blob: 0cce0699d4f76f9d6088fc3235768a12e5d72c12 [file] [log] [blame]
// Copyright 2017-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.
// used to deploy VOLTHA and configure ONOS physical PODs
// NOTE we are importing the library even if it's global so that it's
// easier to change the keywords during a replay
library identifier: 'cord-jenkins-libraries@master',
retriever: modernSCM([
$class: 'GitSCMSource',
remote: 'https://gerrit.opencord.org/ci-management.git'
])
def infraNamespace = "infra"
def volthaNamespace = "voltha"
def deploy_custom_oltAdapterChart(namespace, name, chart, extraHelmFlags) {
sh """
helm install --create-namespace --set defaults.image_pullPolicy=Always --namespace ${namespace} ${extraHelmFlags} ${name} ${chart}
"""
}
pipeline {
/* no label, executor is determined by JJB */
agent {
label "${params.buildNode}"
}
options {
timeout(time: 35, unit: 'MINUTES')
}
environment {
PATH="$PATH:$WORKSPACE/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/snap/bin"
KUBECONFIG="$WORKSPACE/${configBaseDir}/${configKubernetesDir}/${configFileName}.conf"
}
stages{
stage('Download Code') {
steps {
getVolthaCode([
branch: "${branch}",
volthaSystemTestsChange: "${volthaSystemTestsChange}",
volthaHelmChartsChange: "${volthaHelmChartsChange}",
])
}
}
stage ("Parse deployment configuration file") {
steps {
sh returnStdout: true, script: "rm -rf ${configBaseDir}"
sh returnStdout: true, script: "git clone -b ${branch} ${cordRepoUrl}/${configBaseDir}"
script {
if ( params.workFlow == "DT" ) {
deployment_config = readYaml file: "${configBaseDir}/${configDeploymentDir}/${configFileName}-DT.yaml"
}
else if ( params.workFlow == "TT" )
{
deployment_config = readYaml file: "${configBaseDir}/${configDeploymentDir}/${configFileName}-TT.yaml"
}
else
{
deployment_config = readYaml file: "${configBaseDir}/${configDeploymentDir}/${configFileName}.yaml"
}
}
}
}
stage('Clean up') {
steps {
timeout(15) {
script {
helmTeardown(["default", infraNamespace, volthaNamespace])
}
timeout(1) {
sh returnStdout: false, script: '''
# remove orphaned port-forward from different namespaces
ps aux | grep port-forw | grep -v grep | awk '{print $2}' | xargs --no-run-if-empty kill -9 || true
'''
}
}
}
}
stage('Install Voltha') {
steps {
timeout(20) {
installVoltctl("${branch}")
script {
// if we're downloading a voltha-helm-charts patch, then install from a local copy of the charts
def localCharts = false
if (volthaHelmChartsChange != "" || branch != "master") {
localCharts = true
}
// should the config file be suffixed with the workflow? see "deployment_config"
def localHelmFlags = "-f $WORKSPACE/${configBaseDir}/${configKubernetesDir}/voltha/${configFileName}.yml --set global.log_level=${logLevel} "
if (workFlow.toLowerCase() == "dt") {
localHelmFlags += " --set radius.enabled=false "
}
if (workFlow.toLowerCase() == "tt") {
localHelmFlags += " --set radius.enabled=false --set global.incremental_evto_update=true "
if (enableMultiUni.toBoolean()) {
localHelmFlags += " --set voltha-adapter-openonu.adapter_open_onu.uni_port_mask=${uniPortMask} "
}
}
// NOTE temporary workaround expose ONOS node ports (pod-config needs to be updated to contain these values)
// and to connect the ofagent to all instances of ONOS
localHelmFlags = localHelmFlags + " --set onos-classic.onosSshPort=30115 " +
"--set onos-classic.onosApiPort=30120 " +
"--set onos-classic.onosOfPort=31653 " +
"--set onos-classic.individualOpenFlowNodePorts=true " +
"--set voltha.onos_classic.replicas=${params.NumOfOnos}"
if (bbsimReplicas.toInteger() != 0) {
localHelmFlags = localHelmFlags + " --set onu=${onuNumber},pon=${ponNumber} "
}
// adding user specified helm flags at the end so they'll have priority over everything else
localHelmFlags = localHelmFlags + " ${extraHelmFlags}"
def numberOfAdaptersToWait = 2
if(openoltAdapterChart != "onf/voltha-adapter-openolt") {
localHelmFlags = localHelmFlags + " --set voltha-adapter-openolt.enabled=false"
// We skip waiting for adapters in the volthaDeploy step because it's already waiting for
// both of them after the deployment of the custom olt adapter. See line 156.
