/* * * Copyright 2018 gRPC 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 dns import ( "context" "errors" "fmt" "net" "os" "reflect" "strings" "sync" "testing" "time" "github.com/google/go-cmp/cmp" "github.com/google/go-cmp/cmp/cmpopts" "google.golang.org/grpc/balancer" grpclbstate "google.golang.org/grpc/balancer/grpclb/state" "google.golang.org/grpc/internal/envconfig" "google.golang.org/grpc/internal/leakcheck" "google.golang.org/grpc/internal/testutils" "google.golang.org/grpc/resolver" "google.golang.org/grpc/serviceconfig" ) func TestMain(m *testing.M) { // Set a non-zero duration only for tests which are actually testing that // feature. replaceDNSResRate(time.Duration(0)) // No nead to clean up since we os.Exit overrideDefaultResolver(false) // No nead to clean up since we os.Exit code := m.Run() os.Exit(code) } const ( txtBytesLimit = 255 defaultTestTimeout = 10 * time.Second defaultTestShortTimeout = 10 * time.Millisecond ) type testClientConn struct { resolver.ClientConn // For unimplemented functions target string m1 sync.Mutex state resolver.State updateStateCalls int errChan chan error updateStateErr error } func (t *testClientConn) UpdateState(s resolver.State) error { t.m1.Lock() defer t.m1.Unlock() t.state = s t.updateStateCalls++ // This error determines whether DNS Resolver actually decides to exponentially backoff or not. // This can be any error. return t.updateStateErr } func (t *testClientConn) getState() (resolver.State, int) { t.m1.Lock() defer t.m1.Unlock() return t.state, t.updateStateCalls } func scFromState(s resolver.State) string { if s.ServiceConfig != nil { if s.ServiceConfig.Err != nil { return "" } return s.ServiceConfig.Config.(unparsedServiceConfig).config } return "" } type unparsedServiceConfig struct { serviceconfig.Config config string } func (t *testClientConn) ParseServiceConfig(s string) *serviceconfig.ParseResult { return &serviceconfig.ParseResult{Config: unparsedServiceConfig{config: s}} } func (t *testClientConn) ReportError(err error) { t.errChan <- err } type testResolver struct { // A write to this channel is made when this resolver receives a resolution // request. Tests can rely on reading from this channel to be notified about // resolution requests instead of sleeping for a predefined period of time. lookupHostCh *testutils.Channel } func (tr *testResolver) LookupHost(ctx context.Context, host string) ([]string, error) { if tr.lookupHostCh != nil { tr.lookupHostCh.Send(nil) } return hostLookup(host) } func (*testResolver) LookupSRV(ctx context.Context, service, proto, name string) (string, []*net.SRV, error) { return srvLookup(service, proto, name) } func (*testResolver) LookupTXT(ctx context.Context, host string) ([]string, error) { return txtLookup(host) } // overrideDefaultResolver overrides the defaultResolver used by the code with // an instance of the testResolver. pushOnLookup controls whether the // testResolver created here pushes lookupHost events on its channel. func overrideDefaultResolver(pushOnLookup bool) func() { oldResolver := defaultResolver var lookupHostCh *testutils.Channel if pushOnLookup { lookupHostCh = testutils.NewChannel() } defaultResolver = &testResolver{lookupHostCh: lookupHostCh} return func() { defaultResolver = oldResolver } } func replaceDNSResRate(d time.Duration) func() { oldMinDNSResRate := minDNSResRate minDNSResRate = d return func() { minDNSResRate = oldMinDNSResRate } } var hostLookupTbl = struct { sync.Mutex tbl map[string][]string }{ tbl: map[string][]string{ "foo.bar.com": {"1.2.3.4", "5.6.7.8"}, "ipv4.single.fake": {"1.2.3.4"}, "srv.ipv4.single.fake": {"2.4.6.8"}, "srv.ipv4.multi.fake": {}, "srv.ipv6.single.fake": {}, "srv.ipv6.multi.fake": {}, "ipv4.multi.fake": {"1.2.3.4", "5.6.7.8", "9.10.11.12"}, "ipv6.single.fake": {"2607:f8b0:400a:801::1001"}, "ipv6.multi.fake": {"2607:f8b0:400a:801::1001", "2607:f8b0:400a:801::1002", "2607:f8b0:400a:801::1003"}, }, } func hostLookup(host string) ([]string, error) { hostLookupTbl.Lock() defer hostLookupTbl.Unlock() if addrs, ok := hostLookupTbl.tbl[host]; ok { return addrs, nil } return nil, &net.DNSError{ Err: "hostLookup error", Name: host, Server: "fake", IsTemporary: true, } } var srvLookupTbl = struct { sync.Mutex tbl map[string][]*net.SRV }{ tbl: map[string][]*net.SRV{ "_grpclb._tcp.srv.ipv4.single.fake": {&net.SRV{Target: "ipv4.single.fake", Port: 1234}}, "_grpclb._tcp.srv.ipv4.multi.fake": {&net.SRV{Target: "ipv4.multi.fake", Port: 1234}}, "_grpclb._tcp.srv.ipv6.single.fake": {&net.SRV{Target: "ipv6.single.fake", Port: 1234}}, "_grpclb._tcp.srv.ipv6.multi.fake": {&net.SRV{Target: "ipv6.multi.fake", Port: 1234}}, }, } func srvLookup(service, proto, name string) (string, []*net.SRV, error) { cname := "_" + service + "._" + proto + "." + name srvLookupTbl.Lock() defer srvLookupTbl.Unlock() if srvs, cnt := srvLookupTbl.tbl[cname]; cnt { return cname, srvs, nil } return "", nil, &net.DNSError{ Err: "srvLookup error", Name: cname, Server: "fake", IsTemporary: true, } } // scfs contains an array of service config file string in JSON format. // Notes about the scfs contents and usage: // scfs contains 4 service config file JSON strings for testing. Inside each // service config file, there are multiple choices. scfs[0:3] each contains 5 // choices, and first 3 choices are nonmatching choices based on canarying rule, // while the last two are matched choices. scfs[3] only contains 3 choices, and // all of them are nonmatching based on canarying rule. For each of scfs[0:3], // the eventually returned service config, which is from the first of the two // matched choices, is stored in the corresponding scs element (e.g. // scfs[0]->scs[0]). scfs and scs elements are used in pair to test the dns // resolver functionality, with scfs as the input and scs used for validation of // the output. For scfs[3], it corresponds to empty service config, since there // isn't a matched choice. var scfs = []string{ `[ { "clientLanguage": [ "CPP", "JAVA" ], "serviceConfig": { "loadBalancingPolicy": "grpclb", "methodConfig": [ { "name": [ { "service": "all" } ], "timeout": "1s" } ] } }, { "percentage": 0, "serviceConfig": { "loadBalancingPolicy": "grpclb", "methodConfig": [ { "name": [ { "service": "all" } ], "timeout": "1s" } ] } }, { "clientHostName": [ "localhost" ], "serviceConfig": { "loadBalancingPolicy": "grpclb", "methodConfig": [ { "name": [ { "service": "all" } ], "timeout": "1s" } ] } }, { "clientLanguage": [ "GO" ], "percentage": 100, "serviceConfig": { "methodConfig": [ { "name": [ { "method": "bar" } ], "maxRequestMessageBytes": 1024, "maxResponseMessageBytes": 1024 } ] } }, { "serviceConfig": { "loadBalancingPolicy": "round_robin", "methodConfig": [ { "name": [ { "service": "foo", "method": "bar" } ], "waitForReady": true } ] } } ]`, `[ { "clientLanguage": [ "CPP", "JAVA" ], "serviceConfig": { "loadBalancingPolicy": "grpclb", "methodConfig": [ { "name": [ { "service": "all" } ], "timeout": "1s" } ] } }, { "percentage": 0, "serviceConfig": { "loadBalancingPolicy": "grpclb", "methodConfig": [ { "name": [ { "service": "all" } ], "timeout": "1s" } ] } }, { "clientHostName": [ "localhost" ], "serviceConfig": { "loadBalancingPolicy": "grpclb", "methodConfig": [ { "name": [ { "service": "all" } ], "timeout": "1s" } ] } }, { "clientLanguage": [ "GO" ], "percentage": 100, "serviceConfig": { "methodConfig": [ { "name": [ { "service": "foo", "method": "bar" } ], "waitForReady": true, "timeout": "1s", "maxRequestMessageBytes": 1024, "maxResponseMessageBytes": 1024 } ] } }, { "serviceConfig": { "loadBalancingPolicy": "round_robin", "methodConfig": [ { "name": [ { "service": "foo", "method": "bar" } ], "waitForReady": true } ] } } ]`, `[ { "clientLanguage": [ "CPP", "JAVA" ], "serviceConfig": { "loadBalancingPolicy": "grpclb", "methodConfig": [ { "name": [ { "service": "all" } ], "timeout": "1s" } ] } }, { "percentage": 0, "serviceConfig": { "loadBalancingPolicy": "grpclb", "methodConfig": [ { "name": [ { "service": "all" } ], "timeout": "1s" } ] } }, { "clientHostName": [ "localhost" ], "serviceConfig": { "loadBalancingPolicy": "grpclb", "methodConfig": [ { "name": [ { "service": "all" } ], "timeout": "1s" } ] } }, { "clientLanguage": [ "GO" ], "percentage": 100, "serviceConfig": { "loadBalancingPolicy": "round_robin", "methodConfig": [ { "name": [ { "service": "foo" } ], "waitForReady": true, "timeout": "1s" }, { "name": [ { "service": "bar" } ], "waitForReady": false } ] } }, { "serviceConfig": { "loadBalancingPolicy": "round_robin", "methodConfig": [ { "name": [ { "service": "foo", "method": "bar" } ], "waitForReady": true } ] } } ]`, `[ { "clientLanguage": [ "CPP", "JAVA" ], "serviceConfig": { "loadBalancingPolicy": "grpclb", "methodConfig": [ { "name": [ { "service": "all" } ], "timeout": "1s" } ] } }, { "percentage": 0, "serviceConfig": { "loadBalancingPolicy": "grpclb", "methodConfig": [ { "name": [ { "service": "all" } ], "timeout": "1s" } ] } }, { "clientHostName": [ "localhost" ], "serviceConfig": { "loadBalancingPolicy": "grpclb", "methodConfig": [ { "name": [ { "service": "all" } ], "timeout": "1s" } ] } } ]`, } // scs contains an array of service config string in JSON format. var scs = []string{ `{ "methodConfig": [ { "name": [ { "method": "bar" } ], "maxRequestMessageBytes": 1024, "maxResponseMessageBytes": 1024 } ] }`, `{ "methodConfig": [ { "name": [ { "service": "foo", "method": "bar" } ], "waitForReady": true, "timeout": "1s", "maxRequestMessageBytes": 