// Copyright 2016 The etcd 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 integration import ( "context" "crypto/tls" "errors" "fmt" "io" "log" "math/rand" "net" "net/http" "net/http/httptest" "os" "reflect" "sort" "strings" "sync" "sync/atomic" "testing" "time" "github.com/google/go-cmp/cmp" "github.com/google/go-cmp/cmp/cmpopts" "github.com/soheilhy/cmux" "go.uber.org/zap" "go.uber.org/zap/zapcore" "go.uber.org/zap/zaptest" "golang.org/x/crypto/bcrypt" "google.golang.org/grpc" "google.golang.org/grpc/keepalive" pb "go.etcd.io/etcd/api/v3/etcdserverpb" "go.etcd.io/etcd/client/pkg/v3/testutil" "go.etcd.io/etcd/client/pkg/v3/tlsutil" "go.etcd.io/etcd/client/pkg/v3/transport" "go.etcd.io/etcd/client/pkg/v3/types" clientv3 "go.etcd.io/etcd/client/v3" "go.etcd.io/etcd/pkg/v3/featuregate" "go.etcd.io/etcd/pkg/v3/grpctesting" "go.etcd.io/etcd/server/v3/config" "go.etcd.io/etcd/server/v3/embed" "go.etcd.io/etcd/server/v3/etcdserver" "go.etcd.io/etcd/server/v3/etcdserver/api/etcdhttp" "go.etcd.io/etcd/server/v3/etcdserver/api/membership" "go.etcd.io/etcd/server/v3/etcdserver/api/rafthttp" "go.etcd.io/etcd/server/v3/etcdserver/api/v3client" "go.etcd.io/etcd/server/v3/etcdserver/api/v3election" epb "go.etcd.io/etcd/server/v3/etcdserver/api/v3election/v3electionpb" "go.etcd.io/etcd/server/v3/etcdserver/api/v3lock" lockpb "go.etcd.io/etcd/server/v3/etcdserver/api/v3lock/v3lockpb" "go.etcd.io/etcd/server/v3/etcdserver/api/v3rpc" "go.etcd.io/etcd/server/v3/features" "go.etcd.io/etcd/server/v3/verify" framecfg "go.etcd.io/etcd/tests/v3/framework/config" "go.etcd.io/etcd/tests/v3/framework/testutils" "go.etcd.io/raft/v3" ) const ( // RequestWaitTimeout is the time duration to wait for a request to go through or detect leader loss. RequestWaitTimeout = 5 * time.Second RequestTimeout = 20 * time.Second ClusterName = "etcd" BasePort = 21000 URLScheme = "unix" URLSchemeTLS = "unixs" BaseGRPCPort = 30000 ) var ( ElectionTicks = 10 // UniqueCount integration test is used to set unique member ids UniqueCount = int32(0) TestTLSInfo = transport.TLSInfo{ KeyFile: testutils.MustAbsPath("../fixtures/server.key.insecure"), CertFile: testutils.MustAbsPath("../fixtures/server.crt"), TrustedCAFile: testutils.MustAbsPath("../fixtures/ca.crt"), ClientCertAuth: true, } TestTLSInfoWithSpecificUsage = transport.TLSInfo{ KeyFile: testutils.MustAbsPath("../fixtures/server-serverusage.key.insecure"), CertFile: testutils.MustAbsPath("../fixtures/server-serverusage.crt"), ClientKeyFile: testutils.MustAbsPath("../fixtures/client-clientusage.key.insecure"), ClientCertFile: testutils.MustAbsPath("../fixtures/client-clientusage.crt"), TrustedCAFile: testutils.MustAbsPath("../fixtures/ca.crt"), ClientCertAuth: true, } TestTLSInfoIP = transport.TLSInfo{ KeyFile: testutils.MustAbsPath("../fixtures/server-ip.key.insecure"), CertFile: testutils.MustAbsPath("../fixtures/server-ip.crt"), TrustedCAFile: testutils.MustAbsPath("../fixtures/ca.crt"), ClientCertAuth: true, } TestTLSInfoExpired = transport.TLSInfo{ KeyFile: testutils.MustAbsPath("./fixtures-expired/server.key.insecure"), CertFile: testutils.MustAbsPath("./fixtures-expired/server.crt"), TrustedCAFile: testutils.MustAbsPath("./fixtures-expired/ca.crt"), ClientCertAuth: true, } TestTLSInfoExpiredIP = transport.TLSInfo{ KeyFile: testutils.MustAbsPath("./fixtures-expired/server-ip.key.insecure"), CertFile: testutils.MustAbsPath("./fixtures-expired/server-ip.crt"), TrustedCAFile: testutils.MustAbsPath("./fixtures-expired/ca.crt"), ClientCertAuth: true, } DefaultTokenJWT = fmt.Sprintf("jwt,pub-key=%s,priv-key=%s,sign-method=RS256,ttl=2s", testutils.MustAbsPath("../fixtures/server.crt"), testutils.MustAbsPath("../fixtures/server.key.insecure")) // UniqueNumber is used to generate unique port numbers // Should only be accessed via atomic package methods. UniqueNumber int32 ) type ClusterConfig struct { Size int PeerTLS *transport.TLSInfo ClientTLS *transport.TLSInfo AuthToken string QuotaBackendBytes int64 BackendBatchInterval time.Duration MaxTxnOps uint MaxRequestBytes uint SnapshotCount uint64 SnapshotCatchUpEntries uint64 GRPCKeepAliveMinTime time.Duration GRPCKeepAliveInterval time.Duration GRPCKeepAliveTimeout time.Duration GRPCAdditionalServerOptions []grpc.ServerOption ClientMaxCallSendMsgSize int ClientMaxCallRecvMsgSize int // UseIP is true to use only IP for gRPC requests. UseIP bool // UseBridge adds bridge between client and grpc server. Should be used in tests that // want to manipulate connection or require connection not breaking despite server stop/restart. UseBridge bool // UseTCP configures server listen on tcp socket. If disabled unix socket is used. UseTCP bool EnableLeaseCheckpoint bool LeaseCheckpointInterval time.Duration LeaseCheckpointPersist bool WatchProgressNotifyInterval time.Duration MaxLearners int DisableStrictReconfigCheck bool CorruptCheckTime time.Duration Metrics string } type Cluster struct { Cfg *ClusterConfig Members []*Member LastMemberNum int mu sync.Mutex } func SchemeFromTLSInfo(tls *transport.TLSInfo) string { if tls == nil { return URLScheme } return URLSchemeTLS } // fillClusterForMembers fills up Member.InitialPeerURLsMap from each member's [name, scheme and PeerListeners address] func (c *Cluster) fillClusterForMembers() error { addrs := make([]string, 0) for _, m := range c.Members { scheme := SchemeFromTLSInfo(m.PeerTLSInfo) for _, l := range m.PeerListeners { addrs = append(addrs, fmt.Sprintf("%s=%s://%s", m.Name, scheme, l.Addr().String())) } } clusterStr := strings.Join(addrs, ",") var err error for _, m := range c.Members { m.InitialPeerURLsMap, err = types.NewURLsMap(clusterStr) if err != nil { return err } } return nil } func (c *Cluster) Launch(t testutil.TB) { t.Logf("Launching new cluster...") errc := make(chan error) for _, m := range c.Members { // Members are launched in separate goroutines because if they boot // using discovery