numberOfAdaptersToWait = 0
}
volthaDeploy([
workflow: workFlow.toLowerCase(),
extraHelmFlags: localHelmFlags,
localCharts: localCharts,
kubeconfig: "$WORKSPACE/${configBaseDir}/${configKubernetesDir}/${configFileName}.conf",
onosReplica: params.NumOfOnos,
atomixReplica: params.NumOfAtomix,
kafkaReplica: params.NumOfKafka,
etcdReplica: params.NumOfEtcd,
bbsimReplica: bbsimReplicas.toInteger(),
adaptersToWait: numberOfAdaptersToWait,
])
if(openoltAdapterChart != "onf/voltha-adapter-openolt"){
extraHelmFlags = extraHelmFlags + " --set global.log_level=${logLevel}"
deploy_custom_oltAdapterChart(volthaNamespace, oltAdapterReleaseName, openoltAdapterChart, extraHelmFlags)
waitForAdapters([
adaptersToWait: 2
])
}
}
sh """
JENKINS_NODE_COOKIE="dontKillMe" _TAG="voltha-api" bash -c "while true; do kubectl port-forward --address 0.0.0.0 -n ${volthaNamespace} svc/voltha-voltha-api 55555:55555; done"&
JENKINS_NODE_COOKIE="dontKillMe" _TAG="etcd" bash -c "while true; do kubectl port-forward --address 0.0.0.0 -n ${infraNamespace} svc/voltha-infra-etcd ${params.VolthaEtcdPort}:2379; done"&
JENKINS_NODE_COOKIE="dontKillMe" _TAG="kafka" bash -c "while true; do kubectl port-forward --address 0.0.0.0 -n ${infraNamespace} svc/voltha-infra-kafka 9092:9092; done"&
ps aux | grep port-forward
"""
getPodsInfo("$WORKSPACE")
}
}
}
stage('Push Tech-Profile') {
steps {
script {
if ( params.configurePod && params.profile != "Default" ) {
for(int i=0; i < deployment_config.olts.size(); i++) {
def tech_prof_directory = "XGS-PON"
if (deployment_config.olts[i].containsKey("board_technology")){
tech_prof_directory = deployment_config.olts[i]["board_technology"]
}
timeout(1) {
sh returnStatus: true, script: """
export KUBECONFIG=$WORKSPACE/${configBaseDir}/${configKubernetesDir}/${configFileName}.conf
etcd_container=\$(kubectl get pods -n ${infraNamespace} -l app.kubernetes.io/name=etcd --no-headers | awk 'NR==1{print \$1}')
if [[ "${workFlow}" == "TT" ]]; then
if [[ "${params.enableMultiUni}" == "true" ]]; then
kubectl cp -n ${infraNamespace} $WORKSPACE/voltha-system-tests/tests/data/TechProfile-TT-multi-uni-HSIA.json \$etcd_container:/tmp/hsia.json
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/hsia.json | ETCDCTL_API=3 etcdctl put service/voltha/technology_profiles/${tech_prof_directory}/64'
kubectl cp -n ${infraNamespace} $WORKSPACE/voltha-system-tests/tests/data/TechProfile-TT-multi-uni-VoIP.json \$etcd_container:/tmp/voip.json
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/voip.json | ETCDCTL_API=3 etcdctl put service/voltha/technology_profiles/${tech_prof_directory}/65'
kubectl cp -n ${infraNamespace} $WORKSPACE/voltha-system-tests/tests/data/TechProfile-TT-multi-uni-MCAST-AdditionalBW-None.json \$etcd_container:/tmp/mcast_additionalBW_none.json
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/mcast_additionalBW_none.json | ETCDCTL_API=3 etcdctl put service/voltha/technology_profiles/${tech_prof_directory}/66'
kubectl cp -n ${infraNamespace} $WORKSPACE/voltha-system-tests/tests/data/TechProfile-TT-multi-uni-MCAST-AdditionalBW-NA.json \$etcd_container:/tmp/mcast_additionalBW_na.json
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/mcast_additionalBW_na.json | ETCDCTL_API=3 etcdctl put service/voltha/technology_profiles/${tech_prof_directory}/67'
else
kubectl cp -n ${infraNamespace} $WORKSPACE/voltha-system-tests/tests/data/TechProfile-TT-HSIA.json \$etcd_container:/tmp/hsia.json
