Viewing File: /home/ubuntu/efiexchange-node-base/node_modules/@grpc/grpc-js/src/server.ts
/*
* 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,
stringToSubchannelAddress,
} from './subchannel-address';
import { parseUri } from './uri-parser';
import { ChannelzCallTracker, ChannelzChildrenTracker, ChannelzTrace, registerChannelzServer, registerChannelzSocket, ServerInfo, ServerRef, SocketInfo, SocketRef, TlsInfo, unregisterChannelzRef } from './channelz';
import { CipherNameAndProtocol, TLSSocket } from 'tls';
const TRACER_NAME = 'server';
interface BindResult {
port: number;
count: number;
}
function noop(): void {}
function getUnimplementedStatusResponse(
methodName: string
): Partial<ServiceError> {
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<any, any>;
type UntypedClientStreamingHandler = ClientStreamingHandler<any, any>;
type UntypedServerStreamingHandler = ServerStreamingHandler<any, any>;
type UntypedBidiStreamingHandler = BidiStreamingHandler<any, any>;
export type UntypedHandleCall = HandleCall<any, any>;
type UntypedHandler = Handler<any, any>;
export interface UntypedServiceImplementation {
[name: string]: UntypedHandleCall;
}
function getDefaultHandler(handlerType: HandlerType, methodName: string) {
const unimplementedStatusResponse = getUnimplementedStatusResponse(
methodName
);
switch (handlerType) {
case 'unary':
return (
call: ServerUnaryCall<any, any>,
callback: sendUnaryData<any>
) => {
callback(unimplementedStatusResponse as ServiceError, null);
};
case 'clientStream':
return (
call: ServerReadableStream<any, any>,
callback: sendUnaryData<any>
) => {
callback(unimplementedStatusResponse as ServiceError, null);
};
case 'serverStream':
return (call: ServerWritableStream<any, any>) => {
call.emit('error', unimplementedStatusResponse);
};
case 'bidi':
return (call: ServerDuplexStream<any, any>) => {
call.emit('error', unimplementedStatusResponse);
};
default:
throw new Error(`Invalid handlerType ${handlerType}`);
}
}
interface ChannelzSessionInfo {
ref: SocketRef;
streamTracker: ChannelzCallTracker;
messagesSent: number;
messagesReceived: number;
lastMessageSentTimestamp: Date | null;
lastMessageReceivedTimestamp: Date | null;
}
interface ChannelzListenerInfo {
ref: SocketRef;
}
export class Server {
private http2ServerList: { server: (http2.Http2Server | http2.Http2SecureServer), channelzRef: SocketRef }[] = [];
private handlers: Map<string, UntypedHandler> = new Map<
string,
UntypedHandler
>();
private sessions = new Map<http2.ServerHttp2Session, ChannelzSessionInfo>();
private started = false;
private options: ChannelOptions;
// Channelz Info
private readonly channelzEnabled: boolean = true;
private channelzRef: ServerRef;
private channelzTrace = new ChannelzTrace();
private callTracker = new ChannelzCallTracker();
private listenerChildrenTracker = new ChannelzChildrenTracker();
private sessionChildrenTracker = new ChannelzChildrenTracker();
constructor(options?: ChannelOptions) {
this.options = options ?? {};
if (this.options['grpc.enable_channelz'] === 0) {
this.channelzEnabled = false;
}
this.channelzRef = registerChannelzServer(() => this.getChannelzInfo(), this.channelzEnabled);
if (this.channelzEnabled) {
this.channelzTrace.addTrace('CT_INFO', 'Server created');
}
this.trace('Server constructed');
}
private getChannelzInfo(): ServerInfo {
return {
trace: this.channelzTrace,
callTracker: this.callTracker,
listenerChildren: this.listenerChildrenTracker.getChildLists(),
sessionChildren: this.sessionChildrenTracker.getChildLists()
};
}
private getChannelzSessionInfoGetter(session: http2.ServerHttp2Session): () => SocketInfo {
