/* * * Copyright 2014 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 grpc import ( "context" "errors" "fmt" "io" "math" "net" "net/http" "reflect" "runtime" "strings" "sync" "sync/atomic" "time" "golang.org/x/net/trace" "google.golang.org/grpc/codes" "google.golang.org/grpc/credentials" "google.golang.org/grpc/encoding" "google.golang.org/grpc/encoding/proto" "google.golang.org/grpc/grpclog" "google.golang.org/grpc/internal/binarylog" "google.golang.org/grpc/internal/channelz" "google.golang.org/grpc/internal/transport" "google.golang.org/grpc/keepalive" "google.golang.org/grpc/metadata" "google.golang.org/grpc/peer" "google.golang.org/grpc/stats" "google.golang.org/grpc/status" "google.golang.org/grpc/tap" ) const ( defaultServerMaxReceiveMessageSize = 1024 * 1024 * 4 defaultServerMaxSendMessageSize = math.MaxInt32 ) type methodHandler func(srv interface{}, ctx context.Context, dec func(interface{}) error, interceptor UnaryServerInterceptor) (interface{}, error) // MethodDesc represents an RPC service's method specification. type MethodDesc struct { MethodName string Handler methodHandler } // ServiceDesc represents an RPC service's specification. type ServiceDesc struct { ServiceName string // The pointer to the service interface. Used to check whether the user // provided implementation satisfies the interface requirements. HandlerType interface{} Methods []MethodDesc Streams []StreamDesc Metadata interface{} } // service consists of the information of the server serving this service and // the methods in this service. type service struct { server interface{} // the server for service methods md map[string]*MethodDesc sd map[string]*StreamDesc mdata interface{} } // Server is a gRPC server to serve RPC requests. type Server struct { opts serverOptions mu sync.Mutex // guards following lis map[net.Listener]bool conns map[transport.ServerTransport]bool serve bool drain bool cv *sync.Cond // signaled when connections close for GracefulStop m map[string]*service // service name -> service info events trace.EventLog quit chan struct{} done chan struct{} quitOnce sync.Once doneOnce sync.Once channelzRemoveOnce sync.Once serveWG sync.WaitGroup // counts active Serve goroutines for GracefulStop channelzID int64 // channelz unique identification number czData *channelzData } type serverOptions struct { creds credentials.TransportCredentials codec baseCodec cp Compressor dc Decompressor unaryInt UnaryServerInterceptor streamInt StreamServerInterceptor inTapHandle tap.ServerInHandle statsHandler stats.Handler maxConcurrentStreams uint32 maxReceiveMessageSize int maxSendMessageSize int unknownStreamDesc *StreamDesc keepaliveParams keepalive.ServerParameters keepalivePolicy keepalive.EnforcementPolicy initialWindowSize int32 initialConnWindowSize int32 writeBufferSize int readBufferSize int connectionTimeout time.Duration maxHeaderListSize *uint32 } var defaultServerOptions = serverOptions{ maxReceiveMessageSize: defaultServerMaxReceiveMessageSize, maxSendMessageSize: defaultServerMaxSendMessageSize, connectionTimeout: 120 * time.Second, writeBufferSize: defaultWriteBufSize, readBufferSize: defaultReadBufSize, } // A ServerOption sets options such as credentials, codec and keepalive parameters, etc. type ServerOption interface { apply(*serverOptions) } // EmptyServerOption does not alter the server configuration. It can be embedded // in another structure to build custom server options. // // This API is EXPERIMENTAL. type EmptyServerOption struct{} func (EmptyServerOption) apply(*serverOptions) {} // funcServerOption wraps a function that modifies serverOptions into an // implementation of the ServerOption interface. type funcServerOption struct { f func(*serverOptions) } func (fdo *funcServerOption) apply(do *serverOptions) { fdo.f(do) } func newFuncServerOption(f func(*serverOptions)) *funcServerOption { return &funcServerOption{ f: f, } } // WriteBufferSize determines how much data can be batched before doing a write on the wire. // The corresponding memory allocation for this buffer will be twice the size to keep syscalls low. // The default value for this buffer is 32KB. // Zero will disable the write buffer such that each write will be on underlying connection. // Note: A Send call may not directly translate to a write. func WriteBufferSize(s int) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.writeBufferSize = s }) } // ReadBufferSize lets you set the size of read buffer, this determines how much data can be read at most // for one read syscall. // The default value for this buffer is 32KB. // Zero will disable read buffer for a connection so data framer can access the underlying // conn directly. func ReadBufferSize(s int) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.readBufferSize = s }) } // InitialWindowSize returns a ServerOption that sets window size for stream. // The lower bound for window size is 64K and any value smaller than that will be ignored. func InitialWindowSize(s int32) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.initialWindowSize = s }) } // InitialConnWindowSize returns