blob: 1f22a6bb17605ee0c70bfb4973c03c4290bfcafd [file] [log] [blame]
// Copyright 2019-present Open Networking Foundation
//
// 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.
// deploy VOLTHA and performs a scale test
pipeline {
/* no label, executor is determined by JJB */
agent {
label "${params.buildNode}"
}
options {
timeout(time: 60, unit: 'MINUTES')
}
environment {
JENKINS_NODE_COOKIE="dontKillMe" // do not kill processes after the build is done
KUBECONFIG="$HOME/.kube/config"
VOLTCONFIG="$HOME/.volt/config"
SSHPASS="karaf"
// PATH="$PATH:$WORKSPACE/kind-voltha/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin"
// SCHEDULE_ON_CONTROL_NODES="yes"
// FANCY=0
// WITH_SIM_ADAPTERS="no"
// WITH_RADIUS="${withRadius}"
// WITH_BBSIM="yes"
// LEGACY_BBSIM_INDEX="no"
// DEPLOY_K8S="no"
// CONFIG_SADIS="external"
// WITH_KAFKA="kafka.default.svc.cluster.local"
// WITH_ETCD="etcd.default.svc.cluster.local"
// VOLTHA_ETCD_PORT=9999
// configurable options
// WITH_EAPOL="${withEapol}"
// WITH_DHCP="${withDhcp}"
// WITH_IGMP="${withIgmp}"
VOLTHA_LOG_LEVEL="${logLevel}"
NUM_OF_BBSIM="${olts}"
NUM_OF_OPENONU="${openonuAdapterReplicas}"
NUM_OF_ONOS="${onosReplicas}"
NUM_OF_ATOMIX="${atomixReplicas}"
// WITH_PPROF="${withProfiling}"
EXTRA_HELM_FLAGS="${extraHelmFlags} " // note that the trailing space is required to separate the parameters from appends done later
// VOLTHA_CHART="${volthaChart}"
// VOLTHA_BBSIM_CHART="${bbsimChart}"
// VOLTHA_ADAPTER_OPEN_OLT_CHART="${openoltAdapterChart}"
// VOLTHA_ADAPTER_OPEN_ONU_CHART="${openonuAdapterChart}"
// ONOS_CLASSIC_CHART="${onosChart}"
// RADIUS_CHART="${radiusChart}"
APPS_TO_LOG="etcd kafka onos-classic adapter-open-onu adapter-open-olt rw-core ofagent bbsim radius bbsim-sadis-server"
LOG_FOLDER="$WORKSPACE/logs"
GERRIT_PROJECT="${GERRIT_PROJECT}"
}
stages {
stage ('Cleanup') {
steps {
timeout(time: 11, unit: 'MINUTES') {
sh returnStdout: false, script: '''
helm repo add onf https://charts.opencord.org
helm repo update
NAMESPACES="voltha1 voltha2 infra default"
for NS in $NAMESPACES
do
for hchart in $(helm list -n $NS -q | grep -E -v 'docker-registry|kafkacat');
do
echo "Purging chart: ${hchart}"
helm delete -n $NS "${hchart}"
done
done
# wait for pods to be removed
echo -ne "\nWaiting for PODs to be removed..."
PODS=$(kubectl get pods --all-namespaces --no-headers | grep -v -E "kube|cattle|registry" | wc -l)
while [[ $PODS != 0 ]]; do
sleep 5
echo -ne "."
PODS=$(kubectl get pods --all-namespaces --no-headers | grep -v -E "kube|cattle|registry" | wc -l)
done
# remove orphaned port-forward from different namespaces
ps aux | grep port-forw | grep -v grep | awk '{print $2}' | xargs --no-run-if-empty kill -9
cd $WORKSPACE
rm -rf $WORKSPACE/*
'''
}
}
}
stage('Clone voltha-system-tests') {
steps {
checkout([
$class: 'GitSCM',
userRemoteConfigs: [[
url: "https://gerrit.opencord.org/voltha-system-tests",
refspec: "${volthaSystemTestsChange}"
]],
branches: [[ name: "${release}", ]],
extensions: [
[$class: 'WipeWorkspace'],
[$class: 'RelativeTargetDirectory', relativeTargetDir: "voltha-system-tests"],
[$class: 'CloneOption', depth: 0, noTags: false, reference: '', shallow: false],
],
])
script {
sh(script:"""
if [ '${volthaSystemTestsChange}' != '' ] ; then
cd $WORKSPACE/voltha-system-tests;
git fetch https://gerrit.opencord.org/voltha-system-tests ${volthaSystemTestsChange} && git checkout FETCH_HEAD
fi
""")
}
}
}
stage('Clone voltha-helm-charts') {
steps {
checkout([
$class: 'GitSCM',
userRemoteConfigs: [[
url: "https://gerrit.opencord.org/voltha-helm-charts",
refspec: "${volthaHelmChartsChange}"
]],
branches: [[ name: "master", ]],
extensions: [
[$class: 'WipeWorkspace'],
[$class: 'RelativeTargetDirectory', relativeTargetDir: "voltha-helm-charts"],
[$class: 'CloneOption', depth: 0, noTags: false, reference: '', shallow: false],
],
])
script {
sh(script:"""
if [ '${volthaHelmChartsChange}' != '' ] ; then
cd $WORKSPACE/voltha-helm-charts;
