src/global-handles.cc - platform/external/v8 - Git at Google

 // Copyright 2009 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.

 #include "v8.h"

 #include "api.h"
 #include "global-handles.h"

 #include "vm-state-inl.h"

 namespace v8 {
 namespace internal {


 ObjectGroup::~ObjectGroup() {
   if (info_ != NULL) info_->Dispose();
 }


 class GlobalHandles::Node {
  public:
   // State transition diagram:
   // FREE -> NORMAL <-> WEAK -> PENDING -> NEAR_DEATH -> { NORMAL, WEAK, FREE }
   enum State {
     FREE,
     NORMAL,     // Normal global handle.
     WEAK,       // Flagged as weak but not yet finalized.
     PENDING,    // Has been recognized as only reachable by weak handles.
     NEAR_DEATH  // Callback has informed the handle is near death.
   };

   // Maps handle location (slot) to the containing node.
   static Node* FromLocation(Object** location) {
     ASSERT(OFFSET_OF(Node, object_) == 0);
     return reinterpret_cast<Node*>(location);
   }

   Node() {}

 #ifdef DEBUG
   ~Node() {
     // TODO(1428): if it's a weak handle we should have invoked its callback.
     // Zap the values for eager trapping.
     object_ = NULL;
     class_id_ = v8::HeapProfiler::kPersistentHandleNoClassId;
     index_ = 0;
     independent_ = false;
     in_new_space_list_ = false;
     parameter_or_next_free_.next_free = NULL;
     callback_ = NULL;
   }
 #endif

   void Initialize(int index, Node** first_free) {
     index_ = static_cast<uint8_t>(index);
     ASSERT(static_cast<int>(index_) == index);
     state_ = FREE;
     in_new_space_list_ = false;
     parameter_or_next_free_.next_free = *first_free;
     *first_free = this;
   }

   void Acquire(Object* object, GlobalHandles* global_handles) {
     ASSERT(state_ == FREE);
     object_ = object;
     class_id_ = v8::HeapProfiler::kPersistentHandleNoClassId;
     independent_ = false;
     state_  = NORMAL;
     parameter_or_next_free_.parameter = NULL;
     callback_ = NULL;
     IncreaseBlockUses(global_handles);
   }

   void Release(GlobalHandles* global_handles) {
     ASSERT(state_ != FREE);
     if (IsWeakRetainer()) {
       global_handles->number_of_weak_handles_--;
       if (object_->IsJSGlobalObject()) {
         global_handles->number_of_global_object_weak_handles_--;
       }
     }
     state_ = FREE;
     parameter_or_next_free_.next_free = global_handles->first_free_;
     global_handles->first_free_ = this;
     DecreaseBlockUses(global_handles);
   }

   // Object slot accessors.
   Object* object() const { return object_; }
   Object** location() { return &object_; }
   Handle<Object> handle() { return Handle<Object>(location()); }

   // Wrapper class ID accessors.
   bool has_wrapper_class_id() const {
     return class_id_ != v8::HeapProfiler::kPersistentHandleNoClassId;
   }
   uint16_t wrapper_class_id() const { return class_id_; }
   void set_wrapper_class_id(uint16_t class_id) {
     class_id_ = class_id;
   }

   // State accessors.

   State state() const { return state_; }

   bool IsNearDeath() const {
     // Check for PENDING to ensure correct answer when processing callbacks.
     return state_ == PENDING || state_ == NEAR_DEATH;
   }

   bool IsWeak() const { return state_ == WEAK; }

   bool IsRetainer() const { return state_ != FREE; }

   bool IsStrongRetainer() const { return state_ == NORMAL; }

   bool IsWeakRetainer() const {
     return state_ == WEAK || state_ == PENDING || state_ == NEAR_DEATH;
   }

   void MarkPending() {
     ASSERT(state_ == WEAK);
     state_ = PENDING;
   }

   // Independent flag accessors.
   void MarkIndependent() {
     ASSERT(state_ != FREE);
     independent_ = true;
   }
   bool is_independent() const { return independent_; }

   // In-new-space-list flag accessors.
   void set_in_new_space_list(bool v) { in_new_space_list_ = v; }
   bool is_in_new_space_list() const { return in_new_space_list_; }

   // Callback accessor.
   WeakReferenceCallback callback() { return callback_; }

   // Callback parameter accessors.
   void set_parameter(void* parameter) {
     ASSERT(state_ != FREE);
     parameter_or_next_free_.parameter = parameter;
   }
   void* parameter() const {
     ASSERT(state_ != FREE);
     return parameter_or_next_free_.parameter;
   }

   // Accessors for next free node in the free list.
   Node* next_free() {
     ASSERT(state_ == FREE);
     return parameter_or_next_free_.next_free;
   }
   void set_next_free(Node* value) {
     ASSERT(state_ == FREE);
     parameter_or_next_free_.next_free = value;
   }

   void MakeWeak(GlobalHandles* global_handles,
                 void* parameter,
                 WeakReferenceCallback callback) {
     ASSERT(state_ != FREE);
     if (!IsWeakRetainer()) {
       global_handles->number_of_weak_handles_++;
       if (object_->IsJSGlobalObject()) {
         global_handles->number_of_global_object_weak_handles_++;
       }
     }
     state_ = WEAK;
     set_parameter(parameter);
     callback_ = callback;
   }

   void ClearWeakness(GlobalHandles* global_handles) {
     ASSERT(state_ != FREE);
     if (IsWeakRetainer()) {
       global_handles->number_of_weak_handles_--;
       if (object_->IsJSGlobalObject()) {
         global_handles->number_of_global_object_weak_handles_--;
       }
     }
     state_ = NORMAL;
     set_parameter(NULL);
   }

