src/liveobjectlist.h - platform/external/v8.git - Git at Google

 // Copyright 2011 the V8 project authors. All rights reserved.
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are
 // met:
 //
 //     * Redistributions of source code must retain the above copyright
 //       notice, this list of conditions and the following disclaimer.
 //     * Redistributions in binary form must reproduce the above
 //       copyright notice, this list of conditions and the following
 //       disclaimer in the documentation and/or other materials provided
 //       with the distribution.
 //     * Neither the name of Google Inc. nor the names of its
 //       contributors may be used to endorse or promote products derived
 //       from this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 #ifndef V8_LIVEOBJECTLIST_H_
 #define V8_LIVEOBJECTLIST_H_

 #include "v8.h"

 #include "checks.h"
 #include "heap.h"
 #include "objects.h"
 #include "globals.h"

 namespace v8 {
 namespace internal {

 #ifdef LIVE_OBJECT_LIST

 #ifdef DEBUG
 // The following symbol when defined enables thorough verification of lol data.
 // FLAG_verify_lol will also need to set to true to enable the verification.
 #define VERIFY_LOL
 #endif


 typedef int LiveObjectType;
 class LolFilter;
 class LiveObjectSummary;
 class DumpWriter;
 class SummaryWriter;


 // The LiveObjectList is both a mechanism for tracking a live capture of
 // objects in the JS heap, as well as is the data structure which represents
 // each of those captures.  Unlike a snapshot, the lol is live.  For example,
 // if an object in a captured lol dies and is collected by the GC, the lol
 // will reflect that the object is no longer available.  The term
 // LiveObjectList (and lol) is used to describe both the mechanism and the
 // data structure depending on context of use.
 //
 // In captured lols, objects are tracked using their address and an object id.
 // The object id is unique.  Once assigned to an object, the object id can never
 // be assigned to another object.  That is unless all captured lols are deleted
 // which allows the user to start over with a fresh set of lols and object ids.
 // The uniqueness of the object ids allows the user to track specific objects
 // and inspect its longevity while debugging JS code in execution.
 //
 // The lol comes with utility functions to capture, dump, summarize, and diff
 // captured lols amongst other functionality.  These functionality are
 // accessible via the v8 debugger interface.
 class LiveObjectList {
  public:
   inline static void GCEpilogue();
   inline static void GCPrologue();
   inline static void IterateElements(ObjectVisitor* v);
   inline static void ProcessNonLive(HeapObject *obj);
   inline static void UpdateReferencesForScavengeGC();

   // Note: LOLs can be listed by calling Dump(0, <lol id>), and 2 LOLs can be
   // compared/diff'ed using Dump(<lol id1>, <lol id2>, ...).  This will yield
   // a verbose dump of all the objects in the resultant lists.
   //   Similarly, a summarized result of a LOL listing or a diff can be
   // attained using the Summarize(0, <lol id>) and Summarize(<lol id1,
   // <lol id2>, ...) respectively.

   static MaybeObject* Capture();
   static bool Delete(int id);
   static MaybeObject* Dump(int id1,
                            int id2,
                            int start_idx,
                            int dump_limit,
                            Handle<JSObject> filter_obj);
   static MaybeObject* Info(int start_idx, int dump_limit);
   static MaybeObject* Summarize(int id1, int id2, Handle<JSObject> filter_obj);

   static void Reset();
   static Object* GetObj(int obj_id);
   static int GetObjId(Object* obj);
   static Object* GetObjId(Handle<String> address);
   static MaybeObject* GetObjRetainers(int obj_id,
                                       Handle<JSObject> instance_filter,
                                       bool verbose,
                                       int start,
                                       int count,
                                       Handle<JSObject> filter_obj);

   static Object* GetPath(int obj_id1,
                          int obj_id2,
                          Handle<JSObject> instance_filter);
   static Object* PrintObj(int obj_id);

  private:

   struct Element {
     int id_;
     HeapObject* obj_;
   };

   explicit LiveObjectList(LiveObjectList* prev, int capacity);
   ~LiveObjectList();

   static void GCEpiloguePrivate();
   static void IterateElementsPrivate(ObjectVisitor* v);

   static void DoProcessNonLive(HeapObject *obj);