git fetch https://gerrit.opencord.org/voltha-helm-charts ${volthaHelmChartsChange} && git checkout FETCH_HEAD
fi
""")
}
}
}
stage('Build patch') {
when {
expression {
return params.GERRIT_PROJECT
}
}
steps {
sh """
git clone https://\$GERRIT_HOST/\$GERRIT_PROJECT
cd \$GERRIT_PROJECT
git fetch https://\$GERRIT_HOST/\$GERRIT_PROJECT \$GERRIT_REFSPEC && git checkout FETCH_HEAD
DOCKER_REGISTRY=${dockerRegistry}/ DOCKER_REPOSITORY=voltha/ DOCKER_TAG=voltha-scale make docker-build
DOCKER_REGISTRY=${dockerRegistry}/ DOCKER_REPOSITORY=voltha/ DOCKER_TAG=voltha-scale make docker-push
"""
}
}
stage('Deploy common infrastructure') {
// includes monitoring, kafka, etcd
steps {
sh '''
helm install kafka $HOME/teone/helm-charts/kafka --set replicaCount=${kafkaReplicas},replicas=${kafkaReplicas} --set persistence.enabled=false \
--set zookeeper.replicaCount=${kafkaReplicas} --set zookeeper.persistence.enabled=false \
--set prometheus.kafka.enabled=true,prometheus.operator.enabled=true,prometheus.jmx.enabled=true,prometheus.operator.serviceMonitor.namespace=default
# the ETCD chart use "auth" for resons different than BBsim, so strip that away
ETCD_FLAGS=$(echo ${extraHelmFlags} | sed -e 's/--set auth=false / /g') | sed -e 's/--set auth=true / /g'
ETCD_FLAGS+=" --set auth.rbac.enabled=false,persistence.enabled=false,statefulset.replicaCount=${etcdReplicas}"
ETCD_FLAGS+=" --set memoryMode=${inMemoryEtcdStorage} "
helm install --set replicas=${etcdReplicas} etcd $HOME/teone/helm-charts/etcd $ETCD_FLAGS
if [ ${withMonitoring} = true ] ; then
helm install nem-monitoring onf/nem-monitoring \
-f $HOME/voltha-scale/grafana.yaml \
--set prometheus.alertmanager.enabled=false,prometheus.pushgateway.enabled=false \
--set kpi_exporter.enabled=false,dashboards.xos=false,dashboards.onos=false,dashboards.aaa=false,dashboards.voltha=false
fi
'''
}
}
stage('Deploy Voltha') {
steps {
timeout(time: 10, unit: 'MINUTES') {
script {
sh returnStdout: false, script: """
export EXTRA_HELM_FLAGS+=' '
# BBSim custom image handling
if [ '${bbsimImg.trim()}' != '' ] && [ '\$GERRIT_PROJECT' != 'bbsim' ]; then
IFS=: read -r bbsimRepo bbsimTag <<< '${bbsimImg.trim()}'
EXTRA_HELM_FLAGS+="--set images.bbsim.repository=\$bbsimRepo,images.bbsim.tag=\$bbsimTag "
fi
# VOLTHA custom image handling
if [ '${rwCoreImg.trim()}' != '' ] && [ '\$GERRIT_PROJECT' != 'voltha-go' ]; then
IFS=: read -r rwCoreRepo rwCoreTag <<< '${rwCoreImg.trim()}'
EXTRA_HELM_FLAGS+="--set voltha.images.rw_core.repository=\$rwCoreRepo,voltha.images.rw_core.tag=\$rwCoreTag "
fi
# ofAgent custom image handling
if [ '${ofAgentImg.trim()}' != '' ] && [ '\$GERRIT_PROJECT' != 'of-agent' ]; then
IFS=: read -r ofAgentRepo ofAgentTag <<< '${ofAgentImg.trim()}'
EXTRA_HELM_FLAGS+="--set voltha.images.ofagent.repository=\$ofAgentRepo,voltha.images.ofagent.tag=\$ofAgentTag "
fi
# OpenOLT custom image handling
if [ '${openoltAdapterImg.trim()}' != '' ] && [ '\$GERRIT_PROJECT' != 'voltha-openolt-adapter' ]; then
IFS=: read -r openoltAdapterRepo openoltAdapterTag <<< '${openoltAdapterImg.trim()}'
EXTRA_HELM_FLAGS+="--set voltha-adapter-openolt.images.adapter_open_olt.repository=\$openoltAdapterRepo,voltha-adapter-openolt.images.adapter_open_olt.tag=\$openoltAdapterTag "
fi
# OpenONU custom image handling
if [ '${openonuAdapterImg.trim()}' != '' ] && [ '\$GERRIT_PROJECT' != 'voltha-openonu-adapter' ]; then
IFS=: read -r openonuAdapterRepo openonuAdapterTag <<< '${openonuAdapterImg.trim()}'
EXTRA_HELM_FLAGS+="--set voltha-adapter-openonu.images.adapter_open_onu.repository=\$openonuAdapterRepo,voltha-adapter-openonu.images.adapter_open_onu.tag=\$openonuAdapterTag "
fi
# OpenONU GO custom image handling
if [ '${openonuAdapterGoImg.trim()}' != '' ] && [ '\$GERRIT_PROJECT' != 'voltha-openonu-adapter-go' ]; then
IFS=: read -r openonuAdapterGoRepo openonuAdapterGoTag <<< '${openonuAdapterGoImg.trim()}'
EXTRA_HELM_FLAGS+="--set voltha-adapter-openonu.images.adapter_open_onu_go.repository=\$openonuAdapterGoRepo,voltha-adapter-openonu.images.adapter_open_onu_go.tag=\$openonuAdapterGoTag "
