/** * Creates and returns proxy services for the cluster. * * @param kubernetesApi * @param clusterContext * @param kubernetesCluster * @param kubernetesClusterContext * @throws KubernetesClientException */ private void createKubernetesServices( KubernetesApiClient kubernetesApi, ClusterContext clusterContext, KubernetesCluster kubernetesCluster, KubernetesClusterContext kubernetesClusterContext) throws KubernetesClientException { String clusterId = clusterContext.getClusterId(); String cartridgeType = clusterContext.getCartridgeType(); Cartridge cartridge = CloudControllerContext.getInstance().getCartridge(cartridgeType); if (cartridge == null) { String message = "Could not create kubernetes services, cartridge not found: [cartridge] " + cartridgeType; log.error(message); throw new RuntimeException(message); } String sessionAffinity = null; Property sessionAffinityProperty = cartridge.getProperties().getProperty(KUBERNETES_SERVICE_SESSION_AFFINITY); if (sessionAffinityProperty != null) { sessionAffinity = sessionAffinityProperty.getValue(); } List<KubernetesService> kubernetesServices = clusterContext.getKubernetesServices(); if (kubernetesServices == null) { kubernetesServices = new ArrayList<KubernetesService>(); } // Prepare minion public IP addresses List<String> minionPrivateIPList = new ArrayList<String>(); List<String> minionPublicIPList = new ArrayList<String>(); KubernetesHost[] kubernetesHosts = kubernetesCluster.getKubernetesHosts(); if ((kubernetesHosts == null) || (kubernetesHosts.length == 0) || (kubernetesHosts[0] == null)) { throw new RuntimeException( "Hosts not found in kubernetes cluster: [cluster] " + kubernetesCluster.getClusterId()); } for (KubernetesHost host : kubernetesHosts) { if (host != null) { minionPrivateIPList.add(host.getPrivateIPAddress()); minionPublicIPList.add(host.getPublicIPAddress()); } } if (log.isDebugEnabled()) { log.debug(String.format("Minion private IPs: %s", minionPrivateIPList)); } Collection<ClusterPortMapping> clusterPortMappings = CloudControllerContext.getInstance() .getClusterPortMappings(clusterContext.getApplicationId(), clusterId); if (clusterPortMappings != null) { for (ClusterPortMapping clusterPortMapping : clusterPortMappings) { // Skip if already created int containerPort = clusterPortMapping.getPort(); if (kubernetesServiceExist(kubernetesServices, containerPort)) { continue; } // Find next service sequence no long serviceSeqNo = kubernetesClusterContext.getServiceSeqNo().incrementAndGet(); String serviceId = KubernetesIaasUtil.fixSpecialCharacters("service" + "-" + (serviceSeqNo)); String serviceLabel = KubernetesIaasUtil.fixSpecialCharacters(clusterId); if (log.isInfoEnabled()) { log.info( String.format( "Creating kubernetes service: [cluster] %s [service] %s " + "[protocol] %s [service-port] %d [container-port] %s", clusterId, serviceId, clusterPortMapping.getProtocol(), clusterPortMapping.getKubernetesServicePort(), containerPort)); } // Create kubernetes service for port mapping int servicePort = clusterPortMapping.getKubernetesServicePort(); String containerPortName = KubernetesIaasUtil.preparePortNameFromPortMapping(clusterPortMapping); try { // Services need to use minions private IP addresses for creating iptable rules kubernetesApi.createService( serviceId, serviceLabel, servicePort, containerPortName, containerPort, minionPrivateIPList, sessionAffinity); } finally { // Persist kubernetes service sequence no CloudControllerContext.getInstance().persist(); } try { Thread.sleep(1000); } catch (InterruptedException ignore) { } Service service = kubernetesApi.getService(serviceId); KubernetesService kubernetesService = new KubernetesService(); kubernetesService.setId(service.getMetadata().getName()); kubernetesService.setPortalIP(service.getSpec().getPortalIP()); // Expose minions public IP addresses as they need to be accessed by external networks String[] minionPublicIPArray = minionPublicIPList.toArray(new String[minionPublicIPList.size()]); kubernetesService.setPublicIPs(minionPublicIPArray); kubernetesService.setProtocol(clusterPortMapping.getProtocol()); kubernetesService.setPort(service.getSpec().getPorts().get(0).getPort()); kubernetesService.setContainerPort(containerPort); kubernetesServices.add(kubernetesService); if (log.isInfoEnabled()) { log.info( String.format( "Kubernetes service successfully created: [cluster] %s [service] %s " + "[protocol] %s [service-port] %d [container-port] %s", clusterId, serviceId, clusterPortMapping.getProtocol(), servicePort, containerPort)); } } } // Add kubernetes services to cluster context and persist clusterContext.setKubernetesServices(kubernetesServices); CloudControllerContext.getInstance().persist(); }
