/* * JSON debug proxy written in DukLuv * * This single file JSON debug proxy implementation is an alternative to the * Node.js-based proxy in duk_debug.js. DukLuv is a much smaller dependency * than Node.js so embedding DukLuv in a debug client is easier. */ 'use strict'; // XXX: Code assumes uv.write() will write fully. This is not necessarily // true; should add support for partial writes (or at least failing when // a partial write occurs). var log = new Duktape.Logger('Proxy'); // default logger //log.l = 0; // enable debug and trace logging /* * Config */ var serverHost = '0.0.0.0'; var serverPort = 9093; var targetHost = '127.0.0.1'; var targetPort = 9091; var singleConnection = false; var readableNumberValue = false; var lenientJsonParse = false; var jxParse = false; var metadataFile = null; var metadata = {}; var TORTURE = false; // for manual testing of binary/json parsing robustness /* * Detect missing 'var' declarations */ // Prevent new bindings on global object. This detects missing 'var' // declarations, e.g. "x = 123;" in a function without declaring it. var global = new Function('return this;')(); log.debug('Preventing extensions on global object'); log.debug('Global is extensible:', Object.isExtensible(global)); Object.preventExtensions(global); log.debug('Global is extensible:', Object.isExtensible(global)); /* * Misc helpers */ function plainBufferCopy(typedarray) { // This is still pretty awkward in Duktape 1.4.x. // Argument may be a "slice" and we want a copy of the slice // (not the full underlying buffer). var u8 = new Uint8Array(typedarray.length); u8.set(typedarray); // make a copy, ensuring there's no slice offset return Duktape.Buffer(u8); // get underlying plain buffer } function isObject(x) { // Note that typeof null === 'object'. return (typeof x === 'object' && x !== null); } function readFully(filename, cb) { uv.fs_open(metadataFile, 'r', 0, function (handle, err) { var fileOff = 0; var data = new Uint8Array(256); var dataOff = 0; if (err) { return cb(null, err); } function readCb(buf, err) { var res; var newData; log.debug('Read callback:', buf.length, err); if (err) { uv.fs_close(handle); return cb(null, err); } if (buf.length == 0) { uv.fs_close(handle); res = new Uint8Array(dataOff); res.set(data.subarray(0, dataOff)); res = Duktape.Buffer(res); // plain buffer log.debug('Read', res.length, 'bytes from', filename); return cb(res, null); } while (data.length - dataOff < buf.length) { log.debug('Resize file read buffer:', data.length, '->', data.length * 2); newData = new Uint8Array(data.length * 2); newData.set(data); data = newData; } data.set(new Uint8Array(buf), dataOff); dataOff += buf.length; fileOff += buf.length; uv.fs_read(handle, 4096, fileOff, readCb); } uv.fs_read(handle, 4096, fileOff, readCb); }); } /* * JSON proxy server * * Accepts an incoming JSON proxy client and connects to a debug target, * tying the two connections together. Supports both a single connection * and a persistent mode. */ function JsonProxyServer(host, port) { this.name = 'JsonProxyServer'; this.handle = uv.new_tcp(); uv.tcp_bind(this.handle, host, port); uv.listen(this.handle, 128, this.onConnection.bind(this)); } JsonProxyServer.prototype.onConnection = function onConnection(err) { if (err) { log.error('JSON proxy onConnection error:', err); return; } log.info('JSON proxy client connected'); // XXX: it'd be nice to log remote peer host:port var