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: /home/allssztx/clarkesmusicservices.com/node_modules/mongodb/lib/cmap/wire_protocol/ [ drwxr-xr-x ]
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.uncompressibleCommands = exports.Compressor = void 0;
exports.compress = compress;
exports.decompress = decompress;
exports.compressCommand = compressCommand;
exports.decompressResponse = decompressResponse;
const util_1 = require("util");
const zlib = require("zlib");
const constants_1 = require("../../constants");
const deps_1 = require("../../deps");
const error_1 = require("../../error");
const commands_1 = require("../commands");
const constants_2 = require("./constants");
/** @public */
exports.Compressor = Object.freeze({
none: 0,
snappy: 1,
zlib: 2,
zstd: 3
});
exports.uncompressibleCommands = new Set([
constants_1.LEGACY_HELLO_COMMAND,
'saslStart',
'saslContinue',
'getnonce',
'authenticate',
'createUser',
'updateUser',
'copydbSaslStart',
'copydbgetnonce',
'copydb'
]);
const ZSTD_COMPRESSION_LEVEL = 3;
const zlibInflate = (0, util_1.promisify)(zlib.inflate.bind(zlib));
const zlibDeflate = (0, util_1.promisify)(zlib.deflate.bind(zlib));
let zstd;
let Snappy = null;
function loadSnappy() {
if (Snappy == null) {
const snappyImport = (0, deps_1.getSnappy)();
if ('kModuleError' in snappyImport) {
throw snappyImport.kModuleError;
}
Snappy = snappyImport;
}
return Snappy;
}
// Facilitate compressing a message using an agreed compressor
async function compress(options, dataToBeCompressed) {
const zlibOptions = {};
switch (options.agreedCompressor) {
case 'snappy': {
Snappy ??= loadSnappy();
return await Snappy.compress(dataToBeCompressed);
}
case 'zstd': {
loadZstd();
if ('kModuleError' in zstd) {
throw zstd['kModuleError'];
}
return await zstd.compress(dataToBeCompressed, ZSTD_COMPRESSION_LEVEL);
}
case 'zlib': {
if (options.zlibCompressionLevel) {
zlibOptions.level = options.zlibCompressionLevel;
}
return await zlibDeflate(dataToBeCompressed, zlibOptions);
}
default: {
throw new error_1.MongoInvalidArgumentError(`Unknown compressor ${options.agreedCompressor} failed to compress`);
}
}
}
// Decompress a message using the given compressor
async function decompress(compressorID, compressedData) {
if (compressorID !== exports.Compressor.snappy &&
compressorID !== exports.Compressor.zstd &&
compressorID !== exports.Compressor.zlib &&
compressorID !== exports.Compressor.none) {
throw new error_1.MongoDecompressionError(`Server sent message compressed using an unsupported compressor. (Received compressor ID ${compressorID})`);
}
switch (compressorID) {
case exports.Compressor.snappy: {
Snappy ??= loadSnappy();
return await Snappy.uncompress(compressedData, { asBuffer: true });
}
case exports.Compressor.zstd: {
loadZstd();
if ('kModuleError' in zstd) {
throw zstd['kModuleError'];
}
return await zstd.decompress(compressedData);
}
case exports.Compressor.zlib: {
return await zlibInflate(compressedData);
}
default: {
return compressedData;
}
}
}
/**
* Load ZStandard if it is not already set.
*/
function loadZstd() {
if (!zstd) {
zstd = (0, deps_1.getZstdLibrary)();
}
}
const MESSAGE_HEADER_SIZE = 16;
/**
* @internal
*
* Compresses an OP_MSG or OP_QUERY message, if compression is configured. This method
* also serializes the command to BSON.
*/
async function compressCommand(command, description) {
const finalCommand = description.agreedCompressor === 'none' || !commands_1.OpCompressedRequest.canCompress(command)
? command
: new commands_1.OpCompressedRequest(command, {
agreedCompressor: description.agreedCompressor ?? 'none',
zlibCompressionLevel: description.zlibCompressionLevel ?? 0
});
const data = await finalCommand.toBin();
return Buffer.concat(data);
}
/**
* @internal
*
* Decompresses an OP_MSG or OP_QUERY response from the server, if compression is configured.
*
* This method does not parse the response's BSON.
*/
async function decompressResponse(message) {
const messageHeader = {
length: message.readInt32LE(0),
requestId: message.readInt32LE(4),
responseTo: message.readInt32LE(8),
opCode: message.readInt32LE(12)
};
if (messageHeader.opCode !== constants_2.OP_COMPRESSED) {
const ResponseType = messageHeader.opCode === constants_2.OP_MSG ? commands_1.OpMsgResponse : commands_1.OpReply;
const messageBody = message.subarray(MESSAGE_HEADER_SIZE);
return new ResponseType(message, messageHeader, messageBody);
}
const header = {
...messageHeader,
fromCompressed: true,
opCode: message.readInt32LE(MESSAGE_HEADER_SIZE),
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
const ResponseType = header.opCode === constants_2.OP_MSG ? commands_1.OpMsgResponse : commands_1.OpReply;
const messageBody = await decompress(compressorID, compressedBuffer);
if (messageBody.length !== header.length) {
throw new error_1.MongoDecompressionError('Message body and message header must be the same length');
}
return new ResponseType(message, header, messageBody);
}
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