url, they have to wait for others to register to continue. go func(m *Member) { errc <- m.Launch() }(m) } for range c.Members { if err := <-errc; err != nil { c.Terminate(t) t.Fatalf("error setting up member: %v", err) } } // wait Cluster to be stable to receive future client requests c.WaitMembersMatch(t, c.ProtoMembers()) c.waitVersion() for _, m := range c.Members { t.Logf(" - %v -> %v (%v)", m.Name, m.ID(), m.GRPCURL) } } // ProtoMembers returns a list of all active members as etcdserverpb.Member func (c *Cluster) ProtoMembers() []*pb.Member { var ms []*pb.Member for _, m := range c.Members { pScheme := SchemeFromTLSInfo(m.PeerTLSInfo) cScheme := SchemeFromTLSInfo(m.ClientTLSInfo) cm := &pb.Member{Name: m.Name} for _, ln := range m.PeerListeners { cm.PeerURLs = append(cm.PeerURLs, pScheme+"://"+ln.Addr().String()) } for _, ln := range m.ClientListeners { cm.ClientURLs = append(cm.ClientURLs, cScheme+"://"+ln.Addr().String()) } ms = append(ms, cm) } return ms } func (c *Cluster) MustNewMember(t testutil.TB) *Member { memberNumber := c.LastMemberNum c.LastMemberNum++ m := MustNewMember(t, MemberConfig{ Name: fmt.Sprintf("m%v", memberNumber), MemberNumber: memberNumber, AuthToken: c.Cfg.AuthToken, PeerTLS: c.Cfg.PeerTLS, ClientTLS: c.Cfg.ClientTLS, QuotaBackendBytes: c.Cfg.QuotaBackendBytes, BackendBatchInterval: c.Cfg.BackendBatchInterval, MaxTxnOps: c.Cfg.MaxTxnOps, MaxRequestBytes: c.Cfg.MaxRequestBytes, SnapshotCount: c.Cfg.SnapshotCount, SnapshotCatchUpEntries: c.Cfg.SnapshotCatchUpEntries, GRPCKeepAliveMinTime: c.Cfg.GRPCKeepAliveMinTime, GRPCKeepAliveInterval: c.Cfg.GRPCKeepAliveInterval, GRPCKeepAliveTimeout: c.Cfg.GRPCKeepAliveTimeout, GRPCAdditionalServerOptions: c.Cfg.GRPCAdditionalServerOptions, ClientMaxCallSendMsgSize: c.Cfg.ClientMaxCallSendMsgSize, ClientMaxCallRecvMsgSize: c.Cfg.ClientMaxCallRecvMsgSize, UseIP: c.Cfg.UseIP, UseBridge: c.Cfg.UseBridge, UseTCP: c.Cfg.UseTCP, EnableLeaseCheckpoint: c.Cfg.EnableLeaseCheckpoint, LeaseCheckpointInterval: c.Cfg.LeaseCheckpointInterval, LeaseCheckpointPersist: c.Cfg.LeaseCheckpointPersist, WatchProgressNotifyInterval: c.Cfg.WatchProgressNotifyInterval, MaxLearners: c.Cfg.MaxLearners, DisableStrictReconfigCheck: c.Cfg.DisableStrictReconfigCheck, CorruptCheckTime: c.Cfg.CorruptCheckTime, Metrics: c.Cfg.Metrics, }) return m } // addMember return PeerURLs of the added member. func (c *Cluster) addMember(t testutil.TB) types.URLs { m := c.MustNewMember(t) scheme := SchemeFromTLSInfo(c.Cfg.PeerTLS) // send add request to the Cluster var err error for i := 0; i < len(c.Members); i++ { peerURL := scheme + "://" + m.PeerListeners[0].Addr().String() if err = c.AddMemberByURL(t, c.Members[i].Client, peerURL); err == nil { break } } if err != nil { t.Fatalf("add member failed on all members error: %v", err) } m.InitialPeerURLsMap = types.URLsMap{} for _, mm := range c.Members { m.InitialPeerURLsMap[mm.Name] = mm.PeerURLs } m.InitialPeerURLsMap[m.Name] = m.PeerURLs m.NewCluster = false if err := m.Launch(); err != nil { t.Fatal(err) } c.Members = append(c.Members, m) // wait Cluster to be stable to receive future client requests c.WaitMembersMatch(t, c.ProtoMembers()) return m.PeerURLs } func (c *Cluster) AddMemberByURL(t testutil.TB, cc *clientv3.Client, peerURL string) error { ctx, cancel := context.WithTimeout(context.Background(), RequestTimeout) _, err := cc.MemberAdd(ctx, []string{peerURL}) cancel() if err != nil { return err } // wait for the add node entry applied in the Cluster members := append(c.ProtoMembers(), &pb.Member{PeerURLs: []string{peerURL}, ClientURLs: []string{}}) c.WaitMembersMatch(t, members) return nil } // AddMember return PeerURLs of the added member. func (c *Cluster) AddMember(t testutil.TB) types.URLs { return c.addMember(t) } func (c *Cluster) RemoveMember(t testutil.TB, cc *clientv3.Client, id uint64) error { // send remove request to the Cluster ctx, cancel := context.WithTimeout(context.Background(), RequestTimeout) _, err := cc.MemberRemove(ctx, id) cancel() if err != nil { return err } newMembers := make([]*Member, 0) for _, m := range c.Members { if uint64(m.Server.MemberID()) != id { newMembers = append(newMembers, m) } else { m.Client.Close() select { case <-m.Server.StopNotify(): m.Terminate(t) // 1s stop delay + election timeout + 1s disk and network delay + connection write timeout // TODO: remove connection write timeout by selecting on http response closeNotifier // blocking on https://github.com/golang/go/issues/9524 case <-time.After(time.Second + time.Duration(ElectionTicks)*framecfg.TickDuration + time.Second + rafthttp.ConnWriteTimeout): t.Fatalf("failed to remove member %s in time", m.Server.MemberID()) } } } c.Members = newMembers c.WaitMembersMatch(t, c.ProtoMembers()) return nil } func (c *Cluster) WaitMembersMatch(t testutil.TB, membs []*pb.Member) { ctx, cancel := context.WithTimeout(context.Background(), RequestTimeout) defer cancel() for _, m := range c.Members { cc := ToGRPC(m.Client) select { case <-m.Server.StopNotify(): continue default: } for { resp, err := cc.Cluster.MemberList(ctx, &pb.MemberListRequest{Linearizable: false}) if errors.Is(err, context.DeadlineExceeded) { t.Fatal(err) } if err != nil { continue } if isMembersEqual(resp.Members, membs) { break } time.Sleep(framecfg.TickDuration) } } } // WaitLeader returns index of the member in c.Members that is leader // or fails the test (if not established in 30s). func (c *Cluster) WaitLeader(tb testing.TB) int { return c.WaitMembersForLeader(tb, c.Members) } // WaitMembersForLeader waits until given members agree on the same leader, // and returns its 'index' in the 'membs' list func (c *Cluster) WaitMembersForLeader(tb testing.TB, membs []*Member) int { tb.Logf("WaitMembersForLeader") ctx, cancel := context.WithTimeout(tb.Context(), 30*time.Second) defer cancel() l := 0 for l = c.waitMembersForLeader(ctx, tb, membs); l < 0; { if ctx.Err() != nil { tb.Fatalf("WaitLeader FAILED: %v", ctx.Err()) } } tb.Logf("WaitMembersForLeader succeeded. Cluster leader index: %v", l) // TODO: Consider second pass check as sometimes leadership is lost // soon after election: // // We perform multiple attempts, as some-times just after successful WaitLLeader // there is a race and leadership is quickly lost: // - MsgAppResp message with higher term from 2acc3d3b521981 [term: 3] {"member": "m0"} // - 9903a56eaf96afac became follower at term 3 {"member": "m0"} // - 9903a56eaf96afac lost leader 9903a56eaf96afac at term 3 {"member": "m0"} return l } // WaitMembersForLeader waits until given members agree on the same leader, // and returns its 'index' in the 'membs' list func (c *Cluster) waitMembersForLeader(ctx context.Context, tb testing.TB, membs []*Member) int { possibleLead := make(map[uint64]bool) var lead uint64 for _, m := range membs { possibleLead[uint64(m.Server.MemberID())] = true } cc, err := c.ClusterClient(tb) if err != nil { tb.Fatal(err) } // ensure leader is up via linearizable get for { fctx, fcancel := context.WithTimeout(ctx, 10*framecfg.TickDuration+time.Second) _, err := cc.Get(fctx, "0") fcancel() if err == nil || strings.Contains(err.Error(), "Key not found") { break } } for lead == 0 || !possibleLead[lead] { lead = 0 for _, m := range membs { select { case <-m.Server.StopNotify(): continue default: } if lead != 0 && lead != m.Server.Lead() { lead = 0 time.Sleep(10 * framecfg.TickDuration) break } lead = m.Server.Lead() } } for i, m := range membs { if uint64(m.Server.MemberID()) == lead { tb.Logf("waitMembersForLeader found leader. Member: %v lead: %x", i, lead) return i } } tb.Logf("waitMembersForLeader failed (-1)") return -1 } func (c *Cluster) WaitNoLeader() { c.WaitMembersNoLeader(c.Members) } // WaitMembersNoLeader waits until given members lose leader. func (c *Cluster) WaitMembersNoLeader(membs []*Member) { noLeader := false for !noLeader { noLeader = true for _, m := range membs { select { case <-m.Server.StopNotify(): continue default: } if m.Server.Lead() != 0 { noLeader = false time.Sleep(10 * framecfg.TickDuration) break } } } } func (c *Cluster) waitVersion() { for _, m := range c.Members { for { if m.Server.ClusterVersion() != nil { break } time.Sleep(framecfg.TickDuration) } } } // isMembersEqual checks whether two members equal except ID field. // The given wmembs should always set ID field to empty string. func isMembersEqual(membs []*pb.Member, wmembs []*pb.Member) bool { sort.Sort(SortableMemberSliceByPeerURLs(membs)) sort.Sort(SortableMemberSliceByPeerURLs(wmembs)) return cmp.Equal(membs, wmembs, cmpopts.IgnoreFields(pb.Member{}, "ID", "PeerURLs", "ClientURLs")) } func NewLocalListener(t testutil.TB) net.Listener { c := atomic.AddInt32(&UniqueCount, 1) // Go 1.8+ allows only numbers in port addr := fmt.Sprintf("127.0.0.1:%05d%05d", c+BasePort, os.Getpid()) return NewListenerWithAddr(t, addr) } func NewListenerWithAddr(t testutil.TB, addr string) net.Listener { t.Logf("Creating listener with addr: %v", addr) l, err := transport.NewUnixListener(addr) if err != nil { t.Fatal(err) } return l } type Member struct { config.ServerConfig UniqNumber int MemberNumber int Port string PeerListeners, ClientListeners []net.Listener GRPCListener net.Listener // PeerTLSInfo enables peer TLS when set PeerTLSInfo *transport.TLSInfo // ClientTLSInfo enables client TLS when set ClientTLSInfo *transport.TLSInfo DialOptions []grpc.DialOption RaftHandler *testutil.PauseableHandler Server *etcdserver.EtcdServer ServerClosers []func() GRPCServerOpts []grpc.ServerOption GRPCServer *grpc.Server GRPCURL string GRPCBridge Bridge // ServerClient is a clientv3 that directly calls the etcdserver. ServerClient *clientv3.Client // Client is a clientv3 that communicates via socket, either UNIX or TCP. Client *clientv3.Client KeepDataDirTerminate bool ClientMaxCallSendMsgSize int ClientMaxCallRecvMsgSize int UseIP bool UseBridge bool UseTCP bool IsLearner bool Closed bool GRPCServerRecorder *grpctesting.GRPCRecorder LogObserver *testutils.LogObserver } type MemberConfig struct { Name string UniqNumber int64 MemberNumber int PeerTLS *transport.TLSInfo ClientTLS *transport.TLSInfo AuthToken string QuotaBackendBytes int64 BackendBatchInterval time.Duration MaxTxnOps uint MaxRequestBytes uint SnapshotCount uint64 SnapshotCatchUpEntries uint64 GRPCKeepAliveMinTime time.Duration GRPCKeepAliveInterval time.Duration GRPCKeepAliveTimeout time.Duration GRPCAdditionalServerOptions []grpc.ServerOption ClientMaxCallSendMsgSize int ClientMaxCallRecvMsgSize int UseIP bool UseBridge bool UseTCP bool EnableLeaseCheckpoint bool LeaseCheckpointInterval time.Duration LeaseCheckpointPersist bool WatchProgressNotifyInterval time.Duration MaxLearners int DisableStrictReconfigCheck bool CorruptCheckTime time.Duration Metrics string } // MustNewMember return an inited member with the given name. If peerTLS is // set, it will use https scheme to communicate between peers. func MustNewMember(t testutil.TB, mcfg MemberConfig) *Member { var err error m := &Member{ MemberNumber: mcfg.MemberNumber, UniqNumber: int(atomic.AddInt32(&UniqueCount, 1)), } peerScheme := SchemeFromTLSInfo(mcfg.PeerTLS) clientScheme := SchemeFromTLSInfo(mcfg.ClientTLS) pln := NewLocalListener(t) m.PeerListeners = []net.Listener{pln} m.PeerURLs, err = types.NewURLs([]string{peerScheme + "://" + pln.Addr().String()}) if err != nil { t.Fatal(err) } m.PeerTLSInfo = mcfg.PeerTLS cln := NewLocalListener(t) m.ClientListeners = []net.Listener{cln} m.ClientURLs, err = types.NewURLs([]string{clientScheme + "://" + cln.Addr().String()}) if err != nil { t.Fatal(err) } m.ClientTLSInfo = mcfg.ClientTLS m.Name = mcfg.Name m.DataDir, err = os.MkdirTemp(t.TempDir(), "etcd") if err != nil { t.Fatal(err) } clusterStr := fmt.Sprintf("%s=%s://%s", mcfg.Name, peerScheme, pln.Addr().String()) m.InitialPeerURLsMap, err = types.NewURLsMap(clusterStr) if err != nil { t.Fatal(err) } m.InitialClusterToken = ClusterName m.NewCluster = true m.BootstrapTimeout = 10 * time.Millisecond if m.PeerTLSInfo != nil { m.ServerConfig.PeerTLSInfo = *m.PeerTLSInfo } m.ElectionTicks = ElectionTicks m.InitialElectionTickAdvance = true m.TickMs = uint(framecfg.TickDuration / time.Millisecond) m.PreVote = true m.QuotaBackendBytes = mcfg.QuotaBackendBytes m.BackendBatchInterval = mcfg.BackendBatchInterval m.MaxTxnOps = mcfg.MaxTxnOps if m.MaxTxnOps == 0 { m.MaxTxnOps = embed.DefaultMaxTxnOps } m.MaxRequestBytes = mcfg.MaxRequestBytes if m.MaxRequestBytes == 0 { m.MaxRequestBytes = embed.DefaultMaxRequestBytes } m.SnapshotCount = etcdserver.DefaultSnapshotCount if mcfg.SnapshotCount != 0 { m.SnapshotCount = mcfg.SnapshotCount } m.SnapshotCatchUpEntries = etcdserver.DefaultSnapshotCatchUpEntries if mcfg.SnapshotCatchUpEntries != 0 { m.SnapshotCatchUpEntries = mcfg.SnapshotCatchUpEntries } // for the purpose of integration testing, simple token is enough m.AuthToken = "simple" if mcfg.AuthToken != "" { m.AuthToken = mcfg.AuthToken } m.BcryptCost = uint(bcrypt.MinCost) // use min bcrypt cost to speedy up integration testing m.GRPCServerOpts = []grpc.ServerOption{} if mcfg.GRPCKeepAliveMinTime > time.Duration(0) { m.GRPCServerOpts = append(m.GRPCServerOpts, grpc.KeepaliveEnforcementPolicy(keepalive.EnforcementPolicy{ MinTime: mcfg.GRPCKeepAliveMinTime, PermitWithoutStream: false, })) } if mcfg.GRPCKeepAliveInterval > time.Duration(0) && mcfg.GRPCKeepAliveTimeout > time.Duration(0) { m.GRPCServerOpts = append(m.GRPCServerOpts, grpc.KeepaliveParams(keepalive.ServerParameters{ Time: mcfg.GRPCKeepAliveInterval, Timeout: mcfg.GRPCKeepAliveTimeout, })) } m.GRPCServerOpts = append(m.GRPCServerOpts, mcfg.GRPCAdditionalServerOptions...) m.ClientMaxCallSendMsgSize = mcfg.ClientMaxCallSendMsgSize m.ClientMaxCallRecvMsgSize = mcfg.ClientMaxCallRecvMsgSize m.UseIP = mcfg.UseIP m.UseBridge = mcfg.UseBridge m.UseTCP = mcfg.UseTCP m.LeaseCheckpointInterval = mcfg.LeaseCheckpointInterval m.WatchProgressNotifyInterval = mcfg.WatchProgressNotifyInterval m.InitialCorruptCheck = true if mcfg.CorruptCheckTime > time.Duration(0) { m.CorruptCheckTime = mcfg.CorruptCheckTime } m.WarningApplyDuration = embed.DefaultWarningApplyDuration m.WarningUnaryRequestDuration = embed.DefaultWarningUnaryRequestDuration m.MaxLearners = membership.DefaultMaxLearners if mcfg.MaxLearners != 0 { m.MaxLearners = mcfg.MaxLearners } m.Metrics = mcfg.Metrics m.V2Deprecation = config.V2DeprDefault m.GRPCServerRecorder = &grpctesting.GRPCRecorder{} m.Logger, m.LogObserver = memberLogger(t, mcfg.Name) m.ServerFeatureGate = features.NewDefaultServerFeatureGate(m.Name, m.Logger) featureGates := fmt.Sprintf("LeaseCheckpoint=%v,LeaseCheckpointPersist=%v", mcfg.EnableLeaseCheckpoint, mcfg.LeaseCheckpointPersist) if err := m.ServerFeatureGate.(featuregate.MutableFeatureGate).Set(featureGates); err != nil { t.Fatalf("Set FeatureGate FAILED: %v", err) } m.StrictReconfigCheck = !mcfg.DisableStrictReconfigCheck if err := m.listenGRPC(); err != nil { t.Fatalf("listenGRPC FAILED: %v", err) } t.Cleanup(func() { // if we didn't cleanup the logger, the consecutive test // might reuse this (t). raft.ResetDefaultLogger() }) return m } func memberLogger(t testutil.TB, name string) (*zap.Logger, *testutils.LogObserver) { level := zapcore.InfoLevel if os.Getenv("CLUSTER_DEBUG") != "" { level = zapcore.DebugLevel } obCore, logOb := testutils.NewLogObserver(level) options := zaptest.WrapOptions( zap.Fields(zap.String("member", name)), // copy logged entities to log observer zap.WrapCore(func(oldCore zapcore.Core) zapcore.Core { return zapcore.NewTee(oldCore, obCore) }), ) return zaptest.NewLogger(t, zaptest.Level(level), options).Named(name), logOb } // listenGRPC starts a grpc server over a unix domain socket on the member func (m *Member) listenGRPC() error { // prefix with localhost so cert has right domain network, host, port := m.grpcAddr() grpcAddr := net.JoinHostPort(host, port) wd, err := os.Getwd() if err != nil { return err } m.Logger.Info("LISTEN GRPC", zap.String("grpcAddr", grpcAddr), zap.String("m.Name", m.Name), zap.String("workdir", wd)) grpcListener, err := net.Listen(network, grpcAddr) if err != nil { return fmt.Errorf("listen failed on grpc socket %s (%w)", grpcAddr, err) } addr := grpcListener.Addr().String() _, port, err = net.SplitHostPort(addr) if err != nil { return fmt.Errorf("failed to parse grpc listen port from address %s (%w)", addr, err) } m.Port = port m.GRPCURL = fmt.Sprintf("%s://%s", m.clientScheme(), addr) m.Logger.Info("LISTEN GRPC SUCCESS", zap.String("grpcAddr", m.GRPCURL), zap.String("m.Name", m.Name), zap.String("workdir", wd), zap.String("port", m.Port)) if m.UseBridge { _, err = m.addBridge() if err != nil { grpcListener.Close() return err } } m.GRPCListener = grpcListener return nil } func (m *Member) clientScheme() string { switch { case m.UseTCP && m.ClientTLSInfo != nil: return "https" case m.UseTCP && m.ClientTLSInfo == nil: return "http" case !m.UseTCP && m.ClientTLSInfo != nil: return "unixs" case !m.UseTCP && m.ClientTLSInfo == nil: return "unix" } m.Logger.Panic("Failed to determine client schema") return "" } func (m *Member) addBridge() (Bridge, error) { network, host, port := m.grpcAddr() grpcAddr := net.JoinHostPort(host, m.Port) bridgePort := fmt.Sprintf("%s%s", port, "0") if m.UseTCP { bridgePort = "0" } bridgeAddr := net.JoinHostPort(host, bridgePort) m.Logger.Info("LISTEN BRIDGE", zap.String("grpc-address", bridgeAddr), zap.String("member", m.Name)) bridgeListener, err := transport.NewUnixListener(bridgeAddr) if err != nil { return nil, fmt.Errorf("listen failed on bridge socket %s (%w)", bridgeAddr, err) } m.GRPCBridge = newBridge(dialer{network: network, addr: grpcAddr}, bridgeListener) addr := bridgeListener.Addr().String() m.Logger.Info("LISTEN BRIDGE