var loadWiregasm = (() => { var _scriptDir = typeof document !== 'undefined' && document.currentScript ? document.currentScript.src : undefined; if (typeof __filename !== 'undefined') _scriptDir = _scriptDir || __filename; return ( function(loadWiregasm = {}) { // include: shell.js // The Module object: Our interface to the outside world. We import // and export values on it. There are various ways Module can be used: // 1. Not defined. We create it here // 2. A function parameter, function(Module) { ..generated code.. } // 3. pre-run appended it, var Module = {}; ..generated code.. // 4. External script tag defines var Module. // We need to check if Module already exists (e.g. case 3 above). // Substitution will be replaced with actual code on later stage of the build, // this way Closure Compiler will not mangle it (e.g. case 4. above). // Note that if you want to run closure, and also to use Module // after the generated code, you will need to define var Module = {}; // before the code. Then that object will be used in the code, and you // can continue to use Module afterwards as well. var Module = typeof loadWiregasm != 'undefined' ? loadWiregasm : {}; // Set up the promise that indicates the Module is initialized var readyPromiseResolve, readyPromiseReject; Module['ready'] = new Promise(function(resolve, reject) { readyPromiseResolve = resolve; readyPromiseReject = reject; }); ["_malloc","_fflush","___getTypeName","__embind_initialize_bindings","onRuntimeInitialized"].forEach((prop) => { if (!Object.getOwnPropertyDescriptor(Module['ready'], prop)) { Object.defineProperty(Module['ready'], prop, { get: () => abort('You are getting ' + prop + ' on the Promise object, instead of the instance. Use .then() to get called back with the instance, see the MODULARIZE docs in src/settings.js'), set: () => abort('You are setting ' + prop + ' on the Promise object, instead of the instance. Use .then() to get called back with the instance, see the MODULARIZE docs in src/settings.js'), }); } }); // --pre-jses are emitted after the Module integration code, so that they can // refer to Module (if they choose; they can also define Module) if (!Module.expectedDataFileDownloads) { Module.expectedDataFileDownloads = 0; } Module.expectedDataFileDownloads++; (function() { // When running as a pthread, FS operations are proxied to the main thread, so we don't need to // fetch the .data bundle on the worker if (Module['ENVIRONMENT_IS_PTHREAD']) return; var loadPackage = function(metadata) { var PACKAGE_PATH = ''; if (typeof window === 'object') { PACKAGE_PATH = window['encodeURIComponent'](window.location.pathname.toString().substring(0, window.location.pathname.toString().lastIndexOf('/')) + '/'); } else if (typeof process === 'undefined' && typeof location !== 'undefined') { // web worker PACKAGE_PATH = encodeURIComponent(location.pathname.toString().substring(0, location.pathname.toString().lastIndexOf('/')) + '/'); } var PACKAGE_NAME = 'wiregasm.data'; var REMOTE_PACKAGE_BASE = 'wiregasm.data'; if (typeof Module['locateFilePackage'] === 'function' && !Module['locateFile']) { Module['locateFile'] = Module['locateFilePackage']; err('warning: you defined Module.locateFilePackage, that has been renamed to Module.locateFile (using your locateFilePackage for now)'); } var REMOTE_PACKAGE_NAME = Module['locateFile'] ? Module['locateFile'](REMOTE_PACKAGE_BASE, '') : REMOTE_PACKAGE_BASE; var REMOTE_PACKAGE_SIZE = metadata['remote_package_size']; function fetchRemotePackage(packageName, packageSize, callback, errback) { if (typeof process === 'object' && typeof process.versions === 'object' && typeof process.versions.node === 'string') { require('fs').readFile(packageName, function(err, contents) { if (err) { errback(err); } else { callback(contents.buffer); } }); return; } var xhr = new XMLHttpRequest(); xhr.open('GET', packageName, true); xhr.responseType = 'arraybuffer'; xhr.onprogress = function(event) { var url = packageName; var size = packageSize; if (event.total) size = event.total; if (event.loaded) { if (!xhr.addedTotal) { xhr.addedTotal = true; if (!Module.dataFileDownloads) Module.dataFileDownloads = {}; Module.dataFileDownloads[url] = { loaded: event.loaded, total: size }; } else { Module.dataFileDownloads[url].loaded = event.loaded; } var total = 0; var loaded = 0; var num = 0; for (var download in Module.dataFileDownloads) { var data = Module.dataFileDownloads[download]; total += data.total; loaded += data.loaded; num++; } total = Math.ceil(total * Module.expectedDataFileDownloads/num); if (Module['setStatus']) Module['setStatus']('Downloading data... 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pre-js content up to here must remain later on, we need to run // it. if (Module['ENVIRONMENT_IS_PTHREAD']) Module['preRun'] = []; var necessaryPreJSTasks = Module['preRun'].slice(); // defaults if (!Module["print"]) Module.print = function (text) { console.log(text); }; if (!Module["printErr"]) Module.printErr = function (text) { console.warn(text); }; if (!Module["handleStatus"]) Module.handleStatus = function (type, status) { console.log(type, status); }; // initialize FS with directories Module["onRuntimeInitialized"] = () => { Module.FS.mkdir("/plugins"); Module.FS.mkdir("/uploads"); }; if (!Module['preRun']) throw 'Module.preRun should exist because file support used it; did a pre-js delete it?'; necessaryPreJSTasks.forEach(function(task) { if (Module['preRun'].indexOf(task) < 0) throw 'All preRun tasks that exist before user pre-js code should remain after; did you replace Module or modify Module.preRun?'; }); // Sometimes an existing Module object exists with properties // meant to overwrite the default module functionality. Here // we collect those properties and reapply _after_ we configure // the current environment's defaults to avoid having to be so // defensive during initialization. var moduleOverrides = Object.assign({}, Module); var arguments_ = []; var thisProgram = './this.program'; var quit_ = (status, toThrow) => { throw toThrow; }; // Determine the runtime environment we are in. You can customize this by // setting the ENVIRONMENT setting at compile time (see settings.js). // Attempt to auto-detect the environment var ENVIRONMENT_IS_WEB = typeof window == 'object'; var ENVIRONMENT_IS_WORKER = typeof importScripts == 'function'; // N.b. Electron.js environment is simultaneously a NODE-environment, but // also a web environment. var ENVIRONMENT_IS_NODE = typeof process == 'object' && typeof process.versions == 'object' && typeof process.versions.node == 'string'; var ENVIRONMENT_IS_SHELL = !ENVIRONMENT_IS_WEB && !ENVIRONMENT_IS_NODE && !ENVIRONMENT_IS_WORKER; if (Module['ENVIRONMENT']) { throw new Error('Module.ENVIRONMENT has been deprecated. To force the environment, use the ENVIRONMENT compile-time option (for example, -sENVIRONMENT=web or -sENVIRONMENT=node)'); } // `/` should be present at the end if `scriptDirectory` is not empty var scriptDirectory = ''; function locateFile(path) { if (Module['locateFile']) { return Module['locateFile'](path, scriptDirectory); } return scriptDirectory + path; } // Hooks that are implemented differently in different runtime environments. var read_, readAsync, readBinary, setWindowTitle; // Normally we don't log exceptions but instead let them bubble out the top // level where the embedding environment (e.g. the browser) can handle // them. // However under v8 and node we sometimes exit the process direcly in which case // its up to use us to log the exception before exiting. // If we fix https://github.com/emscripten-core/emscripten/issues/15080 // this may no longer be needed under node. function logExceptionOnExit(e) { if (e instanceof ExitStatus) return; let toLog = e; if (e && typeof e == 'object' && e.stack) { toLog = [e, e.stack]; } err('exiting due to exception: ' + toLog); } if (ENVIRONMENT_IS_NODE) { if (typeof process == 'undefined' || !process.release || process.release.name !== 'node') throw new Error('not compiled for this environment (did you build to HTML and try to run it not on the web, or set ENVIRONMENT to something - like node - and run it someplace else - like on the web?)'); // `require()` is no-op in an ESM module, use `createRequire()` to construct // the require()` function. This is only necessary for multi-environment // builds, `-sENVIRONMENT=node` emits a static import declaration instead. // TODO: Swap all `require()`'s with `import()`'s? // These modules will usually be used on Node.js. Load them eagerly to avoid // the complexity of lazy-loading. var fs = require('fs'); var nodePath = require('path'); if (ENVIRONMENT_IS_WORKER) { scriptDirectory = nodePath.dirname(scriptDirectory) + '/'; } else { scriptDirectory = __dirname + '/'; } // include: node_shell_read.js read_ = (filename, binary) => { // We need to re-wrap `file://` strings to URLs. Normalizing isn't // necessary in that case, the path should already be absolute. filename = isFileURI(filename) ? new URL(filename) : nodePath.normalize(filename); return fs.readFileSync(filename, binary ? undefined : 'utf8'); }; readBinary = (filename) => { var ret = read_(filename, true); if (!ret.buffer) { ret = new Uint8Array(ret); } assert(ret.buffer); return ret; }; readAsync = (filename, onload, onerror) => { // See the comment in the `read_` function. filename = isFileURI(filename) ? new URL(filename) : nodePath.normalize(filename); fs.readFile(filename, function(err, data) { if (err) onerror(err); else onload(data.buffer); }); }; // end include: node_shell_read.js if (process['argv'].length > 1) { thisProgram = process['argv'][1].replace(/\\/g, '/'); } arguments_ = process['argv'].slice(2); // MODULARIZE will export the module in the proper place outside, we don't need to export here process['on']('uncaughtException', function(ex) { // suppress ExitStatus exceptions from showing an error if (!(ex instanceof ExitStatus)) { throw ex; } }); // Without this older versions of node (< v15) will log unhandled rejections // but return 0, which is not normally the desired behaviour. 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printErr : print); } } else // Note that this includes Node.js workers when relevant (pthreads is enabled). // Node.js workers are detected as a combination of ENVIRONMENT_IS_WORKER and // ENVIRONMENT_IS_NODE. if (ENVIRONMENT_IS_WEB || ENVIRONMENT_IS_WORKER) { if (ENVIRONMENT_IS_WORKER) { // Check worker, not web, since window could be polyfilled scriptDirectory = self.location.href; } else if (typeof document != 'undefined' && document.currentScript) { // web scriptDirectory = document.currentScript.src; } // When MODULARIZE, this JS may be executed later, after document.currentScript // is gone, so we saved it, and we use it here instead of any other info. if (_scriptDir) { scriptDirectory = _scriptDir; } // blob urls look like blob:http://site.com/etc/etc and we cannot infer anything from them. // otherwise, slice off the final part of the url to find the script directory. // if scriptDirectory does not contain a slash, lastIndexOf will return -1, // and scriptDirectory will correctly be replaced with an empty string. // If scriptDirectory contains a query (starting with ?) or a fragment (starting with #), // they are removed because they could contain a slash. if (scriptDirectory.indexOf('blob:') !== 0) { scriptDirectory = scriptDirectory.substr(0, scriptDirectory.replace(/[?#].*/, "").lastIndexOf('/')+1); } else { scriptDirectory = ''; } if (!(typeof window == 'object' || typeof importScripts == 'function')) throw new Error('not compiled for this environment (did you build to HTML and try to run it not on the web, or set ENVIRONMENT to something - like node - and run it someplace else - like on the web?)'); // Differentiate the Web Worker from the Node Worker case, as reading must // be done differently. { // include: web_or_worker_shell_read.js read_ = (url) => { var xhr = new XMLHttpRequest(); xhr.open('GET', url, false); xhr.send(null); return xhr.responseText; } if (ENVIRONMENT_IS_WORKER) { readBinary = (url) => { var xhr = new XMLHttpRequest(); xhr.open('GET', url, false); xhr.responseType = 'arraybuffer'; xhr.send(null); return new Uint8Array(/** @type{!ArrayBuffer} */(xhr.response)); }; } readAsync = (url, onload, onerror) => { var xhr = new XMLHttpRequest(); xhr.open('GET', url, true); xhr.responseType = 'arraybuffer'; xhr.onload = () => { if (xhr.status == 200 || (xhr.status == 0 && xhr.response)) { // file URLs can return 0 onload(xhr.response); return; } onerror(); }; xhr.onerror = onerror; xhr.send(null); } // end include: web_or_worker_shell_read.js } setWindowTitle = (title) => document.title = title; } else { throw new Error('environment detection error'); } var out = Module['print'] || console.log.bind(console); var err = Module['printErr'] || console.warn.bind(console); // Merge back in the overrides Object.assign(Module, moduleOverrides); // Free the object hierarchy contained in the overrides, this lets the GC // reclaim data used e.g. in memoryInitializerRequest, which is a large typed array. moduleOverrides = null; checkIncomingModuleAPI(); // Emit code to handle expected values on the Module object. This applies Module.x // to the proper local x. This has two benefits: first, we only emit it if it is // expected to arrive, and second, by using a local everywhere else that can be // minified. if (Module['arguments']) arguments_ = Module['arguments'];legacyModuleProp('arguments', 'arguments_'); if (Module['thisProgram']) thisProgram = Module['thisProgram'];legacyModuleProp('thisProgram', 'thisProgram'); if (Module['quit']) quit_ = Module['quit'];legacyModuleProp('quit', 'quit_'); // perform assertions in shell.js after we set up out() and err(), as otherwise if an assertion fails it cannot print the message // Assertions on removed incoming Module JS APIs. assert(typeof Module['memoryInitializerPrefixURL'] == 'undefined', 'Module.memoryInitializerPrefixURL option was removed, use Module.locateFile instead'); assert(typeof Module['pthreadMainPrefixURL'] == 'undefined', 'Module.pthreadMainPrefixURL option was removed, use Module.locateFile instead'); assert(typeof Module['cdInitializerPrefixURL'] == 'undefined', 'Module.cdInitializerPrefixURL option was removed, use Module.locateFile instead'); assert(typeof Module['filePackagePrefixURL'] == 'undefined', 'Module.filePackagePrefixURL option was removed, use Module.locateFile instead'); assert(typeof Module['read'] == 'undefined', 'Module.read option was removed (modify read_ in JS)'); assert(typeof Module['readAsync'] == 'undefined', 'Module.readAsync option was removed (modify readAsync in JS)'); assert(typeof Module['readBinary'] == 'undefined', 'Module.readBinary option was removed (modify readBinary in JS)'); assert(typeof Module['setWindowTitle'] == 'undefined', 'Module.setWindowTitle option was removed (modify setWindowTitle in JS)'); assert(typeof Module['TOTAL_MEMORY'] == 'undefined', 'Module.TOTAL_MEMORY has been renamed Module.INITIAL_MEMORY'); legacyModuleProp('read', 'read_'); legacyModuleProp('readAsync', 'readAsync'); legacyModuleProp('readBinary', 'readBinary'); legacyModuleProp('setWindowTitle', 'setWindowTitle'); var IDBFS = 'IDBFS is no longer included by default; build with -lidbfs.js'; var PROXYFS = 'PROXYFS is no longer included by default; build with -lproxyfs.js'; var WORKERFS = 'WORKERFS is no longer included by default; build with -lworkerfs.js'; var NODEFS = 'NODEFS is no longer included by default; build with -lnodefs.js'; assert(!ENVIRONMENT_IS_SHELL, "shell environment detected but not enabled at build time. Add 'shell' to `-sENVIRONMENT` to enable."); // end include: shell.js // include: preamble.js // === Preamble library stuff === // Documentation for the public APIs defined in this file must be updated in: // site/source/docs/api_reference/preamble.js.rst // A prebuilt local version of the documentation is available at: // site/build/text/docs/api_reference/preamble.js.txt // You can also build docs locally as HTML or other formats in site/ // An online HTML version (which may be of a different version of Emscripten) // is up at http://kripken.github.io/emscripten-site/docs/api_reference/preamble.js.html var wasmBinary; if (Module['wasmBinary']) wasmBinary = Module['wasmBinary'];legacyModuleProp('wasmBinary', 'wasmBinary'); var noExitRuntime = Module['noExitRuntime'] || true;legacyModuleProp('noExitRuntime', 'noExitRuntime'); if (typeof WebAssembly != 'object') { abort('no native wasm support detected'); } // Wasm globals var wasmMemory; //======================================== // Runtime essentials //======================================== // whether we are quitting the application. no code should run after this. // set in exit() and abort() var ABORT = false; // set by exit() and abort(). Passed to 'onExit' handler. // NOTE: This is also used as the process return code code in shell environments // but only when noExitRuntime is false. var EXITSTATUS; /** @type {function(*, string=)} */ function assert(condition, text) { if (!condition) { abort('Assertion failed' + (text ? ': ' + text : '')); } } // We used to include malloc/free by default in the past. Show a helpful error in // builds with assertions. // include: runtime_strings.js // runtime_strings.js: String related runtime functions that are part of both // MINIMAL_RUNTIME and regular runtime. var UTF8Decoder = typeof TextDecoder != 'undefined' ? new TextDecoder('utf8') : undefined; /** * Given a pointer 'idx' to a null-terminated UTF8-encoded string in the given * array that contains uint8 values, returns a copy of that string as a * Javascript String object. * heapOrArray is either a regular array, or a JavaScript typed array view. * @param {number} idx * @param {number=} maxBytesToRead * @return {string} */ function UTF8ArrayToString(heapOrArray, idx, maxBytesToRead) { var endIdx = idx + maxBytesToRead; var endPtr = idx; // TextDecoder needs to know the byte length in advance, it doesn't stop on // null terminator by itself. Also, use the length info to avoid running tiny // strings through TextDecoder, since .subarray() allocates garbage. // (As a tiny code save trick, compare endPtr against endIdx using a negation, // so that undefined means Infinity) while (heapOrArray[endPtr] && !(endPtr >= endIdx)) ++endPtr; if (endPtr - idx > 16 && heapOrArray.buffer && UTF8Decoder) { return UTF8Decoder.decode(heapOrArray.subarray(idx, endPtr)); } var str = ''; // If building with TextDecoder, we have already computed the string length // above, so test loop end condition against that while (idx < endPtr) { // For UTF8 byte structure, see: // http://en.wikipedia.org/wiki/UTF-8#Description // https://www.ietf.org/rfc/rfc2279.txt // https://tools.ietf.org/html/rfc3629 var u0 = heapOrArray[idx++]; if (!(u0 & 0x80)) { str += String.fromCharCode(u0); continue; } var u1 = heapOrArray[idx++] & 63; if ((u0 & 0xE0) == 0xC0) { str += String.fromCharCode(((u0 & 31) << 6) | u1); continue; } var u2 = heapOrArray[idx++] & 63; if ((u0 & 0xF0) == 0xE0) { u0 = ((u0 & 15) << 12) | (u1 << 6) | u2; } else { if ((u0 & 0xF8) != 0xF0) warnOnce('Invalid UTF-8 leading byte ' + ptrToString(u0) + ' encountered when deserializing a UTF-8 string in wasm memory to a JS string!'); u0 = ((u0 & 7) << 18) | (u1 << 12) | (u2 << 6) | (heapOrArray[idx++] & 63); } if (u0 < 0x10000) { str += String.fromCharCode(u0); } else { var ch = u0 - 0x10000; str += String.fromCharCode(0xD800 | (ch >> 10), 0xDC00 | (ch & 0x3FF)); } } return str; } /** * Given a pointer 'ptr' to a null-terminated UTF8-encoded string in the * emscripten HEAP, returns a copy of that string as a Javascript String object. * * @param {number} ptr * @param {number=} maxBytesToRead - An optional length that specifies the * maximum number of bytes to read. You can omit this parameter to scan the * string until the first \0 byte. If maxBytesToRead is passed, and the string * at [ptr, ptr+maxBytesToReadr[ contains a null byte in the middle, then the * string will cut short at that byte index (i.e. maxBytesToRead will not * produce a string of exact length [ptr, ptr+maxBytesToRead[) N.B. mixing * frequent uses of UTF8ToString() with and without maxBytesToRead may throw * JS JIT optimizations off, so it is worth to consider consistently using one * @return {string} */ function UTF8ToString(ptr, maxBytesToRead) { return ptr ? UTF8ArrayToString(HEAPU8, ptr, maxBytesToRead) : ''; } /** * Copies the given Javascript String object 'str' to the given byte array at * address 'outIdx', encoded in UTF8 form and null-terminated. The copy will * require at most str.length*4+1 bytes of space in the HEAP. Use the function * lengthBytesUTF8 to compute the exact number of bytes (excluding null * terminator) that this function will write. * * @param {string} str - The Javascript string to copy. * @param {ArrayBufferView|Array} heap - The array to copy to. Each * index in this array is assumed * to be one 8-byte element. * @param {number} outIdx - The starting offset in the array to begin the copying. * @param {number} maxBytesToWrite - The maximum number of bytes this function * can write to the array. This count should * include the null terminator, i.e. if * maxBytesToWrite=1, only the null terminator * will be written and nothing else. * maxBytesToWrite=0 does not write any bytes * to the output, not even the null * terminator. * @return {number} The number of bytes written, EXCLUDING the null terminator. */ function stringToUTF8Array(str, heap, outIdx, maxBytesToWrite) { // Parameter maxBytesToWrite is not optional. Negative values, 0, null, // undefined and false each don't write out any bytes. if (!(maxBytesToWrite > 0)) return 0; var startIdx = outIdx; var endIdx = outIdx + maxBytesToWrite - 1; // -1 for string null terminator. for (var i = 0; i < str.length; ++i) { // Gotcha: charCodeAt returns a 16-bit word that is a UTF-16 encoded code // unit, not a Unicode code point of the character! So decode // UTF16->UTF32->UTF8. // See http://unicode.org/faq/utf_bom.html#utf16-3 // For UTF8 byte structure, see http://en.wikipedia.org/wiki/UTF-8#Description // and https://www.ietf.org/rfc/rfc2279.txt // and https://tools.ietf.org/html/rfc3629 var u = str.charCodeAt(i); // possibly a lead surrogate if (u >= 0xD800 && u <= 0xDFFF) { var u1 = str.charCodeAt(++i); u = 0x10000 + ((u & 0x3FF) << 10) | (u1 & 0x3FF); } if (u <= 0x7F) { if (outIdx >= endIdx) break; heap[outIdx++] = u; } else if (u <= 0x7FF) { if (outIdx + 1 >= endIdx) break; heap[outIdx++] = 0xC0 | (u >> 6); heap[outIdx++] = 0x80 | (u & 63); } else if (u <= 0xFFFF) { if (outIdx + 2 >= endIdx) break; heap[outIdx++] = 0xE0 | (u >> 12); heap[outIdx++] = 0x80 | ((u >> 6) & 63); heap[outIdx++] = 0x80 | (u & 63); } else { if (outIdx + 3 >= endIdx) break; if (u > 0x10FFFF) warnOnce('Invalid Unicode code point ' + ptrToString(u) + ' encountered when serializing a JS string to a UTF-8 string in wasm memory! (Valid unicode code points should be in range 0-0x10FFFF).'); heap[outIdx++] = 0xF0 | (u >> 18); heap[outIdx++] = 0x80 | ((u >> 12) & 63); heap[outIdx++] = 0x80 | ((u >> 6) & 63); heap[outIdx++] = 0x80 | (u & 63); } } // Null-terminate the pointer to the buffer. heap[outIdx] = 0; return outIdx - startIdx; } /** * Copies the given Javascript String object 'str' to the emscripten HEAP at * address 'outPtr', null-terminated and encoded in UTF8 form. The copy will * require at most str.length*4+1 bytes of space in the HEAP. * Use the function lengthBytesUTF8 to compute the exact number of bytes * (excluding null terminator) that this function will write. * * @return {number} The number of bytes written, EXCLUDING the null terminator. */ function stringToUTF8(str, outPtr, maxBytesToWrite) { assert(typeof maxBytesToWrite == 'number', 'stringToUTF8(str, outPtr, maxBytesToWrite) is missing the third parameter that specifies the length of the output buffer!'); return stringToUTF8Array(str, HEAPU8,outPtr, maxBytesToWrite); } /** * Returns the number of bytes the given Javascript string takes if encoded as a * UTF8 byte array, EXCLUDING the null terminator byte. * * @param {string} str - JavaScript string to operator on * @return {number} Length, in bytes, of the UTF8 encoded string. */ function lengthBytesUTF8(str) { var len = 0; for (var i = 0; i < str.length; ++i) { // Gotcha: charCodeAt returns a 16-bit word that is a UTF-16 encoded code // unit, not a Unicode code point of the character! So decode // UTF16->UTF32->UTF8. // See http://unicode.org/faq/utf_bom.html#utf16-3 var c = str.charCodeAt(i); // possibly a lead surrogate if (c <= 0x7F) { len++; } else if (c <= 0x7FF) { len += 2; } else if (c >= 0xD800 && c <= 0xDFFF) { len += 4; ++i; } else { len += 3; } } return len; } // end include: runtime_strings.js // Memory management var HEAP, /** @type {!Int8Array} */ HEAP8, /** @type {!Uint8Array} */ HEAPU8, /** @type {!Int16Array} */ HEAP16, /** @type {!Uint16Array} */ HEAPU16, /** @type {!Int32Array} */ HEAP32, /** @type {!Uint32Array} */ HEAPU32, /** @type {!Float32Array} */ HEAPF32, /** @type {!Float64Array} */ HEAPF64; function updateMemoryViews() { var b = wasmMemory.buffer; Module['HEAP8'] = HEAP8 = new Int8Array(b); Module['HEAP16'] = HEAP16 = new Int16Array(b); Module['HEAP32'] = HEAP32 = new Int32Array(b); Module['HEAPU8'] = HEAPU8 = new Uint8Array(b); Module['HEAPU16'] = HEAPU16 = new Uint16Array(b); Module['HEAPU32'] = HEAPU32 = new Uint32Array(b); Module['HEAPF32'] = HEAPF32 = new Float32Array(b); Module['HEAPF64'] = HEAPF64 = new Float64Array(b); } assert(!Module['STACK_SIZE'], 'STACK_SIZE can no longer be set at runtime. Use -sSTACK_SIZE at link time') assert(typeof Int32Array != 'undefined' && typeof Float64Array !== 'undefined' && Int32Array.prototype.subarray != undefined && Int32Array.prototype.set != undefined, 'JS engine does not provide full typed array support'); // If memory is defined in wasm, the user can't provide it, or set INITIAL_MEMORY assert(!Module['wasmMemory'], 'Use of `wasmMemory` detected. Use -sIMPORTED_MEMORY to define wasmMemory externally'); assert(!Module['INITIAL_MEMORY'], 'Detected runtime INITIAL_MEMORY setting. Use -sIMPORTED_MEMORY to define wasmMemory dynamically'); // include: runtime_init_table.js // In regular non-RELOCATABLE mode the table is exported // from the wasm module and this will be assigned once // the exports are available. var wasmTable; // end include: runtime_init_table.js // include: runtime_stack_check.js // Initializes the stack cookie. Called at the startup of main and at the startup of each thread in pthreads mode. function writeStackCookie() { var max = _emscripten_stack_get_end(); assert((max & 3) == 0); // If the stack ends at address zero we write our cookies 4 bytes into the // stack. This prevents interference with the (separate) address-zero check // below. if (max == 0) { max += 4; } // The stack grow downwards towards _emscripten_stack_get_end. // We write cookies to the final two words in the stack and detect if they are // ever overwritten. HEAPU32[((max)>>2)] = 0x2135467; HEAPU32[(((max)+(4))>>2)] = 0x89BACDFE; // Also test the global address 0 for integrity. HEAPU32[0] = 0x63736d65; /* 'emsc' */ } function checkStackCookie() { if (ABORT) return; var max = _emscripten_stack_get_end(); // See writeStackCookie(). if (max == 0) { max += 4; } var cookie1 = HEAPU32[((max)>>2)]; var cookie2 = HEAPU32[(((max)+(4))>>2)]; if (cookie1 != 0x2135467 || cookie2 != 0x89BACDFE) { abort('Stack overflow! Stack cookie has been overwritten at ' + ptrToString(max) + ', expected hex dwords 0x89BACDFE and 0x2135467, but received ' + ptrToString(cookie2) + ' ' + ptrToString(cookie1)); } // Also test the global address 0 for integrity. if (HEAPU32[0] !== 0x63736d65 /* 'emsc' */) { abort('Runtime error: The application has corrupted its heap memory area (address zero)!'); } } // end include: runtime_stack_check.js // include: runtime_assertions.js // Endianness check (function() { var h16 = new Int16Array(1); var h8 = new Int8Array(h16.buffer); h16[0] = 0x6373; if (h8[0] !== 0x73 || h8[1] !== 0x63) throw 'Runtime error: expected the system to be little-endian! (Run with -sSUPPORT_BIG_ENDIAN to bypass)'; })(); // end include: runtime_assertions.js var __ATPRERUN__ = []; // functions called before the runtime is initialized var __ATINIT__ = []; // functions called during startup var __ATEXIT__ = []; // functions called during shutdown var __ATPOSTRUN__ = []; // functions called after the main() is called var runtimeInitialized = false; function keepRuntimeAlive() { return noExitRuntime; } function preRun() { if (Module['preRun']) { if (typeof Module['preRun'] == 'function') Module['preRun'] = [Module['preRun']]; while (Module['preRun'].length) { addOnPreRun(Module['preRun'].shift()); } } callRuntimeCallbacks(__ATPRERUN__); } function initRuntime() { assert(!runtimeInitialized); runtimeInitialized = true; checkStackCookie(); if (!Module["noFSInit"] && !FS.init.initialized) FS.init(); FS.ignorePermissions = false; TTY.init(); SOCKFS.root = FS.mount(SOCKFS, {}, null); callRuntimeCallbacks(__ATINIT__); } function postRun() { checkStackCookie(); if (Module['postRun']) { if (typeof Module['postRun'] == 'function') Module['postRun'] = [Module['postRun']]; while (Module['postRun'].length) { addOnPostRun(Module['postRun'].shift()); } } callRuntimeCallbacks(__ATPOSTRUN__); } function addOnPreRun(cb) { __ATPRERUN__.unshift(cb); } function addOnInit(cb) { __ATINIT__.unshift(cb); } function addOnExit(cb) { } function addOnPostRun(cb) { __ATPOSTRUN__.unshift(cb); } // include: runtime_math.js // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Math/imul // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Math/fround // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Math/clz32 // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Math/trunc assert(Math.imul, 'This browser does not support Math.imul(), build with LEGACY_VM_SUPPORT or POLYFILL_OLD_MATH_FUNCTIONS to add in a polyfill'); assert(Math.fround, 'This browser does not support Math.fround(), build with LEGACY_VM_SUPPORT or POLYFILL_OLD_MATH_FUNCTIONS to add in a polyfill'); assert(Math.clz32, 'This browser does not support Math.clz32(), build with LEGACY_VM_SUPPORT or POLYFILL_OLD_MATH_FUNCTIONS to add in a polyfill'); assert(Math.trunc, 'This browser does not support Math.trunc(), build with LEGACY_VM_SUPPORT or POLYFILL_OLD_MATH_FUNCTIONS to add in a polyfill'); // end include: runtime_math.js // A counter of dependencies for calling run(). If we need to // do asynchronous work before running, increment this and // decrement it. Incrementing must happen in a place like // Module.preRun (used by emcc to add file preloading). // Note that you can add dependencies in preRun, even though // it happens right before run - run will be postponed until // the dependencies are met. var runDependencies = 0; var runDependencyWatcher = null; var dependenciesFulfilled = null; // overridden to take different actions when all run dependencies are fulfilled var runDependencyTracking = {}; function getUniqueRunDependency(id) { var orig = id; while (1) { if (!runDependencyTracking[id]) return id; id = orig + Math.random(); } } function addRunDependency(id) { runDependencies++; if (Module['monitorRunDependencies']) { Module['monitorRunDependencies'](runDependencies); } if (id) { assert(!runDependencyTracking[id]); runDependencyTracking[id] = 1; if (runDependencyWatcher === null && typeof setInterval != 'undefined') { // Check for missing dependencies every few seconds runDependencyWatcher = setInterval(function() { if (ABORT) { clearInterval(runDependencyWatcher); runDependencyWatcher = null; return; } var shown = false; for (var dep in runDependencyTracking) { if (!shown) { shown = true; err('still waiting on run dependencies:'); } err('dependency: ' + dep); } if (shown) { err('(end of list)'); } }, 10000); } } else { err('warning: run dependency added without ID'); } } function removeRunDependency(id) { runDependencies--; if (Module['monitorRunDependencies']) { Module['monitorRunDependencies'](runDependencies); } if (id) { assert(runDependencyTracking[id]); delete runDependencyTracking[id]; } else { err('warning: run dependency removed without ID'); } if (runDependencies == 0) { if (runDependencyWatcher !