package gateway import ( "context" "fmt" "net" "regexp" "strconv" "strings" "github.com/rs/zerolog/log" "github.com/traefik/traefik/v3/pkg/config/dynamic" "github.com/traefik/traefik/v3/pkg/provider" corev1 "k8s.io/api/core/v1" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" ktypes "k8s.io/apimachinery/pkg/types" "k8s.io/utils/ptr" gatev1 "sigs.k8s.io/gateway-api/apis/v1" gatev1alpha2 "sigs.k8s.io/gateway-api/apis/v1alpha2" ) func (p *Provider) loadTLSRoutes(ctx context.Context, gatewayListeners []gatewayListener, conf *dynamic.Configuration) { logger := log.Ctx(ctx) routes, err := p.client.ListTLSRoutes() if err != nil { logger.Error().Err(err).Msgf("Unable to list TLSRoute") return } for _, route := range routes { logger := log.Ctx(ctx).With(). Str("tls_route", route.Name). Str("namespace", route.Namespace).Logger() var parentStatuses []gatev1alpha2.RouteParentStatus for _, parentRef := range route.Spec.ParentRefs { parentStatus := &gatev1alpha2.RouteParentStatus{ ParentRef: parentRef, ControllerName: controllerName, Conditions: []metav1.Condition{ { Type: string(gatev1.RouteConditionAccepted), Status: metav1.ConditionFalse, ObservedGeneration: route.Generation, LastTransitionTime: metav1.Now(), Reason: string(gatev1.RouteReasonNoMatchingParent), }, }, } for _, listener := range gatewayListeners { if !matchListener(listener, route.Namespace, parentRef) { continue } accepted := true if !allowRoute(listener, route.Namespace, kindTLSRoute) { parentStatus.Conditions = updateRouteConditionAccepted(parentStatus.Conditions, string(gatev1.RouteReasonNotAllowedByListeners)) accepted = false } hostnames, ok := findMatchingHostnames(listener.Hostname, route.Spec.Hostnames) if !ok { parentStatus.Conditions = updateRouteConditionAccepted(parentStatus.Conditions, string(gatev1.RouteReasonNoMatchingListenerHostname)) accepted = false } if accepted { listener.Status.AttachedRoutes++ // only consider the route attached if the listener is in an "attached" state. if listener.Attached { parentStatus.Conditions = updateRouteConditionAccepted(parentStatus.Conditions, string(gatev1.RouteReasonAccepted)) } } routeConf, resolveRefCondition := p.loadTLSRoute(listener, route, hostnames) if accepted && listener.Attached { mergeTCPConfiguration(routeConf, conf) } parentStatus.Conditions = upsertRouteConditionResolvedRefs(parentStatus.Conditions, resolveRefCondition) } parentStatuses = append(parentStatuses, *parentStatus) } routeStatus := gatev1alpha2.TLSRouteStatus{ RouteStatus: gatev1alpha2.RouteStatus{ Parents: parentStatuses, }, } if err := p.client.UpdateTLSRouteStatus(ctx, ktypes.NamespacedName{Namespace: route.Namespace, Name: route.Name}, routeStatus); err != nil { logger.Warn(). Err(err). Msg("Unable to update TLSRoute status") } } } func (p *Provider) loadTLSRoute(listener gatewayListener, route *gatev1alpha2.TLSRoute, hostnames []gatev1.Hostname) (*dynamic.Configuration, metav1.Condition) { conf := &dynamic.Configuration{ TCP: &dynamic.TCPConfiguration{ Routers: make(map[string]*dynamic.TCPRouter), Middlewares: make(map[string]*dynamic.TCPMiddleware), Services: make(map[string]*dynamic.TCPService), ServersTransports: make(map[string]*dynamic.TCPServersTransport), }, } condition := metav1.Condition{ Type: string(gatev1.RouteConditionResolvedRefs), Status: metav1.ConditionTrue, ObservedGeneration: route.Generation, LastTransitionTime: metav1.Now(), Reason: string(gatev1.RouteConditionResolvedRefs), } for ri, routeRule := range route.Spec.Rules { if len(routeRule.BackendRefs) == 0 { // Should not happen due to validation. // https://github.com/kubernetes-sigs/gateway-api/blob/v0.4.0/apis/v1alpha2/tlsroute_types.go#L120 continue } router := dynamic.TCPRouter{ RuleSyntax: "v3", Rule: hostSNIRule(hostnames), EntryPoints: []string{listener.EPName}, TLS: &dynamic.RouterTCPTLSConfig{ Passthrough: listener.TLS != nil && listener.TLS.Mode != nil && *listener.TLS.Mode == gatev1.TLSModePassthrough, }, } // Adding the gateway desc and the entryPoint desc prevents overlapping of routers build from the same routes. routeKey := provider.Normalize(fmt.Sprintf("%s-%s-%s-%s-%d", route.Namespace, route.Name, listener.GWName, listener.EPName, ri)) // Routing criteria should be introduced at some point. routerName := makeRouterName("", routeKey) if len(routeRule.BackendRefs) == 1 && isInternalService(routeRule.BackendRefs[0]) { router.Service = string(routeRule.BackendRefs[0].Name) conf.TCP.Routers[routerName] = &router continue } var serviceCondition *metav1.Condition router.Service, serviceCondition = p.loadTLSWRRService(conf, routerName, routeRule.BackendRefs, route) if serviceCondition != nil { condition = *serviceCondition } conf.TCP.Routers[routerName] = &router } return conf, condition } // loadTLSWRRService is generating a WRR service, even when there is only one target. func (p *Provider) loadTLSWRRService(conf *dynamic.Configuration, routeKey string, backendRefs []gatev1.BackendRef, route *gatev1alpha2.TLSRoute) (string, *metav1.Condition) { name := routeKey + "-wrr" if _, ok := conf.TCP.Services[name]; ok { return name, nil } var wrr dynamic.TCPWeightedRoundRobin var condition *metav1.Condition for _, backendRef := range backendRefs { svcName, svc, errCondition := p.loadTLSService(route, backendRef) weight := ptr.To(int(ptr.Deref(backendRef.Weight, 1))) if errCondition != nil { condition = errCondition errName := routeKey + "-err-lb" conf.TCP.Services[errName] = &dynamic.TCPService{ LoadBalancer: &dynamic.TCPServersLoadBalancer{ Servers: []dynamic.TCPServer{}, }, } wrr.Services = append(wrr.Services, dynamic.TCPWRRService{ Name: errName, Weight: weight, }) continue } if svc != nil { conf.TCP.Services[svcName] = svc } wrr.Services = append(wrr.Services, dynamic.TCPWRRService{ Name: svcName, Weight: weight, }) } conf.TCP.Services[name] = &dynamic.TCPService{Weighted: &wrr} return name, condition } func (p *Provider) loadTLSService(route *gatev1alpha2.TLSRoute, backendRef gatev1.BackendRef) (string, *dynamic.TCPService, *metav1.Condition) { kind := ptr.Deref(backendRef.Kind, kindService) group := groupCore if backendRef.Group != nil && *backendRef.Group != "" { group = string(*backendRef.Group) } namespace := route.Namespace if backendRef.Namespace != nil && *backendRef.Namespace != "" { namespace = string(*backendRef.Namespace) } serviceName := provider.Normalize(namespace + "-" + string(backendRef.Name)) if err := p.isReferenceGranted(kindTLSRoute, route.Namespace, group, string(kind), string(backendRef.Name), namespace); err != nil { return serviceName, nil, &metav1.Condition{ Type: string(gatev1.RouteConditionResolvedRefs), Status: metav1.ConditionFalse, ObservedGeneration: route.Generation, LastTransitionTime: metav1.Now(), Reason: string(gatev1.RouteReasonRefNotPermitted), Message: fmt.Sprintf("Cannot load TLSRoute BackendRef %s/%s/%s/%s: %s", group, kind, namespace, backendRef.Name, err), } } if group != groupCore || kind != kindService { name, err := p.loadTCPBackendRef(backendRef) if err != nil { return serviceName, nil, &metav1.Condition{ Type: string(gatev1.RouteConditionResolvedRefs), Status: metav1.ConditionFalse, ObservedGeneration: route.Generation, LastTransitionTime: metav1.Now(), Reason: string(gatev1.RouteReasonInvalidKind), Message: fmt.Sprintf("Cannot load TLSRoute BackendRef %s/%s/%s/%s: %s", group, kind, namespace, backendRef.Name, err), } } return name, nil, nil } port := ptr.Deref(backendRef.Port, gatev1.PortNumber(0)) if port == 0 { return serviceName, nil, &metav1.Condition{ Type: string(gatev1.RouteConditionResolvedRefs), Status: metav1.ConditionFalse, ObservedGeneration: route.Generation, LastTransitionTime: metav1.Now(), Reason: string(gatev1.RouteReasonUnsupportedProtocol), Message: fmt.Sprintf("Cannot load TLSRoute BackendRef %s/%s/%s/%s port is required", group, kind, namespace, backendRef.Name), } } portStr := strconv.FormatInt(int64(port), 10) serviceName = provider.Normalize(serviceName + "-" + portStr) lb, errCondition := p.loadTLSServers(namespace, route, backendRef) if errCondition != nil { return serviceName, nil, errCondition } return serviceName, &dynamic.TCPService{LoadBalancer: lb}, nil } func (p *Provider) loadTLSServers(namespace string, route *gatev1alpha2.TLSRoute, backendRef gatev1.BackendRef) (*dynamic.TCPServersLoadBalancer, *metav1.Condition) { backendAddresses, svcPort, err := p.getBackendAddresses(namespace, backendRef) if err != nil { return nil, &metav1.Condition{ Type: string(gatev1.RouteConditionResolvedRefs), Status: metav1.ConditionFalse, ObservedGeneration: route.GetGeneration(), LastTransitionTime: metav1.Now(), Reason: string(gatev1.RouteReasonBackendNotFound), Message: fmt.Sprintf("Cannot load TLSRoute BackendRef %s/%s: %s", namespace, backendRef.Name, err), } } if svcPort.Protocol != corev1.ProtocolTCP { return nil, &metav1.Condition{ Type: string(gatev1.RouteConditionResolvedRefs), Status: metav1.ConditionFalse, ObservedGeneration: route.GetGeneration(), LastTransitionTime: metav1.Now(), Reason: string(gatev1.RouteReasonUnsupportedProtocol), Message: fmt.Sprintf("Cannot load TLSRoute BackendRef %s/%s: only TCP protocol is supported", namespace, backendRef.Name), } } lb := &dynamic.TCPServersLoadBalancer{} for _, ba := range backendAddresses { lb.Servers = append(lb.Servers, dynamic.TCPServer{ // TODO determine whether the servers needs TLS, from the port? Address: net.JoinHostPort(ba.Address, strconv.Itoa(int(ba.Port))), }) } return lb, nil } func hostSNIRule(hostnames []gatev1.Hostname) string { rules := make([]string, 0, len(hostnames)) uniqHostnames := map[gatev1.Hostname]struct{}{} for _, hostname := range hostnames { if len(hostname) == 0 { continue } if _, exists := uniqHostnames[hostname]; exists { continue } host := string(hostname) uniqHostnames[hostname] = struct{}{} wildcard := strings.Count(host, "*") if wildcard == 0 { rules = append(rules, fmt.Sprintf("HostSNI(`%s`)", host)) continue } host = strings.Replace(regexp.QuoteMeta(host), `\*\.`, `[a-z0-9-\.]+\.`, 1) rules = append(rules, fmt.Sprintf("HostSNIRegexp(`^%s$`)", host)) } if len(hostnames) == 0 || len(rules) == 0 { return "HostSNI(`*`)" } return strings.Join(rules, " || ") }