1024, "maxResponseMessageBytes": 1024 } ] }`, `{ "loadBalancingPolicy": "round_robin", "methodConfig": [ { "name": [ { "service": "foo" } ], "waitForReady": true, "timeout": "1s" }, { "name": [ { "service": "bar" } ], "waitForReady": false } ] }`, } // scLookupTbl is a map, which contains targets that have service config to // their configs. Targets not in this set should not have service config. var scLookupTbl = map[string]string{ "foo.bar.com": scs[0], "srv.ipv4.single.fake": scs[1], "srv.ipv4.multi.fake": scs[2], } // generateSC returns a service config string in JSON format for the input name. func generateSC(name string) string { return scLookupTbl[name] } // generateSCF generates a slice of strings (aggregately representing a single // service config file) for the input config string, which mocks the result // from a real DNS TXT record lookup. func generateSCF(cfg string) []string { b := append([]byte(txtAttribute), []byte(cfg)...) // Split b into multiple strings, each with a max of 255 bytes, which is // the DNS TXT record limit. var r []string for i := 0; i < len(b); i += txtBytesLimit { if i+txtBytesLimit > len(b) { r = append(r, string(b[i:])) } else { r = append(r, string(b[i:i+txtBytesLimit])) } } return r } var txtLookupTbl = struct { sync.Mutex tbl map[string][]string }{ tbl: map[string][]string{ txtPrefix + "foo.bar.com": generateSCF(scfs[0]), txtPrefix + "srv.ipv4.single.fake": generateSCF(scfs[1]), txtPrefix + "srv.ipv4.multi.fake": generateSCF(scfs[2]), txtPrefix + "srv.ipv6.single.fake": generateSCF(scfs[3]), txtPrefix + "srv.ipv6.multi.fake": generateSCF(scfs[3]), }, } func txtLookup(host string) ([]string, error) { txtLookupTbl.Lock() defer txtLookupTbl.Unlock() if scs, cnt := txtLookupTbl.tbl[host]; cnt { return scs, nil } return nil, &net.DNSError{ Err: "txtLookup error", Name: host, Server: "fake", IsTemporary: true, } } func TestResolve(t *testing.T) { testDNSResolver(t) testDNSResolverWithSRV(t) testDNSResolveNow(t) testIPResolver(t) } func testDNSResolver(t *testing.T) { defer leakcheck.Check(t) defer func(nt func(d time.Duration) *time.Timer) { newTimer = nt }(newTimer) newTimer = func(_ time.Duration) *time.Timer { // Will never fire on its own, will protect from triggering exponential backoff. return time.NewTimer(time.Hour) } tests := []struct { target string addrWant []resolver.Address scWant string }{ { "foo.bar.com", []resolver.Address{{Addr: "1.2.3.4" + colonDefaultPort}, {Addr: "5.6.7.8" + colonDefaultPort}}, generateSC("foo.bar.com"), }, { "foo.bar.com:1234", []resolver.Address{{Addr: "1.2.3.4:1234"}, {Addr: "5.6.7.8:1234"}}, generateSC("foo.bar.com"), }, { "srv.ipv4.single.fake", []resolver.Address{{Addr: "2.4.6.8" + colonDefaultPort}}, generateSC("srv.ipv4.single.fake"), }, { "srv.ipv4.multi.fake", nil, generateSC("srv.ipv4.multi.fake"), }, { "srv.ipv6.single.fake", nil, generateSC("srv.ipv6.single.fake"), }, { "srv.ipv6.multi.fake", nil, generateSC("srv.ipv6.multi.fake"), }, } for _, a := range tests { b := NewBuilder() cc := &testClientConn{target: a.target} r, err := b.Build(resolver.Target{Endpoint: a.target}, cc, resolver.BuildOptions{}) if err != nil { t.Fatalf("%v\n", err) } var state resolver.State var cnt int for i := 0; i < 2000; i++ { state, cnt = cc.getState() if cnt > 0 { break } time.Sleep(time.Millisecond) } if cnt == 0 { t.Fatalf("UpdateState not called after 2s; aborting") } if !cmp.Equal(a.addrWant, state.Addresses, cmpopts.EquateEmpty()) { t.Errorf("Resolved addresses of target: %q = %+v, want %+v", a.target, state.Addresses, a.addrWant) } sc := scFromState(state) if a.scWant != sc { t.Errorf("Resolved service config of target: %q = %+v, want %+v", a.target, sc, a.scWant) } r.Close() } } // DNS Resolver immediately starts polling on an error from grpc. This should continue until the ClientConn doesn't // send back an error from updating the DNS Resolver's state. func TestDNSResolverExponentialBackoff(t *testing.T) { defer leakcheck.Check(t) defer func(nt func(d time.Duration) *time.Timer) { newTimer = nt }(newTimer) timerChan := testutils.NewChannel() newTimer = func(d time.Duration) *time.Timer { // Will never fire on its own, allows this test to call timer immediately. t := time.NewTimer(time.Hour) timerChan.Send(t) return t } tests := []struct { name string target string addrWant []resolver.Address scWant string }{ { "happy case default port", "foo.bar.com", []resolver.Address{{Addr: "1.2.3.4" + colonDefaultPort}, {Addr: "5.6.7.8" + colonDefaultPort}}, generateSC("foo.bar.com"), }, { "happy case specified port", "foo.bar.com:1234", []resolver.Address{{Addr: "1.2.3.4:1234"}, {Addr: "5.6.7.8:1234"}}, generateSC("foo.bar.com"), }, { "happy case another default