== null) { clearInterval(runDependencyWatcher); runDependencyWatcher = null; } if (dependenciesFulfilled) { var callback = dependenciesFulfilled; dependenciesFulfilled = null; callback(); // can add another dependenciesFulfilled } } } /** @param {string|number=} what */ function abort(what) { if (Module['onAbort']) { Module['onAbort'](what); } what = 'Aborted(' + what + ')'; // TODO(sbc): Should we remove printing and leave it up to whoever // catches the exception? err(what); ABORT = true; EXITSTATUS = 1; // Use a wasm runtime error, because a JS error might be seen as a foreign // exception, which means we'd run destructors on it. We need the error to // simply make the program stop. // FIXME This approach does not work in Wasm EH because it currently does not assume // all RuntimeErrors are from traps; it decides whether a RuntimeError is from // a trap or not based on a hidden field within the object. So at the moment // we don't have a way of throwing a wasm trap from JS. TODO Make a JS API that // allows this in the wasm spec. // Suppress closure compiler warning here. Closure compiler's builtin extern // defintion for WebAssembly.RuntimeError claims it takes no arguments even // though it can. // TODO(https://github.com/google/closure-compiler/pull/3913): Remove if/when upstream closure gets fixed. /** @suppress {checkTypes} */ var e = new WebAssembly.RuntimeError(what); readyPromiseReject(e); // Throw the error whether or not MODULARIZE is set because abort is used // in code paths apart from instantiation where an exception is expected // to be thrown when abort is called. throw e; } // include: memoryprofiler.js // end include: memoryprofiler.js // include: URIUtils.js // Prefix of data URIs emitted by SINGLE_FILE and related options. var dataURIPrefix = 'data:application/octet-stream;base64,'; // Indicates whether filename is a base64 data URI. function isDataURI(filename) { // Prefix of data URIs emitted by SINGLE_FILE and related options. return filename.startsWith(dataURIPrefix); } // Indicates whether filename is delivered via file protocol (as opposed to http/https) function isFileURI(filename) { return filename.startsWith('file://'); } // end include: URIUtils.js /** @param {boolean=} fixedasm */ function createExportWrapper(name, fixedasm) { return function() { var displayName = name; var asm = fixedasm; if (!fixedasm) { asm = Module['asm']; } assert(runtimeInitialized, 'native function `' + displayName + '` called before runtime initialization'); if (!asm[name]) { assert(asm[name], 'exported native function `' + displayName + '` not found'); } return asm[name].apply(null, arguments); }; } var wasmBinaryFile; wasmBinaryFile = 'wiregasm.wasm'; if (!isDataURI(wasmBinaryFile)) { wasmBinaryFile = locateFile(wasmBinaryFile); } function getBinary(file) { try { if (file == wasmBinaryFile && wasmBinary) { return new Uint8Array(wasmBinary); } if (readBinary) { return readBinary(file); } throw "both async and sync fetching of the wasm failed"; } catch (err) { abort(err); } } function getBinaryPromise() { // If we don't have the binary yet, try to to load it asynchronously. // Fetch has some additional restrictions over XHR, like it can't be used on a file:// url. // See https://github.com/github/fetch/pull/92#issuecomment-140665932 // Cordova or Electron apps are typically loaded from a file:// url. // So use fetch if it is available and the url is not a file, otherwise fall back to XHR. if (!wasmBinary && (ENVIRONMENT_IS_WEB || ENVIRONMENT_IS_WORKER)) { if (typeof fetch == 'function' && !isFileURI(wasmBinaryFile) ) { return fetch(wasmBinaryFile, { credentials: 'same-origin' }).then(function(response) { if (!response['ok']) { throw "failed to load wasm binary file at '" + wasmBinaryFile + "'"; } return response['arrayBuffer'](); }).catch(function () { return getBinary(wasmBinaryFile); }); } else { if (readAsync) { // fetch is not available or url is file => try XHR (readAsync uses XHR internally) return new Promise(function(resolve, reject) { readAsync(wasmBinaryFile, function(response) { resolve(new Uint8Array(/** @type{!ArrayBuffer} */(response))) }, reject) }); } } } // Otherwise, getBinary should be able to get it synchronously return Promise.resolve().then(function() { return getBinary(wasmBinaryFile); }); } // Create the wasm instance. // Receives the wasm imports, returns the exports. function createWasm() { // prepare imports var info = { 'env': wasmImports, 'wasi_snapshot_preview1': wasmImports, }; // Load the wasm module and create an instance of using native support in the JS engine. // handle a generated wasm instance, receiving its exports and // performing other necessary setup /** @param {WebAssembly.Module=} module*/ function receiveInstance(instance, module) { var exports = instance.exports; Module['asm'] = exports; wasmMemory = Module['asm']['memory']; assert(wasmMemory, "memory not found in wasm exports"); // This assertion doesn't hold when emscripten is run in --post-link // mode. // TODO(sbc): Read INITIAL_MEMORY out of the wasm file in post-link mode. //assert(wasmMemory.buffer.byteLength === 134217728); updateMemoryViews(); wasmTable = Module['asm']['__indirect_function_table']; assert(wasmTable, "table not found in wasm exports"); addOnInit(Module['asm']['__wasm_call_ctors']); removeRunDependency('wasm-instantiate'); } // wait for the pthread pool (if any) addRunDependency('wasm-instantiate'); // Prefer streaming instantiation if available. // Async compilation can be confusing when an error on the page overwrites Module // (for example, if the order of elements is wrong, and the one defining Module is // later), so we save Module and check it later. var trueModule = Module; function receiveInstantiationResult(result) { // 'result' is a ResultObject object which has both the module and instance. // receiveInstance() will swap in the exports (to Module.asm) so they can be called assert(Module === trueModule, 'the Module object should not be replaced during async compilation - perhaps the order of HTML elements is wrong?'); trueModule = null; // TODO: Due to Closure regression https://github.com/google/closure-compiler/issues/3193, the above line no longer optimizes out down to the following line. // When the regression is fixed, can restore the above USE_PTHREADS-enabled path. receiveInstance(result['instance']); } function instantiateArrayBuffer(receiver) { return getBinaryPromise().then(function(binary) { return WebAssembly.instantiate(binary, info); }).then(function (instance) { return instance; }).then(receiver, function(reason) { err('failed to asynchronously prepare wasm: ' + reason); // Warn on some common problems. if (isFileURI(wasmBinaryFile)) { err('warning: Loading from a file URI (' + wasmBinaryFile + ') is not supported in most browsers. See https://emscripten.org/docs/getting_started/FAQ.html#how-do-i-run-a-local-webserver-for-testing-why-does-my-program-stall-in-downloading-or-preparing'); } abort(reason); }); } function instantiateAsync() { if (!wasmBinary && typeof WebAssembly.instantiateStreaming == 'function' && !isDataURI(wasmBinaryFile) && // Don't use streaming for file:// delivered objects in a webview, fetch them synchronously. !isFileURI(wasmBinaryFile) && // Avoid instantiateStreaming() on Node.js environment for now, as while // Node.js v18.1.0 implements it, it does not have a full fetch() // implementation yet. // // Reference: // https://github.com/emscripten-core/emscripten/pull/16917 !ENVIRONMENT_IS_NODE && typeof fetch == 'function') { return fetch(wasmBinaryFile, { credentials: 'same-origin' }).then(function(response) { // Suppress closure warning here since the upstream definition for // instantiateStreaming only allows Promise rather than // an actual Response. // TODO(https://github.com/google/closure-compiler/pull/3913): Remove if/when upstream closure is fixed. /** @suppress {checkTypes} */ var result = WebAssembly.instantiateStreaming(response, info); return result.then( receiveInstantiationResult, function(reason) { // We expect the most common failure cause to be a bad MIME type for the binary, // in which case falling back to ArrayBuffer instantiation should work. err('wasm streaming compile failed: ' + reason); err('falling back to ArrayBuffer instantiation'); return instantiateArrayBuffer(receiveInstantiationResult); }); }); } else { return instantiateArrayBuffer(receiveInstantiationResult); } } // User shell pages can write their own Module.instantiateWasm = function(imports, successCallback) callback // to manually instantiate the Wasm module themselves. This allows pages to run the instantiation parallel // to any other async startup actions they are performing. // Also pthreads and wasm workers initialize the wasm instance through this path. if (Module['instantiateWasm']) { try { var exports = Module['instantiateWasm'](info, receiveInstance); return exports; } catch(e) { err('Module.instantiateWasm callback failed with error: ' + e); // If instantiation fails, reject the module ready promise. readyPromiseReject(e); } } // If instantiation fails, reject the module ready promise. instantiateAsync().catch(readyPromiseReject); return {}; // no exports yet; we'll fill them in later } // Globals used by JS i64 conversions (see makeSetValue) var tempDouble; var tempI64; // include: runtime_debug.js function legacyModuleProp(prop, newName) { if (!Object.getOwnPropertyDescriptor(Module, prop)) { Object.defineProperty(Module, prop, { configurable: true, get: function() { abort('Module.' + prop + ' has been replaced with plain ' + newName + ' (the initial value can be provided on Module, but after startup the value is only looked for on a local variable of that name)'); } }); } } function ignoredModuleProp(prop) { if (Object.getOwnPropertyDescriptor(Module, prop)) { abort('`Module.' + prop + '` was supplied but `' + prop + '` not included in INCOMING_MODULE_JS_API'); } } // forcing the filesystem exports a few things by default function isExportedByForceFilesystem(name) { return name === 'FS_createPath' || name === 'FS_createDataFile' || name === 'FS_createPreloadedFile' || name === 'FS_unlink' || name === 'addRunDependency' || // The old FS has some functionality that WasmFS lacks. name === 'FS_createLazyFile' || name === 'FS_createDevice' || name === 'removeRunDependency'; } function missingGlobal(sym, msg) { if (typeof globalThis !== 'undefined') { Object.defineProperty(globalThis, sym, { configurable: true, get: function() { warnOnce('`' + sym + '` is not longer defined by emscripten. ' + msg); return undefined; } }); } } missingGlobal('buffer', 'Please use HEAP8.buffer or wasmMemory.buffer'); function missingLibrarySymbol(sym) { if (typeof globalThis !== 'undefined' && !Object.getOwnPropertyDescriptor(globalThis, sym)) { Object.defineProperty(globalThis, sym, { configurable: true, get: function() { // Can't `abort()` here because it would break code that does runtime // checks. e.g. `if (typeof SDL === 'undefined')`. var msg = '`' + sym + '` is a library symbol and not included by default; add it to your library.js __deps or to DEFAULT_LIBRARY_FUNCS_TO_INCLUDE on the command line'; // DEFAULT_LIBRARY_FUNCS_TO_INCLUDE requires the name as it appears in // library.js, which means $name for a JS name with no prefix, or name // for a JS name like _name. var librarySymbol = sym; if (!librarySymbol.startsWith('_')) { librarySymbol = '$' + sym; } msg += " (e.g. -sDEFAULT_LIBRARY_FUNCS_TO_INCLUDE=" + librarySymbol + ")"; if (isExportedByForceFilesystem(sym)) { msg += '. Alternatively, forcing filesystem support (-sFORCE_FILESYSTEM) can export this for you'; } warnOnce(msg); return undefined; } }); } // Any symbol that is not included from the JS libary is also (by definttion) // not exported on the Module object. unexportedRuntimeSymbol(sym); } function unexportedRuntimeSymbol(sym) { if (!Object.getOwnPropertyDescriptor(Module, sym)) { Object.defineProperty(Module, sym, { configurable: true, get: function() { var msg = "'" + sym + "' was not exported. add it to EXPORTED_RUNTIME_METHODS (see the FAQ)"; if (isExportedByForceFilesystem(sym)) { msg += '. Alternatively, forcing filesystem support (-sFORCE_FILESYSTEM) can export this for you'; } abort(msg); } }); } } // end include: runtime_debug.js // === Body === // end include: preamble.js /** @constructor */ function ExitStatus(status) { this.name = 'ExitStatus'; this.message = 'Program terminated with exit(' + status + ')'; this.status = status; } function callRuntimeCallbacks(callbacks) { while (callbacks.length > 0) { // Pass the module as the first argument. callbacks.shift()(Module); } } /** * @param {number} ptr * @param {string} type */ function getValue(ptr, type = 'i8') { if (type.endsWith('*')) type = '*'; switch (type) { case 'i1': return HEAP8[((ptr)>>0)]; case 'i8': return HEAP8[((ptr)>>0)]; case 'i16': return HEAP16[((ptr)>>1)]; case 'i32': return HEAP32[((ptr)>>2)]; case 'i64': return HEAP32[((ptr)>>2)]; case 'float': return HEAPF32[((ptr)>>2)]; case 'double': return HEAPF64[((ptr)>>3)]; case '*': return HEAPU32[((ptr)>>2)]; default: abort('invalid type for getValue: ' + type); } return null; } function ptrToString(ptr) { assert(typeof ptr === 'number'); return '0x' + ptr.toString(16).padStart(8, '0'); } /** * @param {number} ptr * @param {number} value * @param {string} type */ function setValue(ptr, value, type = 'i8') { if (type.endsWith('*')) type = '*'; switch (type) { case 'i1': HEAP8[((ptr)>>0)] = value; break; case 'i8': HEAP8[((ptr)>>0)] = value; break; case 'i16': HEAP16[((ptr)>>1)] = value; break; case 'i32': HEAP32[((ptr)>>2)] = value; break; case 'i64': (tempI64 = [value>>>0,(tempDouble=value,(+(Math.abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math.min((+(Math.floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math.ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[((ptr)>>2)] = tempI64[0],HEAP32[(((ptr)+(4))>>2)] = tempI64[1]); break; case 'float': HEAPF32[((ptr)>>2)] = value; break; case 'double': HEAPF64[((ptr)>>3)] = value; break; case '*': HEAPU32[((ptr)>>2)] = value; break; default: abort('invalid type for setValue: ' + type); } } function warnOnce(text) { if (!warnOnce.shown) warnOnce.shown = {}; if (!warnOnce.shown[text]) { warnOnce.shown[text] = 1; if (ENVIRONMENT_IS_NODE) text = 'warning: ' + text; err(text); } } function ___assert_fail(condition, filename, line, func) { abort('Assertion failed: ' + UTF8ToString(condition) + ', at: ' + [filename ? UTF8ToString(filename) : 'unknown filename', line, func ? UTF8ToString(func) : 'unknown function']); } function ___call_sighandler(fp, sig) { ((a1) => dynCall_vi.apply(null, [fp, a1]))(sig); } /** @constructor */ function ExceptionInfo(excPtr) { this.excPtr = excPtr; this.ptr = excPtr - 24; this.set_type = function(type) { HEAPU32[(((this.ptr)+(4))>>2)] = type; }; this.get_type = function() { return HEAPU32[(((this.ptr)+(4))>>2)]; }; this.set_destructor = function(destructor) { HEAPU32[(((this.ptr)+(8))>>2)] = destructor; }; this.get_destructor = function() { return HEAPU32[(((this.ptr)+(8))>>2)]; }; this.set_refcount = function(refcount) { HEAP32[((this.ptr)>>2)] = refcount; }; this.set_caught = function (caught) { caught = caught ? 1 : 0; HEAP8[(((this.ptr)+(12))>>0)] = caught; }; this.get_caught = function () { return HEAP8[(((this.ptr)+(12))>>0)] != 0; }; this.set_rethrown = function (rethrown) { rethrown = rethrown ? 1 : 0; HEAP8[(((this.ptr)+(13))>>0)] = rethrown; }; this.get_rethrown = function () { return HEAP8[(((this.ptr)+(13))>>0)] != 0; }; // Initialize native structure fields. Should be called once after allocated. this.init = function(type, destructor) { this.set_adjusted_ptr(0); this.set_type(type); this.set_destructor(destructor); this.set_refcount(0); this.set_caught(false); this.set_rethrown(false); } this.add_ref = function() { var value = HEAP32[((this.ptr)>>2)]; HEAP32[((this.ptr)>>2)] = value + 1; }; // Returns true if last reference released. this.release_ref = function() { var prev = HEAP32[((this.ptr)>>2)]; HEAP32[((this.ptr)>>2)] = prev - 1; assert(prev > 0); return prev === 1; }; this.set_adjusted_ptr = function(adjustedPtr) { HEAPU32[(((this.ptr)+(16))>>2)] = adjustedPtr; }; this.get_adjusted_ptr = function() { return HEAPU32[(((this.ptr)+(16))>>2)]; }; // Get pointer which is expected to be received by catch clause in C++ code. It may be adjusted // when the pointer is casted to some of the exception object base classes (e.g. when virtual // inheritance is used). When a pointer is thrown this method should return the thrown pointer // itself. this.get_exception_ptr = function() { // Work around a fastcomp bug, this code is still included for some reason in a build without // exceptions support. var isPointer = ___cxa_is_pointer_type(this.get_type()); if (isPointer) { return HEAPU32[((this.excPtr)>>2)]; } var adjusted = this.get_adjusted_ptr(); if (adjusted !== 0) return adjusted; return this.excPtr; }; } var exceptionLast = 0; var uncaughtExceptionCount = 0; function ___cxa_throw(ptr, type, destructor) { var info = new ExceptionInfo(ptr); // Initialize ExceptionInfo content after it was allocated in __cxa_allocate_exception. info.init(type, destructor); exceptionLast = ptr; uncaughtExceptionCount++; throw ptr + " - Exception catching is disabled, this exception cannot be caught. Compile with -sNO_DISABLE_EXCEPTION_CATCHING or -sEXCEPTION_CATCHING_ALLOWED=[..] to catch."; } var PATH = {isAbs:(path) => path.charAt(0) === '/',splitPath:(filename) => { var splitPathRe = /^(\/?|)([\s\S]*?)((?:\.{1,2}|[^\/]+?|)(\.[^.\/]*|))(?:[\/]*)$/; return splitPathRe.exec(filename).slice(1); },normalizeArray:(parts, allowAboveRoot) => { // if the path tries to go above the root, `up` ends up > 0 var up = 0; for (var i = parts.length - 1; i >= 0; i--) { var last = parts[i]; if (last === '.') { parts.splice(i, 1); } else if (last === '..') { parts.splice(i, 1); up++; } else if (up) { parts.splice(i, 1); up--; } } // if the path is allowed to go above the root, restore leading ..s if (allowAboveRoot) { for (; up; up--) { parts.unshift('..'); } } return parts; },normalize:(path) => { var isAbsolute = PATH.isAbs(path), trailingSlash = path.substr(-1) === '/'; // Normalize the path path = PATH.normalizeArray(path.split('/').filter((p) => !!p), !isAbsolute).join('/'); if (!path && !isAbsolute) { path = '.'; } if (path && trailingSlash) { path += '/'; } return (isAbsolute ? '/' : '') + path; },dirname:(path) => { var result = PATH.splitPath(path), root = result[0], dir = result[1]; if (!root && !dir) { // No dirname whatsoever return '.'; } if (dir) { // It has a dirname, strip trailing slash dir = dir.substr(0, dir.length - 1); } return root + dir; },basename:(path) => { // EMSCRIPTEN return '/'' for '/', not an empty string if (path === '/') return '/'; path = PATH.normalize(path); path = path.replace(/\/$/, ""); var lastSlash = path.lastIndexOf('/'); if (lastSlash === -1) return path; return path.substr(lastSlash+1); },join:function() { var paths = Array.prototype.slice.call(arguments); return PATH.normalize(paths.join('/')); },join2:(l, r) => { return PATH.normalize(l + '/' + r); }}; function getRandomDevice() { if (typeof crypto == 'object' && typeof crypto['getRandomValues'] == 'function') { // for modern web browsers var randomBuffer = new Uint8Array(1); return () => { crypto.getRandomValues(randomBuffer); return randomBuffer[0]; }; } else if (ENVIRONMENT_IS_NODE) { // for nodejs with or without crypto support included try { var crypto_module = require('crypto'); // nodejs has crypto support return () => crypto_module['randomBytes'](1)[0]; } catch (e) { // nodejs doesn't have crypto support } } // we couldn't find a proper implementation, as Math.random() is not suitable for /dev/random, see emscripten-core/emscripten/pull/7096 return () => abort("no cryptographic support found for randomDevice. consider polyfilling it if you want to use something insecure like Math.random(), e.g. put this in a --pre-js: var crypto = { getRandomValues: function(array) { for (var i = 0; i < array.length; i++) array[i] = (Math.random()*256)|0 } };"); } var PATH_FS = {resolve:function() { var resolvedPath = '', resolvedAbsolute = false; for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) { var path = (i >= 0) ? arguments[i] : FS.cwd(); // Skip empty and invalid entries if (typeof path != 'string') { throw new TypeError('Arguments to path.resolve must be strings'); } else if (!path) { return ''; // an invalid portion invalidates the whole thing } resolvedPath = path + '/' + resolvedPath; resolvedAbsolute = PATH.isAbs(path); } // At this point the path should be resolved to a full absolute path, but // handle relative paths to be safe (might happen when process.cwd() fails) resolvedPath = PATH.normalizeArray(resolvedPath.split('/').filter((p) => !!p), !resolvedAbsolute).join('/'); return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.'; },relative:(from, to) => { from = PATH_FS.resolve(from).substr(1); to = PATH_FS.resolve(to).substr(1); function trim(arr) { var start = 0; for (; start < arr.length; start++) { if (arr[start] !== '') break; } var end = arr.length - 1; for (; end >= 0; end--) { if (arr[end] !== '') break; } if (start > end) return []; return arr.slice(start, end - start + 1); } var fromParts = trim(from.split('/')); var toParts = trim(to.split('/')); var length = Math.min(fromParts.length, toParts.length); var samePartsLength = length; for (var i = 0; i < length; i++) { if (fromParts[i] !== toParts[i]) { samePartsLength = i; break; } } var outputParts = []; for (var i = samePartsLength; i < fromParts.length; i++) { outputParts.push('..'); } outputParts = outputParts.concat(toParts.slice(samePartsLength)); return outputParts.join('/'); }}; /** @type {function(string, boolean=, number=)} */ function intArrayFromString(stringy, dontAddNull, length) { var len = length > 0 ? length : lengthBytesUTF8(stringy)+1; var u8array = new Array(len); var numBytesWritten = stringToUTF8Array(stringy, u8array, 0, u8array.length); if (dontAddNull) u8array.length = numBytesWritten; return u8array; } var TTY = {ttys:[],init:function () { // https://github.com/emscripten-core/emscripten/pull/1555 // if (ENVIRONMENT_IS_NODE) { // // currently, FS.init does not distinguish if process.stdin is a file or TTY // // device, it always assumes it's a TTY device. because of this, we're forcing // // process.stdin to UTF8 encoding to at least make stdin reading compatible // // with text files until FS.init can be refactored. // process['stdin']['setEncoding']('utf8'); // } },shutdown:function() { // https://github.com/emscripten-core/emscripten/pull/1555 // if (ENVIRONMENT_IS_NODE) { // // inolen: any idea as to why node -e 'process.stdin.read()' wouldn't exit immediately (with process.stdin being a tty)? // // isaacs: because now it's reading from the stream, you've expressed interest in it, so that read() kicks off a _read() which creates a ReadReq operation // // inolen: I thought read() in that case was a synchronous operation that just grabbed some amount of buffered data if it exists? // // isaacs: it is. but it also triggers a _read() call, which calls readStart() on the handle // // isaacs: do process.stdin.pause() and i'd think it'd probably close the pending call // process['stdin']['pause'](); // } },register:function(dev, ops) { TTY.ttys[dev] = { input: [], output: [], ops: ops }; FS.registerDevice(dev, TTY.stream_ops); },stream_ops:{open:function(stream) { var tty = TTY.ttys[stream.node.rdev]; if (!tty) { throw new FS.ErrnoError(43); } stream.tty = tty; stream.seekable = false; },close:function(stream) { // flush any pending line data stream.tty.ops.fsync(stream.tty); },fsync:function(stream) { stream.tty.ops.fsync(stream.tty); },read:function(stream, buffer, offset, length, pos /* ignored */) { if (!stream.tty || !stream.tty.ops.get_char) { throw new FS.ErrnoError(60); } var bytesRead = 0; for (var i = 0; i < length; i++) { var result; try { result = stream.tty.ops.get_char(stream.tty); } catch (e) { throw new FS.ErrnoError(29); } if (result === undefined && bytesRead === 0) { throw new FS.ErrnoError(6); } if (result === null || result === undefined) break; bytesRead++; buffer[offset+i] = result; } if (bytesRead) { stream.node.timestamp = Date.now(); } return bytesRead; },write:function(stream, buffer, offset, length, pos) { if (!stream.tty || !stream.tty.ops.put_char) { throw new FS.ErrnoError(60); } try { for (var i = 0; i < length; i++) { stream.tty.ops.put_char(stream.tty, buffer[offset+i]); } } catch (e) { throw new FS.ErrnoError(29); } if (length) { stream.node.timestamp = Date.now(); } return i; }},default_tty_ops:{get_char:function(tty) { if (!tty.input.length) { var result = null; if (ENVIRONMENT_IS_NODE) { // we will read data by chunks of BUFSIZE var BUFSIZE = 256; var buf = Buffer.alloc(BUFSIZE); var bytesRead = 0; try { bytesRead = fs.readSync(process.stdin.fd, buf, 0, BUFSIZE, -1); } catch(e) { // Cross-platform differences: on Windows, reading EOF throws an exception, but on other OSes, // reading EOF returns 0. Uniformize behavior by treating the EOF exception to return 0. if (e.toString().includes('EOF')) bytesRead = 0; else throw e; } if (bytesRead > 0) { result = buf.slice(0, bytesRead).toString('utf-8'); } else { result = null; } } else if (typeof window != 'undefined' && typeof window.prompt == 'function') { // Browser. result = window.prompt('Input: '); // returns null on cancel if (result !== null) { result += '\n'; } } else if (typeof readline == 'function') { // Command line. result = readline(); if (result !== null) { result += '\n'; } } if (!result) { return null; } tty.input = intArrayFromString(result, true); } return tty.input.shift(); },put_char:function(tty, val) { if (val === null || val === 10) { out(UTF8ArrayToString(tty.output, 0)); tty.output = []; } else { if (val != 0) tty.output.push(val); // val == 0 would cut text output off in the middle. } },fsync:function(tty) { if (tty.output && tty.output.length > 0) { out(UTF8ArrayToString(tty.output, 0)); tty.output = []; } }},default_tty1_ops:{put_char:function(tty, val) { if (val === null || val === 10) { err(UTF8ArrayToString(tty.output, 0)); tty.output = []; } else { if (val != 0) tty.output.push(val); } },fsync:function(tty) { if (tty.output && tty.output.length > 0) { err(UTF8ArrayToString(tty.output, 0)); tty.output = []; } }}}; function zeroMemory(address, size) { HEAPU8.fill(0, address, address + size); return address; } function alignMemory(size, alignment) { assert(alignment, "alignment argument is required"); return Math.ceil(size / alignment) * alignment; } function mmapAlloc(size) { size = alignMemory(size, 65536); var ptr = _emscripten_builtin_memalign(65536, size); if (!ptr) return 0; return zeroMemory(ptr, size); } var MEMFS = {ops_table:null,mount:function(mount) { return MEMFS.createNode(null, '/', 16384 | 511 /* 0777 */, 0); },createNode:function(parent, name, mode, dev) { if (FS.isBlkdev(mode) || FS.isFIFO(mode)) { // no supported throw new FS.ErrnoError(63); } if (!MEMFS.ops_table) { MEMFS.ops_table = { dir: { node: { getattr: MEMFS.node_ops.getattr, setattr: MEMFS.node_ops.setattr, lookup: MEMFS.node_ops.lookup, mknod: MEMFS.node_ops.mknod, rename: MEMFS.node_ops.rename, unlink: MEMFS.node_ops.unlink, rmdir: MEMFS.node_ops.rmdir, readdir: MEMFS.node_ops.readdir, symlink: MEMFS.node_ops.symlink }, stream: { llseek: MEMFS.stream_ops.llseek } }, file: { node: { getattr: MEMFS.node_ops.getattr, setattr: MEMFS.node_ops.setattr }, stream: { llseek: MEMFS.stream_ops.llseek, read: MEMFS.stream_ops.read, write: MEMFS.stream_ops.write, allocate: MEMFS.stream_ops.allocate, mmap: MEMFS.stream_ops.mmap, msync: MEMFS.stream_ops.msync } }, link: { node: { getattr: MEMFS.node_ops.getattr, setattr: MEMFS.node_ops.setattr, readlink: MEMFS.node_ops.readlink }, stream: {} }, chrdev: { node: { getattr: MEMFS.node_ops.getattr, setattr: MEMFS.node_ops.setattr }, stream: FS.chrdev_stream_ops } }; } var node = FS.createNode(parent, name, mode, dev); if (FS.isDir(node.mode)) { node.node_ops = MEMFS.ops_table.dir.node; node.stream_ops = MEMFS.ops_table.dir.stream; node.contents = {}; } else if (FS.isFile(node.mode)) { node.node_ops = MEMFS.ops_table.file.node; node.stream_ops = MEMFS.ops_table.file.stream; node.usedBytes = 0; // The actual number of bytes used in the typed array, as opposed to contents.length which gives the whole capacity. // When the byte data of the file is populated, this will point to either a typed array, or a normal JS array. Typed arrays are preferred // for performance, and used by default. However, typed arrays are not like normal JS arrays are, so there is a small disk size // penalty involved for appending file writes that continuously grow a file similar to std::vector capacity vs used -scheme. node.contents = null; } else if (FS.isLink(node.mode)) { node.node_ops = MEMFS.ops_table.link.node; node.stream_ops = MEMFS.ops_table.link.stream; } else if (FS.isChrdev(node.mode)) { node.node_ops = MEMFS.ops_table.chrdev.node; node.stream_ops = MEMFS.ops_table.chrdev.stream; } node.timestamp = Date.now(); // add the new node to the parent if (parent) { parent.contents[name] = node; parent.timestamp = node.timestamp; } return node; },getFileDataAsTypedArray:function(node) { if (!node.contents) return new Uint8Array(0); if (node.contents.subarray) return node.contents.subarray(0, node.usedBytes); // Make sure to not return excess unused bytes. return new Uint8Array(node.contents); },expandFileStorage:function(node, newCapacity) { var prevCapacity = node.contents ? node.contents.length : 0; if (prevCapacity >= newCapacity) return; // No need to expand, the storage was already large enough. // Don't expand strictly to the given requested limit if it's only a very small increase, but instead geometrically grow capacity. // For small filesizes (<1MB), perform size*2 geometric increase, but for large sizes, do a much more conservative size*1.125 increase to // avoid overshooting the allocation cap by a very large margin. var CAPACITY_DOUBLING_MAX = 1024 * 1024; newCapacity = Math.max(newCapacity, (prevCapacity * (prevCapacity < CAPACITY_DOUBLING_MAX ? 2.0 : 1.125)) >>> 0); if (prevCapacity != 0) newCapacity = Math.max(newCapacity, 256); // At minimum allocate 256b for each file when expanding. var oldContents = node.contents; node.contents = new Uint8Array(newCapacity); // Allocate new storage. if (node.usedBytes > 0) node.contents.set(oldContents.subarray(0, node.usedBytes), 0); // Copy old data over to the new storage. },resizeFileStorage:function(node, newSize) { if (node.usedBytes == newSize) return; if (newSize == 0) { node.contents = null; // Fully decommit when requesting a resize to zero. node.usedBytes = 0; } else { var oldContents = node.contents; node.contents = new Uint8Array(newSize); // Allocate new storage. if (oldContents) { node.contents.set(oldContents.subarray(0, Math.min(newSize, node.usedBytes))); // Copy old data over to the new storage. } node.usedBytes = newSize; } },node_ops:{getattr:function(node) { var attr = {}; // device numbers reuse inode numbers. attr.dev = FS.isChrdev(node.mode) ? node.id : 1; attr.ino = node.id; attr.mode = node.mode; attr.nlink = 1; attr.uid = 0; attr.gid = 0; attr.rdev = node.rdev; if (FS.isDir(node.mode)) { attr.size = 4096; } else if (FS.isFile(node.mode)) { attr.size = node.usedBytes; } else if (FS.isLink(node.mode)) { attr.size = node.link.length; } else { attr.size = 0; } attr.atime = new Date(node.timestamp); attr.mtime = new Date(node.timestamp); attr.ctime = new Date(node.timestamp); // NOTE: In our implementation, st_blocks = Math.ceil(st_size/st_blksize), // but this is not required by the standard. attr.blksize = 4096; attr.blocks = Math.ceil(attr.size / attr.blksize); return attr; },setattr:function(node, attr) { if (attr.mode !== undefined) { node.mode = attr.mode; } if (attr.timestamp !== undefined) { node.timestamp = attr.timestamp; } if (attr.size !== undefined) { MEMFS.resizeFileStorage(node, attr.size); } },lookup:function(parent, name) { throw FS.genericErrors[44]; },mknod:function(parent, name, mode, dev) { return MEMFS.createNode(parent, name, mode, dev); },rename:function(old_node, new_dir, new_name) { // if we're overwriting a directory at new_name, make sure it's empty. if (FS.isDir(old_node.mode)) { var new_node; try { new_node = FS.lookupNode(new_dir, new_name); } catch (e) { } if (new_node) { for (var i in new_node.contents) { throw new FS.ErrnoError(55); } } } // do the internal rewiring delete old_node.parent.contents[old_node.name]; old_node.parent.timestamp = Date.now() old_node.name = new_name; new_dir.contents[new_name] = old_node; new_dir.timestamp = old_node.parent.timestamp; old_node.parent = new_dir; },unlink:function(parent, name) { delete parent.contents[name]; parent.timestamp = Date.now(); },rmdir:function(parent, name) { var node = FS.lookupNode(parent, name); for (var i in node.contents) { throw new FS.ErrnoError(55); } delete parent.contents[name]; parent.timestamp = Date.now(); },readdir:function(node) { var entries = ['.', '..']; for (var key in node.contents) { if (!node.contents.hasOwnProperty(key)) { continue; } entries.push(key); } return entries; },symlink:function(parent, newname, oldpath) { var node = MEMFS.createNode(parent, newname, 511 /* 0777 */ | 40960, 0); node.link = oldpath; return node; },readlink:function(node) { if (!FS.isLink(node.mode)) { throw new FS.ErrnoError(28); } return node.link; }},stream_ops:{read:function(stream, buffer, offset, length, position) { var contents = stream.node.contents; if (position >= stream.node.usedBytes) return 0; var size = Math.min(stream.node.usedBytes - position, length); assert(size >= 0); if (size > 8 && contents.subarray) { // non-trivial, and typed array buffer.set(contents.subarray(position, position + size), offset); } else { for (var i = 0; i < size; i++) buffer[offset + i] = contents[position + i]; } return size; },write:function(stream, buffer, offset, length, position, canOwn) { // The data buffer should be a typed array view assert(!(buffer instanceof ArrayBuffer)); // If the buffer is located in main memory (HEAP), and if // memory can grow, we can't hold on to references of the // memory buffer, as they may get invalidated. That means we // need to do copy its contents. if (buffer.buffer === HEAP8.buffer) { canOwn = false; } if (!length) return 0; var node = stream.node; node.timestamp = Date.now(); if (buffer.subarray && (!node.contents || node.contents.subarray)) { // This write is from a typed array to a typed array? if (canOwn) { assert(position === 0, 'canOwn must imply no weird position inside the file'); node.contents = buffer.subarray(offset, offset + length); node.usedBytes = length; return length; } else if (node.usedBytes === 0 && position === 0) { // If this is a simple first write to an empty file, do a fast set since we don't need to care about old data. node.contents = buffer.slice(offset, offset + length); node.usedBytes = length; return length; } else if (position + length <= node.usedBytes) { // Writing to an already allocated and used subrange of the file? node.contents.set(buffer.subarray(offset, offset + length), position); return length; } } // Appending to an existing file and we need to reallocate, or source data did not come as a typed array. MEMFS.expandFileStorage(node, position+length); if (node.contents.subarray && buffer.subarray) { // Use typed array write which is available. node.contents.set(buffer.subarray(offset, offset + length), position); } else { for (var i = 0; i < length; i++) { node.contents[position + i] = buffer[offset + i]; // Or fall back to manual write if not. } } node.usedBytes = Math.max(node.usedBytes, position + length); return length; },llseek:function(stream, offset, whence) { var position = offset; if (whence === 1) { position += stream.position; } else if (whence === 2) { if (FS.isFile(stream.node.mode)) { position += stream.node.usedBytes; } } if (position < 0) { throw new FS.ErrnoError(28); } return position; },allocate:function(stream, offset, length) { MEMFS.expandFileStorage(stream.node, offset + length); stream.node.usedBytes = Math.max(stream.node.usedBytes, offset + length); },mmap:function(stream, length, position, prot, flags) { if (!FS.isFile(stream.node.mode)) { throw new FS.ErrnoError(43); } var ptr; var allocated; var contents = stream.node.contents; // Only make a new copy when MAP_PRIVATE is specified. if (!