portainer/app/kubernetes/services/applicationService.js

418 lines
19 KiB
JavaScript

import _ from 'lodash-es';
import angular from 'angular';
import PortainerError from 'Portainer/error';
import {
KubernetesApplication,
KubernetesApplicationDeploymentTypes,
KubernetesApplicationPublishingTypes,
KubernetesApplicationTypes,
} from 'Kubernetes/models/application/models';
import KubernetesApplicationHelper from 'Kubernetes/helpers/application';
import KubernetesApplicationRollbackHelper from 'Kubernetes/helpers/application/rollback';
import KubernetesApplicationConverter from 'Kubernetes/converters/application';
import { KubernetesDeployment } from 'Kubernetes/models/deployment/models';
import { KubernetesStatefulSet } from 'Kubernetes/models/stateful-set/models';
import { KubernetesDaemonSet } from 'Kubernetes/models/daemon-set/models';
import KubernetesServiceHelper from 'Kubernetes/helpers/serviceHelper';
import { KubernetesHorizontalPodAutoScalerHelper } from 'Kubernetes/horizontal-pod-auto-scaler/helper';
import { KubernetesHorizontalPodAutoScalerConverter } from 'Kubernetes/horizontal-pod-auto-scaler/converter';
import { KubernetesIngressConverter } from 'Kubernetes/ingress/converter';
import KubernetesPodConverter from 'Kubernetes/pod/converter';
class KubernetesApplicationService {
/* #region CONSTRUCTOR */
/* @ngInject */
constructor(
$async,
Authentication,
KubernetesDeploymentService,
KubernetesDaemonSetService,
KubernetesStatefulSetService,
KubernetesServiceService,
KubernetesSecretService,
KubernetesPersistentVolumeClaimService,
KubernetesNamespaceService,
KubernetesPodService,
KubernetesHistoryService,
KubernetesHorizontalPodAutoScalerService,
KubernetesIngressService
) {
this.$async = $async;
this.Authentication = Authentication;
this.KubernetesDeploymentService = KubernetesDeploymentService;
this.KubernetesDaemonSetService = KubernetesDaemonSetService;
this.KubernetesStatefulSetService = KubernetesStatefulSetService;
this.KubernetesServiceService = KubernetesServiceService;
this.KubernetesSecretService = KubernetesSecretService;
this.KubernetesPersistentVolumeClaimService = KubernetesPersistentVolumeClaimService;
this.KubernetesNamespaceService = KubernetesNamespaceService;
this.KubernetesPodService = KubernetesPodService;
this.KubernetesHistoryService = KubernetesHistoryService;
this.KubernetesHorizontalPodAutoScalerService = KubernetesHorizontalPodAutoScalerService;
this.KubernetesIngressService = KubernetesIngressService;
this.getAsync = this.getAsync.bind(this);
this.getAllAsync = this.getAllAsync.bind(this);
this.createAsync = this.createAsync.bind(this);
this.patchAsync = this.patchAsync.bind(this);
this.patchPartialAsync = this.patchPartialAsync.bind(this);
this.rollbackAsync = this.rollbackAsync.bind(this);
this.deleteAsync = this.deleteAsync.bind(this);
}
/* #endregion */
/* #region UTILS */
_getApplicationApiService(app) {
let apiService;
if (app instanceof KubernetesDeployment || (app instanceof KubernetesApplication && app.ApplicationType === KubernetesApplicationTypes.DEPLOYMENT)) {
apiService = this.KubernetesDeploymentService;
} else if (app instanceof KubernetesDaemonSet || (app instanceof KubernetesApplication && app.ApplicationType === KubernetesApplicationTypes.DAEMONSET)) {
apiService = this.KubernetesDaemonSetService;
} else if (app instanceof KubernetesStatefulSet || (app instanceof KubernetesApplication && app.ApplicationType === KubernetesApplicationTypes.STATEFULSET)) {
apiService = this.KubernetesStatefulSetService;
} else if (app instanceof KubernetesApplication && app.ApplicationType === KubernetesApplicationTypes.POD) {
apiService = this.KubernetesPodService;
} else {
throw new PortainerError('Unable to determine which association to use to retrieve API Service');
}
return apiService;
}
_generateIngressPatchPromises(oldIngresses, newIngresses) {
return _.map(newIngresses, (newIng) => {
const oldIng = _.find(oldIngresses, { Name: newIng.Name });
return this.KubernetesIngressService.patch(oldIng, newIng);
});
}
/* #endregion */
/* #region GET */
async getAsync(namespace, name) {
const [deployment, daemonSet, statefulSet, pod, pods, autoScalers, ingresses] = await Promise.allSettled([
this.KubernetesDeploymentService.get(namespace, name),
this.KubernetesDaemonSetService.get(namespace, name),
this.KubernetesStatefulSetService.get(namespace, name),
this.KubernetesPodService.get(namespace, name),
this.KubernetesPodService.get(namespace),
this.KubernetesHorizontalPodAutoScalerService.get(namespace),
