var assert = require('assert'); var util = require('util'); var zlib = require('zlib'); var nbt = require('prismarine-nbt'); var STRING_MAX_LENGTH = 240; var SRV_STRING_MAX_LENGTH = 32767; // This is really just for the client. var states = { "HANDSHAKING": "handshaking", "STATUS": "status", "LOGIN": "login", "PLAY": "play" } var packets=require("./protocol_def.js"); var packetFields = {}; var packetNames = {}; var packetIds = {}; var packetStates = {toClient: {}, toServer: {}}; (function() { for (var stateName in states) { var state = states[stateName]; packetFields[state] = {toClient: [], toServer: []}; packetNames[state] = {toClient: [], toServer: []}; packetIds[state] = {toClient: [], toServer: []}; ['toClient', 'toServer'].forEach(function(direction) { for (var name in packets[state][direction]) { var info = packets[state][direction][name]; var id = parseInt(info.id); var fields = info.fields; assert(id !== undefined, 'missing id for packet '+name); assert(fields !== undefined, 'missing fields for packet '+name); assert(!packetNames[state][direction].hasOwnProperty(id), 'duplicate packet id '+id+' for '+name); assert(!packetIds[state][direction].hasOwnProperty(name), 'duplicate packet name '+name+' for '+id); assert(!packetFields[state][direction].hasOwnProperty(id), 'duplicate packet id '+id+' for '+name); assert(!packetStates[direction].hasOwnProperty(name), 'duplicate packet name '+name+' for '+id+', must be unique across all states'); packetNames[state][direction][id] = name; packetIds[state][direction][name] = id; packetFields[state][direction][id] = fields; packetStates[direction][name] = state; } }); } })(); var types = { 'byte': [readByte, writeByte, 1], 'ubyte': [readUByte, writeUByte, 1], 'short': [readShort, writeShort, 2], 'ushort': [readUShort, writeUShort, 2], 'int': [readInt, writeInt, 4], 'long': [readLong, writeLong, 8], 'varint': [readVarInt, writeVarInt, sizeOfVarInt], 'float': [readFloat, writeFloat, 4], 'double': [readDouble, writeDouble, 8], 'bool': [readBool, writeBool, 1], 'string': [readString, writeString, sizeOfString], 'ustring': [readString, writeString, sizeOfUString], // TODO : remove ustring 'UUID': [readUUID, writeUUID, 16], 'container': [readContainer, writeContainer, sizeOfContainer], 'array': [readArray, writeArray, sizeOfArray], 'buffer': [readBuffer, writeBuffer, sizeOfBuffer], 'restBuffer': [readRestBuffer, writeBuffer, sizeOfBuffer], 'count': [readCount, writeCount, sizeOfCount], // TODO : remove type-specific, replace with generic containers and arrays. 'position': [readPosition, writePosition, 8], 'slot': [readSlot, writeSlot, sizeOfSlot], 'nbt': [readNbt, writeBuffer, sizeOfBuffer], 'entityMetadata': [readEntityMetadata, writeEntityMetadata, sizeOfEntityMetadata], }; var debug; if (process.env.NODE_DEBUG && /(minecraft-protocol|mc-proto)/.test(process.env.NODE_DEBUG)) { var pid = process.pid; debug = function(x) { // if console is not set up yet, then skip this. if (!console.error) return; console.error('MC-PROTO: %d', pid, util.format.apply(util, arguments).slice(0, 500)); }; } else { debug = function() { }; } var entityMetadataTypes = { 0: { type: 'byte' }, 1: { type: 'short' }, 2: { type: 'int' }, 3: { type: 'float' }, 4: { type: 'string' }, 5: { type: 'slot' }, 6: { type: 'container', typeArgs: { fields: [ { name: 'x', type: 'int' }, { name: 'y', type: 'int' }, { name: 'z', type: 'int' } ]}}, 7: { type: 'container', typeArgs: { fields: [ { name: 'pitch', type: 'float' }, { name: 'yaw', type: 'float' }, { name: 'roll', type: 'float' } ]}} }; // maps string type name to number var entityMetadataTypeBytes = {}; for (var n in entityMetadataTypes) { if (!entityMetadataTypes.hasOwnProperty(n)) continue; entityMetadataTypeBytes[entityMetadataTypes[n].type] = n; } function isFunction(functionToCheck) { var getType = {}; return functionToCheck && getType.toString.call(functionToCheck) === '[object Function]'; } function