ceph-csi/vendor/k8s.io/kubernetes/pkg/proxy/service_test.go

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/*
Copyright 2017 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 proxy
import (
"net"
"testing"
"github.com/davecgh/go-spew/spew"
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"k8s.io/api/core/v1"
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metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/types"
"k8s.io/apimachinery/pkg/util/intstr"
"k8s.io/apimachinery/pkg/util/sets"
)
const testHostname = "test-hostname"
func makeTestServiceInfo(clusterIP string, port int, protocol string, healthcheckNodePort int, svcInfoFuncs ...func(*BaseServiceInfo)) *BaseServiceInfo {
info := &BaseServiceInfo{
ClusterIP: net.ParseIP(clusterIP),
Port: port,
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Protocol: v1.Protocol(protocol),
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}
if healthcheckNodePort != 0 {
info.HealthCheckNodePort = healthcheckNodePort
}
for _, svcInfoFunc := range svcInfoFuncs {
svcInfoFunc(info)
}
return info
}
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func makeTestService(namespace, name string, svcFunc func(*v1.Service)) *v1.Service {
svc := &v1.Service{
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ObjectMeta: metav1.ObjectMeta{
Name: name,
Namespace: namespace,
Annotations: map[string]string{},
},
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Spec: v1.ServiceSpec{},
Status: v1.ServiceStatus{},
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}
svcFunc(svc)
return svc
}
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func addTestPort(array []v1.ServicePort, name string, protocol v1.Protocol, port, nodeport int32, targetPort int) []v1.ServicePort {
svcPort := v1.ServicePort{
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Name: name,
Protocol: protocol,
Port: port,
NodePort: nodeport,
TargetPort: intstr.FromInt(targetPort),
}
return append(array, svcPort)
}
func makeNSN(namespace, name string) types.NamespacedName {
return types.NamespacedName{Namespace: namespace, Name: name}
}
func makeServicePortName(ns, name, port string) ServicePortName {
return ServicePortName{
NamespacedName: makeNSN(ns, name),
Port: port,
}
}
func TestServiceToServiceMap(t *testing.T) {
svcTracker := NewServiceChangeTracker(nil, nil, nil)
trueVal := true
falseVal := false
testClusterIPv4 := "10.0.0.1"
testExternalIPv4 := "8.8.8.8"
testSourceRangeIPv4 := "0.0.0.0/1"
testClusterIPv6 := "2001:db8:85a3:0:0:8a2e:370:7334"
testExternalIPv6 := "2001:db8:85a3:0:0:8a2e:370:7335"
testSourceRangeIPv6 := "2001:db8::/32"
testCases := []struct {
desc string
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service *v1.Service
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expected map[ServicePortName]*BaseServiceInfo
isIPv6Mode *bool
}{
{
desc: "nothing",
service: nil,
expected: map[ServicePortName]*BaseServiceInfo{},
},
{
desc: "headless service",
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service: makeTestService("ns2", "headless", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeClusterIP
svc.Spec.ClusterIP = v1.ClusterIPNone
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svc.Spec.Ports = addTestPort(svc.Spec.Ports, "rpc", "UDP", 1234, 0, 0)
}),
expected: map[ServicePortName]*BaseServiceInfo{},
},
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{
desc: "headless sctp service",
service: makeTestService("ns2", "headless", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeClusterIP
svc.Spec.ClusterIP = v1.ClusterIPNone
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "sip", "SCTP", 7777, 0, 0)
}),
expected: map[ServicePortName]*BaseServiceInfo{},
},
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{
desc: "headless service without port",
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service: makeTestService("ns2", "headless-without-port", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeClusterIP
svc.Spec.ClusterIP = v1.ClusterIPNone
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}),
expected: map[ServicePortName]*BaseServiceInfo{},
},
{
desc: "cluster ip service",
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service: makeTestService("ns2", "cluster-ip", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeClusterIP
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svc.Spec.ClusterIP = "172.16.55.4"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "p1", "UDP", 1234, 4321, 0)
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "p2", "UDP", 1235, 5321, 0)
}),
expected: map[ServicePortName]*BaseServiceInfo{
makeServicePortName("ns2", "cluster-ip", "p1"): makeTestServiceInfo("172.16.55.4", 1234, "UDP", 0),