(flags & 2) && contents.buffer === HEAP8.buffer) { // We can't emulate MAP_SHARED when the file is not backed by the // buffer we're mapping to (e.g. the HEAP buffer). allocated = false; ptr = contents.byteOffset; } else { // Try to avoid unnecessary slices. if (position > 0 || position + length < contents.length) { if (contents.subarray) { contents = contents.subarray(position, position + length); } else { contents = Array.prototype.slice.call(contents, position, position + length); } } allocated = true; ptr = mmapAlloc(length); if (!ptr) { throw new FS.ErrnoError(48); } HEAP8.set(contents, ptr); } return { ptr: ptr, allocated: allocated }; },msync:function(stream, buffer, offset, length, mmapFlags) { MEMFS.stream_ops.write(stream, buffer, 0, length, offset, false); // should we check if bytesWritten and length are the same? return 0; }}}; /** @param {boolean=} noRunDep */ function asyncLoad(url, onload, onerror, noRunDep) { var dep = !noRunDep ? getUniqueRunDependency('al ' + url) : ''; readAsync(url, (arrayBuffer) => { assert(arrayBuffer, 'Loading data file "' + url + '" failed (no arrayBuffer).'); onload(new Uint8Array(arrayBuffer)); if (dep) removeRunDependency(dep); }, (event) => { if (onerror) { onerror(); } else { throw 'Loading data file "' + url + '" failed.'; } }); if (dep) addRunDependency(dep); } var ERRNO_MESSAGES = {0:"Success",1:"Arg list too long",2:"Permission denied",3:"Address already in use",4:"Address not available",5:"Address family not supported by protocol family",6:"No more processes",7:"Socket already connected",8:"Bad file number",9:"Trying to read unreadable message",10:"Mount device busy",11:"Operation canceled",12:"No children",13:"Connection aborted",14:"Connection refused",15:"Connection reset by peer",16:"File locking deadlock error",17:"Destination address required",18:"Math arg out of domain of func",19:"Quota exceeded",20:"File exists",21:"Bad address",22:"File too large",23:"Host is unreachable",24:"Identifier removed",25:"Illegal byte sequence",26:"Connection already in progress",27:"Interrupted system call",28:"Invalid argument",29:"I/O error",30:"Socket is already connected",31:"Is a directory",32:"Too many symbolic links",33:"Too many open files",34:"Too many links",35:"Message too long",36:"Multihop attempted",37:"File or path name too long",38:"Network interface is not configured",39:"Connection reset by network",40:"Network is unreachable",41:"Too many open files in system",42:"No buffer space available",43:"No such device",44:"No such file or directory",45:"Exec format error",46:"No record locks available",47:"The link has been severed",48:"Not enough core",49:"No message of desired type",50:"Protocol not available",51:"No space left on device",52:"Function not implemented",53:"Socket is not connected",54:"Not a directory",55:"Directory not empty",56:"State not recoverable",57:"Socket operation on non-socket",59:"Not a typewriter",60:"No such device or address",61:"Value too large for defined data type",62:"Previous owner died",63:"Not super-user",64:"Broken pipe",65:"Protocol error",66:"Unknown protocol",67:"Protocol wrong type for socket",68:"Math result not representable",69:"Read only file system",70:"Illegal seek",71:"No such process",72:"Stale file handle",73:"Connection timed out",74:"Text file busy",75:"Cross-device link",100:"Device not a stream",101:"Bad font file fmt",102:"Invalid slot",103:"Invalid request code",104:"No anode",105:"Block device required",106:"Channel number out of range",107:"Level 3 halted",108:"Level 3 reset",109:"Link number out of range",110:"Protocol driver not attached",111:"No CSI structure available",112:"Level 2 halted",113:"Invalid exchange",114:"Invalid request descriptor",115:"Exchange full",116:"No data (for no delay io)",117:"Timer expired",118:"Out of streams resources",119:"Machine is not on the network",120:"Package not installed",121:"The object is remote",122:"Advertise error",123:"Srmount error",124:"Communication error on send",125:"Cross mount point (not really error)",126:"Given log. name not unique",127:"f.d. invalid for this operation",128:"Remote address changed",129:"Can access a needed shared lib",130:"Accessing a corrupted shared lib",131:".lib section in a.out corrupted",132:"Attempting to link in too many libs",133:"Attempting to exec a shared library",135:"Streams pipe error",136:"Too many users",137:"Socket type not supported",138:"Not supported",139:"Protocol family not supported",140:"Can't send after socket shutdown",141:"Too many references",142:"Host is down",148:"No medium (in tape drive)",156:"Level 2 not synchronized"}; var ERRNO_CODES = {}; function demangle(func) { warnOnce('warning: build with -sDEMANGLE_SUPPORT to link in libcxxabi demangling'); return func; } function demangleAll(text) { var regex = /\b_Z[\w\d_]+/g; return text.replace(regex, function(x) { var y = demangle(x); return x === y ? x : (y + ' [' + x + ']'); }); } var FS = {root:null,mounts:[],devices:{},streams:[],nextInode:1,nameTable:null,currentPath:"/",initialized:false,ignorePermissions:true,ErrnoError:null,genericErrors:{},filesystems:null,syncFSRequests:0,lookupPath:(path, opts = {}) => { path = PATH_FS.resolve(path); if (!path) return { path: '', node: null }; var defaults = { follow_mount: true, recurse_count: 0 }; opts = Object.assign(defaults, opts) if (opts.recurse_count > 8) { // max recursive lookup of 8 throw new FS.ErrnoError(32); } // split the absolute path var parts = path.split('/').filter((p) => !!p); // start at the root var current = FS.root; var current_path = '/'; for (var i = 0; i < parts.length; i++) { var islast = (i === parts.length-1); if (islast && opts.parent) { // stop resolving break; } current = FS.lookupNode(current, parts[i]); current_path = PATH.join2(current_path, parts[i]); // jump to the mount's root node if this is a mountpoint if (FS.isMountpoint(current)) { if (!islast || (islast && opts.follow_mount)) { current = current.mounted.root; } } // by default, lookupPath will not follow a symlink if it is the final path component. // setting opts.follow = true will override this behavior. if (!islast || opts.follow) { var count = 0; while (FS.isLink(current.mode)) { var link = FS.readlink(current_path); current_path = PATH_FS.resolve(PATH.dirname(current_path), link); var lookup = FS.lookupPath(current_path, { recurse_count: opts.recurse_count + 1 }); current = lookup.node; if (count++ > 40) { // limit max consecutive symlinks to 40 (SYMLOOP_MAX). throw new FS.ErrnoError(32); } } } } return { path: current_path, node: current }; },getPath:(node) => { var path; while (true) { if (FS.isRoot(node)) { var mount = node.mount.mountpoint; if (!path) return mount; return mount[mount.length-1] !== '/' ? mount + '/' + path : mount + path; } path = path ? node.name + '/' + path : node.name; node = node.parent; } },hashName:(parentid, name) => { var hash = 0; for (var i = 0; i < name.length; i++) { hash = ((hash << 5) - hash + name.charCodeAt(i)) | 0; } return ((parentid + hash) >>> 0) % FS.nameTable.length; },hashAddNode:(node) => { var hash = FS.hashName(node.parent.id, node.name); node.name_next = FS.nameTable[hash]; FS.nameTable[hash] = node; },hashRemoveNode:(node) => { var hash = FS.hashName(node.parent.id, node.name); if (FS.nameTable[hash] === node) { FS.nameTable[hash] = node.name_next; } else { var current = FS.nameTable[hash]; while (current) { if (current.name_next === node) { current.name_next = node.name_next; break; } current = current.name_next; } } },lookupNode:(parent, name) => { var errCode = FS.mayLookup(parent); if (errCode) { throw new FS.ErrnoError(errCode, parent); } var hash = FS.hashName(parent.id, name); for (var node = FS.nameTable[hash]; node; node = node.name_next) { var nodeName = node.name; if (node.parent.id === parent.id && nodeName === name) { return node; } } // if we failed to find it in the cache, call into the VFS return FS.lookup(parent, name); },createNode:(parent, name, mode, rdev) => { assert(typeof parent == 'object') var node = new FS.FSNode(parent, name, mode, rdev); FS.hashAddNode(node); return node; },destroyNode:(node) => { FS.hashRemoveNode(node); },isRoot:(node) => { return node === node.parent; },isMountpoint:(node) => { return !!node.mounted; },isFile:(mode) => { return (mode & 61440) === 32768; },isDir:(mode) => { return (mode & 61440) === 16384; },isLink:(mode) => { return (mode & 61440) === 40960; },isChrdev:(mode) => { return (mode & 61440) === 8192; },isBlkdev:(mode) => { return (mode & 61440) === 24576; },isFIFO:(mode) => { return (mode & 61440) === 4096; },isSocket:(mode) => { return (mode & 49152) === 49152; },flagModes:{"r":0,"r+":2,"w":577,"w+":578,"a":1089,"a+":1090},modeStringToFlags:(str) => { var flags = FS.flagModes[str]; if (typeof flags == 'undefined') { throw new Error('Unknown file open mode: ' + str); } return flags; },flagsToPermissionString:(flag) => { var perms = ['r', 'w', 'rw'][flag & 3]; if ((flag & 512)) { perms += 'w'; } return perms; },nodePermissions:(node, perms) => { if (FS.ignorePermissions) { return 0; } // return 0 if any user, group or owner bits are set. if (perms.includes('r') && !(node.mode & 292)) { return 2; } else if (perms.includes('w') && !(node.mode & 146)) { return 2; } else if (perms.includes('x') && !(node.mode & 73)) { return 2; } return 0; },mayLookup:(dir) => { var errCode = FS.nodePermissions(dir, 'x'); if (errCode) return errCode; if (!dir.node_ops.lookup) return 2; return 0; },mayCreate:(dir, name) => { try { var node = FS.lookupNode(dir, name); return 20; } catch (e) { } return FS.nodePermissions(dir, 'wx'); },mayDelete:(dir, name, isdir) => { var node; try { node = FS.lookupNode(dir, name); } catch (e) { return e.errno; } var errCode = FS.nodePermissions(dir, 'wx'); if (errCode) { return errCode; } if (isdir) { if (!FS.isDir(node.mode)) { return 54; } if (FS.isRoot(node) || FS.getPath(node) === FS.cwd()) { return 10; } } else { if (FS.isDir(node.mode)) { return 31; } } return 0; },mayOpen:(node, flags) => { if (!node) { return 44; } if (FS.isLink(node.mode)) { return 32; } else if (FS.isDir(node.mode)) { if (FS.flagsToPermissionString(flags) !== 'r' || // opening for write (flags & 512)) { // TODO: check for O_SEARCH? (== search for dir only) return 31; } } return FS.nodePermissions(node, FS.flagsToPermissionString(flags)); },MAX_OPEN_FDS:4096,nextfd:(fd_start = 0, fd_end = FS.MAX_OPEN_FDS) => { for (var fd = fd_start; fd <= fd_end; fd++) { if (!FS.streams[fd]) { return fd; } } throw new FS.ErrnoError(33); },getStream:(fd) => FS.streams[fd],createStream:(stream, fd_start, fd_end) => { if (!FS.FSStream) { FS.FSStream = /** @constructor */ function() { this.shared = { }; }; FS.FSStream.prototype = {}; Object.defineProperties(FS.FSStream.prototype, { object: { /** @this {FS.FSStream} */ get: function() { return this.node; }, /** @this {FS.FSStream} */ set: function(val) { this.node = val; } }, isRead: { /** @this {FS.FSStream} */ get: function() { return (this.flags & 2097155) !== 1; } }, isWrite: { /** @this {FS.FSStream} */ get: function() { return (this.flags & 2097155) !== 0; } }, isAppend: { /** @this {FS.FSStream} */ get: function() { return (this.flags & 1024); } }, flags: { /** @this {FS.FSStream} */ get: function() { return this.shared.flags; }, /** @this {FS.FSStream} */ set: function(val) { this.shared.flags = val; }, }, position : { /** @this {FS.FSStream} */ get: function() { return this.shared.position; }, /** @this {FS.FSStream} */ set: function(val) { this.shared.position = val; }, }, }); } // clone it, so we can return an instance of FSStream stream = Object.assign(new FS.FSStream(), stream); var fd = FS.nextfd(fd_start, fd_end); stream.fd = fd; FS.streams[fd] = stream; return stream; },closeStream:(fd) => { FS.streams[fd] = null; },chrdev_stream_ops:{open:(stream) => { var device = FS.getDevice(stream.node.rdev); // override node's stream ops with the device's stream.stream_ops = device.stream_ops; // forward the open call if (stream.stream_ops.open) { stream.stream_ops.open(stream); } },llseek:() => { throw new FS.ErrnoError(70); }},major:(dev) => ((dev) >> 8),minor:(dev) => ((dev) & 0xff),makedev:(ma, mi) => ((ma) << 8 | (mi)),registerDevice:(dev, ops) => { FS.devices[dev] = { stream_ops: ops }; },getDevice:(dev) => FS.devices[dev],getMounts:(mount) => { var mounts = []; var check = [mount]; while (check.length) { var m = check.pop(); mounts.push(m); check.push.apply(check, m.mounts); } return mounts; },syncfs:(populate, callback) => { if (typeof populate == 'function') { callback = populate; populate = false; } FS.syncFSRequests++; if (FS.syncFSRequests > 1) { err('warning: ' + FS.syncFSRequests + ' FS.syncfs operations in flight at once, probably just doing extra work'); } var mounts = FS.getMounts(FS.root.mount); var completed = 0; function doCallback(errCode) { assert(FS.syncFSRequests > 0); FS.syncFSRequests--; return callback(errCode); } function done(errCode) { if (errCode) { if (!done.errored) { done.errored = true; return doCallback(errCode); } return; } if (++completed >= mounts.length) { doCallback(null); } }; // sync all mounts mounts.forEach((mount) => { if (!mount.type.syncfs) { return done(null); } mount.type.syncfs(mount, populate, done); }); },mount:(type, opts, mountpoint) => { if (typeof type == 'string') { // The filesystem was not included, and instead we have an error // message stored in the variable. throw type; } var root = mountpoint === '/'; var pseudo = !mountpoint; var node; if (root && FS.root) { throw new FS.ErrnoError(10); } else if (!root && !pseudo) { var lookup = FS.lookupPath(mountpoint, { follow_mount: false }); mountpoint = lookup.path; // use the absolute path node = lookup.node; if (FS.isMountpoint(node)) { throw new FS.ErrnoError(10); } if (!FS.isDir(node.mode)) { throw new FS.ErrnoError(54); } } var mount = { type: type, opts: opts, mountpoint: mountpoint, mounts: [] }; // create a root node for the fs var mountRoot = type.mount(mount); mountRoot.mount = mount; mount.root = mountRoot; if (root) { FS.root = mountRoot; } else if (node) { // set as a mountpoint node.mounted = mount; // add the new mount to the current mount's children if (node.mount) { node.mount.mounts.push(mount); } } return mountRoot; },unmount:(mountpoint) => { var lookup = FS.lookupPath(mountpoint, { follow_mount: false }); if (!FS.isMountpoint(lookup.node)) { throw new FS.ErrnoError(28); } // destroy the nodes for this mount, and all its child mounts var node = lookup.node; var mount = node.mounted; var mounts = FS.getMounts(mount); Object.keys(FS.nameTable).forEach((hash) => { var current = FS.nameTable[hash]; while (current) { var next = current.name_next; if (mounts.includes(current.mount)) { FS.destroyNode(current); } current = next; } }); // no longer a mountpoint node.mounted = null; // remove this mount from the child mounts var idx = node.mount.mounts.indexOf(mount); assert(idx !== -1); node.mount.mounts.splice(idx, 1); },lookup:(parent, name) => { return parent.node_ops.lookup(parent, name); },mknod:(path, mode, dev) => { var lookup = FS.lookupPath(path, { parent: true }); var parent = lookup.node; var name = PATH.basename(path); if (!name || name === '.' || name === '..') { throw new FS.ErrnoError(28); } var errCode = FS.mayCreate(parent, name); if (errCode) { throw new FS.ErrnoError(errCode); } if (!parent.node_ops.mknod) { throw new FS.ErrnoError(63); } return parent.node_ops.mknod(parent, name, mode, dev); },create:(path, mode) => { mode = mode !== undefined ? mode : 438 /* 0666 */; mode &= 4095; mode |= 32768; return FS.mknod(path, mode, 0); },mkdir:(path, mode) => { mode = mode !== undefined ? mode : 511 /* 0777 */; mode &= 511 | 512; mode |= 16384; return FS.mknod(path, mode, 0); },mkdirTree:(path, mode) => { var dirs = path.split('/'); var d = ''; for (var i = 0; i < dirs.length; ++i) { if (!dirs[i]) continue; d += '/' + dirs[i]; try { FS.mkdir(d, mode); } catch(e) { if (e.errno != 20) throw e; } } },mkdev:(path, mode, dev) => { if (typeof dev == 'undefined') { dev = mode; mode = 438 /* 0666 */; } mode |= 8192; return FS.mknod(path, mode, dev); },symlink:(oldpath, newpath) => { if (!PATH_FS.resolve(oldpath)) { throw new FS.ErrnoError(44); } var lookup = FS.lookupPath(newpath, { parent: true }); var parent = lookup.node; if (!parent) { throw new FS.ErrnoError(44); } var newname = PATH.basename(newpath); var errCode = FS.mayCreate(parent, newname); if (errCode) { throw new FS.ErrnoError(errCode); } if (!parent.node_ops.symlink) { throw new FS.ErrnoError(63); } return parent.node_ops.symlink(parent, newname, oldpath); },rename:(old_path, new_path) => { var old_dirname = PATH.dirname(old_path); var new_dirname = PATH.dirname(new_path); var old_name = PATH.basename(old_path); var new_name = PATH.basename(new_path); // parents must exist var lookup, old_dir, new_dir; // let the errors from non existant directories percolate up lookup = FS.lookupPath(old_path, { parent: true }); old_dir = lookup.node; lookup = FS.lookupPath(new_path, { parent: true }); new_dir = lookup.node; if (!old_dir || !new_dir) throw new FS.ErrnoError(44); // need to be part of the same mount if (old_dir.mount !== new_dir.mount) { throw new FS.ErrnoError(75); } // source must exist var old_node = FS.lookupNode(old_dir, old_name); // old path should not be an ancestor of the new path var relative = PATH_FS.relative(old_path, new_dirname); if (relative.charAt(0) !== '.') { throw new FS.ErrnoError(28); } // new path should not be an ancestor of the old path relative = PATH_FS.relative(new_path, old_dirname); if (relative.charAt(0) !== '.') { throw new FS.ErrnoError(55); } // see if the new path already exists var new_node; try { new_node = FS.lookupNode(new_dir, new_name); } catch (e) { // not fatal } // early out if nothing needs to change if (old_node === new_node) { return; } // we'll need to delete the old entry var isdir = FS.isDir(old_node.mode); var errCode = FS.mayDelete(old_dir, old_name, isdir); if (errCode) { throw new FS.ErrnoError(errCode); } // need delete permissions if we'll be overwriting. // need create permissions if new doesn't already exist. errCode = new_node ? FS.mayDelete(new_dir, new_name, isdir) : FS.mayCreate(new_dir, new_name); if (errCode) { throw new FS.ErrnoError(errCode); } if (!old_dir.node_ops.rename) { throw new FS.ErrnoError(63); } if (FS.isMountpoint(old_node) || (new_node && FS.isMountpoint(new_node))) { throw new FS.ErrnoError(10); } // if we are going to change the parent, check write permissions if (new_dir !== old_dir) { errCode = FS.nodePermissions(old_dir, 'w'); if (errCode) { throw new FS.ErrnoError(errCode); } } // remove the node from the lookup hash FS.hashRemoveNode(old_node); // do the underlying fs rename try { old_dir.node_ops.rename(old_node, new_dir, new_name); } catch (e) { throw e; } finally { // add the node back to the hash (in case node_ops.rename // changed its name) FS.hashAddNode(old_node); } },rmdir:(path) => { var lookup = FS.lookupPath(path, { parent: true }); var parent = lookup.node; var name = PATH.basename(path); var node = FS.lookupNode(parent, name); var errCode = FS.mayDelete(parent, name, true); if (errCode) { throw new FS.ErrnoError(errCode); } if (!parent.node_ops.rmdir) { throw new FS.ErrnoError(63); } if (FS.isMountpoint(node)) { throw new FS.ErrnoError(10); } parent.node_ops.rmdir(parent, name); FS.destroyNode(node); },readdir:(path) => { var lookup = FS.lookupPath(path, { follow: true }); var node = lookup.node; if (!node.node_ops.readdir) { throw new FS.ErrnoError(54); } return node.node_ops.readdir(node); },unlink:(path) => { var lookup = FS.lookupPath(path, { parent: true }); var parent = lookup.node; if (!parent) { throw new FS.ErrnoError(44); } var name = PATH.basename(path); var node = FS.lookupNode(parent, name); var errCode = FS.mayDelete(parent, name, false); if (errCode) { // According to POSIX, we should map EISDIR to EPERM, but // we instead do what Linux does (and we must, as we use // the musl linux libc). throw new FS.ErrnoError(errCode); } if (!parent.node_ops.unlink) { throw new FS.ErrnoError(63); } if (FS.isMountpoint(node)) { throw new FS.ErrnoError(10); } parent.node_ops.unlink(parent, name); FS.destroyNode(node); },readlink:(path) => { var lookup = FS.lookupPath(path); var link = lookup.node; if (!link) { throw new FS.ErrnoError(44); } if (!link.node_ops.readlink) { throw new FS.ErrnoError(28); } return PATH_FS.resolve(FS.getPath(link.parent), link.node_ops.readlink(link)); },stat:(path, dontFollow) => { var lookup = FS.lookupPath(path, { follow: !dontFollow }); var node = lookup.node; if (!node) { throw new FS.ErrnoError(44); } if (!node.node_ops.getattr) { throw new FS.ErrnoError(63); } return node.node_ops.getattr(node); },lstat:(path) => { return FS.stat(path, true); },chmod:(path, mode, dontFollow) => { var node; if (typeof path == 'string') { var lookup = FS.lookupPath(path, { follow: !dontFollow }); node = lookup.node; } else { node = path; } if (!node.node_ops.setattr) { throw new FS.ErrnoError(63); } node.node_ops.setattr(node, { mode: (mode & 4095) | (node.mode & ~4095), timestamp: Date.now() }); },lchmod:(path, mode) => { FS.chmod(path, mode, true); },fchmod:(fd, mode) => { var stream = FS.getStream(fd); if (!stream) { throw new FS.ErrnoError(8); } FS.chmod(stream.node, mode); },chown:(path, uid, gid, dontFollow) => { var node; if (typeof path == 'string') { var lookup = FS.lookupPath(path, { follow: !dontFollow }); node = lookup.node; } else { node = path; } if (!node.node_ops.setattr) { throw new FS.ErrnoError(63); } node.node_ops.setattr(node, { timestamp: Date.now() // we ignore the uid / gid for now }); },lchown:(path, uid, gid) => { FS.chown(path, uid, gid, true); },fchown:(fd, uid, gid) => { var stream = FS.getStream(fd); if (!stream) { throw new FS.ErrnoError(8); } FS.chown(stream.node, uid, gid); },truncate:(path, len) => { if (len < 0) { throw new FS.ErrnoError(28); } var node; if (typeof path == 'string') { var lookup = FS.lookupPath(path, { follow: true }); node = lookup.node; } else { node = path; } if (!node.node_ops.setattr) { throw new FS.ErrnoError(63); } if (FS.isDir(node.mode)) { throw new FS.ErrnoError(31); } if (!FS.isFile(node.mode)) { throw new FS.ErrnoError(28); } var errCode = FS.nodePermissions(node, 'w'); if (errCode) { throw new FS.ErrnoError(errCode); } node.node_ops.setattr(node, { size: len, timestamp: Date.now() }); },ftruncate:(fd, len) => { var stream = FS.getStream(fd); if (!stream) { throw new FS.ErrnoError(8); } if ((stream.flags & 2097155) === 0) { throw new FS.ErrnoError(28); } FS.truncate(stream.node, len); },utime:(path, atime, mtime) => { var lookup = FS.lookupPath(path, { follow: true }); var node = lookup.node; node.node_ops.setattr(node, { timestamp: Math.max(atime, mtime) }); },open:(path, flags, mode) => { if (path === "") { throw new FS.ErrnoError(44); } flags = typeof flags == 'string' ? FS.modeStringToFlags(flags) : flags; mode = typeof mode == 'undefined' ? 438 /* 0666 */ : mode; if ((flags & 64)) { mode = (mode & 4095) | 32768; } else { mode = 0; } var node; if (typeof path == 'object') { node = path; } else { path = PATH.normalize(path); try { var lookup = FS.lookupPath(path, { follow: !(flags & 131072) }); node = lookup.node; } catch (e) { // ignore } } // perhaps we need to create the node var created = false; if ((flags & 64)) { if (node) { // if O_CREAT and O_EXCL are set, error out if the node already exists if ((flags & 128)) { throw new FS.ErrnoError(20); } } else { // node doesn't exist, try to create it node = FS.mknod(path, mode, 0); created = true; } } if (!node) { throw new FS.ErrnoError(44); } // can't truncate a device if (FS.isChrdev(node.mode)) { flags &= ~512; } // if asked only for a directory, then this must be one if ((flags & 65536) && !FS.isDir(node.mode)) { throw new FS.ErrnoError(54); } // check permissions, if this is not a file we just created now (it is ok to // create and write to a file with read-only permissions; it is read-only // for later use) if (!created) { var errCode = FS.mayOpen(node, flags); if (errCode) { throw new FS.ErrnoError(errCode); } } // do truncation if necessary if ((flags & 512) && !created) { FS.truncate(node, 0); } // we've already handled these, don't pass down to the underlying vfs flags &= ~(128 | 512 | 131072); // register the stream with the filesystem var stream = FS.createStream({ node: node, path: FS.getPath(node), // we want the absolute path to the node flags: flags, seekable: true, position: 0, stream_ops: node.stream_ops, // used by the file family libc calls (fopen, fwrite, ferror, etc.) ungotten: [], error: false }); // call the new stream's open function if (stream.stream_ops.open) { stream.stream_ops.open(stream); } if (Module['logReadFiles'] && !(flags & 1)) { if (!FS.readFiles) FS.readFiles = {}; if (!(path in FS.readFiles)) { FS.readFiles[path] = 1; } } return stream; },close:(stream) => { if (FS.isClosed(stream)) { throw new FS.ErrnoError(8); } if (stream.getdents) stream.getdents = null; // free readdir state try { if (stream.stream_ops.close) { stream.stream_ops.close(stream); } } catch (e) { throw e; } finally { FS.closeStream(stream.fd); } stream.fd = null; },isClosed:(stream) => { return stream.fd === null; },llseek:(stream, offset, whence) => { if (FS.isClosed(stream)) { throw new FS.ErrnoError(8); } if (!stream.seekable || !stream.stream_ops.llseek) { throw new FS.ErrnoError(70); } if (whence != 0 && whence != 1 && whence != 2) { throw new FS.ErrnoError(28); } stream.position = stream.stream_ops.llseek(stream, offset, whence); stream.ungotten = []; return stream.position; },read:(stream, buffer, offset, length, position) => { if (length < 0 || position < 0) { throw new FS.ErrnoError(28); } if (FS.isClosed(stream)) { throw new FS.ErrnoError(8); } if ((stream.flags & 2097155) === 1) { throw new FS.ErrnoError(8); } if (FS.isDir(stream.node.mode)) { throw new FS.ErrnoError(31); } if (!stream.stream_ops.read) { throw new FS.ErrnoError(28); } var seeking = typeof position != 'undefined'; if (!seeking) { position = stream.position; } else if (!stream.seekable) { throw new FS.ErrnoError(70); } var bytesRead = stream.stream_ops.read(stream, buffer, offset, length, position); if (!seeking) stream.position += bytesRead; return bytesRead; },write:(stream, buffer, offset, length, position, canOwn) => { if (length < 0 || position < 0) { throw new FS.ErrnoError(28); } if (FS.isClosed(stream)) { throw new FS.ErrnoError(8); } if ((stream.flags & 2097155) === 0) { throw new FS.ErrnoError(8); } if (FS.isDir(stream.node.mode)) { throw new FS.ErrnoError(31); } if (!stream.stream_ops.write) { throw new FS.ErrnoError(28); } if (stream.seekable && stream.flags & 1024) { // seek to the end before writing in append mode FS.llseek(stream, 0, 2); } var seeking = typeof position != 'undefined'; if (!seeking) { position = stream.position; } else if (!stream.seekable) { throw new FS.ErrnoError(70); } var bytesWritten = stream.stream_ops.write(stream, buffer, offset, length, position, canOwn); if (!seeking) stream.position += bytesWritten; return bytesWritten; },allocate:(stream, offset, length) => { if (FS.isClosed(stream)) { throw new FS.ErrnoError(8); } if (offset < 0 || length <= 0) { throw new FS.ErrnoError(28); } if ((stream.flags & 2097155) === 0) { throw new FS.ErrnoError(8); } if (!FS.isFile(stream.node.mode) && !FS.isDir(stream.node.mode)) { throw new FS.ErrnoError(43); } if (!stream.stream_ops.allocate) { throw new FS.ErrnoError(138); } stream.stream_ops.allocate(stream, offset, length); },mmap:(stream, length, position, prot, flags) => { // User requests writing to file (prot & PROT_WRITE != 0). // Checking if we have permissions to write to the file unless // MAP_PRIVATE flag is set. According to POSIX spec it is possible // to write to file opened in read-only mode with MAP_PRIVATE flag, // as all modifications will be visible only in the memory of // the current process. if ((prot & 2) !== 0 && (flags & 2) === 0 && (stream.flags & 2097155) !== 2) { throw new FS.ErrnoError(2); } if ((stream.flags & 2097155) === 1) { throw new FS.ErrnoError(2); } if (!stream.stream_ops.mmap) { throw new FS.ErrnoError(43); } return stream.stream_ops.mmap(stream, length, position, prot, flags); },msync:(stream, buffer, offset, length, mmapFlags) => { if (!stream.stream_ops.msync) { return 0; } return stream.stream_ops.msync(stream, buffer, offset, length, mmapFlags); },munmap:(stream) => 0,ioctl:(stream, cmd, arg) => { if (!stream.stream_ops.ioctl) { throw new FS.ErrnoError(59); } return stream.stream_ops.ioctl(stream, cmd, arg); },readFile:(path, opts = {}) => { opts.flags = opts.flags || 0; opts.encoding = opts.encoding || 'binary'; if (opts.encoding !== 'utf8' && opts.encoding !== 'binary') { throw new Error('Invalid encoding type "' + opts.encoding + '"'); } var ret; var stream = FS.open(path, opts.flags); var stat = FS.stat(path); var length = stat.size; var buf = new Uint8Array(length); FS.read(stream, buf, 0, length, 0); if (opts.encoding === 'utf8') { ret = UTF8ArrayToString(buf, 0); } else if (opts.encoding === 'binary') { ret = buf; } FS.close(stream); return ret; },writeFile:(path, data, opts = {}) => { opts.flags = opts.flags || 577; var stream = FS.open(path, opts.flags, opts.mode); if (typeof data == 'string') { var buf = new Uint8Array(lengthBytesUTF8(data)+1); var actualNumBytes = stringToUTF8Array(data, buf, 0, buf.length); FS.write(stream, buf, 0, actualNumBytes, undefined, opts.canOwn); } else if (ArrayBuffer.isView(data)) { FS.write(stream, data, 0, data.byteLength, undefined, opts.canOwn); } else { throw new Error('Unsupported data type'); } FS.close(stream); },cwd:() => FS.currentPath,chdir:(path) => { var lookup = FS.lookupPath(path, { follow: true }); if (lookup.node === null) { throw new FS.ErrnoError(44); } if (!FS.isDir(lookup.node.mode)) { throw new FS.ErrnoError(54); } var errCode = FS.nodePermissions(lookup.node, 'x'); if (errCode) { throw new FS.ErrnoError(errCode); } FS.currentPath = lookup.path; },createDefaultDirectories:() => { FS.mkdir('/tmp'); FS.mkdir('/home'); FS.mkdir('/home/web_user'); },createDefaultDevices:() => { // create /dev FS.mkdir('/dev'); // setup /dev/null FS.registerDevice(FS.makedev(1, 3), { read: () => 0, write: (stream, buffer, offset, length, pos) => length, }); FS.mkdev('/dev/null', FS.makedev(1, 3)); // setup /dev/tty and /dev/tty1 // stderr needs to print output using err() rather than out() // so we register a second tty just for it. TTY.register(FS.makedev(5, 0), TTY.default_tty_ops); TTY.register(FS.makedev(6, 0), TTY.default_tty1_ops); FS.mkdev('/dev/tty', FS.makedev(5, 0)); FS.mkdev('/dev/tty1', FS.makedev(6, 0)); // setup /dev/[u]random var random_device = getRandomDevice(); FS.createDevice('/dev', 'random', random_device); FS.createDevice('/dev', 'urandom', random_device); // we're not going to emulate the actual shm device, // just create the tmp dirs that reside in it commonly FS.mkdir('/dev/shm'); FS.mkdir('/dev/shm/tmp'); },createSpecialDirectories:() => { // create /proc/self/fd which allows /proc/self/fd/6 => readlink gives the // name of the stream for fd 6 (see test_unistd_ttyname) FS.mkdir('/proc'); var proc_self = FS.mkdir('/proc/self'); FS.mkdir('/proc/self/fd'); FS.mount({ mount: () => { var node = FS.createNode(proc_self, 'fd', 16384 | 511 /* 0777 */, 73); node.node_ops = { lookup: (parent, name) => { var fd = +name; var stream = FS.getStream(fd); if (!stream) throw new FS.ErrnoError(8); var ret = { parent: null, mount: { mountpoint: 'fake' }, node_ops: { readlink: () => stream.path }, }; ret.parent = ret; // make it look like a simple root node return ret; } }; return node; } }, {}, '/proc/self/fd'); },createStandardStreams:() => { // TODO deprecate the old functionality of a single // input / output callback and that utilizes FS.createDevice // and instead require a unique set of stream ops // by default, we symlink the standard streams to the // default tty devices. however, if the standard streams // have been overwritten we create a unique device for // them instead. if (Module['stdin']) { FS.createDevice('/dev', 'stdin', Module['stdin']); } else { FS.symlink('/dev/tty', '/dev/stdin'); } if (Module['stdout']) { FS.createDevice('/dev', 'stdout', null, Module['stdout']); } else { FS.symlink('/dev/tty', '/dev/stdout'); } if (Module['stderr']) { FS.createDevice('/dev', 'stderr', null, Module['stderr']); } else { FS.symlink('/dev/tty1', '/dev/stderr'); } // open default streams for the stdin, stdout and stderr devices var stdin = FS.open('/dev/stdin', 0); var stdout = FS.open('/dev/stdout', 1); var stderr = FS.open('/dev/stderr', 1); assert(stdin.fd === 0, 'invalid handle for stdin (' + stdin.fd + ')'); assert(stdout.fd === 1, 'invalid handle for stdout (' + stdout.fd + ')'); assert(stderr.fd === 2, 'invalid handle for stderr (' + stderr.fd + ')'); },ensureErrnoError:() => { if (FS.ErrnoError) return; FS.ErrnoError = /** @this{Object} */ function ErrnoError(errno, node) { this.node = node; this.setErrno = /** @this{Object} */ function(errno) { this.errno = errno; for (var key in ERRNO_CODES) { if (ERRNO_CODES[key] === errno) { this.code = key; break; } } }; this.setErrno(errno); this.message = ERRNO_MESSAGES[errno]; // Try to get a maximally helpful stack trace. On Node.js, getting Error.stack // now ensures it shows what we want. if (this.stack) { // Define the stack property for Node.js 4, which otherwise errors on the next line. Object.defineProperty(this, "stack", { value: (new Error).stack, writable: true }); this.stack = demangleAll(this.stack); } }; FS.ErrnoError.prototype = new Error(); FS.ErrnoError.prototype.constructor = FS.ErrnoError; // Some errors may happen quite a bit, to avoid overhead we reuse them (and suffer a lack of stack info) [44].forEach((code) => { FS.genericErrors[code] = new FS.ErrnoError(code); FS.genericErrors[code].stack = ''; }); },staticInit:() => { FS.ensureErrnoError(); FS.nameTable = new Array(4096); FS.mount(MEMFS, {}, '/'); FS.createDefaultDirectories(); FS.createDefaultDevices(); FS.createSpecialDirectories(); FS.filesystems = { 'MEMFS': MEMFS, }; },init:(input, output, error) => { assert(!FS.init.initialized, 'FS.init was previously called. If you want to initialize later with custom parameters, remove any earlier calls (note that one is automatically added to the generated code)'); FS.init.initialized = true; FS.ensureErrnoError(); // Allow Module.stdin etc. to provide defaults, if none explicitly passed to us here Module['stdin'] = input || Module['stdin']; Module['stdout'] = output || Module['stdout']; Module['stderr'] = error || Module['stderr']; FS.createStandardStreams(); },quit:() => { FS.init.initialized = false; // force-flush all streams, so we get musl std streams printed out _fflush(0); // close all of our streams for (var i = 0; i < FS.streams.length; i++) { var stream = FS.streams[i]; if (!stream) { continue; } FS.close(stream); } },getMode:(canRead, canWrite) => { var mode = 0; if (canRead) mode |= 292 | 73; if (canWrite) mode |= 146; return mode; },findObject:(path, dontResolveLastLink) => { var ret = FS.analyzePath(path, dontResolveLastLink); if (!ret.exists) { return null; } return ret.object; },analyzePath:(path, dontResolveLastLink) => { // operate from within the context of the symlink's target try { var lookup = FS.lookupPath(path, { follow: !dontResolveLastLink }); path = lookup.path; } catch (e) { } var ret = { isRoot: false, exists: false, error: 0, name: null, path: null, object: null, parentExists: false, parentPath: null, parentObject: null }; try { var lookup = FS.lookupPath(path, { parent: true }); ret.parentExists = true; ret.parentPath = lookup.path; ret.parentObject = lookup.node; ret.name = PATH.basename(path); lookup = FS.lookupPath(path, { follow: !dontResolveLastLink }); ret.exists = true; ret.path = lookup.path; ret.object = lookup.node; ret.name = lookup.node.name; ret.isRoot = lookup.path === '/'; } catch (e) { ret.error = e.errno; }; return ret; },createPath:(parent, path, canRead, canWrite) => { parent = typeof parent == 'string' ? parent : FS.getPath(parent); var parts = path.split('/').reverse(); while (parts.length) { var part = parts.pop(); if (!part) continue; var current = PATH.join2(parent, part); try { FS.mkdir(current); } catch (e) { // ignore EEXIST } parent = current; } return current; },createFile:(parent, name, properties, canRead, canWrite) => { var path = PATH.join2(typeof parent == 'string' ? parent : FS.getPath(parent), name); var mode = FS.getMode(canRead, canWrite); return FS.create(path, mode); },createDataFile:(parent, name, data, canRead, canWrite, canOwn) => { var path = name; if (parent) { parent = typeof parent == 'string' ? parent : FS.getPath(parent); path = name ? PATH.join2(parent, name) : parent; } var mode = FS.getMode(canRead, canWrite); var node = FS.create(path, mode); if (data) { if (typeof data == 'string') { var arr = new Array(data.length); for (var i = 0, len = data.length; i < len; ++i) arr[i] = data.charCodeAt(i); data = arr; } // make sure we can write to the file FS.chmod(node, mode | 146); var stream = FS.open(node, 577); FS.write(stream, data, 0, data.length, 0, canOwn); FS.close(stream); FS.chmod(node, mode); } return node; },createDevice:(parent, name, input, output) => { var path = PATH.join2(typeof parent == 'string' ? parent : FS.getPath(parent), name); var mode = FS.getMode(!!input, !!output); if (!FS.createDevice.major) FS.createDevice.major = 64; var dev = FS.makedev(FS.createDevice.major++, 0); // Create a fake device that a set of stream ops to emulate // the old behavior. FS.registerDevice(dev, { open: (stream) => { stream.seekable = false; }, close: (stream) => { // flush any pending line data if (output && output.buffer && output.buffer.length) { output(10); } }, read: (stream, buffer, offset, length, pos /* ignored */) => { var bytesRead = 0; for (var i = 0; i < length; i++) { var result; try { result = input(); } catch (e) { throw new FS.ErrnoError(29); } if (result === undefined && bytesRead === 0) { throw new FS.ErrnoError(6); } if (result === null || result === undefined) break; bytesRead++; buffer[offset+i] = result; } if (bytesRead) { stream.node.timestamp = Date.now(); } return bytesRead; }, write: (stream, buffer, offset, length, pos) => { for (var i = 0; i < length; i++) { try { output(buffer[offset+i]); } catch (e) { throw new FS.ErrnoError(29); } } if (length) { stream.node.timestamp = Date.now(); } return i; } }); return FS.mkdev(path, mode, dev); },forceLoadFile:(obj) => { if (obj.isDevice || obj.isFolder || obj.link || obj.contents) return true; if (typeof XMLHttpRequest != 'undefined') { throw new Error("Lazy loading should have been performed (contents set) in createLazyFile, but it was not. Lazy loading only works in web workers. Use --embed-file or --preload-file in emcc on the main thread."); } else if (read_) { // Command-line. try { // WARNING: Can't read binary files in V8's d8 or tracemonkey's js, as // read() will try to parse UTF8. obj.contents = intArrayFromString(read_(obj.url), true); obj.usedBytes = obj.contents.length; } catch (e) { throw new FS.ErrnoError(29); } } else { throw new Error('Cannot load without read() or XMLHttpRequest.'); } },createLazyFile:(parent, name, url, canRead, canWrite) => { // Lazy chunked Uint8Array (implements get and length from Uint8Array). Actual getting is abstracted away for eventual reuse. /** @constructor */ function LazyUint8Array() { this.lengthKnown = false; this.chunks = []; // Loaded chunks. Index is the chunk number } LazyUint8Array.prototype.get = /** @this{Object} */ function LazyUint8Array_get(idx) { if (idx > this.length-1 || idx < 0) { return undefined; } var chunkOffset = idx % this.chunkSize; var chunkNum = (idx / this.chunkSize)|0; return this.getter(chunkNum)[chunkOffset]; }; LazyUint8Array.prototype.setDataGetter = function LazyUint8Array_setDataGetter(getter) { this.getter = getter; }; LazyUint8Array.prototype.cacheLength = function LazyUint8Array_cacheLength() { // Find length var xhr = new XMLHttpRequest(); xhr.open('HEAD', url, false); xhr.send(null); if (!