pkg/front_end/test/incremental_compiler_leak_test.dart - sdk.git - Git at Google

 import 'dart:async';
 import 'dart:io';

 import "simple_stats.dart";
 import "vm_service_helper.dart" as vmService;

 const int limit = 10;

 main(List<String> args) async {
   LeakFinder heapHelper = new LeakFinder();

   heapHelper.start([
     "--disable-dart-dev",
     "--enable-asserts",
     Platform.script.resolve("incremental_dart2js_tester.dart").toString(),
     "--addDebugBreaks",
     "--fast",
     "--limit=$limit",
   ]);
 }

 class LeakFinder extends vmService.LaunchingVMServiceHelper {
   @override
   Future<void> run() async {
     vmService.VM vm = await serviceClient.getVM();
     if (vm.isolates.length != 1) {
       throw "Expected 1 isolate, got ${vm.isolates.length}";
     }
     vmService.IsolateRef isolateRef = vm.isolates.single;
     await waitUntilIsolateIsRunnable(isolateRef.id);
     await serviceClient.resume(isolateRef.id);

     Map<vmService.ClassRef, List<int>> instanceCounts =
         new Map<vmService.ClassRef, List<int>>();
     Map<vmService.ClassRef, vmService.Class> classInfo =
         new Map<vmService.ClassRef, vmService.Class>();

     Completer<String> cTimeout = new Completer();
     Timer timer = new Timer(new Duration(minutes: 6), () {
       cTimeout.complete("Timeout");
       killProcess();
     });

     Completer<String> cRunDone = new Completer();
     // ignore: unawaited_futures
     runInternal(
         isolateRef,
         classInfo,
         instanceCounts,
         (int iteration) =>
             // Subtract 2 as it's logically one ahead and asks _before_ the run.
             (iteration - 2) > limit ||
             cTimeout.isCompleted ||
             cProcessExited.isCompleted).then((value) {
       cRunDone.complete("Done");
     });

     await Future.any([cRunDone.future, cTimeout.future, cProcessExited.future]);
     timer.cancel();

     print("\n\n======================\n\n");

     findPossibleLeaks(instanceCounts, classInfo);

     // Make sure the process doesn't hang.
     killProcess();
   }

   void findPossibleLeaks(Map<vmService.ClassRef, List<int>> instanceCounts,
       Map<vmService.ClassRef, vmService.Class> classInfo) {
     bool foundLeak = false;
     for (vmService.ClassRef c in instanceCounts.keys) {
       List<int> listOfInstanceCounts = instanceCounts[c];

       // Ignore VM internal stuff like "PatchClass", "PcDescriptors" etc.
       // (they don't have a url).
       vmService.Class classDetails = classInfo[c];
       String uriString = classDetails.location?.script?.uri;
       if (uriString == null) continue;

       // For now ignore anything not in package:kernel or package:front_end.
       if (ignoredClass(classDetails)) continue;

       // If they're all equal there's nothing to talk about.
       bool same = true;
       for (int i = 1; i < listOfInstanceCounts.length; i++) {
         if (listOfInstanceCounts[i] != listOfInstanceCounts[0]) {
           same = false;
           break;
         }
       }
       if (same) continue;

       int midPoint = listOfInstanceCounts.length ~/ 2;
       List<int> firstHalf = listOfInstanceCounts.sublist(0, midPoint);
       List<int> secondHalf = listOfInstanceCounts.sublist(midPoint);
       TTestResult ttestResult = SimpleTTestStat.ttest(secondHalf, firstHalf);

       if (!strictClass(classDetails)) {
         if (!ttestResult.significant) continue;

         // TODO(jensj): We could possibly also ignore if it's less (i.e. a
         // negative change), or if the change is < 1%, or the change minus the
         // confidence is < 1% etc.
       }
       print("Differences on ${c.name} (${uriString}): "
           "$listOfInstanceCounts ($ttestResult)");
       foundLeak = true;
     }

     print("\n\n");

     if (foundLeak) {
       print("Possible leak(s) found.");
       print("(Note that this doesn't guarantee that there are any!)");
       exitCode = 1;
     } else {
       print("Didn't identify any leaks.");
       print("(Note that this doesn't guarantee that there are none!)");
       exitCode = 0;
     }
   }