fi
# ONOS custom image handling
if [ '${onosImg.trim()}' != '' ] && [ '\$GERRIT_PROJECT' != 'voltha-onos' ]; then
IFS=: read -r onosRepo onosTag <<< '${onosImg.trim()}'
EXTRA_HELM_FLAGS+="--set onos-classic.image.repository=\$onosRepo,onos-classic.image.tag=\$onosTag "
fi
# set BBSim parameters
EXTRA_HELM_FLAGS+='--set enablePerf=true,pon=${pons},onu=${onus} '
# disable the securityContext, this is a development cluster
EXTRA_HELM_FLAGS+='--set securityContext.enabled=false '
# No persistent-volume-claims in Atomix
EXTRA_HELM_FLAGS+="--set onos-classic.atomix.persistence.enabled=false "
echo "Installing with the following extra arguments:"
echo $EXTRA_HELM_FLAGS
# Use custom built images
if [ '\$GERRIT_PROJECT' == 'voltha-go' ]; then
EXTRA_HELM_FLAGS+="--set voltha.images.rw_core.repository=${dockerRegistry}/voltha/voltha-rw-core,voltha.images.rw_core.tag=voltha-scale "
fi
if [ '\$GERRIT_PROJECT' == 'voltha-openolt-adapter' ]; then
EXTRA_HELM_FLAGS+="--set voltha-openolt-adapter.images.adapter_open_olt.repository=${dockerRegistry}/voltha/voltha-openolt-adapter,voltha-openolt-adapter.images.adapter_open_olt.tag=voltha-scale "
fi
if [ '\$GERRIT_PROJECT' == 'voltha-openonu-adapter' ]; then
EXTRA_HELM_FLAGS+="--set voltha-openonu-adapter.images.adapter_open_onu.repository=${dockerRegistry}/voltha/voltha-openonu-adapter,voltha-openonu-adapter.images.adapter_open_onu.tag=voltha-scale "
fi
if [ '\$GERRIT_PROJECT' == 'voltha-openonu-adapter-go' ]; then
EXTRA_HELM_FLAGS+="--set voltha-openonu-adapter-go.images.adapter_open_onu_go.repository=${dockerRegistry}/voltha/voltha-openonu-adapter-go,voltha-openonu-adapter-go.images.adapter_open_onu_go.tag=voltha-scale "
fi
if [ '\$GERRIT_PROJECT' == 'ofagent-go' ]; then
EXTRA_HELM_FLAGS+="--set voltha.images.ofagent.repository=${dockerRegistry}/voltha/voltha-ofagent-go,ofagent-go.images.ofagent.tag=voltha-scale "
fi
if [ '\$GERRIT_PROJECT' == 'voltha-onos' ]; then
EXTRA_HELM_FLAGS+="--set onos-classic.image.repository=${dockerRegistry}/voltha/voltha-onos,onos-classic.image.tag=voltha-scale "
fi
if [ '\$GERRIT_PROJECT' == 'bbsim' ]; then
EXTRA_HELM_FLAGS+="--set images.bbsim.repository=${dockerRegistry}/voltha/bbsim,images.bbsim.tag=voltha-scale "
fi
helm upgrade --install voltha-infra onf/voltha-infra \$EXTRA_HELM_FLAGS \
--set onos-classic.replicas=${onosReplicas},onos-classic.atomix.replicas=${atomixReplicas} \
--set etcd.enabled=false,kafka.enabled=false \
--set global.log_level=${logLevel} \
-f $WORKSPACE/voltha-helm-charts/examples/${workflow}-values.yaml
helm upgrade --install voltha1 onf/voltha-stack \$EXTRA_HELM_FLAGS \
--set global.stack_name=voltha1 \
--set global.voltha_infra_name=voltha-infra \
--set global.voltha_infra_namespace=default \
--set global.log_level=${logLevel} \
--set voltha.services.kafka.adapter.address=kafka.default.svc:9092 \
--set voltha.services.kafka.cluster.address=kafka.default.svc:9092 \
--set voltha.services.etcd.address=etcd.default.svc:2379 \
--set voltha-adapter-openolt.services.kafka.adapter.address=kafka.default.svc:9092 \
--set voltha-adapter-openolt.services.kafka.cluster.address=kafka.default.svc:9092 \
--set voltha-adapter-openolt.services.etcd.address=etcd.default.svc:2379 \
--set voltha-adapter-openonu.services.kafka.adapter.address=kafka.default.svc:9092 \
--set voltha-adapter-openonu.services.kafka.cluster.address=kafka.default.svc:9092 \
--set voltha-adapter-openonu.services.etcd.address=etcd.default.svc:2379
# TODO having to set all of these values is annoying, is there a better solution?
for i in {0..${olts.toInteger() - 1}}; do
stackId=1
helm upgrade --install bbsim\$i onf/bbsim \$EXTRA_HELM_FLAGS \
--set olt_id="\${stackId}\${i}" \
--set onu=${onus},pon=${pons} \
--set global.log_level=${logLevel.toLowerCase()} \
-f $WORKSPACE/voltha-helm-charts/examples/${workflow}-values.yaml
done
"""
sh """
set +x
echo -ne "\nWaiting for VOLTHA and ONOS to start..."