(xhr.status >= 200 && xhr.status < 300 || xhr.status === 304)) throw new Error("Couldn't load " + url + ". Status: " + xhr.status); var datalength = Number(xhr.getResponseHeader("Content-length")); var header; var hasByteServing = (header = xhr.getResponseHeader("Accept-Ranges")) && header === "bytes"; var usesGzip = (header = xhr.getResponseHeader("Content-Encoding")) && header === "gzip"; var chunkSize = 1024*1024; // Chunk size in bytes if (!hasByteServing) chunkSize = datalength; // Function to get a range from the remote URL. var doXHR = (from, to) => { if (from > to) throw new Error("invalid range (" + from + ", " + to + ") or no bytes requested!"); if (to > datalength-1) throw new Error("only " + datalength + " bytes available! programmer error!"); // TODO: Use mozResponseArrayBuffer, responseStream, etc. if available. var xhr = new XMLHttpRequest(); xhr.open('GET', url, false); if (datalength !== chunkSize) xhr.setRequestHeader("Range", "bytes=" + from + "-" + to); // Some hints to the browser that we want binary data. xhr.responseType = 'arraybuffer'; if (xhr.overrideMimeType) { xhr.overrideMimeType('text/plain; charset=x-user-defined'); } xhr.send(null); if (!(xhr.status >= 200 && xhr.status < 300 || xhr.status === 304)) throw new Error("Couldn't load " + url + ". Status: " + xhr.status); if (xhr.response !== undefined) { return new Uint8Array(/** @type{Array} */(xhr.response || [])); } return intArrayFromString(xhr.responseText || '', true); }; var lazyArray = this; lazyArray.setDataGetter((chunkNum) => { var start = chunkNum * chunkSize; var end = (chunkNum+1) * chunkSize - 1; // including this byte end = Math.min(end, datalength-1); // if datalength-1 is selected, this is the last block if (typeof lazyArray.chunks[chunkNum] == 'undefined') { lazyArray.chunks[chunkNum] = doXHR(start, end); } if (typeof lazyArray.chunks[chunkNum] == 'undefined') throw new Error('doXHR failed!'); return lazyArray.chunks[chunkNum]; }); if (usesGzip || !datalength) { // if the server uses gzip or doesn't supply the length, we have to download the whole file to get the (uncompressed) length chunkSize = datalength = 1; // this will force getter(0)/doXHR do download the whole file datalength = this.getter(0).length; chunkSize = datalength; out("LazyFiles on gzip forces download of the whole file when length is accessed"); } this._length = datalength; this._chunkSize = chunkSize; this.lengthKnown = true; }; if (typeof XMLHttpRequest != 'undefined') { if (!ENVIRONMENT_IS_WORKER) throw 'Cannot do synchronous binary XHRs outside webworkers in modern browsers. Use --embed-file or --preload-file in emcc'; var lazyArray = new LazyUint8Array(); Object.defineProperties(lazyArray, { length: { get: /** @this{Object} */ function() { if (!this.lengthKnown) { this.cacheLength(); } return this._length; } }, chunkSize: { get: /** @this{Object} */ function() { if (!this.lengthKnown) { this.cacheLength(); } return this._chunkSize; } } }); var properties = { isDevice: false, contents: lazyArray }; } else { var properties = { isDevice: false, url: url }; } var node = FS.createFile(parent, name, properties, canRead, canWrite); // This is a total hack, but I want to get this lazy file code out of the // core of MEMFS. If we want to keep this lazy file concept I feel it should // be its own thin LAZYFS proxying calls to MEMFS. if (properties.contents) { node.contents = properties.contents; } else if (properties.url) { node.contents = null; node.url = properties.url; } // Add a function that defers querying the file size until it is asked the first time. Object.defineProperties(node, { usedBytes: { get: /** @this {FSNode} */ function() { return this.contents.length; } } }); // override each stream op with one that tries to force load the lazy file first var stream_ops = {}; var keys = Object.keys(node.stream_ops); keys.forEach((key) => { var fn = node.stream_ops[key]; stream_ops[key] = function forceLoadLazyFile() { FS.forceLoadFile(node); return fn.apply(null, arguments); }; }); function writeChunks(stream, buffer, offset, length, position) { var contents = stream.node.contents; if (position >= contents.length) return 0; var size = Math.min(contents.length - position, length); assert(size >= 0); if (contents.slice) { // normal array for (var i = 0; i < size; i++) { buffer[offset + i] = contents[position + i]; } } else { for (var i = 0; i < size; i++) { // LazyUint8Array from sync binary XHR buffer[offset + i] = contents.get(position + i); } } return size; } // use a custom read function stream_ops.read = (stream, buffer, offset, length, position) => { FS.forceLoadFile(node); return writeChunks(stream, buffer, offset, length, position) }; // use a custom mmap function stream_ops.mmap = (stream, length, position, prot, flags) => { FS.forceLoadFile(node); var ptr = mmapAlloc(length); if (!ptr) { throw new FS.ErrnoError(48); } writeChunks(stream, HEAP8, ptr, length, position); return { ptr: ptr, allocated: true }; }; node.stream_ops = stream_ops; return node; },createPreloadedFile:(parent, name, url, canRead, canWrite, onload, onerror, dontCreateFile, canOwn, preFinish) => { // TODO we should allow people to just pass in a complete filename instead // of parent and name being that we just join them anyways var fullname = name ? PATH_FS.resolve(PATH.join2(parent, name)) : parent; var dep = getUniqueRunDependency('cp ' + fullname); // might have several active requests for the same fullname function processData(byteArray) { function finish(byteArray) { if (preFinish) preFinish(); if (!dontCreateFile) { FS.createDataFile(parent, name, byteArray, canRead, canWrite, canOwn); } if (onload) onload(); removeRunDependency(dep); } if (Browser.handledByPreloadPlugin(byteArray, fullname, finish, () => { if (onerror) onerror(); removeRunDependency(dep); })) { return; } finish(byteArray); } addRunDependency(dep); if (typeof url == 'string') { asyncLoad(url, (byteArray) => processData(byteArray), onerror); } else { processData(url); } },indexedDB:() => { return window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB; },DB_NAME:() => { return 'EM_FS_' + window.location.pathname; },DB_VERSION:20,DB_STORE_NAME:"FILE_DATA",saveFilesToDB:(paths, onload = (() => {}), onerror = (() => {})) => { var indexedDB = FS.indexedDB(); try { var openRequest = indexedDB.open(FS.DB_NAME(), FS.DB_VERSION); } catch (e) { return onerror(e); } openRequest.onupgradeneeded = () => { out('creating db'); var db = openRequest.result; db.createObjectStore(FS.DB_STORE_NAME); }; openRequest.onsuccess = () => { var db = openRequest.result; var transaction = db.transaction([FS.DB_STORE_NAME], 'readwrite'); var files = transaction.objectStore(FS.DB_STORE_NAME); var ok = 0, fail = 0, total = paths.length; function finish() { if (fail == 0) onload(); else onerror(); } paths.forEach((path) => { var putRequest = files.put(FS.analyzePath(path).object.contents, path); putRequest.onsuccess = () => { ok++; if (ok + fail == total) finish() }; putRequest.onerror = () => { fail++; if (ok + fail == total) finish() }; }); transaction.onerror = onerror; }; openRequest.onerror = onerror; },loadFilesFromDB:(paths, onload = (() => {}), onerror = (() => {})) => { var indexedDB = FS.indexedDB(); try { var openRequest = indexedDB.open(FS.DB_NAME(), FS.DB_VERSION); } catch (e) { return onerror(e); } openRequest.onupgradeneeded = onerror; // no database to load from openRequest.onsuccess = () => { var db = openRequest.result; try { var transaction = db.transaction([FS.DB_STORE_NAME], 'readonly'); } catch(e) { onerror(e); return; } var files = transaction.objectStore(FS.DB_STORE_NAME); var ok = 0, fail = 0, total = paths.length; function finish() { if (fail == 0) onload(); else onerror(); } paths.forEach((path) => { var getRequest = files.get(path); getRequest.onsuccess = () => { if (FS.analyzePath(path).exists) { FS.unlink(path); } FS.createDataFile(PATH.dirname(path), PATH.basename(path), getRequest.result, true, true, true); ok++; if (ok + fail == total) finish(); }; getRequest.onerror = () => { fail++; if (ok + fail == total) finish() }; }); transaction.onerror = onerror; }; openRequest.onerror = onerror; },absolutePath:() => { abort('FS.absolutePath has been removed; use PATH_FS.resolve instead'); },createFolder:() => { abort('FS.createFolder has been removed; use FS.mkdir instead'); },createLink:() => { abort('FS.createLink has been removed; use FS.symlink instead'); },joinPath:() => { abort('FS.joinPath has been removed; use PATH.join instead'); },mmapAlloc:() => { abort('FS.mmapAlloc has been replaced by the top level function mmapAlloc'); },standardizePath:() => { abort('FS.standardizePath has been removed; use PATH.normalize instead'); }}; var SYSCALLS = {DEFAULT_POLLMASK:5,calculateAt:function(dirfd, path, allowEmpty) { if (PATH.isAbs(path)) { return path; } // relative path var dir; if (dirfd === -100) { dir = FS.cwd(); } else { var dirstream = SYSCALLS.getStreamFromFD(dirfd); dir = dirstream.path; } if (path.length == 0) { if (!allowEmpty) { throw new FS.ErrnoError(44);; } return dir; } return PATH.join2(dir, path); },doStat:function(func, path, buf) { try { var stat = func(path); } catch (e) { if (e && e.node && PATH.normalize(path) !== PATH.normalize(FS.getPath(e.node))) { // an error occurred while trying to look up the path; we should just report ENOTDIR return -54; } throw e; } HEAP32[((buf)>>2)] = stat.dev; HEAP32[(((buf)+(8))>>2)] = stat.ino; HEAP32[(((buf)+(12))>>2)] = stat.mode; HEAPU32[(((buf)+(16))>>2)] = stat.nlink; HEAP32[(((buf)+(20))>>2)] = stat.uid; HEAP32[(((buf)+(24))>>2)] = stat.gid; HEAP32[(((buf)+(28))>>2)] = stat.rdev; (tempI64 = [stat.size>>>0,(tempDouble=stat.size,(+(Math.abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math.min((+(Math.floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math.ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[(((buf)+(40))>>2)] = tempI64[0],HEAP32[(((buf)+(44))>>2)] = tempI64[1]); HEAP32[(((buf)+(48))>>2)] = 4096; HEAP32[(((buf)+(52))>>2)] = stat.blocks; var atime = stat.atime.getTime(); var mtime = stat.mtime.getTime(); var ctime = stat.ctime.getTime(); (tempI64 = [Math.floor(atime / 1000)>>>0,(tempDouble=Math.floor(atime / 1000),(+(Math.abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math.min((+(Math.floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math.ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[(((buf)+(56))>>2)] = tempI64[0],HEAP32[(((buf)+(60))>>2)] = tempI64[1]); HEAPU32[(((buf)+(64))>>2)] = (atime % 1000) * 1000; (tempI64 = [Math.floor(mtime / 1000)>>>0,(tempDouble=Math.floor(mtime / 1000),(+(Math.abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math.min((+(Math.floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math.ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[(((buf)+(72))>>2)] = tempI64[0],HEAP32[(((buf)+(76))>>2)] = tempI64[1]); HEAPU32[(((buf)+(80))>>2)] = (mtime % 1000) * 1000; (tempI64 = [Math.floor(ctime / 1000)>>>0,(tempDouble=Math.floor(ctime / 1000),(+(Math.abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math.min((+(Math.floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math.ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[(((buf)+(88))>>2)] = tempI64[0],HEAP32[(((buf)+(92))>>2)] = tempI64[1]); HEAPU32[(((buf)+(96))>>2)] = (ctime % 1000) * 1000; (tempI64 = [stat.ino>>>0,(tempDouble=stat.ino,(+(Math.abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math.min((+(Math.floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math.ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[(((buf)+(104))>>2)] = tempI64[0],HEAP32[(((buf)+(108))>>2)] = tempI64[1]); return 0; },doMsync:function(addr, stream, len, flags, offset) { if (!FS.isFile(stream.node.mode)) { throw new FS.ErrnoError(43); } if (flags & 2) { // MAP_PRIVATE calls need not to be synced back to underlying fs return 0; } var buffer = HEAPU8.slice(addr, addr + len); FS.msync(stream, buffer, offset, len, flags); },varargs:undefined,get:function() { assert(SYSCALLS.varargs != undefined); SYSCALLS.varargs += 4; var ret = HEAP32[(((SYSCALLS.varargs)-(4))>>2)]; return ret; },getStr:function(ptr) { var ret = UTF8ToString(ptr); return ret; },getStreamFromFD:function(fd) { var stream = FS.getStream(fd); if (!stream) throw new FS.ErrnoError(8); return stream; }}; function ___syscall__newselect(nfds, readfds, writefds, exceptfds, timeout) { try { // readfds are supported, // writefds checks socket open status // exceptfds not supported // timeout is always 0 - fully async assert(nfds <= 64, 'nfds must be less than or equal to 64'); // fd sets have 64 bits // TODO: this could be 1024 based on current musl headers assert(!exceptfds, 'exceptfds not supported'); var total = 0; var srcReadLow = (readfds ? HEAP32[((readfds)>>2)] : 0), srcReadHigh = (readfds ? HEAP32[(((readfds)+(4))>>2)] : 0); var srcWriteLow = (writefds ? HEAP32[((writefds)>>2)] : 0), srcWriteHigh = (writefds ? HEAP32[(((writefds)+(4))>>2)] : 0); var srcExceptLow = (exceptfds ? HEAP32[((exceptfds)>>2)] : 0), srcExceptHigh = (exceptfds ? HEAP32[(((exceptfds)+(4))>>2)] : 0); var dstReadLow = 0, dstReadHigh = 0; var dstWriteLow = 0, dstWriteHigh = 0; var dstExceptLow = 0, dstExceptHigh = 0; var allLow = (readfds ? HEAP32[((readfds)>>2)] : 0) | (writefds ? HEAP32[((writefds)>>2)] : 0) | (exceptfds ? HEAP32[((exceptfds)>>2)] : 0); var allHigh = (readfds ? HEAP32[(((readfds)+(4))>>2)] : 0) | (writefds ? HEAP32[(((writefds)+(4))>>2)] : 0) | (exceptfds ? HEAP32[(((exceptfds)+(4))>>2)] : 0); var check = function(fd, low, high, val) { return (fd < 32 ? (low & val) : (high & val)); }; for (var fd = 0; fd < nfds; fd++) { var mask = 1 << (fd % 32); if (!(check(fd, allLow, allHigh, mask))) { continue; // index isn't in the set } var stream = SYSCALLS.getStreamFromFD(fd); var flags = SYSCALLS.DEFAULT_POLLMASK; if (stream.stream_ops.poll) { flags = stream.stream_ops.poll(stream); } if ((flags & 1) && check(fd, srcReadLow, srcReadHigh, mask)) { fd < 32 ? (dstReadLow = dstReadLow | mask) : (dstReadHigh = dstReadHigh | mask); total++; } if ((flags & 4) && check(fd, srcWriteLow, srcWriteHigh, mask)) { fd < 32 ? (dstWriteLow = dstWriteLow | mask) : (dstWriteHigh = dstWriteHigh | mask); total++; } if ((flags & 2) && check(fd, srcExceptLow, srcExceptHigh, mask)) { fd < 32 ? (dstExceptLow = dstExceptLow | mask) : (dstExceptHigh = dstExceptHigh | mask); total++; } } if (readfds) { HEAP32[((readfds)>>2)] = dstReadLow; HEAP32[(((readfds)+(4))>>2)] = dstReadHigh; } if (writefds) { HEAP32[((writefds)>>2)] = dstWriteLow; HEAP32[(((writefds)+(4))>>2)] = dstWriteHigh; } if (exceptfds) { HEAP32[((exceptfds)>>2)] = dstExceptLow; HEAP32[(((exceptfds)+(4))>>2)] = dstExceptHigh; } return total; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } var SOCKFS = {mount:function(mount) { // If Module['websocket'] has already been defined (e.g. for configuring // the subprotocol/url) use that, if not initialise it to a new object. Module['websocket'] = (Module['websocket'] && ('object' === typeof Module['websocket'])) ? Module['websocket'] : {}; // Add the Event registration mechanism to the exported websocket configuration // object so we can register network callbacks from native JavaScript too. // For more documentation see system/include/emscripten/emscripten.h Module['websocket']._callbacks = {}; Module['websocket']['on'] = /** @this{Object} */ function(event, callback) { if ('function' === typeof callback) { this._callbacks[event] = callback; } return this; }; Module['websocket'].emit = /** @this{Object} */ function(event, param) { if ('function' === typeof this._callbacks[event]) { this._callbacks[event].call(this, param); } }; // If debug is enabled register simple default logging callbacks for each Event. return FS.createNode(null, '/', 16384 | 511 /* 0777 */, 0); },createSocket:function(family, type, protocol) { type &= ~526336; // Some applications may pass it; it makes no sense for a single process. var streaming = type == 1; if (streaming && protocol && protocol != 6) { throw new FS.ErrnoError(66); // if SOCK_STREAM, must be tcp or 0. } // create our internal socket structure var sock = { family: family, type: type, protocol: protocol, server: null, error: null, // Used in getsockopt for SOL_SOCKET/SO_ERROR test peers: {}, pending: [], recv_queue: [], sock_ops: SOCKFS.websocket_sock_ops }; // create the filesystem node to store the socket structure var name = SOCKFS.nextname(); var node = FS.createNode(SOCKFS.root, name, 49152, 0); node.sock = sock; // and the wrapping stream that enables library functions such // as read and write to indirectly interact with the socket var stream = FS.createStream({ path: name, node: node, flags: 2, seekable: false, stream_ops: SOCKFS.stream_ops }); // map the new stream to the socket structure (sockets have a 1:1 // relationship with a stream) sock.stream = stream; return sock; },getSocket:function(fd) { var stream = FS.getStream(fd); if (!stream || !FS.isSocket(stream.node.mode)) { return null; } return stream.node.sock; },stream_ops:{poll:function(stream) { var sock = stream.node.sock; return sock.sock_ops.poll(sock); },ioctl:function(stream, request, varargs) { var sock = stream.node.sock; return sock.sock_ops.ioctl(sock, request, varargs); },read:function(stream, buffer, offset, length, position /* ignored */) { var sock = stream.node.sock; var msg = sock.sock_ops.recvmsg(sock, length); if (!msg) { // socket is closed return 0; } buffer.set(msg.buffer, offset); return msg.buffer.length; },write:function(stream, buffer, offset, length, position /* ignored */) { var sock = stream.node.sock; return sock.sock_ops.sendmsg(sock, buffer, offset, length); },close:function(stream) { var sock = stream.node.sock; sock.sock_ops.close(sock); }},nextname:function() { if (!SOCKFS.nextname.current) { SOCKFS.nextname.current = 0; } return 'socket[' + (SOCKFS.nextname.current++) + ']'; },websocket_sock_ops:{createPeer:function(sock, addr, port) { var ws; if (typeof addr == 'object') { ws = addr; addr = null; port = null; } if (ws) { // for sockets that've already connected (e.g. we're the server) // we can inspect the _socket property for the address if (ws._socket) { addr = ws._socket.remoteAddress; port = ws._socket.remotePort; } // if we're just now initializing a connection to the remote, // inspect the url property else { var result = /ws[s]?:\/\/([^:]+):(\d+)/.exec(ws.url); if (!result) { throw new Error('WebSocket URL must be in the format ws(s)://address:port'); } addr = result[1]; port = parseInt(result[2], 10); } } else { // create the actual websocket object and connect try { // runtimeConfig gets set to true if WebSocket runtime configuration is available. var runtimeConfig = (Module['websocket'] && ('object' === typeof Module['websocket'])); // The default value is 'ws://' the replace is needed because the compiler replaces '//' comments with '#' // comments without checking context, so we'd end up with ws:#, the replace swaps the '#' for '//' again. var url = 'ws:#'.replace('#', '//'); if (runtimeConfig) { if ('string' === typeof Module['websocket']['url']) { url = Module['websocket']['url']; // Fetch runtime WebSocket URL config. } } if (url === 'ws://' || url === 'wss://') { // Is the supplied URL config just a prefix, if so complete it. var parts = addr.split('/'); url = url + parts[0] + ":" + port + "/" + parts.slice(1).join('/'); } // Make the WebSocket subprotocol (Sec-WebSocket-Protocol) default to binary if no configuration is set. var subProtocols = 'binary'; // The default value is 'binary' if (runtimeConfig) { if ('string' === typeof Module['websocket']['subprotocol']) { subProtocols = Module['websocket']['subprotocol']; // Fetch runtime WebSocket subprotocol config. } } // The default WebSocket options var opts = undefined; if (subProtocols !== 'null') { // The regex trims the string (removes spaces at the beginning and end, then splits the string by // , into an Array. Whitespace removal is important for Websockify and ws. subProtocols = subProtocols.replace(/^ +| +$/g,"").split(/ *, */); opts = subProtocols; } // some webservers (azure) does not support subprotocol header if (runtimeConfig && null === Module['websocket']['subprotocol']) { subProtocols = 'null'; opts = undefined; } // If node we use the ws library. var WebSocketConstructor; if (ENVIRONMENT_IS_NODE) { WebSocketConstructor = /** @type{(typeof WebSocket)} */(require('ws')); } else { WebSocketConstructor = WebSocket; } ws = new WebSocketConstructor(url, opts); ws.binaryType = 'arraybuffer'; } catch (e) { throw new FS.ErrnoError(23); } } var peer = { addr: addr, port: port, socket: ws, dgram_send_queue: [] }; SOCKFS.websocket_sock_ops.addPeer(sock, peer); SOCKFS.websocket_sock_ops.handlePeerEvents(sock, peer); // if this is a bound dgram socket, send the port number first to allow // us to override the ephemeral port reported to us by remotePort on the // remote end. if (sock.type === 2 && typeof sock.sport != 'undefined') { peer.dgram_send_queue.push(new Uint8Array([ 255, 255, 255, 255, 'p'.charCodeAt(0), 'o'.charCodeAt(0), 'r'.charCodeAt(0), 't'.charCodeAt(0), ((sock.sport & 0xff00) >> 8) , (sock.sport & 0xff) ])); } return peer; },getPeer:function(sock, addr, port) { return sock.peers[addr + ':' + port]; },addPeer:function(sock, peer) { sock.peers[peer.addr + ':' + peer.port] = peer; },removePeer:function(sock, peer) { delete sock.peers[peer.addr + ':' + peer.port]; },handlePeerEvents:function(sock, peer) { var first = true; var handleOpen = function () { Module['websocket'].emit('open', sock.stream.fd); try { var queued = peer.dgram_send_queue.shift(); while (queued) { peer.socket.send(queued); queued = peer.dgram_send_queue.shift(); } } catch (e) { // not much we can do here in the way of proper error handling as we've already // lied and said this data was sent. shut it down. peer.socket.close(); } }; function handleMessage(data) { if (typeof data == 'string') { var encoder = new TextEncoder(); // should be utf-8 data = encoder.encode(data); // make a typed array from the string } else { assert(data.byteLength !== undefined); // must receive an ArrayBuffer if (data.byteLength == 0) { // An empty ArrayBuffer will emit a pseudo disconnect event // as recv/recvmsg will return zero which indicates that a socket // has performed a shutdown although the connection has not been disconnected yet. return; } data = new Uint8Array(data); // make a typed array view on the array buffer } // if this is the port message, override the peer's port with it var wasfirst = first; first = false; if (wasfirst && data.length === 10 && data[0] === 255 && data[1] === 255 && data[2] === 255 && data[3] === 255 && data[4] === 'p'.charCodeAt(0) && data[5] === 'o'.charCodeAt(0) && data[6] === 'r'.charCodeAt(0) && data[7] === 't'.charCodeAt(0)) { // update the peer's port and it's key in the peer map var newport = ((data[8] << 8) | data[9]); SOCKFS.websocket_sock_ops.removePeer(sock, peer); peer.port = newport; SOCKFS.websocket_sock_ops.addPeer(sock, peer); return; } sock.recv_queue.push({ addr: peer.addr, port: peer.port, data: data }); Module['websocket'].emit('message', sock.stream.fd); }; if (ENVIRONMENT_IS_NODE) { peer.socket.on('open', handleOpen); peer.socket.on('message', function(data, isBinary) { if (!isBinary) { return; } handleMessage((new Uint8Array(data)).buffer); // copy from node Buffer -> ArrayBuffer }); peer.socket.on('close', function() { Module['websocket'].emit('close', sock.stream.fd); }); peer.socket.on('error', function(error) { // Although the ws library may pass errors that may be more descriptive than // ECONNREFUSED they are not necessarily the expected error code e.g. // ENOTFOUND on getaddrinfo seems to be node.js specific, so using ECONNREFUSED // is still probably the most useful thing to do. sock.error = 14; // Used in getsockopt for SOL_SOCKET/SO_ERROR test. Module['websocket'].emit('error', [sock.stream.fd, sock.error, 'ECONNREFUSED: Connection refused']); // don't throw }); } else { peer.socket.onopen = handleOpen; peer.socket.onclose = function() { Module['websocket'].emit('close', sock.stream.fd); }; peer.socket.onmessage = function peer_socket_onmessage(event) { handleMessage(event.data); }; peer.socket.onerror = function(error) { // The WebSocket spec only allows a 'simple event' to be thrown on error, // so we only really know as much as ECONNREFUSED. sock.error = 14; // Used in getsockopt for SOL_SOCKET/SO_ERROR test. Module['websocket'].emit('error', [sock.stream.fd, sock.error, 'ECONNREFUSED: Connection refused']); }; } },poll:function(sock) { if (sock.type === 1 && sock.server) { // listen sockets should only say they're available for reading // if there are pending clients. return sock.pending.length ? (64 | 1) : 0; } var mask = 0; var dest = sock.type === 1 ? // we only care about the socket state for connection-based sockets SOCKFS.websocket_sock_ops.getPeer(sock, sock.daddr, sock.dport) : null; if (sock.recv_queue.length || !dest || // connection-less sockets are always ready to read (dest && dest.socket.readyState === dest.socket.CLOSING) || (dest && dest.socket.readyState === dest.socket.CLOSED)) { // let recv return 0 once closed mask |= (64 | 1); } if (!dest || // connection-less sockets are always ready to write (dest && dest.socket.readyState === dest.socket.OPEN)) { mask |= 4; } if ((dest && dest.socket.readyState === dest.socket.CLOSING) || (dest && dest.socket.readyState === dest.socket.CLOSED)) { mask |= 16; } return mask; },ioctl:function(sock, request, arg) { switch (request) { case 21531: var bytes = 0; if (sock.recv_queue.length) { bytes = sock.recv_queue[0].data.length; } HEAP32[((arg)>>2)] = bytes; return 0; default: return 28; } },close:function(sock) { // if we've spawned a listen server, close it if (sock.server) { try { sock.server.close(); } catch (e) { } sock.server = null; } // close any peer connections var peers = Object.keys(sock.peers); for (var i = 0; i < peers.length; i++) { var peer = sock.peers[peers[i]]; try { peer.socket.close(); } catch (e) { } SOCKFS.websocket_sock_ops.removePeer(sock, peer); } return 0; },bind:function(sock, addr, port) { if (typeof sock.saddr != 'undefined' || typeof sock.sport != 'undefined') { throw new FS.ErrnoError(28); // already bound } sock.saddr = addr; sock.sport = port; // in order to emulate dgram sockets, we need to launch a listen server when // binding on a connection-less socket // note: this is only required on the server side if (sock.type === 2) { // close the existing server if it exists if (sock.server) { sock.server.close(); sock.server = null; } // swallow error operation not supported error that occurs when binding in the // browser where this isn't supported try { sock.sock_ops.listen(sock, 0); } catch (e) { if (!(e instanceof FS.ErrnoError)) throw e; if (e.errno !== 138) throw e; } } },connect:function(sock, addr, port) { if (sock.server) { throw new FS.ErrnoError(138); } // TODO autobind // if (!sock.addr && sock.type == 2) { // } // early out if we're already connected / in the middle of connecting if (typeof sock.daddr != 'undefined' && typeof sock.dport != 'undefined') { var dest = SOCKFS.websocket_sock_ops.getPeer(sock, sock.daddr, sock.dport); if (dest) { if (dest.socket.readyState === dest.socket.CONNECTING) { throw new FS.ErrnoError(7); } else { throw new FS.ErrnoError(30); } } } // add the socket to our peer list and set our // destination address / port to match var peer = SOCKFS.websocket_sock_ops.createPeer(sock, addr, port); sock.daddr = peer.addr; sock.dport = peer.port; // always "fail" in non-blocking mode throw new FS.ErrnoError(26); },listen:function(sock, backlog) { if (!ENVIRONMENT_IS_NODE) { throw new FS.ErrnoError(138); } if (sock.server) { throw new FS.ErrnoError(28); // already listening } var WebSocketServer = require('ws').Server; var host = sock.saddr; sock.server = new WebSocketServer({ host: host, port: sock.sport // TODO support backlog }); Module['websocket'].emit('listen', sock.stream.fd); // Send Event with listen fd. sock.server.on('connection', function(ws) { if (sock.type === 1) { var newsock = SOCKFS.createSocket(sock.family, sock.type, sock.protocol); // create a peer on the new socket var peer = SOCKFS.websocket_sock_ops.createPeer(newsock, ws); newsock.daddr = peer.addr; newsock.dport = peer.port; // push to queue for accept to pick up sock.pending.push(newsock); Module['websocket'].emit('connection', newsock.stream.fd); } else { // create a peer on the listen socket so calling sendto // with the listen socket and an address will resolve // to the correct client SOCKFS.websocket_sock_ops.createPeer(sock, ws); Module['websocket'].emit('connection', sock.stream.fd); } }); sock.server.on('close', function() { Module['websocket'].emit('close', sock.stream.fd); sock.server = null; }); sock.server.on('error', function(error) { // Although the ws library may pass errors that may be more descriptive than // ECONNREFUSED they are not necessarily the expected error code e.g. // ENOTFOUND on getaddrinfo seems to be node.js specific, so using EHOSTUNREACH // is still probably the most useful thing to do. This error shouldn't // occur in a well written app as errors should get trapped in the compiled // app's own getaddrinfo call. sock.error = 23; // Used in getsockopt for SOL_SOCKET/SO_ERROR test. Module['websocket'].emit('error', [sock.stream.fd, sock.error, 'EHOSTUNREACH: Host is unreachable']); // don't throw }); },accept:function(listensock) { if (!listensock.server || !listensock.pending.length) { throw new FS.ErrnoError(28); } var newsock = listensock.pending.shift(); newsock.stream.flags = listensock.stream.flags; return newsock; },getname:function(sock, peer) { var addr, port; if (peer) { if (sock.daddr === undefined || sock.dport === undefined) { throw new FS.ErrnoError(53); } addr = sock.daddr; port = sock.dport; } else { // TODO saddr and sport will be set for bind()'d UDP sockets, but what // should we be returning for TCP sockets that've been connect()'d? addr = sock.saddr || 0; port = sock.sport || 0; } return { addr: addr, port: port }; },sendmsg:function(sock, buffer, offset, length, addr, port) { if (sock.type === 2) { // connection-less sockets will honor the message address, // and otherwise fall back to the bound destination address if (addr === undefined || port === undefined) { addr = sock.daddr; port = sock.dport; } // if there was no address to fall back to, error out if (addr === undefined || port === undefined) { throw new FS.ErrnoError(17); } } else { // connection-based sockets will only use the bound addr = sock.daddr; port = sock.dport; } // find the peer for the destination address var dest = SOCKFS.websocket_sock_ops.getPeer(sock, addr, port); // early out if not connected with a connection-based socket if (sock.type === 1) { if (!dest || dest.socket.readyState === dest.socket.CLOSING || dest.socket.readyState === dest.socket.CLOSED) { throw new FS.ErrnoError(53); } else if (dest.socket.readyState === dest.socket.CONNECTING) { throw new FS.ErrnoError(6); } } // create a copy of the incoming data to send, as the WebSocket API // doesn't work entirely with an ArrayBufferView, it'll just send // the entire underlying buffer if (ArrayBuffer.isView(buffer)) { offset += buffer.byteOffset; buffer = buffer.buffer; } var data; data = buffer.slice(offset, offset + length); // if we're emulating a connection-less dgram socket and don't have // a cached connection, queue the buffer to send upon connect and // lie, saying the data was sent now. if (sock.type === 2) { if (!dest || dest.socket.readyState !