port", "srv.ipv4.single.fake", []resolver.Address{{Addr: "2.4.6.8" + colonDefaultPort}}, generateSC("srv.ipv4.single.fake"), }, } for _, test := range tests { t.Run(test.name, func(t *testing.T) { b := NewBuilder() cc := &testClientConn{target: test.target} // Cause ClientConn to return an error. cc.updateStateErr = balancer.ErrBadResolverState r, err := b.Build(resolver.Target{Endpoint: test.target}, cc, resolver.BuildOptions{}) if err != nil { t.Fatalf("Error building resolver for target %v: %v", test.target, err) } var state resolver.State var cnt int for i := 0; i < 2000; i++ { state, cnt = cc.getState() if cnt > 0 { break } time.Sleep(time.Millisecond) } if cnt == 0 { t.Fatalf("UpdateState not called after 2s; aborting") } if !reflect.DeepEqual(test.addrWant, state.Addresses) { t.Errorf("Resolved addresses of target: %q = %+v, want %+v", test.target, state.Addresses, test.addrWant) } sc := scFromState(state) if test.scWant != sc { t.Errorf("Resolved service config of target: %q = %+v, want %+v", test.target, sc, test.scWant) } ctx, ctxCancel := context.WithTimeout(context.Background(), defaultTestTimeout) defer ctxCancel() // Cause timer to go off 10 times, and see if it calls updateState() correctly. for i := 0; i < 10; i++ { timer, err := timerChan.Receive(ctx) if err != nil { t.Fatalf("Error receiving timer from mock NewTimer call: %v", err) } timerPointer := timer.(*time.Timer) timerPointer.Reset(0) } // Poll to see if DNS Resolver updated state the correct number of times, which allows time for the DNS Resolver to call // ClientConn update state. deadline := time.Now().Add(defaultTestTimeout) for { cc.m1.Lock() got := cc.updateStateCalls cc.m1.Unlock() if got == 11 { break } if time.Now().After(deadline) { t.Fatalf("Exponential backoff is not working as expected - should update state 11 times instead of %d", got) } time.Sleep(time.Millisecond) } // Update resolver.ClientConn to not return an error anymore - this should stop it from backing off. cc.updateStateErr = nil timer, err := timerChan.Receive(ctx) if err != nil { t.Fatalf("Error receiving timer from mock NewTimer call: %v", err) } timerPointer := timer.(*time.Timer) timerPointer.Reset(0) // Poll to see if DNS Resolver updated state the correct number of times, which allows time for the DNS Resolver to call // ClientConn update state the final time. The DNS Resolver should then stop polling. deadline = time.Now().Add(defaultTestTimeout) for { cc.m1.Lock() got := cc.updateStateCalls cc.m1.Unlock() if got == 12 { break } if time.Now().After(deadline) { t.Fatalf("Exponential backoff is not working as expected - should stop backing off at 12 total UpdateState calls instead of %d", got) } _, err := timerChan.ReceiveOrFail() if err { t.Fatalf("Should not poll again after Client Conn stops returning error.") } time.Sleep(time.Millisecond) } r.Close() }) } } func testDNSResolverWithSRV(t *testing.T) { EnableSRVLookups = true defer func() { EnableSRVLookups = false }() defer leakcheck.Check(t) defer func(nt func(d time.Duration) *time.Timer) { newTimer = nt }(newTimer) newTimer = func(_ time.Duration) *time.Timer { // Will never fire on its own, will protect from triggering exponential backoff. return time.NewTimer(time.Hour) } tests := []struct { target string addrWant []resolver.Address grpclbAddrs []resolver.Address scWant string }{ { "foo.bar.com", []resolver.Address{{Addr: "1.2.3.4" + colonDefaultPort}, {Addr: "5.6.7.8" + colonDefaultPort}}, nil, generateSC("foo.bar.com"), }, { "foo.bar.com:1234", []resolver.Address{{Addr: "1.2.3.4:1234"}, {Addr: "5.6.7.8:1234"}}, nil, generateSC("foo.bar.com"), }, { "srv.ipv4.single.fake", []resolver.Address{{Addr: "2.4.6.8" + colonDefaultPort}}, []resolver.Address{{Addr: "1.2.3.4:1234", ServerName: "ipv4.single.fake"}}, generateSC("srv.ipv4.single.fake"), }, { "srv.ipv4.multi.fake", nil, []resolver.Address{ {Addr: "1.2.3.4:1234", ServerName: "ipv4.multi.fake"}, {Addr: "5.6.7.8:1234", ServerName: "ipv4.multi.fake"}, {Addr: "9.10.11.12:1234", ServerName: "ipv4.multi.fake"}, }, generateSC("srv.ipv4.multi.fake"), }, { "srv.ipv6.single.fake", nil, []resolver.Address{{Addr: "[2607:f8b0:400a:801::1001]:1234", ServerName: "ipv6.single.fake"}}, generateSC("srv.ipv6.single.fake"), }, { "srv.ipv6.multi.fake", nil, []resolver.Address{ {Addr: "[2607:f8b0:400a:801::1001]:1234", ServerName: "ipv6.multi.fake"}, {Addr: "[2607:f8b0:400a:801::1002]:1234", ServerName: "ipv6.multi.fake"}, {Addr: "[2607:f8b0:400a:801::1003]:1234", ServerName: "ipv6.multi.fake"}, }, generateSC("srv.ipv6.multi.fake"), }, } for _, a := range tests { b := NewBuilder() cc := &testClientConn{target: a.target} r, err := b.Build(resolver.Target{Endpoint: a.target}, cc, resolver.BuildOptions{}) if err != nil { t.Fatalf("%v\n", err) } defer