   Future<void> runInternal(
       vmService.IsolateRef isolateRef,
       Map<vmService.ClassRef, vmService.Class> classInfo,
       Map<vmService.ClassRef, List<int>> instanceCounts,
       bool Function(int iteration) shouldBail) async {
     int iterationNumber = 1;
     try {
       while (true) {
         if (shouldBail(iterationNumber)) break;
         if (!await waitUntilPaused(isolateRef.id)) break;
         print("\n\n====================\n\nIteration #$iterationNumber");
         iterationNumber++;
         vmService.AllocationProfile allocationProfile =
             await forceGC(isolateRef.id);
         for (vmService.ClassHeapStats member in allocationProfile.members) {
           if (!classInfo.containsKey(member.classRef)) {
             vmService.Class c = await serviceClient.getObject(
                 isolateRef.id, member.classRef.id);
             classInfo[member.classRef] = c;
           }
           List<int> listOfInstanceCounts = instanceCounts[member.classRef];
           if (listOfInstanceCounts == null) {
             listOfInstanceCounts =
                 instanceCounts[member.classRef] = new List<int>();
           }
           while (listOfInstanceCounts.length < iterationNumber - 2) {
             listOfInstanceCounts.add(0);
           }
           listOfInstanceCounts.add(member.instancesCurrent);
           if (listOfInstanceCounts.length != iterationNumber - 1) {
             throw "Unexpected length";
           }
         }
         await serviceClient.resume(isolateRef.id);
       }
     } catch (e) {
       print("Got error: $e");
     }
   }

   Completer<String> cProcessExited = new Completer();
   void processExited(int exitCode) {
     cProcessExited.complete("Exit");
   }

   bool ignoredClass(vmService.Class classDetails) {
     String uriString = classDetails.location?.script?.uri;
     if (uriString == null) return true;
     if (uriString.startsWith("package:front_end/")) {
       // Classes used for lazy initialization will naturally fluctuate.
       if (classDetails.name == "DillClassBuilder") return true;
       if (classDetails.name == "DillExtensionBuilder") return true;
       if (classDetails.name == "DillExtensionMemberBuilder") return true;
       if (classDetails.name == "DillMemberBuilder") return true;
       if (classDetails.name == "DillTypeAliasBuilder") return true;

       // These classes have proved to fluctuate, although the reason is less
       // clear.
       if (classDetails.name == "InheritedImplementationInterfaceConflict") {
         return true;
       }
       if (classDetails.name == "AbstractMemberOverridingImplementation") {
         return true;
       }
       if (classDetails.name == "VoidTypeBuilder") return true;
       if (classDetails.name == "NamedTypeBuilder") return true;
       if (classDetails.name == "DillClassMember") return true;
       if (classDetails.name == "Scope") return true;
       if (classDetails.name == "ConstructorScope") return true;
       if (classDetails.name == "ScopeBuilder") return true;
       if (classDetails.name == "ConstructorScopeBuilder") return true;

       return false;
     } else if (uriString.startsWith("package:kernel/")) {
       // DirtifyingList is used for lazy stuff and naturally change in numbers.
       if (classDetails.name == "DirtifyingList") return true;

       // Constants are canonicalized in their compilation run and will thus
       // naturally increase, e.g. we can get 2 more booleans every time (up to
       // a maximum of 2 per library or however many would have been there if we
       // didn't canonicalize at all).
       if (classDetails.name.endsWith("Constant")) return true;

       // These classes have proved to fluctuate, although the reason is less
       // clear.
       if (classDetails.name == "InterfaceType") return true;

       return false;
     }
     return true;
   }

   // I have commented out the lazy ones below.
   Set<String> frontEndStrictClasses = {
     // "DillClassBuilder",
     // "DillExtensionBuilder",
     // "DillExtensionMemberBuilder",
     "DillLibraryBuilder",
     "DillLoader",
     // "DillMemberBuilder",
     "DillTarget",
     // "DillTypeAliasBuilder",
     "SourceClassBuilder",
     "SourceExtensionBuilder",
     "SourceLibraryBuilder",
     "SourceLoader",
   };

   Set<String> kernelAstStrictClasses = {
     "Class",
     "Constructor",
     "Extension",
     "Field",
     "Library",
     "Procedure",
     "RedirectingFactoryConstructor",
     "Typedef",
   };

   bool strictClass(vmService.Class classDetails) {
     if (!kernelAstStrictClasses.contains(classDetails.name) &&
         !frontEndStrictClasses.contains(classDetails.name)) return false;

     if (kernelAstStrictClasses.contains(classDetails.name) &&
         classDetails.location?.script?.uri == "package:kernel/ast.dart") {
       return true;
     }
     if (frontEndStrictClasses.contains(classDetails.name) &&
         classDetails.location?.script?.uri?.startsWith("package:front_end/") ==
             true) {
       return true;
     }

