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ANPR-V3 / node_modules /@grpc /grpc-js /src /server-call.ts
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/*
* 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 { EventEmitter } from 'events';
import * as http2 from 'http2';
import { Duplex, Readable, Writable } from 'stream';
import * as zlib from 'zlib';
import { promisify } from 'util';
import {
Status,
DEFAULT_MAX_SEND_MESSAGE_LENGTH,
DEFAULT_MAX_RECEIVE_MESSAGE_LENGTH,
LogVerbosity,
} from './constants';
import { Deserialize, Serialize } from './make-client';
import { Metadata } from './metadata';
import { StreamDecoder } from './stream-decoder';
import { ObjectReadable, ObjectWritable } from './object-stream';
import { ChannelOptions } from './channel-options';
import * as logging from './logging';
import { StatusObject, PartialStatusObject } from './call-interface';
import { Deadline } from './deadline';
import { getErrorCode, getErrorMessage } from './error';
const TRACER_NAME = 'server_call';
const unzip = promisify(zlib.unzip);
const inflate = promisify(zlib.inflate);
function trace(text: string): void {
logging.trace(LogVerbosity.DEBUG, TRACER_NAME, text);
}
interface DeadlineUnitIndexSignature {
[name: string]: number;
}
const GRPC_ACCEPT_ENCODING_HEADER = 'grpc-accept-encoding';
const GRPC_ENCODING_HEADER = 'grpc-encoding';
const GRPC_MESSAGE_HEADER = 'grpc-message';
const GRPC_STATUS_HEADER = 'grpc-status';
const GRPC_TIMEOUT_HEADER = 'grpc-timeout';
const DEADLINE_REGEX = /(\d{1,8})\s*([HMSmun])/;
const deadlineUnitsToMs: DeadlineUnitIndexSignature = {
H: 3600000,
M: 60000,
S: 1000,
m: 1,
u: 0.001,
n: 0.000001,
};
const defaultCompressionHeaders = {
// TODO(cjihrig): Remove these encoding headers from the default response
// once compression is integrated.
[GRPC_ACCEPT_ENCODING_HEADER]: 'identity,deflate,gzip',
[GRPC_ENCODING_HEADER]: 'identity',
};
const defaultResponseHeaders = {
[http2.constants.HTTP2_HEADER_STATUS]: http2.constants.HTTP_STATUS_OK,
[http2.constants.HTTP2_HEADER_CONTENT_TYPE]: 'application/grpc+proto',
};
const defaultResponseOptions = {
waitForTrailers: true,
} as http2.ServerStreamResponseOptions;
export type ServerStatusResponse = Partial<StatusObject>;
export type ServerErrorResponse = ServerStatusResponse & Error;
export type ServerSurfaceCall = {
cancelled: boolean;
readonly metadata: Metadata;
getPeer(): string;
sendMetadata(responseMetadata: Metadata): void;
getDeadline(): Deadline;
getPath(): string;
} & EventEmitter;
export type ServerUnaryCall<RequestType, ResponseType> = ServerSurfaceCall & {
request: RequestType;
};
export type ServerReadableStream<RequestType, ResponseType> =
ServerSurfaceCall & ObjectReadable<RequestType>;
export type ServerWritableStream<RequestType, ResponseType> =
ServerSurfaceCall &
ObjectWritable<ResponseType> & {
request: RequestType;
end: (metadata?: Metadata) => void;
};
export type ServerDuplexStream<RequestType, ResponseType> = ServerSurfaceCall &
ObjectReadable<RequestType> &
ObjectWritable<ResponseType> & { end: (metadata?: Metadata) => void };
export class ServerUnaryCallImpl<RequestType, ResponseType>
extends EventEmitter
implements ServerUnaryCall<RequestType, ResponseType>
{
cancelled: boolean;
constructor(
private call: Http2ServerCallStream<RequestType, ResponseType>,
public metadata: Metadata,
public request: RequestType
) {
super();
this.cancelled = false;
this.call.setupSurfaceCall(this);
}
getPeer(): string {
return this.call.getPeer();
}
sendMetadata(responseMetadata: Metadata): void {
this.call.sendMetadata(responseMetadata);
}
getDeadline(): Deadline {
return this.call.getDeadline();
}
getPath(): string {
return this.call.getPath();
}
}
export class ServerReadableStreamImpl<RequestType, ResponseType>
extends Readable
implements ServerReadableStream<RequestType, ResponseType>
{
cancelled: boolean;
constructor(
private call: Http2ServerCallStream<RequestType, ResponseType>,