   static int CompareElement(const Element* a, const Element* b);

   static Object* GetPathPrivate(HeapObject* obj1, HeapObject* obj2);

   static int GetRetainers(Handle<HeapObject> target,
                           Handle<JSObject> instance_filter,
                           Handle<FixedArray> retainers_arr,
                           int start,
                           int dump_limit,
                           int* total_count,
                           LolFilter* filter,
                           LiveObjectSummary *summary,
                           JSFunction* arguments_function,
                           Handle<Object> error);

   static MaybeObject* DumpPrivate(DumpWriter* writer,
                                   int start,
                                   int dump_limit,
                                   LolFilter* filter);
   static MaybeObject* SummarizePrivate(SummaryWriter* writer,
                                        LolFilter* filter,
                                        bool is_tracking_roots);

   static bool NeedLOLProcessing() { return (last() != NULL); }
   static void NullifyNonLivePointer(HeapObject **p) {
     // Mask out the low bit that marks this as a heap object.  We'll use this
     // cleared bit as an indicator that this pointer needs to be collected.
     //
     // Meanwhile, we still preserve its approximate value so that we don't
     // have to resort the elements list all the time.
     //
     // Note: Doing so also makes this HeapObject* look like an SMI.  Hence,
     // GC pointer updater will ignore it when it gets scanned.
     *p = reinterpret_cast<HeapObject*>((*p)->address());
   }

   LiveObjectList* prev() { return prev_; }
   LiveObjectList* next() { return next_; }
   int id() { return id_; }

   static int list_count() { return list_count_; }
   static LiveObjectList* last() { return last_; }

   inline static LiveObjectList* FindLolForId(int id, LiveObjectList* start_lol);
   int TotalObjCount() { return GetTotalObjCountAndSize(NULL); }
   int GetTotalObjCountAndSize(int* size_p);

   bool Add(HeapObject* obj);
   Element* Find(HeapObject* obj);
   static void NullifyMostRecent(HeapObject* obj);
   void Sort();
   static void SortAll();

   static void PurgeDuplicates();  // Only to be called by GCEpilogue.

 #ifdef VERIFY_LOL
   static void Verify(bool match_heap_exactly = false);
   static void VerifyNotInFromSpace();
 #endif

   // Iterates the elements in every lol and returns the one that matches the
   // specified key.  If no matching element is found, then it returns NULL.
   template <typename T>
   inline static LiveObjectList::Element*
       FindElementFor(T (*GetValue)(LiveObjectList::Element*), T key);

   inline static int GetElementId(Element* element);
   inline static HeapObject* GetElementObj(Element* element);

   // Instance fields.
   LiveObjectList* prev_;
   LiveObjectList* next_;
   int id_;
   int capacity_;
   int obj_count_;
   Element *elements_;

   // Statics for managing all the lists.
   static uint32_t next_element_id_;
   static int list_count_;
   static int last_id_;
   static LiveObjectList* first_;
   static LiveObjectList* last_;

   friend class LolIterator;
   friend class LolForwardIterator;
   friend class LolDumpWriter;
   friend class RetainersDumpWriter;
   friend class RetainersSummaryWriter;
   friend class UpdateLiveObjectListVisitor;
 };


 // Helper class for updating the LiveObjectList HeapObject pointers.
 class UpdateLiveObjectListVisitor: public ObjectVisitor {
  public:

   void VisitPointer(Object** p) { UpdatePointer(p); }

   void VisitPointers(Object** start, Object** end) {
     // Copy all HeapObject pointers in [start, end).
     for (Object** p = start; p < end; p++) UpdatePointer(p);
   }

  private:
   // Based on Heap::ScavengeObject() but only does forwarding of pointers
   // to live new space objects, and not actually keep them alive.
   void UpdatePointer(Object** p) {
     Object* object = *p;
     if (!Heap::InNewSpace(object)) return;

     HeapObject* heap_obj = HeapObject::cast(object);
     ASSERT(Heap::InFromSpace(heap_obj));

     // We use the first word (where the map pointer usually is) of a heap
     // object to record the forwarding pointer.  A forwarding pointer can
     // point to an old space, the code space, or the to space of the new
     // generation.
     MapWord first_word = heap_obj->map_word();