a ServerOption that sets window size for a connection. // The lower bound for window size is 64K and any value smaller than that will be ignored. func InitialConnWindowSize(s int32) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.initialConnWindowSize = s }) } // KeepaliveParams returns a ServerOption that sets keepalive and max-age parameters for the server. func KeepaliveParams(kp keepalive.ServerParameters) ServerOption { if kp.Time > 0 && kp.Time < time.Second { grpclog.Warning("Adjusting keepalive ping interval to minimum period of 1s") kp.Time = time.Second } return newFuncServerOption(func(o *serverOptions) { o.keepaliveParams = kp }) } // KeepaliveEnforcementPolicy returns a ServerOption that sets keepalive enforcement policy for the server. func KeepaliveEnforcementPolicy(kep keepalive.EnforcementPolicy) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.keepalivePolicy = kep }) } // CustomCodec returns a ServerOption that sets a codec for message marshaling and unmarshaling. // // This will override any lookups by content-subtype for Codecs registered with RegisterCodec. func CustomCodec(codec Codec) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.codec = codec }) } // RPCCompressor returns a ServerOption that sets a compressor for outbound // messages. For backward compatibility, all outbound messages will be sent // using this compressor, regardless of incoming message compression. By // default, server messages will be sent using the same compressor with which // request messages were sent. // // Deprecated: use encoding.RegisterCompressor instead. func RPCCompressor(cp Compressor) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.cp = cp }) } // RPCDecompressor returns a ServerOption that sets a decompressor for inbound // messages. It has higher priority than decompressors registered via // encoding.RegisterCompressor. // // Deprecated: use encoding.RegisterCompressor instead. func RPCDecompressor(dc Decompressor) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.dc = dc }) } // MaxMsgSize returns a ServerOption to set the max message size in bytes the server can receive. // If this is not set, gRPC uses the default limit. // // Deprecated: use MaxRecvMsgSize instead. func MaxMsgSize(m int) ServerOption { return MaxRecvMsgSize(m) } // MaxRecvMsgSize returns a ServerOption to set the max message size in bytes the server can receive. // If this is not set, gRPC uses the default 4MB. func MaxRecvMsgSize(m int) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.maxReceiveMessageSize = m }) } // MaxSendMsgSize returns a ServerOption to set the max message size in bytes the server can send. // If this is not set, gRPC uses the default `math.MaxInt32`. func MaxSendMsgSize(m int) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.maxSendMessageSize = m }) } // MaxConcurrentStreams returns a ServerOption that will apply a limit on the number // of concurrent streams to each ServerTransport. func MaxConcurrentStreams(n uint32) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.maxConcurrentStreams = n }) } // Creds returns a ServerOption that sets credentials for server connections. func Creds(c credentials.TransportCredentials) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.creds = c }) } // UnaryInterceptor returns a ServerOption that sets the UnaryServerInterceptor for the // server. Only one unary interceptor can be installed. The construction of multiple // interceptors (e.g., chaining) can be implemented at the caller. func UnaryInterceptor(i UnaryServerInterceptor) ServerOption { return newFuncServerOption(func(o *serverOptions) { if o.unaryInt != nil { panic("The unary server interceptor was already set and may not be reset.") } o.unaryInt = i }) } // StreamInterceptor returns a ServerOption that sets the StreamServerInterceptor for the // server. Only one stream interceptor can be installed. func StreamInterceptor(i StreamServerInterceptor) ServerOption { return newFuncServerOption(func(o *serverOptions) { if o.streamInt != nil { panic("The stream server interceptor was already set and may not be reset.") } o.streamInt = i }) } // InTapHandle returns a ServerOption that sets the tap handle for all the server // transport to be created. Only one can be installed. func InTapHandle(h tap.ServerInHandle) ServerOption { return newFuncServerOption(func(o *serverOptions) { if o.inTapHandle != nil { panic("The tap handle was already set and may not be reset.") } o.inTapHandle = h }) } // StatsHandler returns a ServerOption that sets the stats handler for the server. func StatsHandler(h stats.Handler) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.statsHandler = h }) } // UnknownServiceHandler returns a ServerOption that allows for adding a custom // unknown service handler. The provided method is a bidi-streaming RPC service // handler that will be invoked instead of returning the "unimplemented" gRPC // error whenever a request is received for an unregistered service or method. // The handling function has full access to the Context of the request and the // stream, and the