SUCCESS", zap.String("grpc-address", addr), zap.String("member", m.Name)) m.GRPCURL = m.clientScheme() + "://" + addr return m.GRPCBridge, nil } func (m *Member) Bridge() Bridge { if !m.UseBridge { m.Logger.Panic("Bridge not available. Please configure using bridge before creating Cluster.") } return m.GRPCBridge } func (m *Member) grpcAddr() (network, host, port string) { // prefix with localhost so cert has right domain host = "localhost" if m.UseIP { // for IP-only TLS certs host = "127.0.0.1" } network = "unix" if m.UseTCP { network = "tcp" } if m.Port != "" { return network, host, m.Port } port = m.Name if m.UseTCP { // let net.Listen choose the port automatically port = fmt.Sprintf("%d", 0) } return network, host, port } func (m *Member) GRPCPortNumber() string { return m.Port } type dialer struct { network string addr string } func (d dialer) Dial() (net.Conn, error) { return net.Dial(d.network, d.addr) } func (m *Member) ElectionTimeout() time.Duration { return time.Duration(m.Server.Cfg.ElectionTicks*int(m.Server.Cfg.TickMs)) * time.Millisecond } func (m *Member) ID() types.ID { return m.Server.MemberID() } // NewClientV3 creates a new grpc client connection to the member func NewClientV3(m *Member) (*clientv3.Client, error) { if m.GRPCURL == "" { return nil, fmt.Errorf("member not configured for grpc") } cfg := clientv3.Config{ Endpoints: []string{m.GRPCURL}, DialTimeout: 5 * time.Second, MaxCallSendMsgSize: m.ClientMaxCallSendMsgSize, MaxCallRecvMsgSize: m.ClientMaxCallRecvMsgSize, Logger: m.Logger.Named("client"), } if m.ClientTLSInfo != nil { tls, err := m.ClientTLSInfo.ClientConfig() if err != nil { return nil, err } cfg.TLS = tls } if m.DialOptions != nil { cfg.DialOptions = append(cfg.DialOptions, m.DialOptions...) } return newClientV3(cfg) } // Clone returns a member with the same server configuration. The returned // member will not set PeerListeners and ClientListeners. func (m *Member) Clone(t testutil.TB) *Member { mm := &Member{} mm.ServerConfig = m.ServerConfig var err error clientURLStrs := m.ClientURLs.StringSlice() mm.ClientURLs, err = types.NewURLs(clientURLStrs) if err != nil { // this should never fail panic(err) } peerURLStrs := m.PeerURLs.StringSlice() mm.PeerURLs, err = types.NewURLs(peerURLStrs) if err != nil { // this should never fail panic(err) } clusterStr := m.InitialPeerURLsMap.String() mm.InitialPeerURLsMap, err = types.NewURLsMap(clusterStr) if err != nil { // this should never fail panic(err) } mm.InitialClusterToken = m.InitialClusterToken mm.ElectionTicks = m.ElectionTicks mm.PeerTLSInfo = m.PeerTLSInfo mm.ClientTLSInfo = m.ClientTLSInfo mm.Logger, mm.LogObserver = memberLogger(t, mm.Name+"c") return mm } // Launch starts a member based on ServerConfig, PeerListeners // and ClientListeners. func (m *Member) Launch() error { m.Logger.Info( "launching a member", zap.String("name", m.Name), zap.Strings("advertise-peer-urls", m.PeerURLs.StringSlice()), zap.Strings("listen-client-urls", m.ClientURLs.StringSlice()), zap.String("grpc-url", m.GRPCURL), ) var err error if m.Server, err = etcdserver.NewServer(m.ServerConfig); err != nil { return fmt.Errorf("failed to initialize the etcd server: %w", err) } m.Server.Start() var peerTLScfg *tls.Config if m.PeerTLSInfo != nil && !m.PeerTLSInfo.Empty() { if peerTLScfg, err = m.PeerTLSInfo.ServerConfig(); err != nil { return err } } if m.GRPCListener != nil { var tlscfg *tls.Config if m.ClientTLSInfo != nil && !m.ClientTLSInfo.Empty() { tlscfg, err = m.ClientTLSInfo.ServerConfig() if err != nil { return err } } m.GRPCServer = v3rpc.Server(m.Server, tlscfg, m.GRPCServerRecorder.UnaryInterceptor(), m.GRPCServerOpts...) m.ServerClient = v3client.New(m.Server) lockpb.RegisterLockServer(m.GRPCServer, v3lock.NewLockServer(m.ServerClient)) epb.RegisterElectionServer(m.GRPCServer, v3election.NewElectionServer(m.ServerClient)) go m.GRPCServer.Serve(m.GRPCListener) } m.RaftHandler = &testutil.PauseableHandler{Next: etcdhttp.NewPeerHandler(m.Logger, m.Server)} h := (http.Handler)(m.RaftHandler) if m.GRPCListener != nil { h = http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { m.RaftHandler.ServeHTTP(w, r) }) } for _, ln := range m.PeerListeners { cm := cmux.New(ln) // don't hang on matcher after closing listener cm.SetReadTimeout(time.Second) // serve http1/http2 rafthttp/grpc ll := cm.Match(cmux.Any()) if peerTLScfg != nil { if ll, err = transport.NewTLSListener(ll, m.PeerTLSInfo); err != nil { return err } } hs := &httptest.Server{ Listener: ll, Config: &http.Server{ Handler: h, TLSConfig: peerTLScfg, ErrorLog: log.New(io.Discard, "net/http", 0), }, TLS: peerTLScfg, } hs.Start() donec := make(chan struct{}) go func() { defer close(donec) cm.Serve() }() closer := func() { ll.Close() hs.CloseClientConnections() hs.Close() <-donec } m.ServerClosers = append(m.ServerClosers, closer) } for _, ln := range m.ClientListeners { handler := http.NewServeMux() etcdhttp.HandleDebug(handler) etcdhttp.HandleVersion(handler, m.Server) etcdhttp.HandleMetrics(handler) etcdhttp.HandleHealth(m.Logger, handler, m.Server) hs := &httptest.Server{ Listener: ln, Config: &http.Server{ Handler: handler, ErrorLog: log.New(io.Discard, "net/http", 0), }, } if m.ClientTLSInfo == nil { hs.Start() } else { info := m.ClientTLSInfo hs.TLS, err = info.ServerConfig() if err != nil { return err } // baseConfig is called on initial TLS handshake start. // // Previously, // 1. Server has non-empty (*tls.Config).Certificates on client hello // 2. Server calls (*tls.Config).GetCertificate iff: // - Server'Server (*tls.Config).Certificates is not empty, or // - Client supplies SNI; non-empty (*tls.ClientHelloInfo).ServerName // // When (*tls.Config).Certificates is always populated on initial handshake, // client is expected to provide a valid matching SNI to pass the TLS // verification, thus trigger server (*tls.Config).GetCertificate to reload // TLS assets. However, a cert