package rpcclient import ( "context" "encoding/json" "fmt" "net" "net/http" "sync" "time" "github.com/gorilla/websocket" "github.com/pkg/errors" metrics "github.com/rcrowley/go-metrics" amino "github.com/tendermint/go-amino" cmn "github.com/tendermint/tendermint/libs/common" types "github.com/tendermint/tendermint/rpc/lib/types" ) const ( defaultMaxReconnectAttempts = 25 defaultWriteWait = 0 defaultReadWait = 0 defaultPingPeriod = 0 ) // WSClient is a WebSocket client. The methods of WSClient are safe for use by // multiple goroutines. type WSClient struct { cmn.BaseService conn *websocket.Conn cdc *amino.Codec Address string // IP:PORT or /path/to/socket Endpoint string // /websocket/url/endpoint Dialer func(string, string) (net.Conn, error) // Time between sending a ping and receiving a pong. See // https://godoc.org/github.com/rcrowley/go-metrics#Timer. PingPongLatencyTimer metrics.Timer // Single user facing channel to read RPCResponses from, closed only when the client is being stopped. ResponsesCh chan types.RPCResponse // Callback, which will be called each time after successful reconnect. onReconnect func() // internal channels send chan types.RPCRequest // user requests backlog chan types.RPCRequest // stores a single user request received during a conn failure reconnectAfter chan error // reconnect requests readRoutineQuit chan struct{} // a way for readRoutine to close writeRoutine wg sync.WaitGroup mtx sync.RWMutex sentLastPingAt time.Time reconnecting bool // Maximum reconnect attempts (0 or greater; default: 25). maxReconnectAttempts int // Time allowed to write a message to the server. 0 means block until operation succeeds. writeWait time.Duration // Time allowed to read the next message from the server. 0 means block until operation succeeds. readWait time.Duration // Send pings to server with this period. Must be less than readWait. If 0, no pings will be sent. pingPeriod time.Duration // Support both ws and wss protocols protocol string } // NewWSClient returns a new client. See the commentary on the func(*WSClient) // functions for a detailed description of how to configure ping period and // pong wait time. The endpoint argument must begin with a `/`. // The function panics if the provided address is invalid. func NewWSClient(remoteAddr, endpoint string, options ...func(*WSClient)) *WSClient { protocol, addr, err := toClientAddrAndParse(remoteAddr) if err != nil { panic(fmt.Sprintf("invalid remote %s: %s", remoteAddr, err)) } // default to ws protocol, unless wss is explicitly specified if protocol != "wss" { protocol = "ws" } c := &WSClient{ cdc: amino.NewCodec(), Address: addr, Dialer: makeHTTPDialer(remoteAddr), Endpoint: endpoint, PingPongLatencyTimer: metrics.NewTimer(), maxReconnectAttempts: defaultMaxReconnectAttempts, readWait: defaultReadWait, writeWait: defaultWriteWait, pingPeriod: defaultPingPeriod, protocol: protocol, } c.BaseService = *cmn.NewBaseService(nil, "WSClient", c) for _, option := range options { option(c) } return c } // MaxReconnectAttempts sets the maximum number of reconnect attempts before returning an error. // It should only be used in the constructor and is not Goroutine-safe. func MaxReconnectAttempts(max int) func(*WSClient) { return func(c *WSClient) { c.maxReconnectAttempts = max } } // ReadWait sets the amount of time to wait before a websocket read times out. // It should only be used in the constructor and is not Goroutine-safe. func ReadWait(readWait time.Duration) func(*WSClient) { return func(c *WSClient) { c.readWait = readWait } } // WriteWait sets the amount of time to wait before a websocket write times out. // It should only be used in the constructor and is not Goroutine-safe. func WriteWait(writeWait time.Duration) func(*WSClient) { return func(c *WSClient) { c.writeWait = writeWait } } // PingPeriod sets the duration for sending websocket pings. // It should only be used in the constructor - not Goroutine-safe. func PingPeriod(pingPeriod time.Duration) func(*WSClient) { return func(c *WSClient) { c.pingPeriod = pingPeriod } } // OnReconnect sets the callback, which will be called every time after // successful reconnect. func OnReconnect(cb func()) func(*WSClient) { return func(c *WSClient) { c.onReconnect = cb } } // String returns WS client full address. func (c *WSClient) String() string { return fmt.Sprintf("%s (%s)", c.Address, c.Endpoint) } // OnStart implements cmn.Service by dialing a server and creating read and // write routines. func (c *WSClient) OnStart() error { err := c.dial() if err != nil { return err } c.ResponsesCh = make(chan types.RPCResponse) c.send = make(chan types.RPCRequest) // 1 additional error may come from the read/write // goroutine depending on which failed first. c.reconnectAfter = make(chan error, 1) // capacity for 1 request. a user won't be able to send more because the send // channel is unbuffered. c.backlog = make(chan types.RPCRequest, 1) c.startReadWriteRoutines() go c.reconnectRoutine() return nil } // Stop overrides cmn.Service#Stop. There is no other way to wait until Quit // channel is closed. func (c *WSClient) Stop() error { if err := c.BaseService.Stop(); err != nil { return err } // only close user-facing channels when we can't write to them c.wg.Wait() close(c.ResponsesCh) return nil } // IsReconnecting returns true if the client is reconnecting right now. func (c *WSClient) IsReconnecting() bool { c.mtx.RLock() defer c.mtx.RUnlock() return c.reconnecting } // IsActive returns true if the client is running and not reconnecting. func (c *WSClient) IsActive() bool { return c.IsRunning() && !c.IsReconnecting() } // Send the given RPC request to the server. Results will be available on // ResponsesCh, errors, if any, on ErrorsCh. Will block until send succeeds or // ctx.Done is closed. func (c *WSClient) Send(ctx context.Context, request types.RPCRequest) error { select { case c.send <- request: c.Logger.Info("sent a request", "req", request) return nil case <-ctx.Done(): return ctx.Err() } } // Call the given method. See Send description. func (c *WSClient) Call(ctx context.Context, method string, params map[string]interface{}) error { request, err := types.MapToRequest(c.cdc, types.JSONRPCStringID("ws-client"), method, params) if err != nil { return err } return c.Send(ctx, request) } // CallWithArrayParams the given method with params in a form of array. See // Send description. func (c *WSClient) CallWithArrayParams(ctx context.Context, method string, params []interface{}) error { request, err := types.ArrayToRequest(c.cdc, types.JSONRPCStringID("ws-client"), method, params) if err != nil { return err } return c.Send(ctx, request) } func (c *WSClient) Codec() *amino.Codec { return c.cdc } func (c *WSClient) SetCodec(cdc *amino.Codec) { c.cdc = cdc } /////////////////////////////////////////////////////////////////////////////// // Private methods func (c *WSClient) dial() error { dialer := &websocket.Dialer{ NetDial: c.Dialer, Proxy: http.ProxyFromEnvironment, } rHeader := http.Header{} conn, _, err := dialer.Dial(c.protocol+"://"+c.Address+c.Endpoint, rHeader) if err != nil { return err } c.conn = conn return nil } // reconnect tries to redial up to maxReconnectAttempts with exponential // backoff. func (c *WSClient) reconnect() error { attempt := 0 c.mtx.Lock() c.reconnecting = true c.mtx.Unlock() defer func() { c.mtx.Lock() c.reconnecting = false c.mtx.Unlock() }() for { jitterSeconds := time.Duration(cmn.RandFloat64() * float64(time.Second)) // 1s == (1e9 ns) backoffDuration := jitterSeconds + ((1 << uint(attempt)) * time.Second) c.Logger.Info("reconnecting", "attempt", attempt+1, "backoff_duration", backoffDuration) time.Sleep(backoffDuration) err := c.dial() if err != nil { c.Logger.Error("failed to redial", "err", err) } else { c.Logger.Info("reconnected") if c.onReconnect != nil { go c.onReconnect() } return nil } attempt++ if attempt > c.maxReconnectAttempts { return errors.Wrap(err, "reached maximum reconnect attempts") } } } func (c *WSClient) startReadWriteRoutines() { c.wg.Add(2) c.readRoutineQuit = make(chan struct{}) go c.readRoutine() go c.writeRoutine() } func (c *WSClient) processBacklog() error { select { case request := <-c.backlog: if c.writeWait > 0 { if err := c.conn.SetWriteDeadline(time.Now().Add(c.writeWait)); err != nil { c.Logger.Error("failed to set write deadline", "err", err) } } if err := c.conn.WriteJSON(request); err != nil { c.Logger.Error("failed to resend request", "err", err) c.reconnectAfter <- err // requeue request c.backlog <- request return err } c.Logger.Info("resend a request", "req", request) default: } return nil } func (c *WSClient) reconnectRoutine() { for { select { case originalError := <-c.reconnectAfter: // wait until writeRoutine