this.KubernetesIngressService.get(namespace),
]);
let rootItem;
let converterFunc;
if (deployment.status === 'fulfilled') {
rootItem = deployment;
converterFunc = KubernetesApplicationConverter.apiDeploymentToApplication;
} else if (daemonSet.status === 'fulfilled') {
rootItem = daemonSet;
converterFunc = KubernetesApplicationConverter.apiDaemonSetToApplication;
} else if (statefulSet.status === 'fulfilled') {
rootItem = statefulSet;
converterFunc = KubernetesApplicationConverter.apiStatefulSetToapplication;
} else if (pod.status === 'fulfilled') {
rootItem = pod;
converterFunc = KubernetesApplicationConverter.apiPodToApplication;
} else {
throw new PortainerError('Unable to determine which association to use to convert application');
}
const services = await this.KubernetesServiceService.get(namespace);
const boundService = KubernetesServiceHelper.findApplicationBoundService(services, rootItem.value.Raw);
const service = boundService ? await this.KubernetesServiceService.get(namespace, boundService.metadata.name) : {};
const application = converterFunc(rootItem.value.Raw, pods.value, service.Raw, ingresses.value);
application.Yaml = rootItem.value.Yaml;
application.Raw = rootItem.value.Raw;
application.Pods = _.map(application.Pods, (item) => KubernetesPodConverter.apiToModel(item));
application.Containers = KubernetesApplicationHelper.associateContainersAndApplication(application);
const boundScaler = KubernetesHorizontalPodAutoScalerHelper.findApplicationBoundScaler(autoScalers.value, application);
const scaler = boundScaler ? await this.KubernetesHorizontalPodAutoScalerService.get(namespace, boundScaler.Name) : undefined;
application.AutoScaler = scaler;
await this.KubernetesHistoryService.get(application);
if (service.Yaml) {
application.Yaml += '---\n' + service.Yaml;
}
if (scaler && scaler.Yaml) {
application.Yaml += '---\n' + scaler.Yaml;
}
// TODO: refactor @LP
// append ingress yaml ?
return application;
}
async getAllAsync(namespace) {
const namespaces = namespace ? [namespace] : _.map(await this.KubernetesNamespaceService.get(), 'Name');
const convertToApplication = (item, converterFunc, services, pods, ingresses) => {
const service = KubernetesServiceHelper.findApplicationBoundService(services, item);
const application = converterFunc(item, pods, service, ingresses);
application.Containers = KubernetesApplicationHelper.associateContainersAndApplication(application);
return application;
};
const res = await Promise.all(
_.map(namespaces, async (ns) => {
const [deployments, daemonSets, statefulSets, services, pods, ingresses, autoScalers] = await Promise.all([
this.KubernetesDeploymentService.get(ns),
this.KubernetesDaemonSetService.get(ns),
this.KubernetesStatefulSetService.get(ns),
this.KubernetesServiceService.get(ns),
this.KubernetesPodService.get(ns),
this.KubernetesIngressService.get(ns),
this.KubernetesHorizontalPodAutoScalerService.get(ns),
]);
const deploymentApplications = _.map(deployments, (item) =>
convertToApplication(item, KubernetesApplicationConverter.apiDeploymentToApplication, services, pods, ingresses)
);
const daemonSetApplications = _.map(daemonSets, (item) => convertToApplication(item, KubernetesApplicationConverter.apiDaemonSetToApplication, services, pods, ingresses));
const statefulSetApplications = _.map(statefulSets, (item) =>
convertToApplication(item, KubernetesApplicationConverter.apiStatefulSetToapplication, services, pods, ingresses)
);
const boundPods = _.concat(_.flatMap(deploymentApplications, 'Pods'), _.flatMap(daemonSetApplications, 'Pods'), _.flatMap(statefulSetApplications, 'Pods'));
const unboundPods = _.without(pods, ...boundPods);
const nakedPodsApplications = _.map(unboundPods, (item) => convertToApplication(item, KubernetesApplicationConverter.apiPodToApplication, services, pods, ingresses));
const applications = _.concat(deploymentApplications, daemonSetApplications, statefulSetApplications, nakedPodsApplications);
_.forEach(applications, (app) => {
app.Pods = _.map(app.Pods, (item) => KubernetesPodConverter.apiToModel(item));
});
await Promise.all(
_.forEach(applications, async (application) => {
const boundScaler = KubernetesHorizontalPodAutoScalerHelper.findApplicationBoundScaler(autoScalers, application);
const scaler = boundScaler ? await this.KubernetesHorizontalPodAutoScalerService.get(ns, boundScaler.Name) : undefined;
application.AutoScaler = scaler;
})
);
return applications;
})
);
return _.flatten(res);
}
get(namespace, name) {
if (name) {
