blob: 7d78e140948bda1b83faf6f6bef56898676cd409 [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.
import groovy.json.JsonSlurperClassic
def filename = 'manifest-${GERRIT_BRANCH}.xml'
def manifestUrl = 'https://gerrit.opencord.org/manifest'
deployment_config = null;
pod_config = null;
node ("${devNodeName}") {
timeout (time: 240) {
stage ("Clean-up previous build") {
sh "make -C build clean-all || true"
sh "rm -rf *"
}
stage ("Parse deployment configuration file") {
sh returnStdout: true, script: 'rm -rf ${configRepoBaseDir}'
sh returnStdout: true, script: 'git clone -b ${GERRIT_BRANCH} ${configRepoUrl}'
deployment_config = readYaml file: "${configRepoBaseDir}${configRepoFile}"
pod_config = readYaml file: "${configRepoBaseDir}${deployment_config.pod_config.file_name}"
}
stage ('Remove old head node from known hosts') {
sh "ssh-keygen -R ${deployment_config.head.ip}"
}
stage ('Checkout cord repo') {
checkout changelog: false, poll: false, scm: [$class: 'RepoScm', currentBranch: true, manifestBranch: params.branch, manifestRepositoryUrl: "${manifestUrl}", quiet: true]
}
try {
dir('build') {
stage ("Re-deploy head node") {
maasOps: {
sh "maas login maas http://${deployment_config.maas.ip}/MAAS/api/2.0 ${deployment_config.maas.api_key}"
sh "maas maas machine release ${deployment_config.maas.head_system_id}"
timeout(time: 15) {
waitUntil {
try {
sh "maas maas machine read ${deployment_config.maas.head_system_id} | grep Ready"
return true
} catch (exception) {
return false
}
}
}
sh 'maas maas machines allocate'
sh "maas maas machine deploy ${deployment_config.maas.head_system_id}"
timeout(time: 30) {
waitUntil {
try {
sh "maas maas machine read ${deployment_config.maas.head_system_id} | grep Deployed"
return true
} catch (exception) {
return false
}
}
}
}
}
stage ("Download CORD POD configuration") {
sh "cd ../orchestration/profiles; git clone -b ${GERRIT_BRANCH} ${deployment_config.pod_config.repo_url} automation"
}
stage ("Generate CORD configuration") {
sh "make PODCONFIG_PATH=../orchestration/profiles/automation/${deployment_config.pod_config.file_name} config"
}
if (deployment_config.fabric_switches != null) {
stage("Reserve IPs for fabric switches") {
for(int i=0; i < deployment_config.fabric_switches.size(); i++) {
def str = createMACIPbindingStr("fabric", i+1,
"${deployment_config.fabric_switches[i].mac}",
"${deployment_config.fabric_switches[i].ip}")
sh "echo $str >> maas/roles/maas/files/dhcpd.reservations"
}
}
}
stage ("Deploy") {
sh "make build"
}
if (deployment_config.compute_nodes != null) {
stage ("Power cycle compute nodes") {
for(int i=0; i < deployment_config.compute_nodes.size(); i++) {
sh "ipmitool -U ${deployment_config.compute_nodes[i].ipmi.user} -P ${deployment_config.compute_nodes[i].ipmi.pass} -H ${deployment_config.compute_nodes[i].ipmi.ip} power cycle"
}
}
stage ("Wait for compute nodes to get deployed") {
sh "ssh-keygen -f /home/${deployment_config.dev_node.user}/.ssh/known_hosts -R ${deployment_config.head.ip}"
def cordApiKey = runHeadNodeCmd("sudo maas-region-admin apikey --username ${deployment_config.head.user}")
runHeadNodeCmd("maas login pod-maas http://${deployment_config.head.ip}/MAAS/api/1.0 ${cordApiKey}")
timeout(time: 90) {
waitUntil {
try {
num = runHeadNodeCmd("maas pod-maas nodes list | grep substatus_name | grep -i deployed | wc -l").trim()
return num.toInteger() == deployment_config.compute_nodes.size()
} catch (exception) {
return false
}
}
}
}
stage ("Wait for compute nodes to be provisioned") {
timeout(time:45) {
waitUntil {
try {
num = runHeadNodeCmd("cord prov list | grep -i node | grep -i complete | wc -l").trim()
return num.toInteger() == deployment_config.compute_nodes.size()
} catch (exception) {
return false
}
}
}
}
}
if (deployment_config.fabric_switches != null) {
stage ("Wait for fabric switches to get deployed") {
runFabricSwitchCmdAll("sudo onl-onie-boot-mode install")
runFabricSwitchCmdAll("sudo reboot")
// Ensure that switches get provisioned after ONIE reinstall.
