'use strict'; module.exports.create = function (opts) { var machine; if (!opts.onMessage && !opts.onmessage) { machine = new (require('events').EventEmitter)(); } else { machine = {}; } machine.onMessage = opts.onmessage || opts.onMessage; machine.onmessage = opts.onmessage || opts.onMessage; machine.onError = opts.onerror || opts.onError; machine.onerror = opts.onerror || opts.onError; machine.onEnd = opts.onend || opts.onEnd; machine.onend = opts.onend || opts.onEnd; machine._version = 1; machine.state = 0; machine.states = { 0: 'version', 1: 'headerLength', 2: 'header', 3: 'data'/*, 4: 'error'*/ }; machine.states_length = Object.keys(machine.states).length; machine.chunkIndex = 0; machine.fns = {}; machine.fns.version = function (chunk) { //console.log(''); //console.log('[version]'); if ((255 - machine._version) !== chunk[machine.chunkIndex]) { console.error("not v" + machine._version + " (or data is corrupt)"); // no idea how to fix this yet } machine.chunkIndex += 1; return true; }; machine.headerLen = 0; machine.fns.headerLength = function (chunk) { //console.log(''); //console.log('[headerLength]'); machine.headerLen = chunk[machine.chunkIndex]; machine.chunkIndex += 1; return true; }; machine.buf = null; machine.bufIndex = 0; //var buf = Buffer.alloc(4096); machine.fns.header = function (chunk) { //console.log(''); //console.log('[header]'); var curSize = machine.bufIndex + (chunk.length - machine.chunkIndex); var partLen = 0; var str = ''; var part; if (curSize < machine.headerLen) { // I still don't have the whole header, // so just create a large enough buffer, // write these bits, and wait for the next chunk. if (!machine.buf) { machine.buf = Buffer.alloc(machine.headerLen); } // partLen should be no more than the available size partLen = Math.min(machine.headerLen - machine.bufIndex, chunk.length - machine.chunkIndex); part = chunk.slice(machine.chunkIndex, machine.chunkIndex + partLen); chunk.copy(machine.buf, machine.bufIndex, machine.chunkIndex, machine.chunkIndex + partLen); machine.chunkIndex += partLen; // this MUST be chunk.length machine.bufIndex += partLen; return false; } else { // it's now ready to discover the whole header if (machine.buf) { str += machine.buf.slice(0, machine.bufIndex).toString(); } partLen = machine.headerLen - str.length; part = chunk.slice(machine.chunkIndex, machine.chunkIndex + partLen); str += part.toString(); machine.chunkIndex += partLen; machine.buf = null; // back to null machine.bufIndex = 0; // back to 0 machine._headers = str.split(/,/g); machine.family = machine._headers[0]; machine.address = machine._headers[1]; machine.port = machine._headers[2]; machine.bodyLen = parseInt(machine._headers[3], 10) || -1; machine.service = machine._headers[4]; return true; } }; machine.fns.data = function (chunk) { //console.log(''); //console.log('[data]'); var curSize = machine.bufIndex + (chunk.length - machine.chunkIndex); //console.log('curSize:', curSize); //console.log('bodyLen:', machine.bodyLen, typeof machine.bodyLen); var partLen = 0; var msg; partLen = Math.min(machine.bodyLen - machine.bufIndex, chunk.length - machine.chunkIndex); if (curSize < machine.bodyLen) { //console.log('curSize < bodyLen'); // I still don't have the whole header, // so just create a large enough buffer, // write these bits, and wait for the next chunk. if (!machine.buf) { machine.buf = Buffer.alloc(machine.bodyLen); } chunk.copy(machine.buf, machine.bufIndex, machine.chunkIndex, machine.chunkIndex + partLen); machine.chunkIndex += partLen; // this MUST be chunk.length machine.bufIndex += partLen; return false; } if (machine.bufIndex > 0) { // the completing remainder of the body is in the current slice chunk.copy(machine.buf, machine.bufIndex, machine.chunkIndex, machine.chunkIndex + partLen); } else { // the whole body is in the current slice machine.buf = chunk.slice(machine.chunkIndex, machine.chunkIndex + partLen); } machine.bufIndex += partLen; machine.service = machine.service || machine.type; machine.type = machine.type || machine.service; // // data, end, error // if ('end' === machine.type) { msg = {}; msg.family = machine.family; msg.address = machine.address; msg.port = machine.port; msg.service = 'end'; msg.type = msg.type || 'end'; if (machine.emit) { machine.emit('tunnelEnd', msg); } else { (machine.onend||machine.onmessage)(msg); } } else if ('error' === machine.type) { try { msg = JSON.parse(machine.data.toString()); } catch(e) { msg = new Error('unknown error'); } msg.family = machine.family; msg.address = machine.address; msg.port = machine.port; msg.service = 'error'; msg.type = msg.type || 'error'; if (machine.emit) { machine.emit('tunnelError', msg); } else { (machine.onerror||machine.onError)(msg); } } else { msg = { data: machine.buf.slice(0, machine.bufIndex) , service: machine.service , type: machine.type }; msg.family = machine.family; msg.address = machine.address; msg.port = machine.port; msg.service = machine.service; msg.type = machine.type || 'data'; if (machine.emit) { machine.emit('tunnelData', msg); } else { machine.onmessage(msg); } } machine.chunkIndex += partLen; // === chunk.length machine.buf = null; // reset to null machine.bufIndex = 0; // reset to 0 return true; }; machine.fns.addChunk = function (chunk) { //console.log(''); //console.log('[addChunk]'); machine.chunkIndex = 0; while (machine.chunkIndex < chunk.length) { //console.log('chunkIndex:', machine.chunkIndex, 'state:', machine.state); if (true === machine.fns[machine.states[machine.state]](chunk)) { machine.state += 1; machine.state %= machine.states_length; } } }; return machine; }; module.exports.pack = function (address, data, type) { if (type || (data.byteLength <= '|__ERROR__|'.length)) { if ('error' === type || '|__ERROR__|' === data.toString()) { address.type = 'error'; address.service = 'error'; } else if ('end' === type || '|__END__|' === data.toString()) { address.type = 'end'; address.service = 'end'; } } var version = 1; var header = Buffer.from([ /*servername,*/ address.family, address.address, address.port, data.byteLength , (address.type || address.service || '') ].join(',')); var meta = Buffer.from([ 255 - version, header.length ]); var buf = Buffer.alloc(meta.byteLength + header.byteLength + data.byteLength); meta.copy(buf, 0, 0, meta.byteLength); header.copy(buf, 2, 0, header.byteLength); data.copy(buf, 2 + header.byteLength, 0, data.byteLength); return buf; };