   bool PostGarbageCollectionProcessing(Isolate* isolate,
                                        GlobalHandles* global_handles) {
     if (state_ != Node::PENDING) return false;
     WeakReferenceCallback func = callback();
     if (func == NULL) {
       Release(global_handles);
       return false;
     }
     void* par = parameter();
     state_ = NEAR_DEATH;
     set_parameter(NULL);

     v8::Persistent<v8::Object> object = ToApi<v8::Object>(handle());
     {
       // Check that we are not passing a finalized external string to
       // the callback.
       ASSERT(!object_->IsExternalAsciiString() ||
              ExternalAsciiString::cast(object_)->resource() != NULL);
       ASSERT(!object_->IsExternalTwoByteString() ||
              ExternalTwoByteString::cast(object_)->resource() != NULL);
       // Leaving V8.
       VMState state(isolate, EXTERNAL);
       func(object, par);
     }
     // Absence of explicit cleanup or revival of weak handle
     // in most of the cases would lead to memory leak.
     ASSERT(state_ != NEAR_DEATH);
     return true;
   }

  private:
   inline NodeBlock* FindBlock();
   inline void IncreaseBlockUses(GlobalHandles* global_handles);
   inline void DecreaseBlockUses(GlobalHandles* global_handles);

   // Storage for object pointer.
   // Placed first to avoid offset computation.
   Object* object_;

   // Next word stores class_id, index, state, and independent.
   // Note: the most aligned fields should go first.

   // Wrapper class ID.
   uint16_t class_id_;

   // Index in the containing handle block.
   uint8_t index_;

   // Need one more bit for MSVC as it treats enums as signed.
   State state_ : 4;

   bool independent_ : 1;
   bool in_new_space_list_ : 1;

   // Handle specific callback.
   WeakReferenceCallback callback_;

   // Provided data for callback.  In FREE state, this is used for
   // the free list link.
   union {
     void* parameter;
     Node* next_free;
   } parameter_or_next_free_;

   DISALLOW_COPY_AND_ASSIGN(Node);
 };


 class GlobalHandles::NodeBlock {
  public:
   static const int kSize = 256;

   explicit NodeBlock(NodeBlock* next)
       : next_(next), used_nodes_(0), next_used_(NULL), prev_used_(NULL) {}

   void PutNodesOnFreeList(Node** first_free) {
     for (int i = kSize - 1; i >= 0; --i) {
       nodes_[i].Initialize(i, first_free);
     }
   }

   Node* node_at(int index) {
     ASSERT(0 <= index && index < kSize);
     return &nodes_[index];
   }

   void IncreaseUses(GlobalHandles* global_handles) {
     ASSERT(used_nodes_ < kSize);
     if (used_nodes_++ == 0) {
       NodeBlock* old_first = global_handles->first_used_block_;
       global_handles->first_used_block_ = this;
       next_used_ = old_first;
       prev_used_ = NULL;
       if (old_first == NULL) return;
       old_first->prev_used_ = this;
     }
   }

   void DecreaseUses(GlobalHandles* global_handles) {
     ASSERT(used_nodes_ > 0);
     if (--used_nodes_ == 0) {
       if (next_used_ != NULL) next_used_->prev_used_ = prev_used_;
       if (prev_used_ != NULL) prev_used_->next_used_ = next_used_;
       if (this == global_handles->first_used_block_) {
         global_handles->first_used_block_ = next_used_;
       }
     }
   }

   // Next block in the list of all blocks.
   NodeBlock* next() const { return next_; }

   // Next/previous block in the list of blocks with used nodes.
   NodeBlock* next_used() const { return next_used_; }
   NodeBlock* prev_used() const { return prev_used_; }

  private:
   Node nodes_[kSize];
   NodeBlock* const next_;
   int used_nodes_;
   NodeBlock* next_used_;
   NodeBlock* prev_used_;
 };


 GlobalHandles::NodeBlock* GlobalHandles::Node::FindBlock() {
   intptr_t ptr = reinterpret_cast<intptr_t>(this);
   ptr = ptr - index_ * sizeof(Node);
   NodeBlock* block = reinterpret_cast<NodeBlock*>(ptr);
   ASSERT(block->node_at(index_) == this);
   return block;
 }


 void GlobalHandles::Node::IncreaseBlockUses(GlobalHandles* global_handles) {
   FindBlock()->IncreaseUses(global_handles);
 }


 void GlobalHandles::Node::DecreaseBlockUses(GlobalHandles* global_handles) {
   FindBlock()->DecreaseUses(global_handles);
 }


 class GlobalHandles::NodeIterator {
  public:
   explicit NodeIterator(GlobalHandles* global_handles)
       : block_(global_handles->first_used_block_),
         index_(0) {}

   bool done() const { return block_ == NULL; }

   Node* node() const {
     ASSERT(!done());
     return block_->node_at(index_);
   }

   void Advance() {
     ASSERT(!done());
     if (++index_ < NodeBlock::kSize) return;
     index_ = 0;
     block_ = block_->next_used();
   }

  private:
   NodeBlock* block_;
   int index_;

   DISALLOW_COPY_AND_ASSIGN(NodeIterator);
 };


 GlobalHandles::GlobalHandles(Isolate* isolate)
     : isolate_(isolate),
       number_of_weak_handles_(0),
       number_of_global_object_weak_handles_(0),
       number_of_global_handles_(0),
       first_block_(NULL),
       first_used_block_(NULL),
       first_free_(NULL),
       post_gc_processing_count_(0) {}