r.Close() var state resolver.State var cnt int for i := 0; i < 2000; i++ { state, cnt = cc.getState() if cnt > 0 { break } time.Sleep(time.Millisecond) } if cnt == 0 { t.Fatalf("UpdateState not called after 2s; aborting") } if !cmp.Equal(a.addrWant, state.Addresses, cmpopts.EquateEmpty()) { t.Errorf("Resolved addresses of target: %q = %+v, want %+v", a.target, state.Addresses, a.addrWant) } gs := grpclbstate.Get(state) if (gs == nil && len(a.grpclbAddrs) > 0) || (gs != nil && !reflect.DeepEqual(a.grpclbAddrs, gs.BalancerAddresses)) { t.Errorf("Resolved state of target: %q = %+v (State=%+v), want state.Attributes.State=%+v", a.target, state, gs, a.grpclbAddrs) } sc := scFromState(state) if a.scWant != sc { t.Errorf("Resolved service config of target: %q = %+v, want %+v", a.target, sc, a.scWant) } } } func mutateTbl(target string) func() { hostLookupTbl.Lock() oldHostTblEntry := hostLookupTbl.tbl[target] hostLookupTbl.tbl[target] = hostLookupTbl.tbl[target][:len(oldHostTblEntry)-1] hostLookupTbl.Unlock() txtLookupTbl.Lock() oldTxtTblEntry := txtLookupTbl.tbl[txtPrefix+target] txtLookupTbl.tbl[txtPrefix+target] = []string{txtAttribute + `[{"serviceConfig":{"loadBalancingPolicy": "grpclb"}}]`} txtLookupTbl.Unlock() return func() { hostLookupTbl.Lock() hostLookupTbl.tbl[target] = oldHostTblEntry hostLookupTbl.Unlock() txtLookupTbl.Lock() if len(oldTxtTblEntry) == 0 { delete(txtLookupTbl.tbl, txtPrefix+target) } else { txtLookupTbl.tbl[txtPrefix+target] = oldTxtTblEntry } txtLookupTbl.Unlock() } } func testDNSResolveNow(t *testing.T) { defer leakcheck.Check(t) defer func(nt func(d time.Duration) *time.Timer) { newTimer = nt }(newTimer) newTimer = func(_ time.Duration) *time.Timer { // Will never fire on its own, will protect from triggering exponential backoff. return time.NewTimer(time.Hour) } tests := []struct { target string addrWant []resolver.Address addrNext []resolver.Address scWant string scNext string }{ { "foo.bar.com", []resolver.Address{{Addr: "1.2.3.4" + colonDefaultPort}, {Addr: "5.6.7.8" + colonDefaultPort}}, []resolver.Address{{Addr: "1.2.3.4" + colonDefaultPort}}, generateSC("foo.bar.com"), `{"loadBalancingPolicy": "grpclb"}`, }, } for _, a := range tests { b := NewBuilder() cc := &testClientConn{target: a.target} r, err := b.Build(resolver.Target{Endpoint: a.target}, cc, resolver.BuildOptions{}) if err != nil { t.Fatalf("%v\n", err) } defer r.Close() var state resolver.State var cnt int for i := 0; i < 2000; i++ { state, cnt = cc.getState() if cnt > 0 { break } time.Sleep(time.Millisecond) } if cnt == 0 { t.Fatalf("UpdateState not called after 2s; aborting. state=%v", state) } if !reflect.DeepEqual(a.addrWant, state.Addresses) { t.Errorf("Resolved addresses of target: %q = %+v, want %+v", a.target, state.Addresses, a.addrWant) } sc := scFromState(state) if a.scWant != sc { t.Errorf("Resolved service config of target: %q = %+v, want %+v", a.target, sc, a.scWant) } revertTbl := mutateTbl(a.target) r.ResolveNow(resolver.ResolveNowOptions{}) for i := 0; i < 2000; i++ { state, cnt = cc.getState() if cnt == 2 { break } time.Sleep(time.Millisecond) } if cnt != 2 { t.Fatalf("UpdateState not called after 2s; aborting. state=%v", state) } sc = scFromState(state) if !reflect.DeepEqual(a.addrNext, state.Addresses) { t.Errorf("Resolved addresses of target: %q = %+v, want %+v", a.target, state.Addresses, a.addrNext) } if a.scNext != sc { t.Errorf("Resolved service config of target: %q = %+v, want %+v", a.target, sc, a.scNext) } revertTbl() } } const colonDefaultPort = ":" + defaultPort func testIPResolver(t *testing.T) { defer leakcheck.Check(t) defer func(nt func(d time.Duration) *time.Timer) { newTimer = nt }(newTimer) newTimer = func(_ time.Duration) *time.Timer { // Will never fire on its own, will protect from triggering exponential backoff. return time.NewTimer(time.Hour) } tests := []struct { target string want []resolver.Address }{ {"127.0.0.1", []resolver.Address{{Addr: "127.0.0.1" + colonDefaultPort}}}, {"127.0.0.1:12345", []resolver.Address{{Addr: "127.0.0.1:12345"}}}, {"::1", []resolver.Address{{Addr: "[::1]" + colonDefaultPort}}}, {"[::1]:12345", []resolver.Address{{Addr: "[::1]:12345"}}}, {"[::1]", []resolver.Address{{Addr: "[::1]:443"}}}, {"2001:db8:85a3::8a2e:370:7334", []resolver.Address{{Addr: "[2001:db8:85a3::8a2e:370:7334]" + colonDefaultPort}}}, {"[2001:db8:85a3::8a2e:370:7334]", []resolver.Address{{Addr: "[2001:db8:85a3::8a2e:370:7334]" + colonDefaultPort}}}, {"[2001:db8:85a3::8a2e:370:7334]:12345", []resolver.Address{{Addr: "[2001:db8:85a3::8a2e:370:7334]:12345"}}}, {"[2001:db8::1]:http", []resolver.Address{{Addr: "[2001:db8::1]:http"}}}, // TODO(yuxuanli): zone support? } for _, v := range tests { b := NewBuilder() cc := &testClientConn{target: v.target} r, err := b.Build(resolver.Target{Endpoint: v.target}, cc, resolver.BuildOptions{}) if err != nil { t.Fatalf("%v\n", err) } var state resolver.State var cnt int for { state, cnt = cc.getState() if cnt > 0 { break } time.Sleep(time.Millisecond) } if !reflect.DeepEqual(v.want, state.Addresses) { t.Errorf("Resolved addresses of target: %q = %+v, want %+v", v.target, state.Addresses, v.want) } r.ResolveNow(resolver.ResolveNowOptions{}) for i := 0; i < 50; i++ { state, cnt = cc.getState() if cnt > 1 { t.Fatalf("Unexpected second call by resolver to UpdateState. state: %v", state) } time.Sleep(time.Millisecond) } r.Close() } } func TestResolveFunc(t *testing.T) { defer leakcheck.Check(t) defer func(nt func(d time.Duration) *time.Timer) { newTimer = nt }(newTimer) newTimer = func(d time.Duration) *time.Timer { // Will never fire on its own, will protect from triggering exponential backoff. return time.NewTimer(time.Hour) } tests := []struct { addr string want error }{ // TODO(yuxuanli): More false cases? {"www.google.com", nil}, {"foo.bar:12345", nil}, {"127.0.0.1", nil}, {"::", nil}, {"127.0.0.1:12345", nil}, {"[::1]:80", nil}, {"[2001:db8:a0b:12f0::1]:21", nil}, {":80", nil}, {"127.0.0...1:12345", nil}, {"[fe80::1%lo0]:80", nil}, {"golang.org:http", nil}, {"[2001:db8::1]:http", nil}, {"[2001:db8::1]:", errEndsWithColon}, {":", errEndsWithColon}, {"", errMissingAddr}, {"[2001:db8:a0b:12f0::1", fmt.Errorf("invalid target address [2001:db8:a0b:12f0::1, error info: address [2001:db8:a0b:12f0::1:443: missing ']' in address")}, } b := NewBuilder() for _, v := range tests { cc := &testClientConn{target: v.addr, errChan: make(chan error, 1)} r, err := b.Build(resolver.Target{Endpoint: v.addr}, cc, resolver.BuildOptions{}) if err == nil { r.Close() } if !reflect.DeepEqual(err, v.want) { t.Errorf("Build(%q, cc, _) = %v, want %v", v.addr, err, v.want) } } } func TestDisableServiceConfig(t *testing.T) { defer leakcheck.Check(t) defer func(nt func(d time.Duration) *time.Timer) { newTimer = nt }(newTimer) newTimer = func(d time.Duration) *time.Timer { // Will never fire on its own, will protect from triggering exponential backoff. return time.NewTimer(time.Hour) } tests := []struct { target string scWant string disableServiceConfig bool }{ { "foo.bar.com", generateSC("foo.bar.com"), false, }, { "foo.bar.com", "", true, }, } for _, a := range tests { b := NewBuilder() cc := &testClientConn{target: a.target} r, err := b.Build(resolver.Target{Endpoint: a.target}, cc, resolver.BuildOptions{DisableServiceConfig: a.disableServiceConfig}) if err != nil { t.Fatalf("%v\n", err) } defer r.Close() var cnt int var state resolver.State for i := 0; i < 2000; i++ { state, cnt = cc.getState() if cnt > 0 { break } time.Sleep(time.Millisecond) } if cnt == 0 { t.Fatalf("UpdateState not called after 2s; aborting") } sc := scFromState(state) if a.scWant != sc { t.Errorf("Resolved service config of target: %q = %+v, want %+v", a.target, sc, a.scWant) } } } func TestTXTError(t *testing.T) { defer leakcheck.Check(t) defer func(nt func(d time.Duration) *time.Timer) { newTimer = nt }(newTimer) newTimer = func(d time.Duration) *time.Timer { // Will never fire on its own, will protect from triggering exponential backoff. return time.NewTimer(time.Hour) } defer func(v bool) { envconfig.TXTErrIgnore = v }(envconfig.TXTErrIgnore) for _, ignore := range []bool{false, true} { envconfig.TXTErrIgnore = ignore b := NewBuilder() cc := &testClientConn{target: "ipv4.single.fake"} // has A records but not TXT records. r, err := b.Build(resolver.Target{Endpoint: "ipv4.single.fake"}, cc, resolver.BuildOptions{}) if err != nil { t.Fatalf("%v\n", err) } defer r.Close() var cnt int var state resolver.State for i := 0; i < 2000; i++ { state, cnt = cc.getState() if cnt > 0 { break } time.Sleep(time.Millisecond) } if cnt == 0 { t.Fatalf("UpdateState not called after 2s; aborting") } if !ignore && (state.ServiceConfig == nil || state.ServiceConfig.Err == nil) { t.Errorf("state.ServiceConfig = %v; want non-nil error", state.ServiceConfig) } else if ignore && state.ServiceConfig != nil { t.Errorf("state.ServiceConfig = %v; want nil", state.ServiceConfig) } } } func TestDNSResolverRetry(t *testing.T) { defer func(nt func(d time.Duration) *time.Timer) { newTimer = nt }(newTimer) newTimer = func(d time.Duration) *time.Timer { // Will never fire on its own, will protect from triggering exponential backoff. return time.NewTimer(time.Hour) } b := NewBuilder() target := "ipv4.single.fake" cc := &testClientConn{target: target} r, err := b.Build(resolver.Target{Endpoint: target}, cc, resolver.BuildOptions{}) if err != nil { t.Fatalf("%v\n", err) } defer r.Close() var state resolver.State