return () => {
const sessionInfo = this.sessions.get(session)!;
const sessionSocket = session.socket;
const remoteAddress = sessionSocket.remoteAddress ? stringToSubchannelAddress(sessionSocket.remoteAddress, sessionSocket.remotePort) : null;
const localAddress = sessionSocket.localAddress ? stringToSubchannelAddress(sessionSocket.localAddress!, sessionSocket.localPort) : null;
let tlsInfo: TlsInfo | null;
if (session.encrypted) {
const tlsSocket: TLSSocket = sessionSocket as TLSSocket;
const cipherInfo: CipherNameAndProtocol & {standardName?: string} = tlsSocket.getCipher();
const certificate = tlsSocket.getCertificate();
const peerCertificate = tlsSocket.getPeerCertificate();
tlsInfo = {
cipherSuiteStandardName: cipherInfo.standardName ?? null,
cipherSuiteOtherName: cipherInfo.standardName ? null : cipherInfo.name,
localCertificate: (certificate && 'raw' in certificate) ? certificate.raw : null,
remoteCertificate: (peerCertificate && 'raw' in peerCertificate) ? peerCertificate.raw : null
};
} else {
tlsInfo = null;
}
const socketInfo: SocketInfo = {
remoteAddress: remoteAddress,
localAddress: localAddress,
security: tlsInfo,
remoteName: null,
streamsStarted: sessionInfo.streamTracker.callsStarted,
streamsSucceeded: sessionInfo.streamTracker.callsSucceeded,
streamsFailed: sessionInfo.streamTracker.callsFailed,
messagesSent: sessionInfo.messagesSent,
messagesReceived: sessionInfo.messagesReceived,
keepAlivesSent: 0,
lastLocalStreamCreatedTimestamp: null,
lastRemoteStreamCreatedTimestamp: sessionInfo.streamTracker.lastCallStartedTimestamp,
lastMessageSentTimestamp: sessionInfo.lastMessageSentTimestamp,
lastMessageReceivedTimestamp: sessionInfo.lastMessageReceivedTimestamp,
localFlowControlWindow: session.state.localWindowSize ?? null,
remoteFlowControlWindow: session.state.remoteWindowSize ?? null
};
return socketInfo;
};
}
private trace(text: string): void {
logging.trace(LogVerbosity.DEBUG, TRACER_NAME, '(' + this.channelzRef.id + ') ' + text);
}
addProtoService(): never {
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 ${attrs.path} already provided.`);
}
});
}
removeService(service: ServiceDefinition): void {
if (service === null || typeof service !== 'object') {
throw new Error('removeService() requires object as argument');
}
const serviceKeys = Object.keys(service);
serviceKeys.forEach((name) => {
const attrs = service[name];
this.unregister(attrs.path);
});
}
bind(port: string, creds: ServerCredentials): never {
throw new Error('Not implemented. Use bindAsync() instead');
}
bindAsync(
port: string,
creds: ServerCredentials,
callback: (error: Error | null, port: number) => void
): void {
if (this.started === true) {
throw new Error('server is already started');
}
if (typeof port !== 'string') {
throw new TypeError('port must be a string');
}
if (creds === null || !(creds instanceof ServerCredentials)) {
throw new TypeError('creds must be a ServerCredentials object');
}
if (typeof callback !== 'function') {
throw new TypeError('callback must be a function');
}
const initialPortUri = parseUri(port);
if (initialPortUri === null) {
throw new Error(`Could not parse port "${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 deferredCallback = (error: Error | null, port: number) => {
process.nextTick(() => callback(error, port));
}
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);
http2Server.on('secureConnection', (socket: TLSSocket) => {
/* These errors need to be handled by the user of Http2SecureServer,
* according to https://github.com/nodejs/node/issues/35824 */