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/hsia.json | ETCDCTL_API=3 etcdctl put service/voltha/technology_profiles/${tech_prof_directory}/64'
kubectl cp -n ${infraNamespace} $WORKSPACE/voltha-system-tests/tests/data/TechProfile-TT-VoIP.json \$etcd_container:/tmp/voip.json
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/voip.json | ETCDCTL_API=3 etcdctl put service/voltha/technology_profiles/${tech_prof_directory}/65'
kubectl cp -n ${infraNamespace} $WORKSPACE/voltha-system-tests/tests/data/TechProfile-TT-MCAST-AdditionalBW-None.json \$etcd_container:/tmp/mcast_additionalBW_none.json
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/mcast_additionalBW_none.json | ETCDCTL_API=3 etcdctl put service/voltha/technology_profiles/${tech_prof_directory}/66'
kubectl cp -n ${infraNamespace} $WORKSPACE/voltha-system-tests/tests/data/TechProfile-TT-MCAST-AdditionalBW-NA.json \$etcd_container:/tmp/mcast_additionalBW_na.json
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/mcast_additionalBW_na.json | ETCDCTL_API=3 etcdctl put service/voltha/technology_profiles/${tech_prof_directory}/67'
fi
else
kubectl cp -n ${infraNamespace} $WORKSPACE/voltha-system-tests/tests/data/TechProfile-${profile}.json \$etcd_container:/tmp/flexpod.json
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/flexpod.json | ETCDCTL_API=3 etcdctl put service/voltha/technology_profiles/${tech_prof_directory}/64'
fi
"""
}
timeout(1) {
sh returnStatus: true, script: """
export KUBECONFIG=$WORKSPACE/${configBaseDir}/${configKubernetesDir}/${configFileName}.conf
etcd_container=\$(kubectl get pods -n ${infraNamespace} -l app.kubernetes.io/name=etcd --no-headers | awk 'NR==1{print \$1}')
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'ETCDCTL_API=3 etcdctl get --prefix service/voltha/technology_profiles/${tech_prof_directory}/64'
"""
}
}
}
}
}
}
stage('Push MIB templates') {
steps {
sh """
export KUBECONFIG=$WORKSPACE/${configBaseDir}/${configKubernetesDir}/${configFileName}.conf
etcd_container=\$(kubectl get pods -n ${infraNamespace} -l app.kubernetes.io/name=etcd --no-headers | awk 'NR==1{print \$1}')
kubectl cp -n ${infraNamespace} $WORKSPACE/voltha-system-tests/tests/data/MIB_Alpha.json \$etcd_container:/tmp/MIB_Alpha.json
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/MIB_Alpha.json | ETCDCTL_API=3 etcdctl put service/voltha/omci_mibs/go_templates/BRCM/BVM4K00BRA0915-0083/5023_020O02414'
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/MIB_Alpha.json | ETCDCTL_API=3 etcdctl put service/voltha/omci_mibs/templates/BRCM/BVM4K00BRA0915-0083/5023_020O02414'
kubectl cp -n ${infraNamespace} $WORKSPACE/voltha-system-tests/tests/data/MIB_Scom.json \$etcd_container:/tmp/MIB_Scom.json
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/MIB_Scom.json | ETCDCTL_API=3 etcdctl put service/voltha/omci_mibs/go_templates/SCOM/Glasfaser-Modem/090140.1.0.304'
kubectl exec -n ${infraNamespace} -it \$etcd_container -- /bin/sh -c 'cat /tmp/MIB_Scom.json | ETCDCTL_API=3 etcdctl put service/voltha/omci_mibs/templates/SCOM/Glasfaser-Modem/090140.1.0.304'
"""
}
}
stage('Push Sadis-config') {
steps {
timeout(1) {
sh returnStatus: true, script: """
if [[ "${workFlow}" == "DT" ]]; then
curl -sSL --user karaf:karaf -X POST -H Content-Type:application/json http://${deployment_config.nodes[0].ip}:30120/onos/v1/network/configuration --data @$WORKSPACE/voltha-system-tests/tests/data/${configFileName}-sadis-DT.json
elif [[ "${workFlow}" == "TT" ]]; then