voltha=\$(kubectl get pods --all-namespaces -l app.kubernetes.io/part-of=voltha --no-headers | grep "0/" | wc -l)
onos=\$(kubectl get pods --all-namespaces -l app=onos-classic --no-headers | grep "0/" | wc -l)
while [[ \$voltha != 0 || \$onos != 0 ]]; do
sleep 5
echo -ne "."
voltha=\$(kubectl get pods --all-namespaces -l app.kubernetes.io/part-of=voltha --no-headers | grep "0/" | wc -l)
onos=\$(kubectl get pods --all-namespaces -l app=onos-classic --no-headers | grep "0/" | wc -l)
done
echo -ne "\nVOLTHA and ONOS pods ready\n"
kubectl get pods --all-namespaces -l app.kubernetes.io/part-of=voltha --no-headers | grep "0/" | wc -l
kubectl get pods --all-namespaces -l app=onos-classic --no-headers | grep "0/" | wc -l
"""
start_port_forward(olts)
}
}
sh returnStdout: false, script: '''
# start logging with kail
mkdir -p $LOG_FOLDER
list=($APPS_TO_LOG)
for app in "${list[@]}"
do
echo "Starting logs for: ${app}"
_TAG=kail-$app kail -l app=$app --since 1h > $LOG_FOLDER/$app.log&
done
'''
}
}
stage('Configuration') {
steps {
script {
def tech_prof_directory = "XGS-PON"
sh returnStdout: false, script: """
#Setting link discovery
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 cfg set org.onosproject.provider.lldp.impl.LldpLinkProvider enabled ${withLLDP}
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 cfg set org.onosproject.net.flow.impl.FlowRuleManager allowExtraneousRules true
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 cfg set org.onosproject.net.flow.impl.FlowRuleManager importExtraneousRules true
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 cfg set org.onosproject.net.flowobjective.impl.InOrderFlowObjectiveManager accumulatorMaxBatchMillis 1000
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 cfg set org.onosproject.net.flowobjective.impl.InOrderFlowObjectiveManager accumulatorMaxIdleMillis 500
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 log:set ${logLevel} org.onosproject
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 log:set ${logLevel} org.opencord
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 log:set DEBUG org.opencord.cordmcast
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 log:set DEBUG org.onosproject.mcast
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 log:set DEBUG org.opencord.igmpproxy
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 log:set DEBUG org.opencord.olt
kubectl exec \$(kubectl get pods | grep -E "bbsim[0-9]" | awk 'NR==1{print \$1}') -- bbsimctl log ${logLevel.toLowerCase()} false
# Set Flows/Ports/Meters poll frequency
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 cfg set org.onosproject.provider.of.flow.impl.OpenFlowRuleProvider flowPollFrequency ${onosStatInterval}
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 cfg set org.onosproject.provider.of.device.impl.OpenFlowDeviceProvider portStatsPollFrequency ${onosStatInterval}
if [ ${withFlows} = false ]; then
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 app deactivate org.opencord.olt
fi
if [ '${workflow}' = 'tt' ]; then
etcd_container=\$(kubectl get pods --all-namespaces | grep etcd | awk 'NR==1{print \$2}')
kubectl cp $WORKSPACE/voltha-system-tests/tests/data/TechProfile-TT-HSIA.json \$etcd_container:/tmp/hsia.json
put_result=\$(kubectl exec -it \$etcd_container -- /bin/sh -c 'cat /tmp/hsia.json | ETCDCTL_API=3 etcdctl put service/voltha/technology_profiles/${tech_prof_directory}/64')
kubectl cp $WORKSPACE/voltha-system-tests/tests/data/TechProfile-TT-VoIP.json \$etcd_container:/tmp/voip.json
put_result=\$(kubectl exec -it \$etcd_container -- /bin/sh -c 'cat /tmp/voip.json | ETCDCTL_API=3 etcdctl put service/voltha/technology_profiles/${tech_prof_directory}/65')
kubectl cp $WORKSPACE/voltha-system-tests/tests/data/TechProfile-TT-MCAST.json \$etcd_container:/tmp/mcast.json
put_result=\$(kubectl exec -it \$etcd_container -- /bin/sh -c 'cat /tmp/mcast.json | ETCDCTL_API=3 etcdctl put service/voltha/technology_profiles/${tech_prof_directory}/66')
fi
if [ ${withPcap} = true ] ; then
# Start the tcp-dump in ofagent
export OF_AGENT=\$(kubectl get pods -l app=ofagent -o name)