 GlobalHandles::~GlobalHandles() {
   NodeBlock* block = first_block_;
   while (block != NULL) {
     NodeBlock* tmp = block->next();
     delete block;
     block = tmp;
   }
   first_block_ = NULL;
 }


 Handle<Object> GlobalHandles::Create(Object* value) {
   isolate_->counters()->global_handles()->Increment();
   number_of_global_handles_++;
   if (first_free_ == NULL) {
     first_block_ = new NodeBlock(first_block_);
     first_block_->PutNodesOnFreeList(&first_free_);
   }
   ASSERT(first_free_ != NULL);
   // Take the first node in the free list.
   Node* result = first_free_;
   first_free_ = result->next_free();
   result->Acquire(value, this);
   if (isolate_->heap()->InNewSpace(value) &&
       !result->is_in_new_space_list()) {
     new_space_nodes_.Add(result);
     result->set_in_new_space_list(true);
   }
   return result->handle();
 }


 void GlobalHandles::Destroy(Object** location) {
   isolate_->counters()->global_handles()->Decrement();
   number_of_global_handles_--;
   if (location == NULL) return;
   Node::FromLocation(location)->Release(this);
 }


 void GlobalHandles::MakeWeak(Object** location, void* parameter,
                              WeakReferenceCallback callback) {
   ASSERT(callback != NULL);
   Node::FromLocation(location)->MakeWeak(this, parameter, callback);
 }


 void GlobalHandles::ClearWeakness(Object** location) {
   Node::FromLocation(location)->ClearWeakness(this);
 }


 void GlobalHandles::MarkIndependent(Object** location) {
   Node::FromLocation(location)->MarkIndependent();
 }


 bool GlobalHandles::IsNearDeath(Object** location) {
   return Node::FromLocation(location)->IsNearDeath();
 }


 bool GlobalHandles::IsWeak(Object** location) {
   return Node::FromLocation(location)->IsWeak();
 }


 void GlobalHandles::SetWrapperClassId(Object** location, uint16_t class_id) {
   Node::FromLocation(location)->set_wrapper_class_id(class_id);
 }


 void GlobalHandles::IterateWeakRoots(ObjectVisitor* v) {
   for (NodeIterator it(this); !it.done(); it.Advance()) {
     if (it.node()->IsWeakRetainer()) v->VisitPointer(it.node()->location());
   }
 }


 void GlobalHandles::IterateWeakRoots(WeakReferenceGuest f,
                                      WeakReferenceCallback callback) {
   for (NodeIterator it(this); !it.done(); it.Advance()) {
     if (it.node()->IsWeak() && it.node()->callback() == callback) {
       f(it.node()->object(), it.node()->parameter());
     }
   }
 }


 void GlobalHandles::IdentifyWeakHandles(WeakSlotCallback f) {
   for (NodeIterator it(this); !it.done(); it.Advance()) {
     if (it.node()->IsWeak() && f(it.node()->location())) {
       it.node()->MarkPending();
     }
   }
 }


 void GlobalHandles::IterateNewSpaceStrongAndDependentRoots(ObjectVisitor* v) {
   for (int i = 0; i < new_space_nodes_.length(); ++i) {
     Node* node = new_space_nodes_[i];
     if (node->IsStrongRetainer() ||
         (node->IsWeakRetainer() && !node->is_independent())) {
       v->VisitPointer(node->location());
     }
   }
 }


 void GlobalHandles::IdentifyNewSpaceWeakIndependentHandles(
     WeakSlotCallbackWithHeap f) {
   for (int i = 0; i < new_space_nodes_.length(); ++i) {
     Node* node = new_space_nodes_[i];
     ASSERT(node->is_in_new_space_list());
     if (node->is_independent() && node->IsWeak() &&
         f(isolate_->heap(), node->location())) {
       node->MarkPending();
     }
   }
 }


 void GlobalHandles::IterateNewSpaceWeakIndependentRoots(ObjectVisitor* v) {
   for (int i = 0; i < new_space_nodes_.length(); ++i) {
     Node* node = new_space_nodes_[i];
     ASSERT(node->is_in_new_space_list());
     if (node->is_independent() && node->IsWeakRetainer()) {
       v->VisitPointer(node->location());
     }
   }
 }


 bool GlobalHandles::PostGarbageCollectionProcessing(
     GarbageCollector collector) {
   // Process weak global handle callbacks. This must be done after the
   // GC is completely done, because the callbacks may invoke arbitrary
   // API functions.
   ASSERT(isolate_->heap()->gc_state() == Heap::NOT_IN_GC);
   const int initial_post_gc_processing_count = ++post_gc_processing_count_;
   bool next_gc_likely_to_collect_more = false;
   if (collector == SCAVENGER) {
     for (int i = 0; i < new_space_nodes_.length(); ++i) {
       Node* node = new_space_nodes_[i];
       ASSERT(node->is_in_new_space_list());
       // Skip dependent handles. Their weak callbacks might expect to be
       // called between two global garbage collection callbacks which
       // are not called for minor collections.
       if (!node->is_independent()) continue;
       if (node->PostGarbageCollectionProcessing(isolate_, this)) {
         if (initial_post_gc_processing_count != post_gc_processing_count_) {
           // Weak callback triggered another GC and another round of
           // PostGarbageCollection processing.  The current node might
           // have been deleted in that round, so we need to bail out (or
           // restart the processing).
           return next_gc_likely_to_collect_more;
         }
       }
       if (!node->IsRetainer()) {
         next_gc_likely_to_collect_more = true;
       }
     }
   } else {
     for (NodeIterator it(this); !it.done(); it.Advance()) {
       if (it.node()->PostGarbageCollectionProcessing(isolate_, this)) {
         if (initial_post_gc_processing_count != post_gc_processing_count_) {
           // See the comment above.
           return next_gc_likely_to_collect_more;
         }
       }
       if (!it.node()->IsRetainer()) {
         next_gc_likely_to_collect_more = true;
       }
     }
   }
   // Update the list of new space nodes.
   int last = 0;
   for (int i = 0; i < new_space_nodes_.length(); ++i) {
     Node* node = new_space_nodes_[i];
     ASSERT(node->is_in_new_space_list());
     if (node->IsRetainer() && isolate_->heap()->InNewSpace(node->object())) {
       new_space_nodes_[last++] = node;
     } else {
       node->set_in_new_space_list(false);
     }
   }
   new_space_nodes_.Rewind(last);
   return next_gc_likely_to_collect_more;
 }