public metadata: Metadata,
public deserialize: Deserialize<RequestType>,
encoding: string
) {
super({ objectMode: true });
this.cancelled = false;
this.call.setupSurfaceCall(this);
this.call.setupReadable(this, encoding);
}
_read(size: number) {
if (!this.call.consumeUnpushedMessages(this)) {
return;
}
this.call.resume();
}
getPeer(): string {
return this.call.getPeer();
}
sendMetadata(responseMetadata: Metadata): void {
this.call.sendMetadata(responseMetadata);
}
getDeadline(): Deadline {
return this.call.getDeadline();
}
getPath(): string {
return this.call.getPath();
}
}
export class ServerWritableStreamImpl<RequestType, ResponseType>
extends Writable
implements ServerWritableStream<RequestType, ResponseType>
{
cancelled: boolean;
private trailingMetadata: Metadata;
constructor(
private call: Http2ServerCallStream<RequestType, ResponseType>,
public metadata: Metadata,
public serialize: Serialize<ResponseType>,
public request: RequestType
) {
super({ objectMode: true });
this.cancelled = false;
this.trailingMetadata = new Metadata();
this.call.setupSurfaceCall(this);
this.on('error', err => {
this.call.sendError(err);
this.end();
});
}
getPeer(): string {
return this.call.getPeer();
}
sendMetadata(responseMetadata: Metadata): void {
this.call.sendMetadata(responseMetadata);
}
getDeadline(): Deadline {
return this.call.getDeadline();
}
getPath(): string {
return this.call.getPath();
}
_write(
chunk: ResponseType,
encoding: string,
// eslint-disable-next-line @typescript-eslint/no-explicit-any
callback: (...args: any[]) => void
) {
try {
const response = this.call.serializeMessage(chunk);
if (!this.call.write(response)) {
this.call.once('drain', callback);
return;
}
} catch (err) {
this.emit('error', {
details: getErrorMessage(err),
code: Status.INTERNAL,
});
}
callback();
}
_final(callback: Function): void {
this.call.sendStatus({
code: Status.OK,
details: 'OK',
metadata: this.trailingMetadata,
});
callback(null);
}
// eslint-disable-next-line @typescript-eslint/no-explicit-any
end(metadata?: any) {
if (metadata) {
this.trailingMetadata = metadata;
}
return super.end();
}
}
export class ServerDuplexStreamImpl<RequestType, ResponseType>
extends Duplex
implements ServerDuplexStream<RequestType, ResponseType>
{
cancelled: boolean;
/* This field appears to be unsued, but it is actually used in _final, which is assiged from
* ServerWritableStreamImpl.prototype._final below. */
// eslint-disable-next-line @typescript-eslint/ban-ts-comment
// @ts-ignore noUnusedLocals
private trailingMetadata: Metadata;
constructor(
private call: Http2ServerCallStream<RequestType, ResponseType>,
public metadata: Metadata,
public serialize: Serialize<ResponseType>,
public deserialize: Deserialize<RequestType>,
encoding: string
) {
super({ objectMode: true });
this.cancelled = false;
this.trailingMetadata = new Metadata();
this.call.setupSurfaceCall(this);
this.call.setupReadable(this, encoding);
this.on('error', err => {
this.call.sendError(err);
this.end();
});
}
getPeer(): string {
return this.call.getPeer();
}
sendMetadata(responseMetadata: Metadata): void {
this.call.sendMetadata(responseMetadata);
}
getDeadline(): Deadline {
return this.call.getDeadline();
}
getPath(): string {
return this.call.getPath();
}
// eslint-disable-next-line @typescript-eslint/no-explicit-any
end(metadata?: any) {
if (metadata) {
this.trailingMetadata = metadata;
}
return super.end();
}
}
ServerDuplexStreamImpl.prototype._read =
ServerReadableStreamImpl.prototype._read;
ServerDuplexStreamImpl.prototype._write =
ServerWritableStreamImpl.prototype._write;
ServerDuplexStreamImpl.prototype._final =
ServerWritableStreamImpl.prototype._final;
// Unary response callback signature.
export type sendUnaryData<ResponseType> = (
error: ServerErrorResponse | ServerStatusResponse | null,
value?: ResponseType | null,
trailer?: Metadata,
flags?: number
) => void;
// User provided handler for unary calls.
