runtime/gc/accounting/space_bitmap.cc - LeafOS-Project/android_art - Gitiles

 /*
  * Copyright (C) 2008 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "base/logging.h"
 #include "dex_file-inl.h"
 #include "heap_bitmap.h"
 #include "mirror/art_field-inl.h"
 #include "mirror/class-inl.h"
 #include "mirror/object-inl.h"
 #include "mirror/object_array-inl.h"
 #include "object_utils.h"
 #include "space_bitmap-inl.h"
 #include "UniquePtr.h"
 #include "utils.h"

 namespace art {
 namespace gc {
 namespace accounting {

 std::string SpaceBitmap::GetName() const {
   return name_;
 }

 void SpaceBitmap::SetName(const std::string& name) {
   name_ = name;
 }

 std::string SpaceBitmap::Dump() const {
   return StringPrintf("%s: %p-%p", name_.c_str(),
                       reinterpret_cast<void*>(HeapBegin()),
                       reinterpret_cast<void*>(HeapLimit()));
 }

 void SpaceSetMap::Walk(SpaceBitmap::Callback* callback, void* arg) {
   for (const mirror::Object* obj : contained_) {
     callback(const_cast<mirror::Object*>(obj), arg);
   }
 }

 SpaceBitmap* SpaceBitmap::CreateFromMemMap(const std::string& name, MemMap* mem_map,
                                            byte* heap_begin, size_t heap_capacity) {
   CHECK(mem_map != nullptr);
   word* bitmap_begin = reinterpret_cast<word*>(mem_map->Begin());
   size_t bitmap_size = OffsetToIndex(RoundUp(heap_capacity, kAlignment * kBitsPerWord)) * kWordSize;
   return new SpaceBitmap(name, mem_map, bitmap_begin, bitmap_size, heap_begin);
 }

 SpaceBitmap* SpaceBitmap::Create(const std::string& name, byte* heap_begin, size_t heap_capacity) {
   CHECK(heap_begin != NULL);
   // Round up since heap_capacity is not necessarily a multiple of kAlignment * kBitsPerWord.
   size_t bitmap_size = OffsetToIndex(RoundUp(heap_capacity, kAlignment * kBitsPerWord)) * kWordSize;
   UniquePtr<MemMap> mem_map(MemMap::MapAnonymous(name.c_str(), NULL, bitmap_size, PROT_READ | PROT_WRITE));
   if (mem_map.get() == NULL) {
     LOG(ERROR) << "Failed to allocate bitmap " << name;
     return NULL;
   }
   return CreateFromMemMap(name, mem_map.release(), heap_begin, heap_capacity);
 }

 // Clean up any resources associated with the bitmap.
 SpaceBitmap::~SpaceBitmap() {}

 void SpaceBitmap::SetHeapLimit(uintptr_t new_end) {
   DCHECK(IsAligned<kBitsPerWord * kAlignment>(new_end));
   size_t new_size = OffsetToIndex(new_end - heap_begin_) * kWordSize;
   if (new_size < bitmap_size_) {
     bitmap_size_ = new_size;
   }
   // Not sure if doing this trim is necessary, since nothing past the end of the heap capacity
   // should be marked.
 }

 void SpaceBitmap::Clear() {
   if (bitmap_begin_ != NULL) {
     // This returns the memory to the system.  Successive page faults will return zeroed memory.
     int result = madvise(bitmap_begin_, bitmap_size_, MADV_DONTNEED);
     if (result == -1) {
       PLOG(FATAL) << "madvise failed";
     }
   }
 }

 void SpaceBitmap::CopyFrom(SpaceBitmap* source_bitmap) {
   DCHECK_EQ(Size(), source_bitmap->Size());
   std::copy(source_bitmap->Begin(), source_bitmap->Begin() + source_bitmap->Size() / kWordSize, Begin());
 }

 // Visits set bits in address order.  The callback is not permitted to
 // change the bitmap bits or max during the traversal.
 void SpaceBitmap::Walk(SpaceBitmap::Callback* callback, void* arg) {
   CHECK(bitmap_begin_ != NULL);
   CHECK(callback != NULL);

   uintptr_t end = OffsetToIndex(HeapLimit() - heap_begin_ - 1);
   word* bitmap_begin = bitmap_begin_;
   for (uintptr_t i = 0; i <= end; ++i) {
     word w = bitmap_begin[i];
     if (w != 0) {
       uintptr_t ptr_base = IndexToOffset(i) + heap_begin_;
       do {
         const size_t shift = CLZ(w);
         mirror::Object* obj = reinterpret_cast<mirror::Object*>(ptr_base + shift * kAlignment);
         (*callback)(obj, arg);
         w ^= static_cast<size_t>(kWordHighBitMask) >> shift;
       } while (w != 0);
     }
   }
 }