jsonSock = new JsonConnHandler(this); var targSock = new TargetConnHandler(this); jsonSock.targetHandler = targSock; targSock.jsonHandler = jsonSock; uv.accept(this.handle, jsonSock.handle); log.info('Connecting to debug target at', targetHost + ':' + targetPort); jsonSock.writeJson({ notify: '_TargetConnecting', args: [ targetHost, targetPort ] }); uv.tcp_connect(targSock.handle, targetHost, targetPort, targSock.onConnect.bind(targSock)); if (singleConnection) { log.info('Single connection mode, stop listening for more connections'); uv.shutdown(this.handle); uv.read_stop(this.handle); // unnecessary but just in case uv.close(this.handle); this.handle = null; } }; JsonProxyServer.prototype.onProxyClientDisconnected = function onProxyClientDisconnected() { // When this is invoked the proxy connection and the target connection // have both been closed. if (singleConnection) { log.info('Proxy connection finished (single connection mode: we should be exiting now)'); } else { log.info('Proxy connection finished (persistent mode: wait for more connections)'); } }; /* * JSON connection handler */ function JsonConnHandler(server) { var i, n; this.name = 'JsonConnHandler'; this.server = server; this.handle = uv.new_tcp(); this.incoming = new Uint8Array(4096); this.incomingOffset = 0; this.targetHandler = null; this.commandNumberLookup = {}; if (metadata && metadata.target_commands) { for (i = 0, n = metadata.target_commands.length; i < n; i++) { this.commandNumberLookup[metadata.target_commands[i]] = i; } } } JsonConnHandler.prototype.finish = function finish(msg) { var args; if (!this.handle) { log.info('JsonConnHandler already disconnected, ignore finish()'); return; } log.info('JsonConnHandler finished:', msg); try { args = msg ? [ msg ] : void 0; this.writeJson({ notify: '_Disconnecting', args: args }); } catch (e) { log.info('Failed to write _Disconnecting notify, ignoring:', e); } uv.shutdown(this.handle); uv.read_stop(this.handle); uv.close(this.handle); this.handle = null; this.targetHandler.finish(msg); // disconnect target too (if not already disconnected) this.server.onProxyClientDisconnected(); }; JsonConnHandler.prototype.onRead = function onRead(err, data) { var newIncoming; var msg; var errmsg; var tmpBuf; log.trace('Received data from JSON socket, err:', err, 'data length:', data ? data.length : 'null'); if (err) { errmsg = 'Error reading data from JSON debug client: ' + err; this.finish(errmsg); return; } if (data) { // Feed the data one byte at a time when torture testing. if (TORTURE && data.length > 1) { for (var i = 0; i < data.length; i++) { tmpBuf = Duktape.Buffer(1); tmpBuf[0] = data[i]; this.onRead(null, tmpBuf); } return; } // Receive data into 'incoming', resizing as necessary. while (data.length > this.incoming.length - this.incomingOffset) { newIncoming = new Uint8Array(this.incoming.length * 1.3 + 16); newIncoming.set(this.incoming); this.incoming = newIncoming; log.debug('Resize incoming JSON buffer to ' + this.incoming.length); } this.incoming.set(new Uint8Array(data), this.incomingOffset); this.incomingOffset += data.length; // Trial parse JSON message(s). while (true) { msg = this.trialParseJsonMessage(); if (!msg) { break; } try { this.dispatchJsonMessage(msg); } catch (e) { errmsg = 'JSON message dispatch failed: ' + e; this.writeJson({ notify: '_Error', args: [ errmsg ] }); if (lenientJsonParse) { log.warn('JSON message dispatch failed (lenient