kubectl exec \$OF_AGENT -- apk update
kubectl exec \$OF_AGENT -- apk add tcpdump
kubectl exec \$OF_AGENT -- mv /usr/sbin/tcpdump /usr/bin/tcpdump
_TAG=ofagent-tcpdump kubectl exec \$OF_AGENT -- tcpdump -nei eth0 -w out.pcap&
# Start the tcp-dump in radius
export RADIUS=\$(kubectl get pods -l app=radius -o name)
kubectl exec \$RADIUS -- apt-get update
kubectl exec \$RADIUS -- apt-get install -y tcpdump
_TAG=radius-tcpdump kubectl exec \$RADIUS -- tcpdump -w out.pcap&
# Start the tcp-dump in ONOS
for i in \$(seq 0 \$ONOSES); do
INSTANCE="onos-onos-classic-\$i"
kubectl exec \$INSTANCE -- apt-get update
kubectl exec \$INSTANCE -- apt-get install -y tcpdump
kubectl exec \$INSTANCE -- mv /usr/sbin/tcpdump /usr/bin/tcpdump
_TAG=\$INSTANCE kubectl exec \$INSTANCE -- /usr/bin/tcpdump -nei eth0 port 1812 -w out.pcap&
done
fi
"""
}
}
}
stage('Run Test') {
steps {
sh '''
mkdir -p $WORKSPACE/RobotLogs
cd $WORKSPACE/voltha-system-tests
make vst_venv
'''
sh '''
if [ ${withProfiling} = true ] ; then
mkdir -p $LOG_FOLDER/pprof
echo $PATH
#Creating Python script for ONU Detection
cat << EOF > $WORKSPACE/pprof.sh
timestamp() {
date +"%T"
}
i=0
while [[ true ]]; do
((i++))
ts=$(timestamp)
go tool pprof -png http://127.0.0.1:6060/debug/pprof/heap > $LOG_FOLDER/pprof/rw-core-heap-\\$i-\\$ts.png
go tool pprof -png http://127.0.0.1:6060/debug/pprof/goroutine > $LOG_FOLDER/pprof/rw-core-goroutine-\\$i-\\$ts.png
curl -o $LOG_FOLDER/pprof/rw-core-profile-\\$i-\\$ts.pprof http://127.0.0.1:6060/debug/pprof/profile?seconds=10
go tool pprof -png $LOG_FOLDER/pprof/rw-core-profile-\\$i-\\$ts.pprof > $LOG_FOLDER/pprof/rw-core-profile-\\$i-\\$ts.png
go tool pprof -png http://127.0.0.1:6061/debug/pprof/heap > $LOG_FOLDER/pprof/openolt-heap-\\$i-\\$ts.png
go tool pprof -png http://127.0.0.1:6061/debug/pprof/goroutine > $LOG_FOLDER/pprof/openolt-goroutine-\\$i-\\$ts.png
curl -o $LOG_FOLDER/pprof/openolt-profile-\\$i-\\$ts.pprof http://127.0.0.1:6061/debug/pprof/profile?seconds=10
go tool pprof -png $LOG_FOLDER/pprof/openolt-profile-\\$i-\\$ts.pprof > $LOG_FOLDER/pprof/openolt-profile-\\$i-\\$ts.png
go tool pprof -png http://127.0.0.1:6062/debug/pprof/heap > $LOG_FOLDER/pprof/ofagent-heap-\\$i-\\$ts.png
go tool pprof -png http://127.0.0.1:6062/debug/pprof/goroutine > $LOG_FOLDER/pprof/ofagent-goroutine-\\$i-\\$ts.png
curl -o $LOG_FOLDER/pprof/ofagent-profile-\\$i-\\$ts.pprof http://127.0.0.1:6062/debug/pprof/profile?seconds=10
go tool pprof -png $LOG_FOLDER/pprof/ofagent-profile-\\$i-\\$ts.pprof > $LOG_FOLDER/pprof/ofagent-profile-\\$i-\\$ts.png
sleep 10
done
EOF
_TAG="pprof"
_TAG=$_TAG bash $WORKSPACE/pprof.sh &
fi
'''
timeout(time: 15, unit: 'MINUTES') {
sh '''
ROBOT_PARAMS="--exitonfailure \
-v olt:${olts} \
-v pon:${pons} \
-v onu:${onus} \
-v workflow:${workflow} \
-v withEapol:${withEapol} \
-v withDhcp:${withDhcp} \
-v withIgmp:${withIgmp} \
--noncritical non-critical \
-e igmp -e teardown "
if [ ${withEapol} = false ] ; then
ROBOT_PARAMS+="-e authentication "
fi
if [ ${withDhcp} = false ] ; then
ROBOT_PARAMS+="-e dhcp "
fi
if [ ${provisionSubscribers} = false ] ; then
# if we're not considering subscribers then we don't care about authentication and dhcp
ROBOT_PARAMS+="-e authentication -e provision -e flow-after -e dhcp "
fi
if [ ${withFlows} = false ] ; then
ROBOT_PARAMS+="-i setup -i activation "
fi
cd $WORKSPACE/voltha-system-tests
source ./vst_venv/bin/activate
robot -d $WORKSPACE/RobotLogs \
$ROBOT_PARAMS tests/scale/Voltha_Scale_Tests.robot
'''
}
}
}
stage('Run Igmp Tests') {
environment {
ROBOT_LOGS_DIR="$WORKSPACE/RobotLogs/IgmpTests"
}
when {
expression {
return params.withIgmp
}
}
steps {
sh '''
set +e
mkdir -p $ROBOT_LOGS_DIR
cd $WORKSPACE/voltha-system-tests
make vst_venv
'''
timeout(time: 11, unit: 'MINUTES') {
sh '''
ROBOT_PARAMS="--exitonfailure \
-v olt:${olts} \
-v pon:${pons} \
-v onu:${onus} \
-v workflow:${workflow} \
-v withEapol:${withEapol} \
-v withDhcp:${withDhcp} \
-v withIgmp:${withIgmp} \
--noncritical non-critical \
-i igmp \
-e setup -e activation -e flow-before \