 // Walk through the bitmaps in increasing address order, and find the
 // object pointers that correspond to garbage objects.  Call
 // <callback> zero or more times with lists of these object pointers.
 //
 // The callback is not permitted to increase the max of either bitmap.
 void SpaceBitmap::SweepWalk(const SpaceBitmap& live_bitmap,
                            const SpaceBitmap& mark_bitmap,
                            uintptr_t sweep_begin, uintptr_t sweep_end,
                            SpaceBitmap::SweepCallback* callback, void* arg) {
   CHECK(live_bitmap.bitmap_begin_ != NULL);
   CHECK(mark_bitmap.bitmap_begin_ != NULL);
   CHECK_EQ(live_bitmap.heap_begin_, mark_bitmap.heap_begin_);
   CHECK_EQ(live_bitmap.bitmap_size_, mark_bitmap.bitmap_size_);
   CHECK(callback != NULL);
   CHECK_LE(sweep_begin, sweep_end);
   CHECK_GE(sweep_begin, live_bitmap.heap_begin_);

   if (sweep_end <= sweep_begin) {
     return;
   }

   // TODO: rewrite the callbacks to accept a std::vector<mirror::Object*> rather than a mirror::Object**?
   const size_t buffer_size = kWordSize * kBitsPerWord;
   mirror::Object* pointer_buf[buffer_size];
   mirror::Object** pb = &pointer_buf[0];
   size_t start = OffsetToIndex(sweep_begin - live_bitmap.heap_begin_);
   size_t end = OffsetToIndex(sweep_end - live_bitmap.heap_begin_ - 1);
   CHECK_LT(end, live_bitmap.Size() / kWordSize);
   word* live = live_bitmap.bitmap_begin_;
   word* mark = mark_bitmap.bitmap_begin_;
   for (size_t i = start; i <= end; i++) {
     word garbage = live[i] & ~mark[i];
     if (UNLIKELY(garbage != 0)) {
       uintptr_t ptr_base = IndexToOffset(i) + live_bitmap.heap_begin_;
       do {
         const size_t shift = CLZ(garbage);
         garbage ^= static_cast<size_t>(kWordHighBitMask) >> shift;
         *pb++ = reinterpret_cast<mirror::Object*>(ptr_base + shift * kAlignment);
       } while (garbage != 0);
       // Make sure that there are always enough slots available for an
       // entire word of one bits.
       if (pb >= &pointer_buf[buffer_size - kBitsPerWord]) {
         (*callback)(pb - &pointer_buf[0], &pointer_buf[0], arg);
         pb = &pointer_buf[0];
       }
     }
   }
   if (pb > &pointer_buf[0]) {
     (*callback)(pb - &pointer_buf[0], &pointer_buf[0], arg);
   }
 }

 static void WalkFieldsInOrder(SpaceBitmap* visited, SpaceBitmap::Callback* callback, mirror::Object* obj,
                               void* arg);

 // Walk instance fields of the given Class. Separate function to allow recursion on the super
 // class.
 static void WalkInstanceFields(SpaceBitmap* visited, SpaceBitmap::Callback* callback, mirror::Object* obj,
                                mirror::Class* klass, void* arg)
     SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
   // Visit fields of parent classes first.
   mirror::Class* super = klass->GetSuperClass();
   if (super != NULL) {
     WalkInstanceFields(visited, callback, obj, super, arg);
   }
   // Walk instance fields
   mirror::ObjectArray<mirror::ArtField>* fields = klass->GetIFields();
   if (fields != NULL) {
     for (int32_t i = 0; i < fields->GetLength(); i++) {
       mirror::ArtField* field = fields->Get(i);
       FieldHelper fh(field);
       if (!fh.IsPrimitiveType()) {
         mirror::Object* value = field->GetObj(obj);
         if (value != NULL) {
           WalkFieldsInOrder(visited, callback, value,  arg);
         }
       }
     }
   }
 }