makeServicePortName("ns2", "cluster-ip", "p2"): makeTestServiceInfo("172.16.55.4", 1235, "UDP", 0),
},
},
{
desc: "nodeport service",
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service: makeTestService("ns2", "node-port", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeNodePort
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svc.Spec.ClusterIP = "172.16.55.10"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "port1", "UDP", 345, 678, 0)
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "port2", "TCP", 344, 677, 0)
}),
expected: map[ServicePortName]*BaseServiceInfo{
makeServicePortName("ns2", "node-port", "port1"): makeTestServiceInfo("172.16.55.10", 345, "UDP", 0),
makeServicePortName("ns2", "node-port", "port2"): makeTestServiceInfo("172.16.55.10", 344, "TCP", 0),
},
},
{
desc: "load balancer service",
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service: makeTestService("ns1", "load-balancer", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeLoadBalancer
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svc.Spec.ClusterIP = "172.16.55.11"
svc.Spec.LoadBalancerIP = "5.6.7.8"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "port3", "UDP", 8675, 30061, 7000)
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "port4", "UDP", 8676, 30062, 7001)
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svc.Status.LoadBalancer = v1.LoadBalancerStatus{
Ingress: []v1.LoadBalancerIngress{
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{IP: "10.1.2.4"},
},
}
}),
expected: map[ServicePortName]*BaseServiceInfo{
makeServicePortName("ns1", "load-balancer", "port3"): makeTestServiceInfo("172.16.55.11", 8675, "UDP", 0),
makeServicePortName("ns1", "load-balancer", "port4"): makeTestServiceInfo("172.16.55.11", 8676, "UDP", 0),
},
},
{
desc: "load balancer service with only local traffic policy",
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service: makeTestService("ns1", "only-local-load-balancer", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeLoadBalancer
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svc.Spec.ClusterIP = "172.16.55.12"
svc.Spec.LoadBalancerIP = "5.6.7.8"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "portx", "UDP", 8677, 30063, 7002)
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "porty", "UDP", 8678, 30064, 7003)
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svc.Status.LoadBalancer = v1.LoadBalancerStatus{
Ingress: []v1.LoadBalancerIngress{
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{IP: "10.1.2.3"},
},
}
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svc.Spec.ExternalTrafficPolicy = v1.ServiceExternalTrafficPolicyTypeLocal
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svc.Spec.HealthCheckNodePort = 345
}),
expected: map[ServicePortName]*BaseServiceInfo{
makeServicePortName("ns1", "only-local-load-balancer", "portx"): makeTestServiceInfo("172.16.55.12", 8677, "UDP", 345),
makeServicePortName("ns1", "only-local-load-balancer", "porty"): makeTestServiceInfo("172.16.55.12", 8678, "UDP", 345),
},
},
{
desc: "external name service",
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service: makeTestService("ns2", "external-name", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeExternalName
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svc.Spec.ClusterIP = "172.16.55.4" // Should be ignored
svc.Spec.ExternalName = "foo2.bar.com"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "portz", "UDP", 1235, 5321, 0)
}),
expected: map[ServicePortName]*BaseServiceInfo{},
},
{
desc: "service with ipv6 clusterIP under ipv4 mode, service should be filtered",
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service: &v1.Service{
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ObjectMeta: metav1.ObjectMeta{
Name: "invalidIPv6InIPV4Mode",
Namespace: "test",
},
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Spec: v1.ServiceSpec{
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ClusterIP: testClusterIPv6,
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Ports: []v1.ServicePort{
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{
Name: "testPort",
Port: int32(12345),
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Protocol: v1.ProtocolTCP,
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},
},
},
},
isIPv6Mode: &falseVal,
},
{
desc: "service with ipv4 clusterIP under ipv6 mode, service should be filtered",
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service: &v1.Service{
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ObjectMeta: metav1.ObjectMeta{
Name: "invalidIPv4InIPV6Mode",
Namespace: "test",