-e authentication -e provision -e flow-after \
-e dhcp -e teardown "
cd $WORKSPACE/voltha-system-tests
source ./vst_venv/bin/activate
robot -d $ROBOT_LOGS_DIR \
$ROBOT_PARAMS tests/scale/Voltha_Scale_Tests.robot
'''
}
}
}
}
post {
always {
// collect result, done in the "post" step so it's executed even in the
// event of a timeout in the tests
sh '''
# stop the kail processes
list=($APPS_TO_LOG)
for app in "${list[@]}"
do
echo "Stopping logs for: ${app}"
_TAG="kail-$app"
P_IDS="$(ps e -ww -A | grep "_TAG=$_TAG" | grep -v grep | awk '{print $1}')"
if [ -n "$P_IDS" ]; then
echo $P_IDS
for P_ID in $P_IDS; do
kill -9 $P_ID
done
fi
done
if [ ${withPcap} = true ] ; then
# stop ofAgent tcpdump
P_ID="\$(ps e -ww -A | grep "_TAG=ofagent-tcpdump" | grep -v grep | awk '{print \$1}')"
if [ -n "\$P_ID" ]; then
kill -9 \$P_ID
fi
# stop radius tcpdump
P_ID="\$(ps e -ww -A | grep "_TAG=radius-tcpdump" | grep -v grep | awk '{print \$1}')"
if [ -n "\$P_ID" ]; then
kill -9 \$P_ID
fi
# stop onos tcpdump
LIMIT=$(($NUM_OF_ONOS - 1))
for i in $(seq 0 $LIMIT); do
INSTANCE="onos-onos-classic-$i"
P_ID="\$(ps e -ww -A | grep "_TAG=$INSTANCE" | grep -v grep | awk '{print \$1}')"
if [ -n "\$P_ID" ]; then
kill -9 \$P_ID
fi
done
# copy the file
export OF_AGENT=$(kubectl get pods -l app=ofagent | awk 'NR==2{print $1}') || true
kubectl cp $OF_AGENT:out.pcap $LOG_FOLDER/ofagent.pcap || true
export RADIUS=$(kubectl get pods -l app=radius | awk 'NR==2{print $1}') || true
kubectl cp $RADIUS:out.pcap $LOG_FOLDER/radius.pcap || true
LIMIT=$(($NUM_OF_ONOS - 1))
for i in $(seq 0 $LIMIT); do
INSTANCE="onos-onos-classic-$i"
kubectl cp $INSTANCE:out.pcap $LOG_FOLDER/$INSTANCE.pcap || true
done
fi
cd voltha-system-tests
source ./vst_venv/bin/activate
python tests/scale/collect-result.py -r $WORKSPACE/RobotLogs/output.xml -p $WORKSPACE/plots > $WORKSPACE/execution-time.txt || true
cat $WORKSPACE/execution-time.txt
'''
sh '''
if [ ${withProfiling} = true ] ; then
_TAG="pprof"
P_IDS="$(ps e -ww -A | grep "_TAG=$_TAG" | grep -v grep | awk '{print $1}')"
if [ -n "$P_IDS" ]; then
echo $P_IDS
for P_ID in $P_IDS; do
kill -9 $P_ID
done
fi
fi
'''
plot([
csvFileName: 'scale-test.csv',
csvSeries: [
[file: 'plots/plot-voltha-onus.txt', displayTableFlag: false, exclusionValues: '', inclusionFlag: 'OFF', url: ''],
[file: 'plots/plot-onos-ports.txt', displayTableFlag: false, exclusionValues: '', inclusionFlag: 'OFF', url: ''],
[file: 'plots/plot-voltha-flows-before.txt', displayTableFlag: false, exclusionValues: '', inclusionFlag: 'OFF', url: ''],
[file: 'plots/plot-voltha-openolt-flows-before.txt', displayTableFlag: false, exclusionValues: '', inclusionFlag: 'OFF', url: ''],
[file: 'plots/plot-onos-flows-before.txt', displayTableFlag: false, exclusionValues: '', inclusionFlag: 'OFF', url: ''],
[file: 'plots/plot-onos-auth.txt', displayTableFlag: false, exclusionValues: '', inclusionFlag: 'OFF', url: ''],
[file: 'plots/plot-voltha-flows-after.txt', displayTableFlag: false, exclusionValues: '', inclusionFlag: 'OFF', url: ''],
[file: 'plots/plot-voltha-openolt-flows-after.txt', displayTableFlag: false, exclusionValues: '', inclusionFlag: 'OFF', url: ''],
[file: 'plots/plot-onos-flows-after.txt', displayTableFlag: false, exclusionValues: '', inclusionFlag: 'OFF', url: ''],
[file: 'plots/plot-onos-dhcp.txt', displayTableFlag: false, exclusionValues: '', inclusionFlag: 'OFF', url: ''],
],
group: 'Voltha-Scale-Numbers', numBuilds: '20', style: 'line', title: "Scale Test (OLTs: ${olts}, PONs: ${pons}, ONUs: ${onus})", yaxis: 'Time (s)', useDescr: true
])
step([$class: 'RobotPublisher',
disableArchiveOutput: false,
logFileName: '**/log*.html',
otherFiles: '',
outputFileName: '**/output*.xml',
outputPath: 'RobotLogs',
passThreshold: 100,
reportFileName: '**/report*.html',
unstableThreshold: 0]);
// get all the logs from kubernetes PODs
sh returnStdout: false, script: '''
# store information on running charts
helm ls > $LOG_FOLDER/helm-list.txt || true
# store information on the running pods
kubectl get pods -o wide > $LOG_FOLDER/pods.txt || true
