// 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 clientv3 import ( "crypto/tls" "errors" "fmt" "net" "net/url" "strconv" "strings" "sync" "time" "github.com/coreos/etcd/etcdserver/api/v3rpc/rpctypes" "golang.org/x/net/context" "google.golang.org/grpc" "google.golang.org/grpc/codes" "google.golang.org/grpc/credentials" "google.golang.org/grpc/keepalive" "google.golang.org/grpc/metadata" "google.golang.org/grpc/status" ) var ( ErrNoAvailableEndpoints = errors.New("etcdclient: no available endpoints") ErrOldCluster = errors.New("etcdclient: old cluster version") ) // Client provides and manages an etcd v3 client session. type Client struct { Cluster KV Lease Watcher Auth Maintenance conn *grpc.ClientConn dialerrc chan error cfg Config creds *credentials.TransportCredentials balancer *healthBalancer mu *sync.Mutex ctx context.Context cancel context.CancelFunc // Username is a user name for authentication. Username string // Password is a password for authentication. Password string // tokenCred is an instance of WithPerRPCCredentials()'s argument tokenCred *authTokenCredential callOpts []grpc.CallOption } // New creates a new etcdv3 client from a given configuration. func New(cfg Config) (*Client, error) { if len(cfg.Endpoints) == 0 { return nil, ErrNoAvailableEndpoints } return newClient(&cfg) } // NewCtxClient creates a client with a context but no underlying grpc // connection. This is useful for embedded cases that override the // service interface implementations and do not need connection management. func NewCtxClient(ctx context.Context) *Client { cctx, cancel := context.WithCancel(ctx) return &Client{ctx: cctx, cancel: cancel} } // NewFromURL creates a new etcdv3 client from a URL. func NewFromURL(url string) (*Client, error) { return New(Config{Endpoints: []string{url}}) } // Close shuts down the client's etcd connections. func (c *Client) Close() error { c.cancel() c.Watcher.Close() c.Lease.Close() if c.conn != nil { return toErr(c.ctx, c.conn.Close()) } return c.ctx.Err() } // Ctx is a context for "out of band" messages (e.g., for sending // "clean up" message when another context is canceled). It is // canceled on client Close(). func (c *Client) Ctx() context.Context { return c.ctx } // Endpoints lists the registered endpoints for the client. func (c *Client) Endpoints() (eps []string) { // copy the slice; protect original endpoints from being changed eps = make([]string, len(c.cfg.Endpoints)) copy(eps, c.cfg.Endpoints) return } // SetEndpoints updates client's endpoints. func (c *Client) SetEndpoints(eps ...string) { c.mu.Lock() c.cfg.Endpoints = eps c.mu.Unlock() c.balancer.updateAddrs(eps...) // updating notifyCh can trigger new connections, // need update addrs if all connections are down // or addrs does not include pinAddr. c.balancer.mu.RLock() update := !hasAddr(c.balancer.addrs, c.balancer.pinAddr) c.balancer.mu.RUnlock() if update { select { case c.balancer.updateAddrsC <- notifyNext: case <-c.balancer.stopc: } } } // Sync synchronizes client's endpoints with the known endpoints from the etcd membership. func (c *Client) Sync(ctx context.Context) error { mresp, err := c.MemberList(ctx) if err != nil { return err } var eps []string for _, m := range mresp.Members { eps = append(eps, m.ClientURLs...) } c.SetEndpoints(eps...) return nil } func (c *Client) autoSync() { if c.cfg.AutoSyncInterval == time.Duration(0) { return } for { select { case <-c.ctx.Done(): return case <-time.After(c.cfg.AutoSyncInterval): ctx, cancel := context.WithTimeout(c.ctx, 5*time.Second) err := c.Sync(ctx) cancel() if err != nil && err != c.ctx.Err() { logger.Println("Auto sync endpoints failed:", err) } } } } type authTokenCredential struct { token string tokenMu *sync.RWMutex } func (cred authTokenCredential) RequireTransportSecurity() bool { return false } func (cred authTokenCredential) GetRequestMetadata(ctx context.Context, s ...string) (map[string]string, error) { cred.tokenMu.RLock() defer cred.tokenMu.RUnlock() return map[string]string{ "token": cred.token, }, nil } func parseEndpoint(endpoint string) (proto string, host string, scheme string) { proto = "tcp" host = endpoint url, uerr := url.Parse(endpoint) if uerr != nil || !strings.Contains(endpoint, "://") { return proto, host, scheme } scheme = url.Scheme // strip scheme:// prefix since grpc dials by host host = url.Host switch url.Scheme { case "http", "https": case "unix", "unixs": proto = "unix" host = url.Host + url.Path default: proto, host = "", "" } return proto, host, scheme } func (c *Client) processCreds(scheme string) (creds *credentials.TransportCredentials) { creds = c.creds switch scheme { case "unix": case "http": creds = nil case "https", "unixs": if creds != nil { break } tlsconfig := &tls.Config{} emptyCreds := credentials.NewTLS(tlsconfig) creds = &emptyCreds default: creds = nil } return creds } // dialSetupOpts gives the dial opts prior to any authentication func (c *Client) dialSetupOpts(endpoint string, dopts ...grpc.DialOption) (opts []grpc.DialOption) { if c.cfg.DialTimeout > 0 { opts = []grpc.DialOption{grpc.WithTimeout(c.cfg.DialTimeout)} } if c.cfg.DialKeepAliveTime > 0 { params := keepalive.ClientParameters{ Time: c.cfg.DialKeepAliveTime, Timeout: c.cfg.DialKeepAliveTimeout, } opts = append(opts, grpc.WithKeepaliveParams(params)) } opts = append(opts, dopts...) f := func(host string, t time.Duration) (net.Conn, error) { proto, host, _ := parseEndpoint(c.balancer.endpoint(host)) if host == "" && endpoint != "" { // dialing an endpoint not in the balancer; use // endpoint passed into dial proto, host, _ = parseEndpoint(endpoint) } if proto == "" { return nil, fmt.Errorf("unknown scheme for %q", host) } select { case <-c.ctx.Done(): return nil, c.ctx.Err() default: } dialer := &net.Dialer{Timeout: t} conn, err := dialer.DialContext(c.ctx, proto, host) if err != nil { select { case c.dialerrc <- err: default: } } return conn, err } opts = append(opts, grpc.WithDialer(f)) creds := c.creds if _, _, scheme := parseEndpoint(endpoint); len(scheme) != 0 { creds = c.processCreds(scheme) } if creds != nil { opts = append(opts, grpc.WithTransportCredentials(*creds)) } else { opts = append(opts, grpc.WithInsecure()) } return opts } // Dial connects to a single endpoint using the client's config. func (c *Client) Dial(endpoint string) (*grpc.ClientConn, error) { return c.dial(endpoint) } func (c *Client) getToken(ctx context.Context) error { var err error // return last error in a case of fail var auth *authenticator for i := 0; i < len(c.cfg.Endpoints); i++ { endpoint := c.cfg.Endpoints[i] host := getHost(endpoint) // use dial options without dopts to avoid reusing the client balancer auth, err = newAuthenticator(host, c.dialSetupOpts(endpoint), c) if err != nil { continue } defer auth.close() var resp *AuthenticateResponse resp, err = auth.authenticate(ctx, c.Username, c.Password) if err != nil { continue } c.tokenCred.tokenMu.Lock() c.tokenCred.token = resp.Token c.tokenCred.tokenMu.Unlock() return nil } return err } func (c *Client) dial(endpoint string, dopts ...grpc.DialOption) (*grpc.ClientConn, error) { opts := c.dialSetupOpts(endpoint, dopts...) host := getHost(endpoint) if c.Username != "" && c.Password != "" { c.tokenCred = &authTokenCredential{ tokenMu: &sync.RWMutex{}, } ctx := c.ctx if c.cfg.DialTimeout > 0 { cctx, cancel := context.WithTimeout(ctx, c.cfg.DialTimeout) defer cancel() ctx = cctx } err := c.getToken(ctx) if err != nil { if toErr(ctx, err) != rpctypes.ErrAuthNotEnabled { if err == ctx.Err() && ctx.Err() != c.ctx.Err() { err = context.DeadlineExceeded } return nil, err } } else { opts = append(opts, grpc.WithPerRPCCredentials(c.tokenCred)) } } opts = append(opts, c.cfg.DialOptions...) conn, err := grpc.DialContext(c.ctx, host, opts...) if err != nil { return nil, err } return conn, nil } // WithRequireLeader requires client requests to only succeed // when the cluster has a leader. func WithRequireLeader(ctx context.Context) context.Context { md := metadata.Pairs(rpctypes.MetadataRequireLeaderKey, rpctypes.MetadataHasLeader) return metadata.NewOutgoingContext(ctx, md) } func newClient(cfg *Config) (*Client, error) { if cfg == nil { cfg = &Config{} } var creds *credentials.TransportCredentials if cfg.TLS != nil { c := credentials.NewTLS(cfg.TLS) creds = &c } // use a temporary skeleton client to bootstrap first connection baseCtx := context.TODO() if cfg.Context != nil { baseCtx = cfg.Context } ctx, cancel := context.WithCancel(baseCtx) client := &Client{ conn: nil, dialerrc: make(chan error, 1), cfg: *cfg, creds: creds, ctx: ctx, cancel: cancel, mu: new(sync.Mutex), callOpts: defaultCallOpts, } if cfg.Username != "" && cfg.Password != "" { client.Username = cfg.Username client.Password = cfg.Password } if cfg.MaxCallSendMsgSize > 0 || cfg.MaxCallRecvMsgSize > 0 { if cfg.MaxCallRecvMsgSize > 0 && cfg.MaxCallSendMsgSize > cfg.MaxCallRecvMsgSize { return nil, fmt.Errorf("gRPC message recv limit (%d bytes) must be greater than send limit (%d bytes)", cfg.MaxCallRecvMsgSize, cfg.MaxCallSendMsgSize) } callOpts := []grpc.CallOption{ defaultFailFast, defaultMaxCallSendMsgSize, defaultMaxCallRecvMsgSize, } if cfg.MaxCallSendMsgSize > 0 { callOpts[1] = grpc.MaxCallSendMsgSize(cfg.MaxCallSendMsgSize) } if cfg.MaxCallRecvMsgSize > 0 { callOpts[2] = grpc.MaxCallRecvMsgSize(cfg.MaxCallRecvMsgSize) } client.callOpts = callOpts } client.balancer = newHealthBalancer(cfg.Endpoints, cfg.DialTimeout, func(ep string) (bool, error) { return grpcHealthCheck(client, ep) }) // use Endpoints[0] so that for https:// without any tls config given, then // grpc will assume the certificate server name is the endpoint host. conn, err := client.dial(cfg.Endpoints[0], grpc.WithBalancer(client.balancer)) if err != nil { client.cancel() client.balancer.Close() return nil, err } client.conn = conn // wait for a connection if cfg.DialTimeout > 0 { hasConn := false waitc := time.After(cfg.DialTimeout) select { case <-client.balancer.ready(): hasConn = true case <-ctx.Done(): case <-waitc: } if !hasConn { err := context.DeadlineExceeded select { case err = <-client.dialerrc: default: } client.cancel() client.balancer.Close() conn.Close() return nil, err } } client.Cluster = NewCluster(client) client.KV = NewKV(client) client.Lease = NewLease(client) client.Watcher = NewWatcher(client) client.Auth = NewAuth(client) client.Maintenance = NewMaintenance(client) if cfg.RejectOldCluster { if err := client.checkVersion(); err != nil { client.Close() return nil, err } } go client.autoSync() return client, nil } func (c *Client) checkVersion() (err error) { var wg sync.WaitGroup errc := make(chan error, len(c.cfg.Endpoints)) ctx, cancel := context.WithCancel(c.ctx) if c.cfg.DialTimeout > 0 { ctx, cancel = context.WithTimeout(ctx, c.cfg.DialTimeout) } wg.Add(len(c.cfg.Endpoints)) for _, ep := range c.cfg.Endpoints { // if cluster is current, any endpoint gives a recent version go func(e string) { defer wg.Done() resp, rerr := c.Status(ctx, e) if rerr != nil { errc <- rerr return } vs := strings.Split(resp.Version, ".") maj, min := 0, 0 if len(vs) >= 2 { maj, _ = strconv.Atoi(vs[0]) min, rerr = strconv.Atoi(vs[1]) } if maj < 3 || (maj == 3 && min < 2) { rerr = ErrOldCluster } errc <- rerr }(ep) } // wait for success for i := 0; i < len(c.cfg.Endpoints); i++ { if err = <-errc; err == nil { break } } cancel() wg.Wait() return err } // ActiveConnection returns the current in-use connection func (c *Client) ActiveConnection() *grpc.ClientConn { return c.conn } // isHaltErr returns true if the given error and context indicate no forward // progress can be made, even after reconnecting. func isHaltErr(ctx context.Context, err error) bool { if ctx != nil && ctx.Err() != nil { return true } if err == nil { return false } ev, _ := status.FromError(err) // Unavailable codes mean the system will be right back. // (e.g., can't connect, lost leader) // Treat Internal codes as if something failed, leaving the // system in an inconsistent state, but retrying could make progress. // (e.g., failed in middle of send, corrupted frame) // TODO: are permanent Internal errors possible from grpc? return ev.Code() != codes.Unavailable && ev.Code() != codes.Internal } // isUnavailableErr returns true if the given error is an unavailable error func isUnavailableErr(ctx context.Context, err error) bool { if ctx != nil && ctx.Err() != nil { return false } if err == nil { return false } ev, _ := status.FromError(err) // Unavailable codes mean the system will be right back. // (e.g., can't connect, lost leader) return ev.Code() == codes.Unavailable } func toErr(ctx context.Context, err error) error { if err == nil { return nil } err = rpctypes.Error(err) if _, ok := err.(rpctypes.EtcdError); ok { return err } ev, _ := status.FromError(err) code := ev.Code() switch code { case codes.DeadlineExceeded: fallthrough case codes.Canceled: if ctx.Err() != nil { err = ctx.Err() } case codes.Unavailable: case codes.FailedPrecondition: err = grpc.ErrClientConnClosing } return err } func canceledByCaller(stopCtx context.Context, err error) bool { if stopCtx.Err() == nil || err == nil { return false } return err == context.Canceled || err == context.DeadlineExceeded }