The below steps covers manual setup of DCAE VM’s and DCAE service components.
VESCollector
DCAE VES Collector can be configured on VM with ubuntu-16.04 image (m1.small should suffice if this is only service) and 20Gb cinder storage
1) Install docker
sudo apt-get update
sudo apt install docker.io
2) Pull the latest container from onap nexus
sudo docker login -u docker -p docker nexus.onap.org:10001
sudo docker pull nexus.onap.org:10001/onap/org.onap.dcaegen2.collectors.ves.vescollector:v1.1.0
3) Start the VESCollector with below command
sudo docker run -d --name vescollector -p 8080:8080/tcp -p 8443:8443/tcp -P -e DMAAPHOST='<dmaap IP>' nexus.onap.org:10001/onap/org.onap.dcaegen2.collectors.ves.vescollector:v1.1.0
Note: Change the dmaaphost to required DMAAP ip. To change the dmaap information for a running container, stop the active container and rerun above command changing the dmaap IP.
4) Verification
- Check logs under container /opt/app/VESCollector/logs/collector.log for errors
- If no active feed, you can simulate an event into collector via curl
curl -i -X POST -d @<sampleves> --header "Content-Type: application/json" http://localhost:8080/eventListener/v5 -k
Note: If DMAAPHOST provided is invalid, you will see exception around publish on the collector.logs (collector queues and attempts to resend the event hence exceptions reported will be periodic).
3. Below two topic configuration are pre-set into this container. When valid DMAAP instance ip was provided and VES events are received, the collector will post to below topics.
Fault - http://<dmaaphost>:3904/events/unauthenticated.SEC_FAULT_OUTPUT
Measurement -http://<dmaaphost>:3904/events/unauthenticated.SEC_MEASUREMENT_OUTPUT
VM Init
To address windriver server in-stability, the below init.sh script was used to start the container on VM restart.
#!/bin/sh
sudo docker ps | grep "vescollector"
if [ $? -ne 0 ]; then
sudo docker login -u docker -p docker nexus.onap.org:10001
sudo docker pull nexus.onap.org:10001/onap/org.onap.dcaegen2.collectors.ves.vescollector:1.1
sudo docker rm -f vescollector
echo "Collector process not running - $(date)" >> /home/ubuntu/startuplog
sudo docker run -d --name vescollector -p 8080:8080/tcp -p 8443:8443/tcp -P -e DMAAPHOST='10.12.25.96' nexus.onap.org:10001/onap/org.onap.dcaegen2.collectors.ves.vescollector:v1.1.0
else
echo "Collector process running - $(date)" >> /home/ubuntu/startuplog
fi
This script was invoked via VM init script (rc.d).
ln -s /home/ubuntu/init.sh /etc/init.d/init.sh
sudo update-rc.d init.sh start 2
ThresholdCrossingAnalysis (TCA/CDAP)
The platform deploys CDAP as cluster and instantiates TCA. For the manual setup, we will leverage the CDAP SDK docker container to deploy TCA instances. To setup TCA, choose VM with ubuntu-16.04 image, m1.medium size and 50gb cinder volumes.
1) Install docker
sudo apt-get update
sudo apt install docker.io
2) Pull CDAP SDK container
sudo docker pull caskdata/cdap-standalone:4.1.2
3) Deploy and run the CDAP container
sudo docker run -d --name cdap-sdk-2 -p 11011:11011 -p 11015:11015 caskdata/cdap-standalone:4.1.2
4) Create Namespace on CDAP application
curl -X PUT http://localhost:11015/v3/namespaces/cdap_tca_hi_lo
5) Create TCA app config file - "tca_app_config.json" under ~ubuntu as below
{
"artifact": {
"name": "dcae-analytics-cdap-tca",
"version": "2.0.1",
"scope": "user"
},
"config": {
"appName": "dcae-tca",
"appDescription": "DCAE Analytics Threshold Crossing Alert Application",
"tcaVESMessageStatusTableName": "TCAVESMessageStatusTable",
"tcaVESMessageStatusTableTTLSeconds": 86400.0,
"tcaAlertsAbatementTableName": "TCAAlertsAbatementTable",
"tcaAlertsAbatementTableTTLSeconds": 1728000.0,
"tcaVESAlertsTableName": "TCAVESAlertsTable",
"tcaVESAlertsTableTTLSeconds": 1728000.0,
"thresholdCalculatorFlowletInstances": 2.0,