 void GlobalHandles::IterateStrongRoots(ObjectVisitor* v) {
   for (NodeIterator it(this); !it.done(); it.Advance()) {
     if (it.node()->IsStrongRetainer()) {
       v->VisitPointer(it.node()->location());
     }
   }
 }


 void GlobalHandles::IterateAllRoots(ObjectVisitor* v) {
   for (NodeIterator it(this); !it.done(); it.Advance()) {
     if (it.node()->IsRetainer()) {
       v->VisitPointer(it.node()->location());
     }
   }
 }


 void GlobalHandles::IterateAllRootsWithClassIds(ObjectVisitor* v) {
   for (NodeIterator it(this); !it.done(); it.Advance()) {
     if (it.node()->has_wrapper_class_id() && it.node()->IsRetainer()) {
       v->VisitEmbedderReference(it.node()->location(),
                                 it.node()->wrapper_class_id());
     }
   }
 }


 void GlobalHandles::RecordStats(HeapStats* stats) {
   *stats->global_handle_count = 0;
   *stats->weak_global_handle_count = 0;
   *stats->pending_global_handle_count = 0;
   *stats->near_death_global_handle_count = 0;
   *stats->free_global_handle_count = 0;
   for (NodeIterator it(this); !it.done(); it.Advance()) {
     *stats->global_handle_count += 1;
     if (it.node()->state() == Node::WEAK) {
       *stats->weak_global_handle_count += 1;
     } else if (it.node()->state() == Node::PENDING) {
       *stats->pending_global_handle_count += 1;
     } else if (it.node()->state() == Node::NEAR_DEATH) {
       *stats->near_death_global_handle_count += 1;
     } else if (it.node()->state() == Node::FREE) {
       *stats->free_global_handle_count += 1;
     }
   }
 }

 #ifdef DEBUG

 void GlobalHandles::PrintStats() {
   int total = 0;
   int weak = 0;
   int pending = 0;
   int near_death = 0;
   int destroyed = 0;

   for (NodeIterator it(this); !it.done(); it.Advance()) {
     total++;
     if (it.node()->state() == Node::WEAK) weak++;
     if (it.node()->state() == Node::PENDING) pending++;
     if (it.node()->state() == Node::NEAR_DEATH) near_death++;
     if (it.node()->state() == Node::FREE) destroyed++;
   }

   PrintF("Global Handle Statistics:\n");
   PrintF("  allocated memory = %" V8_PTR_PREFIX "dB\n", sizeof(Node) * total);
   PrintF("  # weak       = %d\n", weak);
   PrintF("  # pending    = %d\n", pending);
   PrintF("  # near_death = %d\n", near_death);
   PrintF("  # free       = %d\n", destroyed);
   PrintF("  # total      = %d\n", total);
 }

 void GlobalHandles::Print() {
   PrintF("Global handles:\n");
   for (NodeIterator it(this); !it.done(); it.Advance()) {
     PrintF("  handle %p to %p%s\n",
            reinterpret_cast<void*>(it.node()->location()),
            reinterpret_cast<void*>(it.node()->object()),
            it.node()->IsWeak() ? " (weak)" : "");
   }
 }

 #endif


 void GlobalHandles::AddObjectGroup(Object*** handles,
                                    size_t length,
                                    v8::RetainedObjectInfo* info) {
 #ifdef DEBUG
   for (size_t i = 0; i < length; ++i) {
     ASSERT(!Node::FromLocation(handles[i])->is_independent());
   }
 #endif
   if (length == 0) {
     if (info != NULL) info->Dispose();
     return;
   }
   object_groups_.Add(ObjectGroup::New(handles, length, info));
 }


 void GlobalHandles::AddImplicitReferences(HeapObject** parent,
                                           Object*** children,
                                           size_t length) {
 #ifdef DEBUG
   ASSERT(!Node::FromLocation(BitCast<Object**>(parent))->is_independent());
   for (size_t i = 0; i < length; ++i) {
     ASSERT(!Node::FromLocation(children[i])->is_independent());
   }
 #endif
   if (length == 0) return;
   implicit_ref_groups_.Add(ImplicitRefGroup::New(parent, children, length));
 }


 void GlobalHandles::RemoveObjectGroups() {
   for (int i = 0; i < object_groups_.length(); i++) {
     object_groups_.at(i)->Dispose();
   }
   object_groups_.Clear();
 }


 void GlobalHandles::RemoveImplicitRefGroups() {
   for (int i = 0; i < implicit_ref_groups_.length(); i++) {
     implicit_ref_groups_.at(i)->Dispose();
   }
   implicit_ref_groups_.Clear();
 }


 void GlobalHandles::TearDown() {
   // TODO(1428): invoke weak callbacks.
 }


 } }  // namespace v8::internal
	// Copyright 2009 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.