     // If the first word is a forwarding address, the object has already been
     // copied.
     if (first_word.IsForwardingAddress()) {
       *p = first_word.ToForwardingAddress();
       return;

     // Else, it's a dead object.
     } else {
       LiveObjectList::NullifyNonLivePointer(reinterpret_cast<HeapObject**>(p));
     }
   }
 };


 #else  // !LIVE_OBJECT_LIST


 class LiveObjectList {
  public:
   inline static void GCEpilogue() {}
   inline static void GCPrologue() {}
   inline static void IterateElements(ObjectVisitor* v) {}
   inline static void ProcessNonLive(HeapObject* obj) {}
   inline static void UpdateReferencesForScavengeGC() {}

   inline static MaybeObject* Capture() { return HEAP->undefined_value(); }
   inline static bool Delete(int id) { return false; }
   inline static MaybeObject* Dump(int id1,
                                   int id2,
                                   int start_idx,
                                   int dump_limit,
                                   Handle<JSObject> filter_obj) {
     return HEAP->undefined_value();
   }
   inline static MaybeObject* Info(int start_idx, int dump_limit) {
     return HEAP->undefined_value();
   }
   inline static MaybeObject* Summarize(int id1,
                                        int id2,
                                        Handle<JSObject> filter_obj) {
     return HEAP->undefined_value();
   }

   inline static void Reset() {}
   inline static Object* GetObj(int obj_id) { return HEAP->undefined_value(); }
   inline static Object* GetObjId(Handle<String> address) {
     return HEAP->undefined_value();
   }
   inline static MaybeObject* GetObjRetainers(int obj_id,
                                              Handle<JSObject> instance_filter,
                                              bool verbose,
                                              int start,
                                              int count,
                                              Handle<JSObject> filter_obj) {
     return HEAP->undefined_value();
   }

   inline static Object* GetPath(int obj_id1,
                                 int obj_id2,
                                 Handle<JSObject> instance_filter) {
     return HEAP->undefined_value();
   }
   inline static Object* PrintObj(int obj_id) { return HEAP->undefined_value(); }
 };


 #endif  // LIVE_OBJECT_LIST

 } }  // namespace v8::internal

 #endif  // V8_LIVEOBJECTLIST_H_
	// Copyright 2011 the V8 project authors. All rights reserved.
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are
	// met:
	//
	// * Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	// * Redistributions in binary form must reproduce the above
	// copyright notice, this list of conditions and the following
	// disclaimer in the documentation and/or other materials provided
	// with the distribution.
	// * Neither the name of Google Inc. nor the names of its
	// contributors may be used to endorse or promote products derived
	// from this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	#ifndef V8_LIVEOBJECTLIST_H_
	#define V8_LIVEOBJECTLIST_H_

	#include "v8.h"

	#include "checks.h"
	#include "heap.h"
	#include "objects.h"
	#include "globals.h"

	namespace v8 {
	namespace internal {

	#ifdef LIVE_OBJECT_LIST

	#ifdef DEBUG
	// The following symbol when defined enables thorough verification of lol data.
	// FLAG_verify_lol will also need to set to true to enable the verification.
	#define VERIFY_LOL
	#endif


	typedef int LiveObjectType;
	class LolFilter;
	class LiveObjectSummary;
	class DumpWriter;
	class SummaryWriter;


	// The LiveObjectList is both a mechanism for tracking a live capture of
	// objects in the JS heap, as well as is the data structure which represents
	// each of those captures. Unlike a snapshot, the lol is live. For example,
	// if an object in a captured lol dies and is collected by the GC, the lol
	// will reflect that the object is no longer available. The term
	// LiveObjectList (and lol) is used to describe both the mechanism and the
	// data structure depending on context of use.
	//
	// In captured lols, objects are tracked using their address and an object id.
	// The object id is unique. Once assigned to an object, the object id can never
	// be assigned to another object. That is unless all captured lols are deleted
	// which allows the user to start over with a fresh set of lols and object ids.
	// The uniqueness of the object ids allows the user to track specific objects
	// and inspect its longevity while debugging JS code in execution.
	//
	// The lol comes with utility functions to capture, dump, summarize, and diff
	// captured lols amongst other functionality. These functionality are
	// accessible via the v8 debugger interface.
	class LiveObjectList {
	public:
	inline static void GCEpilogue();
	inline static void GCPrologue();
	inline static void IterateElements(ObjectVisitor* v);
	inline static void ProcessNonLive(HeapObject *obj);
	inline static void UpdateReferencesForScavengeGC();