mode, ignoring):', e); } else { log.warn('JSON message dispatch failed (dropping connection):', e); this.finish(errmsg); } } } } else { this.finish('JSON proxy client disconnected'); } }; JsonConnHandler.prototype.writeJson = function writeJson(msg) { log.info('PROXY --> CLIENT:', JSON.stringify(msg)); if (this.handle) { uv.write(this.handle, JSON.stringify(msg) + '\n'); } }; JsonConnHandler.prototype.handleDebugMessage = function handleDebugMessage(dvalues) { var msg = {}; var idx = 0; var cmd; if (dvalues.length <= 0) { throw new Error('invalid dvalues list: length <= 0'); } var x = dvalues[idx++]; if (!isObject(x)) { throw new Error('invalid initial dvalue: ' + Duktape.enc('jx', dvalues)); } if (x.type === 'req') { cmd = dvalues[idx++]; if (typeof cmd !== 'number') { throw new Error('invalid command: ' + Duktape.enc('jx', cmd)); } msg.request = this.determineCommandName(cmd) || true; msg.command = cmd; } else if (x.type === 'rep') { msg.reply = true; } else if (x.type === 'err') { msg.error = true; } else if (x.type === 'nfy') { cmd = dvalues[idx++]; if (typeof cmd !== 'number') { throw new Error('invalid command: ' + Duktape.enc('jx', cmd)); } msg.notify = this.determineCommandName(cmd) || true; msg.command = cmd; } else { throw new Error('invalid initial dvalue: ' + Duktape.enc('jx', dvalues)); } for (; idx < dvalues.length - 1; idx++) { if (!msg.args) { msg.args = []; } msg.args.push(dvalues[idx]); } if (!isObject(dvalues[idx]) || dvalues[idx].type !== 'eom') { throw new Error('invalid final dvalue: ' + Duktape.enc('jx', dvalues)); } this.writeJson(msg); }; JsonConnHandler.prototype.determineCommandName = function determineCommandName(cmd) { if (!(metadata && metadata.client_commands)) { return; } return metadata.client_commands[cmd]; }; JsonConnHandler.prototype.trialParseJsonMessage = function trialParseJsonMessage() { var buf = this.incoming; var avail = this.incomingOffset; var i; var msg, str, errmsg; for (i = 0; i < avail; i++) { if (buf[i] == 0x0a) { str = String(plainBufferCopy(buf.subarray(0, i))); try { if (jxParse) { msg = Duktape.dec('jx', str); } else { msg = JSON.parse(str); } } catch (e) { // In lenient mode if JSON parse fails just send back an _Error // and ignore the line (useful for initial development). // // In non-lenient mode drop the connection here; if the failed line // was a request the client is expecting a reply/error message back // (otherwise it may go out of sync) but we can't send a synthetic // one (as we can't parse the request). errmsg = 'JSON parse failed for: ' + JSON.stringify(str) + ': ' + e; this.writeJson({ notify: '_Error', args: [ errmsg ] }); if (lenientJsonParse) { log.warn('JSON parse failed (lenient mode, ignoring):', e); } else { log.warn('JSON parse failed (dropping connection):', e); this.finish(errmsg); } } this.incoming.set(this.incoming.subarray(i + 1)); this.incomingOffset -= i + 1; return msg; } } }; JsonConnHandler.prototype.dispatchJsonMessage = function dispatchJsonMessage(msg) { var cmd; var dvalues = []; var i, n; log.info('PROXY <-- CLIENT:', JSON.stringify(msg)); // Parse message type, determine initial marker for binary message. if (msg.request) { cmd = this.determineCommandNumber(msg.request, msg.command); dvalues.push(new Uint8Array([ 0x01 ])); dvalues.push(this.encodeJsonDvalue(cmd)); } else if (msg.reply) { dvalues.push(new Uint8Array([ 0x02 ])); } else if (msg.notify) { cmd = this.determineCommandNumber(msg.notify, msg.command); dvalues.push(new Uint8Array([ 0x04 ])); dvalues.push(this.encodeJsonDvalue(cmd)); } else if (msg.error) { dvalues.push(new Uint8Array([ 0x03 ])); } else { throw new Error('invalid input JSON message: ' + JSON.stringify(msg)); } // Encode arguments into dvalues. for (i = 0, n = (msg.args ? msg.args.length : 0); i < n; i++) { dvalues.push(this.encodeJsonDvalue(msg.args[i])); } // Add an EOM, and write out the dvalues to the debug target. dvalues.push(new Uint8Array([ 0x00 ])); for (i = 0, n = dvalues.length; i < n; i++) { this.targetHandler.writeBinary(dvalues[i]); } }; JsonConnHandler.prototype.determineCommandNumber = function determineCommandNumber(name, val) { var res; if (typeof name === 'string') { res = this.commandNumberLookup[name]; if (!res) { log.info('Unknown command name: ' + name + ', command number: ' + val); } } else if (typeof name === 'number') { res = name; } else if (name !== true) { throw new Error('invalid command name (must be string, number, or "true"): ' + name); } if (typeof res === 'undefined' && typeof val === 'undefined') { throw new Error('cannot determine command number from name: ' + name); } if (typeof val !== 'number' && typeof val !== 'undefined') { throw new Error('invalid command number: ' + val); } res = res || val; return res; }; JsonConnHandler.prototype.writeDebugStringToBuffer = function writeDebugStringToBuffer(v, buf, off) { var i, n; for (i = 0, n = v.length; i < n; i++) { buf[off + i] = v.charCodeAt(i) & 0xff; // truncate higher bits } }; JsonConnHandler.prototype.encodeJsonDvalue = function encodeJsonDvalue(v) { var buf, dec, len, dv; if (isObject(v)) { if (v.type === 'eom') { return new Uint8Array([ 0x00 ]); } else if (v.type === 'req') { return new Uint8Array([ 0x01 ]); } else if (v.type === 'rep') { return new Uint8Array([ 0x02 ]); } else if (v.type === 'err') { return new Uint8Array([ 0x03 ]); } else if (v.type === 'nfy') { return new Uint8Array([ 0x04 ]); } else if (v.type === 'unused') { return new Uint8Array([ 0x15 ]); } else if (v.type === 'undefined') { return new Uint8Array([ 0x16 ]); } else if (v.type === 'number') { dec = Duktape.dec('hex', v.data); len = dec.length; if (len !== 8) { throw new TypeError('value cannot be converted to dvalue: ' + JSON.stringify(v)); } buf = new Uint8Array(1 + len); buf[0] = 0x1a; buf.set(new Uint8Array(dec), 1); return buf; } else if (v.type === 'buffer') { dec = Duktape.dec('hex', v.data); len = dec.length; if (len <= 0xffff) { buf = new Uint8Array(3 + len); buf[0] = 0x14; buf[1] = (len >> 8) & 0xff; buf[2] = (len >> 0) & 0xff; buf.set(new Uint8Arrau(dec), 3); return buf; } else { buf = new Uint8Array(5 + len); buf[0] = 0x13; buf[1] = (len >> 24) & 0xff; buf[2] = (len >> 16) & 0xff; buf[3] = (len >> 8) & 0xff; buf[4] = (len >> 0) & 0xff; buf.set(new Uint8Array(dec), 5); return buf; } } else if (v.type === 'object') { dec = Duktape.dec('hex', v.pointer); len = dec.length; buf = new Uint8Array(3 + len); buf[0] = 0x1b; buf[1] = v.class; buf[2] = len; buf.set(new Uint8Array(dec), 3); return buf; } else if (v.type === 'pointer') { dec = Duktape.dec('hex', v.pointer); len = dec.length; buf = new Uint8Array(2 + len); buf[0] = 0x1c; buf[1] = len; buf.set(new Uint8Array(dec), 2); return buf; } else if (v.type === 'lightfunc') { dec = Duktape.dec('hex', v.pointer); len = dec.length; buf = new Uint8Array(4 + len); buf[0] = 0x1d; buf[1] = (v.flags >> 8) & 0xff; buf[2] = v.flags & 0xff; buf[3] = len; buf.set(new Uint8Array(dec), 4); return buf; } else if (v.type === 'heapptr') { dec = Duktape.dec('hex', v.pointer); len = dec.length; buf = new Uint8Array(2 + len); buf[0] = 0x1e; buf[1] = len; buf.set(new Uint8Array(dec), 2); return buf; } } else if (v === null) { return new Uint8Array([ 0x17 ]); } else if (typeof v === 'boolean') { return new Uint8Array([ v ? 