invocation bypasses interceptors. func UnknownServiceHandler(streamHandler StreamHandler) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.unknownStreamDesc = &StreamDesc{ StreamName: "unknown_service_handler", Handler: streamHandler, // We need to assume that the users of the streamHandler will want to use both. ClientStreams: true, ServerStreams: true, } }) } // ConnectionTimeout returns a ServerOption that sets the timeout for // connection establishment (up to and including HTTP/2 handshaking) for all // new connections. If this is not set, the default is 120 seconds. A zero or // negative value will result in an immediate timeout. // // This API is EXPERIMENTAL. func ConnectionTimeout(d time.Duration) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.connectionTimeout = d }) } // MaxHeaderListSize returns a ServerOption that sets the max (uncompressed) size // of header list that the server is prepared to accept. func MaxHeaderListSize(s uint32) ServerOption { return newFuncServerOption(func(o *serverOptions) { o.maxHeaderListSize = &s }) } // NewServer creates a gRPC server which has no service registered and has not // started to accept requests yet. func NewServer(opt ...ServerOption) *Server { opts := defaultServerOptions for _, o := range opt { o.apply(&opts) } s := &Server{ lis: make(map[net.Listener]bool), opts: opts, conns: make(map[transport.ServerTransport]bool), m: make(map[string]*service), quit: make(chan struct{}), done: make(chan struct{}), czData: new(channelzData), } s.cv = sync.NewCond(&s.mu) if EnableTracing { _, file, line, _ := runtime.Caller(1) s.events = trace.NewEventLog("grpc.Server", fmt.Sprintf("%s:%d", file, line)) } if channelz.IsOn() { s.channelzID = channelz.RegisterServer(&channelzServer{s}, "") } return s } // printf records an event in s's event log, unless s has been stopped. // REQUIRES s.mu is held. func (s *Server) printf(format string, a ...interface{}) { if s.events != nil { s.events.Printf(format, a...) } } // errorf records an error in s's event log, unless s has been stopped. // REQUIRES s.mu is held. func (s *Server) errorf(format string, a ...interface{}) { if s.events != nil { s.events.Errorf(format, a...) } } // RegisterService registers a service and its implementation to the gRPC // server. It is called from the IDL generated code. This must be called before // invoking Serve. func (s *Server) RegisterService(sd *ServiceDesc, ss interface{}) { ht := reflect.TypeOf(sd.HandlerType).Elem() st := reflect.TypeOf(ss) if !st.Implements(ht) { grpclog.Fatalf("grpc: Server.RegisterService found the handler of type %v that does not satisfy %v", st, ht) } s.register(sd, ss) } func (s *Server) register(sd *ServiceDesc, ss interface{}) { s.mu.Lock() defer s.mu.Unlock() s.printf("RegisterService(%q)", sd.ServiceName) if s.serve { grpclog.Fatalf("grpc: Server.RegisterService after Server.Serve for %q", sd.ServiceName) } if _, ok := s.m[sd.ServiceName]; ok { grpclog.Fatalf("grpc: Server.RegisterService found duplicate service registration for %q", sd.ServiceName) } srv := &service{ server: ss, md: make(map[string]*MethodDesc), sd: make(map[string]*StreamDesc), mdata: sd.Metadata, } for i := range sd.Methods { d := &sd.Methods[i] srv.md[d.MethodName] = d } for i := range sd.Streams { d := &sd.Streams[i] srv.sd[d.StreamName] = d } s.m[sd.ServiceName] = srv } // MethodInfo contains the information of an RPC including its method name and type. type MethodInfo struct { // Name is the method name only, without the service name or package name. Name string // IsClientStream indicates whether the RPC is a client streaming RPC. IsClientStream bool // IsServerStream indicates whether the RPC is a server streaming RPC. IsServerStream bool } // ServiceInfo contains unary RPC method info, streaming RPC method info and metadata for a service. type ServiceInfo struct { Methods []MethodInfo // Metadata is the metadata specified in ServiceDesc when registering service. Metadata interface{} } // GetServiceInfo returns a map from service names to ServiceInfo. // Service names include the package names, in the form of .. func (s *Server) GetServiceInfo() map[string]ServiceInfo { ret := make(map[string]ServiceInfo) for n, srv := range s.m { methods := make([]MethodInfo, 0, len(srv.md)+len(srv.sd)) for m := range srv.md { methods = append(methods, MethodInfo{ Name: m, IsClientStream: false, IsServerStream: false, }) } for m, d := range srv.sd { methods = append(methods, MethodInfo{ Name: m, IsClientStream: d.ClientStreams, IsServerStream: d.ServerStreams, }) } ret[n] = ServiceInfo{ Methods: methods, Metadata: srv.mdata, } } return ret } // ErrServerStopped indicates that the operation is now illegal because of // the server being stopped. var ErrServerStopped = errors.New("grpc: the server has been stopped") func (s *Server) useTransportAuthenticator(rawConn net.Conn) (net.Conn, credentials.AuthInfo, error) { if s.opts.creds == nil { return rawConn, nil, nil } return s.opts.creds.ServerHandshake(rawConn) } type listenSocket struct { net.Listener channelzID int64 } func (l *listenSocket) ChannelzMetric() *channelz.SocketInternalMetric { return &channelz.SocketInternalMetric{ SocketOptions: channelz.GetSocketOption(l.Listener), LocalAddr: l.Listener.Addr(), } } func (l *listenSocket) Close() error { err := l.Listener.Close() if channelz.IsOn() { channelz.RemoveEntry(l.channelzID) } return err } // Serve accepts incoming connections on the listener lis, creating a new // ServerTransport and service goroutine for each. The service goroutines // read gRPC requests and then call the registered handlers to reply to them. // Serve returns when lis.Accept fails with fatal errors. lis will be closed when // this method returns. // Serve will return a non-nil error unless Stop or GracefulStop is called. func (s *Server) Serve(lis net.Listener) error { s.mu.Lock() s.printf("serving") s.serve = true if s.lis == nil { // Serve called after Stop or GracefulStop. s.mu.Unlock() lis.Close() return ErrServerStopped } s.serveWG.Add(1) defer func() { s.serveWG.Done() select { // Stop or GracefulStop called; block until done and return nil. case <-s.quit: <-s.done default: } }() ls := &listenSocket{Listener: lis} s.lis[ls] = true if channelz.IsOn() { ls.channelzID = channelz.RegisterListenSocket(ls, s.channelzID, lis.Addr().String()) } s.mu.Unlock() defer func() { s.mu.Lock() if s.lis != nil && s.lis[ls] { ls.Close() delete(s.lis, ls) } s.mu.Unlock() }() var tempDelay time.Duration // how long to sleep on accept failure for { rawConn, err := lis.Accept() if err != nil { if ne, ok := err.(interface { Temporary() bool }); ok && ne.Temporary() { if tempDelay == 0 { tempDelay = 5 * time.Millisecond } else { tempDelay *= 2 } if max := 1 * time.Second; tempDelay > max { tempDelay = max } s.mu.Lock() s.printf("Accept error: %v; retrying in %v", err, tempDelay) s.mu.Unlock() timer := time.NewTimer(tempDelay) select { case <-timer.C: case <-s.quit: timer.Stop() return nil } continue } s.mu.Lock() s.printf("done serving; Accept = %v", err) s.mu.Unlock() select { case <-s.quit: return nil default: } return err } tempDelay = 0 // Start a new goroutine to deal with rawConn so we don't stall this Accept // loop goroutine. // // Make sure we account for the goroutine so GracefulStop doesn't nil out // s.conns before this conn can be added. s.serveWG.Add(1) go func() { s.handleRawConn(rawConn) s.serveWG.Done() }() } } // handleRawConn forks a goroutine to handle a just-accepted connection that // has not had any I/O performed on it yet. func (s *Server) handleRawConn(rawConn net.Conn) { rawConn.SetDeadline(time.Now().Add(s.opts.connectionTimeout)) conn, authInfo, err := s.useTransportAuthenticator(rawConn) if err != nil { // ErrConnDispatched means that the connection was dispatched away from // gRPC; those connections should be left open. if err != credentials.ErrConnDispatched { s.mu.Lock() s.errorf("ServerHandshake(%q) failed: %v", rawConn.RemoteAddr(), err) s.mu.Unlock() grpclog.Warningf("grpc: Server.Serve failed to complete security handshake from %q: %v", rawConn.RemoteAddr(), err) rawConn.Close() } rawConn.SetDeadline(time.Time{}) return } s.mu.Lock() if s.conns == nil { s.mu.Unlock() conn.Close() return } s.mu.Unlock() // Finish handshaking (HTTP2) st := s.newHTTP2Transport(conn, authInfo) if st == nil { return } rawConn.SetDeadline(time.Time{}) if !s.addConn(st) { return } go func() { s.serveStreams(st) s.removeConn(st) }() } // newHTTP2Transport sets up a http/2 transport (using the // gRPC http2 server transport in transport/http2_server.go). func (s *Server) newHTTP2Transport(c net.Conn, authInfo credentials.AuthInfo) transport.ServerTransport { config := &transport.ServerConfig{ MaxStreams: s.opts.maxConcurrentStreams, AuthInfo: authInfo, InTapHandle: s.opts.inTapHandle, StatsHandler: s.opts.statsHandler, KeepaliveParams: s.opts.keepaliveParams, KeepalivePolicy: s.opts.keepalivePolicy, InitialWindowSize: s.opts.initialWindowSize, InitialConnWindowSize: s.opts.initialConnWindowSize, WriteBufferSize: s.opts.writeBufferSize, ReadBufferSize: s.opts.readBufferSize, ChannelzParentID: s.channelzID, MaxHeaderListSize: s.opts.maxHeaderListSize, } st, err := transport.NewServerTransport("http2", c, config) if err != nil { s.mu.Lock() s.errorf("NewServerTransport(%q) failed: %v", c.RemoteAddr(), err) s.mu.Unlock() c.Close() grpclog.Warningln("grpc: Server.Serve failed to create ServerTransport: ", err) return nil } return st } func (s *Server) serveStreams(st transport.ServerTransport) { defer st.Close() var wg sync.WaitGroup st.HandleStreams(func(stream *transport.Stream) { wg.Add(1) go func() { defer wg.Done() s.handleStream(st, stream, s.traceInfo(st, stream)) }() }, func(ctx context.Context, method string) context.Context { if !EnableTracing { return ctx } tr := trace.New("grpc.Recv."