import _ from 'lodash-es'; import filesizeParser from 'filesize-parser'; import { KubernetesApplicationDataAccessPolicies, KubernetesApplicationDeploymentTypes, KubernetesApplicationTypes } from 'Kubernetes/models/application/models/appConstants'; import { KubernetesApplication, KubernetesApplicationConfigurationVolume, KubernetesApplicationPersistedFolder, KubernetesApplicationPort, KubernetesPortainerApplicationNameLabel, KubernetesPortainerApplicationNote, KubernetesPortainerApplicationOwnerLabel, KubernetesPortainerApplicationStackNameLabel, KubernetesPortainerApplicationStackIdLabel, KubernetesPortainerApplicationKindLabel, } from 'Kubernetes/models/application/models'; import { KubernetesServiceTypes } from 'Kubernetes/models/service/models'; import KubernetesResourceReservationHelper from 'Kubernetes/helpers/resourceReservationHelper'; import { KubernetesApplicationFormValues } from 'Kubernetes/models/application/formValues'; import KubernetesApplicationHelper from 'Kubernetes/helpers/application'; import KubernetesDeploymentConverter from 'Kubernetes/converters/deployment'; import KubernetesDaemonSetConverter from 'Kubernetes/converters/daemonSet'; import KubernetesStatefulSetConverter from 'Kubernetes/converters/statefulSet'; import KubernetesPodConverter from 'Kubernetes/pod/converter'; import KubernetesServiceConverter from 'Kubernetes/converters/service'; import KubernetesPersistentVolumeClaimConverter from 'Kubernetes/converters/persistentVolumeClaim'; import PortainerError from 'Portainer/error'; import { KubernetesIngressHelper } from 'Kubernetes/ingress/helper'; import KubernetesCommonHelper from 'Kubernetes/helpers/commonHelper'; import { KubernetesConfigurationKinds } from 'Kubernetes/models/configuration/models'; function _apiPortsToPublishedPorts(pList, pRefs) { const ports = _.map(pList, (item) => { const res = new KubernetesApplicationPort(); res.Port = item.port; res.TargetPort = item.targetPort; res.NodePort = item.nodePort; res.Protocol = item.protocol; return res; }); _.forEach(ports, (port) => { if (isNaN(port.TargetPort)) { const targetPort = _.find(pRefs, { name: port.TargetPort }); if (targetPort) { port.TargetPort = targetPort.containerPort; } } }); return ports; } class KubernetesApplicationConverter { static applicationCommon(res, data, pods, service, ingresses) { const containers = data.spec.template ? _.without(_.concat(data.spec.template.spec.containers, data.spec.template.spec.initContainers), undefined) : data.spec.containers; res.Id = data.metadata.uid; res.Name = data.metadata.name; res.Metadata = data.metadata; res.ApplicationType = data.kind; res.Labels = data.metadata.labels || {}; if (data.metadata.labels) { const { labels } = data.metadata; res.StackId = labels[KubernetesPortainerApplicationStackIdLabel] ? parseInt(labels[KubernetesPortainerApplicationStackIdLabel], 10) : null; res.StackName = labels[KubernetesPortainerApplicationStackNameLabel] || ''; res.ApplicationKind = labels[KubernetesPortainerApplicationKindLabel] || ''; res.ApplicationOwner = labels[KubernetesPortainerApplicationOwnerLabel] || ''; res.ApplicationName = labels[KubernetesPortainerApplicationNameLabel] || res.Name; } res.Note = data.metadata.annotations ? data.metadata.annotations[KubernetesPortainerApplicationNote] || '' : ''; res.ResourcePool = data.metadata.namespace; if (containers.length) { res.Image = containers[0].image; } if (data.spec.template && data.spec.template.spec && data.spec.template.spec.imagePullSecrets && data.spec.template.spec.imagePullSecrets.length) { res.RegistryId = parseInt(data.spec.template.spec.imagePullSecrets[0].name.replace('registry-', ''), 10); } res.CreationDate = data.metadata.creationTimestamp; res.Env = _.without(_.flatMap(_.map(containers, 'env')), undefined); res.Pods = data.spec.selector ? KubernetesApplicationHelper.associatePodsAndApplication(pods, data.spec.selector) : [data]; const limits = { Cpu: 0, Memory: 