// Delete them if they were provisioned earlier. If the switches are not
// present in 'cord prov list', this command has no effect.
for(int i=0; i < deployment_config.fabric_switches.size(); i++) {
runHeadNodeCmd("cord prov delete ${deployment_config.fabric_switches[i].mac}")
}
timeout(time: 45) {
waitUntil {
try {
def harvestCompleted = runHeadNodeCmd("cord harvest list | grep -i fabric | wc -l").trim()
return harvestCompleted.toInteger() == deployment_config.fabric_switches.size()
} catch (exception) {
return false
}
}
}
}
stage ("Wait for fabric switches to be provisioned") {
timeout(time:45) {
waitUntil {
try {
def provCompleted = 0
for(int i=0; i < deployment_config.fabric_switches.size(); i++) {
def count = runHeadNodeCmd("cord prov list | grep -i ${deployment_config.fabric_switches[i].ip} | grep -i complete | wc -l").trim()
provCompleted = provCompleted + count.toInteger()
}
return provCompleted == deployment_config.fabric_switches.size()
} catch (exception) {
return false
}
}
}
}
// Post installation configuration starts here
fabricIpPrefix = pod_config.fabric_ip.split(/\.\d+\.\d+\/24/)[0]
xosUser = "xosadmin@opencord.org"
xosPass = runHeadNodeCmd("cat /opt/credentials/xosadmin@opencord.org").trim()
stage ("Connect fabric switches and compute nodes to ONOS") {
// Configure breakout ports
for(int i=0; i < deployment_config.fabric_switches.size(); i++) {
if (deployment_config.fabric_switches[i].breakout_ports != null) {
for(int j=0; j < deployment_config.fabric_switches[i].breakout_ports.size(); j++) {
runFabricSwitchCmd("${deployment_config.fabric_switches[i].ip}",
"${deployment_config.fabric_switches[i].user}",
"${deployment_config.fabric_switches[i].pass}",
"sed -i -e 's/#port_mode_${deployment_config.fabric_switches[i].breakout_ports[j]}=/port_mode_${deployment_config.fabric_switches[i].breakout_ports[j]}=/g' /etc/accton/ofdpa.conf")
}
}
}
connectFabricAndComputeToOnos()
}
stage ("Configure the compute nodes") {
leafSwitchNum = 0
for(int i=0; i < deployment_config.fabric_switches.size(); i++) {
if(deployment_config.fabric_switches[i].containsKey("role")) {
if(deployment_config.fabric_switches[i].role.toLowerCase().contains("leaf")) {
leafSwitchNum += 1
}
}
}
for(int i=1; i<=leafSwitchNum; i++) {
// Figure out which compute node connects to which switch
leafName = "leaf-" + i.toString()
computeNames = getComputeNames(leafName)
echo "Compute nodes connnected to " + leafName + " switch:"
for(name in computeNames) { echo "${name}" }
index = 1
for(name in computeNames) {
if(i>1) {
//Update fabric IP of compute nodes
index += 1
fabricIp = runComputeNodeCmd("${name}", "ip a | grep -o '${fabricIpPrefix}.[1-9][0-9]*.[0-9]*/24'").trim()
if (fabricIp != "") {
nodeId = sh(returnStdout: true, script: "curl -u ${xosUser}:${xosPass} -X GET http://${deployment_config.head.ip}/xosapi/v1/core/nodes | jq '.[\"items\"][] | select(.dataPlaneIp==\"${fabricIp}\") | .id'").trim()
newFabricIp = "${fabricIpPrefix}." + i.toString() + "." + index.toString() + "/24"
out = sh(returnStdout: true, script: "curl -u ${xosUser}:${xosPass} -X PUT -d '{\"dataPlaneIp\":\"${newFabricIp}\"}' http://${deployment_config.head.ip}/xosapi/v1/core/nodes/${nodeId}").trim()
// Wait until the new fabric IP gets configured
timeout(time: 5) {
waitUntil {
try {
num = runComputeNodeCmd("${name}", "ip a | grep " + newFabricIp + " | wc -l").trim()
return num.toInteger() == 1
} catch (exception) {
return false
}
}
}
}
else echo "Cannot find fabric IP matching pattern ${fabricIpPrefix}.[1-9][0-9]*.[0-9]*"
}
//Add routes to fabric subnets
for(int j=1; j<=leafSwitchNum; j++) {
if(j!=i) {
runComputeNodeCmd("${name}", "sudo ip route add ${fabricIpPrefix}." + j.toString() + ".0/24 via ${fabricIpPrefix}." + i.toString() + ".254 || echo route already exists")
}
}
}
}
}
stage ("Generate and load network configuration") {
// Reconnect compute nodes to update the fabric IP in ONOS
connectFabricAndComputeToOnos()
// Refresh fabric configurations
sh "make fabric-refresh"
}
}
}
if (deployment_config.make_release == true) {
stage ("Trigger Build") {
url = 'https://jenkins.opencord.org/job/release-build/job/' + params.branch + '/build'
httpRequest authentication: 'auto-release', httpMode: 'POST', url: url, validResponseCodes: '201'
}
}
currentBuild.result = 'SUCCESS'
} catch (err) {
currentBuild.result = 'FAILURE'
step([$class: 'Mailer', notifyEveryUnstableBuild: true, recipients: "${notificationEmail}", sendToIndividuals: false])
}
echo "RESULT: ${currentBuild.result}"
}
}
/**
* Returns a string used to bind IPs and MAC addresses, substituting the values
* given.