     throw "$classDetails: ${classDetails.name} --- ${classDetails.location}";
   }
 }
	import 'dart:async';
	import 'dart:io';

	import "simple_stats.dart";
	import "vm_service_helper.dart" as vmService;

	const int limit = 10;

	main(List<String> args) async {
	LeakFinder heapHelper = new LeakFinder();

	heapHelper.start([
	"--disable-dart-dev",
	"--enable-asserts",
	Platform.script.resolve("incremental_dart2js_tester.dart").toString(),
	"--addDebugBreaks",
	"--fast",
	"--limit=$limit",
	]);
	}

	class LeakFinder extends vmService.LaunchingVMServiceHelper {
	@override
	Future<void> run() async {
	vmService.VM vm = await serviceClient.getVM();
	if (vm.isolates.length != 1) {
	throw "Expected 1 isolate, got ${vm.isolates.length}";
	}
	vmService.IsolateRef isolateRef = vm.isolates.single;
	await waitUntilIsolateIsRunnable(isolateRef.id);
	await serviceClient.resume(isolateRef.id);

	Map<vmService.ClassRef, List<int>> instanceCounts =
	new Map<vmService.ClassRef, List<int>>();
	Map<vmService.ClassRef, vmService.Class> classInfo =
	new Map<vmService.ClassRef, vmService.Class>();

	Completer<String> cTimeout = new Completer();
	Timer timer = new Timer(new Duration(minutes: 6), () {
	cTimeout.complete("Timeout");
	killProcess();
	});

	Completer<String> cRunDone = new Completer();
	// ignore: unawaited_futures
	runInternal(
	isolateRef,
	classInfo,
	instanceCounts,
	(int iteration) =>
	// Subtract 2 as it's logically one ahead and asks _before_ the run.
	(iteration - 2) > limit \|\|
	cTimeout.isCompleted \|\|
	cProcessExited.isCompleted).then((value) {
	cRunDone.complete("Done");
	});

	await Future.any([cRunDone.future, cTimeout.future, cProcessExited.future]);
	timer.cancel();

	print("\n\n======================\n\n");

	findPossibleLeaks(instanceCounts, classInfo);

	// Make sure the process doesn't hang.
	killProcess();
	}

	void findPossibleLeaks(Map<vmService.ClassRef, List<int>> instanceCounts,
	Map<vmService.ClassRef, vmService.Class> classInfo) {
	bool foundLeak = false;
	for (vmService.ClassRef c in instanceCounts.keys) {
	List<int> listOfInstanceCounts = instanceCounts[c];

	// Ignore VM internal stuff like "PatchClass", "PcDescriptors" etc.
	// (they don't have a url).
	vmService.Class classDetails = classInfo[c];
	String uriString = classDetails.location?.script?.uri;
	if (uriString == null) continue;

	// For now ignore anything not in package:kernel or package:front_end.
	if (ignoredClass(classDetails)) continue;

	// If they're all equal there's nothing to talk about.
	bool same = true;
	for (int i = 1; i < listOfInstanceCounts.length; i++) {
	if (listOfInstanceCounts[i] != listOfInstanceCounts[0]) {
	same = false;
	break;
	}
	}
	if (same) continue;

	int midPoint = listOfInstanceCounts.length ~/ 2;
	List<int> firstHalf = listOfInstanceCounts.sublist(0, midPoint);
	List<int> secondHalf = listOfInstanceCounts.sublist(midPoint);
	TTestResult ttestResult = SimpleTTestStat.ttest(secondHalf, firstHalf);

	if (!strictClass(classDetails)) {
	if (!ttestResult.significant) continue;

	// TODO(jensj): We could possibly also ignore if it's less (i.e. a
	// negative change), or if the change is < 1%, or the change minus the
	// confidence is < 1% etc.
	}
	print("Differences on ${c.name} (${uriString}): "
	"$listOfInstanceCounts ($ttestResult)");
	foundLeak = true;
	}

	print("\n\n");

	if (foundLeak) {
	print("Possible leak(s) found.");
	print("(Note that this doesn't guarantee that there are any!)");
	exitCode = 1;
	} else {
	print("Didn't identify any leaks.");
	print("(Note that this doesn't guarantee that there are none!)");
	exitCode = 0;
	}
	}