	// Note: LOLs can be listed by calling Dump(0, <lol id>), and 2 LOLs can be
	// compared/diff'ed using Dump(<lol id1>, <lol id2>, ...). This will yield
	// a verbose dump of all the objects in the resultant lists.
	// Similarly, a summarized result of a LOL listing or a diff can be
	// attained using the Summarize(0, <lol id>) and Summarize(<lol id1,
	// <lol id2>, ...) respectively.

	static MaybeObject* Capture();
	static bool Delete(int id);
	static MaybeObject* Dump(int id1,
	int id2,
	int start_idx,
	int dump_limit,
	Handle<JSObject> filter_obj);
	static MaybeObject* Info(int start_idx, int dump_limit);
	static MaybeObject* Summarize(int id1, int id2, Handle<JSObject> filter_obj);

	static void Reset();
	static Object* GetObj(int obj_id);
	static int GetObjId(Object* obj);
	static Object* GetObjId(Handle<String> address);
	static MaybeObject* GetObjRetainers(int obj_id,
	Handle<JSObject> instance_filter,
	bool verbose,
	int start,
	int count,
	Handle<JSObject> filter_obj);

	static Object* GetPath(int obj_id1,
	int obj_id2,
	Handle<JSObject> instance_filter);
	static Object* PrintObj(int obj_id);

	private:

	struct Element {
	int id_;
	HeapObject* obj_;
	};

	explicit LiveObjectList(LiveObjectList* prev, int capacity);
	~LiveObjectList();

	static void GCEpiloguePrivate();
	static void IterateElementsPrivate(ObjectVisitor* v);

	static void DoProcessNonLive(HeapObject *obj);

	static int CompareElement(const Element* a, const Element* b);

	static Object* GetPathPrivate(HeapObject* obj1, HeapObject* obj2);

	static int GetRetainers(Handle<HeapObject> target,
	Handle<JSObject> instance_filter,
	Handle<FixedArray> retainers_arr,
	int start,
	int dump_limit,
	int* total_count,
	LolFilter* filter,
	LiveObjectSummary *summary,
	JSFunction* arguments_function,
	Handle<Object> error);

	static MaybeObject* DumpPrivate(DumpWriter* writer,
	int start,
	int dump_limit,
	LolFilter* filter);
	static MaybeObject* SummarizePrivate(SummaryWriter* writer,
	LolFilter* filter,
	bool is_tracking_roots);

	static bool NeedLOLProcessing() { return (last() != NULL); }
	static void NullifyNonLivePointer(HeapObject **p) {
	// Mask out the low bit that marks this as a heap object. We'll use this
	// cleared bit as an indicator that this pointer needs to be collected.
	//
	// Meanwhile, we still preserve its approximate value so that we don't
	// have to resort the elements list all the time.
	//
	// Note: Doing so also makes this HeapObject* look like an SMI. Hence,
	// GC pointer updater will ignore it when it gets scanned.
	p = reinterpret_cast<HeapObject>((*p)->address());
	}

	LiveObjectList* prev() { return prev_; }
	LiveObjectList* next() { return next_; }
	int id() { return id_; }

	static int list_count() { return list_count_; }
	static LiveObjectList* last() { return last_; }

	inline static LiveObjectList* FindLolForId(int id, LiveObjectList* start_lol);
	int TotalObjCount() { return GetTotalObjCountAndSize(NULL); }
	int GetTotalObjCountAndSize(int* size_p);

	bool Add(HeapObject* obj);
	Element* Find(HeapObject* obj);
	static void NullifyMostRecent(HeapObject* obj);
	void Sort();
	static void SortAll();

	static void PurgeDuplicates(); // Only to be called by GCEpilogue.