curl -sSL --user karaf:karaf -X POST -H Content-Type:application/json http://${deployment_config.nodes[0].ip}:30120/onos/v1/network/configuration --data @$WORKSPACE/voltha-system-tests/tests/data/${configFileName}-sadis-TT.json
else
# this is the ATT case, rename the file in *-sadis-ATT.json so that we can avoid special cases and just load the file
curl -sSL --user karaf:karaf -X POST -H Content-Type:application/json http://${deployment_config.nodes[0].ip}:30120/onos/v1/network/configuration --data @$WORKSPACE/voltha-system-tests/tests/data/${configFileName}-sadis.json
fi
"""
}
}
}
stage('Switch Configurations in ONOS') {
steps {
script {
if ( deployment_config.fabric_switches.size() > 0 ) {
timeout(1) {
def netcfg = "$WORKSPACE/${configBaseDir}/${configToscaDir}/voltha/${configFileName}-onos-netcfg-switch.json"
if (params.inBandManagement){
netcfg = "$WORKSPACE/${configBaseDir}/${configToscaDir}/voltha/${configFileName}-onos-netcfg-switch-inband.json"
}
sh """
curl -sSL --user karaf:karaf -X POST -H Content-Type:application/json http://${deployment_config.nodes[0].ip}:30120/onos/v1/network/configuration --data @${netcfg}
curl -sSL --user karaf:karaf -X POST http://${deployment_config.nodes[0].ip}:30120/onos/v1/applications/org.onosproject.segmentrouting/active
"""
}
timeout(1) {
setOnosLogLevels([
onosNamespace: infraNamespace,
apps: [
'org.opencord.dhcpl2relay',
'org.opencord.olt',
'org.opencord.aaa',
'org.onosproject.net.flowobjective.impl.FlowObjectiveManager',
'org.onosproject.net.flowobjective.impl.InOrderFlowObjectiveManager'
]
])
waitUntil {
sr_active_out = sh returnStatus: true, script: """
curl -sSL --user karaf:karaf -X GET http://${deployment_config.nodes[0].ip}:30120/onos/v1/applications/org.onosproject.segmentrouting | jq '.state' | grep ACTIVE
sshpass -p karaf ssh -q -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 30115 karaf@${deployment_config.nodes[0].ip} "cfg set org.onosproject.provider.lldp.impl.LldpLinkProvider enabled false"
sshpass -p karaf ssh -q -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 30115 karaf@${deployment_config.nodes[0].ip} "cfg set org.onosproject.net.flow.impl.FlowRuleManager purgeOnDisconnection false"
sshpass -p karaf ssh -q -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -p 30115 karaf@${deployment_config.nodes[0].ip} "cfg set org.onosproject.net.meter.impl.MeterManager purgeOnDisconnection false"
"""
return sr_active_out == 0
}
}
timeout(5) {
for(int i=0; i < deployment_config.hosts.src.size(); i++) {
for(int j=0; j < deployment_config.olts.size(); j++) {
def aggPort = -1
if(deployment_config.olts[j].serial == deployment_config.hosts.src[i].olt){
aggPort = deployment_config.olts[j].aggPort
if(aggPort == -1){
throw new Exception("Upstream port for the olt is not configured, field aggPort is empty")
}
sh """
sleep 10 # NOTE why are we sleeping?
curl -X POST --user karaf:karaf --header 'Content-Type: application/json' --header 'Accept: application/json' -d '{"deviceId": "${deployment_config.fabric_switches[0].device_id}", "vlanId": "${deployment_config.hosts.src[i].s_tag}", "endpoints": [${deployment_config.fabric_switches[0].bngPort},${aggPort}]}' 'http://${deployment_config.nodes[0].ip}:30120/onos/segmentrouting/xconnect'
"""
}
}
}
}
}
}
}
}
stage('Reinstall OLT software') {
steps {
script {
if ( params.reinstallOlt ) {
for(int i=0; i < deployment_config.olts.size(); i++) {
// NOTE what is oltDebVersion23? is that for VOLTHA-2.3? do we still need this differentiation?