export type handleUnaryCall<RequestType, ResponseType> = (
call: ServerUnaryCall<RequestType, ResponseType>,
callback: sendUnaryData<ResponseType>
) => void;
// User provided handler for client streaming calls.
export type handleClientStreamingCall<RequestType, ResponseType> = (
call: ServerReadableStream<RequestType, ResponseType>,
callback: sendUnaryData<ResponseType>
) => void;
// User provided handler for server streaming calls.
export type handleServerStreamingCall<RequestType, ResponseType> = (
call: ServerWritableStream<RequestType, ResponseType>
) => void;
// User provided handler for bidirectional streaming calls.
export type handleBidiStreamingCall<RequestType, ResponseType> = (
call: ServerDuplexStream<RequestType, ResponseType>
) => void;
export type HandleCall<RequestType, ResponseType> =
| handleUnaryCall<RequestType, ResponseType>
| handleClientStreamingCall<RequestType, ResponseType>
| handleServerStreamingCall<RequestType, ResponseType>
| handleBidiStreamingCall<RequestType, ResponseType>;
export interface UnaryHandler<RequestType, ResponseType> {
func: handleUnaryCall<RequestType, ResponseType>;
serialize: Serialize<ResponseType>;
deserialize: Deserialize<RequestType>;
type: HandlerType;
path: string;
}
export interface ClientStreamingHandler<RequestType, ResponseType> {
func: handleClientStreamingCall<RequestType, ResponseType>;
serialize: Serialize<ResponseType>;
deserialize: Deserialize<RequestType>;
type: HandlerType;
path: string;
}
export interface ServerStreamingHandler<RequestType, ResponseType> {
func: handleServerStreamingCall<RequestType, ResponseType>;
serialize: Serialize<ResponseType>;
deserialize: Deserialize<RequestType>;
type: HandlerType;
path: string;
}
export interface BidiStreamingHandler<RequestType, ResponseType> {
func: handleBidiStreamingCall<RequestType, ResponseType>;
serialize: Serialize<ResponseType>;
deserialize: Deserialize<RequestType>;
type: HandlerType;
path: string;
}
export type Handler<RequestType, ResponseType> =
| UnaryHandler<RequestType, ResponseType>
| ClientStreamingHandler<RequestType, ResponseType>
| ServerStreamingHandler<RequestType, ResponseType>
| BidiStreamingHandler<RequestType, ResponseType>;
export type HandlerType = 'bidi' | 'clientStream' | 'serverStream' | 'unary';
// Internal class that wraps the HTTP2 request.
export class Http2ServerCallStream<
RequestType,
ResponseType
> extends EventEmitter {
cancelled = false;
deadlineTimer: NodeJS.Timeout | null = null;
private statusSent = false;
private deadline: Deadline = Infinity;
private wantTrailers = false;
private metadataSent = false;
private canPush = false;
private isPushPending = false;
private bufferedMessages: Array<Buffer | null> = [];
private messagesToPush: Array<RequestType | null> = [];
private maxSendMessageSize: number = DEFAULT_MAX_SEND_MESSAGE_LENGTH;
private maxReceiveMessageSize: number = DEFAULT_MAX_RECEIVE_MESSAGE_LENGTH;
constructor(
private stream: http2.ServerHttp2Stream,
private handler: Handler<RequestType, ResponseType>,
options: ChannelOptions
) {
super();
this.stream.once('error', (err: ServerErrorResponse) => {
/* We need an error handler to avoid uncaught error event exceptions, but
* there is nothing we can reasonably do here. Any error event should
* have a corresponding close event, which handles emitting the cancelled
* event. And the stream is now in a bad state, so we can't reasonably
* expect to be able to send an error over it. */
});
this.stream.once('close', () => {
trace(
'Request to method ' +
this.handler?.path +
' stream closed with rstCode ' +
this.stream.rstCode
);
if (!this.statusSent) {
this.cancelled = true;
this.emit('cancelled', 'cancelled');
this.emit('streamEnd', false);
this.sendStatus({
code: Status.CANCELLED,
details: 'Cancelled by client',
metadata: null,
});
if (this.deadlineTimer) clearTimeout(this.deadlineTimer);
}
});
this.stream.on('drain', () => {
this.emit('drain');
});
if ('grpc.max_send_message_length' in options) {
this.maxSendMessageSize = options['grpc.max_send_message_length']!;
}
if ('grpc.max_receive_message_length' in options) {
this.maxReceiveMessageSize = options['grpc.max_receive_message_length']!;
}
}
private checkCancelled(): boolean {
/* In some cases the stream can become destroyed before the close event
* fires. That creates a race condition that this check works around */
if (this.stream.destroyed || this.stream.closed) {
this.cancelled = true;
}
return this.cancelled;
}
private getDecompressedMessage(
message: Buffer,
encoding: string
): Buffer | Promise<Buffer> {
if (encoding === 'deflate') {
return inflate(message.subarray(5));
} else if (encoding === 'gzip') {
return unzip(message.subarray(5));
} else if (encoding === 'identity') {
return message.subarray(5);
}
return Promise.reject({
code: Status.UNIMPLEMENTED,
details: `Received message compressed with unsupported encoding "${encoding}"`,
});
}
sendMetadata(customMetadata?: Metadata) {
if (this.checkCancelled()) {
return;
}
if (this.metadataSent) {
return;
}
this.metadataSent = true;
const custom = customMetadata ? customMetadata.toHttp2Headers() : null;
// TODO(cjihrig): Include compression headers.