0x18 : 0x19 ]); } else if (typeof v === 'number') { if (Math.floor(v) === v && /* whole */ (v !== 0 || 1 / v > 0) && /* not negative zero */ v >= -0x80000000 && v <= 0x7fffffff) { // Represented signed 32-bit integers as plain integers. // Debugger code expects this for all fields that are not // duk_tval representations (e.g. command numbers and such). if (v >= 0x00 && v <= 0x3f) { return new Uint8Array([ 0x80 + v ]); } else if (v >= 0x0000 && v <= 0x3fff) { return new Uint8Array([ 0xc0 + (v >> 8), v & 0xff ]); } else if (v >= -0x80000000 && v <= 0x7fffffff) { return new Uint8Array([ 0x10, (v >> 24) & 0xff, (v >> 16) & 0xff, (v >> 8) & 0xff, (v >> 0) & 0xff ]); } else { throw new Error('internal error when encoding integer to dvalue: ' + v); } } else { // Represent non-integers as IEEE double dvalues. buf = new Uint8Array(1 + 8); buf[0] = 0x1a; new DataView(buf).setFloat64(1, v, false); return buf; } } else if (typeof v === 'string') { if (v.length < 0 || v.length > 0xffffffff) { // Not possible in practice. throw new TypeError('cannot convert to dvalue, invalid string length: ' + v.length); } if (v.length <= 0x1f) { buf = new Uint8Array(1 + v.length); buf[0] = 0x60 + v.length; this.writeDebugStringToBuffer(v, buf, 1); return buf; } else if (v.length <= 0xffff) { buf = new Uint8Array(3 + v.length); buf[0] = 0x12; buf[1] = (v.length >> 8) & 0xff; buf[2] = (v.length >> 0) & 0xff; this.writeDebugStringToBuffer(v, buf, 3); return buf; } else { buf = new Uint8Array(5 + v.length); buf[0] = 0x11; buf[1] = (v.length >> 24) & 0xff; buf[2] = (v.length >> 16) & 0xff; buf[3] = (v.length >> 8) & 0xff; buf[4] = (v.length >> 0) & 0xff; this.writeDebugStringToBuffer(v, buf, 5); return buf; } } throw new TypeError('value cannot be converted to dvalue: ' + JSON.stringify(v)); }; /* * Target binary connection handler */ function TargetConnHandler(server) { this.name = 'TargetConnHandler'; this.server = server; this.handle = uv.new_tcp(); this.jsonHandler = null; this.incoming = new Uint8Array(4096); this.incomingOffset = 0; this.dvalues = []; } TargetConnHandler.prototype.finish = function finish(msg) { if (!this.handle) { log.info('TargetConnHandler already disconnected, ignore finish()'); return; } log.info('TargetConnHandler finished:', msg); this.jsonHandler.writeJson({ notify: '_TargetDisconnected' }); // XXX: write a notify to target? uv.shutdown(this.handle); uv.read_stop(this.handle); uv.close(this.handle); this.handle = null; this.jsonHandler.finish(msg); // disconnect JSON client too (if not already disconnected) }; TargetConnHandler.prototype.onConnect = function onConnect(err) { var errmsg; if (err) { errmsg = 'Failed to connect to target: ' + err; log.warn(errmsg); this.jsonHandler.writeJson({ notify: '_Error', args: [ String(err) ] }); this.finish(errmsg); return; } // Once we're connected to the target, start read both binary and JSON // input. We don't want to read JSON input before this so that we can // always translate incoming messages to dvalues and write them out // without