/* 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 util import ( "context" "net" "reflect" "testing" v1 "k8s.io/api/core/v1" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/types" "k8s.io/apimachinery/pkg/util/sets" fake "k8s.io/kubernetes/pkg/proxy/util/testing" ) func TestValidateWorks(t *testing.T) { if isValidEndpoint("", 0) { t.Errorf("Didn't fail for empty set") } if isValidEndpoint("foobar", 0) { t.Errorf("Didn't fail with invalid port") } if isValidEndpoint("foobar", -1) { t.Errorf("Didn't fail with a negative port") } if !isValidEndpoint("foobar", 8080) { t.Errorf("Failed a valid config.") } } func TestBuildPortsToEndpointsMap(t *testing.T) { endpoints := &v1.Endpoints{ ObjectMeta: metav1.ObjectMeta{Name: "foo", Namespace: "testnamespace"}, Subsets: []v1.EndpointSubset{ { Addresses: []v1.EndpointAddress{ {IP: "10.0.0.1"}, {IP: "10.0.0.2"}, }, Ports: []v1.EndpointPort{ {Name: "http", Port: 80}, {Name: "https", Port: 443}, }, }, { Addresses: []v1.EndpointAddress{ {IP: "10.0.0.1"}, {IP: "10.0.0.3"}, }, Ports: []v1.EndpointPort{ {Name: "http", Port: 8080}, {Name: "dns", Port: 53}, }, }, { Addresses: []v1.EndpointAddress{}, Ports: []v1.EndpointPort{ {Name: "http", Port: 8888}, {Name: "ssh", Port: 22}, }, }, { Addresses: []v1.EndpointAddress{ {IP: "10.0.0.1"}, }, Ports: []v1.EndpointPort{}, }, }, } expectedPortsToEndpoints := map[string][]string{ "http": {"10.0.0.1:80", "10.0.0.2:80", "10.0.0.1:8080", "10.0.0.3:8080"}, "https": {"10.0.0.1:443", "10.0.0.2:443"}, "dns": {"10.0.0.1:53", "10.0.0.3:53"}, } portsToEndpoints := BuildPortsToEndpointsMap(endpoints) if !reflect.DeepEqual(expectedPortsToEndpoints, portsToEndpoints) { t.Errorf("expected ports to endpoints not seen") } } func TestIsProxyableIP(t *testing.T) { testCases := []struct { ip string want error }{ {"127.0.0.1", ErrAddressNotAllowed}, {"127.0.0.2", ErrAddressNotAllowed}, {"169.254.169.254", ErrAddressNotAllowed}, {"169.254.1.1", ErrAddressNotAllowed}, {"224.0.0.0", ErrAddressNotAllowed}, {"10.0.0.1", nil}, {"192.168.0.1", nil}, {"172.16.0.1", nil}, {"8.8.8.8", nil}, {"::1", ErrAddressNotAllowed}, {"fe80::", ErrAddressNotAllowed}, {"ff02::", ErrAddressNotAllowed}, {"ff01::", ErrAddressNotAllowed}, {"2600::", nil}, {"1", ErrAddressNotAllowed}, {"", ErrAddressNotAllowed}, } for i := range testCases { got := IsProxyableIP(testCases[i].ip) if testCases[i].want != got { t.Errorf("case %d: expected %v, got %v", i, testCases[i].want, got) } } } type dummyResolver struct { ips []string err error } func (r *dummyResolver) LookupIPAddr(ctx context.Context, host string) ([]net.IPAddr, error) { if r.err != nil { return nil, r.err } resp := []net.IPAddr{} for _, ipString := range r.ips { resp = append(resp, net.IPAddr{IP: net.ParseIP(ipString)}) } return resp, nil } func TestIsProxyableHostname(t *testing.T) { testCases := []struct { hostname string ips []string want error }{ {"k8s.io", []string{}, ErrNoAddresses}, {"k8s.io", []string{"8.8.8.8"}, nil}, {"k8s.io", []string{"169.254.169.254"}, ErrAddressNotAllowed}, {"k8s.io", []string{"127.0.0.1", "8.8.8.8"}, ErrAddressNotAllowed}, } for i := range testCases { resolv := dummyResolver{ips: testCases[i].ips} got := IsProxyableHostname(context.Background(), &resolv, testCases[i].hostname) if testCases[i].want != got { t.Errorf("case %d: expected %v, got %v", i, testCases[i].want, got) } } } func TestShouldSkipService(t *testing.T) { testCases := []struct { service *v1.Service svcName types.NamespacedName shouldSkip bool }{ { // Cluster IP is None service: &v1.Service{ ObjectMeta: metav1.ObjectMeta{Namespace: "foo", Name: "bar"}, Spec: v1.ServiceSpec{ ClusterIP: v1.ClusterIPNone, }, }, svcName: types.NamespacedName{Namespace: "foo", Name: "bar"}, shouldSkip: true, }, { // Cluster IP is empty service: &v1.Service{ ObjectMeta: metav1.ObjectMeta{Namespace: "foo", Name: "bar"}, Spec: v1.ServiceSpec{ ClusterIP: "", }, }, svcName: types.NamespacedName{Namespace: "foo", Name: "bar"}, shouldSkip: true, }, { // ExternalName type service service: &v1.Service{ ObjectMeta: metav1.ObjectMeta{Namespace: "foo", Name: "bar"}, Spec: v1.ServiceSpec{ ClusterIP: "1.2.3.4", Type: v1.ServiceTypeExternalName, }, }, svcName: types.NamespacedName{Namespace: "foo", Name: "bar"}, shouldSkip: true, }, { // ClusterIP type service with ClusterIP set service: &v1.Service{ ObjectMeta: metav1.ObjectMeta{Namespace: "foo", Name: "bar"}, Spec: v1.ServiceSpec{ ClusterIP: "1.2.3.4", Type: v1.ServiceTypeClusterIP, }, }, svcName: types.NamespacedName{Namespace: "foo", Name: "bar"}, shouldSkip: false, }, { // NodePort type service with ClusterIP set service: &v1.Service{ ObjectMeta: metav1.ObjectMeta{Namespace: "foo", Name: "bar"}, Spec: v1.ServiceSpec{ ClusterIP: "1.2.3.4", Type: v1.ServiceTypeNodePort, }, }, svcName: types.NamespacedName{Namespace: "foo", Name: "bar"}, shouldSkip: false, }, { // LoadBalancer type service with ClusterIP set service: &v1.Service{ ObjectMeta: metav1.ObjectMeta{Namespace: "foo", Name: "bar"}, Spec: v1.ServiceSpec{ ClusterIP: "1.2.3.4", Type: v1.ServiceTypeLoadBalancer, }, }, svcName: types.NamespacedName{Namespace: "foo", Name: "bar"}, shouldSkip: false, }, } for i := range testCases { skip := ShouldSkipService(testCases[i].svcName, testCases[i].service) if skip != testCases[i].shouldSkip { t.Errorf("case %d: expect %v, got %v", i, testCases[i].shouldSkip, skip) } } } type InterfaceAddrsPair struct { itf net.Interface addrs []net.Addr } func TestGetNodeAddressses(t *testing.T) { testCases := []struct { cidrs []string nw *fake.FakeNetwork itfAddrsPairs []InterfaceAddrsPair expected sets.String }{ { // case 0 cidrs: []string{"10.20.30.0/24"}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 0, MTU: 0, Name: "eth0", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "10.20.30.51/24"}}, }, { itf: net.Interface{Index: 2, MTU: 0, Name: "eth1", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "100.200.201.1/24"}}, }, }, expected: sets.NewString("10.20.30.51"), }, { // case 1 cidrs: []string{"0.0.0.0/0"}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 0, MTU: 0, Name: "eth0", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "10.20.30.51/24"}}, }, { itf: net.Interface{Index: 1, MTU: 0, Name: "lo", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "127.0.0.1/8"}}, }, }, expected: sets.NewString("0.0.0.0/0"), }, { // case 2 cidrs: []string{"2001:db8::/32", "::1/128"}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 0, MTU: 0, Name: "eth0", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "2001:db8::1/32"}}, }, { itf: net.Interface{Index: 1, MTU: 0, Name: "lo", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "::1/128"}}, }, }, expected: sets.NewString("2001:db8::1", "::1"), }, { // case 3 cidrs: []string{"::/0"}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 0, MTU: 0, Name: "eth0", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "2001:db8::1/32"}}, }, { itf: net.Interface{Index: 1, MTU: 0, Name: "lo", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "::1/128"}}, }, }, expected: sets.NewString("::/0"), }, { // case 4 cidrs: []string{"127.0.0.1/32"}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 0, MTU: 0, Name: "eth0", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "10.20.30.51/24"}}, }, { itf: net.Interface{Index: 1, MTU: 0, Name: "lo", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "127.0.0.1/8"}}, }, }, expected: sets.NewString("127.0.0.1"), }, { // case 5 cidrs: []string{"127.0.0.0/8"}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 1, MTU: 0, Name: "lo", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "127.0.1.1/8"}}, }, }, expected: sets.NewString("127.0.1.1"), }, { // case 6 cidrs: []string{"10.20.30.0/24", "100.200.201.0/24"}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 0, MTU: 0, Name: "eth0", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "10.20.30.51/24"}}, }, { itf: net.Interface{Index: 2, MTU: 0, Name: "eth1", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "100.200.201.1/24"}}, }, }, expected: sets.NewString("10.20.30.51", "100.200.201.1"), }, { // case 7 cidrs: []string{"10.20.30.0/24", "100.200.201.0/24"}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 0, MTU: 0, Name: "eth0", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "192.168.1.2/24"}}, }, { itf: net.Interface{Index: 1, MTU: 0, Name: "lo", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "127.0.0.1/8"}}, }, }, expected: sets.NewString(), }, { // case 8 cidrs: []string{}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 0, MTU: 0, Name: "eth0", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "192.168.1.2/24"}}, }, { itf: net.Interface{Index: 1, MTU: 0, Name: "lo", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "127.0.0.1/8"}}, }, }, expected: sets.NewString("0.0.0.0/0", "::/0"), }, { // case 9 cidrs: []string{}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 0, MTU: 0, Name: "eth0", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "2001:db8::1/32"}}, }, { itf: net.Interface{Index: 1, MTU: 0, Name: "lo", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "::1/128"}}, }, }, expected: sets.NewString("0.0.0.0/0", "::/0"), }, { // case 9 cidrs: []string{"1.2.3.0/24", "0.0.0.0/0"}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 0, MTU: 0, Name: "eth0", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "1.2.3.4/30"}}, }, }, expected: sets.NewString("0.0.0.0/0"), }, { // case 10 cidrs: []string{"0.0.0.0/0", "1.2.3.0/24", "::1/128"}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 0, MTU: 0, Name: "eth0", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "1.2.3.4/30"}}, }, { itf: net.Interface{Index: 1, MTU: 0, Name: "lo", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "::1/128"}}, }, }, expected: sets.NewString("0.0.0.0/0", "::1"), }, { // case 11 cidrs: []string{"::/0", "1.2.3.0/24", "::1/128"}, nw: fake.NewFakeNetwork(), itfAddrsPairs: []InterfaceAddrsPair{ { itf: net.Interface{Index: 0, MTU: 0, Name: "eth0", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "1.2.3.4/30"}}, }, { itf: net.Interface{Index: 1, MTU: 0, Name: "lo", HardwareAddr: nil, Flags: 0}, addrs: []net.Addr{fake.AddrStruct{Val: "::1/128"}}, }, }, expected: sets.NewString("::/0", "1.2.3.4"), }, } for i := range testCases { for _, pair := range testCases[i].itfAddrsPairs { testCases[i].nw.AddInterfaceAddr(&pair.itf, pair.addrs) } addrList, err := GetNodeAddresses(testCases[i].cidrs, testCases[i].nw) if err != nil { t.Errorf("case [%d], unexpected error: %v", i, err) } if !addrList.Equal(testCases[i].expected) { t.Errorf("case [%d], unexpected mismatch, expected: %v, got: %v", i, testCases[i].expected, addrList) } } } func TestAppendPortIfNeeded(t *testing.T) { testCases := []struct { name string addr string port int32 expect string }{ { name: "IPv4 all-zeros bind address has port", addr: "0.0.0.0:12345", port: 23456, expect: "0.0.0.0:12345", }, { name: "non-zeros IPv4 config", addr: "9.8.7.6", port: 12345, expect: "9.8.7.6:12345", }, { name: "IPv6 \"[::]\" bind address has port", addr: "[::]:12345", port: 23456, expect: "[::]:12345", }, { name: "IPv6 config", addr: "fd00:1::5", port: 23456, expect: "[fd00:1::5]:23456", }, { name: "Invalid IPv6 Config", addr: "[fd00:1::5]", port: 12345, expect: "[fd00:1::5]", }, } for i := range testCases { got := AppendPortIfNeeded(testCases[i].addr, testCases[i].port) if testCases[i].expect != got { t.Errorf("case %s: expected %v, got %v", testCases[i].name, testCases[i].expect, got) } } } func TestShuffleStrings(t *testing.T) { var src []string dest := ShuffleStrings(src) if dest != nil { t.Errorf("ShuffleStrings for a nil slice got a non-nil slice") } src = []string{"a", "b", "c", "d", "e", "f"} dest = ShuffleStrings(src) if len(src) != len(dest) { t.Errorf("Shuffled slice is wrong length, expected %v got %v", len(src), len(dest)) } m := make(map[string]bool, len(dest)) for _, s := range dest { m[s] = true } for _, k := range src { if _, exists := m[k]; !exists { t.Errorf("Element %v missing from shuffled slice", k) } } } func TestFilterIncorrectIPVersion(t *testing.T) { testCases := []struct { desc string ipString []string wantIPv6 bool expectCorrect []string expectIncorrect []string }{ { desc: "empty input IPv4", ipString: []string{}, wantIPv6: false, expectCorrect: nil, expectIncorrect: nil, }, { desc: "empty input IPv6", ipString: []string{}, wantIPv6: true, expectCorrect: nil, expectIncorrect: nil, }, { desc: "want IPv4 and receive IPv6", ipString: []string{"fd00:20::1"}, wantIPv6: false, expectCorrect: nil, expectIncorrect: []string{"fd00:20::1"}, }, { desc: "want IPv6 and receive IPv4", ipString: []string{"192.168.200.2"}, wantIPv6: true, expectCorrect: nil, expectIncorrect: []string{"192.168.200.2"}, }, { desc: "want IPv6 and receive IPv4 and IPv6", ipString: []string{"192.168.200.2", "192.1.34.23", "fd00:20::1", "2001:db9::3"}, wantIPv6: true, expectCorrect: []string{"fd00:20::1", "2001:db9::3"}, expectIncorrect: []string{"192.168.200.2", "192.1.34.23"}, }, { desc: "want IPv4 and receive IPv4 and IPv6", ipString: []string{"192.168.200.2", "192.1.34.23", "fd00:20::1", "2001:db9::3"}, wantIPv6: false, expectCorrect: []string{"192.168.200.2", "192.1.34.23"}, expectIncorrect: []string{"fd00:20::1", "2001:db9::3"}, }, { desc: "want IPv4 and receive IPv4 only", ipString: []string{"192.168.200.2", "192.1.34.23"}, wantIPv6: false, expectCorrect: []string{"192.168.200.2", "192.1.34.23"}, expectIncorrect: nil, }, { desc: "want IPv6 and receive IPv4 only", ipString: []string{"192.168.200.2", "192.1.34.23"}, wantIPv6: true, expectCorrect: nil, expectIncorrect: []string{"192.168.200.2", "192.1.34.23"}, }, { desc: "want IPv4 and receive IPv6 only", ipString: []string{"fd00:20::1", "2001:db9::3"}, wantIPv6: false, expectCorrect: nil, expectIncorrect: []string{"fd00:20::1", "2001:db9::3"}, }, { desc: "want IPv6 and receive IPv6 only", ipString: []string{"fd00:20::1", "2001:db9::3"}, wantIPv6: true, expectCorrect: []string{"fd00:20::1", "2001:db9::3"}, expectIncorrect: nil, }, } for _, testcase := range testCases { t.Run(testcase.desc, func(t *testing.T) { correct, incorrect := FilterIncorrectIPVersion(testcase.ipString, testcase.wantIPv6) if !reflect.DeepEqual(testcase.expectCorrect, correct) { t.Errorf("Test %v failed: expected %v, got %v", testcase.desc, testcase.expectCorrect, correct) } if !reflect.DeepEqual(testcase.expectIncorrect, incorrect) { t.Errorf("Test %v failed: expected %v, got %v", testcase.desc, testcase.expectIncorrect, incorrect) } }) } }