return this.$async(this.getAsync, namespace, name);
}
return this.$async(this.getAllAsync, namespace);
}
/* #endregion */
/* #region CREATE */
// TODO: review
// resource creation flow
// should we keep formValues > Resource_1 || Resource_2
// or should we switch to formValues > Composite > Resource_1 || Resource_2
/**
* NOTE: Keep this method flow in sync with `getCreatedApplicationResources` method in the `applicationService` file
* To synchronise with kubernetes resource creation summary output, any new resources created in this method should
* also be displayed in the summary output (getCreatedApplicationResources)
*/
async createAsync(formValues) {
let [app, headlessService, service, claims] = KubernetesApplicationConverter.applicationFormValuesToApplication(formValues);
if (service) {
await this.KubernetesServiceService.create(service);
if (formValues.PublishingType === KubernetesApplicationPublishingTypes.INGRESS) {
const ingresses = KubernetesIngressConverter.applicationFormValuesToIngresses(formValues, service.Name);
await Promise.all(this._generateIngressPatchPromises(formValues.OriginalIngresses, ingresses));
}
}
const apiService = this._getApplicationApiService(app);
if (app instanceof KubernetesStatefulSet) {
app.VolumeClaims = claims;
headlessService = await this.KubernetesServiceService.create(headlessService);
app.ServiceName = headlessService.metadata.name;
} else {
const claimPromises = _.map(claims, (item) => {
if (!item.PreviousName && !item.Id) {
return this.KubernetesPersistentVolumeClaimService.create(item);
}
});
await Promise.all(_.without(claimPromises, undefined));
}
if (formValues.AutoScaler.IsUsed && formValues.DeploymentType !== KubernetesApplicationDeploymentTypes.GLOBAL) {
const kind = KubernetesHorizontalPodAutoScalerHelper.getApplicationTypeString(app);
const autoScaler = KubernetesHorizontalPodAutoScalerConverter.applicationFormValuesToModel(formValues, kind);
await this.KubernetesHorizontalPodAutoScalerService.create(autoScaler);
}
await apiService.create(app);
}
create(formValues) {
return this.$async(this.createAsync, formValues);
}
/* #endregion */
/* #region PATCH */
// this function accepts KubernetesApplicationFormValues as parameters
/**
* NOTE: Keep this method flow in sync with `getUpdatedApplicationResources` method in the `applicationService` file
* To synchronise with kubernetes resource creation, update and delete summary output, any new resources created
* in this method should also be displayed in the summary output (getUpdatedApplicationResources)
*/
async patchAsync(oldFormValues, newFormValues) {
const [oldApp, oldHeadlessService, oldService, oldClaims] = KubernetesApplicationConverter.applicationFormValuesToApplication(oldFormValues);
const [newApp, newHeadlessService, newService, newClaims] = KubernetesApplicationConverter.applicationFormValuesToApplication(newFormValues);
const oldApiService = this._getApplicationApiService(oldApp);
const newApiService = this._getApplicationApiService(newApp);
if (oldApiService !== newApiService) {
await this.delete(oldApp);
if (oldService) {
await this.KubernetesServiceService.delete(oldService);
}
return await this.create(newFormValues);
}
if (newApp instanceof KubernetesStatefulSet) {
await this.KubernetesServiceService.patch(oldHeadlessService, newHeadlessService);
} else {
const claimPromises = _.map(newClaims, (newClaim) => {
if (!newClaim.PreviousName && !newClaim.Id) {
return this.KubernetesPersistentVolumeClaimService.create(newClaim);
} else if (!newClaim.Id) {
const oldClaim = _.find(oldClaims, { Name: newClaim.PreviousName });
return this.KubernetesPersistentVolumeClaimService.patch(oldClaim, newClaim);
}
});
await Promise.all(claimPromises);
}
await newApiService.patch(oldApp, newApp);
if (oldService && newService) {
await this.KubernetesServiceService.patch(oldService, newService);
if (newFormValues.PublishingType === KubernetesApplicationPublishingTypes.INGRESS || oldFormValues.PublishingType === KubernetesApplicationPublishingTypes.INGRESS) {
const oldIngresses = KubernetesIngressConverter.applicationFormValuesToIngresses(oldFormValues, oldService.Name);
const newIngresses = KubernetesIngressConverter.applicationFormValuesToIngresses(newFormValues, newService.Name);
await Promise.all(this._generateIngressPatchPromises(oldIngresses, newIngresses));
}
} else if (!oldService && newService) {
await this.KubernetesServiceService.create(newService);
if (newFormValues.PublishingType === KubernetesApplicationPublishingTypes.INGRESS) {