== dest.socket.OPEN) { // if we're not connected, open a new connection if (!dest || dest.socket.readyState === dest.socket.CLOSING || dest.socket.readyState === dest.socket.CLOSED) { dest = SOCKFS.websocket_sock_ops.createPeer(sock, addr, port); } dest.dgram_send_queue.push(data); return length; } } try { // send the actual data dest.socket.send(data); return length; } catch (e) { throw new FS.ErrnoError(28); } },recvmsg:function(sock, length) { // http://pubs.opengroup.org/onlinepubs/7908799/xns/recvmsg.html if (sock.type === 1 && sock.server) { // tcp servers should not be recv()'ing on the listen socket throw new FS.ErrnoError(53); } var queued = sock.recv_queue.shift(); if (!queued) { if (sock.type === 1) { var dest = SOCKFS.websocket_sock_ops.getPeer(sock, sock.daddr, sock.dport); if (!dest) { // if we have a destination address but are not connected, error out throw new FS.ErrnoError(53); } if (dest.socket.readyState === dest.socket.CLOSING || dest.socket.readyState === dest.socket.CLOSED) { // return null if the socket has closed return null; } // else, our socket is in a valid state but truly has nothing available throw new FS.ErrnoError(6); } throw new FS.ErrnoError(6); } // queued.data will be an ArrayBuffer if it's unadulterated, but if it's // requeued TCP data it'll be an ArrayBufferView var queuedLength = queued.data.byteLength || queued.data.length; var queuedOffset = queued.data.byteOffset || 0; var queuedBuffer = queued.data.buffer || queued.data; var bytesRead = Math.min(length, queuedLength); var res = { buffer: new Uint8Array(queuedBuffer, queuedOffset, bytesRead), addr: queued.addr, port: queued.port }; // push back any unread data for TCP connections if (sock.type === 1 && bytesRead < queuedLength) { var bytesRemaining = queuedLength - bytesRead; queued.data = new Uint8Array(queuedBuffer, queuedOffset + bytesRead, bytesRemaining); sock.recv_queue.unshift(queued); } return res; }}}; function getSocketFromFD(fd) { var socket = SOCKFS.getSocket(fd); if (!socket) throw new FS.ErrnoError(8); return socket; } function setErrNo(value) { HEAP32[((___errno_location())>>2)] = value; return value; } var Sockets = {BUFFER_SIZE:10240,MAX_BUFFER_SIZE:10485760,nextFd:1,fds:{},nextport:1,maxport:65535,peer:null,connections:{},portmap:{},localAddr:4261412874,addrPool:[33554442,50331658,67108874,83886090,100663306,117440522,134217738,150994954,167772170,184549386,201326602,218103818,234881034]}; function inetNtop4(addr) { return (addr & 0xff) + '.' + ((addr >> 8) & 0xff) + '.' + ((addr >> 16) & 0xff) + '.' + ((addr >> 24) & 0xff) } function inetNtop6(ints) { // ref: http://www.ietf.org/rfc/rfc2373.txt - section 2.5.4 // Format for IPv4 compatible and mapped 128-bit IPv6 Addresses // 128-bits are split into eight 16-bit words // stored in network byte order (big-endian) // | 80 bits | 16 | 32 bits | // +-----------------------------------------------------------------+ // | 10 bytes | 2 | 4 bytes | // +--------------------------------------+--------------------------+ // + 5 words | 1 | 2 words | // +--------------------------------------+--------------------------+ // |0000..............................0000|0000| IPv4 ADDRESS | (compatible) // +--------------------------------------+----+---------------------+ // |0000..............................0000|FFFF| IPv4 ADDRESS | (mapped) // +--------------------------------------+----+---------------------+ var str = ""; var word = 0; var longest = 0; var lastzero = 0; var zstart = 0; var len = 0; var i = 0; var parts = [ ints[0] & 0xffff, (ints[0] >> 16), ints[1] & 0xffff, (ints[1] >> 16), ints[2] & 0xffff, (ints[2] >> 16), ints[3] & 0xffff, (ints[3] >> 16) ]; // Handle IPv4-compatible, IPv4-mapped, loopback and any/unspecified addresses var hasipv4 = true; var v4part = ""; // check if the 10 high-order bytes are all zeros (first 5 words) for (i = 0; i < 5; i++) { if (parts[i] !== 0) { hasipv4 = false; break; } } if (hasipv4) { // low-order 32-bits store an IPv4 address (bytes 13 to 16) (last 2 words) v4part = inetNtop4(parts[6] | (parts[7] << 16)); // IPv4-mapped IPv6 address if 16-bit value (bytes 11 and 12) == 0xFFFF (6th word) if (parts[5] === -1) { str = "::ffff:"; str += v4part; return str; } // IPv4-compatible IPv6 address if 16-bit value (bytes 11 and 12) == 0x0000 (6th word) if (parts[5] === 0) { str = "::"; //special case IPv6 addresses if (v4part === "0.0.0.0") v4part = ""; // any/unspecified address if (v4part === "0.0.0.1") v4part = "1";// loopback address str += v4part; return str; } } // Handle all other IPv6 addresses // first run to find the longest contiguous zero words for (word = 0; word < 8; word++) { if (parts[word] === 0) { if (word - lastzero > 1) { len = 0; } lastzero = word; len++; } if (len > longest) { longest = len; zstart = word - longest + 1; } } for (word = 0; word < 8; word++) { if (longest > 1) { // compress contiguous zeros - to produce "::" if (parts[word] === 0 && word >= zstart && word < (zstart + longest) ) { if (word === zstart) { str += ":"; if (zstart === 0) str += ":"; //leading zeros case } continue; } } // converts 16-bit words from big-endian to little-endian before converting to hex string str += Number(_ntohs(parts[word] & 0xffff)).toString(16); str += word < 7 ? ":" : ""; } return str; } function readSockaddr(sa, salen) { // family / port offsets are common to both sockaddr_in and sockaddr_in6 var family = HEAP16[((sa)>>1)]; var port = _ntohs(HEAPU16[(((sa)+(2))>>1)]); var addr; switch (family) { case 2: if (salen !== 16) { return { errno: 28 }; } addr = HEAP32[(((sa)+(4))>>2)]; addr = inetNtop4(addr); break; case 10: if (salen !== 28) { return { errno: 28 }; } addr = [ HEAP32[(((sa)+(8))>>2)], HEAP32[(((sa)+(12))>>2)], HEAP32[(((sa)+(16))>>2)], HEAP32[(((sa)+(20))>>2)] ]; addr = inetNtop6(addr); break; default: return { errno: 5 }; } return { family: family, addr: addr, port: port }; } function inetPton4(str) { var b = str.split('.'); for (var i = 0; i < 4; i++) { var tmp = Number(b[i]); if (isNaN(tmp)) return null; b[i] = tmp; } return (b[0] | (b[1] << 8) | (b[2] << 16) | (b[3] << 24)) >>> 0; } /** @suppress {checkTypes} */ function jstoi_q(str) { return parseInt(str); } function inetPton6(str) { var words; var w, offset, z, i; /* http://home.deds.nl/~aeron/regex/ */ var valid6regx = /^((?=.*::)(?!.*::.+::)(::)?([\dA-F]{1,4}:(:|\b)|){5}|([\dA-F]{1,4}:){6})((([\dA-F]{1,4}((?!\3)::|:\b|$))|(?!\2\3)){2}|(((2[0-4]|1\d|[1-9])?\d|25[0-5])\.?\b){4})$/i var parts = []; if (!valid6regx.test(str)) { return null; } if (str === "::") { return [0, 0, 0, 0, 0, 0, 0, 0]; } // Z placeholder to keep track of zeros when splitting the string on ":" if (str.startsWith("::")) { str = str.replace("::", "Z:"); // leading zeros case } else { str = str.replace("::", ":Z:"); } if (str.indexOf(".") > 0) { // parse IPv4 embedded stress str = str.replace(new RegExp('[.]', 'g'), ":"); words = str.split(":"); words[words.length-4] = jstoi_q(words[words.length-4]) + jstoi_q(words[words.length-3])*256; words[words.length-3] = jstoi_q(words[words.length-2]) + jstoi_q(words[words.length-1])*256; words = words.slice(0, words.length-2); } else { words = str.split(":"); } offset = 0; z = 0; for (w=0; w < words.length; w++) { if (typeof words[w] == 'string') { if (words[w] === 'Z') { // compressed zeros - write appropriate number of zero words for (z = 0; z < (8 - words.length+1); z++) { parts[w+z] = 0; } offset = z-1; } else { // parse hex to field to 16-bit value and write it in network byte-order parts[w+offset] = _htons(parseInt(words[w],16)); } } else { // parsed IPv4 words parts[w+offset] = words[w]; } } return [ (parts[1] << 16) | parts[0], (parts[3] << 16) | parts[2], (parts[5] << 16) | parts[4], (parts[7] << 16) | parts[6] ]; } var DNS = {address_map:{id:1,addrs:{},names:{}},lookup_name:function (name) { // If the name is already a valid ipv4 / ipv6 address, don't generate a fake one. var res = inetPton4(name); if (res !== null) { return name; } res = inetPton6(name); if (res !== null) { return name; } // See if this name is already mapped. var addr; if (DNS.address_map.addrs[name]) { addr = DNS.address_map.addrs[name]; } else { var id = DNS.address_map.id++; assert(id < 65535, 'exceeded max address mappings of 65535'); addr = '172.29.' + (id & 0xff) + '.' + (id & 0xff00); DNS.address_map.names[addr] = name; DNS.address_map.addrs[name] = addr; } return addr; },lookup_addr:function (addr) { if (DNS.address_map.names[addr]) { return DNS.address_map.names[addr]; } return null; }}; /** @param {boolean=} allowNull */ function getSocketAddress(addrp, addrlen, allowNull) { if (allowNull && addrp === 0) return null; var info = readSockaddr(addrp, addrlen); if (info.errno) throw new FS.ErrnoError(info.errno); info.addr = DNS.lookup_addr(info.addr) || info.addr; return info; } function ___syscall_bind(fd, addr, addrlen) { try { var sock = getSocketFromFD(fd); var info = getSocketAddress(addr, addrlen); sock.sock_ops.bind(sock, info.addr, info.port); return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_connect(fd, addr, addrlen) { try { var sock = getSocketFromFD(fd); var info = getSocketAddress(addr, addrlen); sock.sock_ops.connect(sock, info.addr, info.port); return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_dup(fd) { try { var old = SYSCALLS.getStreamFromFD(fd); return FS.createStream(old, 0).fd; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_dup3(fd, suggestFD, flags) { try { var old = SYSCALLS.getStreamFromFD(fd); assert(!flags); if (old.fd === suggestFD) return -28; var suggest = FS.getStream(suggestFD); if (suggest) FS.close(suggest); return FS.createStream(old, suggestFD, suggestFD + 1).fd; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_faccessat(dirfd, path, amode, flags) { try { path = SYSCALLS.getStr(path); assert(flags === 0); path = SYSCALLS.calculateAt(dirfd, path); if (amode & ~7) { // need a valid mode return -28; } var lookup = FS.lookupPath(path, { follow: true }); var node = lookup.node; if (!node) { return -44; } var perms = ''; if (amode & 4) perms += 'r'; if (amode & 2) perms += 'w'; if (amode & 1) perms += 'x'; if (perms /* otherwise, they've just passed F_OK */ && FS.nodePermissions(node, perms)) { return -2; } return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_fcntl64(fd, cmd, varargs) { SYSCALLS.varargs = varargs; try { var stream = SYSCALLS.getStreamFromFD(fd); switch (cmd) { case 0: { var arg = SYSCALLS.get(); if (arg < 0) { return -28; } var newStream; newStream = FS.createStream(stream, arg); return newStream.fd; } case 1: case 2: return 0; // FD_CLOEXEC makes no sense for a single process. case 3: return stream.flags; case 4: { var arg = SYSCALLS.get(); stream.flags |= arg; return 0; } case 5: /* case 5: Currently in musl F_GETLK64 has same value as F_GETLK, so omitted to avoid duplicate case blocks. If that changes, uncomment this */ { var arg = SYSCALLS.get(); var offset = 0; // We're always unlocked. HEAP16[(((arg)+(offset))>>1)] = 2; return 0; } case 6: case 7: /* case 6: Currently in musl F_SETLK64 has same value as F_SETLK, so omitted to avoid duplicate case blocks. If that changes, uncomment this */ /* case 7: Currently in musl F_SETLKW64 has same value as F_SETLKW, so omitted to avoid duplicate case blocks. If that changes, uncomment this */ return 0; // Pretend that the locking is successful. case 16: case 8: return -28; // These are for sockets. We don't have them fully implemented yet. case 9: // musl trusts getown return values, due to a bug where they must be, as they overlap with errors. just return -1 here, so fcntl() returns that, and we set errno ourselves. setErrNo(28); return -1; default: { return -28; } } } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_fstat64(fd, buf) { try { var stream = SYSCALLS.getStreamFromFD(fd); return SYSCALLS.doStat(FS.stat, stream.path, buf); } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function convertI32PairToI53Checked(lo, hi) { assert(lo == (lo >>> 0) || lo == (lo|0)); // lo should either be a i32 or a u32 assert(hi === (hi|0)); // hi should be a i32 return ((hi + 0x200000) >>> 0 < 0x400001 - !!lo) ? (lo >>> 0) + hi * 4294967296 : NaN; } function ___syscall_ftruncate64(fd, length_low, length_high) { try { var length = convertI32PairToI53Checked(length_low, length_high); if (isNaN(length)) return -61; FS.ftruncate(fd, length); return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_getdents64(fd, dirp, count) { try { var stream = SYSCALLS.getStreamFromFD(fd) if (!stream.getdents) { stream.getdents = FS.readdir(stream.path); } var struct_size = 280; var pos = 0; var off = FS.llseek(stream, 0, 1); var idx = Math.floor(off / struct_size); while (idx < stream.getdents.length && pos + struct_size <= count) { var id; var type; var name = stream.getdents[idx]; if (name === '.') { id = stream.node.id; type = 4; // DT_DIR } else if (name === '..') { var lookup = FS.lookupPath(stream.path, { parent: true }); id = lookup.node.id; type = 4; // DT_DIR } else { var child = FS.lookupNode(stream.node, name); id = child.id; type = FS.isChrdev(child.mode) ? 2 : // DT_CHR, character device. FS.isDir(child.mode) ? 4 : // DT_DIR, directory. FS.isLink(child.mode) ? 10 : // DT_LNK, symbolic link. 8; // DT_REG, regular file. } assert(id); (tempI64 = [id>>>0,(tempDouble=id,(+(Math.abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math.min((+(Math.floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math.ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[((dirp + pos)>>2)] = tempI64[0],HEAP32[(((dirp + pos)+(4))>>2)] = tempI64[1]); (tempI64 = [(idx + 1) * struct_size>>>0,(tempDouble=(idx + 1) * struct_size,(+(Math.abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math.min((+(Math.floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math.ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[(((dirp + pos)+(8))>>2)] = tempI64[0],HEAP32[(((dirp + pos)+(12))>>2)] = tempI64[1]); HEAP16[(((dirp + pos)+(16))>>1)] = 280; HEAP8[(((dirp + pos)+(18))>>0)] = type; stringToUTF8(name, dirp + pos + 19, 256); pos += struct_size; idx += 1; } FS.llseek(stream, idx * struct_size, 0); return pos; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_ioctl(fd, op, varargs) { SYSCALLS.varargs = varargs; try { var stream = SYSCALLS.getStreamFromFD(fd); switch (op) { case 21509: case 21505: { if (!stream.tty) return -59; return 0; } case 21510: case 21511: case 21512: case 21506: case 21507: case 21508: { if (!stream.tty) return -59; return 0; // no-op, not actually adjusting terminal settings } case 21519: { if (!stream.tty) return -59; var argp = SYSCALLS.get(); HEAP32[((argp)>>2)] = 0; return 0; } case 21520: { if (!stream.tty) return -59; return -28; // not supported } case 21531: { var argp = SYSCALLS.get(); return FS.ioctl(stream, op, argp); } case 21523: { // TODO: in theory we should write to the winsize struct that gets // passed in, but for now musl doesn't read anything on it if (!stream.tty) return -59; return 0; } case 21524: { // TODO: technically, this ioctl call should change the window size. // but, since emscripten doesn't have any concept of a terminal window // yet, we'll just silently throw it away as we do TIOCGWINSZ if (!stream.tty) return -59; return 0; } default: return -28; // not supported } } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_lstat64(path, buf) { try { path = SYSCALLS.getStr(path); return SYSCALLS.doStat(FS.lstat, path, buf); } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_mkdirat(dirfd, path, mode) { try { path = SYSCALLS.getStr(path); path = SYSCALLS.calculateAt(dirfd, path); // remove a trailing slash, if one - /a/b/ has basename of '', but // we want to create b in the context of this function path = PATH.normalize(path); if (path[path.length-1] === '/') path = path.substr(0, path.length-1); FS.mkdir(path, mode, 0); return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_newfstatat(dirfd, path, buf, flags) { try { path = SYSCALLS.getStr(path); var nofollow = flags & 256; var allowEmpty = flags & 4096; flags = flags & (~6400); assert(!flags, 'unknown flags in __syscall_newfstatat: ' + flags); path = SYSCALLS.calculateAt(dirfd, path, allowEmpty); return SYSCALLS.doStat(nofollow ? FS.lstat : FS.stat, path, buf); } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_openat(dirfd, path, flags, varargs) { SYSCALLS.varargs = varargs; try { path = SYSCALLS.getStr(path); path = SYSCALLS.calculateAt(dirfd, path); var mode = varargs ? SYSCALLS.get() : 0; return FS.open(path, flags, mode).fd; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } /** @param {number=} addrlen */ function writeSockaddr(sa, family, addr, port, addrlen) { switch (family) { case 2: addr = inetPton4(addr); zeroMemory(sa, 16); if (addrlen) { HEAP32[((addrlen)>>2)] = 16; } HEAP16[((sa)>>1)] = family; HEAP32[(((sa)+(4))>>2)] = addr; HEAP16[(((sa)+(2))>>1)] = _htons(port); break; case 10: addr = inetPton6(addr); zeroMemory(sa, 28); if (addrlen) { HEAP32[((addrlen)>>2)] = 28; } HEAP32[((sa)>>2)] = family; HEAP32[(((sa)+(8))>>2)] = addr[0]; HEAP32[(((sa)+(12))>>2)] = addr[1]; HEAP32[(((sa)+(16))>>2)] = addr[2]; HEAP32[(((sa)+(20))>>2)] = addr[3]; HEAP16[(((sa)+(2))>>1)] = _htons(port); break; default: return 5; } return 0; } function ___syscall_recvfrom(fd, buf, len, flags, addr, addrlen) { try { var sock = getSocketFromFD(fd); var msg = sock.sock_ops.recvmsg(sock, len); if (!msg) return 0; // socket is closed if (addr) { var errno = writeSockaddr(addr, sock.family, DNS.lookup_name(msg.addr), msg.port, addrlen); assert(!errno); } HEAPU8.set(msg.buffer, buf); return msg.buffer.byteLength; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_renameat(olddirfd, oldpath, newdirfd, newpath) { try { oldpath = SYSCALLS.getStr(oldpath); newpath = SYSCALLS.getStr(newpath); oldpath = SYSCALLS.calculateAt(olddirfd, oldpath); newpath = SYSCALLS.calculateAt(newdirfd, newpath); FS.rename(oldpath, newpath); return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_rmdir(path) { try { path = SYSCALLS.getStr(path); FS.rmdir(path); return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_sendto(fd, message, length, flags, addr, addr_len) { try { var sock = getSocketFromFD(fd); var dest = getSocketAddress(addr, addr_len, true); if (!dest) { // send, no address provided return FS.write(sock.stream, HEAP8,message, length); } // sendto an address return sock.sock_ops.sendmsg(sock, HEAP8,message, length, dest.addr, dest.port); } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_socket(domain, type, protocol) { try { var sock = SOCKFS.createSocket(domain, type, protocol); assert(sock.stream.fd < 64); // XXX ? select() assumes socket fd values are in 0..63 return sock.stream.fd; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_stat64(path, buf) { try { path = SYSCALLS.getStr(path); return SYSCALLS.doStat(FS.stat, path, buf); } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function ___syscall_unlinkat(dirfd, path, flags) { try { path = SYSCALLS.getStr(path); path = SYSCALLS.calculateAt(dirfd, path); if (flags === 0) { FS.unlink(path); } else if (flags === 512) { FS.rmdir(path); } else { abort('Invalid flags passed to unlinkat'); } return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function __dlinit(main_dso_handle) {} var dlopenMissingError = 'To use dlopen, you need enable dynamic linking, see https://github.com/emscripten-core/emscripten/wiki/Linking'; function __dlopen_js(handle) { abort(dlopenMissingError); } function __dlsym_js(handle, symbol) { abort(dlopenMissingError); } var structRegistrations = {}; function runDestructors(destructors) { while (destructors.length) { var ptr = destructors.pop(); var del = destructors.pop(); del(ptr); } } function simpleReadValueFromPointer(pointer) { return this['fromWireType'](HEAP32[((pointer)>>2)]); } var awaitingDependencies = {}; var registeredTypes = {}; var typeDependencies = {}; var char_0 = 48; var char_9 = 57; function makeLegalFunctionName(name) { if (undefined === name) { return '_unknown'; } name = name.replace(/[^a-zA-Z0-9_]/g, '$'); var f = name.charCodeAt(0); if (f >= char_0 && f <= char_9) { return '_' + name; } return name; } function createNamedFunction(name, body) { name = makeLegalFunctionName(name); /*jshint evil:true*/ return new Function( "body", "return function " + name + "() {\n" + " \"use strict\";" + " return body.apply(this, arguments);\n" + "};\n" )(body); } function extendError(baseErrorType, errorName) { var errorClass = createNamedFunction(errorName, function(message) { this.name = errorName; this.message = message; var stack = (new Error(message)).stack; if (stack !== undefined) { this.stack = this.toString() + '\n' + stack.replace(/^Error(:[^\n]*)?\n/, ''); } }); errorClass.prototype = Object.create(baseErrorType.prototype); errorClass.prototype.constructor = errorClass; errorClass.prototype.toString = function() { if (this.message === undefined) { return this.name; } else { return this.name + ': ' + this.message; } }; return errorClass; } var InternalError = undefined; function throwInternalError(message) { throw new InternalError(message); } function whenDependentTypesAreResolved(myTypes, dependentTypes, getTypeConverters) { myTypes.forEach(function(type) { typeDependencies[type] = dependentTypes; }); function onComplete(typeConverters) { var myTypeConverters = getTypeConverters(typeConverters); if (myTypeConverters.length !== myTypes.length) { throwInternalError('Mismatched type converter count'); } for (var i = 0; i < myTypes.length; ++i) { registerType(myTypes[i], myTypeConverters[i]); } } var typeConverters = new Array(dependentTypes.length); var unregisteredTypes = []; var registered = 0; dependentTypes.forEach((dt, i) => { if (registeredTypes.hasOwnProperty(dt)) { typeConverters[i] = registeredTypes[dt]; } else { unregisteredTypes.push(dt); if (!awaitingDependencies.hasOwnProperty(dt)) { awaitingDependencies[dt] = []; } awaitingDependencies[dt].push(() => { typeConverters[i] = registeredTypes[dt]; ++registered; if (registered === unregisteredTypes.length) { onComplete(typeConverters); } }); } }); if (0 === unregisteredTypes.length) { onComplete(typeConverters); } } function __embind_finalize_value_object(structType) { var reg = structRegistrations[structType]; delete structRegistrations[structType]; var rawConstructor = reg.rawConstructor; var rawDestructor = reg.rawDestructor; var fieldRecords = reg.fields; var fieldTypes = fieldRecords.map((field) => field.getterReturnType). concat(fieldRecords.map((field) => field.setterArgumentType)); whenDependentTypesAreResolved([structType], fieldTypes, (fieldTypes) => { var fields = {}; fieldRecords.forEach((field, i) => { var fieldName = field.fieldName; var getterReturnType = fieldTypes[i]; var getter = field.getter; var getterContext = field.getterContext; var setterArgumentType = fieldTypes[i + fieldRecords.length]; var setter = field.setter; var setterContext = field.setterContext; fields[fieldName] = { read: (ptr) => { return getterReturnType['fromWireType']( getter(getterContext, ptr)); }, write: (ptr, o) => { var destructors = []; setter(setterContext, ptr, setterArgumentType['toWireType'](destructors, o)); runDestructors(destructors); } }; }); return [{ name: reg.name, 'fromWireType': function(ptr) { var rv = {}; for (var i in fields) { rv[i] = fields[i].read(ptr); } rawDestructor(ptr); return rv; }, 'toWireType': function(destructors, o) { // todo: Here we have an opportunity for -O3 level "unsafe" optimizations: // assume all fields are present without checking. for (var fieldName in fields) { if (!(fieldName in o)) { throw new TypeError('Missing field: "' + fieldName + '"'); } } var ptr = rawConstructor(); for (fieldName in fields) { fields[fieldName].write(ptr, o[fieldName]); } if (destructors !== null) { destructors.push(rawDestructor, ptr); } return ptr; }, 'argPackAdvance': 8, 'readValueFromPointer': simpleReadValueFromPointer, destructorFunction: rawDestructor, }]; }); } function __embind_register_bigint(primitiveType, name, size, minRange, maxRange) {} function getShiftFromSize(size) { switch (size) { case 1: return 0; case 2: return 1; case 4: return 2; case 8: return 3; default: throw new TypeError('Unknown type size: ' + size); } } function embind_init_charCodes() { var codes = new Array(256); for (var i = 0; i < 256; ++i) { codes[i] = String.fromCharCode(i); } embind_charCodes = codes; } var embind_charCodes = undefined; function readLatin1String(ptr) { var ret = ""; var c = ptr; while (HEAPU8[c]) { ret += embind_charCodes[HEAPU8[c++]]; } return ret; } var BindingError = undefined; function throwBindingError(message) { throw new BindingError(message); } /** @param {Object=} options */ function registerType(rawType, registeredInstance, options = {}) { if (!('argPackAdvance' in registeredInstance)) { throw new TypeError('registerType registeredInstance requires argPackAdvance'); } var name = registeredInstance.name; if (!rawType) { throwBindingError('type "' + name + '" must have a positive integer typeid pointer'); } if (registeredTypes.hasOwnProperty(rawType)) { if (options.ignoreDuplicateRegistrations) { return; } else { throwBindingError("Cannot register type '" + name + "' twice"); } } registeredTypes[rawType] = registeredInstance; delete typeDependencies[rawType]; if (awaitingDependencies.hasOwnProperty(rawType)) { var callbacks = awaitingDependencies[rawType]; delete awaitingDependencies[rawType]; callbacks.forEach((cb) => cb()); } } function __embind_register_bool(rawType, name, size, trueValue, falseValue) { var shift = getShiftFromSize(size); name = readLatin1String(name); registerType(rawType, { name: name, 'fromWireType': function(wt) { // ambiguous emscripten ABI: sometimes return values are // true or false, and sometimes integers (0 or 1) return !!wt; }, 'toWireType': function(destructors, o) { return o ? trueValue : falseValue; }, 'argPackAdvance': 8, 'readValueFromPointer': function(pointer) { // TODO: if heap is fixed (like in asm.js) this could be executed outside var heap; if (size === 1) { heap = HEAP8; } else if (size === 2) { heap = HEAP16; } else if (size === 4) { heap = HEAP32; } else { throw new TypeError("Unknown boolean type size: " + name); } return this['fromWireType'](heap[pointer >> shift]); }, destructorFunction: null, // This type does not need a destructor }); } function ClassHandle_isAliasOf(other) { if (!(this instanceof ClassHandle)) { return false; } if (!(other instanceof ClassHandle)) { return false; } var leftClass = this.$$.ptrType.registeredClass; var left = this.$$.ptr; var rightClass = other.$$.ptrType.registeredClass; var right = other.$$.ptr; while (leftClass.baseClass) { left = leftClass.upcast(left); leftClass = leftClass.baseClass; } while (rightClass.baseClass) { right = rightClass.upcast(right); rightClass = rightClass.baseClass; } return leftClass === rightClass && left === right; } function shallowCopyInternalPointer(o) { return { count: o.count, deleteScheduled: o.deleteScheduled, preservePointerOnDelete: o.preservePointerOnDelete, ptr: o.ptr, ptrType: o.ptrType, smartPtr: o.smartPtr, smartPtrType: o.smartPtrType, }; } function throwInstanceAlreadyDeleted(obj) { function getInstanceTypeName(handle) { return handle.$$.ptrType.registeredClass.name; } throwBindingError(getInstanceTypeName(obj) + ' instance already deleted'); } var finalizationRegistry = false; function detachFinalizer(handle) {} function runDestructor($$) { if ($$.smartPtr) { $$.smartPtrType.rawDestructor($$.smartPtr); } else { $$.ptrType.registeredClass.rawDestructor($$.ptr); } } function releaseClassHandle($$) { $$.count.value -= 1; var toDelete = 0 === $$.count.value; if (toDelete) { runDestructor($$); } } function downcastPointer(ptr, ptrClass, desiredClass) { if (ptrClass === desiredClass) { return ptr; } if (undefined === desiredClass.baseClass) { return null; // no conversion } var rv = downcastPointer(ptr, ptrClass, desiredClass.baseClass); if (rv === null) { return null; } return desiredClass.downcast(rv); } var registeredPointers = {}; function getInheritedInstanceCount() { return Object.keys(registeredInstances).length; } function getLiveInheritedInstances() { var rv = []; for (var k in registeredInstances) { if (registeredInstances.hasOwnProperty(k)) { rv.push(registeredInstances[k]); } } return rv; } var deletionQueue = []; function flushPendingDeletes() { while (deletionQueue.length) { var obj = deletionQueue.pop(); obj.$$.deleteScheduled = false; obj['delete'](); } } var delayFunction = undefined; function setDelayFunction(fn) { delayFunction = fn; if (deletionQueue.length && delayFunction) { delayFunction(flushPendingDeletes); } } function init_embind() { Module['getInheritedInstanceCount'] = getInheritedInstanceCount; Module['getLiveInheritedInstances'] = getLiveInheritedInstances; Module['flushPendingDeletes'] = flushPendingDeletes; Module['setDelayFunction'] = setDelayFunction; } var registeredInstances = {}; function getBasestPointer(class_, ptr) { if (ptr === undefined) { throwBindingError('ptr should not be undefined'); } while (class_.baseClass) { ptr = class_.upcast(ptr); class_ = class_.baseClass; } return ptr; } function getInheritedInstance(class_, ptr) { ptr = getBasestPointer(class_, ptr); return registeredInstances[ptr]; } function makeClassHandle(prototype, record) { if (!record.ptrType || !record.ptr) { throwInternalError('makeClassHandle requires ptr and ptrType'); } var hasSmartPtrType = !!record.smartPtrType; var hasSmartPtr = !!record.smartPtr; if (hasSmartPtrType !== hasSmartPtr) { throwInternalError('Both smartPtrType and smartPtr must be specified'); } record.count = { value: 1 }; return attachFinalizer(Object.create(prototype, { $$: { value: record, }, })); } function RegisteredPointer_fromWireType(ptr) { // ptr is a raw pointer (or a raw smartpointer) // rawPointer is a maybe-null raw pointer var rawPointer = this.getPointee(ptr); if (!rawPointer) { this.destructor(ptr); return null; } var registeredInstance = getInheritedInstance(this.registeredClass, rawPointer); if (undefined !== registeredInstance) { // JS object has been neutered, time to repopulate it if (0 === registeredInstance.$$.count.value) { registeredInstance.$$.ptr = rawPointer; registeredInstance.$$.smartPtr = ptr; return registeredInstance['clone'](); } else { // else, just increment reference count on existing object // it already has a reference to the smart pointer var rv = registeredInstance['clone'](); this.destructor(ptr); return rv; } } function makeDefaultHandle() { if (this.isSmartPointer) { return makeClassHandle(this.registeredClass.instancePrototype, { ptrType: this.pointeeType, ptr: rawPointer, smartPtrType: this, smartPtr: ptr, }); } else { return makeClassHandle(this.registeredClass.instancePrototype, { ptrType: this, ptr: ptr, }); } } var actualType = this.registeredClass.getActualType(rawPointer); var registeredPointerRecord = registeredPointers[actualType]; if (!registeredPointerRecord) { return makeDefaultHandle.call(this); } var toType; if (this.isConst) { toType = registeredPointerRecord.constPointerType; } else { toType = registeredPointerRecord.pointerType; } var dp = downcastPointer( rawPointer, this.registeredClass, toType.registeredClass); if (dp === null) { return makeDefaultHandle.call(this); } if (this.isSmartPointer) { return makeClassHandle(toType.registeredClass.instancePrototype, { ptrType: toType, ptr: dp, smartPtrType: this, smartPtr: ptr, }); } else { return makeClassHandle(toType.registeredClass.instancePrototype, { ptrType: toType, ptr: dp, }); } } function attachFinalizer(handle) { if ('undefined' === typeof FinalizationRegistry) { attachFinalizer = (handle) => handle; return handle; } // If the running environment has a FinalizationRegistry (see // https://github.com/tc39/proposal-weakrefs), then attach finalizers // for class handles. We check for the presence of FinalizationRegistry // at run-time, not build-time. finalizationRegistry = new FinalizationRegistry((info) => { console.warn(info.leakWarning.stack.replace(/^Error: /, '')); releaseClassHandle(info.$$); }); attachFinalizer = (handle) => { var $$ = handle.$$; var hasSmartPtr = !!$$.smartPtr; if (hasSmartPtr) { // We should not call the destructor on raw pointers in case other code expects the pointee to live var info = { $$: $$ }; // Create a warning as an Error instance in advance so that we can store // the current stacktrace and point to it when / if a leak is detected. // This is more useful than the empty stacktrace of `FinalizationRegistry` // callback. var cls = $$.ptrType.registeredClass; info.leakWarning = new Error("Embind found a leaked C++ instance " + cls.name + " <" + ptrToString($$.ptr) + ">.\n" + "We'll free it automatically in this case, but this functionality is not reliable across various environments.\n" + "Make sure to invoke .delete() manually once you're done with the instance instead.\n" + "Originally allocated"); // `.stack` will add "at ..." after this sentence if ('captureStackTrace' in Error) { Error.captureStackTrace(info.leakWarning, RegisteredPointer_fromWireType); } finalizationRegistry.register(handle, info, handle); } return handle; }; detachFinalizer = (handle) => finalizationRegistry.unregister(handle); return attachFinalizer(handle); } function ClassHandle_clone() { if (!this.$$.ptr) { throwInstanceAlreadyDeleted(this); } if (this.$$.preservePointerOnDelete) { this.$$.count.value += 1; return this; } else { var clone = attachFinalizer(Object.create(Object.getPrototypeOf(this), { $$: { value: shallowCopyInternalPointer(this.$$), } })); clone.$$.count.value += 1; clone.$$.deleteScheduled = false; return clone; } } function ClassHandle_delete() { if (!this.$$.ptr) { throwInstanceAlreadyDeleted(this); } if (this.$$.deleteScheduled && !this.$$.preservePointerOnDelete) { throwBindingError('Object already scheduled for deletion'); } detachFinalizer(this); releaseClassHandle(this.$$); if (!this.$$.preservePointerOnDelete) { this.$$.smartPtr = undefined; this.$$.ptr = undefined; } } function ClassHandle_isDeleted() { return !this.$$.ptr; } function ClassHandle_deleteLater() { if (!this.$$.ptr) { throwInstanceAlreadyDeleted(this); } if (this.$$.deleteScheduled && !this.$$.preservePointerOnDelete) { throwBindingError('Object already scheduled for deletion'); } deletionQueue.push(this); if (deletionQueue.length === 1 && delayFunction) { delayFunction(flushPendingDeletes); } this.$$.deleteScheduled = true; return this; } function init_ClassHandle() { ClassHandle.prototype['isAliasOf'] = ClassHandle_isAliasOf; ClassHandle.prototype['clone'] = ClassHandle_clone; ClassHandle.prototype['delete'] = ClassHandle_delete; ClassHandle.prototype['isDeleted'] = ClassHandle_isDeleted; ClassHandle.prototype['deleteLater'] = ClassHandle_deleteLater; } function ClassHandle() { } function ensureOverloadTable(proto, methodName, humanName) { if (undefined === proto[methodName].overloadTable) { var prevFunc = proto[methodName]; // Inject an overload resolver function that routes to the appropriate overload based on the number of arguments. proto[methodName] = function() { // TODO This check can be removed in -O3 level "unsafe" optimizations. if (!proto[methodName].overloadTable.hasOwnProperty(arguments.length)) { throwBindingError("Function '" + humanName + "' called with an invalid number of arguments (" + arguments.length + ") - expects one of (" + proto[methodName].overloadTable + ")!"); } return proto[methodName].overloadTable[arguments.length].apply(this, arguments); }; // Move the previous function into the overload table. proto[methodName].overloadTable = []; proto[methodName].overloadTable[prevFunc.argCount] = prevFunc; } } /** @param {number=} numArguments */ function exposePublicSymbol(name, value, numArguments) { if (Module.hasOwnProperty(name)) { if (undefined === numArguments || (undefined !== Module[name].overloadTable && undefined !== Module[name].overloadTable[numArguments])) { throwBindingError("Cannot register public name '" + name + "' twice"); } // We are exposing a function with the same name as an existing function. Create an overload table and a function selector // that routes between the two. ensureOverloadTable(Module, name, name); if (Module.hasOwnProperty(numArguments)) { throwBindingError("Cannot register multiple overloads of a function with the same number of arguments (" + numArguments + ")!"); } // Add the new function into the overload table. Module[name].overloadTable[numArguments] = value; } else { Module[name] = value; if (undefined !