},
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Spec: v1.ServiceSpec{
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ClusterIP: testClusterIPv4,
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Ports: []v1.ServicePort{
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{
Name: "testPort",
Port: int32(12345),
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Protocol: v1.ProtocolTCP,
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},
},
},
},
isIPv6Mode: &trueVal,
},
{
desc: "service with ipv4 configurations under ipv4 mode",
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service: &v1.Service{
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ObjectMeta: metav1.ObjectMeta{
Name: "validIPv4",
Namespace: "test",
},
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Spec: v1.ServiceSpec{
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ClusterIP: testClusterIPv4,
ExternalIPs: []string{testExternalIPv4},
LoadBalancerSourceRanges: []string{testSourceRangeIPv4},
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Ports: []v1.ServicePort{
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{
Name: "testPort",
Port: int32(12345),
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Protocol: v1.ProtocolTCP,
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},
},
},
},
expected: map[ServicePortName]*BaseServiceInfo{
makeServicePortName("test", "validIPv4", "testPort"): makeTestServiceInfo(testClusterIPv4, 12345, "TCP", 0, func(info *BaseServiceInfo) {
info.ExternalIPs = []string{testExternalIPv4}
info.LoadBalancerSourceRanges = []string{testSourceRangeIPv4}
}),
},
isIPv6Mode: &falseVal,
},
{
desc: "service with ipv6 configurations under ipv6 mode",
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service: &v1.Service{
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ObjectMeta: metav1.ObjectMeta{
Name: "validIPv6",
Namespace: "test",
},
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Spec: v1.ServiceSpec{
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ClusterIP: testClusterIPv6,
ExternalIPs: []string{testExternalIPv6},
LoadBalancerSourceRanges: []string{testSourceRangeIPv6},
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Ports: []v1.ServicePort{
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{
Name: "testPort",
Port: int32(12345),
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Protocol: v1.ProtocolTCP,
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},
},
},
},
expected: map[ServicePortName]*BaseServiceInfo{
makeServicePortName("test", "validIPv6", "testPort"): makeTestServiceInfo(testClusterIPv6, 12345, "TCP", 0, func(info *BaseServiceInfo) {
info.ExternalIPs = []string{testExternalIPv6}
info.LoadBalancerSourceRanges = []string{testSourceRangeIPv6}
}),
},
isIPv6Mode: &trueVal,
},
{
desc: "service with both ipv4 and ipv6 configurations under ipv4 mode, ipv6 fields should be filtered",
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service: &v1.Service{
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ObjectMeta: metav1.ObjectMeta{
Name: "filterIPv6InIPV4Mode",
Namespace: "test",
},
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Spec: v1.ServiceSpec{
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ClusterIP: testClusterIPv4,
ExternalIPs: []string{testExternalIPv4, testExternalIPv6},
LoadBalancerSourceRanges: []string{testSourceRangeIPv4, testSourceRangeIPv6},
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Ports: []v1.ServicePort{
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{
Name: "testPort",
Port: int32(12345),
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Protocol: v1.ProtocolTCP,
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},
},
},
},
expected: map[ServicePortName]*BaseServiceInfo{
makeServicePortName("test", "filterIPv6InIPV4Mode", "testPort"): makeTestServiceInfo(testClusterIPv4, 12345, "TCP", 0, func(info *BaseServiceInfo) {
info.ExternalIPs = []string{testExternalIPv4}
info.LoadBalancerSourceRanges = []string{testSourceRangeIPv4}
}),
},
isIPv6Mode: &falseVal,
},
{
desc: "service with both ipv4 and ipv6 configurations under ipv6 mode, ipv4 fields should be filtered",
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service: &v1.Service{
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ObjectMeta: metav1.ObjectMeta{
Name: "filterIPv4InIPV6Mode",
Namespace: "test",
},
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Spec: v1.ServiceSpec{
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ClusterIP: testClusterIPv6,
ExternalIPs: []string{testExternalIPv4, testExternalIPv6},
LoadBalancerSourceRanges: []string{testSourceRangeIPv4, testSourceRangeIPv6},