const ingresses = KubernetesIngressConverter.applicationFormValuesToIngresses(newFormValues, newService.Name);
await Promise.all(this._generateIngressPatchPromises(newFormValues.OriginalIngresses, ingresses));
}
} else if (oldService && !newService) {
await this.KubernetesServiceService.delete(oldService);
if (oldFormValues.PublishingType === KubernetesApplicationPublishingTypes.INGRESS) {
const ingresses = KubernetesIngressConverter.applicationFormValuesToIngresses(newFormValues, oldService.Name);
await Promise.all(this._generateIngressPatchPromises(oldFormValues.OriginalIngresses, ingresses));
}
}
const newKind = KubernetesHorizontalPodAutoScalerHelper.getApplicationTypeString(newApp);
const newAutoScaler = KubernetesHorizontalPodAutoScalerConverter.applicationFormValuesToModel(newFormValues, newKind);
if (!oldFormValues.AutoScaler.IsUsed) {
if (newFormValues.AutoScaler.IsUsed) {
await this.KubernetesHorizontalPodAutoScalerService.create(newAutoScaler);
}
} else {
const oldKind = KubernetesHorizontalPodAutoScalerHelper.getApplicationTypeString(oldApp);
const oldAutoScaler = KubernetesHorizontalPodAutoScalerConverter.applicationFormValuesToModel(oldFormValues, oldKind);
if (newFormValues.AutoScaler.IsUsed) {
await this.KubernetesHorizontalPodAutoScalerService.patch(oldAutoScaler, newAutoScaler);
} else {
await this.KubernetesHorizontalPodAutoScalerService.delete(oldAutoScaler);
}
}
}
// this function accepts KubernetesApplication as parameters
async patchPartialAsync(oldApp, newApp) {
const oldAppPayload = {
Name: oldApp.Name,
Namespace: oldApp.ResourcePool,
StackName: oldApp.StackName,
Note: oldApp.Note,
};
const newAppPayload = {
Name: newApp.Name,
Namespace: newApp.ResourcePool,
StackName: newApp.StackName,
Note: newApp.Note,
};
const apiService = this._getApplicationApiService(oldApp);
await apiService.patch(oldAppPayload, newAppPayload);
}
// accept either formValues or applications as parameters
// depending on partial value
// true = KubernetesApplication
// false = KubernetesApplicationFormValues
patch(oldValues, newValues, partial = false) {
if (partial) {
return this.$async(this.patchPartialAsync, oldValues, newValues);
}
return this.$async(this.patchAsync, oldValues, newValues);
}
/* #endregion */
/* #region DELETE */
async deleteAsync(application) {
const payload = {
Namespace: application.ResourcePool || application.Namespace,
Name: application.Name,
};
const servicePayload = angular.copy(payload);
servicePayload.Name = application.Name;
const apiService = this._getApplicationApiService(application);
await apiService.delete(payload);
if (apiService === this.KubernetesStatefulSetService) {
const headlessServicePayload = angular.copy(payload);
headlessServicePayload.Name = application instanceof KubernetesStatefulSet ? application.ServiceName : application.HeadlessServiceName;
await this.KubernetesServiceService.delete(headlessServicePayload);
}
if (application.ServiceType) {
await this.KubernetesServiceService.delete(servicePayload);
const isIngress = _.filter(application.PublishedPorts, (p) => p.IngressRules.length).length;
if (isIngress) {
const originalIngresses = await this.KubernetesIngressService.get(payload.Namespace);
const formValues = {
OriginalIngresses: originalIngresses,
PublishedPorts: KubernetesApplicationHelper.generatePublishedPortsFormValuesFromPublishedPorts(application.ServiceType, application.PublishedPorts),
};
_.forEach(formValues.PublishedPorts, (p) => (p.NeedsDeletion = true));
const ingresses = KubernetesIngressConverter.applicationFormValuesToIngresses(formValues, servicePayload.Name);
await Promise.all(this._generateIngressPatchPromises(formValues.OriginalIngresses, ingresses));
}
}
if (!_.isEmpty(application.AutoScaler)) {
await this.KubernetesHorizontalPodAutoScalerService.delete(application.AutoScaler);
}
}
delete(application) {
return this.$async(this.deleteAsync, application);
}
/* #endregion */
/* #region ROLLBACK */
async rollbackAsync(application, targetRevision) {
const payload = KubernetesApplicationRollbackHelper.getPatchPayload(application, targetRevision);
const apiService = this._getApplicationApiService(application);
await apiService.rollback(application.ResourcePool, application.Name, payload);
}
rollback(application, targetRevision) {
return this.$async(this.rollbackAsync, application, targetRevision);
}
/* #endregion */
}
export default KubernetesApplicationService;
angular.module('portainer.kubernetes').service('KubernetesApplicationService', KubernetesApplicationService);