*
* @param word the word used to generate the host name
* @param counter the counter used to generate the host name
* @param mac the MAC address to substitute
* @param ip the IP address to substitute
*/
def createMACIPbindingStr(word, counter, mac, ip) {
return """host ${word}-${counter} {'\n'hardware ethernet ${mac}';''\n'fixed-address ${ip}';''\n'}"""
}
/**
* Runs a command on a remote host using sshpass.
*
* @param ip the node IP address
* @param user the node user name
* @param pass the node password
* @param command the command to run
* @param sshArgs arguments for the ssh command
* @return the output of the command
*/
def runCmd(ip, user, pass, command, sshArgs="") {
return sh(returnStdout: true, script: "sshpass -p ${pass} ssh ${sshArgs} -oStrictHostKeyChecking=no -l ${user} ${ip} \"${command}\"")
}
/**
* Runs a command on the head node.
*
* @param command the command to run
* @param sshArgs arguments for the ssh command
* @return the output of the command
*/
def runHeadNodeCmd(command, sshArgs="") {
return sh(returnStdout: true, script: "sshpass -p ${deployment_config.head.pass} ssh ${sshArgs} -oStrictHostKeyChecking=no -l ${deployment_config.head.user} ${deployment_config.head.ip} \"${command}\"")
}
/**
* Runs a command on a fabric switch.
*
* @param ip the mgmt IP of the fabric switch, reachable from the head node
* @param user the mgmt user name of the fabric switch
* @param pass the mgmt password of the fabric switch
* @param command the command to run on the fabric switch
* @param ssgArgs arguments for the ssh command
* @return the output of the command
*/
def runFabricSwitchCmd(ip, user, pass, command, sshArgs="") {
return sh(returnStdout: true, script: "sshpass -p ${deployment_config.head.pass} ssh ${sshArgs} -oStrictHostKeyChecking=no -l ${deployment_config.head.user} ${deployment_config.head.ip} \"sshpass -p ${pass} ssh ${sshArgs} -oStrictHostKeyChecking=no -l ${user} ${ip} ${command}\"")
}
/**
* Runs a command on all fabric switches
*
* @param command the command to run on the fabric switches
* @param ssgArgs arguments for the ssh command
*/
def runFabricSwitchCmdAll(command, sshArgs="") {
for(int i=0; i < deployment_config.fabric_switches.size(); i++) {
runFabricSwitchCmd("${deployment_config.fabric_switches[i].ip}",
"${deployment_config.fabric_switches[i].user}",
"${deployment_config.fabric_switches[i].pass}",
"${command}",
"${sshArgs}")
}
}
/**
* Runs a command on a compute node.