socket.on('error', (e: Error) => {
this.trace('An incoming TLS connection closed with error: ' + e.message);
});
});
} else {
http2Server = http2.createServer(serverOptions);
}
http2Server.setTimeout(0, noop);
this._setupHandlers(http2Server);
return http2Server;
};
const bindSpecificPort = (
addressList: SubchannelAddress[],
portNum: number,
previousCount: number
): Promise<BindResult> => {
if (addressList.length === 0) {
return Promise.resolve({ port: portNum, count: previousCount });
}
return Promise.all(
addressList.map((address) => {
this.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<number | Error>((resolve, reject) => {
const onError = (err: Error) => {
this.trace('Failed to bind ' + subchannelAddressToString(address) + ' with error ' + err.message);
resolve(err);
}
http2Server.once('error', onError);
http2Server.listen(addr, () => {
const boundAddress = http2Server.address()!;
let boundSubchannelAddress: SubchannelAddress;
if (typeof boundAddress === 'string') {
boundSubchannelAddress = {
path: boundAddress
};
} else {
boundSubchannelAddress = {
host: boundAddress.address,
port: boundAddress.port
}
}
let channelzRef: SocketRef;
channelzRef = registerChannelzSocket(subchannelAddressToString(boundSubchannelAddress), () => {
return {
localAddress: boundSubchannelAddress,
remoteAddress: null,
security: null,
remoteName: null,
streamsStarted: 0,
streamsSucceeded: 0,
streamsFailed: 0,
messagesSent: 0,
messagesReceived: 0,
keepAlivesSent: 0,
lastLocalStreamCreatedTimestamp: null,
lastRemoteStreamCreatedTimestamp: null,
lastMessageSentTimestamp: null,
lastMessageReceivedTimestamp: null,
localFlowControlWindow: null,
remoteFlowControlWindow: null
};
}, this.channelzEnabled);
if (this.channelzEnabled) {
this.listenerChildrenTracker.refChild(channelzRef);
}
this.http2ServerList.push({server: http2Server, channelzRef: channelzRef});
this.trace('Successfully bound ' + subchannelAddressToString(boundSubchannelAddress));
resolve('port' in boundSubchannelAddress ? boundSubchannelAddress.port : portNum);
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<BindResult> => {
if (addressList.length === 0) {
return Promise.resolve<BindResult>({ port: 0, count: 0 });
}
const address = addressList[0];
const http2Server = setupServer();
return new Promise<BindResult>((resolve, reject) => {
const onError = (err: Error) => {
this.trace('Failed to bind ' + subchannelAddressToString(address) + ' with error ' + err.message);
resolve(bindWildcardPort(addressList.slice(1)));
}
http2Server.once('error', onError);
http2Server.listen(address, () => {
const boundAddress = http2Server.address() as AddressInfo;
const boundSubchannelAddress: SubchannelAddress = {
host: boundAddress.address,
port: boundAddress.port
};
let channelzRef: SocketRef;
channelzRef = registerChannelzSocket(subchannelAddressToString(boundSubchannelAddress), () => {
return {
localAddress: boundSubchannelAddress,
remoteAddress: null,
security: null,
remoteName: null,
streamsStarted: 0,
streamsSucceeded: 0,
streamsFailed: 0,
messagesSent: 0,
messagesReceived: 0,
keepAlivesSent: 0,
lastLocalStreamCreatedTimestamp: null,
lastRemoteStreamCreatedTimestamp: null,
lastMessageSentTimestamp: null,
lastMessageReceivedTimestamp: null,
localFlowControlWindow: null,
remoteFlowControlWindow: null
};
}, this.channelzEnabled);
if (this.channelzEnabled) {
this.listenerChildrenTracker.refChild(channelzRef);
}
this.http2ServerList.push({server: http2Server, channelzRef: channelzRef});
this.trace('Successfully bound ' + subchannelAddressToString(boundSubchannelAddress));
resolve(
bindSpecificPort(