	#include "v8.h"

	#include "api.h"
	#include "global-handles.h"

	#include "vm-state-inl.h"

	namespace v8 {
	namespace internal {


	ObjectGroup::~ObjectGroup() {
	if (info_ != NULL) info_->Dispose();
	}


	class GlobalHandles::Node {
	public:
	// State transition diagram:
	// FREE -> NORMAL <-> WEAK -> PENDING -> NEAR_DEATH -> { NORMAL, WEAK, FREE }
	enum State {
	FREE,
	NORMAL, // Normal global handle.
	WEAK, // Flagged as weak but not yet finalized.
	PENDING, // Has been recognized as only reachable by weak handles.
	NEAR_DEATH // Callback has informed the handle is near death.
	};

	// Maps handle location (slot) to the containing node.
	static Node* FromLocation(Object** location) {
	ASSERT(OFFSET_OF(Node, object_) == 0);
	return reinterpret_cast<Node*>(location);
	}

	Node() {}

	#ifdef DEBUG
	~Node() {
	// TODO(1428): if it's a weak handle we should have invoked its callback.
	// Zap the values for eager trapping.
	object_ = NULL;
	class_id_ = v8::HeapProfiler::kPersistentHandleNoClassId;
	index_ = 0;
	independent_ = false;
	in_new_space_list_ = false;
	parameter_or_next_free_.next_free = NULL;
	callback_ = NULL;
	}
	#endif

	void Initialize(int index, Node** first_free) {
	index_ = static_cast<uint8_t>(index);
	ASSERT(static_cast<int>(index_) == index);
	state_ = FREE;
	in_new_space_list_ = false;
	parameter_or_next_free_.next_free = *first_free;
	*first_free = this;
	}

	void Acquire(Object* object, GlobalHandles* global_handles) {
	ASSERT(state_ == FREE);
	object_ = object;
	class_id_ = v8::HeapProfiler::kPersistentHandleNoClassId;
	independent_ = false;
	state_ = NORMAL;
	parameter_or_next_free_.parameter = NULL;
	callback_ = NULL;
	IncreaseBlockUses(global_handles);
	}

	void Release(GlobalHandles* global_handles) {
	ASSERT(state_ != FREE);
	if (IsWeakRetainer()) {
	global_handles->number_of_weak_handles_--;
	if (object_->IsJSGlobalObject()) {
	global_handles->number_of_global_object_weak_handles_--;
	}
	}
	state_ = FREE;
	parameter_or_next_free_.next_free = global_handles->first_free_;
	global_handles->first_free_ = this;
	DecreaseBlockUses(global_handles);
	}

	// Object slot accessors.
	Object* object() const { return object_; }
	Object** location() { return &object_; }
	Handle<Object> handle() { return Handle<Object>(location()); }

	// Wrapper class ID accessors.
	bool has_wrapper_class_id() const {
	return class_id_ != v8::HeapProfiler::kPersistentHandleNoClassId;
	}
	uint16_t wrapper_class_id() const { return class_id_; }
	void set_wrapper_class_id(uint16_t class_id) {
	class_id_ = class_id;
	}

	// State accessors.

	State state() const { return state_; }

	bool IsNearDeath() const {
	// Check for PENDING to ensure correct answer when processing callbacks.
	return state_ == PENDING \|\| state_ == NEAR_DEATH;
	}

	bool IsWeak() const { return state_ == WEAK; }

	bool IsRetainer() const { return state_ != FREE; }

	bool IsStrongRetainer() const { return state_ == NORMAL; }

	bool IsWeakRetainer() const {
	return state_ == WEAK \|\| state_ == PENDING \|\| state_ == NEAR_DEATH;
	}

	void MarkPending() {
	ASSERT(state_ == WEAK);
	state_ = PENDING;
	}

	// Independent flag accessors.
	void MarkIndependent() {
	ASSERT(state_ != FREE);
	independent_ = true;
	}
	bool is_independent() const { return independent_; }

	// In-new-space-list flag accessors.
	void set_in_new_space_list(bool v) { in_new_space_list_ = v; }
	bool is_in_new_space_list() const { return in_new_space_list_; }

	// Callback accessor.
	WeakReferenceCallback callback() { return callback_; }

	// Callback parameter accessors.
	void set_parameter(void* parameter) {
	ASSERT(state_ != FREE);
	parameter_or_next_free_.parameter = parameter;
	}
	void* parameter() const {
	ASSERT(state_ != FREE);
	return parameter_or_next_free_.parameter;
	}

	// Accessors for next free node in the free list.
	Node* next_free() {
	ASSERT(state_ == FREE);
	return parameter_or_next_free_.next_free;
	}
	void set_next_free(Node* value) {
	ASSERT(state_ == FREE);
	parameter_or_next_free_.next_free = value;
	}

	void MakeWeak(GlobalHandles* global_handles,
	void* parameter,
	WeakReferenceCallback callback) {
	ASSERT(state_ != FREE);
	if (!IsWeakRetainer()) {
	global_handles->number_of_weak_handles_++;
	if (object_->IsJSGlobalObject()) {
	global_handles->number_of_global_object_weak_handles_++;
	}
	}
	state_ = WEAK;
	set_parameter(parameter);
	callback_ = callback;
	}

	void ClearWeakness(GlobalHandles* global_handles) {
	ASSERT(state_ != FREE);
	if (IsWeakRetainer()) {
	global_handles->number_of_weak_handles_--;
	if (object_->IsJSGlobalObject()) {
	global_handles->number_of_global_object_weak_handles_--;
	}
	}
	state_ = NORMAL;
	set_parameter(NULL);
	}