== numArguments) { Module[name].numArguments = numArguments; } } } /** @constructor */ function RegisteredClass(name, constructor, instancePrototype, rawDestructor, baseClass, getActualType, upcast, downcast) { this.name = name; this.constructor = constructor; this.instancePrototype = instancePrototype; this.rawDestructor = rawDestructor; this.baseClass = baseClass; this.getActualType = getActualType; this.upcast = upcast; this.downcast = downcast; this.pureVirtualFunctions = []; } function upcastPointer(ptr, ptrClass, desiredClass) { while (ptrClass !== desiredClass) { if (!ptrClass.upcast) { throwBindingError("Expected null or instance of " + desiredClass.name + ", got an instance of " + ptrClass.name); } ptr = ptrClass.upcast(ptr); ptrClass = ptrClass.baseClass; } return ptr; } function constNoSmartPtrRawPointerToWireType(destructors, handle) { if (handle === null) { if (this.isReference) { throwBindingError('null is not a valid ' + this.name); } return 0; } if (!handle.$$) { throwBindingError('Cannot pass "' + embindRepr(handle) + '" as a ' + this.name); } if (!handle.$$.ptr) { throwBindingError('Cannot pass deleted object as a pointer of type ' + this.name); } var handleClass = handle.$$.ptrType.registeredClass; var ptr = upcastPointer(handle.$$.ptr, handleClass, this.registeredClass); return ptr; } function genericPointerToWireType(destructors, handle) { var ptr; if (handle === null) { if (this.isReference) { throwBindingError('null is not a valid ' + this.name); } if (this.isSmartPointer) { ptr = this.rawConstructor(); if (destructors !== null) { destructors.push(this.rawDestructor, ptr); } return ptr; } else { return 0; } } if (!handle.$$) { throwBindingError('Cannot pass "' + embindRepr(handle) + '" as a ' + this.name); } if (!handle.$$.ptr) { throwBindingError('Cannot pass deleted object as a pointer of type ' + this.name); } if (!this.isConst && handle.$$.ptrType.isConst) { throwBindingError('Cannot convert argument of type ' + (handle.$$.smartPtrType ? handle.$$.smartPtrType.name : handle.$$.ptrType.name) + ' to parameter type ' + this.name); } var handleClass = handle.$$.ptrType.registeredClass; ptr = upcastPointer(handle.$$.ptr, handleClass, this.registeredClass); if (this.isSmartPointer) { // TODO: this is not strictly true // We could support BY_EMVAL conversions from raw pointers to smart pointers // because the smart pointer can hold a reference to the handle if (undefined === handle.$$.smartPtr) { throwBindingError('Passing raw pointer to smart pointer is illegal'); } switch (this.sharingPolicy) { case 0: // NONE // no upcasting if (handle.$$.smartPtrType === this) { ptr = handle.$$.smartPtr; } else { throwBindingError('Cannot convert argument of type ' + (handle.$$.smartPtrType ? handle.$$.smartPtrType.name : handle.$$.ptrType.name) + ' to parameter type ' + this.name); } break; case 1: // INTRUSIVE ptr = handle.$$.smartPtr; break; case 2: // BY_EMVAL if (handle.$$.smartPtrType === this) { ptr = handle.$$.smartPtr; } else { var clonedHandle = handle['clone'](); ptr = this.rawShare( ptr, Emval.toHandle(function() { clonedHandle['delete'](); }) ); if (destructors !== null) { destructors.push(this.rawDestructor, ptr); } } break; default: throwBindingError('Unsupporting sharing policy'); } } return ptr; } function nonConstNoSmartPtrRawPointerToWireType(destructors, handle) { if (handle === null) { if (this.isReference) { throwBindingError('null is not a valid ' + this.name); } return 0; } if (!handle.$$) { throwBindingError('Cannot pass "' + embindRepr(handle) + '" as a ' + this.name); } if (!handle.$$.ptr) { throwBindingError('Cannot pass deleted object as a pointer of type ' + this.name); } if (handle.$$.ptrType.isConst) { throwBindingError('Cannot convert argument of type ' + handle.$$.ptrType.name + ' to parameter type ' + this.name); } var handleClass = handle.$$.ptrType.registeredClass; var ptr = upcastPointer(handle.$$.ptr, handleClass, this.registeredClass); return ptr; } function RegisteredPointer_getPointee(ptr) { if (this.rawGetPointee) { ptr = this.rawGetPointee(ptr); } return ptr; } function RegisteredPointer_destructor(ptr) { if (this.rawDestructor) { this.rawDestructor(ptr); } } function RegisteredPointer_deleteObject(handle) { if (handle !== null) { handle['delete'](); } } function init_RegisteredPointer() { RegisteredPointer.prototype.getPointee = RegisteredPointer_getPointee; RegisteredPointer.prototype.destructor = RegisteredPointer_destructor; RegisteredPointer.prototype['argPackAdvance'] = 8; RegisteredPointer.prototype['readValueFromPointer'] = simpleReadValueFromPointer; RegisteredPointer.prototype['deleteObject'] = RegisteredPointer_deleteObject; RegisteredPointer.prototype['fromWireType'] = RegisteredPointer_fromWireType; } /** @constructor @param {*=} pointeeType, @param {*=} sharingPolicy, @param {*=} rawGetPointee, @param {*=} rawConstructor, @param {*=} rawShare, @param {*=} rawDestructor, */ function RegisteredPointer( name, registeredClass, isReference, isConst, // smart pointer properties isSmartPointer, pointeeType, sharingPolicy, rawGetPointee, rawConstructor, rawShare, rawDestructor ) { this.name = name; this.registeredClass = registeredClass; this.isReference = isReference; this.isConst = isConst; // smart pointer properties this.isSmartPointer = isSmartPointer; this.pointeeType = pointeeType; this.sharingPolicy = sharingPolicy; this.rawGetPointee = rawGetPointee; this.rawConstructor = rawConstructor; this.rawShare = rawShare; this.rawDestructor = rawDestructor; if (!isSmartPointer && registeredClass.baseClass === undefined) { if (isConst) { this['toWireType'] = constNoSmartPtrRawPointerToWireType; this.destructorFunction = null; } else { this['toWireType'] = nonConstNoSmartPtrRawPointerToWireType; this.destructorFunction = null; } } else { this['toWireType'] = genericPointerToWireType; // Here we must leave this.destructorFunction undefined, since whether genericPointerToWireType returns // a pointer that needs to be freed up is runtime-dependent, and cannot be evaluated at registration time. // TODO: Create an alternative mechanism that allows removing the use of var destructors = []; array in // craftInvokerFunction altogether. } } /** @param {number=} numArguments */ function replacePublicSymbol(name, value, numArguments) { if (!Module.hasOwnProperty(name)) { throwInternalError('Replacing nonexistant public symbol'); } // If there's an overload table for this symbol, replace the symbol in the overload table instead. if (undefined !== Module[name].overloadTable && undefined !== numArguments) { Module[name].overloadTable[numArguments] = value; } else { Module[name] = value; Module[name].argCount = numArguments; } } function dynCallLegacy(sig, ptr, args) { assert(('dynCall_' + sig) in Module, 'bad function pointer type - dynCall function not found for sig \'' + sig + '\''); if (args && args.length) { // j (64-bit integer) must be passed in as two numbers [low 32, high 32]. assert(args.length === sig.substring(1).replace(/j/g, '--').length); } else { assert(sig.length == 1); } var f = Module['dynCall_' + sig]; return args && args.length ? f.apply(null, [ptr].concat(args)) : f.call(null, ptr); } var wasmTableMirror = []; function getWasmTableEntry(funcPtr) { var func = wasmTableMirror[funcPtr]; if (!func) { if (funcPtr >= wasmTableMirror.length) wasmTableMirror.length = funcPtr + 1; wasmTableMirror[funcPtr] = func = wasmTable.get(funcPtr); } assert(wasmTable.get(funcPtr) == func, "JavaScript-side Wasm function table mirror is out of date!"); return func; } /** @param {Object=} args */ function dynCall(sig, ptr, args) { return dynCallLegacy(sig, ptr, args); } function getDynCaller(sig, ptr) { var argCache = []; return function() { argCache.length = 0; Object.assign(argCache, arguments); return dynCall(sig, ptr, argCache); }; } function embind__requireFunction(signature, rawFunction) { signature = readLatin1String(signature); function makeDynCaller() { return getDynCaller(signature, rawFunction); } var fp = makeDynCaller(); if (typeof fp != "function") { throwBindingError("unknown function pointer with signature " + signature + ": " + rawFunction); } return fp; } var UnboundTypeError = undefined; function getTypeName(type) { var ptr = ___getTypeName(type); var rv = readLatin1String(ptr); _free(ptr); return rv; } function throwUnboundTypeError(message, types) { var unboundTypes = []; var seen = {}; function visit(type) { if (seen[type]) { return; } if (registeredTypes[type]) { return; } if (typeDependencies[type]) { typeDependencies[type].forEach(visit); return; } unboundTypes.push(type); seen[type] = true; } types.forEach(visit); throw new UnboundTypeError(message + ': ' + unboundTypes.map(getTypeName).join([', '])); } function __embind_register_class(rawType, rawPointerType, rawConstPointerType, baseClassRawType, getActualTypeSignature, getActualType, upcastSignature, upcast, downcastSignature, downcast, name, destructorSignature, rawDestructor) { name = readLatin1String(name); getActualType = embind__requireFunction(getActualTypeSignature, getActualType); if (upcast) { upcast = embind__requireFunction(upcastSignature, upcast); } if (downcast) { downcast = embind__requireFunction(downcastSignature, downcast); } rawDestructor = embind__requireFunction(destructorSignature, rawDestructor); var legalFunctionName = makeLegalFunctionName(name); exposePublicSymbol(legalFunctionName, function() { // this code cannot run if baseClassRawType is zero throwUnboundTypeError('Cannot construct ' + name + ' due to unbound types', [baseClassRawType]); }); whenDependentTypesAreResolved( [rawType, rawPointerType, rawConstPointerType], baseClassRawType ? [baseClassRawType] : [], function(base) { base = base[0]; var baseClass; var basePrototype; if (baseClassRawType) { baseClass = base.registeredClass; basePrototype = baseClass.instancePrototype; } else { basePrototype = ClassHandle.prototype; } var constructor = createNamedFunction(legalFunctionName, function() { if (Object.getPrototypeOf(this) !== instancePrototype) { throw new BindingError("Use 'new' to construct " + name); } if (undefined === registeredClass.constructor_body) { throw new BindingError(name + " has no accessible constructor"); } var body = registeredClass.constructor_body[arguments.length]; if (undefined === body) { throw new BindingError("Tried to invoke ctor of " + name + " with invalid number of parameters (" + arguments.length + ") - expected (" + Object.keys(registeredClass.constructor_body).toString() + ") parameters instead!"); } return body.apply(this, arguments); }); var instancePrototype = Object.create(basePrototype, { constructor: { value: constructor }, }); constructor.prototype = instancePrototype; var registeredClass = new RegisteredClass(name, constructor, instancePrototype, rawDestructor, baseClass, getActualType, upcast, downcast); var referenceConverter = new RegisteredPointer(name, registeredClass, true, false, false); var pointerConverter = new RegisteredPointer(name + '*', registeredClass, false, false, false); var constPointerConverter = new RegisteredPointer(name + ' const*', registeredClass, false, true, false); registeredPointers[rawType] = { pointerType: pointerConverter, constPointerType: constPointerConverter }; replacePublicSymbol(legalFunctionName, constructor); return [referenceConverter, pointerConverter, constPointerConverter]; } ); } function heap32VectorToArray(count, firstElement) { var array = []; for (var i = 0; i < count; i++) { // TODO(https://github.com/emscripten-core/emscripten/issues/17310): // Find a way to hoist the `>> 2` or `>> 3` out of this loop. array.push(HEAPU32[(((firstElement)+(i * 4))>>2)]); } return array; } function new_(constructor, argumentList) { if (!(constructor instanceof Function)) { throw new TypeError('new_ called with constructor type ' + typeof(constructor) + " which is not a function"); } /* * Previously, the following line was just: * function dummy() {}; * Unfortunately, Chrome was preserving 'dummy' as the object's name, even * though at creation, the 'dummy' has the correct constructor name. Thus, * objects created with IMVU.new would show up in the debugger as 'dummy', * which isn't very helpful. Using IMVU.createNamedFunction addresses the * issue. Doublely-unfortunately, there's no way to write a test for this * behavior. -NRD 2013.02.22 */ var dummy = createNamedFunction(constructor.name || 'unknownFunctionName', function(){}); dummy.prototype = constructor.prototype; var obj = new dummy; var r = constructor.apply(obj, argumentList); return (r instanceof Object) ? r : obj; } function craftInvokerFunction(humanName, argTypes, classType, cppInvokerFunc, cppTargetFunc) { // humanName: a human-readable string name for the function to be generated. // argTypes: An array that contains the embind type objects for all types in the function signature. // argTypes[0] is the type object for the function return value. // argTypes[1] is the type object for function this object/class type, or null if not crafting an invoker for a class method. // argTypes[2...] are the actual function parameters. // classType: The embind type object for the class to be bound, or null if this is not a method of a class. // cppInvokerFunc: JS Function object to the C++-side function that interops into C++ code. // cppTargetFunc: Function pointer (an integer to FUNCTION_TABLE) to the target C++ function the cppInvokerFunc will end up calling. var argCount = argTypes.length; if (argCount < 2) { throwBindingError("argTypes array size mismatch! Must at least get return value and 'this' types!"); } var isClassMethodFunc = (argTypes[1] !== null && classType !== null); // Free functions with signature "void function()" do not need an invoker that marshalls between wire types. // TODO: This omits argument count check - enable only at -O3 or similar. // if (ENABLE_UNSAFE_OPTS && argCount == 2 && argTypes[0].name == "void" && !isClassMethodFunc) { // return FUNCTION_TABLE[fn]; // } // Determine if we need to use a dynamic stack to store the destructors for the function parameters. // TODO: Remove this completely once all function invokers are being dynamically generated. var needsDestructorStack = false; for (var i = 1; i < argTypes.length; ++i) { // Skip return value at index 0 - it's not deleted here. if (argTypes[i] !== null && argTypes[i].destructorFunction === undefined) { // The type does not define a destructor function - must use dynamic stack needsDestructorStack = true; break; } } var returns = (argTypes[0].name !== "void"); var argsList = ""; var argsListWired = ""; for (var i = 0; i < argCount - 2; ++i) { argsList += (i!==0?", ":"")+"arg"+i; argsListWired += (i!==0?", ":"")+"arg"+i+"Wired"; } var invokerFnBody = "return function "+makeLegalFunctionName(humanName)+"("+argsList+") {\n" + "if (arguments.length !== "+(argCount - 2)+") {\n" + "throwBindingError('function "+humanName+" called with ' + arguments.length + ' arguments, expected "+(argCount - 2)+" args!');\n" + "}\n"; if (needsDestructorStack) { invokerFnBody += "var destructors = [];\n"; } var dtorStack = needsDestructorStack ? "destructors" : "null"; var args1 = ["throwBindingError", "invoker", "fn", "runDestructors", "retType", "classParam"]; var args2 = [throwBindingError, cppInvokerFunc, cppTargetFunc, runDestructors, argTypes[0], argTypes[1]]; if (isClassMethodFunc) { invokerFnBody += "var thisWired = classParam.toWireType("+dtorStack+", this);\n"; } for (var i = 0; i < argCount - 2; ++i) { invokerFnBody += "var arg"+i+"Wired = argType"+i+".toWireType("+dtorStack+", arg"+i+"); // "+argTypes[i+2].name+"\n"; args1.push("argType"+i); args2.push(argTypes[i+2]); } if (isClassMethodFunc) { argsListWired = "thisWired" + (argsListWired.length > 0 ? ", " : "") + argsListWired; } invokerFnBody += (returns?"var rv = ":"") + "invoker(fn"+(argsListWired.length>0?", ":"")+argsListWired+");\n"; if (needsDestructorStack) { invokerFnBody += "runDestructors(destructors);\n"; } else { for (var i = isClassMethodFunc?1:2; i < argTypes.length; ++i) { // Skip return value at index 0 - it's not deleted here. Also skip class type if not a method. var paramName = (i === 1 ? "thisWired" : ("arg"+(i - 2)+"Wired")); if (argTypes[i].destructorFunction !== null) { invokerFnBody += paramName+"_dtor("+paramName+"); // "+argTypes[i].name+"\n"; args1.push(paramName+"_dtor"); args2.push(argTypes[i].destructorFunction); } } } if (returns) { invokerFnBody += "var ret = retType.fromWireType(rv);\n" + "return ret;\n"; } else { } invokerFnBody += "}\n"; args1.push(invokerFnBody); var invokerFunction = new_(Function, args1).apply(null, args2); return invokerFunction; } function __embind_register_class_constructor( rawClassType, argCount, rawArgTypesAddr, invokerSignature, invoker, rawConstructor ) { assert(argCount > 0); var rawArgTypes = heap32VectorToArray(argCount, rawArgTypesAddr); invoker = embind__requireFunction(invokerSignature, invoker); var args = [rawConstructor]; var destructors = []; whenDependentTypesAreResolved([], [rawClassType], function(classType) { classType = classType[0]; var humanName = 'constructor ' + classType.name; if (undefined === classType.registeredClass.constructor_body) { classType.registeredClass.constructor_body = []; } if (undefined !== classType.registeredClass.constructor_body[argCount - 1]) { throw new BindingError("Cannot register multiple constructors with identical number of parameters (" + (argCount-1) + ") for class '" + classType.name + "'! Overload resolution is currently only performed using the parameter count, not actual type info!"); } classType.registeredClass.constructor_body[argCount - 1] = () => { throwUnboundTypeError('Cannot construct ' + classType.name + ' due to unbound types', rawArgTypes); }; whenDependentTypesAreResolved([], rawArgTypes, function(argTypes) { // Insert empty slot for context type (argTypes[1]). argTypes.splice(1, 0, null); classType.registeredClass.constructor_body[argCount - 1] = craftInvokerFunction(humanName, argTypes, null, invoker, rawConstructor); return []; }); return []; }); } function __embind_register_class_function(rawClassType, methodName, argCount, rawArgTypesAddr, // [ReturnType, ThisType, Args...] invokerSignature, rawInvoker, context, isPureVirtual) { var rawArgTypes = heap32VectorToArray(argCount, rawArgTypesAddr); methodName = readLatin1String(methodName); rawInvoker = embind__requireFunction(invokerSignature, rawInvoker); whenDependentTypesAreResolved([], [rawClassType], function(classType) { classType = classType[0]; var humanName = classType.name + '.' + methodName; if (methodName.startsWith("@@")) { methodName = Symbol[methodName.substring(2)]; } if (isPureVirtual) { classType.registeredClass.pureVirtualFunctions.push(methodName); } function unboundTypesHandler() { throwUnboundTypeError('Cannot call ' + humanName + ' due to unbound types', rawArgTypes); } var proto = classType.registeredClass.instancePrototype; var method = proto[methodName]; if (undefined === method || (undefined === method.overloadTable && method.className !== classType.name && method.argCount === argCount - 2)) { // This is the first overload to be registered, OR we are replacing a // function in the base class with a function in the derived class. unboundTypesHandler.argCount = argCount - 2; unboundTypesHandler.className = classType.name; proto[methodName] = unboundTypesHandler; } else { // There was an existing function with the same name registered. Set up // a function overload routing table. ensureOverloadTable(proto, methodName, humanName); proto[methodName].overloadTable[argCount - 2] = unboundTypesHandler; } whenDependentTypesAreResolved([], rawArgTypes, function(argTypes) { var memberFunction = craftInvokerFunction(humanName, argTypes, classType, rawInvoker, context); // Replace the initial unbound-handler-stub function with the appropriate member function, now that all types // are resolved. If multiple overloads are registered for this function, the function goes into an overload table. if (undefined === proto[methodName].overloadTable) { // Set argCount in case an overload is registered later memberFunction.argCount = argCount - 2; proto[methodName] = memberFunction; } else { proto[methodName].overloadTable[argCount - 2] = memberFunction; } return []; }); return []; }); } var emval_free_list = []; var emval_handle_array = [{},{value:undefined},{value:null},{value:true},{value:false}]; function __emval_decref(handle) { if (handle > 4 && 0 === --emval_handle_array[handle].refcount) { emval_handle_array[handle] = undefined; emval_free_list.push(handle); } } function count_emval_handles() { var count = 0; for (var i = 5; i < emval_handle_array.length; ++i) { if (emval_handle_array[i] !== undefined) { ++count; } } return count; } function get_first_emval() { for (var i = 5; i < emval_handle_array.length; ++i) { if (emval_handle_array[i] !== undefined) { return emval_handle_array[i]; } } return null; } function init_emval() { Module['count_emval_handles'] = count_emval_handles; Module['get_first_emval'] = get_first_emval; } var Emval = {toValue:(handle) => { if (!handle) { throwBindingError('Cannot use deleted val. handle = ' + handle); } return emval_handle_array[handle].value; },toHandle:(value) => { switch (value) { case undefined: return 1; case null: return 2; case true: return 3; case false: return 4; default:{ var handle = emval_free_list.length ? emval_free_list.pop() : emval_handle_array.length; emval_handle_array[handle] = {refcount: 1, value: value}; return handle; } } }}; function __embind_register_emval(rawType, name) { name = readLatin1String(name); registerType(rawType, { name: name, 'fromWireType': function(handle) { var rv = Emval.toValue(handle); __emval_decref(handle); return rv; }, 'toWireType': function(destructors, value) { return Emval.toHandle(value); }, 'argPackAdvance': 8, 'readValueFromPointer': simpleReadValueFromPointer, destructorFunction: null, // This type does not need a destructor // TODO: do we need a deleteObject here? write a test where // emval is passed into JS via an interface }); } function embindRepr(v) { if (v === null) { return 'null'; } var t = typeof v; if (t === 'object' || t === 'array' || t === 'function') { return v.toString(); } else { return '' + v; } } function floatReadValueFromPointer(name, shift) { switch (shift) { case 2: return function(pointer) { return this['fromWireType'](HEAPF32[pointer >> 2]); }; case 3: return function(pointer) { return this['fromWireType'](HEAPF64[pointer >> 3]); }; default: throw new TypeError("Unknown float type: " + name); } } function __embind_register_float(rawType, name, size) { var shift = getShiftFromSize(size); name = readLatin1String(name); registerType(rawType, { name: name, 'fromWireType': function(value) { return value; }, 'toWireType': function(destructors, value) { if (typeof value != "number" && typeof value != "boolean") { throw new TypeError('Cannot convert "' + embindRepr(value) + '" to ' + this.name); } // The VM will perform JS to Wasm value conversion, according to the spec: // https://www.w3.org/TR/wasm-js-api-1/#towebassemblyvalue return value; }, 'argPackAdvance': 8, 'readValueFromPointer': floatReadValueFromPointer(name, shift), destructorFunction: null, // This type does not need a destructor }); } function __embind_register_function(name, argCount, rawArgTypesAddr, signature, rawInvoker, fn) { var argTypes = heap32VectorToArray(argCount, rawArgTypesAddr); name = readLatin1String(name); rawInvoker = embind__requireFunction(signature, rawInvoker); exposePublicSymbol(name, function() { throwUnboundTypeError('Cannot call ' + name + ' due to unbound types', argTypes); }, argCount - 1); whenDependentTypesAreResolved([], argTypes, function(argTypes) { var invokerArgsArray = [argTypes[0] /* return value */, null /* no class 'this'*/].concat(argTypes.slice(1) /* actual params */); replacePublicSymbol(name, craftInvokerFunction(name, invokerArgsArray, null /* no class 'this'*/, rawInvoker, fn), argCount - 1); return []; }); } function integerReadValueFromPointer(name, shift, signed) { // integers are quite common, so generate very specialized functions switch (shift) { case 0: return signed ? function readS8FromPointer(pointer) { return HEAP8[pointer]; } : function readU8FromPointer(pointer) { return HEAPU8[pointer]; }; case 1: return signed ? function readS16FromPointer(pointer) { return HEAP16[pointer >> 1]; } : function readU16FromPointer(pointer) { return HEAPU16[pointer >> 1]; }; case 2: return signed ? function readS32FromPointer(pointer) { return HEAP32[pointer >> 2]; } : function readU32FromPointer(pointer) { return HEAPU32[pointer >> 2]; }; default: throw new TypeError("Unknown integer type: " + name); } } function __embind_register_integer(primitiveType, name, size, minRange, maxRange) { name = readLatin1String(name); // LLVM doesn't have signed and unsigned 32-bit types, so u32 literals come // out as 'i32 -1'. Always treat those as max u32. if (maxRange === -1) { maxRange = 4294967295; } var shift = getShiftFromSize(size); var fromWireType = (value) => value; if (minRange === 0) { var bitshift = 32 - 8*size; fromWireType = (value) => (value << bitshift) >>> bitshift; } var isUnsignedType = (name.includes('unsigned')); var checkAssertions = (value, toTypeName) => { if (typeof value != "number" && typeof value != "boolean") { throw new TypeError('Cannot convert "' + embindRepr(value) + '" to ' + toTypeName); } if (value < minRange || value > maxRange) { throw new TypeError('Passing a number "' + embindRepr(value) + '" from JS side to C/C++ side to an argument of type "' + name + '", which is outside the valid range [' + minRange + ', ' + maxRange + ']!'); } } var toWireType; if (isUnsignedType) { toWireType = function(destructors, value) { checkAssertions(value, this.name); return value >>> 0; } } else { toWireType = function(destructors, value) { checkAssertions(value, this.name); // The VM will perform JS to Wasm value conversion, according to the spec: // https://www.w3.org/TR/wasm-js-api-1/#towebassemblyvalue return value; } } registerType(primitiveType, { name: name, 'fromWireType': fromWireType, 'toWireType': toWireType, 'argPackAdvance': 8, 'readValueFromPointer': integerReadValueFromPointer(name, shift, minRange !== 0), destructorFunction: null, // This type does not need a destructor }); } function __embind_register_memory_view(rawType, dataTypeIndex, name) { var typeMapping = [ Int8Array, Uint8Array, Int16Array, Uint16Array, Int32Array, Uint32Array, Float32Array, Float64Array, ]; var TA = typeMapping[dataTypeIndex]; function decodeMemoryView(handle) { handle = handle >> 2; var heap = HEAPU32; var size = heap[handle]; // in elements var data = heap[handle + 1]; // byte offset into emscripten heap return new TA(heap.buffer, data, size); } name = readLatin1String(name); registerType(rawType, { name: name, 'fromWireType': decodeMemoryView, 'argPackAdvance': 8, 'readValueFromPointer': decodeMemoryView, }, { ignoreDuplicateRegistrations: true, }); } function __embind_register_std_string(rawType, name) { name = readLatin1String(name); var stdStringIsUTF8 //process only std::string bindings with UTF8 support, in contrast to e.g. std::basic_string = (name === "std::string"); registerType(rawType, { name: name, 'fromWireType': function(value) { var length = HEAPU32[((value)>>2)]; var payload = value + 4; var str; if (stdStringIsUTF8) { var decodeStartPtr = payload; // Looping here to support possible embedded '0' bytes for (var i = 0; i <= length; ++i) { var currentBytePtr = payload + i; if (i == length || HEAPU8[currentBytePtr] == 0) { var maxRead = currentBytePtr - decodeStartPtr; var stringSegment = UTF8ToString(decodeStartPtr, maxRead); if (str === undefined) { str = stringSegment; } else { str += String.fromCharCode(0); str += stringSegment; } decodeStartPtr = currentBytePtr + 1; } } } else { var a = new Array(length); for (var i = 0; i < length; ++i) { a[i] = String.fromCharCode(HEAPU8[payload + i]); } str = a.join(''); } _free(value); return str; }, 'toWireType': function(destructors, value) { if (value instanceof ArrayBuffer) { value = new Uint8Array(value); } var length; var valueIsOfTypeString = (typeof value == 'string'); if (!(valueIsOfTypeString || value instanceof Uint8Array || value instanceof Uint8ClampedArray || value instanceof Int8Array)) { throwBindingError('Cannot pass non-string to std::string'); } if (stdStringIsUTF8 && valueIsOfTypeString) { length = lengthBytesUTF8(value); } else { length = value.length; } // assumes 4-byte alignment var base = _malloc(4 + length + 1); var ptr = base + 4; HEAPU32[((base)>>2)] = length; if (stdStringIsUTF8 && valueIsOfTypeString) { stringToUTF8(value, ptr, length + 1); } else { if (valueIsOfTypeString) { for (var i = 0; i < length; ++i) { var charCode = value.charCodeAt(i); if (charCode > 255) { _free(ptr); throwBindingError('String has UTF-16 code units that do not fit in 8 bits'); } HEAPU8[ptr + i] = charCode; } } else { for (var i = 0; i < length; ++i) { HEAPU8[ptr + i] = value[i]; } } } if (destructors !== null) { destructors.push(_free, base); } return base; }, 'argPackAdvance': 8, 'readValueFromPointer': simpleReadValueFromPointer, destructorFunction: function(ptr) { _free(ptr); }, }); } var UTF16Decoder = typeof TextDecoder != 'undefined' ? new TextDecoder('utf-16le') : undefined;; function UTF16ToString(ptr, maxBytesToRead) { assert(ptr % 2 == 0, 'Pointer passed to UTF16ToString must be aligned to two bytes!'); var endPtr = ptr; // TextDecoder needs to know the byte length in advance, it doesn't stop on // null terminator by itself. // Also, use the length info to avoid running tiny strings through // TextDecoder, since .subarray() allocates garbage. var idx = endPtr >> 1; var maxIdx = idx + maxBytesToRead / 2; // If maxBytesToRead is not passed explicitly, it will be undefined, and this // will always evaluate to true. This saves on code size. while (!(idx >= maxIdx) && HEAPU16[idx]) ++idx; endPtr = idx << 1; if (endPtr - ptr > 32 && UTF16Decoder) return UTF16Decoder.decode(HEAPU8.subarray(ptr, endPtr)); // Fallback: decode without UTF16Decoder var str = ''; // If maxBytesToRead is not passed explicitly, it will be undefined, and the // for-loop's condition will always evaluate to true. The loop is then // terminated on the first null char. for (var i = 0; !(i >= maxBytesToRead / 2); ++i) { var codeUnit = HEAP16[(((ptr)+(i*2))>>1)]; if (codeUnit == 0) break; // fromCharCode constructs a character from a UTF-16 code unit, so we can // pass the UTF16 string right through. str += String.fromCharCode(codeUnit); } return str; } function stringToUTF16(str, outPtr, maxBytesToWrite) { assert(outPtr % 2 == 0, 'Pointer passed to stringToUTF16 must be aligned to two bytes!'); assert(typeof maxBytesToWrite == 'number', 'stringToUTF16(str, outPtr, maxBytesToWrite) is missing the third parameter that specifies the length of the output buffer!'); // Backwards compatibility: if max bytes is not specified, assume unsafe unbounded write is allowed. if (maxBytesToWrite === undefined) { maxBytesToWrite = 0x7FFFFFFF; } if (maxBytesToWrite < 2) return 0; maxBytesToWrite -= 2; // Null terminator. var startPtr = outPtr; var numCharsToWrite = (maxBytesToWrite < str.length*2) ? (maxBytesToWrite / 2) : str.length; for (var i = 0; i < numCharsToWrite; ++i) { // charCodeAt returns a UTF-16 encoded code unit, so it can be directly written to the HEAP. var codeUnit = str.charCodeAt(i); // possibly a lead surrogate HEAP16[((outPtr)>>1)] = codeUnit; outPtr += 2; } // Null-terminate the pointer to the HEAP. HEAP16[((outPtr)>>1)] = 0; return outPtr - startPtr; } function lengthBytesUTF16(str) { return str.length*2; } function UTF32ToString(ptr, maxBytesToRead) { assert(ptr % 4 == 0, 'Pointer passed to UTF32ToString must be aligned to four bytes!'); var i = 0; var str = ''; // If maxBytesToRead is not passed explicitly, it will be undefined, and this // will always evaluate to true. This saves on code size. while (!(i >= maxBytesToRead / 4)) { var utf32 = HEAP32[(((ptr)+(i*4))>>2)]; if (utf32 == 0) break; ++i; // Gotcha: fromCharCode constructs a character from a UTF-16 encoded code (pair), not from a Unicode code point! So encode the code point to UTF-16 for constructing. // See http://unicode.org/faq/utf_bom.html#utf16-3 if (utf32 >= 0x10000) { var ch = utf32 - 0x10000; str += String.fromCharCode(0xD800 | (ch >> 10), 0xDC00 | (ch & 0x3FF)); } else { str += String.fromCharCode(utf32); } } return str; } function stringToUTF32(str, outPtr, maxBytesToWrite) { assert(outPtr % 4 == 0, 'Pointer passed to stringToUTF32 must be aligned to four bytes!'); assert(typeof maxBytesToWrite == 'number', 'stringToUTF32(str, outPtr, maxBytesToWrite) is missing the third parameter that specifies the length of the output buffer!'); // Backwards compatibility: if max bytes is not specified, assume unsafe unbounded write is allowed. if (maxBytesToWrite === undefined) { maxBytesToWrite = 0x7FFFFFFF; } if (maxBytesToWrite < 4) return 0; var startPtr = outPtr; var endPtr = startPtr + maxBytesToWrite - 4; for (var i = 0; i < str.length; ++i) { // Gotcha: charCodeAt returns a 16-bit word that is a UTF-16 encoded code unit, not a Unicode code point of the character! We must decode the string to UTF-32 to the heap. // See http://unicode.org/faq/utf_bom.html#utf16-3 var codeUnit = str.charCodeAt(i); // possibly a lead surrogate if (codeUnit >= 0xD800 && codeUnit <= 0xDFFF) { var trailSurrogate = str.charCodeAt(++i); codeUnit = 0x10000 + ((codeUnit & 0x3FF) << 10) | (trailSurrogate & 0x3FF); } HEAP32[((outPtr)>>2)] = codeUnit; outPtr += 4; if (outPtr + 4 > endPtr) break; } // Null-terminate the pointer to the HEAP. HEAP32[((outPtr)>>2)] = 0; return outPtr - startPtr; } function lengthBytesUTF32(str) { var len = 0; for (var i = 0; i < str.length; ++i) { // Gotcha: charCodeAt returns a 16-bit word that is a UTF-16 encoded code unit, not a Unicode code point of the character! We must decode the string to UTF-32 to the heap. // See http://unicode.org/faq/utf_bom.html#utf16-3 var codeUnit = str.charCodeAt(i); if (codeUnit >= 0xD800 && codeUnit <= 0xDFFF) ++i; // possibly a lead surrogate, so skip over the tail surrogate. len += 4; } return len; } function __embind_register_std_wstring(rawType, charSize, name) { name = readLatin1String(name); var decodeString, encodeString, getHeap, lengthBytesUTF, shift; if (charSize === 2) { decodeString = UTF16ToString; encodeString = stringToUTF16; lengthBytesUTF = lengthBytesUTF16; getHeap = () => HEAPU16; shift = 1; } else if (charSize === 4) { decodeString = UTF32ToString; encodeString = stringToUTF32; lengthBytesUTF = lengthBytesUTF32; getHeap = () => HEAPU32; shift = 2; } registerType(rawType, { name: name, 'fromWireType': function(value) { // Code mostly taken from _embind_register_std_string fromWireType var length = HEAPU32[value >> 2]; var HEAP = getHeap(); var str; var decodeStartPtr = value + 4; // Looping here to support possible embedded '0' bytes for (var i = 0; i <= length; ++i) { var currentBytePtr = value + 4 + i * charSize; if (i == length || HEAP[currentBytePtr >> shift] == 0) { var maxReadBytes = currentBytePtr - decodeStartPtr; var stringSegment = decodeString(decodeStartPtr, maxReadBytes); if (str === undefined) { str = stringSegment; } else { str += String.fromCharCode(0); str += stringSegment; } decodeStartPtr = currentBytePtr + charSize; } } _free(value); return str; }, 'toWireType': function(destructors, value) { if (!(typeof value == 'string')) { throwBindingError('Cannot pass non-string to C++ string type ' + name); } // assumes 4-byte alignment var length = lengthBytesUTF(value); var ptr = _malloc(4 + length + charSize); HEAPU32[ptr >> 2] = length >> shift; encodeString(value, ptr + 4, length + charSize); if (destructors !