test/mjsunit/harmony/debug-async-liveedit.js - fp2-dev/platform/external/v8 - Gitiles

 // Copyright 2016 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // Flags: --harmony-async-await
 // Flags: --expose-debug-as debug --allow-natives-syntax --ignition-generators

 var Debug = debug.Debug;
 var LiveEdit = Debug.LiveEdit;

 unique_id = 0;

 var AsyncFunction = (async function(){}).constructor;

 function assertPromiseValue(value, promise) {
   promise.then(resolve => {
     went = true;
     if (resolve !== value) {
       print(`expected ${value} found ${resolve}`);
       quit(1);
     }
   }, reject => {
     print(`rejected ${reject}`);
     quit(1);
   });
 }

 function MakeAsyncFunction() {
   // Prevents eval script caching.
   unique_id++;
   return AsyncFunction('callback',
       "/* " + unique_id + "*/\n" +
       "await callback();\n" +
       "return 'Cat';\n");
 }

 function MakeFunction() {
   // Prevents eval script caching.
   unique_id++;
   return Function('callback',
       "/* " + unique_id + "*/\n" +
       "callback();\n" +
       "return 'Cat';\n");
 }

 // First, try MakeGenerator with no perturbations.
 (function(){
   var asyncfn = MakeAsyncFunction();
   function callback() {};
   var promise = asyncfn(callback);
   assertPromiseValue('Cat', promise);
 })();

 function patch(fun, from, to) {
   function debug() {
     var log = new Array();
     var script = Debug.findScript(fun);
     var pos = script.source.indexOf(from);
     print(`pos ${pos}`);
     try {
       LiveEdit.TestApi.ApplySingleChunkPatch(script, pos, from.length, to,
                                              log);
     } finally {
       print("Change log: " + JSON.stringify(log) + "\n");
     }
   }
   %ExecuteInDebugContext(debug);
 }

 // Try to edit a MakeAsyncFunction while it's running, then again while it's
 // stopped.
 (function(){
   var asyncfn = MakeAsyncFunction();

   var patch_attempted = false;
   function attempt_patch() {
     assertFalse(patch_attempted);
     patch_attempted = true;
     assertThrows(function() { patch(asyncfn, "'Cat'", "'Capybara'") },
                  LiveEdit.Failure);
   };
   var promise = asyncfn(attempt_patch);
   // Patch should not succeed because there is a live async function activation
   // on the stack.
   assertPromiseValue("Cat", promise);
   assertTrue(patch_attempted);

   %RunMicrotasks();

   // At this point one iterator is live, but closed, so the patch will succeed.
   patch(asyncfn, "'Cat'", "'Capybara'");
   promise = asyncfn(function(){});
   // Patch successful.
   assertPromiseValue("Capybara", promise);

   // Patching will fail however when an async function is suspended.
   var resolve;
   promise = asyncfn(function(){return new Promise(function(r){resolve = r})});
   assertThrows(function() { patch(asyncfn, "'Capybara'", "'Tapir'") },
                LiveEdit.Failure);
   resolve();
   assertPromiseValue("Capybara", promise);

   // Try to patch functions with activations inside and outside async
   // function activations.  We should succeed in the former case, but not in the
   // latter.
   var fun_outside = MakeFunction();
   var fun_inside = MakeFunction();
   var fun_patch_attempted = false;
   var fun_patch_restarted = false;
   function attempt_fun_patches() {
     if (fun_patch_attempted) {
       assertFalse(fun_patch_restarted);
       fun_patch_restarted = true;
       return;
     }
     fun_patch_attempted = true;
     // Patching outside an async function activation must fail.
     assertThrows(function() { patch(fun_outside, "'Cat'", "'Cobra'") },
                  LiveEdit.Failure);
     // Patching inside an async function activation may succeed.
     patch(fun_inside, "'Cat'", "'Koala'");
   }
   promise = asyncfn(function() { return fun_inside(attempt_fun_patches) });
   assertEquals('Cat',
                fun_outside(function () {
                  assertPromiseValue('Capybara', promise);
                  assertTrue(fun_patch_restarted);
                  assertTrue(fun_inside.toString().includes("'Koala'"));
                }));
 })();