	#ifdef VERIFY_LOL
	static void Verify(bool match_heap_exactly = false);
	static void VerifyNotInFromSpace();
	#endif

	// Iterates the elements in every lol and returns the one that matches the
	// specified key. If no matching element is found, then it returns NULL.
	template <typename T>
	inline static LiveObjectList::Element*
	FindElementFor(T (GetValue)(LiveObjectList::Element), T key);

	inline static int GetElementId(Element* element);
	inline static HeapObject* GetElementObj(Element* element);

	// Instance fields.
	LiveObjectList* prev_;
	LiveObjectList* next_;
	int id_;
	int capacity_;
	int obj_count_;
	Element *elements_;

	// Statics for managing all the lists.
	static uint32_t next_element_id_;
	static int list_count_;
	static int last_id_;
	static LiveObjectList* first_;
	static LiveObjectList* last_;

	friend class LolIterator;
	friend class LolForwardIterator;
	friend class LolDumpWriter;
	friend class RetainersDumpWriter;
	friend class RetainersSummaryWriter;
	friend class UpdateLiveObjectListVisitor;
	};


	// Helper class for updating the LiveObjectList HeapObject pointers.
	class UpdateLiveObjectListVisitor: public ObjectVisitor {
	public:

	void VisitPointer(Object** p) { UpdatePointer(p); }

	void VisitPointers(Object start, Object end) {
	// Copy all HeapObject pointers in [start, end).
	for (Object** p = start; p < end; p++) UpdatePointer(p);
	}

	private:
	// Based on Heap::ScavengeObject() but only does forwarding of pointers
	// to live new space objects, and not actually keep them alive.
	void UpdatePointer(Object** p) {
	Object* object = *p;
	if (!Heap::InNewSpace(object)) return;

	HeapObject* heap_obj = HeapObject::cast(object);
	ASSERT(Heap::InFromSpace(heap_obj));

	// We use the first word (where the map pointer usually is) of a heap
	// object to record the forwarding pointer. A forwarding pointer can
	// point to an old space, the code space, or the to space of the new
	// generation.
	MapWord first_word = heap_obj->map_word();

	// If the first word is a forwarding address, the object has already been
	// copied.
	if (first_word.IsForwardingAddress()) {
	*p = first_word.ToForwardingAddress();
	return;

	// Else, it's a dead object.
	} else {
	LiveObjectList::NullifyNonLivePointer(reinterpret_cast<HeapObject**>(p));
	}
	}
	};


	#else // !LIVE_OBJECT_LIST


	class LiveObjectList {
	public:
	inline static void GCEpilogue() {}
	inline static void GCPrologue() {}
	inline static void IterateElements(ObjectVisitor* v) {}
	inline static void ProcessNonLive(HeapObject* obj) {}
	inline static void UpdateReferencesForScavengeGC() {}

	inline static MaybeObject* Capture() { return HEAP->undefined_value(); }
	inline static bool Delete(int id) { return false; }
	inline static MaybeObject* Dump(int id1,
	int id2,
	int start_idx,
	int dump_limit,
	Handle<JSObject> filter_obj) {
	return HEAP->undefined_value();
	}
	inline static MaybeObject* Info(int start_idx, int dump_limit) {
	return HEAP->undefined_value();
	}
	inline static MaybeObject* Summarize(int id1,
	int id2,
	Handle<JSObject> filter_obj) {
	return HEAP->undefined_value();
	}

	inline static void Reset() {}
	inline static Object* GetObj(int obj_id) { return HEAP->undefined_value(); }
	inline static Object* GetObjId(Handle<String> address) {
	return HEAP->undefined_value();
	}
	inline static MaybeObject* GetObjRetainers(int obj_id,
	Handle<JSObject> instance_filter,
	bool verbose,
	int start,
	int count,
	Handle<JSObject> filter_obj) {
	return HEAP->undefined_value();
	}

	inline static Object* GetPath(int obj_id1,
	int obj_id2,
	Handle<JSObject> instance_filter) {
	return HEAP->undefined_value();
	}
	inline static Object* PrintObj(int obj_id) { return HEAP->undefined_value(); }
	};


	#endif // LIVE_OBJECT_LIST

	} } // namespace v8::internal

	#endif // V8_LIVEOBJECTLIST_H_