evalCondition(condition,field_values) { if(!isFunction(condition)) { var field_value_to_test="this" in condition && condition["this"] ? field_values["this"][condition.field] : field_values[condition.field]; var b=condition.values.some(function(value) {return field_value_to_test===value;}); if("different" in condition && condition["different"]) return !b; else return b; } return condition(field_values); } function sizeOfEntityMetadata(value) { var size = 1 + value.length; var item; for (var i = 0; i < value.length; ++i) { item = value[i]; size += sizeOf(item.value, entityMetadataTypes[entityMetadataTypeBytes[item.type]], {}); } return size; } function writeEntityMetadata(value, buffer, offset) { value.forEach(function(item) { var type = entityMetadataTypeBytes[item.type]; var headerByte = (type << 5) | item.key; buffer.writeUInt8(headerByte, offset); offset += 1; offset = write(item.value, buffer, offset, entityMetadataTypes[type], {}); }); buffer.writeUInt8(0x7f, offset); return offset + 1; } function writeUUID(value, buffer, offset) { buffer.writeUInt32BE(value[0], offset); buffer.writeUInt32BE(value[1], offset + 4); buffer.writeUInt32BE(value[2], offset + 8); buffer.writeUInt32BE(value[3], offset + 12); return offset + 16; } function readEntityMetadata(buffer, offset) { var cursor = offset; var metadata = []; var item, key, type, results, reader, typeName, dataType; while (true) { if (cursor + 1 > buffer.length) return null; item = buffer.readUInt8(cursor); cursor += 1; if (item === 0x7f) { return { value: metadata, size: cursor - offset, }; } key = item & 0x1f; type = item >> 5; dataType = entityMetadataTypes[type]; typeName = dataType.type; //debug("Reading entity metadata type " + dataType + " (" + ( typeName || "unknown" ) + ")"); if (!dataType) { return { error: new Error("unrecognized entity metadata type " + type) } } results = read(buffer, cursor, dataType, {}); if (! results) return null; metadata.push({ key: key, value: results.value, type: typeName, }); cursor += results.size; } } function readNbt(buffer, offset) { buffer = buffer.slice(offset); return nbt.parseUncompressed(buffer); } function writeNbt(value, buffer, offset) { var newbuf = nbt.writeUncompressed(value); newbuf.copy(buffer, offset); return offset + newbuf.length; } function sizeOfNbt(value) { return nbt.writeUncompressed(value).length; } function readString (buffer, offset) { var length = readVarInt(buffer, offset); if (!!!length) return null; var cursor = offset + length.size; var stringLength = length.value; var strEnd = cursor + stringLength; if (strEnd > buffer.length) return null; var value = buffer.toString('utf8', cursor, strEnd); cursor = strEnd; return { value: value, size: cursor - offset, }; } function readUUID(buffer, offset) { return { value: [ buffer.readUInt32BE(offset), buffer.readUInt32BE(offset + 4), buffer.readUInt32BE(offset + 8), buffer.readUInt32BE(offset + 12), ], size: 16, }; } function readShort(buffer, offset) { if (offset + 2 > buffer.length) return null; var value = buffer.readInt16BE(offset); return { value: value, size: 2, }; } function readUShort(buffer, offset) { if (offset + 2 > buffer.length) return null; var value = buffer.readUInt16BE(offset); return { value: value, size: 2, }; } function readInt(buffer, offset) { if (offset + 4 > buffer.length) return null; var value = buffer.readInt32BE(offset); return { value: value, size: 4, }; } function readFloat(buffer, offset) { if (offset + 4 > buffer.length) return null; var value = buffer.readFloatBE(offset); return { value: value, size: 4, }; } function readDouble(buffer, offset) { if (offset + 8 > buffer.length) return null; var value = buffer.readDoubleBE(offset); return { value: value, size: 8, }; } function readLong(buffer, offset) { if (offset + 8 > buffer.length) return null; return { value: [buffer.readInt32BE(offset), buffer.readInt32BE(offset + 4)], size: 8, }; } function readByte(buffer, offset) { if (offset + 1 > buffer.length) return null; var value = buffer.readInt8(offset); return { value: value, size: 1, }; } function readUByte(buffer, offset) { if (offset + 1 > buffer.length) return null; var value = buffer.readUInt8(offset); return { value: value, size: 1, }; } function readBool(buffer, offset) { if (offset + 1 > buffer.length) return null; var value = buffer.readInt8(offset); return { value: !!value, size: 1, }; } function readPosition(buffer, offset) { var longVal = readLong(buffer, offset).value; var x = signExtend26(longVal[0] >> 6); var y = signExtend12(((longVal[0] & 0x3f) << 6) | ((longVal[1] >> 26) & 0x3f)); var z = signExtend26(longVal[1] & 0x3FFFFFF); return { value: { x: x, y: y, z: z }, size: 8 }; } function signExtend26(value) { if (value > 0x2000000) value -= 0x4000000; return value; } function signExtend12(value) { if (value > 0x800) value -= 0x1000; return value; } function readSlot(buffer, offset) { var value = {}; var results = readShort(buffer, offset); if (! results) return null; value.blockId = results.value; if (value.blockId === -1) { return { value: value, size: 2, }; } var cursorEnd = offset + 6; if (cursorEnd > buffer.length) return null; value.itemCount = buffer.readInt8(offset + 2); value.itemDamage = buffer.readInt16BE(offset + 3); var nbtData = buffer.readInt8(offset + 5); if (nbtData == 0) { return { value: value, size: 6 } } var nbtData = readNbt(buffer, offset + 5); value.nbtData = nbtData.value; return { value: value, size: nbtData.size + 5 }; } function sizeOfSlot(value) { if (value.blockId === -1) return (2); else if (!value.nbtData) { return (6); } else { return (5 + sizeOfNbt(value.nbtData)); } } function writePosition(value, buffer, offset) { var longVal = []; longVal[0] = ((value.x & 0x3FFFFFF) << 6) | ((value.y & 0xFFF) >> 6); longVal[1] = ((value.y & 0x3F) << 26) | (value.z & 0x3FFFFFF); return writeLong(longVal, buffer, offset); } function writeSlot(value, buffer, offset) { buffer.writeInt16BE(value.blockId, offset); if (value.blockId === -1) return offset + 2; buffer.writeInt8(value.itemCount, offset + 2); buffer.writeInt16BE(value.itemDamage, offset + 3); var nbtDataLen; if (value.nbtData) { var newbuf = nbt.writeUncompressed(value.nbtData); newbuf.copy(buffer, offset + 5); nbtDataLen = newbuf.length; } else { buffer.writeInt8(0, offset + 5); nbtDataLen = 1; } return offset + 5 + nbtDataLen; } function sizeOfString(value) { var length = Buffer.byteLength(value, 'utf8'); assert.ok(length < STRING_MAX_LENGTH, "string greater than max length"); return sizeOfVarInt(length) + length; } function sizeOfUString(value) { var length = Buffer.byteLength(value, 'utf8'); assert.ok(length < SRV_STRING_MAX_LENGTH, "string greater than max length"); return sizeOfVarInt(length) + length; } function writeString(value, buffer, offset) { var length = Buffer.byteLength(value, 'utf8'); offset = writeVarInt(length, buffer, offset); buffer.write(value, offset, length, 'utf8'); return offset + length; } function writeByte(value, buffer, offset) { buffer.writeInt8(value, offset); return offset + 1; } function writeBool(value, buffer, offset) { buffer.writeInt8(+value, offset); return offset + 1; } function writeUByte(value, buffer, offset) { buffer.writeUInt8(value, offset); return offset + 1; } function writeFloat(value, buffer, offset) { buffer.writeFloatBE(value, offset); return offset + 4; } function writeDouble(value, buffer, offset) { buffer.writeDoubleBE(value, offset); return offset + 8; } function writeShort(value, buffer, offset) { buffer.writeInt16BE(value, offset); return offset + 2; } function writeUShort(value, buffer, offset) { buffer.writeUInt16BE(value, offset); return offset + 2; } function writeInt(value, buffer, offset) { buffer.writeInt32BE(value, offset); return offset + 4; } function writeLong(value, buffer, offset) { buffer.writeInt32BE(value[0], offset); buffer.writeInt32BE(value[1], offset + 4); return offset + 8; } function readVarInt(buffer, offset) { var result = 0; var shift = 0; var cursor = offset; while (true) { if (cursor + 1 > buffer.length) return null; var b = buffer.readUInt8(cursor); result |= ((b & 0x7f) << shift); // Add the bits to our number, except MSB cursor++; if (!