whose SAN field does not include domain names // but only IP addresses, has empty (*tls.ClientHelloInfo).ServerName, thus // it was never able to trigger TLS reload on initial handshake; first // ceritifcate object was being used, never being updated. // // Now, (*tls.Config).Certificates is created empty on initial TLS client // handshake, in order to trigger (*tls.Config).GetCertificate and populate // rest of the certificates on every new TLS connection, even when client // SNI is empty (e.g. cert only includes IPs). // // This introduces another problem with "httptest.Server": // when server initial certificates are empty, certificates // are overwritten by Go'Server internal test certs, which have // different SAN fields (e.g. example.com). To work around, // re-overwrite (*tls.Config).Certificates before starting // test server. tlsCert, nerr := tlsutil.NewCert(info.CertFile, info.KeyFile, nil) if nerr != nil { return nerr } hs.TLS.Certificates = []tls.Certificate{*tlsCert} hs.StartTLS() } closer := func() { ln.Close() hs.CloseClientConnections() hs.Close() } m.ServerClosers = append(m.ServerClosers, closer) } if m.GRPCURL != "" && m.Client == nil { m.Client, err = NewClientV3(m) if err != nil { return err } } m.Logger.Info( "launched a member", zap.String("name", m.Name), zap.Strings("advertise-peer-urls", m.PeerURLs.StringSlice()), zap.Strings("listen-client-urls", m.ClientURLs.StringSlice()), zap.String("grpc-url", m.GRPCURL), ) return nil } func (m *Member) RecordedRequests() []grpctesting.RequestInfo { return m.GRPCServerRecorder.RecordedRequests() } func (m *Member) WaitOK(t testutil.TB) { m.WaitStarted(t) for m.Server.Leader() == 0 { time.Sleep(framecfg.TickDuration) } } func (m *Member) WaitStarted(t testutil.TB) { for { ctx, cancel := context.WithTimeout(context.Background(), RequestTimeout) _, err := m.Client.Get(ctx, "/", clientv3.WithSerializable()) if err != nil { time.Sleep(framecfg.TickDuration) continue } cancel() break } } func WaitClientV3(t testutil.TB, kv clientv3.KV) { WaitClientV3WithKey(t, kv, "/") } func WaitClientV3WithKey(t testutil.TB, kv clientv3.KV, key string) { timeout := time.Now().Add(RequestTimeout) var err error for time.Now().Before(timeout) { ctx, cancel := context.WithTimeout(context.Background(), RequestTimeout) _, err = kv.Get(ctx, key) cancel() if err == nil { return } time.Sleep(framecfg.TickDuration) } if err != nil { t.Fatalf("timed out waiting for client: %v", err) } } func (m *Member) URL() string { return m.ClientURLs[0].String() } func (m *Member) Pause() { m.RaftHandler.Pause() m.Server.PauseSending() } func (m *Member) Resume() { m.RaftHandler.Resume() m.Server.ResumeSending() } // Close stops the member'Server etcdserver and closes its connections func (m *Member) Close() { if m.GRPCBridge != nil { m.GRPCBridge.Close() m.GRPCBridge = nil } if m.ServerClient != nil { m.ServerClient.Close() m.ServerClient = nil } if m.GRPCServer != nil { ch := make(chan struct{}) go func() { defer close(ch) // close listeners to stop accepting new connections, // will block on any existing transports m.GRPCServer.GracefulStop() }() // wait until all pending RPCs are finished select { case <-ch: case <-time.After(2 * time.Second): // took too long, manually close open transports // e.g. watch streams m.GRPCServer.Stop() <-ch } m.GRPCServer = nil } if m.Server != nil { m.Server.HardStop() } for _, f := range m.ServerClosers { f() } if !m.Closed { // Avoid verification of the same file multiple times // (that might not exist any longer) verify.MustVerifyIfEnabled(verify.Config{ Logger: m.Logger, DataDir: m.DataDir, ExactIndex: false, }) } m.Closed = true } // Stop stops the member, but the data dir of the member is preserved. func (m *Member) Stop(_ testutil.TB) { m.Logger.Info( "stopping a member", zap.String("name", m.Name), zap.Strings("advertise-peer-urls", m.PeerURLs.StringSlice()), zap.Strings("listen-client-urls", m.ClientURLs.StringSlice()), zap.String("grpc-url", m.GRPCURL), ) m.Close() m.ServerClosers = nil m.Logger.Info( "stopped a member", zap.String("name", m.Name), zap.Strings("advertise-peer-urls", m.PeerURLs.StringSlice()), zap.Strings("listen-client-urls", m.ClientURLs.StringSlice()), zap.String("grpc-url", m.GRPCURL), ) } // CheckLeaderTransition waits for leader transition, returning the new leader ID. func CheckLeaderTransition(m *Member, oldLead uint64) uint64 { interval := time.Duration(m.Server.Cfg.TickMs) * time.Millisecond for m.Server.Lead() == 0 || (m.Server.Lead() == oldLead) { time.Sleep(interval) } return m.Server.Lead() } // StopNotify unblocks when a member stop completes func (m *Member) StopNotify() <-chan struct{} { return m.Server.StopNotify() } // Restart starts the member using the preserved data dir. func (m *Member) Restart(t testutil.TB) error { m.Logger.Info( "restarting a member", zap.String("name", m.Name), zap.Strings("advertise-peer-urls", m.PeerURLs.StringSlice()), zap.Strings("listen-client-urls", m.ClientURLs.StringSlice()), zap.String("grpc-url", m.GRPCURL), ) newPeerListeners := make([]net.Listener, 0) for _, ln := range m.PeerListeners { newPeerListeners = append(newPeerListeners, NewListenerWithAddr(t, ln.Addr().String())) } m.PeerListeners = newPeerListeners newClientListeners := make([]net.Listener, 0) for _, ln := range m.ClientListeners { newClientListeners = append(newClientListeners, NewListenerWithAddr(t, ln.Addr().String())) } m.ClientListeners = newClientListeners if m.GRPCListener != nil { if err := m.listenGRPC(); err != nil { t.Fatal(err) } } err := m.Launch() m.Logger.Info( "restarted a member", zap.String("name", m.Name), zap.Strings("advertise-peer-urls", m.PeerURLs.StringSlice()), zap.Strings("listen-client-urls", m.ClientURLs.StringSlice()), zap.String("grpc-url", m.GRPCURL), zap.Error(err), ) return err } // Terminate stops the member and removes the data dir. func (m *Member) Terminate(t