== null) { destructors.push(_free, ptr); } return ptr; }, 'argPackAdvance': 8, 'readValueFromPointer': simpleReadValueFromPointer, destructorFunction: function(ptr) { _free(ptr); }, }); } function __embind_register_value_object( rawType, name, constructorSignature, rawConstructor, destructorSignature, rawDestructor ) { structRegistrations[rawType] = { name: readLatin1String(name), rawConstructor: embind__requireFunction(constructorSignature, rawConstructor), rawDestructor: embind__requireFunction(destructorSignature, rawDestructor), fields: [], }; } function __embind_register_value_object_field( structType, fieldName, getterReturnType, getterSignature, getter, getterContext, setterArgumentType, setterSignature, setter, setterContext ) { structRegistrations[structType].fields.push({ fieldName: readLatin1String(fieldName), getterReturnType: getterReturnType, getter: embind__requireFunction(getterSignature, getter), getterContext: getterContext, setterArgumentType: setterArgumentType, setter: embind__requireFunction(setterSignature, setter), setterContext: setterContext, }); } function __embind_register_void(rawType, name) { name = readLatin1String(name); registerType(rawType, { isVoid: true, // void return values can be optimized out sometimes name: name, 'argPackAdvance': 0, 'fromWireType': function() { return undefined; }, 'toWireType': function(destructors, o) { // TODO: assert if anything else is given? return undefined; }, }); } var nowIsMonotonic = true;; function __emscripten_get_now_is_monotonic() { return nowIsMonotonic; } function __emscripten_throw_longjmp() { throw Infinity; } function __emval_incref(handle) { if (handle > 4) { emval_handle_array[handle].refcount += 1; } } function requireRegisteredType(rawType, humanName) { var impl = registeredTypes[rawType]; if (undefined === impl) { throwBindingError(humanName + " has unknown type " + getTypeName(rawType)); } return impl; } function __emval_take_value(type, arg) { type = requireRegisteredType(type, '_emval_take_value'); var v = type['readValueFromPointer'](arg); return Emval.toHandle(v); } function readI53FromI64(ptr) { return HEAPU32[ptr>>2] + HEAP32[ptr+4>>2] * 4294967296; } function __gmtime_js(time, tmPtr) { var date = new Date(readI53FromI64(time)*1000); HEAP32[((tmPtr)>>2)] = date.getUTCSeconds(); HEAP32[(((tmPtr)+(4))>>2)] = date.getUTCMinutes(); HEAP32[(((tmPtr)+(8))>>2)] = date.getUTCHours(); HEAP32[(((tmPtr)+(12))>>2)] = date.getUTCDate(); HEAP32[(((tmPtr)+(16))>>2)] = date.getUTCMonth(); HEAP32[(((tmPtr)+(20))>>2)] = date.getUTCFullYear()-1900; HEAP32[(((tmPtr)+(24))>>2)] = date.getUTCDay(); var start = Date.UTC(date.getUTCFullYear(), 0, 1, 0, 0, 0, 0); var yday = ((date.getTime() - start) / (1000 * 60 * 60 * 24))|0; HEAP32[(((tmPtr)+(28))>>2)] = yday; } function __isLeapYear(year) { return year%4 === 0 && (year%100 !== 0 || year%400 === 0); } var __MONTH_DAYS_LEAP_CUMULATIVE = [0,31,60,91,121,152,182,213,244,274,305,335]; var __MONTH_DAYS_REGULAR_CUMULATIVE = [0,31,59,90,120,151,181,212,243,273,304,334]; function __yday_from_date(date) { var isLeapYear = __isLeapYear(date.getFullYear()); var monthDaysCumulative = (isLeapYear ? __MONTH_DAYS_LEAP_CUMULATIVE : __MONTH_DAYS_REGULAR_CUMULATIVE); var yday = monthDaysCumulative[date.getMonth()] + date.getDate() - 1; // -1 since it's days since Jan 1 return yday; } function __localtime_js(time, tmPtr) { var date = new Date(readI53FromI64(time)*1000); HEAP32[((tmPtr)>>2)] = date.getSeconds(); HEAP32[(((tmPtr)+(4))>>2)] = date.getMinutes(); HEAP32[(((tmPtr)+(8))>>2)] = date.getHours(); HEAP32[(((tmPtr)+(12))>>2)] = date.getDate(); HEAP32[(((tmPtr)+(16))>>2)] = date.getMonth(); HEAP32[(((tmPtr)+(20))>>2)] = date.getFullYear()-1900; HEAP32[(((tmPtr)+(24))>>2)] = date.getDay(); var yday = __yday_from_date(date)|0; HEAP32[(((tmPtr)+(28))>>2)] = yday; HEAP32[(((tmPtr)+(36))>>2)] = -(date.getTimezoneOffset() * 60); // Attention: DST is in December in South, and some regions don't have DST at all. var start = new Date(date.getFullYear(), 0, 1); var summerOffset = new Date(date.getFullYear(), 6, 1).getTimezoneOffset(); var winterOffset = start.getTimezoneOffset(); var dst = (summerOffset != winterOffset && date.getTimezoneOffset() == Math.min(winterOffset, summerOffset))|0; HEAP32[(((tmPtr)+(32))>>2)] = dst; } function __mktime_js(tmPtr) { var date = new Date(HEAP32[(((tmPtr)+(20))>>2)] + 1900, HEAP32[(((tmPtr)+(16))>>2)], HEAP32[(((tmPtr)+(12))>>2)], HEAP32[(((tmPtr)+(8))>>2)], HEAP32[(((tmPtr)+(4))>>2)], HEAP32[((tmPtr)>>2)], 0); // There's an ambiguous hour when the time goes back; the tm_isdst field is // used to disambiguate it. Date() basically guesses, so we fix it up if it // guessed wrong, or fill in tm_isdst with the guess if it's -1. var dst = HEAP32[(((tmPtr)+(32))>>2)]; var guessedOffset = date.getTimezoneOffset(); var start = new Date(date.getFullYear(), 0, 1); var summerOffset = new Date(date.getFullYear(), 6, 1).getTimezoneOffset(); var winterOffset = start.getTimezoneOffset(); var dstOffset = Math.min(winterOffset, summerOffset); // DST is in December in South if (dst < 0) { // Attention: some regions don't have DST at all. HEAP32[(((tmPtr)+(32))>>2)] = Number(summerOffset != winterOffset && dstOffset == guessedOffset); } else if ((dst > 0) != (dstOffset == guessedOffset)) { var nonDstOffset = Math.max(winterOffset, summerOffset); var trueOffset = dst > 0 ? dstOffset : nonDstOffset; // Don't try setMinutes(date.getMinutes() + ...) -- it's messed up. date.setTime(date.getTime() + (trueOffset - guessedOffset)*60000); } HEAP32[(((tmPtr)+(24))>>2)] = date.getDay(); var yday = __yday_from_date(date)|0; HEAP32[(((tmPtr)+(28))>>2)] = yday; // To match expected behavior, update fields from date HEAP32[((tmPtr)>>2)] = date.getSeconds(); HEAP32[(((tmPtr)+(4))>>2)] = date.getMinutes(); HEAP32[(((tmPtr)+(8))>>2)] = date.getHours(); HEAP32[(((tmPtr)+(12))>>2)] = date.getDate(); HEAP32[(((tmPtr)+(16))>>2)] = date.getMonth(); HEAP32[(((tmPtr)+(20))>>2)] = date.getYear(); return (date.getTime() / 1000)|0; } function __mmap_js(len, prot, flags, fd, off, allocated, addr) { try { var stream = SYSCALLS.getStreamFromFD(fd); var res = FS.mmap(stream, len, off, prot, flags); var ptr = res.ptr; HEAP32[((allocated)>>2)] = res.allocated; HEAPU32[((addr)>>2)] = ptr; return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function __munmap_js(addr, len, prot, flags, fd, offset) { try { var stream = SYSCALLS.getStreamFromFD(fd); if (prot & 2) { SYSCALLS.doMsync(addr, stream, len, flags, offset); } FS.munmap(stream); // implicitly return 0 } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return -e.errno; } } function allocateUTF8(str) { var size = lengthBytesUTF8(str) + 1; var ret = _malloc(size); if (ret) stringToUTF8Array(str, HEAP8, ret, size); return ret; } function __tzset_js(timezone, daylight, tzname) { // TODO: Use (malleable) environment variables instead of system settings. var currentYear = new Date().getFullYear(); var winter = new Date(currentYear, 0, 1); var summer = new Date(currentYear, 6, 1); var winterOffset = winter.getTimezoneOffset(); var summerOffset = summer.getTimezoneOffset(); // Local standard timezone offset. Local standard time is not adjusted for daylight savings. // This code uses the fact that getTimezoneOffset returns a greater value during Standard Time versus Daylight Saving Time (DST). // Thus it determines the expected output during Standard Time, and it compares whether the output of the given date the same (Standard) or less (DST). var stdTimezoneOffset = Math.max(winterOffset, summerOffset); // timezone is specified as seconds west of UTC ("The external variable // `timezone` shall be set to the difference, in seconds, between // Coordinated Universal Time (UTC) and local standard time."), the same // as returned by stdTimezoneOffset. // See http://pubs.opengroup.org/onlinepubs/009695399/functions/tzset.html HEAPU32[((timezone)>>2)] = stdTimezoneOffset * 60; HEAP32[((daylight)>>2)] = Number(winterOffset != summerOffset); function extractZone(date) { var match = date.toTimeString().match(/\(([A-Za-z ]+)\)$/); return match ? match[1] : "GMT"; }; var winterName = extractZone(winter); var summerName = extractZone(summer); var winterNamePtr = allocateUTF8(winterName); var summerNamePtr = allocateUTF8(summerName); if (summerOffset < winterOffset) { // Northern hemisphere HEAPU32[((tzname)>>2)] = winterNamePtr; HEAPU32[(((tzname)+(4))>>2)] = summerNamePtr; } else { HEAPU32[((tzname)>>2)] = summerNamePtr; HEAPU32[(((tzname)+(4))>>2)] = winterNamePtr; } } function _abort() { abort('native code called abort()'); } function _emscripten_console_error(str) { assert(typeof str == 'number'); console.error(UTF8ToString(str)); } function _emscripten_date_now() { return Date.now(); } function getHeapMax() { // Stay one Wasm page short of 4GB: while e.g. Chrome is able to allocate // full 4GB Wasm memories, the size will wrap back to 0 bytes in Wasm side // for any code that deals with heap sizes, which would require special // casing all heap size related code to treat 0 specially. return 2147483648; } function _emscripten_get_heap_max() { return getHeapMax(); } var _emscripten_get_now;if (ENVIRONMENT_IS_NODE) { _emscripten_get_now = () => { var t = process['hrtime'](); return t[0] * 1e3 + t[1] / 1e6; }; } else _emscripten_get_now = () => performance.now(); ; function _emscripten_memcpy_big(dest, src, num) { HEAPU8.copyWithin(dest, src, src + num); } function emscripten_realloc_buffer(size) { var b = wasmMemory.buffer; try { // round size grow request up to wasm page size (fixed 64KB per spec) wasmMemory.grow((size - b.byteLength + 65535) >>> 16); // .grow() takes a delta compared to the previous size updateMemoryViews(); return 1 /*success*/; } catch(e) { err('emscripten_realloc_buffer: Attempted to grow heap from ' + b.byteLength + ' bytes to ' + size + ' bytes, but got error: ' + e); } // implicit 0 return to save code size (caller will cast "undefined" into 0 // anyhow) } function _emscripten_resize_heap(requestedSize) { var oldSize = HEAPU8.length; requestedSize = requestedSize >>> 0; // With multithreaded builds, races can happen (another thread might increase the size // in between), so return a failure, and let the caller retry. assert(requestedSize > oldSize); // Memory resize rules: // 1. Always increase heap size to at least the requested size, rounded up // to next page multiple. // 2a. If MEMORY_GROWTH_LINEAR_STEP == -1, excessively resize the heap // geometrically: increase the heap size according to // MEMORY_GROWTH_GEOMETRIC_STEP factor (default +20%), At most // overreserve by MEMORY_GROWTH_GEOMETRIC_CAP bytes (default 96MB). // 2b. If MEMORY_GROWTH_LINEAR_STEP != -1, excessively resize the heap // linearly: increase the heap size by at least // MEMORY_GROWTH_LINEAR_STEP bytes. // 3. Max size for the heap is capped at 2048MB-WASM_PAGE_SIZE, or by // MAXIMUM_MEMORY, or by ASAN limit, depending on which is smallest // 4. If we were unable to allocate as much memory, it may be due to // over-eager decision to excessively reserve due to (3) above. // Hence if an allocation fails, cut down on the amount of excess // growth, in an attempt to succeed to perform a smaller allocation. // A limit is set for how much we can grow. We should not exceed that // (the wasm binary specifies it, so if we tried, we'd fail anyhow). var maxHeapSize = getHeapMax(); if (requestedSize > maxHeapSize) { err('Cannot enlarge memory, asked to go up to ' + requestedSize + ' bytes, but the limit is ' + maxHeapSize + ' bytes!'); return false; } let alignUp = (x, multiple) => x + (multiple - x % multiple) % multiple; // Loop through potential heap size increases. If we attempt a too eager // reservation that fails, cut down on the attempted size and reserve a // smaller bump instead. (max 3 times, chosen somewhat arbitrarily) for (var cutDown = 1; cutDown <= 4; cutDown *= 2) { var overGrownHeapSize = oldSize * (1 + 0.2 / cutDown); // ensure geometric growth // but limit overreserving (default to capping at +96MB overgrowth at most) overGrownHeapSize = Math.min(overGrownHeapSize, requestedSize + 100663296 ); var newSize = Math.min(maxHeapSize, alignUp(Math.max(requestedSize, overGrownHeapSize), 65536)); var replacement = emscripten_realloc_buffer(newSize); if (replacement) { return true; } } err('Failed to grow the heap from ' + oldSize + ' bytes to ' + newSize + ' bytes, not enough memory!'); return false; } var ENV = {}; function getExecutableName() { return thisProgram || './this.program'; } function getEnvStrings() { if (!getEnvStrings.strings) { // Default values. // Browser language detection #8751 var lang = ((typeof navigator == 'object' && navigator.languages && navigator.languages[0]) || 'C').replace('-', '_') + '.UTF-8'; var env = { 'USER': 'web_user', 'LOGNAME': 'web_user', 'PATH': '/', 'PWD': '/', 'HOME': '/home/web_user', 'LANG': lang, '_': getExecutableName() }; // Apply the user-provided values, if any. for (var x in ENV) { // x is a key in ENV; if ENV[x] is undefined, that means it was // explicitly set to be so. We allow user code to do that to // force variables with default values to remain unset. if (ENV[x] === undefined) delete env[x]; else env[x] = ENV[x]; } var strings = []; for (var x in env) { strings.push(x + '=' + env[x]); } getEnvStrings.strings = strings; } return getEnvStrings.strings; } /** @param {boolean=} dontAddNull */ function writeAsciiToMemory(str, buffer, dontAddNull) { for (var i = 0; i < str.length; ++i) { assert(str.charCodeAt(i) === (str.charCodeAt(i) & 0xff)); HEAP8[((buffer++)>>0)] = str.charCodeAt(i); } // Null-terminate the pointer to the HEAP. if (!dontAddNull) HEAP8[((buffer)>>0)] = 0; } function _environ_get(__environ, environ_buf) { var bufSize = 0; getEnvStrings().forEach(function(string, i) { var ptr = environ_buf + bufSize; HEAPU32[(((__environ)+(i*4))>>2)] = ptr; writeAsciiToMemory(string, ptr); bufSize += string.length + 1; }); return 0; } function _environ_sizes_get(penviron_count, penviron_buf_size) { var strings = getEnvStrings(); HEAPU32[((penviron_count)>>2)] = strings.length; var bufSize = 0; strings.forEach(function(string) { bufSize += string.length + 1; }); HEAPU32[((penviron_buf_size)>>2)] = bufSize; return 0; } function _proc_exit(code) { EXITSTATUS = code; if (!keepRuntimeAlive()) { if (Module['onExit']) Module['onExit'](code); ABORT = true; } quit_(code, new ExitStatus(code)); } /** @param {boolean|number=} implicit */ function exitJS(status, implicit) { EXITSTATUS = status; checkUnflushedContent(); // if exit() was called explicitly, warn the user if the runtime isn't actually being shut down if (keepRuntimeAlive() && !implicit) { var msg = 'program exited (with status: ' + status + '), but EXIT_RUNTIME is not set, so halting execution but not exiting the runtime or preventing further async execution (build with EXIT_RUNTIME=1, if you want a true shutdown)'; readyPromiseReject(msg); err(msg); } _proc_exit(status); } var _exit = exitJS; function _fd_close(fd) { try { var stream = SYSCALLS.getStreamFromFD(fd); FS.close(stream); return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return e.errno; } } function _fd_fdstat_get(fd, pbuf) { try { var stream = SYSCALLS.getStreamFromFD(fd); // All character devices are terminals (other things a Linux system would // assume is a character device, like the mouse, we have special APIs for). var type = stream.tty ? 2 : FS.isDir(stream.mode) ? 3 : FS.isLink(stream.mode) ? 7 : 4; HEAP8[((pbuf)>>0)] = type; // TODO HEAP16[(((pbuf)+(2))>>1)] = ?; // TODO (tempI64 = [?>>>0,(tempDouble=?,(+(Math.abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math.min((+(Math.floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math.ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[(((pbuf)+(8))>>2)] = tempI64[0],HEAP32[(((pbuf)+(12))>>2)] = tempI64[1]); // TODO (tempI64 = [?>>>0,(tempDouble=?,(+(Math.abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math.min((+(Math.floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math.ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[(((pbuf)+(16))>>2)] = tempI64[0],HEAP32[(((pbuf)+(20))>>2)] = tempI64[1]); return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return e.errno; } } /** @param {number=} offset */ function doReadv(stream, iov, iovcnt, offset) { var ret = 0; for (var i = 0; i < iovcnt; i++) { var ptr = HEAPU32[((iov)>>2)]; var len = HEAPU32[(((iov)+(4))>>2)]; iov += 8; var curr = FS.read(stream, HEAP8,ptr, len, offset); if (curr < 0) return -1; ret += curr; if (curr < len) break; // nothing more to read if (typeof offset !== 'undefined') { offset += curr; } } return ret; } function _fd_read(fd, iov, iovcnt, pnum) { try { var stream = SYSCALLS.getStreamFromFD(fd); var num = doReadv(stream, iov, iovcnt); HEAPU32[((pnum)>>2)] = num; return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return e.errno; } } function _fd_seek(fd, offset_low, offset_high, whence, newOffset) { try { var offset = convertI32PairToI53Checked(offset_low, offset_high); if (isNaN(offset)) return 61; var stream = SYSCALLS.getStreamFromFD(fd); FS.llseek(stream, offset, whence); (tempI64 = [stream.position>>>0,(tempDouble=stream.position,(+(Math.abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math.min((+(Math.floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math.ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[((newOffset)>>2)] = tempI64[0],HEAP32[(((newOffset)+(4))>>2)] = tempI64[1]); if (stream.getdents && offset === 0 && whence === 0) stream.getdents = null; // reset readdir state return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return e.errno; } } function _fd_sync(fd) { try { var stream = SYSCALLS.getStreamFromFD(fd); if (stream.stream_ops && stream.stream_ops.fsync) { return stream.stream_ops.fsync(stream); } return 0; // we can't do anything synchronously; the in-memory FS is already synced to } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return e.errno; } } /** @param {number=} offset */ function doWritev(stream, iov, iovcnt, offset) { var ret = 0; for (var i = 0; i < iovcnt; i++) { var ptr = HEAPU32[((iov)>>2)]; var len = HEAPU32[(((iov)+(4))>>2)]; iov += 8; var curr = FS.write(stream, HEAP8,ptr, len, offset); if (curr < 0) return -1; ret += curr; if (typeof offset !== 'undefined') { offset += curr; } } return ret; } function _fd_write(fd, iov, iovcnt, pnum) { try { var stream = SYSCALLS.getStreamFromFD(fd); var num = doWritev(stream, iov, iovcnt); HEAPU32[((pnum)>>2)] = num; return 0; } catch (e) { if (typeof FS == 'undefined' || !(e instanceof FS.ErrnoError)) throw e; return e.errno; } } function _getentropy(buffer, size) { if (!_getentropy.randomDevice) { _getentropy.randomDevice = getRandomDevice(); } for (var i = 0; i < size; i++) { HEAP8[(((buffer)+(i))>>0)] = _getentropy.randomDevice(); } return 0; } function _on_status(type, str_ptr) { Module.handleStatus(type, UTF8ToString(str_ptr)); } function __arraySum(array, index) { var sum = 0; for (var i = 0; i <= index; sum += array[i++]) { // no-op } return sum; } var __MONTH_DAYS_LEAP = [31,29,31,30,31,30,31,31,30,31,30,31]; var __MONTH_DAYS_REGULAR = [31,28,31,30,31,30,31,31,30,31,30,31]; function __addDays(date, days) { var newDate = new Date(date.getTime()); while (days > 0) { var leap = __isLeapYear(newDate.getFullYear()); var currentMonth = newDate.getMonth(); var daysInCurrentMonth = (leap ? __MONTH_DAYS_LEAP : __MONTH_DAYS_REGULAR)[currentMonth]; if (days > daysInCurrentMonth-newDate.getDate()) { // we spill over to next month days -= (daysInCurrentMonth-newDate.getDate()+1); newDate.setDate(1); if (currentMonth < 11) { newDate.setMonth(currentMonth+1) } else { newDate.setMonth(0); newDate.setFullYear(newDate.getFullYear()+1); } } else { // we stay in current month newDate.setDate(newDate.getDate()+days); return newDate; } } return newDate; } function writeArrayToMemory(array, buffer) { assert(array.length >= 0, 'writeArrayToMemory array must have a length (should be an array or typed array)') HEAP8.set(array, buffer); } function _strftime(s, maxsize, format, tm) { // size_t strftime(char *restrict s, size_t maxsize, const char *restrict format, const struct tm *restrict timeptr); // http://pubs.opengroup.org/onlinepubs/009695399/functions/strftime.html var tm_zone = HEAP32[(((tm)+(40))>>2)]; var date = { tm_sec: HEAP32[((tm)>>2)], tm_min: HEAP32[(((tm)+(4))>>2)], tm_hour: HEAP32[(((tm)+(8))>>2)], tm_mday: HEAP32[(((tm)+(12))>>2)], tm_mon: HEAP32[(((tm)+(16))>>2)], tm_year: HEAP32[(((tm)+(20))>>2)], tm_wday: HEAP32[(((tm)+(24))>>2)], tm_yday: HEAP32[(((tm)+(28))>>2)], tm_isdst: HEAP32[(((tm)+(32))>>2)], tm_gmtoff: HEAP32[(((tm)+(36))>>2)], tm_zone: tm_zone ? UTF8ToString(tm_zone) : '' }; var pattern = UTF8ToString(format); // expand format var EXPANSION_RULES_1 = { '%c': '%a %b %d %H:%M:%S %Y', // Replaced by the locale's appropriate date and time representation - e.g., Mon Aug 3 14:02:01 2013 '%D': '%m/%d/%y', // Equivalent to %m / %d / %y '%F': '%Y-%m-%d', // Equivalent to %Y - %m - %d '%h': '%b', // Equivalent to %b '%r': '%I:%M:%S %p', // Replaced by the time in a.m. and p.m. notation '%R': '%H:%M', // Replaced by the time in 24-hour notation '%T': '%H:%M:%S', // Replaced by the time '%x': '%m/%d/%y', // Replaced by the locale's appropriate date representation '%X': '%H:%M:%S', // Replaced by the locale's appropriate time representation // Modified Conversion Specifiers '%Ec': '%c', // Replaced by the locale's alternative appropriate date and time representation. '%EC': '%C', // Replaced by the name of the base year (period) in the locale's alternative representation. '%Ex': '%m/%d/%y', // Replaced by the locale's alternative date representation. '%EX': '%H:%M:%S', // Replaced by the locale's alternative time representation. '%Ey': '%y', // Replaced by the offset from %EC (year only) in the locale's alternative representation. '%EY': '%Y', // Replaced by the full alternative year representation. '%Od': '%d', // Replaced by the day of the month, using the locale's alternative numeric symbols, filled as needed with leading zeros if there is any alternative symbol for zero; otherwise, with leading characters. '%Oe': '%e', // Replaced by the day of the month, using the locale's alternative numeric symbols, filled as needed with leading characters. '%OH': '%H', // Replaced by the hour (24-hour clock) using the locale's alternative numeric symbols. '%OI': '%I', // Replaced by the hour (12-hour clock) using the locale's alternative numeric symbols. '%Om': '%m', // Replaced by the month using the locale's alternative numeric symbols. '%OM': '%M', // Replaced by the minutes using the locale's alternative numeric symbols. '%OS': '%S', // Replaced by the seconds using the locale's alternative numeric symbols. '%Ou': '%u', // Replaced by the weekday as a number in the locale's alternative representation (Monday=1). '%OU': '%U', // Replaced by the week number of the year (Sunday as the first day of the week, rules corresponding to %U ) using the locale's alternative numeric symbols. '%OV': '%V', // Replaced by the week number of the year (Monday as the first day of the week, rules corresponding to %V ) using the locale's alternative numeric symbols. '%Ow': '%w', // Replaced by the number of the weekday (Sunday=0) using the locale's alternative numeric symbols. '%OW': '%W', // Replaced by the week number of the year (Monday as the first day of the week) using the locale's alternative numeric symbols. '%Oy': '%y', // Replaced by the year (offset from %C ) using the locale's alternative numeric symbols. }; for (var rule in EXPANSION_RULES_1) { pattern = pattern.replace(new RegExp(rule, 'g'), EXPANSION_RULES_1[rule]); } var WEEKDAYS = ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday']; var MONTHS = ['January', 'February', 'March', 'April', 'May', 'June', 'July', 'August', 'September', 'October', 'November', 'December']; function leadingSomething(value, digits, character) { var str = typeof value == 'number' ? value.toString() : (value || ''); while (str.length < digits) { str = character[0]+str; } return str; } function leadingNulls(value, digits) { return leadingSomething(value, digits, '0'); } function compareByDay(date1, date2) { function sgn(value) { return value < 0 ? -1 : (value > 0 ? 1 : 0); } var compare; if ((compare = sgn(date1.getFullYear()-date2.getFullYear())) === 0) { if ((compare = sgn(date1.getMonth()-date2.getMonth())) === 0) { compare = sgn(date1.getDate()-date2.getDate()); } } return compare; } function getFirstWeekStartDate(janFourth) { switch (janFourth.getDay()) { case 0: // Sunday return new Date(janFourth.getFullYear()-1, 11, 29); case 1: // Monday return janFourth; case 2: // Tuesday return new Date(janFourth.getFullYear(), 0, 3); case 3: // Wednesday return new Date(janFourth.getFullYear(), 0, 2); case 4: // Thursday return new Date(janFourth.getFullYear(), 0, 1); case 5: // Friday return new Date(janFourth.getFullYear()-1, 11, 31); case 6: // Saturday return new Date(janFourth.getFullYear()-1, 11, 30); } } function getWeekBasedYear(date) { var thisDate = __addDays(new Date(date.tm_year+1900, 0, 1), date.tm_yday); var janFourthThisYear = new Date(thisDate.getFullYear(), 0, 4); var janFourthNextYear = new Date(thisDate.getFullYear()+1, 0, 4); var firstWeekStartThisYear = getFirstWeekStartDate(janFourthThisYear); var firstWeekStartNextYear = getFirstWeekStartDate(janFourthNextYear); if (compareByDay(firstWeekStartThisYear, thisDate) <= 0) { // this date is after the start of the first week of this year if (compareByDay(firstWeekStartNextYear, thisDate) <= 0) { return thisDate.getFullYear()+1; } return thisDate.getFullYear(); } return thisDate.getFullYear()-1; } var EXPANSION_RULES_2 = { '%a': function(date) { return WEEKDAYS[date.tm_wday].substring(0,3); }, '%A': function(date) { return WEEKDAYS[date.tm_wday]; }, '%b': function(date) { return MONTHS[date.tm_mon].substring(0,3); }, '%B': function(date) { return MONTHS[date.tm_mon]; }, '%C': function(date) { var year = date.tm_year+1900; return leadingNulls((year/100)|0,2); }, '%d': function(date) { return leadingNulls(date.tm_mday, 2); }, '%e': function(date) { return leadingSomething(date.tm_mday, 2, ' '); }, '%g': function(date) { // %g, %G, and %V give values according to the ISO 8601:2000 standard week-based year. // In this system, weeks begin on a Monday and week 1 of the year is the week that includes // January 4th, which is also the week that includes the first Thursday of the year, and // is also the first week that contains at least four days in the year. // If the first Monday of January is the 2nd, 3rd, or 4th, the preceding days are part of // the last week of the preceding year; thus, for Saturday 2nd January 1999, // %G is replaced by 1998 and %V is replaced by 53. If December 29th, 30th, // or 31st is a Monday, it and any following days are part of week 1 of the following year. // Thus, for Tuesday 30th December 1997, %G is replaced by 1998 and %V is replaced by 01. return getWeekBasedYear(date).toString().substring(2); }, '%G': function(date) { return getWeekBasedYear(date); }, '%H': function(date) { return leadingNulls(date.tm_hour, 2); }, '%I': function(date) { var twelveHour = date.tm_hour; if (twelveHour == 0) twelveHour = 12; else if (twelveHour > 12) twelveHour -= 12; return leadingNulls(twelveHour, 2); }, '%j': function(date) { // Day of the year (001-366) return leadingNulls(date.tm_mday+__arraySum(__isLeapYear(date.tm_year+1900) ? __MONTH_DAYS_LEAP : __MONTH_DAYS_REGULAR, date.tm_mon-1), 3); }, '%m': function(date) { return leadingNulls(date.tm_mon+1, 2); }, '%M': function(date) { return leadingNulls(date.tm_min, 2); }, '%n': function() { return '\n'; }, '%p': function(date) { if (date.tm_hour >= 0 && date.tm_hour < 12) { return 'AM'; } return 'PM'; }, '%S': function(date) { return leadingNulls(date.tm_sec, 2); }, '%t': function() { return '\t'; }, '%u': function(date) { return date.tm_wday || 7; }, '%U': function(date) { var days = date.tm_yday + 7 - date.tm_wday; return leadingNulls(Math.floor(days / 7), 2); }, '%V': function(date) { // Replaced by the week number of the year (Monday as the first day of the week) // as a decimal number [01,53]. If the week containing 1 January has four // or more days in the new year, then it is considered week 1. // Otherwise, it is the last week of the previous year, and the next week is week 1. // Both January 4th and the first Thursday of January are always in week 1. [ tm_year, tm_wday, tm_yday] var val = Math.floor((date.tm_yday + 7 - (date.tm_wday + 6) % 7 ) / 7); // If 1 Jan is just 1-3 days past Monday, the previous week // is also in this year. if ((date.tm_wday + 371 - date.tm_yday - 2) % 7 <= 2) { val++; } if (!val) { val = 52; // If 31 December of prev year a Thursday, or Friday of a // leap year, then the prev year has 53 weeks. var dec31 = (date.tm_wday + 7 - date.tm_yday - 1) % 7; if (dec31 == 4 || (dec31 == 5 && __isLeapYear(date.tm_year%400-1))) { val++; } } else if (val == 53) { // If 1 January is not a Thursday, and not a Wednesday of a // leap year, then this year has only 52 weeks. var jan1 = (date.tm_wday + 371 - date.tm_yday) % 7; if (jan1 != 4 && (jan1 != 3 || !__isLeapYear(date.tm_year))) val = 1; } return leadingNulls(val, 2); }, '%w': function(date) { return date.tm_wday; }, '%W': function(date) { var days = date.tm_yday + 7 - ((date.tm_wday + 6) % 7); return leadingNulls(Math.floor(days / 7), 2); }, '%y': function(date) { // Replaced by the last two digits of the year as a decimal number [00,99]. [ tm_year] return (date.tm_year+1900).toString().substring(2); }, '%Y': function(date) { // Replaced by the year as a decimal number (for example, 1997). [ tm_year] return date.tm_year+1900; }, '%z': function(date) { // Replaced by the offset from UTC in the ISO 8601:2000 standard format ( +hhmm or -hhmm ). // For example, "-0430" means 4 hours 30 minutes behind UTC (west of Greenwich). var off = date.tm_gmtoff; var ahead = off >= 0; off = Math.abs(off) / 60; // convert from minutes into hhmm format (which means 60 minutes = 100 units) off = (off / 60)*100 + (off % 60); return (ahead ? '+' : '-') + String("0000" + off).slice(-4); }, '%Z': function(date) { return date.tm_zone; }, '%%': function() { return '%'; } }; // Replace %% with a pair of NULLs (which cannot occur in a C string), then // re-inject them after processing. pattern = pattern.replace(/%%/g, '\0\0') for (var rule in EXPANSION_RULES_2) { if (pattern.includes(rule)) { pattern = pattern.replace(new RegExp(rule, 'g'), EXPANSION_RULES_2[rule](date)); } } pattern = pattern.replace(/\0\0/g, '%') var bytes = intArrayFromString(pattern, false); if (bytes.length > maxsize) { return 0; } writeArrayToMemory(bytes, s); return bytes.length-1; } function _strptime(buf, format, tm) { // char *strptime(const char *restrict buf, const char *restrict format, struct tm *restrict tm); // http://pubs.opengroup.org/onlinepubs/009695399/functions/strptime.html var pattern = UTF8ToString(format); // escape special characters // TODO: not sure we really need to escape all of these in JS regexps var SPECIAL_CHARS = '\\!@#$^&*()+=-[]/{}|:<>?,.'; for (var i=0, ii=SPECIAL_CHARS.length; i=0; i=pattern.indexOf('%')) { capture.push(pattern[i+1]); pattern = pattern.replace(new RegExp('\\%'+pattern[i+1], 'g'), ''); } var matches = new RegExp('^'+pattern, "i").exec(UTF8ToString(buf)) // out(UTF8ToString(buf)+ ' is matched by '+((new RegExp('^'+pattern)).source)+' into: '+JSON.stringify(matches)); function initDate() { function fixup(value, min, max) { return (typeof value != 'number' || isNaN(value)) ? min : (value>=min ? (value<=max ? value: max): min); }; return { year: fixup(HEAP32[(((tm)+(20))>>2)] + 1900 , 1970, 9999), month: fixup(HEAP32[(((tm)+(16))>>2)], 0, 11), day: fixup(HEAP32[(((tm)+(12))>>2)], 1, 31), hour: fixup(HEAP32[(((tm)+(8))>>2)], 0, 23), min: fixup(HEAP32[(((tm)+(4))>>2)], 0, 59), sec: fixup(HEAP32[((tm)>>2)], 0, 59) }; }; if (matches) { var date = initDate(); var value; var getMatch = (symbol) => { var pos = capture.indexOf(symbol); // check if symbol appears in regexp if (pos >= 0) { // return matched value or null (falsy!) for non-matches return matches[pos+1]; } return; }; // seconds if ((value=getMatch('S'))) { date.sec = jstoi_q(value); } // minutes if ((value=getMatch('M'))) { date.min = jstoi_q(value); } // hours if ((value=getMatch('H'))) { // 24h clock date.hour = jstoi_q(value); } else if ((value = getMatch('I'))) { // AM/PM clock var hour = jstoi_q(value); if ((value=getMatch('p'))) { hour += value.toUpperCase()[0] === 'P' ? 12 : 0; } date.hour = hour; } // year if ((value=getMatch('Y'))) { // parse from four-digit year date.year = jstoi_q(value); } else if ((value=getMatch('y'))) { // parse from two-digit year... var year = jstoi_q(value); if ((value=getMatch('C'))) { // ...and century year += jstoi_q(value)*100; } else { // ...and rule-of-thumb year += year<69 ? 