"tcaSubscriberOutputStreamName": "TCASubscriberOutputStream"
}
}
6) Create TCA app preference file - "tca_app_preferences.json" under ~ubuntu as below
{
"publisherContentType" : "application/json",
"publisherHostName" : "10.12.25.96",
"publisherHostPort" : "3904",
"publisherMaxBatchSize" : "1",
"publisherMaxRecoveryQueueSize" : "100000",
"publisherPollingInterval" : "20000",
"publisherProtocol" : "http",
"publisherTopicName" : "unauthenticated.DCAE_CL_OUTPUT",
"subscriberConsumerGroup" : "OpenDCAE-c1",
"subscriberConsumerId" : "c1",
"subscriberContentType" : "application/json",
"subscriberHostName" : "10.12.25.96",
"subscriberHostPort" : "3904",
"subscriberMessageLimit" : "-1",
"subscriberPollingInterval" : "20000",
"subscriberProtocol" : "http",
"subscriberTimeoutMS" : "-1",
"subscriberTopicName" : "unauthenticated.SEC_MEASUREMENT_OUTPUT",
"enableAAIEnrichment" : false,
"aaiEnrichmentHost" : "10.12.25.72",
"aaiEnrichmentPortNumber" : 8443,
"aaiEnrichmentProtocol" : "https",
"aaiEnrichmentUserName" : "DCAE",
"aaiEnrichmentUserPassword" : "DCAE",
"aaiEnrichmentIgnoreSSLCertificateErrors" : true,
"aaiVNFEnrichmentAPIPath" : "/aai/v11/network/generic-vnfs/generic-vnf",
"aaiVMEnrichmentAPIPath" : "/aai/v11/search/nodes-query",
"tca_policy" : "{
\"domain\": \"measurementsForVfScaling\",
\"metricsPerEventName\": [{
\"eventName\": \"vFirewallBroadcastPackets\",
\"controlLoopSchemaType\": \"VNF\",
\"policyScope\": \"DCAE\",
\"policyName\": \"DCAE.Config_tca-hi-lo\",
\"policyVersion\": \"v0.0.1\",
\"thresholds\": [{
\"closedLoopControlName\": \"ControlLoop-vFirewall-d0a1dfc6-94f5-4fd4-a5b5-4630b438850a\",
\"version\": \"1.0.2\",
\"fieldPath\": \"$.event.measurementsForVfScalingFields.vNicUsageArray[*].receivedTotalPacketsDelta\",
\"thresholdValue\": 300,
\"direction\": \"LESS_OR_EQUAL\",
\"severity\": \"MAJOR\",
\"closedLoopEventStatus\": \"ONSET\"
}, {
\"closedLoopControlName\": \"ControlLoop-vFirewall-d0a1dfc6-94f5-4fd4-a5b5-4630b438850a\",
\"version\": \"1.0.2\",
\"fieldPath\": \"$.event.measurementsForVfScalingFields.vNicUsageArray[*].receivedTotalPacketsDelta\",
\"thresholdValue\": 700,
\"direction\": \"GREATER_OR_EQUAL\",
\"severity\": \"CRITICAL\",
\"closedLoopEventStatus\": \"ONSET\"
}]
}, {
\"eventName\": \"vLoadBalancer\",
\"controlLoopSchemaType\": \"VM\",
\"policyScope\": \"DCAE\",
\"policyName\": \"DCAE.Config_tca-hi-lo\",
\"policyVersion\": \"v0.0.1\",
\"thresholds\": [{
\"closedLoopControlName\": \"ControlLoop-vDNS-6f37f56d-a87d-4b85-b6a9-cc953cf779b3\",
\"version\": \"1.0.2\",
\"fieldPath\": \"$.event.measurementsForVfScalingFields.vNicUsageArray[*].receivedTotalPacketsDelta\",
\"thresholdValue\": 300,
\"direction\": \"GREATER_OR_EQUAL\",
\"severity\": \"CRITICAL\",
\"closedLoopEventStatus\": \"ONSET\"
}]
}, {
\"eventName\": \"Measurement_vGMUX\",
\"controlLoopSchemaType\": \"VNF\",
\"policyScope\": \"DCAE\",
\"policyName\": \"DCAE.Config_tca-hi-lo\",
\"policyVersion\": \"v0.0.1\",
\"thresholds\": [{
\"closedLoopControlName\": \"ControlLoop-vCPE-48f0c2c3-a172-4192-9ae3-052274181b6e\",
\"version\": \"1.0.2\",
\"fieldPath\": \"$.event.measurementsForVfScalingFields.additionalMeasurements[*].arrayOfFields[0].value\",
\"thresholdValue\": 0,
\"direction\": \"EQUAL\",
\"severity\": \"MAJOR\",
\"closedLoopEventStatus\": \"ABATED\"
}, {
\"closedLoopControlName\": \"ControlLoop-vCPE-48f0c2c3-a172-4192-9ae3-052274181b6e\",
\"version\": \"1.0.2\",
\"fieldPath\": \"$.event.measurementsForVfScalingFields.additionalMeasurements[*].arrayOfFields[0].value\",
\"thresholdValue\": 0,
\"direction\": \"GREATER\",
\"severity\": \"CRITICAL\",
\"closedLoopEventStatus\": \"ONSET\"
}]
}]
}"
}
Note: Dmaap configuration are specified on this file on publisherHostName and subscriberHostName. To be changed as required**
6 a) To enable AAI Enrichment in TCA for CL event, following updates should be done to TCA app preference file before proceeding