	bool PostGarbageCollectionProcessing(Isolate* isolate,
	GlobalHandles* global_handles) {
	if (state_ != Node::PENDING) return false;
	WeakReferenceCallback func = callback();
	if (func == NULL) {
	Release(global_handles);
	return false;
	}
	void* par = parameter();
	state_ = NEAR_DEATH;
	set_parameter(NULL);

	v8::Persistent<v8::Object> object = ToApi<v8::Object>(handle());
	{
	// Check that we are not passing a finalized external string to
	// the callback.
	ASSERT(!object_->IsExternalAsciiString() \|\|
	ExternalAsciiString::cast(object_)->resource() != NULL);
	ASSERT(!object_->IsExternalTwoByteString() \|\|
	ExternalTwoByteString::cast(object_)->resource() != NULL);
	// Leaving V8.
	VMState state(isolate, EXTERNAL);
	func(object, par);
	}
	// Absence of explicit cleanup or revival of weak handle
	// in most of the cases would lead to memory leak.
	ASSERT(state_ != NEAR_DEATH);
	return true;
	}

	private:
	inline NodeBlock* FindBlock();
	inline void IncreaseBlockUses(GlobalHandles* global_handles);
	inline void DecreaseBlockUses(GlobalHandles* global_handles);

	// Storage for object pointer.
	// Placed first to avoid offset computation.
	Object* object_;

	// Next word stores class_id, index, state, and independent.
	// Note: the most aligned fields should go first.

	// Wrapper class ID.
	uint16_t class_id_;

	// Index in the containing handle block.
	uint8_t index_;

	// Need one more bit for MSVC as it treats enums as signed.
	State state_ : 4;

	bool independent_ : 1;
	bool in_new_space_list_ : 1;

	// Handle specific callback.
	WeakReferenceCallback callback_;

	// Provided data for callback. In FREE state, this is used for
	// the free list link.
	union {
	void* parameter;
	Node* next_free;
	} parameter_or_next_free_;

	DISALLOW_COPY_AND_ASSIGN(Node);
	};


	class GlobalHandles::NodeBlock {
	public:
	static const int kSize = 256;

	explicit NodeBlock(NodeBlock* next)
	: next_(next), used_nodes_(0), next_used_(NULL), prev_used_(NULL) {}

	void PutNodesOnFreeList(Node** first_free) {
	for (int i = kSize - 1; i >= 0; --i) {
	nodes_[i].Initialize(i, first_free);
	}
	}

	Node* node_at(int index) {
	ASSERT(0 <= index && index < kSize);
	return &nodes_[index];
	}

	void IncreaseUses(GlobalHandles* global_handles) {
	ASSERT(used_nodes_ < kSize);
	if (used_nodes_++ == 0) {
	NodeBlock* old_first = global_handles->first_used_block_;
	global_handles->first_used_block_ = this;
	next_used_ = old_first;
	prev_used_ = NULL;
	if (old_first == NULL) return;
	old_first->prev_used_ = this;
	}
	}

	void DecreaseUses(GlobalHandles* global_handles) {
	ASSERT(used_nodes_ > 0);
	if (--used_nodes_ == 0) {
	if (next_used_ != NULL) next_used_->prev_used_ = prev_used_;
	if (prev_used_ != NULL) prev_used_->next_used_ = next_used_;
	if (this == global_handles->first_used_block_) {
	global_handles->first_used_block_ = next_used_;
	}
	}
	}

	// Next block in the list of all blocks.
	NodeBlock* next() const { return next_; }

	// Next/previous block in the list of blocks with used nodes.
	NodeBlock* next_used() const { return next_used_; }
	NodeBlock* prev_used() const { return prev_used_; }

	private:
	Node nodes_[kSize];
	NodeBlock* const next_;
	int used_nodes_;
	NodeBlock* next_used_;
	NodeBlock* prev_used_;
	};


	GlobalHandles::NodeBlock* GlobalHandles::Node::FindBlock() {
	intptr_t ptr = reinterpret_cast<intptr_t>(this);
	ptr = ptr - index_ * sizeof(Node);
	NodeBlock* block = reinterpret_cast<NodeBlock*>(ptr);
	ASSERT(block->node_at(index_) == this);
	return block;
	}


	void GlobalHandles::Node::IncreaseBlockUses(GlobalHandles* global_handles) {
	FindBlock()->IncreaseUses(global_handles);
	}


	void GlobalHandles::Node::DecreaseBlockUses(GlobalHandles* global_handles) {
	FindBlock()->DecreaseUses(global_handles);
	}


	class GlobalHandles::NodeIterator {
	public:
	explicit NodeIterator(GlobalHandles* global_handles)
	: block_(global_handles->first_used_block_),
	index_(0) {}

	bool done() const { return block_ == NULL; }

	Node* node() const {
	ASSERT(!done());
	return block_->node_at(index_);
	}

	void Advance() {
	ASSERT(!done());
	if (++index_ < NodeBlock::kSize) return;
	index_ = 0;
	block_ = block_->next_used();
	}

	private:
	NodeBlock* block_;
	int index_;

	DISALLOW_COPY_AND_ASSIGN(NodeIterator);
	};


	GlobalHandles::GlobalHandles(Isolate* isolate)
	: isolate_(isolate),
	number_of_weak_handles_(0),
	number_of_global_object_weak_handles_(0),
	number_of_global_handles_(0),
	first_block_(NULL),
	first_used_block_(NULL),
	first_free_(NULL),
	post_gc_processing_count_(0) {}