(b & 0x80)) { // If the MSB is not set, we return the number return { value: result, size: cursor - offset }; } shift += 7; // we only have 7 bits, MSB being the return-trigger assert.ok(shift < 64, "varint is too big"); // Make sure our shift don't overflow. } } function sizeOfVarInt(value) { var cursor = 0; while (value & ~0x7F) { value >>>= 7; cursor++; } return cursor + 1; } function writeVarInt(value, buffer, offset) { var cursor = 0; while (value & ~0x7F) { buffer.writeUInt8((value & 0xFF) | 0x80, offset + cursor); cursor++; value >>>= 7; } buffer.writeUInt8(value, offset + cursor); return offset + cursor + 1; } function readContainer(buffer, offset, typeArgs, rootNode) { var results = { value: {}, size: 0 }; // BLEIGH. Huge hack because I have no way of knowing my current name. // TODO : either pass fieldInfo instead of typeArgs as argument (bleigh), or send name as argument (verybleigh). // TODO : what I do inside of roblabla/Protocols is have each "frame" create a new empty slate with just a "super" object pointing to the parent. rootNode.this = results.value; for (var index in typeArgs.fields) { var readResults = read(buffer, offset, typeArgs.fields[index], rootNode); if (readResults == null) { continue; } results.size += readResults.size; offset += readResults.size; results.value[typeArgs.fields[index].name] = readResults.value; } delete rootNode.this; return results; } function writeContainer(value, buffer, offset, typeArgs, rootNode) { var context = value.this ? value.this : value; rootNode.this = value; for (var index in typeArgs.fields) { if (!context.hasOwnProperty(typeArgs.fields[index].name) && typeArgs.fields[index].type != "count" && !typeArgs.fields[index].condition) { debug(new Error("Missing Property " + typeArgs.fields[index].name).stack); console.log(context); } offset = write(context[typeArgs.fields[index].name], buffer, offset, typeArgs.fields[index], rootNode); } delete rootNode.this; return offset; } function sizeOfContainer(value, typeArgs, rootNode) { var size = 0; var context = value.this ? value.this : value; rootNode.this = value; for (var index in typeArgs.fields) { size += sizeOf(context[typeArgs.fields[index].name], typeArgs.fields[index], rootNode); } delete rootNode.this; return size; } function readBuffer(buffer, offset, typeArgs, rootNode) { var count = getField(typeArgs.count, rootNode); return { value: buffer.slice(offset, offset + count), size: count }; } function writeBuffer(value, buffer, offset) { value.copy(buffer, offset); return offset + value.length; } function sizeOfBuffer(value) { return value.length; } function readRestBuffer(buffer, offset, typeArgs, rootNode) { return { value: buffer.slice(offset), size: buffer.length - offset }; } function evalCount(count,fields) { if(fields[count["field"]] in count["map"]) return count["map"][fields[count["field"]]]; return count["default"]; } function readArray(buffer, offset, typeArgs, rootNode) { var results = { value: [], size: 0 } var count; if (typeof typeArgs.count === "object") { count = evalCount(typeArgs.count,rootNode); } else count = getField(typeArgs.count, rootNode); for (var i = 0; i < count; i++) { var readResults = read(buffer, offset, { type: typeArgs.type, typeArgs: typeArgs.typeArgs }, rootNode); results.size += readResults.size; offset += readResults.size; results.value.push(readResults.value); } return results; } function writeArray(value, buffer, offset, typeArgs, rootNode) { for (var index in value) { offset = write(value[index], buffer, offset, { type: typeArgs.type, typeArgs: typeArgs.typeArgs }, rootNode); } return offset; } function sizeOfArray(value, typeArgs, rootNode) { var size = 0; for (var index in value) { size += sizeOf(value[index], { type: typeArgs.type, typeArgs: typeArgs.typeArgs }, rootNode); } return size; } function getField(countField, rootNode) { var countFieldArr = countField.split("."); var count = rootNode; for (var index = 0; index < countFieldArr.length; index++) { count = count[countFieldArr[index]]; } return count; } function readCount(buffer, offset, typeArgs, rootNode) { return read(buffer, offset, { type: typeArgs.type }, rootNode); } function writeCount(value, buffer, offset, typeArgs, rootNode) { // Actually gets the required field, and writes its length. Value is unused. // TODO : a bit hackityhack. return write(getField(typeArgs.countFor, rootNode).length, buffer, offset, { type: typeArgs.type }, rootNode); } function sizeOfCount(value, typeArgs, rootNode) { // TODO : should I use value or getField().length ? /*console.log(rootNode); console.log(typeArgs);*/ return sizeOf(getField(typeArgs.countFor, rootNode).length, { type: typeArgs.type }, rootNode); } function read(buffer, cursor, fieldInfo, rootNodes) { if (fieldInfo.condition && !evalCondition(fieldInfo.condition,rootNodes)) { return null; } var type = types[fieldInfo.type]; if (!type) { return { error: new Error("missing data type: " + fieldInfo.type) }; } var readResults = type[0](buffer, cursor, fieldInfo.typeArgs, rootNodes); if (readResults == null) { throw new Error("Reader returned null : " + JSON.stringify(fieldInfo)); } if (readResults && readResults.error) return { error: readResults.error }; return readResults; } function write(value, buffer, offset, fieldInfo, rootNode) { if (fieldInfo.condition && !evalCondition(fieldInfo.condition,rootNode)) { return offset; } var type = types[fieldInfo.type]; if (!type) { return { error: new Error("missing data type: " + fieldInfo.type) }; } return type[1](value, buffer, offset, fieldInfo.typeArgs, rootNode); } function sizeOf(value, fieldInfo, rootNode) { if (fieldInfo.condition && !evalCondition(fieldInfo.condition,rootNode)) { return 0; } var type = types[fieldInfo.type]; if (!type) { throw new Error("missing data type: " + fieldInfo.type); } if (typeof type[2] === 'function') { return type[2](value, fieldInfo.typeArgs, rootNode); } else { return type[2]; } } function get(packetId, state, toServer) { var direction = toServer ? "toServer" : "toClient"; var packetInfo = packetFields[state][direction][packetId]; if (!packetInfo) { return null; } return packetInfo; } // TODO : This does NOT contain the length prefix anymore. function createPacketBuffer(packetId, state, params, isServer) { var length = 0; if (typeof packetId === 'string' && typeof state !== 'string' && !params) { // simplified two-argument usage, createPacketBuffer(name, params) params = state; state = packetStates[!isServer ? 'toServer' : 'toClient'][packetId]; } if (typeof packetId === 'string') packetId = packetIds[state][!isServer ? 'toServer' : 'toClient'][packetId]; assert.notEqual(packetId, undefined); var packet = get(packetId, state, !isServer); assert.notEqual(packet, null); packet.forEach(function(fieldInfo) { try { length += sizeOf(params[fieldInfo.name], fieldInfo, params); } catch (e) { console.log("fieldInfo : " + JSON.stringify(fieldInfo)); console.log("params : " + JSON.stringify(params)); throw e; } }); length += sizeOfVarInt(packetId); var size = length;// + sizeOfVarInt(length); var buffer = new Buffer(size); var offset = 0;//writeVarInt(length, buffer, 0); offset = writeVarInt(packetId, buffer, offset); packet.forEach(function(fieldInfo) { var value = params[fieldInfo.name]; // TODO : A better check is probably needed if(typeof value === "undefined" && fieldInfo.type != "count" && !fieldInfo.condition) debug(new Error("Missing Property " + fieldInfo.name).stack); offset = write(value, buffer, offset, fieldInfo, params); }); return buffer; } function compressPacketBuffer(buffer, callback) { var dataLength = buffer.size; zlib.deflate(buffer, function(err, buf) { if (err) callback(err); else newStylePacket(buffer, callback); }); } function oldStylePacket(buffer, callback) { var