	Future<void> runInternal(
	vmService.IsolateRef isolateRef,
	Map<vmService.ClassRef, vmService.Class> classInfo,
	Map<vmService.ClassRef, List<int>> instanceCounts,
	bool Function(int iteration) shouldBail) async {
	int iterationNumber = 1;
	try {
	while (true) {
	if (shouldBail(iterationNumber)) break;
	if (!await waitUntilPaused(isolateRef.id)) break;
	print("\n\n====================\n\nIteration #$iterationNumber");
	iterationNumber++;
	vmService.AllocationProfile allocationProfile =
	await forceGC(isolateRef.id);
	for (vmService.ClassHeapStats member in allocationProfile.members) {
	if (!classInfo.containsKey(member.classRef)) {
	vmService.Class c = await serviceClient.getObject(
	isolateRef.id, member.classRef.id);
	classInfo[member.classRef] = c;
	}
	List<int> listOfInstanceCounts = instanceCounts[member.classRef];
	if (listOfInstanceCounts == null) {
	listOfInstanceCounts =
	instanceCounts[member.classRef] = new List<int>();
	}
	while (listOfInstanceCounts.length < iterationNumber - 2) {
	listOfInstanceCounts.add(0);
	}
	listOfInstanceCounts.add(member.instancesCurrent);
	if (listOfInstanceCounts.length != iterationNumber - 1) {
	throw "Unexpected length";
	}
	}
	await serviceClient.resume(isolateRef.id);
	}
	} catch (e) {
	print("Got error: $e");
	}
	}

	Completer<String> cProcessExited = new Completer();
	void processExited(int exitCode) {
	cProcessExited.complete("Exit");
	}

	bool ignoredClass(vmService.Class classDetails) {
	String uriString = classDetails.location?.script?.uri;
	if (uriString == null) return true;
	if (uriString.startsWith("package:front_end/")) {
	// Classes used for lazy initialization will naturally fluctuate.
	if (classDetails.name == "DillClassBuilder") return true;
	if (classDetails.name == "DillExtensionBuilder") return true;
	if (classDetails.name == "DillExtensionMemberBuilder") return true;
	if (classDetails.name == "DillMemberBuilder") return true;
	if (classDetails.name == "DillTypeAliasBuilder") return true;

	// These classes have proved to fluctuate, although the reason is less
	// clear.
	if (classDetails.name == "InheritedImplementationInterfaceConflict") {
	return true;
	}
	if (classDetails.name == "AbstractMemberOverridingImplementation") {
	return true;
	}
	if (classDetails.name == "VoidTypeBuilder") return true;
	if (classDetails.name == "NamedTypeBuilder") return true;
	if (classDetails.name == "DillClassMember") return true;
	if (classDetails.name == "Scope") return true;
	if (classDetails.name == "ConstructorScope") return true;
	if (classDetails.name == "ScopeBuilder") return true;
	if (classDetails.name == "ConstructorScopeBuilder") return true;

	return false;
	} else if (uriString.startsWith("package:kernel/")) {
	// DirtifyingList is used for lazy stuff and naturally change in numbers.
	if (classDetails.name == "DirtifyingList") return true;

	// Constants are canonicalized in their compilation run and will thus
	// naturally increase, e.g. we can get 2 more booleans every time (up to
	// a maximum of 2 per library or however many would have been there if we
	// didn't canonicalize at all).
	if (classDetails.name.endsWith("Constant")) return true;

	// These classes have proved to fluctuate, although the reason is less
	// clear.
	if (classDetails.name == "InterfaceType") return true;

	return false;
	}
	return true;
	}

	// I have commented out the lazy ones below.
	Set<String> frontEndStrictClasses = {
	// "DillClassBuilder",
	// "DillExtensionBuilder",
	// "DillExtensionMemberBuilder",
	"DillLibraryBuilder",
	"DillLoader",
	// "DillMemberBuilder",
	"DillTarget",
	// "DillTypeAliasBuilder",
	"SourceClassBuilder",
	"SourceExtensionBuilder",
	"SourceLibraryBuilder",
	"SourceLoader",
	};

	Set<String> kernelAstStrictClasses = {
	"Class",
	"Constructor",
	"Extension",
	"Field",
	"Library",
	"Procedure",
	"RedirectingFactoryConstructor",
	"Typedef",
	};

	bool strictClass(vmService.Class classDetails) {
	if (!kernelAstStrictClasses.contains(classDetails.name) &&
	!frontEndStrictClasses.contains(classDetails.name)) return false;

	if (kernelAstStrictClasses.contains(classDetails.name) &&
	classDetails.location?.script?.uri == "package:kernel/ast.dart") {
	return true;
	}
	if (frontEndStrictClasses.contains(classDetails.name) &&
	classDetails.location?.script?.uri?.startsWith("package:front_end/") ==
	true) {
	return true;
	}

	throw "$classDetails: ${classDetails.name} --- ${classDetails.location}";
	}
	}