 // For an unvisited object, visit it then all its children found via fields.
 static void WalkFieldsInOrder(SpaceBitmap* visited, SpaceBitmap::Callback* callback, mirror::Object* obj,
                               void* arg)
     SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
   if (visited->Test(obj)) {
     return;
   }
   // visit the object itself
   (*callback)(obj, arg);
   visited->Set(obj);
   // Walk instance fields of all objects
   mirror::Class* klass = obj->GetClass();
   WalkInstanceFields(visited, callback, obj, klass, arg);
   // Walk static fields of a Class
   if (obj->IsClass()) {
     mirror::ObjectArray<mirror::ArtField>* fields = klass->GetSFields();
     if (fields != NULL) {
       for (int32_t i = 0; i < fields->GetLength(); i++) {
         mirror::ArtField* field = fields->Get(i);
         FieldHelper fh(field);
         if (!fh.IsPrimitiveType()) {
           mirror::Object* value = field->GetObj(NULL);
           if (value != NULL) {
             WalkFieldsInOrder(visited, callback, value, arg);
           }
         }
       }
     }
   } else if (obj->IsObjectArray()) {
     // Walk elements of an object array
     mirror::ObjectArray<mirror::Object>* obj_array = obj->AsObjectArray<mirror::Object>();
     int32_t length = obj_array->GetLength();
     for (int32_t i = 0; i < length; i++) {
       mirror::Object* value = obj_array->Get(i);
       if (value != NULL) {
         WalkFieldsInOrder(visited, callback, value, arg);
       }
     }
   }
 }

 // Visits set bits with an in order traversal.  The callback is not permitted to change the bitmap
 // bits or max during the traversal.
 void SpaceBitmap::InOrderWalk(SpaceBitmap::Callback* callback, void* arg) {
   UniquePtr<SpaceBitmap> visited(Create("bitmap for in-order walk",
                                        reinterpret_cast<byte*>(heap_begin_),
                                        IndexToOffset(bitmap_size_ / kWordSize)));
   CHECK(bitmap_begin_ != NULL);
   CHECK(callback != NULL);
   uintptr_t end = Size() / kWordSize;
   for (uintptr_t i = 0; i < end; ++i) {
     word w = bitmap_begin_[i];
     if (UNLIKELY(w != 0)) {
       uintptr_t ptr_base = IndexToOffset(i) + heap_begin_;
       while (w != 0) {
         const size_t shift = CLZ(w);
         mirror::Object* obj = reinterpret_cast<mirror::Object*>(ptr_base + shift * kAlignment);
         WalkFieldsInOrder(visited.get(), callback, obj, arg);
         w ^= static_cast<size_t>(kWordHighBitMask) >> shift;
       }
     }
   }
 }

 std::string SpaceSetMap::GetName() const {
   return name_;
 }

 void SpaceSetMap::SetName(const std::string& name) {
   name_ = name;
 }

 void SpaceSetMap::CopyFrom(const SpaceSetMap& space_set) {
   contained_ = space_set.contained_;
 }

 std::ostream& operator << (std::ostream& stream, const SpaceBitmap& bitmap) {
   return stream
     << bitmap.GetName() << "["
     << "begin=" << reinterpret_cast<const void*>(bitmap.HeapBegin())
     << ",end=" << reinterpret_cast<const void*>(bitmap.HeapLimit())
     << "]";
 }

 }  // namespace accounting
 }  // namespace gc
 }  // namespace art
	/*
	* Copyright (C) 2008 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "base/logging.h"
	#include "dex_file-inl.h"
	#include "heap_bitmap.h"
	#include "mirror/art_field-inl.h"
	#include "mirror/class-inl.h"
	#include "mirror/object-inl.h"
	#include "mirror/object_array-inl.h"
	#include "object_utils.h"
	#include "space_bitmap-inl.h"
	#include "UniquePtr.h"
	#include "utils.h"

	namespace art {
	namespace gc {
	namespace accounting {

	std::string SpaceBitmap::GetName() const {
	return name_;
	}

	void SpaceBitmap::SetName(const std::string& name) {
	name_ = name;
	}

	std::string SpaceBitmap::Dump() const {
	return StringPrintf("%s: %p-%p", name_.c_str(),
	reinterpret_cast<void*>(HeapBegin()),
	reinterpret_cast<void*>(HeapLimit()));
	}

	void SpaceSetMap::Walk(SpaceBitmap::Callback* callback, void* arg) {
	for (const mirror::Object* obj : contained_) {
	callback(const_cast<mirror::Object*>(obj), arg);
	}
	}

	SpaceBitmap* SpaceBitmap::CreateFromMemMap(const std::string& name, MemMap* mem_map,
	byte* heap_begin, size_t heap_capacity) {
	CHECK(mem_map != nullptr);
	word* bitmap_begin = reinterpret_cast<word*>(mem_map->Begin());
	size_t bitmap_size = OffsetToIndex(RoundUp(heap_capacity, kAlignment * kBitsPerWord)) * kWordSize;
	return new SpaceBitmap(name, mem_map, bitmap_begin, bitmap_size, heap_begin);
	}

