//go:build windows // +build windows /* Copyright 2021 The Kubernetes Authors. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package winkernel import ( "fmt" "net" "strings" "testing" "time" v1 "k8s.io/api/core/v1" discovery "k8s.io/api/discovery/v1" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/types" "k8s.io/apimachinery/pkg/util/intstr" "k8s.io/kubernetes/pkg/proxy" "k8s.io/kubernetes/pkg/proxy/healthcheck" netutils "k8s.io/utils/net" utilpointer "k8s.io/utils/pointer" ) const ( testHostName = "test-hostname" macAddress = "00-11-22-33-44-55" clusterCIDR = "192.168.1.0/24" destinationPrefix = "192.168.2.0/24" providerAddress = "10.0.0.3" guid = "123ABC" ) type fakeHNS struct{} func newFakeHNS() *fakeHNS { return &fakeHNS{} } func (hns fakeHNS) getNetworkByName(name string) (*hnsNetworkInfo, error) { var remoteSubnets []*remoteSubnetInfo rs := &remoteSubnetInfo{ destinationPrefix: destinationPrefix, isolationID: 4096, providerAddress: providerAddress, drMacAddress: macAddress, } remoteSubnets = append(remoteSubnets, rs) return &hnsNetworkInfo{ id: strings.ToUpper(guid), name: name, networkType: NETWORK_TYPE_OVERLAY, remoteSubnets: remoteSubnets, }, nil } func (hns fakeHNS) getEndpointByID(id string) (*endpointsInfo, error) { return nil, nil } func (hns fakeHNS) getEndpointByName(name string) (*endpointsInfo, error) { return &endpointsInfo{ isLocal: true, macAddress: macAddress, hnsID: guid, hns: hns, }, nil } func (hns fakeHNS) getEndpointByIpAddress(ip string, networkName string) (*endpointsInfo, error) { _, ipNet, _ := netutils.ParseCIDRSloppy(destinationPrefix) if ipNet.Contains(netutils.ParseIPSloppy(ip)) { return &endpointsInfo{ ip: ip, isLocal: false, macAddress: macAddress, hnsID: guid, hns: hns, }, nil } return nil, nil } func (hns fakeHNS) createEndpoint(ep *endpointsInfo, networkName string) (*endpointsInfo, error) { return &endpointsInfo{ ip: ep.ip, isLocal: ep.isLocal, macAddress: ep.macAddress, hnsID: guid, hns: hns, }, nil } func (hns fakeHNS) deleteEndpoint(hnsID string) error { return nil } func (hns fakeHNS) getLoadBalancer(endpoints []endpointsInfo, flags loadBalancerFlags, sourceVip string, vip string, protocol uint16, internalPort uint16, externalPort uint16) (*loadBalancerInfo, error) { return &loadBalancerInfo{ hnsID: guid, }, nil } func (hns fakeHNS) deleteLoadBalancer(hnsID string) error { return nil } func NewFakeProxier(syncPeriod time.Duration, minSyncPeriod time.Duration, clusterCIDR string, hostname string, nodeIP net.IP, networkType string) *Proxier { sourceVip := "192.168.1.2" hnsNetworkInfo := &hnsNetworkInfo{ id: strings.ToUpper(guid), name: "TestNetwork", networkType: networkType, } proxier := &Proxier{ serviceMap: make(proxy.ServiceMap), endpointsMap: make(proxy.EndpointsMap), clusterCIDR: clusterCIDR, hostname: testHostName, nodeIP: nodeIP, serviceHealthServer: healthcheck.NewFakeServiceHealthServer(), network: *hnsNetworkInfo, sourceVip: sourceVip, hostMac: macAddress, isDSR: false, hns: newFakeHNS(), endPointsRefCount: make(endPointsReferenceCountMap), } serviceChanges := proxy.NewServiceChangeTracker(proxier.newServiceInfo, v1.IPv4Protocol, nil, proxier.serviceMapChange) endpointChangeTracker := proxy.NewEndpointChangeTracker(hostname, proxier.newEndpointInfo, v1.IPv4Protocol, nil, proxier.endpointsMapChange) proxier.endpointsChanges = endpointChangeTracker proxier.serviceChanges = serviceChanges return proxier } func TestCreateServiceVip(t *testing.T) { syncPeriod := 30 * time.Second proxier := NewFakeProxier(syncPeriod, syncPeriod, clusterCIDR, "testhost", netutils.ParseIPSloppy("10.0.0.1"), NETWORK_TYPE_OVERLAY) if proxier == nil { t.Error() } svcIP := "10.20.30.41" svcPort := 80 svcNodePort := 3001 svcExternalIPs := "50.60.70.81" svcPortName := proxy.ServicePortName{ NamespacedName: makeNSN("ns1", "svc1"), Port: "p80", Protocol: v1.ProtocolTCP, } timeoutSeconds := v1.DefaultClientIPServiceAffinitySeconds makeServiceMap(proxier, makeTestService(svcPortName.Namespace, svcPortName.Name, func(svc *v1.Service) { svc.Spec.Type = "NodePort" svc.Spec.ClusterIP = svcIP svc.Spec.ExternalIPs = []string{svcExternalIPs} svc.Spec.SessionAffinity = v1.ServiceAffinityClientIP svc.Spec.SessionAffinityConfig = &v1.SessionAffinityConfig{ ClientIP: &v1.ClientIPConfig{ TimeoutSeconds: &timeoutSeconds, }, } svc.Spec.Ports = []v1.ServicePort{{ Name: svcPortName.Port, Port: int32(svcPort), Protocol: v1.ProtocolTCP, NodePort: int32(svcNodePort), }} }), ) proxier.setInitialized(true) proxier.syncProxyRules() svc := proxier.serviceMap[svcPortName] svcInfo, ok := svc.(*serviceInfo) if !ok { t.Errorf("Failed to cast serviceInfo %q", svcPortName.String()) } else { if svcInfo.remoteEndpoint == nil { t.Error() } if svcInfo.remoteEndpoint.ip != svcIP { t.Error() } } } func TestCreateRemoteEndpointOverlay(t *testing.T) { syncPeriod := 30 * time.Second proxier := NewFakeProxier(syncPeriod, syncPeriod, clusterCIDR, "testhost", netutils.ParseIPSloppy("10.0.0.1"), NETWORK_TYPE_OVERLAY) if proxier == nil { t.Error() } svcIP := "10.20.30.41" svcPort := 80 svcNodePort := 3001 svcPortName := proxy.ServicePortName{ NamespacedName: makeNSN("ns1", "svc1"), Port: "p80", Protocol: v1.ProtocolTCP, } tcpProtocol := v1.ProtocolTCP makeServiceMap(proxier, makeTestService(svcPortName.Namespace, svcPortName.Name, func(svc *v1.Service) { svc.Spec.Type = "NodePort" svc.Spec.ClusterIP = svcIP svc.Spec.Ports = []v1.ServicePort{{ Name: svcPortName.Port, Port: int32(svcPort), Protocol: v1.ProtocolTCP, NodePort: int32(svcNodePort), }} }), ) populateEndpointSlices(proxier, makeTestEndpointSlice(svcPortName.Namespace, svcPortName.Name, 1, func(eps *discovery.EndpointSlice) { eps.AddressType = discovery.AddressTypeIPv4 eps.Endpoints = []discovery.Endpoint{{ Addresses: []string{epIpAddressRemote}, }} eps.Ports = []discovery.EndpointPort{{ Name: utilpointer.StringPtr(svcPortName.Port), Port: utilpointer.Int32(int32(svcPort)), Protocol: &tcpProtocol, }} }), ) proxier.setInitialized(true) proxier.syncProxyRules() ep := proxier.endpointsMap[svcPortName][0] epInfo, ok := ep.