+methodFamily(method), method) return trace.NewContext(ctx, tr) }) wg.Wait() } var _ http.Handler = (*Server)(nil) // ServeHTTP implements the Go standard library's http.Handler // interface by responding to the gRPC request r, by looking up // the requested gRPC method in the gRPC server s. // // The provided HTTP request must have arrived on an HTTP/2 // connection. When using the Go standard library's server, // practically this means that the Request must also have arrived // over TLS. // // To share one port (such as 443 for https) between gRPC and an // existing http.Handler, use a root http.Handler such as: // // if r.ProtoMajor == 2 && strings.HasPrefix( // r.Header.Get("Content-Type"), "application/grpc") { // grpcServer.ServeHTTP(w, r) // } else { // yourMux.ServeHTTP(w, r) // } // // Note that ServeHTTP uses Go's HTTP/2 server implementation which is totally // separate from grpc-go's HTTP/2 server. Performance and features may vary // between the two paths. ServeHTTP does not support some gRPC features // available through grpc-go's HTTP/2 server, and it is currently EXPERIMENTAL // and subject to change. func (s *Server) ServeHTTP(w http.ResponseWriter, r *http.Request) { st, err := transport.NewServerHandlerTransport(w, r, s.opts.statsHandler) if err != nil { http.Error(w, err.Error(), http.StatusInternalServerError) return } if !s.addConn(st) { return } defer s.removeConn(st) s.serveStreams(st) } // traceInfo returns a traceInfo and associates it with stream, if tracing is enabled. // If tracing is not enabled, it returns nil. func (s *Server) traceInfo(st transport.ServerTransport, stream *transport.Stream) (trInfo *traceInfo) { tr, ok := trace.FromContext(stream.Context()) if !ok { return nil } trInfo = &traceInfo{ tr: tr, firstLine: firstLine{ client: false, remoteAddr: st.RemoteAddr(), }, } if dl, ok := stream.Context().Deadline(); ok { trInfo.firstLine.deadline = time.Until(dl) } return trInfo } func (s *Server) addConn(st transport.ServerTransport) bool { s.mu.Lock() defer s.mu.Unlock() if s.conns == nil { st.Close() return false } if s.drain { // Transport added after we drained our existing conns: drain it // immediately. st.Drain() } s.conns[st] = true return true } func (s *Server) removeConn(st transport.ServerTransport) { s.mu.Lock() defer s.mu.Unlock() if s.conns != nil { delete(s.conns, st) s.cv.Broadcast() } } func (s *Server) channelzMetric() *channelz.ServerInternalMetric { return &channelz.ServerInternalMetric{ CallsStarted: atomic.LoadInt64(&s.czData.callsStarted), CallsSucceeded: atomic.LoadInt64(&s.czData.callsSucceeded), CallsFailed: atomic.LoadInt64(&s.czData.callsFailed), LastCallStartedTimestamp: time.Unix(0, atomic.LoadInt64(&s.czData.lastCallStartedTime)), } } func (s *Server) incrCallsStarted() { atomic.AddInt64(&s.czData.callsStarted, 1) atomic.StoreInt64(&s.czData.lastCallStartedTime, time.Now().UnixNano()) } func (s *Server) incrCallsSucceeded() { atomic.AddInt64(&s.czData.callsSucceeded, 1) } func (s *Server) incrCallsFailed() { atomic.AddInt64(&s.czData.callsFailed, 1) } func (s *Server) sendResponse(t transport.ServerTransport, stream *transport.Stream, msg interface{}, cp Compressor, opts *transport.Options, comp encoding.Compressor) error { data, err := encode(s.getCodec(stream.ContentSubtype()), msg) if err != nil { grpclog.Errorln("grpc: server failed to encode response: ", err) return err } compData, err := compress(data, cp, comp) if err != nil { grpclog.Errorln("grpc: server failed to compress response: ", err) return err } hdr, payload := msgHeader(data, compData) // TODO(dfawley): should we be checking len(data) instead? if len(payload) > s.opts.maxSendMessageSize { return status.Errorf(codes.ResourceExhausted, "grpc: trying to send message larger than max (%d vs. %d)", len(payload), s.opts.maxSendMessageSize) } err = t.Write(stream, hdr, payload, opts) if err == nil && s.opts.statsHandler != nil { s.opts.statsHandler.HandleRPC(stream.Context(), outPayload(false, msg, data, payload, time.Now())) } return err } func (s *Server) processUnaryRPC(t transport.ServerTransport, stream *transport.Stream, srv *service, md *MethodDesc, trInfo *traceInfo) (err error) { if channelz.IsOn() { s.incrCallsStarted() defer func() { if err != nil && err != io.EOF { s.incrCallsFailed() } else { s.incrCallsSucceeded() } }() } sh := s.opts.statsHandler if sh != nil { beginTime := time.Now() begin := &stats.Begin{ BeginTime: beginTime, } sh.HandleRPC(stream.Context(), begin) defer func() { end := &stats.End{ BeginTime: beginTime, EndTime: time.Now(), } if err != nil && err != io.EOF { end.Error = toRPCErr(err) } sh.HandleRPC(stream.Context(), end) }() } if trInfo != nil { defer trInfo.tr.Finish() trInfo.tr.LazyLog(&trInfo.firstLine, false) defer func() { if err != nil && err != io.EOF { trInfo.tr.LazyLog(&fmtStringer{"%v", []interface{}{err}}, true) trInfo.tr.SetError() } }() } binlog := binarylog.GetMethodLogger(stream.Method()) if binlog != nil { ctx := stream.Context() md, _ := metadata.FromIncomingContext(ctx) logEntry := &binarylog.ClientHeader{ Header: md, MethodName: stream.Method(), PeerAddr: nil, } if deadline, ok := ctx.Deadline(); ok { logEntry.Timeout = time.Until(deadline) if logEntry.Timeout < 0 { logEntry.Timeout = 0 } } if a := md[":authority"]; len(a) > 0 { logEntry.Authority = a[0] } if peer, ok := peer.FromContext(ctx); ok { logEntry.PeerAddr = peer.Addr } binlog.Log(logEntry) } // comp and cp are used for compression. decomp