/* * Copyright 2019 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. * */ import * as http2 from 'http2'; import { AddressInfo } from 'net'; import { ServiceError } from './call'; import { Status, LogVerbosity } from './constants'; import { Deserialize, Serialize, ServiceDefinition } from './make-client'; import { Metadata } from './metadata'; import { BidiStreamingHandler, ClientStreamingHandler, HandleCall, Handler, HandlerType, Http2ServerCallStream, sendUnaryData, ServerDuplexStream, ServerDuplexStreamImpl, ServerReadableStream, ServerReadableStreamImpl, ServerStreamingHandler, ServerUnaryCall, ServerUnaryCallImpl, ServerWritableStream, ServerWritableStreamImpl, UnaryHandler, ServerErrorResponse, ServerStatusResponse, } from './server-call'; import { ServerCredentials } from './server-credentials'; import { ChannelOptions } from './channel-options'; import { createResolver, ResolverListener, mapUriDefaultScheme, } from './resolver'; import * as logging from './logging'; import { SubchannelAddress, TcpSubchannelAddress, isTcpSubchannelAddress, subchannelAddressToString, } from './subchannel'; import { parseUri } from './uri-parser'; const TRACER_NAME = 'server'; function trace(text: string): void { logging.trace(LogVerbosity.DEBUG, TRACER_NAME, text); } interface BindResult { port: number; count: number; } function noop(): void {} function getUnimplementedStatusResponse( methodName: string ): Partial { return { code: Status.UNIMPLEMENTED, details: `The server does not implement the method ${methodName}`, metadata: new Metadata(), }; } /* eslint-disable @typescript-eslint/no-explicit-any */ type UntypedUnaryHandler = UnaryHandler; type UntypedClientStreamingHandler = ClientStreamingHandler; type UntypedServerStreamingHandler = ServerStreamingHandler; type UntypedBidiStreamingHandler = BidiStreamingHandler; export type UntypedHandleCall = HandleCall; type UntypedHandler = Handler; export interface UntypedServiceImplementation { [name: string]: UntypedHandleCall; } function getDefaultHandler(handlerType: HandlerType, methodName: string) { const unimplementedStatusResponse = getUnimplementedStatusResponse( methodName ); switch (handlerType) { case 'unary': return ( call: ServerUnaryCall, callback: sendUnaryData ) => { callback(unimplementedStatusResponse as ServiceError, null); }; case 'clientStream': return ( call: ServerReadableStream, callback: sendUnaryData ) => { callback(unimplementedStatusResponse as ServiceError, null); }; case 'serverStream': return (call: ServerWritableStream) => { call.emit('error', unimplementedStatusResponse); }; case 'bidi': return (call: ServerDuplexStream) => { call.emit('error', unimplementedStatusResponse); }; default: throw new Error(`Invalid handlerType ${handlerType}`); } } export class Server { private http2ServerList: (http2.Http2Server | http2.Http2SecureServer)[] = []; private handlers: Map = new Map< string, UntypedHandler >(); private sessions = new Set(); private started = false; private options: ChannelOptions; constructor(options?: ChannelOptions) { this.options = options ?? {}; } addProtoService(): void { throw new Error('Not implemented. Use addService() instead'); } addService( service: ServiceDefinition, implementation: UntypedServiceImplementation ): void { if ( service === null || typeof service !== 'object' || implementation === null || typeof implementation !== 'object' ) { throw new Error('addService() requires two objects as arguments'); } const serviceKeys = Object.keys(service); if (serviceKeys.length === 0) { throw new Error('Cannot add an empty service to a server'); } serviceKeys.forEach((name) => { const attrs = service[name]; let methodType: HandlerType; if (attrs.requestStream) { if (attrs.responseStream) { methodType = 'bidi'; } else { methodType = 'clientStream'; } } else { if (attrs.responseStream) { methodType = 'serverStream'; } else { methodType = 'unary'; } } let implFn = implementation[name]; let impl; if (implFn === undefined && typeof attrs.originalName === 'string') { implFn = implementation[attrs.originalName]; } if (implFn !== undefined) { impl = implFn.bind(implementation); } else { impl = getDefaultHandler(methodType, name); } const success = this.register( attrs.path, impl as UntypedHandleCall, attrs.responseSerialize, attrs.requestDeserialize, methodType ); if (success === false) { throw new Error(`Method handler for ${attrs.path} already provided.`); } }); } removeService(service: ServiceDefinition): void { if ( service === null || typeof service !== 'object' ) { throw new Error('removeService() requires object as argument'); } const serviceKeys = Object.keys(service); serviceKeys.forEach((name) => { const attrs = service[name]; this.unregister(attrs.path); }); } bind(port: string, creds: ServerCredentials): void { throw new Error('Not implemented. Use bindAsync() instead'); } bindAsync( port: string, creds: ServerCredentials, callback: (error: Error | null, port: number) => void ): void { if (this.started === true) { throw new Error('server is already started'); } if (typeof port !== 'string') { throw new TypeError('port must be a string'); } if (creds === null || typeof creds !