testutil.TB) { m.Logger.Info( "terminating a member", zap.String("name", m.Name), zap.Strings("advertise-peer-urls", m.PeerURLs.StringSlice()), zap.Strings("listen-client-urls", m.ClientURLs.StringSlice()), zap.String("grpc-url", m.GRPCURL), ) m.Close() if !m.KeepDataDirTerminate { if err := os.RemoveAll(m.ServerConfig.DataDir); err != nil { t.Fatal(err) } } m.Logger.Info( "terminated a member", zap.String("name", m.Name), zap.Strings("advertise-peer-urls", m.PeerURLs.StringSlice()), zap.Strings("listen-client-urls", m.ClientURLs.StringSlice()), zap.String("grpc-url", m.GRPCURL), ) } // Metric gets the metric value for a member func (m *Member) Metric(metricName string, expectLabels ...string) (string, error) { cfgtls := transport.TLSInfo{} tr, err := transport.NewTimeoutTransport(cfgtls, time.Second, time.Second, time.Second) if err != nil { return "", err } cli := &http.Client{Transport: tr} resp, err := cli.Get(m.ClientURLs[0].String() + "/metrics") if err != nil { return "", err } defer resp.Body.Close() b, rerr := io.ReadAll(resp.Body) if rerr != nil { return "", rerr } lines := strings.Split(string(b), "\n") for _, l := range lines { if !strings.HasPrefix(l, metricName) { continue } ok := true for _, lv := range expectLabels { if !strings.Contains(l, lv) { ok = false break } } if !ok { continue } return strings.Split(l, " ")[1], nil } return "", nil } // InjectPartition drops connections from m to others, vice versa. func (m *Member) InjectPartition(t testutil.TB, others ...*Member) { for _, other := range others { m.Server.CutPeer(other.Server.MemberID()) other.Server.CutPeer(m.Server.MemberID()) t.Logf("network partition injected between: %v <-> %v", m.Server.MemberID(), other.Server.MemberID()) } } // RecoverPartition recovers connections from m to others, vice versa. func (m *Member) RecoverPartition(t testutil.TB, others ...*Member) { for _, other := range others { m.Server.MendPeer(other.Server.MemberID()) other.Server.MendPeer(m.Server.MemberID()) t.Logf("network partition between: %v <-> %v", m.Server.MemberID(), other.Server.MemberID()) } } func (m *Member) ReadyNotify() <-chan struct{} { return m.Server.ReadyNotify() } type SortableMemberSliceByPeerURLs []*pb.Member func (p SortableMemberSliceByPeerURLs) Len() int { return len(p) } func (p SortableMemberSliceByPeerURLs) Less(i, j int) bool { return p[i].PeerURLs[0] < p[j].PeerURLs[0] } func (p SortableMemberSliceByPeerURLs) Swap(i, j int) { p[i], p[j] = p[j], p[i] } // NewCluster returns a launched Cluster with a grpc client connection // for each Cluster member. func NewCluster(t testutil.TB, cfg *ClusterConfig) *Cluster { t.Helper() assertInTestContext(t) testutil.SkipTestIfShortMode(t, "Cannot start etcd Cluster in --short tests") c := &Cluster{Cfg: cfg} ms := make([]*Member, cfg.Size) for i := 0; i < cfg.Size; i++ { ms[i] = c.MustNewMember(t) } c.Members = ms if err := c.fillClusterForMembers(); err != nil { t.Fatalf("fillClusterForMembers failed: %v", err) } c.Launch(t) return c } func (c *Cluster) TakeClient(idx int) { c.mu.Lock() c.Members[idx].Client = nil c.mu.Unlock() } func (c *Cluster) Terminate(t testutil.TB) { if t != nil { t.Logf("========= Cluster termination started =====================") } for _, m := range c.Members { if m.Client != nil { m.Client.Close() } } var wg sync.WaitGroup wg.Add(len(c.Members)) for _, m := range c.Members { go func(mm *Member) { defer wg.Done() mm.Terminate(t) }(m) } wg.Wait() if t != nil { t.Logf("========= Cluster termination succeeded ===================") } } func (c *Cluster) RandClient() *clientv3.Client { return c.Members[rand.Intn(len(c.Members))].Client } func (c *Cluster) Client(i int) *clientv3.Client { return c.Members[i].Client } func (c *Cluster) Endpoints() []string { var endpoints []string for _, m := range c.Members { endpoints = append(endpoints, m.GRPCURL) } return endpoints } func (c *Cluster) ClusterClient(tb testing.TB, opts ...framecfg.ClientOption) (client *clientv3.Client, err error) { cfg, err := c.newClientCfg() if err != nil { return nil, err } for _, opt := range opts { opt(cfg) } client, err = newClientV3(*cfg) if err != nil { return nil, err } tb.Cleanup(func() { client.Close() }) return client, nil } func WithAuth(userName, password string) framecfg.ClientOption { return func(c any) { cfg := c.(*clientv3.Config) cfg.Username = userName cfg.Password = password } } func WithAuthToken(token string) framecfg.ClientOption { return func(c any) { cfg := c.(*clientv3.Config) cfg.Token = token } } func WithEndpoints(endpoints []string) framecfg.ClientOption { return func(c any) { cfg := c.(*clientv3.Config) cfg.Endpoints = endpoints } } func WithDialTimeout(tio time.Duration) framecfg.ClientOption { return func(c any) { cfg := c.(*clientv3.Config) cfg.DialTimeout = tio } } func (c *Cluster) newClientCfg() (*clientv3.Config, error) { cfg := &clientv3.Config{ Endpoints: c.Endpoints(), DialTimeout: 5 * time.Second, MaxCallSendMsgSize: c.Cfg.ClientMaxCallSendMsgSize, MaxCallRecvMsgSize: c.Cfg.ClientMaxCallRecvMsgSize, } if c.Cfg.ClientTLS != nil { tls, err := c.Cfg.ClientTLS.ClientConfig() if err != nil { return nil, err } cfg.TLS = tls } return cfg, nil } // NewClientV3 creates a new grpc client connection to the member func (c *Cluster) NewClientV3(memberIndex int) (*clientv3.Client, error) { return NewClientV3(c.Members[memberIndex]) } func makeClients(t testutil.TB, clus *Cluster, clients *[]*clientv3.Client, chooseMemberIndex func() int) func() *clientv3.Client { var mu sync.Mutex *clients = nil return func() *clientv3.Client { cli, err := clus.NewClientV3(chooseMemberIndex()) if err != nil { t.Fatalf("cannot create client: %v", err) } mu.Lock() *clients = append(*clients, cli) mu.Unlock() return cli } } // MakeSingleNodeClients creates factory of clients that all connect to member 0. // All the created clients are put on the 'clients' list. The factory is thread-safe. func