for i := 0; i < 2000; i++ { state, _ = cc.getState() if len(state.Addresses) == 1 { break } time.Sleep(time.Millisecond) } if len(state.Addresses) != 1 { t.Fatalf("UpdateState not called with 1 address after 2s; aborting. state=%v", state) } want := []resolver.Address{{Addr: "1.2.3.4" + colonDefaultPort}} if !reflect.DeepEqual(want, state.Addresses) { t.Errorf("Resolved addresses of target: %q = %+v, want %+v", target, state.Addresses, want) } // mutate the host lookup table so the target has 0 address returned. revertTbl := mutateTbl(target) // trigger a resolve that will get empty address list r.ResolveNow(resolver.ResolveNowOptions{}) for i := 0; i < 2000; i++ { state, _ = cc.getState() if len(state.Addresses) == 0 { break } time.Sleep(time.Millisecond) } if len(state.Addresses) != 0 { t.Fatalf("UpdateState not called with 0 address after 2s; aborting. state=%v", state) } revertTbl() // wait for the retry to happen in two seconds. r.ResolveNow(resolver.ResolveNowOptions{}) for i := 0; i < 2000; i++ { state, _ = cc.getState() if len(state.Addresses) == 1 { break } time.Sleep(time.Millisecond) } if !reflect.DeepEqual(want, state.Addresses) { t.Errorf("Resolved addresses of target: %q = %+v, want %+v", target, state.Addresses, want) } } func TestCustomAuthority(t *testing.T) { defer leakcheck.Check(t) defer func(nt func(d time.Duration) *time.Timer) { newTimer = nt }(newTimer) newTimer = func(d time.Duration) *time.Timer { // Will never fire on its own, will protect from triggering exponential backoff. return time.NewTimer(time.Hour) } tests := []struct { authority string authorityWant string expectError bool }{ { "4.3.2.1:" + defaultDNSSvrPort, "4.3.2.1:" + defaultDNSSvrPort, false, }, { "4.3.2.1:123", "4.3.2.1:123", false, }, { "4.3.2.1", "4.3.2.1:" + defaultDNSSvrPort, false, }, { "::1", "[::1]:" + defaultDNSSvrPort, false, }, { "[::1]", "[::1]:" + defaultDNSSvrPort, false, }, { "[::1]:123", "[::1]:123", false, }, { "dnsserver.com", "dnsserver.com:" + defaultDNSSvrPort, false, }, { ":123", "localhost:123", false, }, { ":", "", true, }, { "[::1]:", "", true, }, { "dnsserver.com:", "", true, }, } oldCustomAuthorityDialler := customAuthorityDialler defer func() { customAuthorityDialler = oldCustomAuthorityDialler }() for _, a := range tests { errChan := make(chan error, 1) customAuthorityDialler = func(authority string) func(ctx context.Context, network, address string) (net.Conn, error) { if authority != a.authorityWant { errChan <- fmt.Errorf("wrong custom authority passed to resolver. input: %s expected: %s actual: %s", a.authority, a.authorityWant, authority) } else { errChan <- nil } return func(ctx context.Context, network, address string) (net.Conn, error) { return nil, errors.New("no need to dial") } } b := NewBuilder() cc := &testClientConn{target: "foo.bar.com", errChan: make(chan error, 1)} r, err := b.Build(resolver.Target{Endpoint: "foo.bar.com", Authority: a.authority}, cc, resolver.BuildOptions{}) if err == nil { r.Close() err = <-errChan if err != nil { t.Errorf(err.Error()) } if a.expectError { t.Errorf("custom authority should have caused an error: %s", a.authority) } } else if !a.expectError { t.Errorf("unexpected error using custom authority %s: %s", a.authority, err) } } } // TestRateLimitedResolve exercises the rate limit enforced on re-resolution // requests. It sets the re-resolution rate to a small value and repeatedly // calls ResolveNow() and ensures only the expected number of resolution // requests are made. func TestRateLimitedResolve(t *testing.T) { defer leakcheck.Check(t) defer func(nt func(d time.Duration) *time.Timer) { newTimer = nt }(newTimer) newTimer = func(d time.Duration) *time.Timer { // Will never fire on its own, will protect from triggering exponential // backoff. return time.NewTimer(time.Hour) } defer func(nt func(d time.Duration) *time.Timer) { newTimerDNSResRate = nt }(newTimerDNSResRate) timerChan := testutils.NewChannel() newTimerDNSResRate = func(d time.Duration) *time.Timer { // Will never fire on its own, allows this test to call timer // immediately. t := time.NewTimer(time.Hour) timerChan.Send(t) return t } // Create a new testResolver{} for this test because we want the exact count // of the number of times the resolver was invoked. nc := overrideDefaultResolver(true) defer nc() target := "foo.bar.com" b := NewBuilder() cc := &testClientConn{target: target} r, err := b.Build(resolver.Target{Endpoint: target}, cc, resolver.BuildOptions{}) if err != nil { t.Fatalf("resolver.Build() returned error: %v\n", err) } defer r.Close() dnsR, ok := r.(*dnsResolver) if !ok { t.Fatalf("resolver.Build() returned unexpected type: %T\n", dnsR) } tr, ok := dnsR.resolver.