queueing. Any pending JSON messages will be queued by the // OS instead. log.info('Connected to debug target at', targetHost + ':' + targetPort); uv.read_start(this.jsonHandler.handle, this.jsonHandler.onRead.bind(this.jsonHandler)); uv.read_start(this.handle, this.onRead.bind(this)); }; TargetConnHandler.prototype.writeBinary = function writeBinary(buf) { var plain = plainBufferCopy(buf); log.info('PROXY --> TARGET:', Duktape.enc('jx', plain)); if (this.handle) { uv.write(this.handle, plain); } }; TargetConnHandler.prototype.onRead = function onRead(err, data) { var res; var errmsg; var tmpBuf; var newIncoming; log.trace('Received data from target socket, err:', err, 'data length:', data ? data.length : 'null'); if (err) { errmsg = 'Error reading data from debug target: ' + err; this.finish(errmsg); return; } if (data) { // Feed the data one byte at a time when torture testing. if (TORTURE && data.length > 1) { for (var i = 0; i < data.length; i++) { tmpBuf = Duktape.Buffer(1); tmpBuf[0] = data[i]; this.onRead(null, tmpBuf); } return; } // Receive data into 'incoming', resizing as necessary. while (data.length > this.incoming.length - this.incomingOffset) { newIncoming = new Uint8Array(this.incoming.length * 1.3 + 16); newIncoming.set(this.incoming); this.incoming = newIncoming; log.debug('Resize incoming binary buffer to ' + this.incoming.length); } this.incoming.set(new Uint8Array(data), this.incomingOffset); this.incomingOffset += data.length; // Trial parse handshake unless done. if (!this.handshake) { this.trialParseHandshake(); } // Trial parse dvalue(s) and debug messages. if (this.handshake) { for (;;) { res = this.trialParseDvalue(); if (!res) { break; } log.trace('Got dvalue:', Duktape.enc('jx', res.dvalue)); this.dvalues.push(res.dvalue); if (isObject(res.dvalue) && res.dvalue.type === 'eom') { try { this.jsonHandler.handleDebugMessage(this.dvalues); this.dvalues = []; } catch (e) { errmsg = 'JSON message handling failed: ' + e; this.jsonHandler.writeJson({ notify: '_Error', args: [ errmsg ] }); if (lenientJsonParse) { log.warn('JSON message handling failed (lenient mode, ignoring):', e); } else { log.warn('JSON message handling failed (dropping connection):', e); this.finish(errmsg); } } } } } } else { log.info('Target disconnected'); this.finish('Target disconnected'); } }; TargetConnHandler.prototype.trialParseHandshake = function trialParseHandshake() { var buf = this.incoming; var avail = this.incomingOffset; var i; var msg; var m; var protocolVersion; for (i = 0; i < avail; i++) { if (buf[i] == 0x0a) { msg = String(plainBufferCopy(buf.subarray(0, i))); this.incoming.set(this.incoming.subarray(i + 1)); this.incomingOffset -= i + 1; // Generic handshake format: only relies on initial version field. m = /^(\d+) (.*)$/.exec(msg) || {}; protocolVersion = +m[1]; this.handshake = { line: msg, protocolVersion: protocolVersion, text: m[2] }; // More detailed v1 handshake line. if (protocolVersion === 1) { m = /^(\d+) (\d+) (.*?) (.*?) (.