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Ports: []v1.ServicePort{
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{
Name: "testPort",
Port: int32(12345),
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Protocol: v1.ProtocolTCP,
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},
},
},
},
expected: map[ServicePortName]*BaseServiceInfo{
makeServicePortName("test", "filterIPv4InIPV6Mode", "testPort"): makeTestServiceInfo(testClusterIPv6, 12345, "TCP", 0, func(info *BaseServiceInfo) {
info.ExternalIPs = []string{testExternalIPv6}
info.LoadBalancerSourceRanges = []string{testSourceRangeIPv6}
}),
},
isIPv6Mode: &trueVal,
},
}
for _, tc := range testCases {
svcTracker.isIPv6Mode = tc.isIPv6Mode
// outputs
newServices := svcTracker.serviceToServiceMap(tc.service)
if len(newServices) != len(tc.expected) {
t.Errorf("[%s] expected %d new, got %d: %v", tc.desc, len(tc.expected), len(newServices), spew.Sdump(newServices))
}
for svcKey, expectedInfo := range tc.expected {
svcInfo := newServices[svcKey].(*BaseServiceInfo)
if !svcInfo.ClusterIP.Equal(expectedInfo.ClusterIP) ||
svcInfo.Port != expectedInfo.Port ||
svcInfo.Protocol != expectedInfo.Protocol ||
svcInfo.HealthCheckNodePort != expectedInfo.HealthCheckNodePort ||
!sets.NewString(svcInfo.ExternalIPs...).Equal(sets.NewString(expectedInfo.ExternalIPs...)) ||
!sets.NewString(svcInfo.LoadBalancerSourceRanges...).Equal(sets.NewString(expectedInfo.LoadBalancerSourceRanges...)) {
t.Errorf("[%s] expected new[%v]to be %v, got %v", tc.desc, svcKey, expectedInfo, *svcInfo)
}
}
}
}
type FakeProxier struct {
endpointsChanges *EndpointChangeTracker
serviceChanges *ServiceChangeTracker
serviceMap ServiceMap
endpointsMap EndpointsMap
hostname string
}
func newFakeProxier() *FakeProxier {
return &FakeProxier{
serviceMap: make(ServiceMap),
serviceChanges: NewServiceChangeTracker(nil, nil, nil),
endpointsMap: make(EndpointsMap),
endpointsChanges: NewEndpointChangeTracker(testHostname, nil, nil, nil),
}
}
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func makeServiceMap(fake *FakeProxier, allServices ...*v1.Service) {
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for i := range allServices {
fake.addService(allServices[i])
}
}
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func (fake *FakeProxier) addService(service *v1.Service) {
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fake.serviceChanges.Update(nil, service)
}
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func (fake *FakeProxier) updateService(oldService *v1.Service, service *v1.Service) {
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fake.serviceChanges.Update(oldService, service)
}
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func (fake *FakeProxier) deleteService(service *v1.Service) {
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fake.serviceChanges.Update(service, nil)
}
func TestUpdateServiceMapHeadless(t *testing.T) {
fp := newFakeProxier()
makeServiceMap(fp,
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makeTestService("ns2", "headless", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeClusterIP
svc.Spec.ClusterIP = v1.ClusterIPNone
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svc.Spec.Ports = addTestPort(svc.Spec.Ports, "rpc", "UDP", 1234, 0, 0)
}),
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makeTestService("ns2", "headless-without-port", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeClusterIP
svc.Spec.ClusterIP = v1.ClusterIPNone
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}),
)
// Headless service should be ignored
result := UpdateServiceMap(fp.serviceMap, fp.serviceChanges)
if len(fp.serviceMap) != 0 {
t.Errorf("expected service map length 0, got %d", len(fp.serviceMap))
}
// No proxied services, so no healthchecks
if len(result.HCServiceNodePorts) != 0 {
t.Errorf("expected healthcheck ports length 0, got %d", len(result.HCServiceNodePorts))
}
if len(result.UDPStaleClusterIP) != 0 {
t.Errorf("expected stale UDP services length 0, got %d", len(result.UDPStaleClusterIP))
}
}
func TestUpdateServiceTypeExternalName(t *testing.T) {
fp := newFakeProxier()
makeServiceMap(fp,
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makeTestService("ns2", "external-name", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeExternalName
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svc.Spec.ClusterIP = "172.16.55.4" // Should be ignored
svc.Spec.ExternalName = "foo2.bar.com"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "blah", "UDP", 1235, 5321, 0)
}),
)
result := UpdateServiceMap(fp.serviceMap, fp.serviceChanges)
if len(fp.serviceMap) != 0 {