(*testResolver) if !ok { t.Fatalf("delegate resolver returned unexpected type: %T\n", tr) } ctx, cancel := context.WithTimeout(context.Background(), defaultTestTimeout) defer cancel() // Wait for the first resolution request to be done. This happens as part // of the first iteration of the for loop in watcher(). if _, err := tr.lookupHostCh.Receive(ctx); err != nil { t.Fatalf("Timed out waiting for lookup() call.") } // Call Resolve Now 100 times, shouldn't continue onto next iteration of // watcher, thus shouldn't lookup again. for i := 0; i <= 100; i++ { r.ResolveNow(resolver.ResolveNowOptions{}) } continueCtx, continueCancel := context.WithTimeout(context.Background(), defaultTestShortTimeout) defer continueCancel() if _, err := tr.lookupHostCh.Receive(continueCtx); err == nil { t.Fatalf("Should not have looked up again as DNS Min Res Rate timer has not gone off.") } // Make the DNSMinResRate timer fire immediately (by receiving it, then // resetting to 0), this will unblock the resolver which is currently // blocked on the DNS Min Res Rate timer going off, which will allow it to // continue to the next iteration of the watcher loop. timer, err := timerChan.Receive(ctx) if err != nil { t.Fatalf("Error receiving timer from mock NewTimer call: %v", err) } timerPointer := timer.(*time.Timer) timerPointer.Reset(0) // Now that DNS Min Res Rate timer has gone off, it should lookup again. if _, err := tr.lookupHostCh.Receive(ctx); err != nil { t.Fatalf("Timed out waiting for lookup() call.") } // Resolve Now 1000 more times, shouldn't lookup again as DNS Min Res Rate // timer has not gone off. for i := 0; i < 1000; i++ { r.ResolveNow(resolver.ResolveNowOptions{}) } if _, err = tr.lookupHostCh.Receive(continueCtx); err == nil { t.Fatalf("Should not have looked up again as DNS Min Res Rate timer has not gone off.") } // Make the DNSMinResRate timer fire immediately again. timer, err = timerChan.Receive(ctx) if err != nil { t.Fatalf("Error receiving timer from mock NewTimer call: %v", err) } timerPointer = timer.(*time.Timer) timerPointer.Reset(0) // Now that DNS Min Res Rate timer has gone off, it should lookup again. if _, err = tr.lookupHostCh.Receive(ctx); err != nil { t.Fatalf("Timed out waiting for lookup() call.") } wantAddrs := []resolver.Address{{Addr: "1.2.3.4" + colonDefaultPort}, {Addr: "5.6.7.8" + colonDefaultPort}} var state resolver.State for { var cnt int state, cnt = cc.getState() if cnt > 0 { break } time.Sleep(time.Millisecond) } if !reflect.DeepEqual(state.Addresses, wantAddrs) { t.Errorf("Resolved addresses of target: %q = %+v, want %+v", target, state.Addresses, wantAddrs) } } // DNS Resolver immediately starts polling on an error. This will cause the re-resolution to return another error. // Thus, test that it constantly sends errors to the grpc.ClientConn. func TestReportError(t *testing.T) { const target = "notfoundaddress" defer func(nt func(d time.Duration) *time.Timer) { newTimer = nt }(newTimer) timerChan := testutils.NewChannel() newTimer = func(d time.Duration) *time.Timer { // Will never fire on its own, allows this test to call timer immediately. t := time.NewTimer(time.Hour) timerChan.Send(t) return t } cc := &testClientConn{target: target, errChan: make(chan error)} totalTimesCalledError := 0 b := NewBuilder() r, err := b.Build(resolver.Target{Endpoint: target}, cc, resolver.BuildOptions{}) if err != nil { t.Fatalf("Error building resolver for target %v: %v", target, err) } // Should receive first error. err = <-cc.errChan if !strings.Contains(err.Error(), "hostLookup error") { t.Fatalf(`ReportError(err=%v) called; want err contains "hostLookupError"`, err) } totalTimesCalledError++ ctx, ctxCancel := context.WithTimeout(context.Background(), defaultTestTimeout) defer ctxCancel() timer, err := timerChan.Receive(ctx) if err != nil { t.Fatalf("Error receiving timer from mock NewTimer call: %v", err) } timerPointer := timer.(*time.Timer) timerPointer.Reset(0) defer r.Close() // Cause timer to go off 10 times, and see if it matches DNS Resolver updating Error. for i := 0; i < 10; i++ { // Should call ReportError(). err = <-cc.errChan if !strings.Contains(err.Error(), "hostLookup error") { t.Fatalf(`ReportError(err=%v) called; want err contains "hostLookupError"`, err) } totalTimesCalledError++ timer, err := timerChan.Receive(ctx) if err != nil { t.Fatalf("Error receiving timer from mock NewTimer call: %v", err) } timerPointer := timer.(*time.Timer) timerPointer.Reset(0) } if totalTimesCalledError != 11 { t.Errorf("ReportError() not called 11 times, instead called %d times.", totalTimesCalledError) } // Clean up final watcher iteration. <-cc.errChan _, err = timerChan.Receive(ctx) if err != nil { t.Fatalf("Error receiving timer from mock NewTimer call: %v", err) } }