const headers = {
...defaultResponseHeaders,
...defaultCompressionHeaders,
...custom,
};
this.stream.respond(headers, defaultResponseOptions);
}
receiveMetadata(headers: http2.IncomingHttpHeaders) {
const metadata = Metadata.fromHttp2Headers(headers);
if (logging.isTracerEnabled(TRACER_NAME)) {
trace(
'Request to ' +
this.handler.path +
' received headers ' +
JSON.stringify(metadata.toJSON())
);
}
// TODO(cjihrig): Receive compression metadata.
const timeoutHeader = metadata.get(GRPC_TIMEOUT_HEADER);
if (timeoutHeader.length > 0) {
const match = timeoutHeader[0].toString().match(DEADLINE_REGEX);
if (match === null) {
const err = new Error('Invalid deadline') as ServerErrorResponse;
err.code = Status.OUT_OF_RANGE;
this.sendError(err);
return metadata;
}
const timeout = (+match[1] * deadlineUnitsToMs[match[2]]) | 0;
const now = new Date();
this.deadline = now.setMilliseconds(now.getMilliseconds() + timeout);
this.deadlineTimer = setTimeout(handleExpiredDeadline, timeout, this);
metadata.remove(GRPC_TIMEOUT_HEADER);
}
// Remove several headers that should not be propagated to the application
metadata.remove(http2.constants.HTTP2_HEADER_ACCEPT_ENCODING);
metadata.remove(http2.constants.HTTP2_HEADER_TE);
metadata.remove(http2.constants.HTTP2_HEADER_CONTENT_TYPE);
metadata.remove('grpc-accept-encoding');
return metadata;
}
receiveUnaryMessage(encoding: string): Promise<RequestType> {
return new Promise((resolve, reject) => {
const { stream } = this;
let receivedLength = 0;
// eslint-disable-next-line @typescript-eslint/no-this-alias
const call = this;
const body: Buffer[] = [];
const limit = this.maxReceiveMessageSize;
this.stream.on('data', onData);
this.stream.on('end', onEnd);
this.stream.on('error', onEnd);
function onData(chunk: Buffer) {
receivedLength += chunk.byteLength;
if (limit !== -1 && receivedLength > limit) {
stream.removeListener('data', onData);
stream.removeListener('end', onEnd);
stream.removeListener('error', onEnd);
reject({
code: Status.RESOURCE_EXHAUSTED,
details: `Received message larger than max (${receivedLength} vs. ${limit})`,
});
return;
}
body.push(chunk);
}
function onEnd(err?: Error) {
stream.removeListener('data', onData);
stream.removeListener('end', onEnd);
stream.removeListener('error', onEnd);
if (err !== undefined) {
reject({ code: Status.INTERNAL, details: err.message });
return;
}
if (receivedLength === 0) {
reject({
code: Status.INTERNAL,
details: 'received empty unary message',
});
return;
}
call.emit('receiveMessage');
const requestBytes = Buffer.concat(body, receivedLength);
const compressed = requestBytes.readUInt8(0) === 1;
const compressedMessageEncoding = compressed ? encoding : 'identity';
const decompressedMessage = call.getDecompressedMessage(
requestBytes,
compressedMessageEncoding
);
if (Buffer.isBuffer(decompressedMessage)) {
resolve(
call.deserializeMessageWithInternalError(decompressedMessage)
);
return;
}
decompressedMessage.then(
decompressed =>
resolve(call.deserializeMessageWithInternalError(decompressed)),
(err: any) =>
reject(
err.code
? err
: {
code: Status.INTERNAL,
details: `Received "grpc-encoding" header "${encoding}" but ${encoding} decompression failed`,
}
)
);
}
});
}
private async deserializeMessageWithInternalError(buffer: Buffer) {
try {
return this.deserializeMessage(buffer);
} catch (err) {
throw {
details: getErrorMessage(err),
code: Status.INTERNAL,
};
}
}
serializeMessage(value: ResponseType) {
const messageBuffer = this.handler.serialize(value);
// TODO(cjihrig): Call compression aware serializeMessage().