*
* @param name the name of the compute node
* @param command the command to run on the compute node
* @param ssgArgs arguments for the ssh command
* @return the output of the command
*/
def runComputeNodeCmd(name, command, sshArgs="") {
return sh(returnStdout: true, script: "sshpass -p ${deployment_config.head.pass} ssh ${sshArgs} -oStrictHostKeyChecking=no -l ${deployment_config.head.user} ${deployment_config.head.ip} \"ssh ${sshArgs} ubuntu@${name} ${command}\"")
}
/**
* Runs a command on all compute nodes
*
* @param command the command to run on the compute nodes
* @param ssgArgs arguments for the ssh command
*/
def runComputeNodeCmdAll(command, sshArgs="") {
computeNamesAll = getComputeNames()
for (name in computeNamesAll) {
runComputeNodeCmd("${name}", "${command}", "${sshArgs}")
}
}
/**
* Runs an ONOS CLI command
*
* @param name the onos node name, reachable from the head node
* @param port the port used to login to ONOS CLI
* @param user the user name to login to ONOS CLI
* @param pass the password to login to ONOS CLI
* @param command the command to run in ONOS CLI
* @return the output of the command
*/
def runOnosCliCmd(name, port, user, pass, command) {
return sh(returnStdout: true, script: "sshpass -p ${deployment_config.head.pass} ssh -oStrictHostKeyChecking=no -l ${deployment_config.head.user} ${deployment_config.head.ip} \"sshpass -p ${pass} ssh -oStrictHostKeyChecking=no -l ${user} -p ${port} ${name} ${command}\"")
}
/**
* Returns a list of compute node names. When "role" is specified, returns only
* names of compute nodes connected to the switch
*
* @param role the switch role, i.e. "leaf-1"
*/
def getComputeNames(role="") {
computeNamesAll = runHeadNodeCmd("cord prov list | grep node | awk '{print \\\$2}' | sed -e \\\"s/.*/'&'/\\\"").trim()
computeNamesAll = "${computeNamesAll}".split()
computeNamesAll = "${computeNamesAll}".replaceAll("'", "\"")
computeNamesAll = new JsonSlurperClassic().parseText("${computeNamesAll}")
if ("${role}" == "") return computeNamesAll
computeNames = []
switchMac = ""
for(int i=0; i < deployment_config.fabric_switches.size(); i++) {
if(deployment_config.fabric_switches[i].containsKey("role")) {
if ("${deployment_config.fabric_switches[i].role}" == "${role}")
switchMac = "${deployment_config.fabric_switches[i].mac}"
}
}
if ("${switchMac}" != "") {
switchMac = switchMac.toLowerCase().replaceAll(':','')
// Get fabric IPs of compute nodes connected to the switch
try {
computeFabricIps = runHeadNodeCmd("sshpass -p rocks ssh -q -oStrictHostKeyChecking=no -l onos -p 8101 onos-fabric hosts -j | jq '.[] | select(.locations[].elementId | contains(\\\"${switchMac}\\\")) | .ipAddresses' | grep -o '\\\"${fabricIpPrefix}.[1-9][0-9]*.[0-9]*\\\"'",
"-q").trim()
}catch (exception) {
return computeNames
}
computeFabricIps = "${computeFabricIps}".split()
computeFabricIps = new JsonSlurperClassic().parseText("${computeFabricIps}")
// Figure out which compute node connects to the switch
for (name in computeNamesAll) {
fabricIp = runComputeNodeCmd("${name}", "ip a | grep -o '${fabricIpPrefix}.[1-9][0-9]*.[0-9]*'").trim()
if (fabricIp in computeFabricIps) {
computeNames.add("${name}")
}
}
}
return computeNames
}
/**
* Connects all fabric switches and compute nodes to ONOS
*/
def connectFabricAndComputeToOnos() {
// Kill existing switch connections
runFabricSwitchCmdAll("./killit || echo no ofagentapp running")
// Clean stale ONOS data
runOnosCliCmd("onos-fabric", "8101", "onos", "rocks", "wipe-out -r -j please")
// Connect switches to ONOS
for(int i=0; i < deployment_config.fabric_switches.size(); i++) {
runFabricSwitchCmd("${deployment_config.fabric_switches[i].ip}",
"${deployment_config.fabric_switches[i].user}",
"${deployment_config.fabric_switches[i].pass}",
"./connect -bg 2>&1 > ${deployment_config.fabric_switches[i].ip}.log",
"-qftn")
}
// Verify ONOS has recognized the switches
timeout(time: 5) {
waitUntil {
try {
num = runHeadNodeCmd("\"sshpass -p rocks ssh -q -oStrictHostKeyChecking=no -l onos -p 8101 onos-fabric devices | grep available=true | wc -l\"").trim()
return num.toInteger() == deployment_config.fabric_switches.size()
} catch (exception) {
return false
}
}
}
// Connect compute nodes to ONOS
runComputeNodeCmdAll("ping -c 1 ${fabricIpPrefix}.1.254", "-qftn")
// Verify ONOS has recognized the hosts
timeout(time: 5) {
waitUntil {
try {
num = runHeadNodeCmd("\"sshpass -p rocks ssh -q -oStrictHostKeyChecking=no -l onos -p 8101 onos-fabric hosts | grep id= | wc -l\"").trim()
return num.toInteger() >= deployment_config.compute_nodes.size()
} catch (exception) {
return false
}
}
}
}