and readRoutine finish c.wg.Wait() if err := c.reconnect(); err != nil { c.Logger.Error("failed to reconnect", "err", err, "original_err", originalError) c.Stop() return } // drain reconnectAfter LOOP: for { select { case <-c.reconnectAfter: default: break LOOP } } err := c.processBacklog() if err == nil { c.startReadWriteRoutines() } case <-c.Quit(): return } } } // The client ensures that there is at most one writer to a connection by // executing all writes from this goroutine. func (c *WSClient) writeRoutine() { var ticker *time.Ticker if c.pingPeriod > 0 { // ticker with a predefined period ticker = time.NewTicker(c.pingPeriod) } else { // ticker that never fires ticker = &time.Ticker{C: make(<-chan time.Time)} } defer func() { ticker.Stop() c.conn.Close() // err != nil { // ignore error; it will trigger in tests // likely because it's closing an already closed connection // } c.wg.Done() }() for { select { case request := <-c.send: if c.writeWait > 0 { if err := c.conn.SetWriteDeadline(time.Now().Add(c.writeWait)); err != nil { c.Logger.Error("failed to set write deadline", "err", err) } } if err := c.conn.WriteJSON(request); err != nil { c.Logger.Error("failed to send request", "err", err) c.reconnectAfter <- err // add request to the backlog, so we don't lose it c.backlog <- request return } case <-ticker.C: if c.writeWait > 0 { if err := c.conn.SetWriteDeadline(time.Now().Add(c.writeWait)); err != nil { c.Logger.Error("failed to set write deadline", "err", err) } } if err := c.conn.WriteMessage(websocket.PingMessage, []byte{}); err != nil { c.Logger.Error("failed to write ping", "err", err) c.reconnectAfter <- err return } c.mtx.Lock() c.sentLastPingAt = time.Now() c.mtx.Unlock() c.Logger.Debug("sent ping") case <-c.readRoutineQuit: return case <-c.Quit(): if err := c.conn.WriteMessage(websocket.CloseMessage, websocket.FormatCloseMessage(websocket.CloseNormalClosure, "")); err != nil { c.Logger.Error("failed to write message", "err", err) } return } } } // The client ensures that there is at most one reader to a connection by // executing all reads from this goroutine. func (c *WSClient) readRoutine() { defer func() { c.conn.Close() // err != nil { // ignore error; it will trigger in tests // likely because it's closing an already closed connection // } c.wg.Done() }() c.conn.SetPongHandler(func(string) error { // gather latency stats c.mtx.RLock() t := c.sentLastPingAt c.mtx.RUnlock() c.PingPongLatencyTimer.UpdateSince(t) c.Logger.Debug("got pong") return nil }) for { // reset deadline for every message type (control or data) if c.readWait > 0 { if err := c.conn.SetReadDeadline(time.Now().Add(c.readWait)); err != nil { c.Logger.Error("failed to set read deadline", "err", err) } } _, data, err := c.conn.ReadMessage() if err != nil { if !websocket.IsUnexpectedCloseError(err, websocket.CloseNormalClosure) { return } c.Logger.Error("failed to read response", "err", err) close(c.readRoutineQuit) c.reconnectAfter <- err return } var response types.RPCResponse err = json.Unmarshal(data, &response) if err != nil { c.Logger.Error("failed to parse response", "err", err, "data", string(data)) continue } c.Logger.Info("got response", "resp", response.Result) // Combine a non-blocking read on BaseService.Quit with a non-blocking write on ResponsesCh to avoid blocking // c.wg.Wait() in c.Stop(). Note we rely on Quit being closed so that it sends unlimited Quit signals to stop // both readRoutine and writeRoutine select { case <-c.Quit(): case c.ResponsesCh <- response: } } } /////////////////////////////////////////////////////////////////////////////// // Predefined methods // Subscribe to a query. Note the server must have a "subscribe" route // defined. func (c *WSClient) Subscribe(ctx context.Context, query string) error { params := map[string]interface{}{"query": query} return c.Call(ctx, "subscribe", params) } // Unsubscribe from a query. Note the server must have a "unsubscribe" route // defined. func (c *WSClient) Unsubscribe(ctx context.Context, query string) error { params := map[string]interface{}{"query": query} return c.Call(ctx, "unsubscribe", params) } // UnsubscribeAll from all. Note the server must have a "unsubscribe_all" route // defined. func (c *WSClient) UnsubscribeAll(ctx context.Context) error { params := map[string]interface{}{} return c.Call(ctx, "unsubscribe_all", params) }