t.Errorf("expected service map length 0, got %v", fp.serviceMap)
}
// No proxied services, so no healthchecks
if len(result.HCServiceNodePorts) != 0 {
t.Errorf("expected healthcheck ports length 0, got %v", result.HCServiceNodePorts)
}
if len(result.UDPStaleClusterIP) != 0 {
t.Errorf("expected stale UDP services length 0, got %v", result.UDPStaleClusterIP)
}
}
func TestBuildServiceMapAddRemove(t *testing.T) {
fp := newFakeProxier()
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services := []*v1.Service{
makeTestService("ns2", "cluster-ip", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeClusterIP
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svc.Spec.ClusterIP = "172.16.55.4"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "port1", "UDP", 1234, 4321, 0)
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "port2", "UDP", 1235, 5321, 0)
}),
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makeTestService("ns2", "node-port", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeNodePort
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svc.Spec.ClusterIP = "172.16.55.10"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "port1", "UDP", 345, 678, 0)
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "port2", "TCP", 344, 677, 0)
}),
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makeTestService("ns1", "load-balancer", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeLoadBalancer
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svc.Spec.ClusterIP = "172.16.55.11"
svc.Spec.LoadBalancerIP = "5.6.7.8"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "foobar", "UDP", 8675, 30061, 7000)
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "baz", "UDP", 8676, 30062, 7001)
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svc.Status.LoadBalancer = v1.LoadBalancerStatus{
Ingress: []v1.LoadBalancerIngress{
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{IP: "10.1.2.4"},
},
}
}),
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makeTestService("ns1", "only-local-load-balancer", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeLoadBalancer
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svc.Spec.ClusterIP = "172.16.55.12"
svc.Spec.LoadBalancerIP = "5.6.7.8"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "foobar2", "UDP", 8677, 30063, 7002)
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "baz", "UDP", 8678, 30064, 7003)
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svc.Status.LoadBalancer = v1.LoadBalancerStatus{
Ingress: []v1.LoadBalancerIngress{
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{IP: "10.1.2.3"},
},
}
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svc.Spec.ExternalTrafficPolicy = v1.ServiceExternalTrafficPolicyTypeLocal
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svc.Spec.HealthCheckNodePort = 345
}),
}
for i := range services {
fp.addService(services[i])
}
result := UpdateServiceMap(fp.serviceMap, fp.serviceChanges)
if len(fp.serviceMap) != 8 {
t.Errorf("expected service map length 2, got %v", fp.serviceMap)
}
// The only-local-loadbalancer ones get added
if len(result.HCServiceNodePorts) != 1 {
t.Errorf("expected 1 healthcheck port, got %v", result.HCServiceNodePorts)
} else {
nsn := makeNSN("ns1", "only-local-load-balancer")
if port, found := result.HCServiceNodePorts[nsn]; !found || port != 345 {
t.Errorf("expected healthcheck port [%q]=345: got %v", nsn, result.HCServiceNodePorts)
}
}
if len(result.UDPStaleClusterIP) != 0 {
// Services only added, so nothing stale yet
t.Errorf("expected stale UDP services length 0, got %d", len(result.UDPStaleClusterIP))
}
// Remove some stuff
// oneService is a modification of services[0] with removed first port.
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oneService := makeTestService("ns2", "cluster-ip", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeClusterIP
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svc.Spec.ClusterIP = "172.16.55.4"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "p2", "UDP", 1235, 5321, 0)
})
fp.updateService(services[0], oneService)
fp.deleteService(services[1])
fp.deleteService(services[2])
fp.deleteService(services[3])
result = UpdateServiceMap(fp.serviceMap, fp.serviceChanges)
if len(fp.serviceMap) != 1 {
t.Errorf("expected service map length 1, got %v", fp.serviceMap)
}
if len(result.HCServiceNodePorts) != 0 {
t.Errorf("expected 0 healthcheck ports, got %v", result.HCServiceNodePorts)
}
// All services but one were deleted. While you'd expect only the ClusterIPs
// from the three deleted services here, we still have the ClusterIP for
// the not-deleted service, because one of it's ServicePorts was deleted.