	GlobalHandles::~GlobalHandles() {
	NodeBlock* block = first_block_;
	while (block != NULL) {
	NodeBlock* tmp = block->next();
	delete block;
	block = tmp;
	}
	first_block_ = NULL;
	}


	Handle<Object> GlobalHandles::Create(Object* value) {
	isolate_->counters()->global_handles()->Increment();
	number_of_global_handles_++;
	if (first_free_ == NULL) {
	first_block_ = new NodeBlock(first_block_);
	first_block_->PutNodesOnFreeList(&first_free_);
	}
	ASSERT(first_free_ != NULL);
	// Take the first node in the free list.
	Node* result = first_free_;
	first_free_ = result->next_free();
	result->Acquire(value, this);
	if (isolate_->heap()->InNewSpace(value) &&
	!result->is_in_new_space_list()) {
	new_space_nodes_.Add(result);
	result->set_in_new_space_list(true);
	}
	return result->handle();
	}


	void GlobalHandles::Destroy(Object** location) {
	isolate_->counters()->global_handles()->Decrement();
	number_of_global_handles_--;
	if (location == NULL) return;
	Node::FromLocation(location)->Release(this);
	}


	void GlobalHandles::MakeWeak(Object** location, void* parameter,
	WeakReferenceCallback callback) {
	ASSERT(callback != NULL);
	Node::FromLocation(location)->MakeWeak(this, parameter, callback);
	}


	void GlobalHandles::ClearWeakness(Object** location) {
	Node::FromLocation(location)->ClearWeakness(this);
	}


	void GlobalHandles::MarkIndependent(Object** location) {
	Node::FromLocation(location)->MarkIndependent();
	}


	bool GlobalHandles::IsNearDeath(Object** location) {
	return Node::FromLocation(location)->IsNearDeath();
	}


	bool GlobalHandles::IsWeak(Object** location) {
	return Node::FromLocation(location)->IsWeak();
	}


	void GlobalHandles::SetWrapperClassId(Object** location, uint16_t class_id) {
	Node::FromLocation(location)->set_wrapper_class_id(class_id);
	}


	void GlobalHandles::IterateWeakRoots(ObjectVisitor* v) {
	for (NodeIterator it(this); !it.done(); it.Advance()) {
	if (it.node()->IsWeakRetainer()) v->VisitPointer(it.node()->location());
	}
	}


	void GlobalHandles::IterateWeakRoots(WeakReferenceGuest f,
	WeakReferenceCallback callback) {
	for (NodeIterator it(this); !it.done(); it.Advance()) {
	if (it.node()->IsWeak() && it.node()->callback() == callback) {
	f(it.node()->object(), it.node()->parameter());
	}
	}
	}


	void GlobalHandles::IdentifyWeakHandles(WeakSlotCallback f) {
	for (NodeIterator it(this); !it.done(); it.Advance()) {
	if (it.node()->IsWeak() && f(it.node()->location())) {
	it.node()->MarkPending();
	}
	}
	}


	void GlobalHandles::IterateNewSpaceStrongAndDependentRoots(ObjectVisitor* v) {
	for (int i = 0; i < new_space_nodes_.length(); ++i) {
	Node* node = new_space_nodes_[i];
	if (node->IsStrongRetainer() \|\|
	(node->IsWeakRetainer() && !node->is_independent())) {
	v->VisitPointer(node->location());
	}
	}
	}


	void GlobalHandles::IdentifyNewSpaceWeakIndependentHandles(
	WeakSlotCallbackWithHeap f) {
	for (int i = 0; i < new_space_nodes_.length(); ++i) {
	Node* node = new_space_nodes_[i];
	ASSERT(node->is_in_new_space_list());
	if (node->is_independent() && node->IsWeak() &&
	f(isolate_->heap(), node->location())) {
	node->MarkPending();
	}
	}
	}


	void GlobalHandles::IterateNewSpaceWeakIndependentRoots(ObjectVisitor* v) {
	for (int i = 0; i < new_space_nodes_.length(); ++i) {
	Node* node = new_space_nodes_[i];
	ASSERT(node->is_in_new_space_list());
	if (node->is_independent() && node->IsWeakRetainer()) {
	v->VisitPointer(node->location());
	}
	}
	}


	bool GlobalHandles::PostGarbageCollectionProcessing(
	GarbageCollector collector) {
	// Process weak global handle callbacks. This must be done after the
	// GC is completely done, because the callbacks may invoke arbitrary
	// API functions.
	ASSERT(isolate_->heap()->gc_state() == Heap::NOT_IN_GC);
	const int initial_post_gc_processing_count = ++post_gc_processing_count_;
	bool next_gc_likely_to_collect_more = false;
	if (collector == SCAVENGER) {
	for (int i = 0; i < new_space_nodes_.length(); ++i) {
	Node* node = new_space_nodes_[i];
	ASSERT(node->is_in_new_space_list());
	// Skip dependent handles. Their weak callbacks might expect to be
	// called between two global garbage collection callbacks which
	// are not called for minor collections.
	if (!node->is_independent()) continue;
	if (node->PostGarbageCollectionProcessing(isolate_, this)) {
	if (initial_post_gc_processing_count != post_gc_processing_count_) {
	// Weak callback triggered another GC and another round of
	// PostGarbageCollection processing. The current node might
	// have been deleted in that round, so we need to bail out (or
	// restart the processing).
	return next_gc_likely_to_collect_more;
	}
	}
	if (!node->IsRetainer()) {
	next_gc_likely_to_collect_more = true;
	}
	}
	} else {
	for (NodeIterator it(this); !it.done(); it.Advance()) {
	if (it.node()->PostGarbageCollectionProcessing(isolate_, this)) {
	if (initial_post_gc_processing_count != post_gc_processing_count_) {
	// See the comment above.
	return next_gc_likely_to_collect_more;
	}
	}
	if (!it.node()->IsRetainer()) {
	next_gc_likely_to_collect_more = true;
	}
	}
	}
	// Update the list of new space nodes.
	int last = 0;
	for (int i = 0; i < new_space_nodes_.length(); ++i) {
	Node* node = new_space_nodes_[i];
	ASSERT(node->is_in_new_space_list());
	if (node->IsRetainer() && isolate_->heap()->InNewSpace(node->object())) {
	new_space_nodes_[last++] = node;
	} else {
	node->set_in_new_space_list(false);
	}
	}
	new_space_nodes_.Rewind(last);
	return next_gc_likely_to_collect_more;
	}


