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156 lines
7.2 KiB
JavaScript

"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.MessageStream = void 0;
const stream_1 = require("stream");
const error_1 = require("../error");
const utils_1 = require("../utils");
const commands_1 = require("./commands");
const compression_1 = require("./wire_protocol/compression");
const constants_1 = require("./wire_protocol/constants");
const MESSAGE_HEADER_SIZE = 16;
const COMPRESSION_DETAILS_SIZE = 9; // originalOpcode + uncompressedSize, compressorID
const kDefaultMaxBsonMessageSize = 1024 * 1024 * 16 * 4;
/** @internal */
const kBuffer = Symbol('buffer');
/**
* A duplex stream that is capable of reading and writing raw wire protocol messages, with
* support for optional compression
* @internal
*/
class MessageStream extends stream_1.Duplex {
constructor(options = {}) {
super(options);
/** @internal */
this.isMonitoringConnection = false;
this.maxBsonMessageSize = options.maxBsonMessageSize || kDefaultMaxBsonMessageSize;
this[kBuffer] = new utils_1.BufferPool();
}
get buffer() {
return this[kBuffer];
}
_write(chunk, _, callback) {
this[kBuffer].append(chunk);
processIncomingData(this, callback);
}
_read( /* size */) {
// NOTE: This implementation is empty because we explicitly push data to be read
// when `writeMessage` is called.
return;
}
writeCommand(command, operationDescription) {
const agreedCompressor = operationDescription.agreedCompressor ?? 'none';
if (agreedCompressor === 'none' || !canCompress(command)) {
const data = command.toBin();
this.push(Array.isArray(data) ? Buffer.concat(data) : data);
return;
}
// otherwise, compress the message
const concatenatedOriginalCommandBuffer = Buffer.concat(command.toBin());
const messageToBeCompressed = concatenatedOriginalCommandBuffer.slice(MESSAGE_HEADER_SIZE);
// Extract information needed for OP_COMPRESSED from the uncompressed message
const originalCommandOpCode = concatenatedOriginalCommandBuffer.readInt32LE(12);
const options = {
agreedCompressor,
zlibCompressionLevel: operationDescription.zlibCompressionLevel ?? 0
};
// Compress the message body
(0, compression_1.compress)(options, messageToBeCompressed).then(compressedMessage => {
// Create the msgHeader of OP_COMPRESSED
const msgHeader = Buffer.alloc(MESSAGE_HEADER_SIZE);
msgHeader.writeInt32LE(MESSAGE_HEADER_SIZE + COMPRESSION_DETAILS_SIZE + compressedMessage.length, 0); // messageLength
msgHeader.writeInt32LE(command.requestId, 4); // requestID
msgHeader.writeInt32LE(0, 8); // responseTo (zero)
msgHeader.writeInt32LE(constants_1.OP_COMPRESSED, 12); // opCode
// Create the compression details of OP_COMPRESSED
const compressionDetails = Buffer.alloc(COMPRESSION_DETAILS_SIZE);
compressionDetails.writeInt32LE(originalCommandOpCode, 0); // originalOpcode
compressionDetails.writeInt32LE(messageToBeCompressed.length, 4); // Size of the uncompressed compressedMessage, excluding the MsgHeader
compressionDetails.writeUInt8(compression_1.Compressor[agreedCompressor], 8); // compressorID
this.push(Buffer.concat([msgHeader, compressionDetails, compressedMessage]));
}, error => {
operationDescription.cb(error);
});
}
}
exports.MessageStream = MessageStream;
// Return whether a command contains an uncompressible command term
// Will return true if command contains no uncompressible command terms
function canCompress(command) {
const commandDoc = command instanceof commands_1.Msg ? command.command : command.query;
const commandName = Object.keys(commandDoc)[0];
return !compression_1.uncompressibleCommands.has(commandName);
}
function processIncomingData(stream, callback) {
const buffer = stream[kBuffer];
const sizeOfMessage = buffer.getInt32();
if (sizeOfMessage == null) {
return callback();
}
if (sizeOfMessage < 0) {
return callback(new error_1.MongoParseError(`Invalid message size: ${sizeOfMessage}`));
}
if (sizeOfMessage > stream.maxBsonMessageSize) {
return callback(new error_1.MongoParseError(`Invalid message size: ${sizeOfMessage}, max allowed: ${stream.maxBsonMessageSize}`));
}
if (sizeOfMessage > buffer.length) {
return callback();
}
const message = buffer.read(sizeOfMessage);
const messageHeader = {
length: message.readInt32LE(0),
requestId: message.readInt32LE(4),
responseTo: message.readInt32LE(8),
opCode: message.readInt32LE(12)
};
const monitorHasAnotherHello = () => {
if (stream.isMonitoringConnection) {
// Can we read the next message size?
const sizeOfMessage = buffer.getInt32();
if (sizeOfMessage != null && sizeOfMessage <= buffer.length) {
return true;
}
}
return false;
};
let ResponseType = messageHeader.opCode === constants_1.OP_MSG ? commands_1.BinMsg : commands_1.Response;
if (messageHeader.opCode !== constants_1.OP_COMPRESSED) {
const messageBody = message.subarray(MESSAGE_HEADER_SIZE);
// If we are a monitoring connection message stream and
// there is more in the buffer that can be read, skip processing since we
// want the last hello command response that is in the buffer.
if (monitorHasAnotherHello()) {
return processIncomingData(stream, callback);
}
stream.emit('message', new ResponseType(message, messageHeader, messageBody));
if (buffer.length >= 4) {
return processIncomingData(stream, callback);
}
return callback();
}
messageHeader.fromCompressed = true;
messageHeader.opCode = message.readInt32LE(MESSAGE_HEADER_SIZE);
messageHeader.length = message.readInt32LE(MESSAGE_HEADER_SIZE + 4);
const compressorID = message[MESSAGE_HEADER_SIZE + 8];
const compressedBuffer = message.slice(MESSAGE_HEADER_SIZE + 9);
// recalculate based on wrapped opcode
ResponseType = messageHeader.opCode === constants_1.OP_MSG ? commands_1.BinMsg : commands_1.Response;
(0, compression_1.decompress)(compressorID, compressedBuffer).then(messageBody => {
if (messageBody.length !== messageHeader.length) {
return callback(new error_1.MongoDecompressionError('Message body and message header must be the same length'));
}
// If we are a monitoring connection message stream and
// there is more in the buffer that can be read, skip processing since we
// want the last hello command response that is in the buffer.
if (monitorHasAnotherHello()) {
return processIncomingData(stream, callback);
}
stream.emit('message', new ResponseType(message, messageHeader, messageBody));
if (buffer.length >= 4) {
return processIncomingData(stream, callback);
}
return callback();
}, error => {
return callback(error);
});
}
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