kubectl get pods --all-namespaces -o jsonpath="{range .items[*].status.containerStatuses[*]}{.image}{'\\n'}" | sort | uniq | tee $LOG_FOLDER/pod-images.txt || true
kubectl get pods --all-namespaces -o jsonpath="{range .items[*].status.containerStatuses[*]}{.imageID}{'\\n'}" | sort | uniq | tee $LOG_FOLDER/pod-imagesId.txt || true
# copy the ONOS logs directly from the container to avoid the color codes
printf '%s\n' $(kubectl get pods -l app=onos-classic -o=jsonpath="{.items[*]['metadata.name']}") | xargs --no-run-if-empty -I# bash -c "kubectl cp #:${karafHome}/data/log/karaf.log $LOG_FOLDER/#.log" || true
# get radius logs out of the container
kubectl cp $(kubectl get pods -l app=radius --no-headers | awk '{print $1}'):/var/log/freeradius/radius.log $LOG_FOLDER/radius.log || true
'''
// dump all the BBSim(s) ONU information
sh '''
BBSIM_IDS=$(kubectl get pods | grep bbsim | grep -v server | awk '{print $1}')
IDS=($BBSIM_IDS)
for bbsim in "${IDS[@]}"
do
kubectl exec -t $bbsim -- bbsimctl onu list > $LOG_FOLDER/$bbsim-device-list.txt || true
kubectl exec -t $bbsim -- bbsimctl service list > $LOG_FOLDER/$bbsim-service-list.txt || true
kubectl exec -t $bbsim -- bbsimctl olt resources GEM_PORT > $LOG_FOLDER/$bbsim-flows-gem-ports.txt || true
kubectl exec -t $bbsim -- bbsimctl olt resources ALLOC_ID > $LOG_FOLDER/$bbsim-flows-alloc-ids.txt || true
kubectl exec -t $bbsim -- bbsimctl olt pons > $LOG_FOLDER/$bbsim-pon-resources.txt || true
done
'''
script {
// first make sure the port-forward is still running,
// sometimes Jenkins kills it relardless of the JENKINS_NODE_COOKIE=dontKillMe
def running = sh (
script: 'ps aux | grep port-forw | grep -E "onos|voltha" | grep -v grep | wc -l',
returnStdout: true
).trim()
// if any of the voltha-api, onos-rest, onos-ssh port-forwards are not there
// kill all and restart
if (running != "3") {
start_port_forward(olts)
}
}
// get ONOS debug infos
sh '''
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 apps -a -s > $LOG_FOLDER/onos-apps.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 nodes > $LOG_FOLDER/onos-nodes.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 masters > $LOG_FOLDER/onos-masters.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 roles > $LOG_FOLDER/onos-roles.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 cfg get > $LOG_FOLDER/onos-cfg.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 ports > $LOG_FOLDER/onos-ports-list.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 hosts > $LOG_FOLDER/onos-hosts-list.txt
if [ ${withFlows} = true ] ; then
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 volt-olts > $LOG_FOLDER/onos-olt-list.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 flows -s > $LOG_FOLDER/onos-flows-list.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 meters > $LOG_FOLDER/onos-meters-list.txt
fi
if [ ${provisionSubscribers} = true ]; then
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 volt-programmed-subscribers > $LOG_FOLDER/onos-programmed-subscribers.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 volt-programmed-meters > $LOG_FOLDER/onos-programmed-meters.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 volt-bpmeter-mappings > $LOG_FOLDER/onos-bpmeter-mappings.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 volt-failed-subscribers > $LOG_FOLDER/onos-failed-subscribers.txt
fi
if [ ${withEapol} = true ] ; then
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 aaa-users > $LOG_FOLDER/onos-aaa-users.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 aaa-statistics > $LOG_FOLDER/onos-aaa-statistics.txt
fi
if [ ${withDhcp} = true ] ; then
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 dhcpl2relay-allocations > $LOG_FOLDER/onos-dhcp-allocations.txt
fi
if [ ${withIgmp} = true ] ; then
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 mcast-host-routes > $LOG_FOLDER/onos-mcast-host-routes.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 mcast-host-show > $LOG_FOLDER/onos-mcast-host-show.txt
sshpass -e ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 8101 karaf@127.0.0.1 groups > $LOG_FOLDER/onos-groups.txt
fi