"enableAAIEnrichment" : true
"aaiEnrichmentHost" : <should be set to aai1_ip_addr>
"aaiEnrichmentIgnoreSSLCertificateErrors" : true
7) Copy below script to CDAP server (this gets latest image from nexus and deploys TCA application) and execute it
#!/bin/sh
TCA_JAR=dcae-analytics-cdap-tca-2.0.1.jar
rm -f /home/ubuntu/$TCA_JAR
cd /home/ubuntu/
wget https://nexus.onap.org/service/local/repositories/releases/content/org/onap/dcaegen2/analytics/tca/dcae-analytics-cdap-tca/2.0.1/$TCA_JAR
if [ $? -eq 0 ]; then
if [ -f /home/ubuntu/$TCA_JAR ]; then
echo "Restarting TCA CDAP application using $TCA_JAR artifact"
else
echo "ERROR: $TCA_JAR missing"
exit 1
fi
else
echo "ERROR: $TCA_JAR not found in nexus"
exit 1
fi
# stop programs
curl -X POST http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/workers/TCADMaaPMRPublisherWorker/stop
curl -X POST http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/workers/TCADMaaPMRSubscriberWorker/stop
curl -X POST http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/flows/TCAVESCollectorFlow/stop
# delete application
curl -X DELETE http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca
# delete artifact
curl -X DELETE http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/artifacts/dcae-analytics-cdap-tca/versions/2.0.1
# load artifact
curl -X POST --data-binary @/home/ubuntu/$TCA_JAR http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/artifacts/dcae-analytics-cdap-tca
# create app
curl -X PUT -d @/home/ubuntu/tca_app_config.json http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca
# load preferences
curl -X PUT -d @/home/ubuntu/tca_app_preferences.json http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/preferences
# start programs
curl -X POST http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/workers/TCADMaaPMRPublisherWorker/start
curl -X POST http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/workers/TCADMaaPMRSubscriberWorker/start
curl -X POST http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/flows/TCAVESCollectorFlow/start
echo
# get status of programs
curl http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/workers/TCADMaaPMRPublisherWorker/status
curl http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/workers/TCADMaaPMRSubscriberWorker/status
curl http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/flows/TCAVESCollectorFlow/status
echo
Note: Attached the script also for reference : reload-tca.sh
8) Verify TCA application and logs via CDAP GUI processes
http://<hostname/ip>:11011/oldcdap/ns/cdap_tca_hi_lo/apps/dcae-tca/overview/programs
The overall flow can be checked here
http://<hostname/ip>:11011/oldcdap/ns/cdap_tca_hi_lo/apps/dcae-tca/programs/flows/TCAVESCollectorFlow/runs
TCA Configuration Change
Typical configuration changes include changing DMAAP host and/or Policy configuration. If necessary, modify the file on step #6 and run the script noted as step #7 to redeploy TCA with updated configuration.
VM Init
To address windriver server in-stability, the below init.sh script was used to restart the container on VM restart. This script was invoked via VM init script (rc.d).
#!/bin/sh
#docker run -d --name cdap-sdk -p 11011:11011 -p 11015:11015 caskdata/cdap-standalone:4.1.2
sudo docker restart cdap-sdk-2
sleep 30
# start program
curl -X POST http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/workers/TCADMaaPMRPublisherWorker/start
curl -X POST http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/workers/TCADMaaPMRSubscriberWorker/start
curl -X POST http://localhost:11015/v3/namespaces/cdap_tca_hi_lo/apps/dcae-tca/flows/TCAVESCollectorFlow/start
This script was invoked via VM init script (rc.d).
ln -s /home/ubuntu/init.sh /etc/init.d/init.sh
sudo update-rc.d init.sh start 2