/* * 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 zlib from 'zlib'; import { Call, WriteFlags, WriteObject } from './call-stream'; import { Channel } from './channel'; import { BaseFilter, Filter, FilterFactory } from './filter'; import { Metadata, MetadataValue } from './metadata'; abstract class CompressionHandler { protected abstract compressMessage(message: Buffer): Promise; protected abstract decompressMessage(data: Buffer): Promise; /** * @param message Raw uncompressed message bytes * @param compress Indicates whether the message should be compressed * @return Framed message, compressed if applicable */ async writeMessage(message: Buffer, compress: boolean): Promise { let messageBuffer = message; if (compress) { messageBuffer = await this.compressMessage(messageBuffer); } const output = Buffer.allocUnsafe(messageBuffer.length + 5); output.writeUInt8(compress ? 1 : 0, 0); output.writeUInt32BE(messageBuffer.length, 1); messageBuffer.copy(output, 5); return output; } /** * @param data Framed message, possibly compressed * @return Uncompressed message */ async readMessage(data: Buffer): Promise { const compressed = data.readUInt8(0) === 1; let messageBuffer = data.slice(5); if (compressed) { messageBuffer = await this.decompressMessage(messageBuffer); } return messageBuffer; } } class IdentityHandler extends CompressionHandler { async compressMessage(message: Buffer) { return message; } async writeMessage(message: Buffer, compress: boolean): Promise { const output = Buffer.allocUnsafe(message.length + 5); /* With "identity" compression, messages should always be marked as * uncompressed */ output.writeUInt8(0, 0); output.writeUInt32BE(message.length, 1); message.copy(output, 5); return output; } decompressMessage(message: Buffer): Promise { return Promise.reject( new Error( 'Received compressed message but "grpc-encoding" header was identity' ) ); } } class DeflateHandler extends CompressionHandler { compressMessage(message: Buffer) { return new Promise((resolve, reject) => { zlib.deflate(message, (err, output) => { if (err) { reject(err); } else { resolve(output); } }); }); } decompressMessage(message: Buffer) { return new Promise((resolve, reject) => { zlib.inflate(message, (err, output) => { if (err) { reject(err); } else { resolve(output); } }); }); } } class GzipHandler extends CompressionHandler { compressMessage(message: Buffer) { return new Promise((resolve, reject) => { zlib.gzip(message, (err, output) => { if (err) { reject(err); } else { resolve(output); } }); }); } decompressMessage(message: Buffer) { return new Promise((resolve, reject) => { zlib.unzip(message, (err, output) => { if (err) { reject(err); } else { resolve(output); } }); }); } } class UnknownHandler extends CompressionHandler { constructor(private readonly compressionName: string) { super(); } compressMessage(message: Buffer): Promise { return Promise.reject( new Error( `Received message compressed with unsupported compression method ${this.compressionName}` ) ); } decompressMessage(message: Buffer): Promise { // This should be unreachable return Promise.reject( new Error(`Compression method not supported: ${this.compressionName}`) ); } } function getCompressionHandler(compressionName: string): CompressionHandler { switch (compressionName) { case 'identity': return new IdentityHandler(); case 'deflate': return new DeflateHandler(); case 'gzip': return new GzipHandler(); default: return new UnknownHandler(compressionName); } } export class CompressionFilter extends BaseFilter implements Filter { private sendCompression: CompressionHandler = new IdentityHandler(); private receiveCompression: CompressionHandler = new IdentityHandler(); async sendMetadata(metadata: Promise): Promise { const headers: Metadata = await metadata; headers.set('grpc-accept-encoding', 'identity,deflate,gzip'); headers.set('accept-encoding', 'identity'); return headers; } receiveMetadata(metadata: Metadata): Metadata { const receiveEncoding: MetadataValue[] = metadata.get('grpc-encoding'); if (receiveEncoding.length > 0) { const encoding: MetadataValue = receiveEncoding[0]; if (typeof encoding === 'string') { this.receiveCompression = getCompressionHandler(encoding); } } metadata.remove('grpc-encoding'); metadata.remove('grpc-accept-encoding'); return metadata; } async sendMessage(message: Promise): Promise { /* This filter is special. The input message is the bare message bytes, * and the output is a framed and possibly compressed message. For this * reason, this filter should be at the bottom of the filter stack */ const resolvedMessage: WriteObject = await message; const compress = resolvedMessage.flags === undefined ? false : (resolvedMessage.flags & WriteFlags.NoCompress) === 0; return { message: await this.sendCompression.writeMessage( resolvedMessage.message, compress ), flags: resolvedMessage.flags, }; } async receiveMessage(message: Promise) { /* This filter is also special. The input message is framed and possibly * compressed, and the output message is deframed and uncompressed. So * this is another reason that this filter should be at the bottom of the * filter stack. */ return this.receiveCompression.readMessage(await message); } } export class CompressionFilterFactory implements FilterFactory { constructor(private readonly channel: Channel) {} createFilter(callStream: Call): CompressionFilter { return new CompressionFilter(); } }