expectedStaleUDPServices := []string{"172.16.55.10", "172.16.55.4", "172.16.55.11", "172.16.55.12"}
if len(result.UDPStaleClusterIP) != len(expectedStaleUDPServices) {
t.Errorf("expected stale UDP services length %d, got %v", len(expectedStaleUDPServices), result.UDPStaleClusterIP.UnsortedList())
}
for _, ip := range expectedStaleUDPServices {
if !result.UDPStaleClusterIP.Has(ip) {
t.Errorf("expected stale UDP service service %s", ip)
}
}
}
func TestBuildServiceMapServiceUpdate(t *testing.T) {
fp := newFakeProxier()
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servicev1 := makeTestService("ns1", "svc1", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeClusterIP
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svc.Spec.ClusterIP = "172.16.55.4"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "p1", "UDP", 1234, 4321, 0)
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "p2", "TCP", 1235, 5321, 0)
})
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servicev2 := makeTestService("ns1", "svc1", func(svc *v1.Service) {
svc.Spec.Type = v1.ServiceTypeLoadBalancer
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svc.Spec.ClusterIP = "172.16.55.4"
svc.Spec.LoadBalancerIP = "5.6.7.8"
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "p1", "UDP", 1234, 4321, 7002)
svc.Spec.Ports = addTestPort(svc.Spec.Ports, "p2", "TCP", 1235, 5321, 7003)
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svc.Status.LoadBalancer = v1.LoadBalancerStatus{
Ingress: []v1.LoadBalancerIngress{
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{IP: "10.1.2.3"},
},
}
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svc.Spec.ExternalTrafficPolicy = v1.ServiceExternalTrafficPolicyTypeLocal
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svc.Spec.HealthCheckNodePort = 345
})
fp.addService(servicev1)
result := UpdateServiceMap(fp.serviceMap, fp.serviceChanges)
if len(fp.serviceMap) != 2 {
t.Errorf("expected service map length 2, got %v", fp.serviceMap)
}
if len(result.HCServiceNodePorts) != 0 {
t.Errorf("expected healthcheck ports length 0, got %v", result.HCServiceNodePorts)
}
if len(result.UDPStaleClusterIP) != 0 {
// Services only added, so nothing stale yet
t.Errorf("expected stale UDP services length 0, got %d", len(result.UDPStaleClusterIP))
}
// Change service to load-balancer
fp.updateService(servicev1, servicev2)
result = UpdateServiceMap(fp.serviceMap, fp.serviceChanges)
if len(fp.serviceMap) != 2 {
t.Errorf("expected service map length 2, got %v", fp.serviceMap)
}
if len(result.HCServiceNodePorts) != 1 {
t.Errorf("expected healthcheck ports length 1, got %v", result.HCServiceNodePorts)
}
if len(result.UDPStaleClusterIP) != 0 {
t.Errorf("expected stale UDP services length 0, got %v", result.UDPStaleClusterIP.UnsortedList())
}
// No change; make sure the service map stays the same and there are
// no health-check changes
fp.updateService(servicev2, servicev2)
result = UpdateServiceMap(fp.serviceMap, fp.serviceChanges)
if len(fp.serviceMap) != 2 {
t.Errorf("expected service map length 2, got %v", fp.serviceMap)
}
if len(result.HCServiceNodePorts) != 1 {
t.Errorf("expected healthcheck ports length 1, got %v", result.HCServiceNodePorts)
}
if len(result.UDPStaleClusterIP) != 0 {
t.Errorf("expected stale UDP services length 0, got %v", result.UDPStaleClusterIP.UnsortedList())
}
// And back to ClusterIP
fp.updateService(servicev2, servicev1)
result = UpdateServiceMap(fp.serviceMap, fp.serviceChanges)
if len(fp.serviceMap) != 2 {
t.Errorf("expected service map length 2, got %v", fp.serviceMap)
}
if len(result.HCServiceNodePorts) != 0 {
t.Errorf("expected healthcheck ports length 0, got %v", result.HCServiceNodePorts)
}
if len(result.UDPStaleClusterIP) != 0 {
// Services only added, so nothing stale yet
t.Errorf("expected stale UDP services length 0, got %d", len(result.UDPStaleClusterIP))
}
}