(*endpointsInfo) if !ok { t.Errorf("Failed to cast endpointsInfo %q", svcPortName.String()) } else { if epInfo.hnsID != guid { t.Errorf("%v does not match %v", epInfo.hnsID, guid) } } if *proxier.endPointsRefCount[guid] <= 0 { t.Errorf("RefCount not incremented. Current value: %v", *proxier.endPointsRefCount[guid]) } if *proxier.endPointsRefCount[guid] != *epInfo.refCount { t.Errorf("Global refCount: %v does not match endpoint refCount: %v", *proxier.endPointsRefCount[guid], *epInfo.refCount) } } func TestCreateRemoteEndpointL2Bridge(t *testing.T) { syncPeriod := 30 * time.Second proxier := NewFakeProxier(syncPeriod, syncPeriod, clusterCIDR, "testhost", netutils.ParseIPSloppy("10.0.0.1"), "L2Bridge") if proxier == nil { t.Error() } tcpProtocol := v1.ProtocolTCP svcIP := "10.20.30.41" svcPort := 80 svcNodePort := 3001 svcPortName := proxy.ServicePortName{ NamespacedName: makeNSN("ns1", "svc1"), Port: "p80", Protocol: tcpProtocol, } makeServiceMap(proxier, makeTestService(svcPortName.Namespace, svcPortName.Name, func(svc *v1.Service) { svc.Spec.Type = "NodePort" svc.Spec.ClusterIP = svcIP svc.Spec.Ports = []v1.ServicePort{{ Name: svcPortName.Port, Port: int32(svcPort), Protocol: tcpProtocol, NodePort: int32(svcNodePort), }} }), ) populateEndpointSlices(proxier, makeTestEndpointSlice(svcPortName.Namespace, svcPortName.Name, 1, func(eps *discovery.EndpointSlice) { eps.AddressType = discovery.AddressTypeIPv4 eps.Endpoints = []discovery.Endpoint{{ Addresses: []string{epIpAddressRemote}, }} eps.Ports = []discovery.EndpointPort{{ Name: utilpointer.String(svcPortName.Port), Port: utilpointer.Int32(int32(svcPort)), Protocol: &tcpProtocol, }} }), ) proxier.setInitialized(true) proxier.syncProxyRules() ep := proxier.endpointsMap[svcPortName][0] epInfo, ok := ep.(*endpointsInfo) if !ok { t.Errorf("Failed to cast endpointsInfo %q", svcPortName.String()) } else { if epInfo.hnsID != guid { t.Errorf("%v does not match %v", epInfo.hnsID, guid) } } if *proxier.endPointsRefCount[guid] <= 0 { t.Errorf("RefCount not incremented. Current value: %v", *proxier.endPointsRefCount[guid]) } if *proxier.endPointsRefCount[guid] != *epInfo.refCount { t.Errorf("Global refCount: %v does not match endpoint refCount: %v", *proxier.endPointsRefCount[guid], *epInfo.refCount) } } func TestSharedRemoteEndpointDelete(t *testing.T) { syncPeriod := 30 * time.Second tcpProtocol := v1.ProtocolTCP proxier := NewFakeProxier(syncPeriod, syncPeriod, clusterCIDR, "testhost", netutils.ParseIPSloppy("10.0.0.1"), "L2Bridge") if proxier == nil { t.Error() } svcIP1 := "10.20.30.41" svcPort1 := 80 svcNodePort1 := 3001 svcPortName1 := proxy.ServicePortName{ NamespacedName: makeNSN("ns1", "svc1"), Port: "p80", Protocol: v1.ProtocolTCP, } svcIP2 := "10.20.30.42" svcPort2 := 80 svcNodePort2 := 3002 svcPortName2 := proxy.ServicePortName{ NamespacedName: makeNSN("ns1", "svc2"), Port: "p80", Protocol: v1.ProtocolTCP, } makeServiceMap(proxier, makeTestService(svcPortName1.Namespace, svcPortName1.Name, func(svc *v1.Service) { svc.Spec.Type = "NodePort" svc.Spec.ClusterIP = svcIP1 svc.Spec.Ports = []v1.ServicePort{{ Name: svcPortName1.Port, Port: int32(svcPort1), Protocol: v1.ProtocolTCP, NodePort: int32(svcNodePort1), }} }), makeTestService(svcPortName2.Namespace, svcPortName2.Name, func(svc *v1.Service) { svc.Spec.Type = "NodePort" svc.Spec.ClusterIP = svcIP2 svc.Spec.Ports = []v1.ServicePort{{ Name: svcPortName2.Port, Port: int32(svcPort2), Protocol: v1.ProtocolTCP, NodePort: int32(svcNodePort2), }} }), ) populateEndpointSlices(proxier, makeTestEndpointSlice(svcPortName1.Namespace, svcPortName1.Name, 1, func(eps *discovery.EndpointSlice) { eps.AddressType = discovery.AddressTypeIPv4 eps.Endpoints = []discovery.Endpoint{{ Addresses: []string{epIpAddressRemote}, }} eps.Ports = []discovery.EndpointPort{{ Name: utilpointer.StringPtr(svcPortName1.Port), Port: utilpointer.Int32(int32(svcPort1)), Protocol: &tcpProtocol, }} }), makeTestEndpointSlice(svcPortName2.Namespace, svcPortName2.Name, 1, func(eps *discovery.EndpointSlice) { eps.AddressType = discovery.AddressTypeIPv4 eps.Endpoints = []discovery.Endpoint{{ Addresses: []string{epIpAddressRemote}, }} eps.Ports = []discovery.EndpointPort{{ Name: utilpointer.StringPtr(svcPortName2.Port), Port: utilpointer.Int32(int32(svcPort2)), Protocol: &tcpProtocol, }} }), ) proxier.setInitialized(true) proxier.syncProxyRules() ep := proxier.endpointsMap[svcPortName1][0] epInfo, ok := ep.(*endpointsInfo) if !ok { t.Errorf("Failed to cast endpointsInfo %q", svcPortName1.String()) } else { if epInfo.hnsID != guid { t.Errorf("%v does not match %v", epInfo.hnsID, guid) } } if *proxier.endPointsRefCount[guid] != 2 { t.Errorf("RefCount not incremented. Current value: %v", *proxier.endPointsRefCount[guid]) } if *proxier.endPointsRefCount[guid] != *epInfo.refCount { t.Errorf("Global refCount: %v does not match endpoint refCount: %v", *proxier.endPointsRefCount[guid], *epInfo.refCount) } proxier.setInitialized(false) deleteServices(proxier, makeTestService(svcPortName2.Namespace, svcPortName2.Name, func(svc *v1.Service) { svc.Spec.Type = "NodePort" svc.Spec.ClusterIP = svcIP2 svc.Spec.Ports = []v1.ServicePort{{ Name: svcPortName2.Port, Port: int32(svcPort2), Protocol: v1.ProtocolTCP, NodePort: int32(svcNodePort2), }} }), ) deleteEndpointSlices(proxier, makeTestEndpointSlice(svcPortName2.Namespace, svcPortName2.Name, 1, func(eps *discovery.EndpointSlice) { eps.AddressType = discovery.AddressTypeIPv4 eps.Endpoints = []discovery.Endpoint{{ Addresses: []string{epIpAddressRemote}, }} eps.Ports = []discovery.EndpointPort{{ Name: utilpointer.StringPtr(svcPortName2.Port), Port: utilpointer.Int32(int32(svcPort2)), Protocol: &tcpProtocol, }} }), ) proxier.setInitialized(true) proxier.syncProxyRules() ep = proxier.endpointsMap[svcPortName1][0] epInfo, ok = ep.(*endpointsInfo) if !ok { t.Errorf("Failed to cast endpointsInfo %q", svcPortName1.String()) } else { if epInfo.hnsID != guid { t.Errorf("%v does not match %v", epInfo.hnsID, guid) } } if *epInfo.refCount != 1 { t.Errorf("Incorrect Refcount. Current value: %v", *epInfo.refCount) } if *proxier.endPointsRefCount[guid] != *epInfo.refCount { t.Errorf("Global refCount: %v does not match endpoint refCount: %v", *proxier.endPointsRefCount[guid], *epInfo.refCount) } } func TestSharedRemoteEndpointUpdate(t *testing.T) { syncPeriod := 30 * time.Second proxier := NewFakeProxier(syncPeriod, syncPeriod, clusterCIDR, "testhost", netutils.ParseIPSloppy("10.0.0.1"), "L2Bridge") if proxier == nil { t.Error() } svcIP1 := "10.20.30.41" svcPort1 := 80 svcNodePort1 := 3001 svcPortName1 := proxy.ServicePortName{ NamespacedName: makeNSN("ns1", "svc1"), Port: "p80", Protocol: v1.ProtocolTCP, } svcIP2 := "10.20.30.42" svcPort2 := 80 svcNodePort2 := 3002 svcPortName2 := proxy.ServicePortName{ NamespacedName: makeNSN("ns1", "svc2"), Port: "p80", Protocol: v1.ProtocolTCP, } makeServiceMap(proxier, makeTestService(svcPortName1.Namespace, svcPortName1.Name, func(svc *v1.Service) { svc.Spec.Type = "NodePort" svc.Spec.ClusterIP = svcIP1 svc.Spec.Ports = []v1.ServicePort{{ Name: svcPortName1.Port, Port: int32(svcPort1), Protocol: v1.ProtocolTCP, NodePort: int32(svcNodePort1), }} }), makeTestService(svcPortName2.Namespace, svcPortName2.Name, func(svc *v1.Service) { svc.Spec.Type = "NodePort" svc.Spec.ClusterIP = svcIP2 svc.Spec.Ports = []v1.ServicePort{{ Name: svcPortName2.Port, Port: int32(svcPort2), Protocol: v1.ProtocolTCP, NodePort: int32(svcNodePort2), }} }), ) tcpProtocol := v1.ProtocolTCP populateEndpointSlices(proxier, makeTestEndpointSlice(svcPortName1.Namespace, svcPortName1.Name, 1, func(eps *discovery.EndpointSlice) { eps.AddressType = discovery.AddressTypeIPv4 eps.Endpoints = []discovery.Endpoint{{ Addresses: []string{epIpAddressRemote}, }} eps.Ports = []discovery.EndpointPort{{ Name: utilpointer.StringPtr(svcPortName1.Port), Port: utilpointer.Int32(int32(svcPort1)), Protocol: &tcpProtocol, }} }), makeTestEndpointSlice(svcPortName2.Namespace, svcPortName2.Name, 1, func(eps *discovery.EndpointSlice) { eps.AddressType = discovery.AddressTypeIPv4 eps.Endpoints = []discovery.Endpoint{{ Addresses: []string{epIpAddressRemote}, }} eps.Ports = []discovery.EndpointPort{{ Name: utilpointer.StringPtr(svcPortName2.Port), Port: utilpointer.Int32(int32(svcPort2)), Protocol: &tcpProtocol, }} }), ) proxier.setInitialized(true) proxier.syncProxyRules() ep := proxier.endpointsMap[svcPortName1][0] epInfo, ok := ep.(*endpointsInfo) if !ok { t.Errorf("Failed to cast endpointsInfo %q", svcPortName1.String()) } else { if epInfo.hnsID != guid { t.Errorf("%v does not match %v", epInfo.hnsID, guid) } } if *proxier.endPointsRefCount[guid] != 2 { t.Errorf("RefCount not incremented. Current value: %v", *proxier.endPointsRefCount[guid]) } if *proxier.endPointsRefCount[guid] != *epInfo.refCount { t.Errorf("Global refCount: %v does not match endpoint refCount: %v", *proxier.endPointsRefCount[guid], *epInfo.refCount) } proxier.setInitialized(false) proxier.OnServiceUpdate( makeTestService(svcPortName1.Namespace, svcPortName1.Name, func(svc *v1.Service) { svc.Spec.Type = "NodePort" svc.Spec.ClusterIP = svcIP1 svc.Spec.Ports = []v1.ServicePort{{ Name: svcPortName1.Port, Port: int32(svcPort1), Protocol: v1.ProtocolTCP, NodePort: int32(svcNodePort1), }} }), makeTestService(svcPortName1.Namespace, svcPortName1.Name, func(svc *v1.Service) { svc.Spec.Type = "NodePort" svc.Spec.ClusterIP = svcIP1 svc.Spec.Ports = []v1.ServicePort{{ Name: svcPortName1.Port, Port: int32(svcPort1), Protocol: v1.ProtocolTCP, NodePort: int32(3003), }} })) proxier.OnEndpointSliceUpdate( makeTestEndpointSlice(svcPortName1.Namespace, svcPortName1.Name, 1, func(eps *discovery.EndpointSlice) { eps.AddressType = discovery.AddressTypeIPv4 eps.Endpoints = []discovery.Endpoint{{ Addresses: []string{epIpAddressRemote}, }} eps.Ports = []discovery.EndpointPort{{ Name: utilpointer.StringPtr(svcPortName1.Port), Port: utilpointer.Int32(int32(svcPort1)), Protocol: &tcpProtocol, }} }), makeTestEndpointSlice(svcPortName1.Namespace, svcPortName1.Name, 1, func(eps *discovery.EndpointSlice) { eps.AddressType = discovery.AddressTypeIPv4 eps.Endpoints = []discovery.Endpoint{{ Addresses: []string{epIpAddressRemote}, }} eps.Ports = []discovery.EndpointPort{{ Name: utilpointer.StringPtr(svcPortName1.Port), Port: utilpointer.Int32(int32(svcPort1)), Protocol: &tcpProtocol, }, { Name: utilpointer.StringPtr("p443"), Port: utilpointer.Int32(int32(443)), Protocol: &tcpProtocol, }} })) proxier.mu.Lock() proxier.endpointSlicesSynced = true proxier.mu.Unlock() proxier.setInitialized(true) proxier.syncProxyRules() ep = proxier.endpointsMap[svcPortName1][0] epInfo, ok = ep.(*endpointsInfo) if !ok { t.Errorf("Failed to cast endpointsInfo %q", svcPortName1.String()) } else { if epInfo.hnsID != guid { t.Errorf("%v does not match %v", epInfo.hnsID, guid) } } if *epInfo.refCount != 2 { t.Errorf("Incorrect refcount. Current value: %v", *epInfo.refCount) } if *proxier.endPointsRefCount[guid] != *epInfo.refCount { t.Errorf("Global refCount: %v does not match endpoint refCount: %v", *proxier.endPointsRefCount[guid], *epInfo.refCount) } } func TestCreateLoadBalancer(t *testing.T) { syncPeriod := 30 * time.Second tcpProtocol := v1.ProtocolTCP proxier := NewFakeProxier(syncPeriod, syncPeriod, clusterCIDR, "testhost", netutils.ParseIPSloppy("10.0.0.1"), NETWORK_TYPE_OVERLAY) if proxier == nil { t.Error() } svcIP := "10.20.30.41" svcPort := 80 svcNodePort := 3001 svcPortName := proxy.ServicePortName{ NamespacedName: makeNSN("ns1", "svc1"), Port: "p80", Protocol: v1.ProtocolTCP, } makeServiceMap(proxier, makeTestService(svcPortName.Namespace, svcPortName.Name, func(svc *v1.Service) { svc.Spec.Type = "NodePort" svc.Spec.ClusterIP = svcIP svc.Spec.Ports = []v1.ServicePort{{ Name: svcPortName.Port, Port: int32(svcPort), Protocol: v1.ProtocolTCP, NodePort: int32(svcNodePort), }} }), ) populateEndpointSlices(proxier, makeTestEndpointSlice(svcPortName.Namespace, svcPortName.Name, 1, func(eps *discovery.EndpointSlice) { eps.AddressType = discovery.AddressTypeIPv4 eps.Endpoints = []discovery.Endpoint{{ Addresses: []string{epIpAddressRemote}, }} eps.Ports = []discovery.EndpointPort{{ Name: utilpointer.StringPtr(svcPortName.Port), Port: utilpointer.Int32(int32(svcPort)), Protocol: &tcpProtocol, }} }), ) proxier.setInitialized(true) proxier.syncProxyRules() svc := proxier.serviceMap[svcPortName] svcInfo, ok := svc.(*serviceInfo) if !ok { t.Errorf("Failed to cast serviceInfo %q", svcPortName.String()) } else { if svcInfo.hnsID != guid { t.Errorf("%v does not match %v", svcInfo.hnsID, guid) } } } func TestCreateDsrLoadBalancer(t *testing.T) { syncPeriod := 30 * time.Second proxier := NewFakeProxier(syncPeriod, syncPeriod, clusterCIDR, "testhost", netutils.ParseIPSloppy("10.0.0.1"), NETWORK_TYPE_OVERLAY) if proxier == nil { t.Error() } svcIP := "10.20.30.41" svcPort := 80 svcNodePort := 3001 svcPortName := proxy.ServicePortName{ NamespacedName: makeNSN("ns1", "svc1"), Port: "p80", Protocol: v1.ProtocolTCP, } lbIP := "11.21.31.41" makeServiceMap(proxier, makeTestService(svcPortName.Namespace, svcPortName.Name, func(svc *v1.Service) { svc.Spec.Type = "NodePort" svc.Spec.ClusterIP = svcIP svc.Spec.ExternalTrafficPolicy = v1.ServiceExternalTrafficPolicyTypeLocal svc.Spec.Ports = []v1.ServicePort{{ Name: svcPortName.Port, Port: int32(svcPort), Protocol: v1.ProtocolTCP, NodePort: int32(svcNodePort), }} svc.Status.LoadBalancer.Ingress = []v1.LoadBalancerIngress{{ IP: lbIP, }} }), ) tcpProtocol := v1.ProtocolTCP populateEndpointSlices(proxier, makeTestEndpointSlice(svcPortName.Namespace, svcPortName.Name, 1, func(eps *discovery.EndpointSlice) { eps.AddressType = discovery.AddressTypeIPv4 eps.Endpoints = []discovery.Endpoint{{ Addresses: []string{epIpAddressRemote}, }} eps.Ports = []discovery.EndpointPort{{ Name: utilpointer.StringPtr(svcPortName.Port), Port: utilpointer.Int32(int32(svcPort)), Protocol: &tcpProtocol, }} }), ) proxier.setInitialized(true) proxier.syncProxyRules() svc := proxier.serviceMap[svcPortName] svcInfo, ok := svc.(*serviceInfo) if !ok { t.Errorf("Failed to cast serviceInfo %q", svcPortName.String()) } else { if svcInfo.hnsID != guid { t.Errorf("%v does not match %v", svcInfo.hnsID, guid) } if svcInfo.localTrafficDSR != true { t.Errorf("Failed to create DSR loadbalancer with local traffic policy") } if len(svcInfo.loadBalancerIngressIPs) == 0 { t.Errorf("svcInfo does not have any loadBalancerIngressIPs, %+v", svcInfo) } else if svcInfo.loadBalancerIngressIPs[0].healthCheckHnsID != guid { t.Errorf("The Hns Loadbalancer HealthCheck Id %v does not match %v. ServicePortName %q", svcInfo.loadBalancerIngressIPs[0].healthCheckHnsID, guid, svcPortName.String()) } } } func TestEndpointSlice(t *testing.T) { syncPeriod := 30 * time.Second proxier := NewFakeProxier(syncPeriod, syncPeriod, clusterCIDR, "testhost", netutils.ParseIPSloppy("10.0.0.1"), NETWORK_TYPE_OVERLAY) if proxier == nil { t.Error() } proxier.servicesSynced = true proxier.endpointSlicesSynced = true svcPortName := proxy.ServicePortName{ NamespacedName: makeNSN("ns1", "svc1"), Port: "p80", Protocol: v1.ProtocolTCP, } proxier.OnServiceAdd(&v1.Service{ ObjectMeta: metav1.ObjectMeta{Name: svcPortName.Name, Namespace: svcPortName.Namespace}, Spec: v1.ServiceSpec{ ClusterIP: "172.20.1.1", Selector: map[string]string{"foo": "bar"}, Ports: []v1.ServicePort{{Name: svcPortName.Port, TargetPort: intstr.FromInt(80), Protocol: v1.ProtocolTCP}}, }, }) // Add initial endpoint slice tcpProtocol := v1.ProtocolTCP endpointSlice := &discovery.EndpointSlice{ ObjectMeta: metav1.ObjectMeta{ Name: fmt.Sprintf("%s-1", svcPortName.Name), Namespace: svcPortName.Namespace, Labels: map[string]string{discovery.LabelServiceName: svcPortName.Name}, }, Ports: []discovery.EndpointPort{{ Name: &svcPortName.Port, Port: utilpointer.Int32Ptr(80), Protocol: &tcpProtocol, }}, AddressType: discovery.AddressTypeIPv4, Endpoints: []discovery.Endpoint{{ Addresses: []string{"192.168.2.3"}, Conditions: discovery.EndpointConditions{Ready: utilpointer.BoolPtr(true)}, NodeName: utilpointer.StringPtr("testhost2"), }}, } proxier.OnEndpointSliceAdd(endpointSlice) proxier.setInitialized(true) proxier.syncProxyRules() svc := proxier.serviceMap[svcPortName] svcInfo, ok := svc.