src/worker.js

// Copyright 2015 The Emscripten Authors.  All rights reserved.
// Emscripten is available under two separate licenses, the MIT license and the
// University of Illinois/NCSA Open Source License.  Both these licenses can be
// found in the LICENSE file.

// Pthread Web Worker startup routine:
// This is the entry point file that is loaded first by each Web Worker
// that executes pthreads on the Emscripten application.

// Thread-local:
var threadInfoStruct = 0; // Info area for this thread in Emscripten HEAP (shared). If zero, this worker is not currently hosting an executing pthread.
var selfThreadId = 0; // The ID of this thread. 0 if not hosting a pthread.
var parentThreadId = 0; // The ID of the parent pthread that launched this thread.
#if !WASM_BACKEND && !MODULARIZE
var tempDoublePtr = 0; // A temporary memory area for global float and double marshalling operations.
#endif

var noExitRuntime;

// performance.now() is specced to return a wallclock time in msecs since that Web Worker/main thread launched. However for pthreads this can cause
// subtle problems in emscripten_get_now() as this essentially would measure time from pthread_create(), meaning that the clocks between each threads
// would be wildly out of sync. Therefore sync all pthreads to the clock on the main browser thread, so that different threads see a somewhat
// coherent clock across each of them (+/- 0.1msecs in testing)
var __performance_now_clock_drift = 0;

// Cannot use console.log or console.error in a web worker, since that would risk a browser deadlock! https://bugzilla.mozilla.org/show_bug.cgi?id=1049091
// Therefore implement custom logging facility for threads running in a worker, which queue the messages to main thread to print.
var Module = {};

// These modes need to assign to these variables because of how scoping works in them.
#if EXPORT_ES6 || MODULARIZE
var PThread;
var HEAPU32;
#endif

#if ASSERTIONS
function assert(condition, text) {
  if (!condition) abort('Assertion failed: ' + text);
}
#endif

function threadPrintErr() {
  var text = Array.prototype.slice.call(arguments).join(' ');
  console.error(text);
  console.error(new Error().stack);
}
function threadAlert() {
  var text = Array.prototype.slice.call(arguments).join(' ');
  postMessage({cmd: 'alert', text: text, threadId: selfThreadId});
}
var err = threadPrintErr;
this.alert = threadAlert;

// When using postMessage to send an object, it is processed by the structured clone algorithm.
// The prototype, and hence methods, on that object is then lost. This function adds back the lost prototype.
// This does not work with nested objects that has prototypes, but it suffices for WasmSourceMap and WasmOffsetConverter.
function resetPrototype(constructor, attrs) {
  var object = Object.create(constructor.prototype);
  for (var key in attrs) {
    if (attrs.hasOwnProperty(key)) {
      object[key] = attrs[key];
    }
  }
  return object;
}

#if WASM
Module['instantiateWasm'] = function(info, receiveInstance) {
  // Instantiate from the module posted from the main thread.
  // We can just use sync instantiation in the worker.
  var instance = new WebAssembly.Instance(Module['wasmModule'], info);
  // We don't need the module anymore; new threads will be spawned from the main thread.
  Module['wasmModule'] = null;
#if LOAD_SOURCE_MAP
  wasmSourceMap = resetPrototype(WasmSourceMap, wasmSourceMapData);
#endif
#if USE_OFFSET_CONVERTER
  wasmOffsetConverter = resetPrototype(WasmOffsetConverter, wasmOffsetData);
#endif
  receiveInstance(instance); // The second 'module' parameter is intentionally null here, we don't need to keep a ref to the Module object from here.
  return instance.exports;
};
#endif

#if LOAD_SOURCE_MAP
var wasmSourceMapData;
#endif
#if USE_OFFSET_CONVERTER
var wasmOffsetData;
#endif

this.onmessage = function(e) {
  try {
    if (e.data.cmd === 'load') { // Preload command that is called once per worker to parse and load the Emscripten code.
#if !WASM_BACKEND
      // Initialize the thread-local field(s):
      Module['tempDoublePtr'] = e.data.tempDoublePtr;
#endif

      // Initialize the global "process"-wide fields:
      Module['DYNAMIC_BASE'] = e.data.DYNAMIC_BASE;
      Module['DYNAMICTOP_PTR'] = e.data.DYNAMICTOP_PTR;