2000 : 1900; } date.year = year; } // month if ((value=getMatch('m'))) { // parse from month number date.month = jstoi_q(value)-1; } else if ((value=getMatch('b'))) { // parse from month name date.month = MONTH_NUMBERS[value.substring(0,3).toUpperCase()] || 0; // TODO: derive month from day in year+year, week number+day of week+year } // day if ((value=getMatch('d'))) { // get day of month directly date.day = jstoi_q(value); } else if ((value=getMatch('j'))) { // get day of month from day of year ... var day = jstoi_q(value); var leapYear = __isLeapYear(date.year); for (var month=0; month<12; ++month) { var daysUntilMonth = __arraySum(leapYear ? __MONTH_DAYS_LEAP : __MONTH_DAYS_REGULAR, month-1); if (day<=daysUntilMonth+(leapYear ? __MONTH_DAYS_LEAP : __MONTH_DAYS_REGULAR)[month]) { date.day = day-daysUntilMonth; } } } else if ((value=getMatch('a'))) { // get day of month from weekday ... var weekDay = value.substring(0,3).toUpperCase(); if ((value=getMatch('U'))) { // ... and week number (Sunday being first day of week) // Week number of the year (Sunday as the first day of the week) as a decimal number [00,53]. // All days in a new year preceding the first Sunday are considered to be in week 0. var weekDayNumber = DAY_NUMBERS_SUN_FIRST[weekDay]; var weekNumber = jstoi_q(value); // January 1st var janFirst = new Date(date.year, 0, 1); var endDate; if (janFirst.getDay() === 0) { // Jan 1st is a Sunday, and, hence in the 1st CW endDate = __addDays(janFirst, weekDayNumber+7*(weekNumber-1)); } else { // Jan 1st is not a Sunday, and, hence still in the 0th CW endDate = __addDays(janFirst, 7-janFirst.getDay()+weekDayNumber+7*(weekNumber-1)); } date.day = endDate.getDate(); date.month = endDate.getMonth(); } else if ((value=getMatch('W'))) { // ... and week number (Monday being first day of week) // Week number of the year (Monday as the first day of the week) as a decimal number [00,53]. // All days in a new year preceding the first Monday are considered to be in week 0. var weekDayNumber = DAY_NUMBERS_MON_FIRST[weekDay]; var weekNumber = jstoi_q(value); // January 1st var janFirst = new Date(date.year, 0, 1); var endDate; if (janFirst.getDay()===1) { // Jan 1st is a Monday, and, hence in the 1st CW endDate = __addDays(janFirst, weekDayNumber+7*(weekNumber-1)); } else { // Jan 1st is not a Monday, and, hence still in the 0th CW endDate = __addDays(janFirst, 7-janFirst.getDay()+1+weekDayNumber+7*(weekNumber-1)); } date.day = endDate.getDate(); date.month = endDate.getMonth(); } } /* tm_sec int seconds after the minute 0-61* tm_min int minutes after the hour 0-59 tm_hour int hours since midnight 0-23 tm_mday int day of the month 1-31 tm_mon int months since January 0-11 tm_year int years since 1900 tm_wday int days since Sunday 0-6 tm_yday int days since January 1 0-365 tm_isdst int Daylight Saving Time flag */ var fullDate = new Date(date.year, date.month, date.day, date.hour, date.min, date.sec, 0); HEAP32[((tm)>>2)] = fullDate.getSeconds(); HEAP32[(((tm)+(4))>>2)] = fullDate.getMinutes(); HEAP32[(((tm)+(8))>>2)] = fullDate.getHours(); HEAP32[(((tm)+(12))>>2)] = fullDate.getDate(); HEAP32[(((tm)+(16))>>2)] = fullDate.getMonth(); HEAP32[(((tm)+(20))>>2)] = fullDate.getFullYear()-1900; HEAP32[(((tm)+(24))>>2)] = fullDate.getDay(); HEAP32[(((tm)+(28))>>2)] = __arraySum(__isLeapYear(fullDate.getFullYear()) ? __MONTH_DAYS_LEAP : __MONTH_DAYS_REGULAR, fullDate.getMonth()-1)+fullDate.getDate()-1; HEAP32[(((tm)+(32))>>2)] = 0; // we need to convert the matched sequence into an integer array to take care of UTF-8 characters > 0x7F // TODO: not sure that intArrayFromString handles all unicode characters correctly return buf+intArrayFromString(matches[0]).length-1; } return 0; } function _system(command) { if (ENVIRONMENT_IS_NODE) { if (!command) return 1; // shell is available var cmdstr = UTF8ToString(command); if (!cmdstr.length) return 0; // this is what glibc seems to do (shell works test?) var cp = require('child_process'); var ret = cp.spawnSync(cmdstr, [], {shell:true, stdio:'inherit'}); var _W_EXITCODE = (ret, sig) => ((ret) << 8 | (sig)); // this really only can happen if process is killed by signal if (ret.status === null) { // sadly node doesn't expose such function var signalToNumber = (sig) => { // implement only the most common ones, and fallback to SIGINT switch (sig) { case 'SIGHUP': return 1; case 'SIGINT': return 2; case 'SIGQUIT': return 3; case 'SIGFPE': return 8; case 'SIGKILL': return 9; case 'SIGALRM': return 14; case 'SIGTERM': return 15; } return 2; // SIGINT } return _W_EXITCODE(0, signalToNumber(ret.signal)); } return _W_EXITCODE(ret.status, 0); } // int system(const char *command); // http://pubs.opengroup.org/onlinepubs/000095399/functions/system.html // Can't call external programs. if (!command) return 0; // no shell available setErrNo(52); return -1; } var FSNode = /** @constructor */ function(parent, name, mode, rdev) { if (!parent) { parent = this; // root node sets parent to itself } this.parent = parent; this.mount = parent.mount; this.mounted = null; this.id = FS.nextInode++; this.name = name; this.mode = mode; this.node_ops = {}; this.stream_ops = {}; this.rdev = rdev; }; var readMode = 292/*292*/ | 73/*73*/; var writeMode = 146/*146*/; Object.defineProperties(FSNode.prototype, { read: { get: /** @this{FSNode} */function() { return (this.mode & readMode) === readMode; }, set: /** @this{FSNode} */function(val) { val ? this.mode |= readMode : this.mode &= ~readMode; } }, write: { get: /** @this{FSNode} */function() { return (this.mode & writeMode) === writeMode; }, set: /** @this{FSNode} */function(val) { val ? this.mode |= writeMode : this.mode &= ~writeMode; } }, isFolder: { get: /** @this{FSNode} */function() { return FS.isDir(this.mode); } }, isDevice: { get: /** @this{FSNode} */function() { return FS.isChrdev(this.mode); } } }); FS.FSNode = FSNode; FS.staticInit();Module["FS_createPath"] = FS.createPath;Module["FS_createDataFile"] = FS.createDataFile;Module["FS_createPreloadedFile"] = FS.createPreloadedFile;Module["FS_unlink"] = FS.unlink;Module["FS_createLazyFile"] = FS.createLazyFile;Module["FS_createDevice"] = FS.createDevice;; ERRNO_CODES = { 'EPERM': 63, 'ENOENT': 44, 'ESRCH': 71, 'EINTR': 27, 'EIO': 29, 'ENXIO': 60, 'E2BIG': 1, 'ENOEXEC': 45, 'EBADF': 8, 'ECHILD': 12, 'EAGAIN': 6, 'EWOULDBLOCK': 6, 'ENOMEM': 48, 'EACCES': 2, 'EFAULT': 21, 'ENOTBLK': 105, 'EBUSY': 10, 'EEXIST': 20, 'EXDEV': 75, 'ENODEV': 43, 'ENOTDIR': 54, 'EISDIR': 31, 'EINVAL': 28, 'ENFILE': 41, 'EMFILE': 33, 'ENOTTY': 59, 'ETXTBSY': 74, 'EFBIG': 22, 'ENOSPC': 51, 'ESPIPE': 70, 'EROFS': 69, 'EMLINK': 34, 'EPIPE': 64, 'EDOM': 18, 'ERANGE': 68, 'ENOMSG': 49, 'EIDRM': 24, 'ECHRNG': 106, 'EL2NSYNC': 156, 'EL3HLT': 107, 'EL3RST': 108, 'ELNRNG': 109, 'EUNATCH': 110, 'ENOCSI': 111, 'EL2HLT': 112, 'EDEADLK': 16, 'ENOLCK': 46, 'EBADE': 113, 'EBADR': 114, 'EXFULL': 115, 'ENOANO': 104, 'EBADRQC': 103, 'EBADSLT': 102, 'EDEADLOCK': 16, 'EBFONT': 101, 'ENOSTR': 100, 'ENODATA': 116, 'ETIME': 117, 'ENOSR': 118, 'ENONET': 119, 'ENOPKG': 120, 'EREMOTE': 121, 'ENOLINK': 47, 'EADV': 122, 'ESRMNT': 123, 'ECOMM': 124, 'EPROTO': 65, 'EMULTIHOP': 36, 'EDOTDOT': 125, 'EBADMSG': 9, 'ENOTUNIQ': 126, 'EBADFD': 127, 'EREMCHG': 128, 'ELIBACC': 129, 'ELIBBAD': 130, 'ELIBSCN': 131, 'ELIBMAX': 132, 'ELIBEXEC': 133, 'ENOSYS': 52, 'ENOTEMPTY': 55, 'ENAMETOOLONG': 37, 'ELOOP': 32, 'EOPNOTSUPP': 138, 'EPFNOSUPPORT': 139, 'ECONNRESET': 15, 'ENOBUFS': 42, 'EAFNOSUPPORT': 5, 'EPROTOTYPE': 67, 'ENOTSOCK': 57, 'ENOPROTOOPT': 50, 'ESHUTDOWN': 140, 'ECONNREFUSED': 14, 'EADDRINUSE': 3, 'ECONNABORTED': 13, 'ENETUNREACH': 40, 'ENETDOWN': 38, 'ETIMEDOUT': 73, 'EHOSTDOWN': 142, 'EHOSTUNREACH': 23, 'EINPROGRESS': 26, 'EALREADY': 7, 'EDESTADDRREQ': 17, 'EMSGSIZE': 35, 'EPROTONOSUPPORT': 66, 'ESOCKTNOSUPPORT': 137, 'EADDRNOTAVAIL': 4, 'ENETRESET': 39, 'EISCONN': 30, 'ENOTCONN': 53, 'ETOOMANYREFS': 141, 'EUSERS': 136, 'EDQUOT': 19, 'ESTALE': 72, 'ENOTSUP': 138, 'ENOMEDIUM': 148, 'EILSEQ': 25, 'EOVERFLOW': 61, 'ECANCELED': 11, 'ENOTRECOVERABLE': 56, 'EOWNERDEAD': 62, 'ESTRPIPE': 135, };; InternalError = Module['InternalError'] = extendError(Error, 'InternalError');; embind_init_charCodes(); BindingError = Module['BindingError'] = extendError(Error, 'BindingError');; init_ClassHandle(); init_embind();; init_RegisteredPointer(); UnboundTypeError = Module['UnboundTypeError'] = extendError(Error, 'UnboundTypeError');; init_emval();; // include: base64Utils.js // Copied from https://github.com/strophe/strophejs/blob/e06d027/src/polyfills.js#L149 // This code was written by Tyler Akins and has been placed in the // public domain. It would be nice if you left this header intact. // Base64 code from Tyler Akins -- http://rumkin.com /** * Decodes a base64 string. * @param {string} input The string to decode. */ var decodeBase64 = typeof atob == 'function' ? atob : function (input) { var keyStr = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/='; var output = ''; var chr1, chr2, chr3; var enc1, enc2, enc3, enc4; var i = 0; // remove all characters that are not A-Z, a-z, 0-9, +, /, or = input = input.replace(/[^A-Za-z0-9\+\/\=]/g, ''); do { enc1 = keyStr.indexOf(input.charAt(i++)); enc2 = keyStr.indexOf(input.charAt(i++)); enc3 = keyStr.indexOf(input.charAt(i++)); enc4 = keyStr.indexOf(input.charAt(i++)); chr1 = (enc1 << 2) | (enc2 >> 4); chr2 = ((enc2 & 15) << 4) | (enc3 >> 2); chr3 = ((enc3 & 3) << 6) | enc4; output = output + String.fromCharCode(chr1); if (enc3 !== 64) { output = output + String.fromCharCode(chr2); } if (enc4 !== 64) { output = output + String.fromCharCode(chr3); } } while (i < input.length); return output; }; // Converts a string of base64 into a byte array. // Throws error on invalid input. function intArrayFromBase64(s) { if (typeof ENVIRONMENT_IS_NODE == 'boolean' && ENVIRONMENT_IS_NODE) { var buf = Buffer.from(s, 'base64'); return new Uint8Array(buf['buffer'], buf['byteOffset'], buf['byteLength']); } try { var decoded = decodeBase64(s); var bytes = new Uint8Array(decoded.length); for (var i = 0 ; i < decoded.length ; ++i) { bytes[i] = decoded.charCodeAt(i); } return bytes; } catch (_) { throw new Error('Converting base64 string to bytes failed.'); } } // If filename is a base64 data URI, parses and returns data (Buffer on node, // Uint8Array otherwise). If filename is not a base64 data URI, returns undefined. function tryParseAsDataURI(filename) { if (!isDataURI(filename)) { return; } return intArrayFromBase64(filename.slice(dataURIPrefix.length)); } // end include: base64Utils.js function checkIncomingModuleAPI() { ignoredModuleProp('fetchSettings'); } var wasmImports = { "__assert_fail": ___assert_fail, "__call_sighandler": ___call_sighandler, "__cxa_throw": ___cxa_throw, "__syscall__newselect": ___syscall__newselect, "__syscall_bind": ___syscall_bind, "__syscall_connect": ___syscall_connect, "__syscall_dup": ___syscall_dup, "__syscall_dup3": ___syscall_dup3, "__syscall_faccessat": ___syscall_faccessat, "__syscall_fcntl64": ___syscall_fcntl64, "__syscall_fstat64": ___syscall_fstat64, "__syscall_ftruncate64": ___syscall_ftruncate64, "__syscall_getdents64": ___syscall_getdents64, "__syscall_ioctl": ___syscall_ioctl, "__syscall_lstat64": ___syscall_lstat64, "__syscall_mkdirat": ___syscall_mkdirat, "__syscall_newfstatat": ___syscall_newfstatat, "__syscall_openat": ___syscall_openat, "__syscall_recvfrom": ___syscall_recvfrom, "__syscall_renameat": ___syscall_renameat, "__syscall_rmdir": ___syscall_rmdir, "__syscall_sendto": ___syscall_sendto, "__syscall_socket": ___syscall_socket, "__syscall_stat64": ___syscall_stat64, "__syscall_unlinkat": ___syscall_unlinkat, "_dlinit": __dlinit, "_dlopen_js": __dlopen_js, "_dlsym_js": __dlsym_js, "_embind_finalize_value_object": __embind_finalize_value_object, "_embind_register_bigint": __embind_register_bigint, "_embind_register_bool": __embind_register_bool, "_embind_register_class": __embind_register_class, "_embind_register_class_constructor": __embind_register_class_constructor, "_embind_register_class_function": __embind_register_class_function, "_embind_register_emval": __embind_register_emval, "_embind_register_float": __embind_register_float, "_embind_register_function": __embind_register_function, "_embind_register_integer": __embind_register_integer, "_embind_register_memory_view": __embind_register_memory_view, "_embind_register_std_string": __embind_register_std_string, "_embind_register_std_wstring": __embind_register_std_wstring, "_embind_register_value_object": __embind_register_value_object, "_embind_register_value_object_field": __embind_register_value_object_field, "_embind_register_void": __embind_register_void, "_emscripten_get_now_is_monotonic": __emscripten_get_now_is_monotonic, "_emscripten_throw_longjmp": __emscripten_throw_longjmp, "_emval_decref": __emval_decref, "_emval_incref": __emval_incref, "_emval_take_value": __emval_take_value, "_gmtime_js": __gmtime_js, "_localtime_js": __localtime_js, "_mktime_js": __mktime_js, "_mmap_js": __mmap_js, "_munmap_js": __munmap_js, "_tzset_js": __tzset_js, "abort": _abort, "emscripten_console_error": _emscripten_console_error, "emscripten_date_now": _emscripten_date_now, "emscripten_get_heap_max": _emscripten_get_heap_max, "emscripten_get_now": _emscripten_get_now, "emscripten_memcpy_big": _emscripten_memcpy_big, "emscripten_resize_heap": _emscripten_resize_heap, "environ_get": _environ_get, "environ_sizes_get": _environ_sizes_get, "exit": _exit, "fd_close": _fd_close, "fd_fdstat_get": _fd_fdstat_get, "fd_read": _fd_read, "fd_seek": _fd_seek, "fd_sync": _fd_sync, "fd_write": _fd_write, "getentropy": _getentropy, "invoke_i": invoke_i, "invoke_ii": invoke_ii, "invoke_iii": invoke_iii, "invoke_iiii": invoke_iiii, "invoke_iiiii": invoke_iiiii, "invoke_iiiiii": invoke_iiiiii, "invoke_iiiiiii": invoke_iiiiiii, "invoke_iiiiiiii": invoke_iiiiiiii, "invoke_iiiiiiiii": invoke_iiiiiiiii, "invoke_iiiiiiiiii": invoke_iiiiiiiiii, "invoke_iiiiiiiiiii": invoke_iiiiiiiiiii, "invoke_iiiiiiiiiiii": invoke_iiiiiiiiiiii, "invoke_iiiiiiiiiiiii": invoke_iiiiiiiiiiiii, "invoke_iiiiiij": invoke_iiiiiij, "invoke_iiiiiijii": invoke_iiiiiijii, "invoke_iiiijii": invoke_iiiijii, "invoke_ij": invoke_ij, "invoke_jii": invoke_jii, "invoke_jiii": invoke_jiii, "invoke_v": invoke_v, "invoke_vi": invoke_vi, "invoke_vid": invoke_vid, "invoke_vii": invoke_vii, "invoke_viii": invoke_viii, "invoke_viiii": invoke_viiii, "invoke_viiiii": invoke_viiiii, "invoke_viiiiii": invoke_viiiiii, "invoke_viiiiiii": invoke_viiiiiii, "invoke_viiiiiiii": invoke_viiiiiiii, "invoke_viiiiiiiii": invoke_viiiiiiiii, "invoke_viiiiij": invoke_viiiiij, "on_status": _on_status, "proc_exit": _proc_exit, "strftime": _strftime, "strptime": _strptime, "system": _system }; var asm = createWasm(); /** @type {function(...*):?} */ var ___wasm_call_ctors = createExportWrapper("__wasm_call_ctors"); /** @type {function(...*):?} */ var _malloc = Module["_malloc"] = createExportWrapper("malloc"); /** @type {function(...*):?} */ var _saveSetjmp = createExportWrapper("saveSetjmp"); /** @type {function(...*):?} */ var _free = createExportWrapper("free"); /** @type {function(...*):?} */ var ___errno_location = createExportWrapper("__errno_location"); /** @type {function(...*):?} */ var _fflush = Module["_fflush"] = createExportWrapper("fflush"); /** @type {function(...*):?} */ var _ntohs = createExportWrapper("ntohs"); /** @type {function(...*):?} */ var _htons = createExportWrapper("htons"); /** @type {function(...*):?} */ var ___getTypeName = Module["___getTypeName"] = createExportWrapper("__getTypeName"); /** @type {function(...*):?} */ var __embind_initialize_bindings = Module["__embind_initialize_bindings"] = createExportWrapper("_embind_initialize_bindings"); /** @type {function(...*):?} */ var ___dl_seterr = createExportWrapper("__dl_seterr"); /** @type {function(...*):?} */ var _emscripten_builtin_memalign = createExportWrapper("emscripten_builtin_memalign"); /** @type {function(...*):?} */ var _setThrew = createExportWrapper("setThrew"); /** @type {function(...*):?} */ var _emscripten_stack_init = function() { return (_emscripten_stack_init = Module["asm"]["emscripten_stack_init"]).apply(null, arguments); }; /** @type {function(...*):?} */ var _emscripten_stack_get_free = function() { return (_emscripten_stack_get_free = Module["asm"]["emscripten_stack_get_free"]).apply(null, arguments); }; /** @type {function(...*):?} */ var _emscripten_stack_get_base = function() { return (_emscripten_stack_get_base = Module["asm"]["emscripten_stack_get_base"]).apply(null, arguments); }; /** @type {function(...*):?} */ var _emscripten_stack_get_end = function() { return (_emscripten_stack_get_end = Module["asm"]["emscripten_stack_get_end"]).apply(null, arguments); }; /** @type {function(...*):?} */ var stackSave = createExportWrapper("stackSave"); /** @type {function(...*):?} */ var stackRestore = createExportWrapper("stackRestore"); /** @type {function(...*):?} */ var stackAlloc = createExportWrapper("stackAlloc"); /** @type {function(...*):?} */ var _emscripten_stack_get_current = function() { return (_emscripten_stack_get_current = Module["asm"]["emscripten_stack_get_current"]).apply(null, arguments); }; /** @type {function(...*):?} */ var ___cxa_is_pointer_type = createExportWrapper("__cxa_is_pointer_type"); /** @type {function(...*):?} */ var dynCall_iii = Module["dynCall_iii"] = createExportWrapper("dynCall_iii"); /** @type {function(...*):?} */ var dynCall_ii = Module["dynCall_ii"] = createExportWrapper("dynCall_ii"); /** @type {function(...*):?} */ var dynCall_vi = Module["dynCall_vi"] = createExportWrapper("dynCall_vi"); /** @type {function(...*):?} */ var dynCall_vii = Module["dynCall_vii"] = createExportWrapper("dynCall_vii"); /** @type {function(...*):?} */ var dynCall_viii = Module["dynCall_viii"] = createExportWrapper("dynCall_viii"); /** @type {function(...*):?} */ var dynCall_iiiiii = Module["dynCall_iiiiii"] = createExportWrapper("dynCall_iiiiii"); /** @type {function(...*):?} */ var dynCall_viiii = Module["dynCall_viiii"] = createExportWrapper("dynCall_viiii"); /** @type {function(...*):?} */ var dynCall_i = Module["dynCall_i"] = createExportWrapper("dynCall_i"); /** @type {function(...*):?} */ var dynCall_iiii = Module["dynCall_iiii"] = createExportWrapper("dynCall_iiii"); /** @type {function(...*):?} */ var dynCall_viiiiii = Module["dynCall_viiiiii"] = createExportWrapper("dynCall_viiiiii"); /** @type {function(...*):?} */ var dynCall_v = Module["dynCall_v"] = createExportWrapper("dynCall_v"); /** @type {function(...*):?} */ var dynCall_iiiii = Module["dynCall_iiiii"] = createExportWrapper("dynCall_iiiii"); /** @type {function(...*):?} */ var dynCall_viiiii = Module["dynCall_viiiii"] = createExportWrapper("dynCall_viiiii"); /** @type {function(...*):?} */ var dynCall_dii = Module["dynCall_dii"] = createExportWrapper("dynCall_dii"); /** @type {function(...*):?} */ var dynCall_viid = Module["dynCall_viid"] = createExportWrapper("dynCall_viid"); /** @type {function(...*):?} */ var dynCall_iiiiiii = Module["dynCall_iiiiiii"] = createExportWrapper("dynCall_iiiiiii"); /** @type {function(...*):?} */ var dynCall_vid = Module["dynCall_vid"] = createExportWrapper("dynCall_vid"); /** @type {function(...*):?} */ var dynCall_di = Module["dynCall_di"] = createExportWrapper("dynCall_di"); /** @type {function(...*):?} */ var dynCall_vij = Module["dynCall_vij"] = createExportWrapper("dynCall_vij"); /** @type {function(...*):?} */ var dynCall_ji = Module["dynCall_ji"] = createExportWrapper("dynCall_ji"); /** @type {function(...*):?} */ var dynCall_iiiiiiii = Module["dynCall_iiiiiiii"] = createExportWrapper("dynCall_iiiiiiii"); /** @type {function(...*):?} */ var dynCall_iiiiiiiii = Module["dynCall_iiiiiiiii"] = createExportWrapper("dynCall_iiiiiiiii"); /** @type {function(...*):?} */ var dynCall_viiiiiiii = Module["dynCall_viiiiiiii"] = createExportWrapper("dynCall_viiiiiiii"); /** @type {function(...*):?} */ var dynCall_iijiiii = Module["dynCall_iijiiii"] = createExportWrapper("dynCall_iijiiii"); /** @type {function(...*):?} */ var dynCall_iiiiiiiiiiiii = Module["dynCall_iiiiiiiiiiiii"] = createExportWrapper("dynCall_iiiiiiiiiiiii"); /** @type {function(...*):?} */ var dynCall_iiiiiiiiiiii = Module["dynCall_iiiiiiiiiiii"] = createExportWrapper("dynCall_iiiiiiiiiiii"); /** @type {function(...*):?} */ var dynCall_iiiiiiiiiii = Module["dynCall_iiiiiiiiiii"] = createExportWrapper("dynCall_iiiiiiiiiii"); /** @type {function(...*):?} */ var dynCall_viiiiij = Module["dynCall_viiiiij"] = createExportWrapper("dynCall_viiiiij"); /** @type {function(...*):?} */ var dynCall_iiiiiij = Module["dynCall_iiiiiij"] = createExportWrapper("dynCall_iiiiiij"); /** @type {function(...*):?} */ var dynCall_iiiiiijii = Module["dynCall_iiiiiijii"] = createExportWrapper("dynCall_iiiiiijii"); /** @type {function(...*):?} */ var dynCall_viiiiiii = Module["dynCall_viiiiiii"] = createExportWrapper("dynCall_viiiiiii"); /** @type {function(...*):?} */ var dynCall_iiiiiiiiii = Module["dynCall_iiiiiiiiii"] = createExportWrapper("dynCall_iiiiiiiiii"); /** @type {function(...*):?} */ var dynCall_jiii = Module["dynCall_jiii"] = createExportWrapper("dynCall_jiii"); /** @type {function(...*):?} */ var dynCall_ij = Module["dynCall_ij"] = createExportWrapper("dynCall_ij"); /** @type {function(...*):?} */ var dynCall_viiiiiiiiii = Module["dynCall_viiiiiiiiii"] = createExportWrapper("dynCall_viiiiiiiiii"); /** @type {function(...*):?} */ var dynCall_iiiijii = Module["dynCall_iiiijii"] = createExportWrapper("dynCall_iiiijii"); /** @type {function(...*):?} */ var dynCall_iji = Module["dynCall_iji"] = createExportWrapper("dynCall_iji"); /** @type {function(...*):?} */ var dynCall_jii = Module["dynCall_jii"] = createExportWrapper("dynCall_jii"); /** @type {function(...*):?} */ var dynCall_viiiiiiiii = Module["dynCall_viiiiiiiii"] = createExportWrapper("dynCall_viiiiiiiii"); /** @type {function(...*):?} */ var dynCall_jiji = Module["dynCall_jiji"] = createExportWrapper("dynCall_jiji"); /** @type {function(...*):?} */ var dynCall_iidiiii = Module["dynCall_iidiiii"] = createExportWrapper("dynCall_iidiiii"); function invoke_iiiiii(index,a1,a2,a3,a4,a5) { var sp = stackSave(); try { return dynCall_iiiiii(index,a1,a2,a3,a4,a5); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iii(index,a1,a2) { var sp = stackSave(); try { return dynCall_iii(index,a1,a2); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_viiii(index,a1,a2,a3,a4) { var sp = stackSave(); try { dynCall_viiii(index,a1,a2,a3,a4); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_vi(index,a1) { var sp = stackSave(); try { dynCall_vi(index,a1); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_i(index) { var sp = stackSave(); try { return dynCall_i(index); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_vii(index,a1,a2) { var sp = stackSave(); try { dynCall_vii(index,a1,a2); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_ii(index,a1) { var sp = stackSave(); try { return dynCall_ii(index,a1); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iiii(index,a1,a2,a3) { var sp = stackSave(); try { return dynCall_iiii(index,a1,a2,a3); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iiiii(index,a1,a2,a3,a4) { var sp = stackSave(); try { return dynCall_iiiii(index,a1,a2,a3,a4); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iiiiiiii(index,a1,a2,a3,a4,a5,a6,a7) { var sp = stackSave(); try { return dynCall_iiiiiiii(index,a1,a2,a3,a4,a5,a6,a7); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_viiiii(index,a1,a2,a3,a4,a5) { var sp = stackSave(); try { dynCall_viiiii(index,a1,a2,a3,a4,a5); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_viii(index,a1,a2,a3) { var sp = stackSave(); try { dynCall_viii(index,a1,a2,a3); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_vid(index,a1,a2) { var sp = stackSave(); try { dynCall_vid(index,a1,a2); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iiiiiii(index,a1,a2,a3,a4,a5,a6) { var sp = stackSave(); try { return dynCall_iiiiiii(index,a1,a2,a3,a4,a5,a6); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8) { var sp = stackSave(); try { return dynCall_iiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_viiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8) { var sp = stackSave(); try { dynCall_viiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_viiiiii(index,a1,a2,a3,a4,a5,a6) { var sp = stackSave(); try { dynCall_viiiiii(index,a1,a2,a3,a4,a5,a6); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iiiiiiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9,a10,a11,a12) { var sp = stackSave(); try { return dynCall_iiiiiiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9,a10,a11,a12); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iiiiiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9,a10,a11) { var sp = stackSave(); try { return dynCall_iiiiiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9,a10,a11); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iiiiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9,a10) { var sp = stackSave(); try { return dynCall_iiiiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9,a10); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_viiiiiii(index,a1,a2,a3,a4,a5,a6,a7) { var sp = stackSave(); try { dynCall_viiiiiii(index,a1,a2,a3,a4,a5,a6,a7); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iiiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9) { var sp = stackSave(); try { return dynCall_iiiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_v(index) { var sp = stackSave(); try { dynCall_v(index); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_viiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9) { var sp = stackSave(); try { dynCall_viiiiiiiii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_viiiiij(index,a1,a2,a3,a4,a5,a6,a7) { var sp = stackSave(); try { dynCall_viiiiij(index,a1,a2,a3,a4,a5,a6,a7); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iiiiiij(index,a1,a2,a3,a4,a5,a6,a7) { var sp = stackSave(); try { return dynCall_iiiiiij(index,a1,a2,a3,a4,a5,a6,a7); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iiiiiijii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9) { var sp = stackSave(); try { return dynCall_iiiiiijii(index,a1,a2,a3,a4,a5,a6,a7,a8,a9); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_jiii(index,a1,a2,a3) { var sp = stackSave(); try { return dynCall_jiii(index,a1,a2,a3); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_ij(index,a1,a2) { var sp = stackSave(); try { return dynCall_ij(index,a1,a2); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_iiiijii(index,a1,a2,a3,a4,a5,a6,a7) { var sp = stackSave(); try { return dynCall_iiiijii(index,a1,a2,a3,a4,a5,a6,a7); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } function invoke_jii(index,a1,a2) { var sp = stackSave(); try { return dynCall_jii(index,a1,a2); } catch(e) { stackRestore(sp); if (e !== e+0) throw e; _setThrew(1, 0); } } // include: postamble.js // === Auto-generated postamble setup entry stuff === Module["addRunDependency"] = addRunDependency; Module["removeRunDependency"] = removeRunDependency; Module["FS_createPath"] = FS.createPath; Module["FS_createDataFile"] = FS.createDataFile; Module["FS_createPreloadedFile"] = FS.createPreloadedFile; Module["FS_createLazyFile"] = FS.createLazyFile; Module["FS_createDevice"] = FS.createDevice; Module["FS_unlink"] = FS.unlink; Module["FS"] = FS; var missingLibrarySymbols = [ 'stringToNewUTF8', 'getHostByName', 'traverseStack', 'convertPCtoSourceLocation', 'readEmAsmArgs', 'jstoi_s', 'listenOnce', 'autoResumeAudioContext', 'handleException', 'runtimeKeepalivePush', 'runtimeKeepalivePop', 'callUserCallback', 'maybeExit', 'safeSetTimeout', 'asmjsMangle', 'handleAllocator', 'getNativeTypeSize', 'STACK_SIZE', 'STACK_ALIGN', 'POINTER_SIZE', 'ASSERTIONS', 'writeI53ToI64', 'writeI53ToI64Clamped', 'writeI53ToI64Signaling', 'writeI53ToU64Clamped', 'writeI53ToU64Signaling', 'readI53FromU64', 'convertI32PairToI53', 'convertU32PairToI53', 'getCFunc', 'ccall', 'cwrap', 'uleb128Encode', 'sigToWasmTypes', 'generateFuncType', 'convertJsFunctionToWasm', 'getEmptyTableSlot', 'updateTableMap', 'getFunctionAddress', 'addFunction', 'removeFunction', 'reallyNegative', 'unSign', 'strLen', 'reSign', 'formatString', 'intArrayToString', 'AsciiToString', 'stringToAscii', 'allocateUTF8OnStack', 'writeStringToMemory', 'registerKeyEventCallback', 'maybeCStringToJsString', 'findEventTarget', 'findCanvasEventTarget', 'getBoundingClientRect', 'fillMouseEventData', 'registerMouseEventCallback', 'registerWheelEventCallback', 'registerUiEventCallback', 'registerFocusEventCallback', 'fillDeviceOrientationEventData', 'registerDeviceOrientationEventCallback', 'fillDeviceMotionEventData', 'registerDeviceMotionEventCallback', 'screenOrientation', 'fillOrientationChangeEventData', 'registerOrientationChangeEventCallback', 'fillFullscreenChangeEventData', 'registerFullscreenChangeEventCallback', 'JSEvents_requestFullscreen', 'JSEvents_resizeCanvasForFullscreen', 'registerRestoreOldStyle', 'hideEverythingExceptGivenElement', 'restoreHiddenElements', 'setLetterbox', 'softFullscreenResizeWebGLRenderTarget', 'doRequestFullscreen', 'fillPointerlockChangeEventData', 'registerPointerlockChangeEventCallback', 'registerPointerlockErrorEventCallback', 'requestPointerLock', 'fillVisibilityChangeEventData', 'registerVisibilityChangeEventCallback', 'registerTouchEventCallback', 'fillGamepadEventData', 'registerGamepadEventCallback', 'registerBeforeUnloadEventCallback', 'fillBatteryEventData', 'battery', 'registerBatteryEventCallback', 'setCanvasElementSize', 'getCanvasElementSize', 'jsStackTrace', 'stackTrace', 'checkWasiClock', 'createDyncallWrapper', 'setImmediateWrapped', 'clearImmediateWrapped', 'polyfillSetImmediate', 'newNativePromise', 'getPromise', 'exception_addRef', 'exception_decRef', 'setMainLoop', '_setNetworkCallback', 'heapObjectForWebGLType', 'heapAccessShiftForWebGLHeap', 'emscriptenWebGLGet', 'computeUnpackAlignedImageSize', 'emscriptenWebGLGetTexPixelData', 'emscriptenWebGLGetUniform', 'webglGetUniformLocation', 'webglPrepareUniformLocationsBeforeFirstUse', 'webglGetLeftBracePos', 'emscriptenWebGLGetVertexAttrib', 'writeGLArray', 'SDL_unicode', 'SDL_ttfContext', 'SDL_audio', 'GLFW_Window', 'runAndAbortIfError', 'ALLOC_NORMAL', 'ALLOC_STACK', 'allocate', 'registerInheritedInstance', 'unregisterInheritedInstance', 'enumReadValueFromPointer', 'validateThis', 'getStringOrSymbol', 'craftEmvalAllocator', 'emval_get_global', 'emval_lookupTypes', 'emval_allocateDestructors', 'emval_addMethodCaller', ]; missingLibrarySymbols.forEach(missingLibrarySymbol) var unexportedSymbols = [ 'run', 'UTF8ArrayToString', 'UTF8ToString', 'stringToUTF8Array', 'stringToUTF8', 'lengthBytesUTF8', 'addOnPreRun', 'addOnInit', 'addOnPreMain', 'addOnExit', 'addOnPostRun', 'FS_createFolder', 'FS_createLink', 'out', 'err', 'callMain', 'abort', 'keepRuntimeAlive', 'wasmMemory', 'stackAlloc', 'stackSave', 'stackRestore', 'getTempRet0', 'setTempRet0', 'writeStackCookie', 'checkStackCookie', 'ptrToString', 'zeroMemory', 'exitJS', 'getHeapMax', 'emscripten_realloc_buffer', 'ENV', 'ERRNO_CODES', 'ERRNO_MESSAGES', 'setErrNo', 'inetPton4', 'inetNtop4', 'inetPton6', 'inetNtop6', 'readSockaddr', 'writeSockaddr', 'DNS', 'Protocols', 'Sockets', 'getRandomDevice', 'timers', 'warnOnce', 'UNWIND_CACHE', 'readEmAsmArgsArray', 'jstoi_q', 'getExecutableName', 'dynCallLegacy', 'getDynCaller', 'dynCall', 'asyncLoad', 'alignMemory', 'mmapAlloc', 'readI53FromI64', 'convertI32PairToI53Checked', 'freeTableIndexes', 'functionsInTableMap', 'setValue', 'getValue', 'PATH', 'PATH_FS', 'intArrayFromString', 'UTF16Decoder', 'UTF16ToString', 'stringToUTF16', 'lengthBytesUTF16', 'UTF32ToString', 'stringToUTF32', 'lengthBytesUTF32', 'allocateUTF8', 'writeArrayToMemory', 'writeAsciiToMemory', 'SYSCALLS', 'getSocketFromFD', 'getSocketAddress', 'JSEvents', 'specialHTMLTargets', 'currentFullscreenStrategy', 'restoreOldWindowedStyle', 'demangle', 'demangleAll', 'ExitStatus', 'getEnvStrings', 'doReadv', 'doWritev', 'dlopenMissingError', 'promiseMap', 'uncaughtExceptionCount', 'exceptionLast', 'exceptionCaught', 'ExceptionInfo', 'Browser', 'wget', 'MEMFS', 'TTY', 'PIPEFS', 'SOCKFS', 'tempFixedLengthArray', 'miniTempWebGLFloatBuffers', 'GL', 'AL', 'SDL', 'SDL_gfx', 'GLUT', 'EGL', 'GLFW', 'GLEW', 'IDBStore', 'InternalError', 'BindingError', 'UnboundTypeError', 'PureVirtualError', 'init_embind', 'throwInternalError', 'throwBindingError', 'throwUnboundTypeError', 'ensureOverloadTable', 'exposePublicSymbol', 'replacePublicSymbol', 'extendError', 'createNamedFunction', 'embindRepr', 'registeredInstances', 'getBasestPointer', 'getInheritedInstance', 'getInheritedInstanceCount', 'getLiveInheritedInstances', 'registeredTypes', 'awaitingDependencies', 'typeDependencies', 'registeredPointers', 'registerType', 'whenDependentTypesAreResolved', 'embind_charCodes', 'embind_init_charCodes', 'readLatin1String', 'getTypeName', 'heap32VectorToArray', 'requireRegisteredType', 'getShiftFromSize', 'integerReadValueFromPointer', 'floatReadValueFromPointer', 'simpleReadValueFromPointer', 'runDestructors', 'new_', 'craftInvokerFunction', 'embind__requireFunction', 'tupleRegistrations', 'structRegistrations', 'genericPointerToWireType', 'constNoSmartPtrRawPointerToWireType', 'nonConstNoSmartPtrRawPointerToWireType', 'init_RegisteredPointer', 'RegisteredPointer', 'RegisteredPointer_getPointee', 'RegisteredPointer_destructor', 'RegisteredPointer_deleteObject', 'RegisteredPointer_fromWireType', 'runDestructor', 'releaseClassHandle', 'finalizationRegistry', 'detachFinalizer_deps', 'detachFinalizer', 'attachFinalizer', 'makeClassHandle', 'init_ClassHandle', 'ClassHandle', 'ClassHandle_isAliasOf', 'throwInstanceAlreadyDeleted', 'ClassHandle_clone', 'ClassHandle_delete', 'deletionQueue', 'ClassHandle_isDeleted', 'ClassHandle_deleteLater', 'flushPendingDeletes', 'delayFunction', 'setDelayFunction', 'RegisteredClass', 'shallowCopyInternalPointer', 'downcastPointer', 'upcastPointer', 'char_0', 'char_9', 'makeLegalFunctionName', 'emval_handle_array', 'emval_free_list', 'emval_symbols', 'init_emval', 'count_emval_handles', 'get_first_emval', 'Emval', 'emval_newers', 'emval_methodCallers', 'emval_registeredMethods', ]; unexportedSymbols.forEach(unexportedRuntimeSymbol); var calledRun; dependenciesFulfilled = function runCaller() { // If run has never been called, and we should call run (INVOKE_RUN is true, and Module.noInitialRun is not false) if (!calledRun) run(); if (!calledRun) dependenciesFulfilled = runCaller; // try this again later, after new deps are fulfilled }; function stackCheckInit() { // This is normally called automatically during __wasm_call_ctors but need to // get these values before even running any of the ctors so we call it redundantly // here. _emscripten_stack_init(); // TODO(sbc): Move writeStackCookie to native to to avoid this. writeStackCookie(); } /** @type {function(Array=)} */ function run() { if (runDependencies > 0) { return; } stackCheckInit(); preRun(); // a preRun added a dependency, run will be called later if (runDependencies > 0) { return; } function doRun() { // run may have just been called through dependencies being fulfilled just in this very frame, // or while the async setStatus time below was happening if (calledRun) return; calledRun = true; Module['calledRun'] = true; if (ABORT) return; initRuntime(); readyPromiseResolve(Module); if (Module['onRuntimeInitialized']) Module['onRuntimeInitialized'](); assert(!Module['_main'], 'compiled without a main, but one is present. if you added it from JS, use Module["onRuntimeInitialized"]'); postRun(); } if (Module['setStatus']) { Module['setStatus']('Running...'); setTimeout(function() { setTimeout(function() { Module['setStatus'](''); }, 1); doRun(); }, 1); } else { doRun(); } checkStackCookie(); } function checkUnflushedContent() { // Compiler settings do not allow exiting the runtime, so flushing // the streams is not possible. but in ASSERTIONS mode we check // if there was something to flush, and if so tell the user they // should request that the runtime be exitable. // Normally we would not even include flush() at all, but in ASSERTIONS // builds we do so just for this check, and here we see if there is any // content to flush, that is, we check if there would have been // something a non-ASSERTIONS build would have not seen. // How we flush the streams depends on whether we are in SYSCALLS_REQUIRE_FILESYSTEM=0 // mode (which has its own special function for this; otherwise, all // the code is inside libc) var oldOut = out; var oldErr = err; var has = false; out = err = (x) => { has = true; } try { // it doesn't matter if it fails _fflush(0); // also flush in the JS FS layer ['stdout', 'stderr'].forEach(function(name) { var info = FS.analyzePath('/dev/' + name); if (!info) return; var stream = info.object; var rdev = stream.rdev; var tty = TTY.ttys[rdev]; if (tty && tty.output && tty.output.length) { has = true; } }); } catch(e) {} out = oldOut; err = oldErr; if (has) { warnOnce('stdio streams had content in them that was not flushed. you should set EXIT_RUNTIME to 1 (see the FAQ), or make sure to emit a newline when you printf etc.'); } } if (Module['preInit']) { if (typeof Module['preInit'] == 'function') Module['preInit'] = [Module['preInit']]; while (Module['preInit'].length > 0) { Module['preInit'].pop()(); } } run(); // end include: postamble.js return loadWiregasm.ready } ); })(); if (typeof exports === 'object' && typeof module === 'object') module.exports = loadWiregasm; else if (typeof define === 'function' && define['amd']) define([], function() { return loadWiregasm; }); else if (typeof exports === 'object') exports["loadWiregasm"] = loadWiregasm;