0, }; res.Limits = _.reduce( containers, (acc, item) => { if (item.resources.limits && item.resources.limits.cpu) { acc.Cpu += KubernetesResourceReservationHelper.parseCPU(item.resources.limits.cpu); } if (item.resources.limits && item.resources.limits.memory) { acc.Memory += filesizeParser(item.resources.limits.memory, { base: 10 }); } return acc; }, limits ); const requests = { Cpu: 0, Memory: 0, }; res.Requests = _.reduce( containers, (acc, item) => { if (item.resources.requests && item.resources.requests.cpu) { acc.Cpu += KubernetesResourceReservationHelper.parseCPU(item.resources.requests.cpu); } if (item.resources.requests && item.resources.requests.memory) { acc.Memory += filesizeParser(item.resources.requests.memory, { base: 10 }); } return acc; }, requests ); if (service) { const serviceType = service.spec.type; res.ServiceType = serviceType; res.ServiceId = service.metadata.uid; res.ServiceName = service.metadata.name; res.ClusterIp = service.spec.clusterIP; res.ExternalIp = service.spec.externalIP; if (serviceType === KubernetesServiceTypes.LOAD_BALANCER) { if (service.status.loadBalancer.ingress && service.status.loadBalancer.ingress.length > 0) { res.LoadBalancerIPAddress = service.status.loadBalancer.ingress[0].ip || service.status.loadBalancer.ingress[0].hostname; } } const portsRefs = _.concat(..._.map(containers, (container) => container.ports)); const ports = _apiPortsToPublishedPorts(service.spec.ports, portsRefs); const rules = KubernetesIngressHelper.findSBoundServiceIngressesRules(ingresses, service.metadata.name); _.forEach(ports, (port) => (port.IngressRules = _.filter(rules, (rule) => rule.Port === port.Port))); res.PublishedPorts = ports; } if (data.spec.template) { res.Volumes = data.spec.template.spec.volumes ? data.spec.template.spec.volumes : []; } else { res.Volumes = data.spec.volumes; } // TODO: review // this if() fixs direct use of PVC reference inside spec.template.spec.containers[0].volumeMounts // instead of referencing the PVC the "good way" using spec.template.spec.volumes array // Basically it creates an "in-memory" reference for the PVC, as if it was saved in // spec.template.spec.volumes and retrieved from here. // // FIX FOR SFS ONLY ; as far as we know it's not possible to do this with DEPLOYMENTS/DAEMONSETS // // This may lead to destructing behaviours when we will allow external apps to be edited. // E.G. if we try to generate the formValues and patch the app, SFS reference will be created under // spec.template.spec.volumes and not be referenced directly inside spec.template.spec.containers[0].volumeMounts // As we preserve original SFS name and try to build around it, it SHOULD be fine, but we definitely need to test this // before allowing external apps modification if (data.spec.volumeClaimTemplates) { const vcTemplates = _.map(data.spec.volumeClaimTemplates, (vc) => { return { name: vc.metadata.name, persistentVolumeClaim: { claimName: vc.metadata.name }, }; }); const inexistingPVC = _.filter(vcTemplates, (vc) => { return !_.find(res.Volumes, { persistentVolumeClaim: { claimName: vc.persistentVolumeClaim.claimName } }); }); res.Volumes = _.concat(res.Volumes, inexistingPVC); } const persistedFolders = _.filter(res.Volumes, (volume) => volume.persistentVolumeClaim || volume.hostPath); res.PersistedFolders = _.map(persistedFolders, (volume) => { const volumeMounts = _.uniq(_.flatMap(_.map(containers, 'volumeMounts')), 'name'); const matchingVolumeMount = _.find(volumeMounts, { name: volume.name }); if (matchingVolumeMount) { const persistedFolder = new KubernetesApplicationPersistedFolder(); persistedFolder.MountPath = matchingVolumeMount.mountPath; if (volume.persistentVolumeClaim) { persistedFolder.persistentVolumeClaimName = volume.persistentVolumeClaim.claimName; } else { persistedFolder.HostPath = volume.hostPath.path; } return persistedFolder; } }); res.PersistedFolders = _.without(res.PersistedFolders, undefined); res.ConfigurationVolumes = _.reduce( res.Volumes, (acc, volume) => { if (volume.configMap || volume.secret) { const matchingVolumeMount = _.find(_.flatMap(_.map(containers, 'volumeMounts')), { name: volume.name }); if (matchingVolumeMount) { let items = []; let configurationName = ''; if (volume.configMap) { items = volume.configMap.items; configurationName = volume.configMap.name; } else { items = volume.secret.items; configurationName = volume.secret.secretName; } if (!items) { const configurationVolume = new KubernetesApplicationConfigurationVolume(); configurationVolume.fileMountPath = matchingVolumeMount.mountPath; configurationVolume.rootMountPath = matchingVolumeMount.mountPath; configurationVolume.configurationName = configurationName; configurationVolume.configurationType = volume.configMap ? KubernetesConfigurationKinds.CONFIGMAP : KubernetesConfigurationKinds.SECRET; acc.push(configurationVolume); } else { _.forEach(items, (item) => { const configurationVolume = new KubernetesApplicationConfigurationVolume(); configurationVolume.fileMountPath = matchingVolumeMount.mountPath + '/' + item.path; configurationVolume.rootMountPath = matchingVolumeMount.mountPath; configurationVolume.configurationKey = item.key; configurationVolume.configurationName = configurationName; configurationVolume.configurationType = volume.configMap ? KubernetesConfigurationKinds.CONFIGMAP : KubernetesConfigurationKinds.SECRET; acc.push(configurationVolume); }); } } } return acc; }, [] ); } static apiPodToApplication(data, pods, service, ingresses) { const res = new KubernetesApplication(); KubernetesApplicationConverter.applicationCommon(res, data, pods, service, ingresses); res.ApplicationType = KubernetesApplicationTypes.Pod; return res; } static apiDeploymentToApplication(data, pods, service, ingresses) { const res = new KubernetesApplication(); KubernetesApplicationConverter.applicationCommon(res, data, pods, service, ingresses); res.ApplicationType = KubernetesApplicationTypes.Deployment; res.DeploymentType = KubernetesApplicationDeploymentTypes.Replicated; res.DataAccessPolicy = KubernetesApplicationDataAccessPolicies.Shared; res.RunningPodsCount = data.status.availableReplicas || data.status.replicas - data.status.unavailableReplicas || 0; res.TotalPodsCount = data.spec.replicas; return res; } static apiDaemonSetToApplication(data, pods, service, ingresses) { const res = new KubernetesApplication(); KubernetesApplicationConverter.applicationCommon(res, data, pods, service, ingresses); res.ApplicationType = KubernetesApplicationTypes.DaemonSet; res.DeploymentType = KubernetesApplicationDeploymentTypes.Global; res.DataAccessPolicy = KubernetesApplicationDataAccessPolicies.Shared; res.RunningPodsCount = data.status.numberAvailable || data.status.desiredNumberScheduled - data.status.numberUnavailable || 0; res.TotalPodsCount = data.status.desiredNumberScheduled; return res; } static apiStatefulSetToapplication(data, pods, service, ingresses) { const res = new KubernetesApplication(); KubernetesApplicationConverter.applicationCommon(res, data, pods, service, ingresses); res.ApplicationType = KubernetesApplicationTypes.StatefulSet; res.DeploymentType = KubernetesApplicationDeploymentTypes.Replicated; res.DataAccessPolicy = KubernetesApplicationDataAccessPolicies.Isolated; res.RunningPodsCount = data.status.readyReplicas || 0; res.TotalPodsCount = data.spec.replicas; res.HeadlessServiceName = data.spec.serviceName; return res; } static applicationToFormValues(app, resourcePools, configurations, persistentVolumeClaims, nodesLabels, ingresses) { const res = new KubernetesApplicationFormValues(); res.ApplicationType = app.ApplicationType; res.ResourcePool = _.find(resourcePools, ['Namespace.Name', app.ResourcePool]); res.Name = app.Name; res.Labels = app.Labels; res.Services = KubernetesApplicationHelper.generateServicesFormValuesFromServices(app, ingresses); res.Selector = KubernetesApplicationHelper.generateSelectorFromService(app); res.StackName = app.StackName; res.ApplicationOwner = app.ApplicationOwner; res.ImageModel.Image = app.Image; res.ImageModel.Registry.Id = app.RegistryId; res.ReplicaCount = app.TotalPodsCount; res.MemoryLimit = KubernetesResourceReservationHelper.megaBytesValue(app.Limits.Memory); res.CpuLimit = app.Limits.Cpu; res.DeploymentType = app.DeploymentType; res.DataAccessPolicy = app.DataAccessPolicy; res.EnvironmentVariables = KubernetesApplicationHelper.generateEnvVariablesFromEnv(app.Env); res.PersistedFolders = KubernetesApplicationHelper.generatePersistedFoldersFormValuesFromPersistedFolders(app.PersistedFolders, persistentVolumeClaims); // generate from PVC and app.PersistedFolders res.Secrets = KubernetesApplicationHelper.generateConfigurationFormValuesFromEnvAndVolumes( app.Env, app.ConfigurationVolumes, configurations, KubernetesConfigurationKinds.SECRET ); res.ConfigMaps = KubernetesApplicationHelper.generateConfigurationFormValuesFromEnvAndVolumes( app.Env, app.ConfigurationVolumes, configurations, KubernetesConfigurationKinds.CONFIGMAP ); res.AutoScaler = KubernetesApplicationHelper.generateAutoScalerFormValueFromHorizontalPodAutoScaler(app.AutoScaler, res.ReplicaCount); res.PublishedPorts = KubernetesApplicationHelper.generatePublishedPortsFormValuesFromPublishedPorts(app.ServiceType, app.PublishedPorts, ingresses); res.Containers = app.Containers; res.PublishingType = app.ServiceType; if (app.Pods && app.Pods.length) { KubernetesApplicationHelper.generatePlacementsFormValuesFromAffinity(res, app.Pods[0].Affinity); } return res; } static applicationFormValuesToApplication(formValues) { formValues.ApplicationOwner = KubernetesCommonHelper.ownerToLabel(formValues.ApplicationOwner); const claims = KubernetesPersistentVolumeClaimConverter.applicationFormValuesToVolumeClaims(formValues); const rwx = KubernetesApplicationHelper.hasRWX(claims); const deployment = (formValues.DeploymentType === KubernetesApplicationDeploymentTypes.Replicated && (claims.length === 0 || (claims.length > 0 && formValues.DataAccessPolicy === KubernetesApplicationDataAccessPolicies.Shared))) || formValues.ApplicationType === KubernetesApplicationTypes.Deployment; const statefulSet = (formValues.DeploymentType === KubernetesApplicationDeploymentTypes.Replicated && claims.length > 0 && formValues.DataAccessPolicy === KubernetesApplicationDataAccessPolicies.Isolated) || formValues.ApplicationType === KubernetesApplicationTypes.StatefulSet; const daemonSet = (formValues.DeploymentType === KubernetesApplicationDeploymentTypes.Global && (claims.length === 0 || (claims.length > 0 && formValues.DataAccessPolicy === KubernetesApplicationDataAccessPolicies.Shared && rwx))) || formValues.ApplicationType === KubernetesApplicationTypes.DaemonSet; const pod = formValues.ApplicationType === KubernetesApplicationTypes.Pod; let app; if (deployment) { app = KubernetesDeploymentConverter.applicationFormValuesToDeployment(formValues, claims); } else if (statefulSet) { app = KubernetesStatefulSetConverter.applicationFormValuesToStatefulSet(formValues, claims); } else if (daemonSet) { app = KubernetesDaemonSetConverter.applicationFormValuesToDaemonSet(formValues, claims); } else if (pod) { app = KubernetesPodConverter.applicationFormValuesToPod(formValues, claims); } else { throw new PortainerError('Unable to determine which association to use to convert form'); } app.ApplicationType = formValues.ApplicationType; let headlessService; if (statefulSet) { headlessService = KubernetesServiceConverter.applicationFormValuesToHeadlessService(formValues); } let service = KubernetesServiceConverter.applicationFormValuesToService(formValues); if (!service.Ports.length) { service = undefined; } let services = KubernetesServiceConverter.applicationFormValuesToServices(formValues); return [app, headlessService, services, service, claims]; } } export default KubernetesApplicationConverter;