#if WASM
      // Module and memory were sent from main thread
      Module['wasmModule'] = e.data.wasmModule;
      Module['wasmMemory'] = e.data.wasmMemory;
#if LOAD_SOURCE_MAP
      wasmSourceMapData = e.data.wasmSourceMap;
#endif
#if USE_OFFSET_CONVERTER
      wasmOffsetData = e.data.wasmOffsetConverter;
#endif
      Module['buffer'] = Module['wasmMemory'].buffer;
#else
      Module['buffer'] = e.data.buffer;

#if SEPARATE_ASM
      // load the separated-out asm.js
      e.data.asmJsUrlOrBlob = e.data.asmJsUrlOrBlob || '{{{ SEPARATE_ASM }}}';
      if (typeof e.data.asmJsUrlOrBlob === 'string') {
        importScripts(e.data.asmJsUrlOrBlob);
      } else {
        var objectUrl = URL.createObjectURL(e.data.asmJsUrlOrBlob);
        importScripts(objectUrl);
        URL.revokeObjectURL(objectUrl);
      }
#endif

#endif

      Module['ENVIRONMENT_IS_PTHREAD'] = true;

#if MODULARIZE && EXPORT_ES6
      import(e.data.urlOrBlob).then(function({{{ EXPORT_NAME }}}) {
        Module = {{{ EXPORT_NAME }}}.default(Module);
        PThread = Module['PThread'];
        HEAPU32 = Module['HEAPU32'];
#if !ASMFS
        if (typeof FS !== 'undefined' && typeof FS.createStandardStreams === 'function') FS.createStandardStreams();
#endif
        postMessage({ cmd: 'loaded' });
      });
#else
      if (typeof e.data.urlOrBlob === 'string') {
        importScripts(e.data.urlOrBlob);
      } else {
        var objectUrl = URL.createObjectURL(e.data.urlOrBlob);
        importScripts(objectUrl);
        URL.revokeObjectURL(objectUrl);
      }
#if MODULARIZE && !MODULARIZE_INSTANCE
      Module = {{{ EXPORT_NAME }}}(Module);
#endif
      PThread = Module['PThread'];
      HEAPU32 = Module['HEAPU32'];

#if !ASMFS
      if (typeof FS !== 'undefined' && typeof FS.createStandardStreams === 'function') FS.createStandardStreams();
#endif
      postMessage({ cmd: 'loaded' });
#endif
    } else if (e.data.cmd === 'objectTransfer') {
      PThread.receiveObjectTransfer(e.data);
    } else if (e.data.cmd === 'run') { // This worker was idle, and now should start executing its pthread entry point.
      __performance_now_clock_drift = performance.now() - e.data.time; // Sync up to the clock of the main thread.
      threadInfoStruct = e.data.threadInfoStruct;
      Module['__register_pthread_ptr'](threadInfoStruct, /*isMainBrowserThread=*/0, /*isMainRuntimeThread=*/0); // Pass the thread address inside the asm.js scope to store it for fast access that avoids the need for a FFI out.
      selfThreadId = e.data.selfThreadId;
      parentThreadId = e.data.parentThreadId;
      // Establish the stack frame for this thread in global scope
#if WASM_BACKEND
      // The stack grows downwards
      var max = e.data.stackBase;
      var top = e.data.stackBase + e.data.stackSize;
#else
      var max = e.data.stackBase + e.data.stackSize;
      var top = e.data.stackBase;
#endif
      Module['applyStackValues'](top, top, max);
#if ASSERTIONS
      assert(threadInfoStruct);
      assert(selfThreadId);
      assert(parentThreadId);
      assert(top != 0);
#if WASM_BACKEND
      assert(max === e.data.stackBase);
      assert(top > max);
#else
      assert(max > e.data.stackBase);
      assert(max > top);
      assert(e.data.stackBase === top);
#endif
#endif
      // Call inside asm.js/wasm module to set up the stack frame for this pthread in asm.js/wasm module scope
      Module['establishStackSpace'](e.data.stackBase, e.data.stackBase + e.data.stackSize);
#if MODULARIZE
      // Also call inside JS module to set up the stack frame for this pthread in JS module scope
      Module['establishStackSpaceInJsModule'](e.data.stackBase, e.data.stackBase + e.data.stackSize);
#endif
#if WASM_BACKEND
      Module['_emscripten_tls_init']();
#endif
#if STACK_OVERFLOW_CHECK
      Module['writeStackCookie']();
#endif