/** * Starts a container via kubernetes for the given member context. * * @param memberContext * @return * @throws CartridgeNotFoundException */ public MemberContext startContainer(MemberContext memberContext) throws CartridgeNotFoundException { Lock lock = null; try { lock = CloudControllerContext.getInstance().acquireMemberContextWriteLock(); handleNullObject(memberContext, "member context is null"); log.info( String.format( "Starting container: [application] %s [cartridge] %s [member] %s", memberContext.getApplicationId(), memberContext.getCartridgeType(), memberContext.getMemberId())); // Validate cluster id String clusterId = memberContext.getClusterId(); String memberId = memberContext.getMemberId(); handleNullObject(clusterId, "cluster id is null in member context"); // Validate cluster context ClusterContext clusterContext = CloudControllerContext.getInstance().getClusterContext(clusterId); handleNullObject( clusterContext, String.format( "Cluster context not found: [application] %s [cartridge] %s " + "[cluster] %s", memberContext.getApplicationId(), memberContext.getCartridgeType(), clusterId)); // Validate partition Partition partition = memberContext.getPartition(); handleNullObject( partition, String.format( "partition not found in member context: [application] %s " + "[cartridge] %s [member] %s", memberContext.getApplicationId(), memberContext.getCartridgeType(), memberContext.getMemberId())); // Validate cartridge String cartridgeType = clusterContext.getCartridgeType(); Cartridge cartridge = CloudControllerContext.getInstance().getCartridge(cartridgeType); if (cartridge == null) { String msg = String.format( "Cartridge not found: [application] %s [cartridge] %s", memberContext.getApplicationId(), memberContext.getCartridgeType()); log.error(msg); throw new CartridgeNotFoundException(msg); } String kubernetesClusterId = partition.getKubernetesClusterId(); clusterContext.setKubernetesClusterId(kubernetesClusterId); KubernetesCluster kubernetesCluster = CloudControllerContext.getInstance().getKubernetesCluster(kubernetesClusterId); handleNullObject( kubernetesCluster, "kubernetes cluster not found: " + "[kubernetes-cluster] " + kubernetesClusterId + " [cluster] " + clusterId + " [member] " + memberId); // Prepare kubernetes context String kubernetesMasterIp = kubernetesCluster.getKubernetesMaster().getPrivateIPAddress(); PortRange kubernetesPortRange = kubernetesCluster.getPortRange(); String kubernetesMasterPort = CloudControllerUtil.getProperty( kubernetesCluster.getKubernetesMaster().getProperties(), StratosConstants.KUBERNETES_MASTER_PORT, StratosConstants.KUBERNETES_MASTER_DEFAULT_PORT); // Add kubernetes cluster payload parameters to payload if ((kubernetesCluster.getProperties() != null) && (kubernetesCluster.getProperties().getProperties() != null)) { for (Property property : kubernetesCluster.getProperties().getProperties()) { if (property != null) { if (property.getName().startsWith(PAYLOAD_PARAMETER_PREFIX)) { String name = property.getName().replace(PAYLOAD_PARAMETER_PREFIX, ""); payload.add(new NameValuePair(name, property.getValue())); } } } } KubernetesClusterContext kubernetesClusterContext = getKubernetesClusterContext( kubernetesClusterId, kubernetesMasterIp, kubernetesMasterPort, kubernetesPortRange.getUpper(), kubernetesPortRange.getLower()); // Generate kubernetes service ports and update port mappings in cartridge generateKubernetesServicePorts( clusterContext.getApplicationId(), clusterContext.getClusterId(), kubernetesClusterContext, cartridge); // Create kubernetes services for port mappings KubernetesApiClient kubernetesApi = kubernetesClusterContext.getKubApi(); createKubernetesServices( kubernetesApi, clusterContext, kubernetesCluster, kubernetesClusterContext); // Create pod createPod(clusterContext, memberContext, kubernetesApi, kubernetesClusterContext); // Wait for pod status to be changed to running Pod pod = waitForPodToBeActivated(memberContext, kubernetesApi); // Update member context updateMemberContext(memberContext, pod, kubernetesCluster); log.info( String.format( "Container started successfully: [application] %s [cartridge] %s [member] %s " + "[pod] %s [cpu] %d [memory] %d MB", memberContext.getApplicationId(), memberContext.getCartridgeType(), memberContext.getMemberId(), memberContext.getKubernetesPodId(), memberContext.getInstanceMetadata().getCpu(), memberContext.getInstanceMetadata().getRam())); return memberContext; } catch (Exception e) { String msg = String.format( "Could not start container: [application] %s [cartridge] %s [member] %s", memberContext.getApplicationId(), memberContext.getCartridgeType(), memberContext.getMemberId()); log.error(msg, e); throw new RuntimeException(msg, e); } finally { if (lock != null) { CloudControllerContext.getInstance().releaseWriteLock(lock); } } }