*)$/.exec(msg) || {}; this.handshake.dukVersion = m[1]; this.handshake.dukGitDescribe = m[2]; this.handshake.targetString = m[3]; } this.jsonHandler.writeJson({ notify: '_TargetConnected', args: [ msg ] }); log.info('Target handshake: ' + JSON.stringify(this.handshake)); return; } } }; TargetConnHandler.prototype.bufferToDebugString = function bufferToDebugString(buf) { return String.fromCharCode.apply(null, buf); }; TargetConnHandler.prototype.trialParseDvalue = function trialParseDvalue() { var _this = this; var buf = this.incoming; var avail = this.incomingOffset; var v; var gotValue = false; // explicit flag for e.g. v === undefined var dv = new DataView(buf); var tmp; var x; var len; function consume(n) { log.info('PROXY <-- TARGET:', Duktape.enc('jx', _this.incoming.subarray(0, n))); _this.incoming.set(_this.incoming.subarray(n)); _this.incomingOffset -= n; } x = buf[0]; if (avail <= 0) { ; } else if (x >= 0xc0) { // 0xc0...0xff: integers 0-16383 if (avail >= 2) { v = ((x - 0xc0) << 8) + buf[1]; consume(2); } } else if (x >= 0x80) { // 0x80...0xbf: integers 0-63 v = x - 0x80; consume(1); } else if (x >= 0x60) { // 0x60...0x7f: strings with length 0-31 len = x - 0x60; if (avail >= 1 + len) { v = new Uint8Array(len); v.set(buf.subarray(1, 1 + len)); v = this.bufferToDebugString(v); consume(1 + len); } } else { switch (x) { case 0x00: consume(1); v = { type: 'eom' }; break; case 0x01: consume(1); v = { type: 'req' }; break; case 0x02: consume(1); v = { type: 'rep' }; break; case 0x03: consume(1); v = { type: 'err' }; break; case 0x04: consume(1); v = { type: 'nfy' }; break; case 0x10: // 4-byte signed integer if (avail >= 5) { v = dv.getInt32(1, false); consume(5); } break; case 0x11: // 4-byte string if (avail >= 5) { len = dv.getUint32(1, false); if (avail >= 5 + len) { v = new Uint8Array(len); v.set(buf.subarray(5, 5 + len)); v = this.bufferToDebugString(v); consume(5 + len); } } break; case 0x12: // 2-byte string if (avail >= 3) { len = dv.getUint16(1, false); if (avail >= 3 + len) { v = new Uint8Array(len); v.set(buf.subarray(3, 3 + len)); v = this.bufferToDebugString(v); consume(3 + len); } } break; case 0x13: // 4-byte buffer if (avail >= 5) { len = dv.getUint32(1, false); if (avail >= 5 + len) { v = new Uint8Array(len); v.set(buf.subarray(5, 5 + len)); v = { type: 'buffer', data: Duktape.enc('hex', Duktape.Buffer(v)) }; consume(5 + len); } } break; case 0x14: // 2-byte buffer if (avail >= 3) { len = dv.getUint16(1, false); if (avail >= 3 + len) { v = new Uint8Array(len); v.set(buf.subarray(3, 3 + len)); v = { type: 'buffer', data: Duktape.enc('hex', Duktape.Buffer(v)) }; consume(3 + len); } } break; case 0x15: // unused/none v = { type: 'unused' }; consume(1); break; case 0x16: // undefined v = { type: 'undefined' }; gotValue = true; // indicate 'v' is actually set consume(1); break; case 0x17: // null v = null; gotValue = true; // indicate 'v' is actually set consume(1); break; case 0x18: // true v = true; consume(1); break; case 0x19: // false v = false; consume(1); break; case 0x1a: // number (IEEE double), big endian if (avail >= 9) { tmp = new Uint8Array(8); tmp.set(buf.subarray(1, 9)); v = { type: 'number', data: Duktape.enc('hex', Duktape.Buffer(tmp)) }; if (readableNumberValue) { // The value key should not be used programmatically, // it is just there to make the dumps more readable. v.value = new DataView(tmp.buffer).getFloat64(0, false); } consume(9); } break; case 0x1b: // object if (avail >= 3) { len = buf[2]; if (avail >= 3 + len) { v = new Uint8Array(len); v.set(buf.subarray(3, 3 + len)); v = { type: 'object', 'class': buf[1], pointer: Duktape.enc('hex', Duktape.Buffer(v)) }; consume(3 + len); } } break; case 0x1c: // pointer if (avail >= 2) { len = buf[1]; if (avail >= 2 + len) { v = new Uint8Array(len); v.set(buf.subarray(2, 2 + len)); v = { type: 'pointer', pointer: Duktape.enc('hex', Duktape.Buffer(v)) }; consume(2 + len); } } break; case 0x1d: // lightfunc if (avail >= 4) { len = buf[3]; if (avail >= 4 + len) { v = new Uint8Array(len); v.set(buf.subarray(4, 4 + len)); v = { type: 'lightfunc', flags: dv.getUint16(1, false), pointer: Duktape.enc('hex', Duktape.Buffer(v)) }; consume(4 + len); } } break; case 0x1e: // heapptr if (avail >= 2) { len = buf[1]; if (avail >= 2 + len) { v = new Uint8Array(len); v.set(buf.subarray(2, 2 + len)); v = { type: 'heapptr', pointer: Duktape.enc('hex', Duktape.Buffer(v)) }; consume(2 + len); } } break; default: throw new Error('failed parse initial byte: ' + buf[0]); } } if (typeof v !== 'undefined' || gotValue) { return { dvalue: v }; } }; /* * Main */ function main() { var argv = typeof uv.argv === 'function' ? uv.argv() : []; var i; for (i = 2; i < argv.length; i++) { // skip dukluv and script name if (argv[i] == '--help') { print('Usage: dukluv ' + argv[1] + ' [option]+'); print(''); print(' --server-host HOST JSON proxy server listen address'); print(' --server-port PORT JSON proxy server listen port'); print(' --target-host HOST Debug target address'); print(' --target-port PORT Debug target port'); print(' --metadata FILE Proxy metadata file (usually named duk_debug_meta.json)'); print(' --log-level LEVEL Set log level, default is 2; 0=trace, 1=debug, 2=info, 3=warn, etc'); print(' --single Run a single proxy connection and exit (default: persist for multiple connections)'); print(' --readable-numbers Add a non-programmatic "value" key for IEEE doubles help readability'); print(' --lenient Ignore (with warning) invalid JSON without dropping connection'); print(' --jx-parse Parse JSON proxy input with JX, useful when testing manually'); print(''); return; // don't register any sockets/timers etc to exit } else if (argv[i] == '--single') { singleConnection = true; continue; } else if (argv[i] == '--readable-numbers') { readableNumberValue = true; continue; } else if (argv[i] == '--lenient') { lenientJsonParse = true; continue; } else if (argv[i] == '--jx-parse') { jxParse = true; continue; } if (i >= argv.length - 1) { throw new Error('missing option value for ' + argv[i]); } if (argv[i] == '--server-host') { serverHost = argv[i + 1]; i++; } else if (argv[i] == '--server-port') { serverPort = Math.floor(+argv[i + 1]); i++; } else if (argv[i] == '--target-host') { targetHost = argv[i + 1]; i++; } else if (argv[i] == '--target-port') { targetPort = Math.floor(+argv[i + 1]); i++; } else if (argv[i] == '--metadata') { metadataFile = argv[i + 1]; i++; } else if (argv[i] == '--log-level') { log.l = Math.floor(+argv[i + 1]); i++; } else { throw new Error('invalid option ' + argv[i]); } } function runServer() { var serverSocket = new JsonProxyServer(serverHost, serverPort); var connMode = singleConnection ? 'single connection mode' : 'persistent connection mode'; log.info('Listening for incoming JSON debug connection on ' + serverHost + ':' + serverPort + ', target is ' + targetHost + ':' + targetPort + ', ' + connMode); } if (metadataFile) { log.info('Read proxy metadata from', metadataFile); readFully(metadataFile, function (data, err) { if (err) { log.error('Failed to load metadata:', err); throw err; } try { metadata = JSON.parse(String(data)); } catch (e) { log.error('Failed to parse JSON metadata from ' + metadataFile + ': ' + e); throw e; } runServer(); }); } else { runServer(); } } main();