== 'object') { throw new TypeError('creds must be an object'); } if (typeof callback !== 'function') { throw new TypeError('callback must be a function'); } const initialPortUri = parseUri(port); if (initialPortUri === null) { throw new Error(`Could not parse port "${port}"`); } const portUri = mapUriDefaultScheme(initialPortUri); if (portUri === null) { throw new Error(`Could not get a default scheme for port "${port}"`); } const serverOptions: http2.ServerOptions = { maxSendHeaderBlockLength: Number.MAX_SAFE_INTEGER }; if ('grpc-node.max_session_memory' in this.options) { serverOptions.maxSessionMemory = this.options['grpc-node.max_session_memory']; } if ('grpc.max_concurrent_streams' in this.options) { serverOptions.settings = { maxConcurrentStreams: this.options['grpc.max_concurrent_streams'], }; } const setupServer = (): http2.Http2Server | http2.Http2SecureServer => { let http2Server: http2.Http2Server | http2.Http2SecureServer; if (creds._isSecure()) { const secureServerOptions = Object.assign( serverOptions, creds._getSettings()! ); http2Server = http2.createSecureServer(secureServerOptions); } else { http2Server = http2.createServer(serverOptions); } http2Server.setTimeout(0, noop); this._setupHandlers(http2Server); return http2Server; }; const bindSpecificPort = ( addressList: SubchannelAddress[], portNum: number, previousCount: number ): Promise => { if (addressList.length === 0) { return Promise.resolve({ port: portNum, count: previousCount }); } return Promise.all( addressList.map((address) => { trace('Attempting to bind ' + subchannelAddressToString(address)); let addr: SubchannelAddress; if (isTcpSubchannelAddress(address)) { addr = { host: (address as TcpSubchannelAddress).host, port: portNum, }; } else { addr = address; } const http2Server = setupServer(); return new Promise((resolve, reject) => { function onError(err: Error): void { resolve(err); } http2Server.once('error', onError); http2Server.listen(addr, () => { trace('Successfully bound ' + subchannelAddressToString(address)); this.http2ServerList.push(http2Server); const boundAddress = http2Server.address()!; if (typeof boundAddress === 'string') { resolve(portNum); } else { resolve(boundAddress.port); } http2Server.removeListener('error', onError); }); }); }) ).then((results) => { let count = 0; for (const result of results) { if (typeof result === 'number') { count += 1; if (result !== portNum) { throw new Error( 'Invalid state: multiple port numbers added from single address' ); } } } return { port: portNum, count: count + previousCount, }; }); }; const bindWildcardPort = ( addressList: SubchannelAddress[] ): Promise => { if (addressList.length === 0) { return Promise.resolve({ port: 0, count: 0 }); } const address = addressList[0]; const http2Server = setupServer(); return new Promise((resolve, reject) => { function onError(err: Error): void { resolve(bindWildcardPort(addressList.slice(1))); } http2Server.once('error', onError); http2Server.listen(address, () => { this.http2ServerList.push(http2Server); resolve( bindSpecificPort( addressList.slice(1), (http2Server.address() as AddressInfo).port, 1 ) ); http2Server.removeListener('error', onError); }); }); }; const resolverListener: ResolverListener = { onSuccessfulResolution: ( addressList, serviceConfig, serviceConfigError ) => { // We only want one resolution result. Discard all future results resolverListener.onSuccessfulResolution = () => {}; if (addressList.length === 0) { callback(new Error(`No addresses resolved for port ${port}`), 0); return; } let bindResultPromise: Promise; if (isTcpSubchannelAddress(addressList[0])) { if (addressList[0].port === 0) { bindResultPromise = bindWildcardPort(addressList); } else { bindResultPromise = bindSpecificPort( addressList, addressList[0].port, 0 ); } } else { // Use an arbitrary non-zero port for non-TCP addresses bindResultPromise = bindSpecificPort(addressList, 1, 0); } bindResultPromise.then( (bindResult) => { if (bindResult.count === 0) { const errorString = `No address added out of total ${addressList.length} resolved`; logging.log(LogVerbosity.ERROR, errorString); callback(new Error(errorString), 0); } else { if (bindResult.count < addressList.length) { logging.log( LogVerbosity.INFO, `WARNING Only ${bindResult.count} addresses added out of total ${addressList.length} resolved` ); } callback(null, bindResult.port); } }, (error) => { const errorString = `No address added out of total ${addressList.length} resolved`; logging.log(LogVerbosity.ERROR, errorString); callback(new Error(errorString), 0); } ); }, onError: (error) => { callback(new Error(error.details), 0); }, }; const resolver = createResolver(portUri, resolverListener, this.options); resolver.updateResolution(); } forceShutdown(): void { // Close the server if it is still running. for (const http2Server of this.http2ServerList) { if (http2Server.listening) { http2Server.close(); } } this.started = false; // Always destroy any available sessions. It's possible that one or more // tryShutdown() calls are in progress. Don't wait on them to finish. this.sessions.forEach((session) => { // Cast NGHTTP2_CANCEL to any because TypeScript doesn't seem to // recognize destroy(code) as a valid signature. // eslint-disable-next-line @typescript-eslint/no-explicit-any session.destroy(http2.constants.NGHTTP2_CANCEL as any); }); this.sessions.clear(); } register( name: string, handler: HandleCall, serialize: Serialize, deserialize: Deserialize, type: string ): boolean { if (this.handlers.has(name)) { return false; } this.handlers.set(name, { func: handler, serialize, deserialize, type, path: name, } as UntypedHandler); return true; } unregister(name: string): boolean { return this.handlers.delete(name); } start(): void { if ( this.http2ServerList.length === 0 || this.http2ServerList.every( (http2Server) => http2Server.listening !