(*serviceInfo) if !ok { t.Errorf("Failed to cast serviceInfo %q", svcPortName.String()) } else { if svcInfo.hnsID != guid { t.Errorf("The Hns Loadbalancer Id %v does not match %v. ServicePortName %q", svcInfo.hnsID, guid, svcPortName.String()) } } ep := proxier.endpointsMap[svcPortName][0] epInfo, ok := ep.(*endpointsInfo) if !ok { t.Errorf("Failed to cast endpointsInfo %q", svcPortName.String()) } else { if epInfo.hnsID != guid { t.Errorf("Hns EndpointId %v does not match %v. ServicePortName %q", epInfo.hnsID, guid, svcPortName.String()) } } } func TestNoopEndpointSlice(t *testing.T) { p := Proxier{} p.OnEndpointSliceAdd(&discovery.EndpointSlice{}) p.OnEndpointSliceUpdate(&discovery.EndpointSlice{}, &discovery.EndpointSlice{}) p.OnEndpointSliceDelete(&discovery.EndpointSlice{}) p.OnEndpointSlicesSynced() } func TestFindRemoteSubnetProviderAddress(t *testing.T) { networkInfo, _ := newFakeHNS().getNetworkByName("TestNetwork") pa := networkInfo.findRemoteSubnetProviderAddress(providerAddress) if pa != providerAddress { t.Errorf("%v does not match %v", pa, providerAddress) } pa = networkInfo.findRemoteSubnetProviderAddress(epIpAddressRemote) if pa != providerAddress { t.Errorf("%v does not match %v", pa, providerAddress) } pa = networkInfo.findRemoteSubnetProviderAddress(serviceVip) if len(pa) != 0 { t.Errorf("Provider address is not empty as expected") } } func makeNSN(namespace, name string) types.NamespacedName { return types.NamespacedName{Namespace: namespace, Name: name} } func makeServiceMap(proxier *Proxier, allServices ...*v1.Service) { for i := range allServices { proxier.OnServiceAdd(allServices[i]) } proxier.mu.Lock() defer proxier.mu.Unlock() proxier.servicesSynced = true } func deleteServices(proxier *Proxier, allServices ...*v1.Service) { for i := range allServices { proxier.OnServiceDelete(allServices[i]) } proxier.mu.Lock() defer proxier.mu.Unlock() proxier.servicesSynced = true } func makeTestService(namespace, name string, svcFunc func(*v1.Service)) *v1.Service { svc := &v1.Service{ ObjectMeta: metav1.ObjectMeta{ Name: name, Namespace: namespace, Annotations: map[string]string{}, }, Spec: v1.ServiceSpec{}, Status: v1.ServiceStatus{}, } svcFunc(svc) return svc } func deleteEndpointSlices(proxier *Proxier, allEndpointSlices ...*discovery.EndpointSlice) { for i := range allEndpointSlices { proxier.OnEndpointSliceDelete(allEndpointSlices[i]) } proxier.mu.Lock() defer proxier.mu.Unlock() proxier.endpointSlicesSynced = true } func populateEndpointSlices(proxier *Proxier, allEndpointSlices ...*discovery.EndpointSlice) { for i := range allEndpointSlices { proxier.OnEndpointSliceAdd(allEndpointSlices[i]) } } func makeTestEndpointSlice(namespace, name string, sliceNum int, epsFunc func(*discovery.EndpointSlice)) *discovery.EndpointSlice { eps := &discovery.EndpointSlice{ ObjectMeta: metav1.ObjectMeta{ Name: fmt.Sprintf("%s-%d", name, sliceNum), Namespace: namespace, Labels: map[string]string{discovery.LabelServiceName: name}, }, } epsFunc(eps) return eps }