	void GlobalHandles::IterateStrongRoots(ObjectVisitor* v) {
	for (NodeIterator it(this); !it.done(); it.Advance()) {
	if (it.node()->IsStrongRetainer()) {
	v->VisitPointer(it.node()->location());
	}
	}
	}


	void GlobalHandles::IterateAllRoots(ObjectVisitor* v) {
	for (NodeIterator it(this); !it.done(); it.Advance()) {
	if (it.node()->IsRetainer()) {
	v->VisitPointer(it.node()->location());
	}
	}
	}


	void GlobalHandles::IterateAllRootsWithClassIds(ObjectVisitor* v) {
	for (NodeIterator it(this); !it.done(); it.Advance()) {
	if (it.node()->has_wrapper_class_id() && it.node()->IsRetainer()) {
	v->VisitEmbedderReference(it.node()->location(),
	it.node()->wrapper_class_id());
	}
	}
	}


	void GlobalHandles::RecordStats(HeapStats* stats) {
	*stats->global_handle_count = 0;
	*stats->weak_global_handle_count = 0;
	*stats->pending_global_handle_count = 0;
	*stats->near_death_global_handle_count = 0;
	*stats->free_global_handle_count = 0;
	for (NodeIterator it(this); !it.done(); it.Advance()) {
	*stats->global_handle_count += 1;
	if (it.node()->state() == Node::WEAK) {
	*stats->weak_global_handle_count += 1;
	} else if (it.node()->state() == Node::PENDING) {
	*stats->pending_global_handle_count += 1;
	} else if (it.node()->state() == Node::NEAR_DEATH) {
	*stats->near_death_global_handle_count += 1;
	} else if (it.node()->state() == Node::FREE) {
	*stats->free_global_handle_count += 1;
	}
	}
	}

	#ifdef DEBUG

	void GlobalHandles::PrintStats() {
	int total = 0;
	int weak = 0;
	int pending = 0;
	int near_death = 0;
	int destroyed = 0;

	for (NodeIterator it(this); !it.done(); it.Advance()) {
	total++;
	if (it.node()->state() == Node::WEAK) weak++;
	if (it.node()->state() == Node::PENDING) pending++;
	if (it.node()->state() == Node::NEAR_DEATH) near_death++;
	if (it.node()->state() == Node::FREE) destroyed++;
	}

	PrintF("Global Handle Statistics:\n");
	PrintF(" allocated memory = %" V8_PTR_PREFIX "dB\n", sizeof(Node) * total);
	PrintF(" # weak = %d\n", weak);
	PrintF(" # pending = %d\n", pending);
	PrintF(" # near_death = %d\n", near_death);
	PrintF(" # free = %d\n", destroyed);
	PrintF(" # total = %d\n", total);
	}

	void GlobalHandles::Print() {
	PrintF("Global handles:\n");
	for (NodeIterator it(this); !it.done(); it.Advance()) {
	PrintF(" handle %p to %p%s\n",
	reinterpret_cast<void*>(it.node()->location()),
	reinterpret_cast<void*>(it.node()->object()),
	it.node()->IsWeak() ? " (weak)" : "");
	}
	}

	#endif



	void GlobalHandles::AddObjectGroup(Object*** handles,
	size_t length,
	v8::RetainedObjectInfo* info) {
	#ifdef DEBUG
	for (size_t i = 0; i < length; ++i) {
	ASSERT(!Node::FromLocation(handles[i])->is_independent());
	}
	#endif
	if (length == 0) {
	if (info != NULL) info->Dispose();
	return;
	}
	object_groups_.Add(ObjectGroup::New(handles, length, info));
	}


	void GlobalHandles::AddImplicitReferences(HeapObject** parent,
	Object*** children,
	size_t length) {
	#ifdef DEBUG
	ASSERT(!Node::FromLocation(BitCast<Object**>(parent))->is_independent());
	for (size_t i = 0; i < length; ++i) {
	ASSERT(!Node::FromLocation(children[i])->is_independent());
	}
	#endif
	if (length == 0) return;
	implicit_ref_groups_.Add(ImplicitRefGroup::New(parent, children, length));
	}


	void GlobalHandles::RemoveObjectGroups() {
	for (int i = 0; i < object_groups_.length(); i++) {
	object_groups_.at(i)->Dispose();
	}
	object_groups_.Clear();
	}


	void GlobalHandles::RemoveImplicitRefGroups() {
	for (int i = 0; i < implicit_ref_groups_.length(); i++) {
	implicit_ref_groups_.at(i)->Dispose();
	}
	implicit_ref_groups_.Clear();
	}


	void GlobalHandles::TearDown() {
	// TODO(1428): invoke weak callbacks.
	}


	} } // namespace v8::internal