portainer/app/kubernetes/ingress/converter.js

166 lines
6.7 KiB
JavaScript

import * as _ from 'lodash-es';
import * as JsonPatch from 'fast-json-patch';
import KubernetesCommonHelper from 'Kubernetes/helpers/commonHelper';
import { KubernetesResourcePoolIngressClassAnnotationFormValue, KubernetesResourcePoolIngressClassFormValue } from 'Kubernetes/models/resource-pool/formValues';
import { KubernetesIngress, KubernetesIngressRule } from './models';
import { KubernetesIngressCreatePayload, KubernetesIngressRuleCreatePayload, KubernetesIngressRulePathCreatePayload } from './payloads';
import { KubernetesIngressClassAnnotation, KubernetesIngressClassRewriteTargetAnnotations } from './constants';
export class KubernetesIngressConverter {
// TODO: refactor @LP
// currently only allows the first non-empty host to be used as the "configured" host.
// As we currently only allow a single host to be used for a Portianer-managed ingress
// it's working as the only non-empty host will be the one defined by the admin
// but it will take a random existing host for non Portainer ingresses (CLI deployed)
// Also won't support multiple hosts if we make it available in the future
static apiToModel(data) {
let host = undefined;
const paths = _.flatMap(data.spec.rules, (rule) => {
host = host || rule.host; // TODO: refactor @LP - read above
return !rule.http
? []
: _.map(rule.http.paths, (path) => {
const ingRule = new KubernetesIngressRule();
ingRule.IngressName = data.metadata.name;
ingRule.ServiceName = path.backend.serviceName;
ingRule.Host = rule.host || '';
ingRule.IP = data.status.loadBalancer.ingress ? data.status.loadBalancer.ingress[0].ip : undefined;
ingRule.Port = path.backend.servicePort;
ingRule.Path = path.path;
return ingRule;
});
});
const res = new KubernetesIngress();
res.Name = data.metadata.name;
res.Namespace = data.metadata.namespace;
res.Annotations = data.metadata.annotations || {};
res.IngressClassName =
data.metadata.annotations && data.metadata.annotations[KubernetesIngressClassAnnotation]
? data.metadata.annotations[KubernetesIngressClassAnnotation]
: data.spec.ingressClassName;
res.Paths = paths;
res.Host = host;
return res;
}
static applicationFormValuesToIngresses(formValues, serviceName) {
const ingresses = angular.copy(formValues.OriginalIngresses);
_.forEach(formValues.PublishedPorts, (p) => {
const ingress = _.find(ingresses, { Name: p.IngressName });
if (ingress && p.NeedsDeletion) {
const path = _.find(ingress.Paths, { Port: p.ContainerPort, ServiceName: serviceName, Path: p.IngressRoute });
_.remove(ingress.Paths, path);
} else if (ingress && p.IsNew) {
const rule = new KubernetesIngressRule();
rule.IngressName = ingress.Name;
rule.ServiceName = serviceName;
rule.Port = p.ContainerPort;
rule.Path = _.startsWith(p.IngressRoute, '/') ? p.IngressRoute : '/' + p.IngressRoute;
rule.Host = p.IngressHost;
ingress.Paths.push(rule);
}
});
return ingresses;
}
/**
*
* @param {KubernetesResourcePoolIngressClassFormValue} formValues
*/
static resourcePoolIngressClassFormValueToIngress(formValues) {
const res = new KubernetesIngress();
res.Name = formValues.IngressClass.Name;
res.Namespace = formValues.Namespace;
const pairs = _.map(formValues.Annotations, (a) => [a.Key, a.Value]);
res.Annotations = _.fromPairs(pairs);
if (formValues.RewriteTarget) {
_.extend(res.Annotations, KubernetesIngressClassRewriteTargetAnnotations[formValues.IngressClass.Type]);
}
res.Annotations[KubernetesIngressClassAnnotation] = formValues.IngressClass.Name;
res.Host = formValues.Host;
return res;
}
/**
*
* @param {KubernetesIngressClass} ics Ingress classes (saved in Portainer DB)
* @param {KubernetesIngress} ingresses Existing Kubernetes ingresses. Must be empty for RP CREATE VIEW and passed for RP EDIT VIEW
*/
static ingressClassesToFormValues(ics, ingresses) {
const res = _.map(ics, (ic) => {
const fv = new KubernetesResourcePoolIngressClassFormValue();
fv.IngressClass = ic;
const ingress = _.find(ingresses, { Name: ic.Name });
if (ingress) {
fv.Selected = true;
fv.WasSelected = true;
fv.Host = ingress.Host;
const [[rewriteKey]] = _.toPairs(KubernetesIngressClassRewriteTargetAnnotations[ic.Type]);
const annotations = _.map(_.toPairs(ingress.Annotations), ([key, value]) => {
if (key === rewriteKey) {
fv.RewriteTarget = true;
} else if (key !== KubernetesIngressClassAnnotation) {
const annotation = new KubernetesResourcePoolIngressClassAnnotationFormValue();
annotation.Key = key;
annotation.Value = value;
return annotation;
}
});
fv.Annotations = _.without(annotations, undefined);
fv.AdvancedConfig = fv.Annotations.length > 0;
}
return fv;
});
return res;
}
static createPayload(data) {
const res = new KubernetesIngressCreatePayload();
res.metadata.name = data.Name;
res.metadata.namespace = data.Namespace;
res.metadata.annotations = data.Annotations;
if (data.Paths && data.Paths.length) {
_.forEach(data.Paths, (p) => {
if (p.Host === 'undefined' || p.Host === undefined) {
p.Host = '';
}
});
const groups = _.groupBy(data.Paths, 'Host');
const rules = _.map(groups, (paths, host) => {
const rule = new KubernetesIngressRuleCreatePayload();
if (host === 'undefined' || _.isEmpty(host)) {
host = data.Host;
}
if (host === data.PreviousHost && host !== data.Host) {
host = data.Host;
}
KubernetesCommonHelper.assignOrDeleteIfEmpty(rule, 'host', host);
rule.http.paths = _.map(paths, (p) => {
const path = new KubernetesIngressRulePathCreatePayload();
path.path = p.Path;
path.backend.serviceName = p.ServiceName;
path.backend.servicePort = p.Port;
return path;
});
return rule;
});
KubernetesCommonHelper.assignOrDeleteIfEmpty(res, 'spec.rules', rules);
} else if (data.Host) {
res.spec.rules = [{ host: data.Host }];
} else {
delete res.spec.rules;
}
return res;
}
static patchPayload(oldData, newData) {
const oldPayload = KubernetesIngressConverter.createPayload(oldData);
const newPayload = KubernetesIngressConverter.createPayload(newData);
const payload = JsonPatch.compare(oldPayload, newPayload);
return payload;
}
}