolSize=10 server.pool.server.threads.keepAliveTime=5000 # The server pool members use a UEB/DMAAP topic to connect with other # servers in the pool. The following set of parameters are passed to # the CambriaClient library, and are used in setting up the consumer and # publisher ends of the connection. 'discovery.servers' and 'discovery.topic' # are the minimum values that need to be specified. The last parameter in # this set, 'discovery.publisherLoopCycleTime' isn't passed to the # CambriaClient library; instead, it controls how frequently the 'ping' # messages are sent out on this channel. Note that only the lead server # keeps this channel open long-term. server.pool.discovery.servers=127.0.0.1 server.pool.discovery.port=3904 server.pool.discovery.topic=DISCOVERY-TOPIC server.pool.discovery.username= server.pool.discovery.password= server.pool.discovery.https= server.pool.discovery.apiKey= server.pool.discovery.apiSecret= #server.pool.discovery.publisherSocketTimeout=5000 #server.pool.discovery.consumerSocketTimeout=70000 server.pool.discovery.fetchTimeout=60000 server.pool.discovery.fetchLimit=100 server.pool.discovery.selfSignedCertificates=false server.pool.discovery.publisherLoopCycleTime=5000 # The 'leader.*' parameters affect behavior during an election. The value of # 'mainLoop.cycle' determines the actual time delay. 'leader.stableIdCycles' # is the required minimum number of "stable" cycles before voting can start # (in this case, "stable" means no servers added or failing). Once voting has # started, "leader.stableVotingCycles' is the minimum number of "stable" # cycles needed before declaring a winner (in this case, "stable" means no # votes changing). server.pool.leader.stableIdleCycles=5 server.pool.leader.stableVotingCycles=5 # The value of 'mainLoop.cycle' (default = 1 second) determines how frequently # various events occur, such as the sending of 'ping' messages, and the # duration of a "cycle" while voting for a lead server. server.pool.mainLoop.cycle=1000 # 'keyword.path' is used when looking for "keywords" within JSON messages. # The first keyword located is hashed to determine which bucket to route # through. keyword.path=requestID,CommonHeader.RequestID,body.output.common-header.request-id,result-info.request-id:uuid # 'keyword..lookup' is used to locate "keywords" within objects. # The 'value' field contains a list of method calls or field names separated # by '.' that are used to locate the keyword # (e.g. 'method1().field2.method3()') keyword.java.lang.String.lookup=toString() keyword.org.onap.policy.m2.base.Transaction.lookup=getRequestID() keyword.org.onap.policy.controlloop.ControlLoopEvent.lookup=requestID keyword.org.onap.policy.appclcm.LcmRequestWrapper.lookup=getBody().getCommonHeader().getRequestId() keyword.org.onap.policy.appclcm.LcmResponseWrapper.lookup=getBody().getCommonHeader().getRequestId() keyword.org.onap.policy.drools.serverpool.TargetLock.lookup=getOwnerKey() keyword.org.onap.policy.drools.serverpooltest.TestDroolsObject.lookup=getKey() keyword.org.onap.policy.drools.serverpooltest.Test1$KeywordWrapper.lookup=key # The following properties affect distributed 'TargetLock' behavior. # # server.pool.lock.ttl - controls how many hops a 'TargetLock' message can take # server.pool.lock.audit.period - how frequently should the audit run? # server.pool.lock.audit.gracePeriod - how long to wait after bucket reassignments # before running the audit again # server.pool.lock.audit.retryDelay - mismatches can occur due to the transient nature # of the lock state: this property controls how long to wait before # trying again server.pool.lock.ttl=3 server.pool.lock.audit.period=300000 server.pool.lock.audit.gracePeriod=60000 server.pool.lock.audit.retryDelay=5000