sh returnStdout: true, script: """
ssh-keyscan -H ${deployment_config.olts[i].sship} >> ~/.ssh/known_hosts
if [ "${params.inBandManagement}" == "true" ]; then
sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'kill -9 `pgrep -f "[b]ash /opt/openolt/openolt_dev_mgmt_daemon_process_watchdog"` || true'
fi
sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} "dpkg --install ${deployment_config.olts[i].oltDebVersion}"
sleep 10
"""
timeout(5) {
waitUntil {
olt_sw_present = sh returnStdout: true, script: """
if [[ "${deployment_config.olts[i].oltDebVersion}" == *"asfvolt16"* ]]; then
sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'dpkg --list | grep asfvolt16 | wc -l'
elif [[ "${deployment_config.olts[i].oltDebVersion}" == *"asgvolt64"* ]]; then
sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'dpkg --list | grep asgvolt64 | wc -l'
elif [[ "${deployment_config.olts[i].oltDebVersion}" == *"rlt-1600x-w"* ]]; then
sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'dpkg --list | grep rlt-1600x-w | wc -l'
elif [[ "${deployment_config.olts[i].oltDebVersion}" == *"rlt-1600g-w"* ]]; then
sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'dpkg --list | grep rlt-1600g-w | wc -l'
elif [[ "${deployment_config.olts[i].oltDebVersion}" == *"rlt-3200g-w"* ]]; then
sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'dpkg --list | grep rlt-3200g-w | wc -l'
else
echo Unknown Debian package for openolt
fi
if (${deployment_config.olts[i].fortygig}); then
if [[ "${params.inBandManagement}" == "true" ]]; then
ssh-keyscan -H ${deployment_config.olts[i].sship} >> ~/.ssh/known_hosts
sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'mkdir -p /opt/openolt/'
sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'cp /root/watchdog-script/* /opt/openolt/'
sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'cp /root/bal_cli_appl/example_user_appl /broadcom'
sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'cp in-band-startup-script/* /etc/init.d/'
fi
fi
"""
return olt_sw_present.toInteger() > 0
}
}
}
}
}
}
}
stage('Restart OLT processes') {
steps {
script {
//rebooting OLTs
for(int i=0; i < deployment_config.olts.size(); i++) {
timeout(15) {
sh returnStdout: true, script: """
ssh-keyscan -H ${deployment_config.olts[i].sship} >> ~/.ssh/known_hosts
sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'rm -f /var/log/openolt.log; rm -f /var/log/dev_mgmt_daemon.log; rm -f /var/log/openolt_process_watchdog.log; reboot > /dev/null &' || true
"""
}
}
sh returnStdout: true, script: """
sleep ${params.waitTimerForOltUp}
"""
//Checking dev_management_deamon and openoltprocesses
for(int i=0; i < deployment_config.olts.size(); i++) {
if ( params.oltAdapterReleaseName != "open-olt" ) {
timeout(15) {
waitUntil {
devprocess = sh returnStdout: true, script: "sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'ps -ef | grep dev_mgmt_daemon | wc -l'"
return devprocess.toInteger() > 0
}
}
timeout(15) {
waitUntil {
openoltprocess = sh returnStdout: true, script: "sshpass -p ${deployment_config.olts[i].pass} ssh -l ${deployment_config.olts[i].user} ${deployment_config.olts[i].sship} 'ps -ef | grep openolt | wc -l'"
return openoltprocess.toInteger() > 0
}
}
}
}
}
}
}
}
post {
aborted {
getPodsInfo("$WORKSPACE/failed")
sh """
kubectl logs -n voltha -l app.kubernetes.io/part-of=voltha > $WORKSPACE/failed/voltha.log || true
"""
archiveArtifacts artifacts: '**/*.log,**/*.txt'
}
failure {
getPodsInfo("$WORKSPACE/failed")
sh """
kubectl logs -n voltha -l app.kubernetes.io/part-of=voltha > $WORKSPACE/failed/voltha.logs || true
"""
archiveArtifacts artifacts: '**/*.log,**/*.txt'
}
always {
archiveArtifacts artifacts: '*.txt'
}
}
}