addressList.slice(1),
boundAddress.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) {
deferredCallback(new Error(`No addresses resolved for port ${port}`), 0);
return;
}
let bindResultPromise: Promise<BindResult>;
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);
deferredCallback(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`
);
}
deferredCallback(null, bindResult.port);
}
},
(error) => {
const errorString = `No address added out of total ${addressList.length} resolved`;
logging.log(LogVerbosity.ERROR, errorString);
deferredCallback(new Error(errorString), 0);
}
);
},
onError: (error) => {
deferredCallback(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 {server: http2Server, channelzRef: ref} of this.http2ServerList) {
if (http2Server.listening) {
http2Server.close(() => {
if (this.channelzEnabled) {
this.listenerChildrenTracker.unrefChild(ref);
unregisterChannelzRef(ref);
}
});
}
}
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((channelzInfo, 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();
if (this.channelzEnabled) {
unregisterChannelzRef(this.channelzRef);
}
}
register<RequestType, ResponseType>(
name: string,
handler: HandleCall<RequestType, ResponseType>,
serialize: Serialize<ResponseType>,
deserialize: Deserialize<RequestType>,
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(
({server: 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');
}
if (this.channelzEnabled) {
this.channelzTrace.addTrace('CT_INFO', 'Starting');
}
this.started = true;
}
tryShutdown(callback: (error?: Error) => void): void {
const wrappedCallback = (error?: Error) => {
if (this.channelzEnabled) {
unregisterChannelzRef(this.channelzRef);
}
callback(error);
};
let pendingChecks = 0;
function maybeCallback(): void {
pendingChecks--;
if (pendingChecks === 0) {
wrappedCallback();
}
}
// Close the server if necessary.
this.started = false;
for (const {server: http2Server, channelzRef: ref} of this.http2ServerList) {
if (http2Server.listening) {
pendingChecks++;
http2Server.close(() => {
if (this.channelzEnabled) {
this.listenerChildrenTracker.unrefChild(ref);
unregisterChannelzRef(ref);
}
maybeCallback();
});
}
}
this.sessions.forEach((channelzInfo, session) => {
if (!session.closed) {
pendingChecks += 1;
session.close(maybeCallback);
}
});
if (pendingChecks === 0) {
wrappedCallback();
}
}
addHttp2Port(): never {
throw new Error('Not yet implemented');
}
/**
* Get the channelz reference object for this server. The returned value is
* garbage if channelz is disabled for this server.
* @returns
*/
getChannelzRef() {
return this.channelzRef;
}
private _setupHandlers(
http2Server: http2.Http2Server | http2.Http2SecureServer
): void {
if (http2Server === null) {
return;
}
http2Server.on(
'stream',
(stream: http2.ServerHttp2Stream, headers: http2.IncomingHttpHeaders) => {
const channelzSessionInfo = this.sessions.get(stream.session as http2.ServerHttp2Session);
if (this.channelzEnabled) {
this.callTracker.addCallStarted();
channelzSessionInfo?.streamTracker.addCallStarted();
}
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 }
);
this.callTracker.addCallFailed();
if (this.channelzEnabled) {
channelzSessionInfo?.streamTracker.addCallFailed();
}
return;
}
let call: Http2ServerCallStream<any, any> | null = null;
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;
}
}
this.trace(
'Received call to method ' +
path +
' at address ' +
serverAddressString
);
const handler = this.handlers.get(path);
if (handler === undefined) {
this.trace(
'No handler registered for method ' +
path +
'. Sending UNIMPLEMENTED status.'