and dc are used for // decompression. If comp and decomp are both set, they are the same; // however they are kept separate to ensure that at most one of the // compressor/decompressor variable pairs are set for use later. var comp, decomp encoding.Compressor var cp Compressor var dc Decompressor // If dc is set and matches the stream's compression, use it. Otherwise, try // to find a matching registered compressor for decomp. if rc := stream.RecvCompress(); s.opts.dc != nil && s.opts.dc.Type() == rc { dc = s.opts.dc } else if rc != "" && rc != encoding.Identity { decomp = encoding.GetCompressor(rc) if decomp == nil { st := status.Newf(codes.Unimplemented, "grpc: Decompressor is not installed for grpc-encoding %q", rc) t.WriteStatus(stream, st) return st.Err() } } // If cp is set, use it. Otherwise, attempt to compress the response using // the incoming message compression method. // // NOTE: this needs to be ahead of all handling, https://github.com/grpc/grpc-go/issues/686. if s.opts.cp != nil { cp = s.opts.cp stream.SetSendCompress(cp.Type()) } else if rc := stream.RecvCompress(); rc != "" && rc != encoding.Identity { // Legacy compressor not specified; attempt to respond with same encoding. comp = encoding.GetCompressor(rc) if comp != nil { stream.SetSendCompress(rc) } } var payInfo *payloadInfo if sh != nil || binlog != nil { payInfo = &payloadInfo{} } d, err := recvAndDecompress(&parser{r: stream}, stream, dc, s.opts.maxReceiveMessageSize, payInfo, decomp) if err != nil { if st, ok := status.FromError(err); ok { if e := t.WriteStatus(stream, st); e != nil { grpclog.Warningf("grpc: Server.processUnaryRPC failed to write status %v", e) } } return err } if channelz.IsOn() { t.IncrMsgRecv() } df := func(v interface{}) error { if err := s.getCodec(stream.ContentSubtype()).Unmarshal(d, v); err != nil { return status.Errorf(codes.Internal, "grpc: error unmarshalling request: %v", err) } if sh != nil { sh.HandleRPC(stream.Context(), &stats.InPayload{ RecvTime: time.Now(), Payload: v, Data: d, Length: len(d), }) } if binlog != nil { binlog.Log(&binarylog.ClientMessage{ Message: d, }) } if trInfo != nil { trInfo.tr.LazyLog(&payload{sent: false, msg: v}, true) } return nil } ctx := NewContextWithServerTransportStream(stream.Context(), stream) reply, appErr := md.Handler(srv.server, ctx, df, s.opts.unaryInt) if appErr != nil { appStatus, ok := status.FromError(appErr) if !ok { // Convert appErr if it is not a grpc status error. appErr = status.Error(codes.Unknown, appErr.Error()) appStatus, _ = status.FromError(appErr) } if trInfo != nil { trInfo.tr.LazyLog(stringer(appStatus.Message()), true) trInfo.tr.SetError() } if e := t.WriteStatus(stream, appStatus); e != nil { grpclog.Warningf("grpc: Server.processUnaryRPC failed to write status: %v", e) } if binlog != nil { if h, _ := stream.Header(); h.Len() > 0 { // Only log serverHeader if there was header. Otherwise it can // be trailer only. binlog.Log(&binarylog.ServerHeader{ Header: h, }) } binlog.Log(&binarylog.ServerTrailer{ Trailer: stream.Trailer(), Err: appErr, }) } return appErr } if trInfo != nil { trInfo.tr.LazyLog(stringer("OK"), false) } opts := &transport.Options{Last: true} if err := s.sendResponse(t, stream, reply, cp, opts, comp); err != nil { if err == io.EOF { // The entire stream is done (for unary RPC only). return err } if s, ok := status.FromError(err); ok { if e := t.WriteStatus(stream, s); e != nil { grpclog.Warningf("grpc: Server.processUnaryRPC failed to write status: %v", e) } } else { switch st := err.(type) { case transport.ConnectionError: // Nothing to do here. default: panic(fmt.Sprintf("grpc: Unexpected error (%T) from sendResponse: %v", st, st)) } } if binlog != nil { h, _ := stream.Header() binlog.Log(&binarylog.ServerHeader{ Header: h, }) binlog.Log(&binarylog.ServerTrailer{ Trailer: stream.Trailer(), Err: appErr, }) } return err } if binlog != nil { h, _ := stream.Header() binlog.Log(&binarylog.ServerHeader{ Header: h, }) binlog.Log(&binarylog.ServerMessage{ Message: reply, }) } if channelz.IsOn() { t.IncrMsgSent() } if trInfo != nil { trInfo.tr.LazyLog(&payload{sent: true, msg: reply}, true) } // TODO: Should we be logging if writing status failed here, like above? // Should the logging be in WriteStatus? Should we ignore the WriteStatus // error or allow the stats handler to see it? err = t.WriteStatus(stream, status.New(codes.OK, "")) if binlog != nil { binlog.Log(&binarylog.ServerTrailer{ Trailer: stream.Trailer(), Err: appErr, }) } return err } func (s *Server) processStreamingRPC(t transport.ServerTransport, stream *transport.Stream, srv *service, sd *StreamDesc, trInfo *traceInfo) (err error) { if channelz.IsOn() { s.incrCallsStarted() defer func() { if err != nil && err != io.EOF { s.incrCallsFailed() } else { s.incrCallsSucceeded() } }() } sh := s.opts.statsHandler if sh != nil { beginTime := time.Now() begin := &stats.Begin{ BeginTime: beginTime, } sh.HandleRPC(stream.Context(), begin) defer func() { end := &stats.End{ BeginTime: beginTime, EndTime: time.Now(), } if err != nil && err != io.EOF { end.Error = toRPCErr(err) } sh.HandleRPC(stream.Context(), end) }() } ctx := NewContextWithServerTransportStream(stream.Context(), stream) ss := &serverStream{ ctx: ctx, t: t, s: stream, p: &parser{r: stream}, codec: s.getCodec(stream.ContentSubtype()), maxReceiveMessageSize: s.opts.maxReceiveMessageSize, maxSendMessageSize: s.opts.maxSendMessageSize, trInfo: trInfo, statsHandler: sh, } ss.binlog = binarylog.GetMethodLogger(stream.Method()) if ss.binlog != nil { md, _ := metadata.FromIncomingContext(ctx) logEntry := &binarylog.ClientHeader{ Header: md, MethodName: stream.Method(), PeerAddr: nil, } if deadline, ok := ctx.Deadline(); ok { logEntry.Timeout = time.Until(deadline) if logEntry.Timeout < 0 { logEntry.Timeout = 0 } } if a := md[":authority"]; len(a) > 0 { logEntry.Authority = a[0] } if peer, ok := peer.FromContext(ss.Context()); ok { logEntry.PeerAddr = peer.Addr } ss.binlog.Log(logEntry) } // If dc is set and matches the stream's compression, use it. Otherwise, try // to find a matching registered compressor for decomp. if rc := stream.RecvCompress(); s.opts.dc != nil && s.opts.dc.Type() == rc { ss.dc = s.opts.dc } else if rc != "" && rc != encoding.Identity { ss.decomp = encoding.GetCompressor(rc) if ss.decomp == nil { st := status.Newf(codes.Unimplemented, "grpc: Decompressor is not installed for grpc-encoding %q", rc) t.WriteStatus(ss.s, st) return st.Err() } } // If cp is set, use it. Otherwise, attempt to compress the response using // the incoming message compression method. // // NOTE: this needs to be ahead of all handling, https://github.com/grpc/grpc-go/issues/686. if s.opts.cp != nil { ss.cp = s.opts.cp stream.SetSendCompress(s.opts.cp.Type()) } else if rc := stream.RecvCompress(); rc != "" && rc != encoding.Identity { // Legacy compressor not specified; attempt to respond with same encoding. ss.comp = encoding.GetCompressor(rc) if ss.comp != nil { stream.SetSendCompress(rc) } } if trInfo != nil { trInfo.tr.LazyLog(&trInfo.firstLine, false) defer func() { ss.mu.Lock() if err != nil && err != io.EOF { ss.trInfo.tr.LazyLog(&fmtStringer{"%v", []interface{}{err}}, true) ss.trInfo.tr.SetError() } ss.trInfo.tr.Finish() ss.trInfo.tr = nil ss.mu.Unlock() }() } var appErr error var server interface{} if srv != nil { server = srv.server } if s.opts.streamInt == nil { appErr = sd.Handler(server, ss) } else { info := &StreamServerInfo{ FullMethod: stream.Method(), IsClientStream: sd.ClientStreams, IsServerStream: sd.ServerStreams, } appErr = s.opts.streamInt(server, ss, info, sd.Handler) } if appErr != nil { appStatus, ok := status.FromError(appErr) if !ok { appStatus = status.New(codes.Unknown, appErr.Error()) appErr = appStatus.Err() } if trInfo != nil { ss.mu.Lock() ss.trInfo.tr.LazyLog(stringer(appStatus.Message()), true) ss.trInfo.tr.SetError() ss.mu.Unlock() } t.WriteStatus(ss.s, appStatus) if ss.binlog != nil { ss.binlog.Log(&binarylog.ServerTrailer{ Trailer: ss.s.Trailer(), Err: appErr, }) } // TODO: Should we log an error from WriteStatus here and below? return appErr } if trInfo != nil { ss.mu.Lock() ss.trInfo.tr.LazyLog(stringer("OK"), false) ss.mu.Unlock() } err = t.WriteStatus(ss.s, status.New(codes.OK, "")) if ss.binlog != nil { ss.binlog.Log(&binarylog.ServerTrailer{ Trailer: ss.s.Trailer(), Err: appErr, }) } return err } func (s *Server) handleStream(t transport.ServerTransport, stream *transport.Stream, trInfo *traceInfo) { sm := stream.Method() if sm != "" && sm[0] == '/' { sm = sm[1:] } pos := strings.LastIndex(sm, "/") if pos == -1 { if trInfo != nil { trInfo.tr.LazyLog(&fmtStringer{"Malformed method name %q", []interface{}{sm}}, true) trInfo.tr.SetError() } errDesc := fmt.Sprintf("malformed method name: %q", stream.Method()) if err := t.WriteStatus(stream, status.New(codes.ResourceExhausted, errDesc)); err != nil { if trInfo != nil { trInfo.tr.LazyLog(&fmtStringer{"%v", []interface{}{err}}, true) trInfo.tr.SetError() } grpclog.Warningf("grpc: Server.handleStream failed to write status: %v", err) } if trInfo != nil { trInfo.tr.Finish() } return } service := sm[:pos] method := sm[pos+1:] srv, knownService := s.m[service] if knownService { if md, ok := srv.md[method]; ok { s.processUnaryRPC(t, stream, srv, md, trInfo) return } if sd, ok := srv.sd[method]; ok { s.processStreamingRPC(t, stream, srv, sd, trInfo) return } } // Unknown service, or known server unknown method. if unknownDesc := s.opts.unknownStreamDesc; unknownDesc != nil { s.processStreamingRPC(t, stream, nil, unknownDesc, trInfo) return } var errDesc string if !knownService { errDesc = fmt.Sprintf("unknown service %v", service) } else { errDesc = fmt.Sprintf("unknown method %v for service %v", method, service) } if trInfo != nil { trInfo.tr.LazyPrintf("%s", errDesc) trInfo.tr.SetError() } if err := t.WriteStatus(stream, status.New(codes.Unimplemented, errDesc)); err != nil { if trInfo != nil { trInfo.tr.LazyLog(&fmtStringer{"%v", []interface{}{err}}, true) trInfo.tr.SetError() } grpclog.Warningf("grpc: Server.handleStream failed to write status: %v", err) } if trInfo != nil { trInfo.tr.Finish() } } // The key to save ServerTransportStream in the context. type