const byteLength = messageBuffer.byteLength;
const output = Buffer.allocUnsafe(byteLength + 5);
output.writeUInt8(0, 0);
output.writeUInt32BE(byteLength, 1);
messageBuffer.copy(output, 5);
return output;
}
deserializeMessage(bytes: Buffer) {
return this.handler.deserialize(bytes);
}
async sendUnaryMessage(
err: ServerErrorResponse | ServerStatusResponse | null,
value?: ResponseType | null,
metadata?: Metadata | null,
flags?: number
) {
if (this.checkCancelled()) {
return;
}
if (metadata === undefined) {
metadata = null;
}
if (err) {
if (!Object.prototype.hasOwnProperty.call(err, 'metadata') && metadata) {
err.metadata = metadata;
}
this.sendError(err);
return;
}
try {
const response = this.serializeMessage(value!);
this.write(response);
this.sendStatus({ code: Status.OK, details: 'OK', metadata });
} catch (err) {
this.sendError({
details: getErrorMessage(err),
code: Status.INTERNAL,
});
}
}
sendStatus(statusObj: PartialStatusObject) {
this.emit('callEnd', statusObj.code);
this.emit('streamEnd', statusObj.code === Status.OK);
if (this.checkCancelled()) {
return;
}
trace(
'Request to method ' +
this.handler?.path +
' ended with status code: ' +
Status[statusObj.code] +
' details: ' +
statusObj.details
);
if (this.deadlineTimer) clearTimeout(this.deadlineTimer);
if (this.stream.headersSent) {
if (!this.wantTrailers) {
this.wantTrailers = true;
this.stream.once('wantTrailers', () => {
const trailersToSend = {
[GRPC_STATUS_HEADER]: statusObj.code,
[GRPC_MESSAGE_HEADER]: encodeURI(statusObj.details),
...statusObj.metadata?.toHttp2Headers(),
};
this.stream.sendTrailers(trailersToSend);
this.statusSent = true;
});
this.stream.end();
}
} else {
// Trailers-only response
const trailersToSend = {
[GRPC_STATUS_HEADER]: statusObj.code,
[GRPC_MESSAGE_HEADER]: encodeURI(statusObj.details),
...defaultResponseHeaders,
...statusObj.metadata?.toHttp2Headers(),
};
this.stream.respond(trailersToSend, { endStream: true });
this.statusSent = true;
}
}
sendError(error: ServerErrorResponse | ServerStatusResponse) {
const status: PartialStatusObject = {
code: Status.UNKNOWN,
details: 'message' in error ? error.message : 'Unknown Error',
metadata:
'metadata' in error && error.metadata !== undefined
? error.metadata
: null,
};
if (
'code' in error &&
typeof error.code === 'number' &&
Number.isInteger(error.code)
) {
status.code = error.code;
if ('details' in error && typeof error.details === 'string') {
status.details = error.details!;
}
}
this.sendStatus(status);
}
write(chunk: Buffer) {
if (this.checkCancelled()) {
return;
}
if (
this.maxSendMessageSize !== -1 &&
chunk.length > this.maxSendMessageSize
) {
this.sendError({
code: Status.RESOURCE_EXHAUSTED,
details: `Sent message larger than max (${chunk.length} vs. ${this.maxSendMessageSize})`,
});
return;
}
this.sendMetadata();
this.emit('sendMessage');
return this.stream.write(chunk);
}
resume() {
this.stream.resume();
}
setupSurfaceCall(call: ServerSurfaceCall) {
this.once('cancelled', reason => {
call.cancelled = true;
call.emit('cancelled', reason);
});
this.once('callEnd', status => call.emit('callEnd', status));
}
setupReadable(
readable:
| ServerReadableStream<RequestType, ResponseType>
| ServerDuplexStream<RequestType, ResponseType>,
encoding: string
) {
const decoder = new StreamDecoder();
let readsDone = false;
let pendingMessageProcessing = false;
let pushedEnd = false;
const maybePushEnd = async () => {
if (!pushedEnd && readsDone && !pendingMessageProcessing) {
pushedEnd = true;
await this.pushOrBufferMessage(readable, null);
}
};