);
throw getUnimplementedStatusResponse(path);
}
call = new Http2ServerCallStream(stream, handler, this.options);
call.once('callEnd', (code: Status) => {
if (code === Status.OK) {
this.callTracker.addCallSucceeded();
} else {
this.callTracker.addCallFailed();
}
});
if (this.channelzEnabled && channelzSessionInfo) {
call.once('streamEnd', (success: boolean) => {
if (success) {
channelzSessionInfo.streamTracker.addCallSucceeded();
} else {
channelzSessionInfo.streamTracker.addCallFailed();
}
});
call.on('sendMessage', () => {
channelzSessionInfo.messagesSent += 1;
channelzSessionInfo.lastMessageSentTimestamp = new Date();
});
call.on('receiveMessage', () => {
channelzSessionInfo.messagesReceived += 1;
channelzSessionInfo.lastMessageReceivedTimestamp = new Date();
});
}
const metadata = call.receiveMetadata(headers);
const encoding = (metadata.get('grpc-encoding')[0] as string | undefined) ?? 'identity';
metadata.remove('grpc-encoding');
switch (handler.type) {
case 'unary':
handleUnary(call, handler as UntypedUnaryHandler, metadata, encoding);
break;
case 'clientStream':
handleClientStreaming(
call,
handler as UntypedClientStreamingHandler,
metadata,
encoding
);
break;
case 'serverStream':
handleServerStreaming(
call,
handler as UntypedServerStreamingHandler,
metadata,
encoding
);
break;
case 'bidi':
handleBidiStreaming(
call,
handler as UntypedBidiStreamingHandler,
metadata,
encoding
);
break;
default:
throw new Error(`Unknown handler type: ${handler.type}`);
}
} catch (err) {
if (!call) {
call = new Http2ServerCallStream(stream, null!, this.options);
if (this.channelzEnabled) {
this.callTracker.addCallFailed();
channelzSessionInfo?.streamTracker.addCallFailed()
}
}
if (err.code === undefined) {
err.code = Status.INTERNAL;
}
call.sendError(err);
}
}
);
http2Server.on('session', (session) => {
if (!this.started) {
session.destroy();
return;
}
let channelzRef: SocketRef;
channelzRef = registerChannelzSocket(session.socket.remoteAddress ?? 'unknown', this.getChannelzSessionInfoGetter(session), this.channelzEnabled);
const channelzSessionInfo: ChannelzSessionInfo = {
ref: channelzRef,
streamTracker: new ChannelzCallTracker(),
messagesSent: 0,
messagesReceived: 0,
lastMessageSentTimestamp: null,
lastMessageReceivedTimestamp: null
};
this.sessions.set(session, channelzSessionInfo);
const clientAddress = session.socket.remoteAddress;
if (this.channelzEnabled) {
this.channelzTrace.addTrace('CT_INFO', 'Connection established by client ' + clientAddress);
this.sessionChildrenTracker.refChild(channelzRef);
}
session.on('close', () => {
if (this.channelzEnabled) {
this.channelzTrace.addTrace('CT_INFO', 'Connection dropped by client ' + clientAddress);
this.sessionChildrenTracker.unrefChild(channelzRef);
unregisterChannelzRef(channelzRef);
}
this.sessions.delete(session);
});
});
}
}
async function handleUnary<RequestType, ResponseType>(
call: Http2ServerCallStream<RequestType, ResponseType>,
handler: UnaryHandler<RequestType, ResponseType>,
metadata: Metadata,
encoding: string
): Promise<void> {
const request = await call.receiveUnaryMessage(encoding);
if (request === undefined || call.cancelled) {
return;
}
const emitter = new ServerUnaryCallImpl<RequestType, ResponseType>(
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<RequestType, ResponseType>(
call: Http2ServerCallStream<RequestType, ResponseType>,
handler: ClientStreamingHandler<RequestType, ResponseType>,
metadata: Metadata,
encoding: string
): void {
const stream = new ServerReadableStreamImpl<RequestType, ResponseType>(
call,
metadata,
handler.deserialize,
encoding
);
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<RequestType, ResponseType>(
call: Http2ServerCallStream<RequestType, ResponseType>,
handler: ServerStreamingHandler<RequestType, ResponseType>,
metadata: Metadata,
encoding: string
): Promise<void> {
const request = await call.receiveUnaryMessage(encoding);
if (request === undefined || call.cancelled) {
return;
}
const stream = new ServerWritableStreamImpl<RequestType, ResponseType>(
call,
metadata,
handler.serialize,
request
);
handler.func(stream);
}
function handleBidiStreaming<RequestType, ResponseType>(
call: Http2ServerCallStream<RequestType, ResponseType>,
handler: BidiStreamingHandler<RequestType, ResponseType>,
metadata: Metadata,
encoding: string
): void {
const stream = new ServerDuplexStreamImpl<RequestType, ResponseType>(
call,
metadata,
handler.serialize,
handler.deserialize,
encoding
);
if (call.cancelled) {
return;
}
handler.func(stream);
}
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