== true ) ) { throw new Error('server must be bound in order to start'); } if (this.started === true) { throw new Error('server is already started'); } this.started = true; } tryShutdown(callback: (error?: Error) => void): void { let pendingChecks = 0; function maybeCallback(): void { pendingChecks--; if (pendingChecks === 0) { callback(); } } // Close the server if necessary. this.started = false; for (const http2Server of this.http2ServerList) { if (http2Server.listening) { pendingChecks++; http2Server.close(maybeCallback); } } this.sessions.forEach((session) => { if (!session.closed) { pendingChecks += 1; session.close(maybeCallback); } }); if (pendingChecks === 0) { callback(); } } addHttp2Port(): void { throw new Error('Not yet implemented'); } private _setupHandlers( http2Server: http2.Http2Server | http2.Http2SecureServer ): void { if (http2Server === null) { return; } http2Server.on( 'stream', (stream: http2.ServerHttp2Stream, headers: http2.IncomingHttpHeaders) => { const contentType = headers[http2.constants.HTTP2_HEADER_CONTENT_TYPE]; if ( typeof contentType !== 'string' || !contentType.startsWith('application/grpc') ) { stream.respond( { [http2.constants.HTTP2_HEADER_STATUS]: http2.constants.HTTP_STATUS_UNSUPPORTED_MEDIA_TYPE, }, { endStream: true } ); return; } try { const path = headers[http2.constants.HTTP2_HEADER_PATH] as string; const serverAddress = http2Server.address(); let serverAddressString = 'null'; if (serverAddress) { if (typeof serverAddress === 'string') { serverAddressString = serverAddress; } else { serverAddressString = serverAddress.address + ':' + serverAddress.port; } } trace( 'Received call to method ' + path + ' at address ' + serverAddressString ); const handler = this.handlers.get(path); if (handler === undefined) { trace( 'No handler registered for method ' + path + '. Sending UNIMPLEMENTED status.' ); throw getUnimplementedStatusResponse(path); } const call = new Http2ServerCallStream(stream, handler, this.options); const metadata: Metadata = call.receiveMetadata(headers) as Metadata; switch (handler.type) { case 'unary': handleUnary(call, handler as UntypedUnaryHandler, metadata); break; case 'clientStream': handleClientStreaming( call, handler as UntypedClientStreamingHandler, metadata ); break; case 'serverStream': handleServerStreaming( call, handler as UntypedServerStreamingHandler, metadata ); break; case 'bidi': handleBidiStreaming( call, handler as UntypedBidiStreamingHandler, metadata ); break; default: throw new Error(`Unknown handler type: ${handler.type}`); } } catch (err) { const call = new Http2ServerCallStream(stream, null!, this.options); if (err.code === undefined) { err.code = Status.INTERNAL; } call.sendError(err); } } ); http2Server.on('session', (session) => { if (!this.started) { session.destroy(); return; } this.sessions.add(session); session.on('close', () => { this.sessions.delete(session); }); }); } } async function handleUnary( call: Http2ServerCallStream, handler: UnaryHandler, metadata: Metadata ): Promise { const request = await call.receiveUnaryMessage(); if (request === undefined || call.cancelled) { return; } const emitter = new ServerUnaryCallImpl( call, metadata, request ); handler.func( emitter, ( err: ServerErrorResponse | ServerStatusResponse | null, value?: ResponseType | null, trailer?: Metadata, flags?: number ) => { call.sendUnaryMessage(err, value, trailer, flags); } ); } function handleClientStreaming( call: Http2ServerCallStream, handler: ClientStreamingHandler, metadata: Metadata ): void { const stream = new ServerReadableStreamImpl( call, metadata, handler.deserialize ); function respond( err: ServerErrorResponse | ServerStatusResponse | null, value?: ResponseType | null, trailer?: Metadata, flags?: number ) { stream.destroy(); call.sendUnaryMessage(err, value, trailer, flags); } if (call.cancelled) { return; } stream.on('error', respond); handler.func(stream, respond); } async function handleServerStreaming( call: Http2ServerCallStream, handler: ServerStreamingHandler, metadata: Metadata ): Promise { const request = await call.receiveUnaryMessage(); if (request === undefined || call.cancelled) { return; } const stream = new ServerWritableStreamImpl( call, metadata, handler.serialize, request ); handler.func(stream); } function handleBidiStreaming( call: Http2ServerCallStream, handler: BidiStreamingHandler, metadata: Metadata ): void { const stream = new ServerDuplexStreamImpl( call, metadata, handler.serialize, handler.deserialize ); if (call.cancelled) { return; } handler.func(stream); }