this.stream.on('data', async (data: Buffer) => {
const messages = decoder.write(data);
pendingMessageProcessing = true;
this.stream.pause();
for (const message of messages) {
if (
this.maxReceiveMessageSize !== -1 &&
message.length > this.maxReceiveMessageSize
) {
this.sendError({
code: Status.RESOURCE_EXHAUSTED,
details: `Received message larger than max (${message.length} vs. ${this.maxReceiveMessageSize})`,
});
return;
}
this.emit('receiveMessage');
const compressed = message.readUInt8(0) === 1;
const compressedMessageEncoding = compressed ? encoding : 'identity';
const decompressedMessage = await this.getDecompressedMessage(
message,
compressedMessageEncoding
);
// Encountered an error with decompression; it'll already have been propogated back
// Just return early
if (!decompressedMessage) return;
await this.pushOrBufferMessage(readable, decompressedMessage);
}
pendingMessageProcessing = false;
this.stream.resume();
await maybePushEnd();
});
this.stream.once('end', async () => {
readsDone = true;
await maybePushEnd();
});
}
consumeUnpushedMessages(
readable:
| ServerReadableStream<RequestType, ResponseType>
| ServerDuplexStream<RequestType, ResponseType>
): boolean {
this.canPush = true;
while (this.messagesToPush.length > 0) {
const nextMessage = this.messagesToPush.shift();
const canPush = readable.push(nextMessage);
if (nextMessage === null || canPush === false) {
this.canPush = false;
break;
}
}
return this.canPush;
}
private async pushOrBufferMessage(
readable:
| ServerReadableStream<RequestType, ResponseType>
| ServerDuplexStream<RequestType, ResponseType>,
messageBytes: Buffer | null
): Promise<void> {
if (this.isPushPending) {
this.bufferedMessages.push(messageBytes);
} else {
await this.pushMessage(readable, messageBytes);
}
}
private async pushMessage(
readable:
| ServerReadableStream<RequestType, ResponseType>
| ServerDuplexStream<RequestType, ResponseType>,
messageBytes: Buffer | null
) {
if (messageBytes === null) {
trace('Received end of stream');
if (this.canPush) {
readable.push(null);
} else {
this.messagesToPush.push(null);
}
return;
}
trace('Received message of length ' + messageBytes.length);
this.isPushPending = true;
try {
const deserialized = await this.deserializeMessage(messageBytes);
if (this.canPush) {
if (!readable.push(deserialized)) {
this.canPush = false;
this.stream.pause();
}
} else {
this.messagesToPush.push(deserialized);
}
} catch (error) {
// Ignore any remaining messages when errors occur.
this.bufferedMessages.length = 0;
let code = getErrorCode(error);
if (code === null || code < Status.OK || code > Status.UNAUTHENTICATED) {
code = Status.INTERNAL;
}
readable.emit('error', {
details: getErrorMessage(error),
code: code,
});
}
this.isPushPending = false;
if (this.bufferedMessages.length > 0) {
await this.pushMessage(
readable,
this.bufferedMessages.shift() as Buffer | null
);
}
}
getPeer(): string {
const socket = this.stream.session?.socket;
if (socket?.remoteAddress) {
if (socket.remotePort) {
return `${socket.remoteAddress}:${socket.remotePort}`;
} else {
return socket.remoteAddress;
}
} else {
return 'unknown';
}
}
getDeadline(): Deadline {
return this.deadline;
}
getPath(): string {
return this.handler.path;
}
}
/* eslint-disable @typescript-eslint/no-explicit-any */
type UntypedServerCall = Http2ServerCallStream<any, any>;
function handleExpiredDeadline(call: UntypedServerCall) {
const err = new Error('Deadline exceeded') as ServerErrorResponse;
err.code = Status.DEADLINE_EXCEEDED;
call.sendError(err);
call.cancelled = true;
call.emit('cancelled', 'deadline');
}