      PThread.receiveObjectTransfer(e.data);
      PThread.setThreadStatus(Module['_pthread_self'](), 1/*EM_THREAD_STATUS_RUNNING*/);

      try {
        // pthread entry points are always of signature 'void *ThreadMain(void *arg)'
        // Native codebases sometimes spawn threads with other thread entry point signatures,
        // such as void ThreadMain(void *arg), void *ThreadMain(), or void ThreadMain().
        // That is not acceptable per C/C++ specification, but x86 compiler ABI extensions
        // enable that to work. If you find the following line to crash, either change the signature
        // to "proper" void *ThreadMain(void *arg) form, or try linking with the Emscripten linker
        // flag -s EMULATE_FUNCTION_POINTER_CASTS=1 to add in emulation for this x86 ABI extension.
        var result = Module['dynCall_ii'](e.data.start_routine, e.data.arg);

#if STACK_OVERFLOW_CHECK
        Module['checkStackCookie']();
#endif

      } catch(e) {
        if (e === 'Canceled!') {
          PThread.threadCancel();
          return;
        } else if (e === 'SimulateInfiniteLoop' || e === 'pthread_exit') {
          return;
        } else {
          Atomics.store(HEAPU32, (threadInfoStruct + 4 /*C_STRUCTS.pthread.threadExitCode*/ ) >> 2, (e instanceof Module['ExitStatus']) ? e.status : -2 /*A custom entry specific to Emscripten denoting that the thread crashed.*/);
          Atomics.store(HEAPU32, (threadInfoStruct + 0 /*C_STRUCTS.pthread.threadStatus*/ ) >> 2, 1); // Mark the thread as no longer running.
#if ASSERTIONS
          if (typeof(Module['_emscripten_futex_wake']) !== "function") {
            err("Thread Initialisation failed.");
            throw e;
          }
#endif
          Module['_emscripten_futex_wake'](threadInfoStruct + 0 /*C_STRUCTS.pthread.threadStatus*/, 0x7FFFFFFF/*INT_MAX*/); // Wake all threads waiting on this thread to finish.
          if (!(e instanceof Module['ExitStatus'])) throw e;
        }
      }
      // The thread might have finished without calling pthread_exit(). If so, then perform the exit operation ourselves.
      // (This is a no-op if explicit pthread_exit() had been called prior.)
      if (!noExitRuntime) PThread.threadExit(result);
    } else if (e.data.cmd === 'cancel') { // Main thread is asking for a pthread_cancel() on this thread.
      if (threadInfoStruct) {
        PThread.threadCancel();
      }
    } else if (e.data.target === 'setimmediate') {
      // no-op
    } else if (e.data.cmd === 'processThreadQueue') {
      if (threadInfoStruct) { // If this thread is actually running?
        Module['_emscripten_current_thread_process_queued_calls']();
      }
    } else {
      err('worker.js received unknown command ' + e.data.cmd);
      console.error(e.data);
    }
  } catch(e) {
    console.error('worker.js onmessage() captured an uncaught exception: ' + e);
    console.error(e.stack);
    throw e;
  }
};

#if ENVIRONMENT_MAY_BE_NODE
// Node.js support
if (typeof process === 'object' && typeof process.versions === 'object' && typeof process.versions.node === 'string') {
  // Create as web-worker-like an environment as we can.
  self = {
    location: {
      href: __filename
    }
  };

  var onmessage = this.onmessage;

  var nodeWorkerThreads = require('worker_threads');

  Worker = nodeWorkerThreads.Worker;

  var parentPort = nodeWorkerThreads.parentPort;

  parentPort.on('message', function(data) {
    onmessage({ data: data });
  });

  var nodeFS = require('fs');

  var nodeRead = function(filename) {
    return nodeFS.readFileSync(filename, 'utf8');
  };

  function globalEval(x) {
    global.require = require;
    global.Module = Module;
    eval.call(null, x);
  }

  importScripts = function(f) {
    globalEval(nodeRead(f));
  };

  postMessage = function(msg) {
    parentPort.postMessage(msg);
  };

  if (typeof performance === 'undefined') {
    performance = {
      now: function() {
        return Date.now();
      }
    };
  }
}
#endif // ENVIRONMENT_MAY_BE_NODE