'''
// collect etcd metrics
sh '''
mkdir -p $WORKSPACE/etcd-metrics
curl -s -X GET -G http://10.90.0.101:31301/api/v1/query --data-urlencode 'query=etcd_debugging_mvcc_keys_total' | jq '.data' > $WORKSPACE/etcd-metrics/etcd-key-count.json || true
curl -s -X GET -G http://10.90.0.101:31301/api/v1/query --data-urlencode 'query=grpc_server_handled_total{grpc_service="etcdserverpb.KV"}' | jq '.data' > $WORKSPACE/etcd-metrics/etcd-rpc-count.json || true
curl -s -X GET -G http://10.90.0.101:31301/api/v1/query --data-urlencode 'query=etcd_debugging_mvcc_db_total_size_in_bytes' | jq '.data' > $WORKSPACE/etcd-metrics/etcd-db-size.json || true
curl -s -X GET -G http://10.90.0.101:31301/api/v1/query --data-urlencode 'query=etcd_disk_backend_commit_duration_seconds_sum' | jq '.data' > $WORKSPACE/etcd-metrics/etcd-backend-write-time.json || true
curl -s -X GET -G http://10.90.0.101:31301/api/v1/query --data-urlencode 'query=etcd_disk_backend_commit_duration_seconds_sum' | jq '.data' > $WORKSPACE/etcd-metrics/etcd-backend-write-time-sum.json || true
curl -s -X GET -G http://10.90.0.101:31301/api/v1/query --data-urlencode 'query=etcd_disk_backend_commit_duration_seconds_bucket' | jq '.data' > $WORKSPACE/etcd-metrics/etcd-backend-write-time-bucket.json || true
curl -s -X GET -G http://10.90.0.101:31301/api/v1/query --data-urlencode 'query=etcd_disk_wal_fsync_duration_seconds_bucket' | jq '.data' > $WORKSPACE/etcd-metrics/etcd-wal-fsync-time-bucket.json || true
curl -s -X GET -G http://10.90.0.101:31301/api/v1/query --data-urlencode 'query=etcd_network_peer_round_trip_time_seconds_bucket' | jq '.data' > $WORKSPACE/etcd-metrics/etcd-network-peer-round-trip-time-seconds.json || true
'''
// get VOLTHA debug infos
script {
try {
sh '''
voltctl -m 8MB device list -o json > $LOG_FOLDER/device-list.json || true
python -m json.tool $LOG_FOLDER/device-list.json > $LOG_FOLDER/voltha-devices-list.json || true
rm $LOG_FOLDER/device-list.json || true
voltctl -m 8MB device list > $LOG_FOLDER/voltha-devices-list.txt || true
printf '%s\n' $(voltctl -m 8MB device list | grep olt | awk '{print $1}') | xargs --no-run-if-empty -I# bash -c "voltctl -m 8MB device flows # > $LOG_FOLDER/voltha-device-flows-#.txt" || true
printf '%s\n' $(voltctl -m 8MB device list | grep olt | awk '{print $1}') | xargs --no-run-if-empty -I# bash -c "voltctl -m 8MB device port list --format 'table{{.PortNo}}\t{{.Label}}\t{{.Type}}\t{{.AdminState}}\t{{.OperStatus}}' # > $LOG_FOLDER/voltha-device-ports-#.txt" || true
printf '%s\n' $(voltctl -m 8MB logicaldevice list -q) | xargs --no-run-if-empty -I# bash -c "voltctl -m 8MB logicaldevice flows # > $LOG_FOLDER/voltha-logicaldevice-flows-#.txt" || true
printf '%s\n' $(voltctl -m 8MB logicaldevice list -q) | xargs --no-run-if-empty -I# bash -c "voltctl -m 8MB logicaldevice port list # > $LOG_FOLDER/voltha-logicaldevice-ports-#.txt" || true
'''
} catch(e) {
sh '''
echo "Can't get device list from voltclt"
'''
}
}
// get cpu usage by container
sh '''
if [ ${withMonitoring} = true ] ; then
cd $WORKSPACE/voltha-system-tests
source ./vst_venv/bin/activate
sleep 60 # we have to wait for prometheus to collect all the information
python tests/scale/sizing.py -o $WORKSPACE/plots || true
fi
'''
archiveArtifacts artifacts: 'execution-time.txt,logs/*,logs/pprof/*,RobotLogs/**/*,plots/*,etcd-metrics/*'
}
}
}
def start_port_forward(olts) {
sh """
daemonize -E JENKINS_NODE_COOKIE="dontKillMe" /usr/local/bin/kubectl port-forward --address 0.0.0.0 -n default svc/voltha-infra-onos-classic-hs 8101:8101
daemonize -E JENKINS_NODE_COOKIE="dontKillMe" /usr/local/bin/kubectl port-forward --address 0.0.0.0 -n default svc/voltha-infra-onos-classic-hs 8181:8181
daemonize -E JENKINS_NODE_COOKIE="dontKillMe" /usr/local/bin/kubectl port-forward --address 0.0.0.0 -n default svc/voltha1-voltha-api 55555:55555
bbsimRestPortFwd=50071
for i in {0..${olts.toInteger() - 1}}; do
daemonize -E JENKINS_NODE_COOKIE="dontKillMe" /usr/local/bin/kubectl port-forward --address 0.0.0.0 -n default svc/bbsim\${i} \${bbsimRestPortFwd}:50071
((bbsimRestPortFwd++))
done
"""
}