packet = new Buffer(sizeOfVarInt(buffer.length) + buffer.length); var cursor = writeVarInt(buffer.length, packet, 0); writeBuffer(buffer, packet, cursor); callback(null, packet); } function newStylePacket(buffer, callback) { var sizeOfDataLength = sizeOfVarInt(0); var sizeOfLength = sizeOfVarInt(buffer.length + sizeOfDataLength); var size = sizeOfLength + sizeOfDataLength + buffer.length; var packet = new Buffer(size); var cursor = writeVarInt(size - sizeOfLength, packet, 0); cursor = writeVarInt(0, packet, cursor); writeBuffer(buffer, packet, cursor); callback(null, packet); } function parsePacketData(buffer, state, isServer, packetsToParse) { var cursor = 0; var packetIdField = readVarInt(buffer, cursor); var packetId = packetIdField.value; cursor += packetIdField.size; var results = { id: packetId, state: state }; // Only parse the packet if there is a need for it, AKA if there is a listener attached to it var name = packetNames[state][isServer ? "toServer" : "toClient"][packetId]; var shouldParse = (!packetsToParse.hasOwnProperty(name) || packetsToParse[name] <= 0) && (!packetsToParse.hasOwnProperty("packet") || packetsToParse["packet"] <= 0); if (shouldParse) { return { buffer: buffer, results: results }; } var packetInfo = get(packetId, state, isServer); if (packetInfo === null) { return { error: new Error("Unrecognized packetId: " + packetId + " (0x" + packetId.toString(16) + ")"), buffer: buffer, results: results }; } else { var packetName = packetNames[state][isServer ? "toServer" : "toClient"][packetId]; debug("read packetId " + state + "." + packetName + " (0x" + packetId.toString(16) + ")"); } var i, fieldInfo, readResults; for (i = 0; i < packetInfo.length; ++i) { fieldInfo = packetInfo[i]; readResults = read(buffer, cursor, fieldInfo, results); /* A deserializer cannot return null anymore. Besides, read() returns * null when the condition is not fulfilled. if (!!!readResults) { var error = new Error("A deserializer returned null"); error.packetId = packetId; error.fieldInfo = fieldInfo.name; return { size: length + lengthField.size, error: error, results: results }; }*/ if (readResults === null) continue; if (readResults.error) { return readResults; } results[fieldInfo.name] = readResults.value; cursor += readResults.size; } if (buffer.length > cursor) debug("Too much data to read for packetId: " + packetId + " (0x" + packetId.toString(16) + ")"); debug(results); return { results: results, buffer: buffer }; } function parsePacket(buffer, state, isServer, packetsToParse) { if (state == null) state = states.PLAY; var cursor = 0; var lengthField = readVarInt(buffer, 0); if (!!!lengthField) return null; var length = lengthField.value; cursor += lengthField.size; if (length + lengthField.size > buffer.length) return null; // fail early var result = parsePacketData(buffer.slice(cursor, length + cursor), state, isServer, packetsToParse); result.size = lengthField.size + length; return result; } function parseNewStylePacket(buffer, state, isServer, packetsToParse, cb) { var dataLengthField = readVarInt(buffer, 0); var buf = buffer.slice(dataLengthField.size); if(dataLengthField.value != 0) { zlib.inflate(buf, function(err, newbuf) { if (err) { console.log(err); cb(err); } else { cb(null, parsePacketData(newbuf, state, isServer, packetsToParse)); } }); } else { cb(null, parsePacketData(buf, state, isServer, packetsToParse)); } } module.exports = { version: 47, minecraftVersion: '1.8.1', sessionVersion: 13, parsePacket: parsePacket, parsePacketData: parsePacketData, parseNewStylePacket: parseNewStylePacket, createPacketBuffer: createPacketBuffer, compressPacketBuffer: compressPacketBuffer, oldStylePacket: oldStylePacket, newStylePacket: newStylePacket, STRING_MAX_LENGTH: STRING_MAX_LENGTH, packetIds: packetIds, packetNames: packetNames, packetFields: packetFields, packetStates: packetStates, types: types, states: states, get: get, debug: debug, evalCondition:evalCondition };