 %RunMicrotasks();
	// Copyright 2016 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// Flags: --harmony-async-await
	// Flags: --expose-debug-as debug --allow-natives-syntax --ignition-generators

	var Debug = debug.Debug;
	var LiveEdit = Debug.LiveEdit;

	unique_id = 0;

	var AsyncFunction = (async function(){}).constructor;

	function assertPromiseValue(value, promise) {
	promise.then(resolve => {
	went = true;
	if (resolve !== value) {
	print(`expected ${value} found ${resolve}`);
	quit(1);
	}
	}, reject => {
	print(`rejected ${reject}`);
	quit(1);
	});
	}

	function MakeAsyncFunction() {
	// Prevents eval script caching.
	unique_id++;
	return AsyncFunction('callback',
	"/* " + unique_id + "*/\n" +
	"await callback();\n" +
	"return 'Cat';\n");
	}

	function MakeFunction() {
	// Prevents eval script caching.
	unique_id++;
	return Function('callback',
	"/* " + unique_id + "*/\n" +
	"callback();\n" +
	"return 'Cat';\n");
	}

	// First, try MakeGenerator with no perturbations.
	(function(){
	var asyncfn = MakeAsyncFunction();
	function callback() {};
	var promise = asyncfn(callback);
	assertPromiseValue('Cat', promise);
	})();

	function patch(fun, from, to) {
	function debug() {
	var log = new Array();
	var script = Debug.findScript(fun);
	var pos = script.source.indexOf(from);
	print(`pos ${pos}`);
	try {
	LiveEdit.TestApi.ApplySingleChunkPatch(script, pos, from.length, to,
	log);
	} finally {
	print("Change log: " + JSON.stringify(log) + "\n");
	}
	}
	%ExecuteInDebugContext(debug);
	}

	// Try to edit a MakeAsyncFunction while it's running, then again while it's
	// stopped.
	(function(){
	var asyncfn = MakeAsyncFunction();

	var patch_attempted = false;
	function attempt_patch() {
	assertFalse(patch_attempted);
	patch_attempted = true;
	assertThrows(function() { patch(asyncfn, "'Cat'", "'Capybara'") },
	LiveEdit.Failure);
	};
	var promise = asyncfn(attempt_patch);
	// Patch should not succeed because there is a live async function activation
	// on the stack.
	assertPromiseValue("Cat", promise);
	assertTrue(patch_attempted);

	%RunMicrotasks();

	// At this point one iterator is live, but closed, so the patch will succeed.
	patch(asyncfn, "'Cat'", "'Capybara'");
	promise = asyncfn(function(){});
	// Patch successful.
	assertPromiseValue("Capybara", promise);

	// Patching will fail however when an async function is suspended.
	var resolve;
	promise = asyncfn(function(){return new Promise(function(r){resolve = r})});
	assertThrows(function() { patch(asyncfn, "'Capybara'", "'Tapir'") },
	LiveEdit.Failure);
	resolve();
	assertPromiseValue("Capybara", promise);

	// Try to patch functions with activations inside and outside async
	// function activations. We should succeed in the former case, but not in the
	// latter.
	var fun_outside = MakeFunction();
	var fun_inside = MakeFunction();
	var fun_patch_attempted = false;
	var fun_patch_restarted = false;
	function attempt_fun_patches() {
	if (fun_patch_attempted) {
	assertFalse(fun_patch_restarted);
	fun_patch_restarted = true;
	return;
	}
	fun_patch_attempted = true;
	// Patching outside an async function activation must fail.
	assertThrows(function() { patch(fun_outside, "'Cat'", "'Cobra'") },
	LiveEdit.Failure);
	// Patching inside an async function activation may succeed.
	patch(fun_inside, "'Cat'", "'Koala'");
	}
	promise = asyncfn(function() { return fun_inside(attempt_fun_patches) });
	assertEquals('Cat',
	fun_outside(function () {
	assertPromiseValue('Capybara', promise);
	assertTrue(fun_patch_restarted);
	assertTrue(fun_inside.toString().includes("'Koala'"));
	}));
	})();

	%RunMicrotasks();