MakeSingleNodeClients(t testutil.TB, clus *Cluster, clients *[]*clientv3.Client) func() *clientv3.Client { return makeClients(t, clus, clients, func() int { return 0 }) } // MakeMultiNodeClients creates factory of clients that all connect to random members. // All the created clients are put on the 'clients' list. The factory is thread-safe. func MakeMultiNodeClients(t testutil.TB, clus *Cluster, clients *[]*clientv3.Client) func() *clientv3.Client { return makeClients(t, clus, clients, func() int { return rand.Intn(len(clus.Members)) }) } // CloseClients closes all the clients from the 'clients' list. func CloseClients(t testutil.TB, clients []*clientv3.Client) { for _, cli := range clients { if err := cli.Close(); err != nil { t.Fatal(err) } } } type GRPCAPI struct { // Cluster is the Cluster API for the client'Server connection. Cluster pb.ClusterClient // KV is the keyvalue API for the client'Server connection. KV pb.KVClient // Lease is the lease API for the client'Server connection. Lease pb.LeaseClient // Watch is the watch API for the client'Server connection. Watch pb.WatchClient // Maintenance is the maintenance API for the client'Server connection. Maintenance pb.MaintenanceClient // Auth is the authentication API for the client'Server connection. Auth pb.AuthClient // Lock is the lock API for the client'Server connection. Lock lockpb.LockClient // Election is the election API for the client'Server connection. Election epb.ElectionClient } // GetLearnerMembers returns the list of learner members in Cluster using MemberList API. func (c *Cluster) GetLearnerMembers() ([]*pb.Member, error) { cli := c.Client(0) resp, err := cli.MemberList(context.Background()) if err != nil { return nil, fmt.Errorf("failed to list member %w", err) } var learners []*pb.Member for _, m := range resp.Members { if m.IsLearner { learners = append(learners, m) } } return learners, nil } // AddAndLaunchLearnerMember creates a learner member, adds it to Cluster // via v3 MemberAdd API, and then launches the new member. func (c *Cluster) AddAndLaunchLearnerMember(t testutil.TB) { m := c.MustNewMember(t) m.IsLearner = true scheme := SchemeFromTLSInfo(c.Cfg.PeerTLS) peerURLs := []string{scheme + "://" + m.PeerListeners[0].Addr().String()} cli := c.Client(0) _, err := cli.MemberAddAsLearner(context.Background(), peerURLs) if err != nil { t.Fatalf("failed to add learner member %v", err) } m.InitialPeerURLsMap = types.URLsMap{} for _, mm := range c.Members { m.InitialPeerURLsMap[mm.Name] = mm.PeerURLs } m.InitialPeerURLsMap[m.Name] = m.PeerURLs m.NewCluster = false if err := m.Launch(); err != nil { t.Fatal(err) } c.Members = append(c.Members, m) c.waitMembersMatch(t) } // getMembers returns a list of members in Cluster, in format of etcdserverpb.Member func (c *Cluster) getMembers() []*pb.Member { var mems []*pb.Member for _, m := range c.Members { mem := &pb.Member{ Name: m.Name, PeerURLs: m.PeerURLs.StringSlice(), ClientURLs: m.ClientURLs.StringSlice(), IsLearner: m.IsLearner, } mems = append(mems, mem) } return mems } // waitMembersMatch waits until v3rpc MemberList returns the 'same' members info as the // local 'c.Members', which is the local recording of members in the testing Cluster. With // the exception that the local recording c.Members does not have info on Member.ID, which // is generated when the member is been added to Cluster. // // Note: // A successful match means the Member.clientURLs are matched. This means member has already // finished publishing its server attributes to Cluster. Publishing attributes is a Cluster-wide // write request (in v2 server). Therefore, at this point, any raft log entries prior to this // would have already been applied. // // If a new member was added to an existing Cluster, at this point, it has finished publishing // its own server attributes to the Cluster. And therefore by the same argument, it has already // applied the raft log entries (especially those of type raftpb.ConfChangeType). At this point, // the new member has the correct view of the Cluster configuration. // // Special note on learner member: // Learner member is only added to a Cluster via v3rpc MemberAdd API (as of v3.4). When starting // the learner member, its initial view of the Cluster created by peerURLs map does not have info // on whether or not the new member itself is learner. But at this point, a successful match does // indicate that the new learner member has applied the raftpb.ConfChangeAddLearnerNode entry // which was used to add the learner itself to the Cluster, and therefore it has the correct info // on learner. func (c *Cluster) waitMembersMatch(t testutil.TB) { wMembers := c.getMembers() sort.Sort(SortableProtoMemberSliceByPeerURLs(wMembers)) cli := c.Client(0) for { resp, err := cli.MemberList(context.Background()) if err != nil { t.Fatalf("failed to list member %v", err) } if len(resp.Members) != len(wMembers) { continue } sort.Sort(SortableProtoMemberSliceByPeerURLs(resp.Members)) for _, m := range resp.Members { m.ID = 0 } if reflect.DeepEqual(resp.Members, wMembers) { return } time.Sleep(framecfg.TickDuration) } } type SortableProtoMemberSliceByPeerURLs []*pb.Member func (p SortableProtoMemberSliceByPeerURLs) Len() int { return len(p) } func (p SortableProtoMemberSliceByPeerURLs) Less(i, j int) bool { return p[i].PeerURLs[0] < p[j].PeerURLs[0] } func (p SortableProtoMemberSliceByPeerURLs) Swap(i, j int) { p[i], p[j] = p[j], p[i] } // InitializeMemberWithResponse initializes a member with the response func (c *Cluster) InitializeMemberWithResponse(t testutil.TB, m *Member, resp *clientv3.MemberAddResponse) { m.IsLearner = resp.Member.IsLearner m.NewCluster = false m.InitialPeerURLsMap = types.URLsMap{} for _, mm := range c.Members { m.InitialPeerURLsMap[mm.Name] = mm.PeerURLs } m.InitialPeerURLsMap[m.Name] = types.MustNewURLs(resp.Member.PeerURLs) c.Members = append(c.Members, m) }