streamKey struct{} // NewContextWithServerTransportStream creates a new context from ctx and // attaches stream to it. // // This API is EXPERIMENTAL. func NewContextWithServerTransportStream(ctx context.Context, stream ServerTransportStream) context.Context { return context.WithValue(ctx, streamKey{}, stream) } // ServerTransportStream is a minimal interface that a transport stream must // implement. This can be used to mock an actual transport stream for tests of // handler code that use, for example, grpc.SetHeader (which requires some // stream to be in context). // // See also NewContextWithServerTransportStream. // // This API is EXPERIMENTAL. type ServerTransportStream interface { Method() string SetHeader(md metadata.MD) error SendHeader(md metadata.MD) error SetTrailer(md metadata.MD) error } // ServerTransportStreamFromContext returns the ServerTransportStream saved in // ctx. Returns nil if the given context has no stream associated with it // (which implies it is not an RPC invocation context). // // This API is EXPERIMENTAL. func ServerTransportStreamFromContext(ctx context.Context) ServerTransportStream { s, _ := ctx.Value(streamKey{}).(ServerTransportStream) return s } // Stop stops the gRPC server. It immediately closes all open // connections and listeners. // It cancels all active RPCs on the server side and the corresponding // pending RPCs on the client side will get notified by connection // errors. func (s *Server) Stop() { s.quitOnce.Do(func() { close(s.quit) }) defer func() { s.serveWG.Wait() s.doneOnce.Do(func() { close(s.done) }) }() s.channelzRemoveOnce.Do(func() { if channelz.IsOn() { channelz.RemoveEntry(s.channelzID) } }) s.mu.Lock() listeners := s.lis s.lis = nil st := s.conns s.conns = nil // interrupt GracefulStop if Stop and GracefulStop are called concurrently. s.cv.Broadcast() s.mu.Unlock() for lis := range listeners { lis.Close() } for c := range st { c.Close() } s.mu.Lock() if s.events != nil { s.events.Finish() s.events = nil } s.mu.Unlock() } // GracefulStop stops the gRPC server gracefully. It stops the server from // accepting new connections and RPCs and blocks until all the pending RPCs are // finished. func (s *Server) GracefulStop() { s.quitOnce.Do(func() { close(s.quit) }) defer func() { s.doneOnce.Do(func() { close(s.done) }) }() s.channelzRemoveOnce.Do(func() { if channelz.IsOn() { channelz.RemoveEntry(s.channelzID) } }) s.mu.Lock() if s.conns == nil { s.mu.Unlock() return } for lis := range s.lis { lis.Close() } s.lis = nil if !s.drain { for st := range s.conns { st.Drain() } s.drain = true } // Wait for serving threads to be ready to exit. Only then can we be sure no // new conns will be created. s.mu.Unlock() s.serveWG.Wait() s.mu.Lock() for len(s.conns) != 0 { s.cv.Wait() } s.conns = nil if s.events != nil { s.events.Finish() s.events = nil } s.mu.Unlock() } // contentSubtype must be lowercase // cannot return nil func (s *Server) getCodec(contentSubtype string) baseCodec { if s.opts.codec != nil { return s.opts.codec } if contentSubtype == "" { return encoding.GetCodec(proto.Name) } codec := encoding.GetCodec(contentSubtype) if codec == nil { return encoding.GetCodec(proto.Name) } return codec } // SetHeader sets the header metadata. // When called multiple times, all the provided metadata will be merged. // All the metadata will be sent out when one of the following happens: // - grpc.SendHeader() is called; // - The first response is sent out; // - An RPC status is sent out (error or success). func SetHeader(ctx context.Context, md metadata.MD) error { if md.Len() == 0 { return nil } stream := ServerTransportStreamFromContext(ctx) if stream == nil { return status.Errorf(codes.Internal, "grpc: failed to fetch the stream from the context %v", ctx) } return stream.SetHeader(md) } // SendHeader sends header metadata. It may be called at most once. // The provided md and headers set by SetHeader() will be sent. func SendHeader(ctx context.Context, md metadata.MD) error { stream := ServerTransportStreamFromContext(ctx) if stream == nil { return status.Errorf(codes.Internal, "grpc: failed to fetch the stream from the context %v", ctx) } if err := stream.SendHeader(md); err != nil { return toRPCErr(err) } return nil } // SetTrailer sets the trailer metadata that will be sent when an RPC returns. // When called more than once, all the provided metadata will be merged. func SetTrailer(ctx context.Context, md metadata.MD) error { if md.Len() == 0 { return nil } stream := ServerTransportStreamFromContext(ctx) if stream == nil { return status.Errorf(codes.Internal, "grpc: failed to fetch the stream from the context %v", ctx) } return stream.SetTrailer(md) } // Method returns the method string for the server context. The returned // string is in the format of "/service/method". func Method(ctx context.Context) (string, bool) { s := ServerTransportStreamFromContext(ctx) if s == nil { return "", false } return s.Method(), true } type channelzServer struct { s *Server } func (c *channelzServer) ChannelzMetric() *channelz.ServerInternalMetric { return c.s.channelzMetric() }