	SpaceBitmap* SpaceBitmap::Create(const std::string& name, byte* heap_begin, size_t heap_capacity) {
	CHECK(heap_begin != NULL);
	// Round up since heap_capacity is not necessarily a multiple of kAlignment * kBitsPerWord.
	size_t bitmap_size = OffsetToIndex(RoundUp(heap_capacity, kAlignment * kBitsPerWord)) * kWordSize;
	UniquePtr<MemMap> mem_map(MemMap::MapAnonymous(name.c_str(), NULL, bitmap_size, PROT_READ \| PROT_WRITE));
	if (mem_map.get() == NULL) {
	LOG(ERROR) << "Failed to allocate bitmap " << name;
	return NULL;
	}
	return CreateFromMemMap(name, mem_map.release(), heap_begin, heap_capacity);
	}

	// Clean up any resources associated with the bitmap.
	SpaceBitmap::~SpaceBitmap() {}

	void SpaceBitmap::SetHeapLimit(uintptr_t new_end) {
	DCHECK(IsAligned<kBitsPerWord * kAlignment>(new_end));
	size_t new_size = OffsetToIndex(new_end - heap_begin_) * kWordSize;
	if (new_size < bitmap_size_) {
	bitmap_size_ = new_size;
	}
	// Not sure if doing this trim is necessary, since nothing past the end of the heap capacity
	// should be marked.
	}

	void SpaceBitmap::Clear() {
	if (bitmap_begin_ != NULL) {
	// This returns the memory to the system. Successive page faults will return zeroed memory.
	int result = madvise(bitmap_begin_, bitmap_size_, MADV_DONTNEED);
	if (result == -1) {
	PLOG(FATAL) << "madvise failed";
	}
	}
	}

	void SpaceBitmap::CopyFrom(SpaceBitmap* source_bitmap) {
	DCHECK_EQ(Size(), source_bitmap->Size());
	std::copy(source_bitmap->Begin(), source_bitmap->Begin() + source_bitmap->Size() / kWordSize, Begin());
	}

	// Visits set bits in address order. The callback is not permitted to
	// change the bitmap bits or max during the traversal.
	void SpaceBitmap::Walk(SpaceBitmap::Callback* callback, void* arg) {
	CHECK(bitmap_begin_ != NULL);
	CHECK(callback != NULL);

	uintptr_t end = OffsetToIndex(HeapLimit() - heap_begin_ - 1);
	word* bitmap_begin = bitmap_begin_;
	for (uintptr_t i = 0; i <= end; ++i) {
	word w = bitmap_begin[i];
	if (w != 0) {
	uintptr_t ptr_base = IndexToOffset(i) + heap_begin_;
	do {
	const size_t shift = CLZ(w);
	mirror::Object* obj = reinterpret_cast<mirror::Object>(ptr_base + shift kAlignment);
	(*callback)(obj, arg);
	w ^= static_cast<size_t>(kWordHighBitMask) >> shift;
	} while (w != 0);
	}
	}
	}

	// Walk through the bitmaps in increasing address order, and find the
	// object pointers that correspond to garbage objects. Call
	// <callback> zero or more times with lists of these object pointers.
	//
	// The callback is not permitted to increase the max of either bitmap.
	void SpaceBitmap::SweepWalk(const SpaceBitmap& live_bitmap,
	const SpaceBitmap& mark_bitmap,
	uintptr_t sweep_begin, uintptr_t sweep_end,
	SpaceBitmap::SweepCallback* callback, void* arg) {
	CHECK(live_bitmap.bitmap_begin_ != NULL);
	CHECK(mark_bitmap.bitmap_begin_ != NULL);
	CHECK_EQ(live_bitmap.heap_begin_, mark_bitmap.heap_begin_);
	CHECK_EQ(live_bitmap.bitmap_size_, mark_bitmap.bitmap_size_);
	CHECK(callback != NULL);
	CHECK_LE(sweep_begin, sweep_end);
	CHECK_GE(sweep_begin, live_bitmap.heap_begin_);

	if (sweep_end <= sweep_begin) {
	return;
	}

	// TODO: rewrite the callbacks to accept a std::vector<mirror::Object> rather than a mirror::Object*?
	const size_t buffer_size = kWordSize * kBitsPerWord;
	mirror::Object* pointer_buf[buffer_size];
	mirror::Object** pb = &pointer_buf[0];
	size_t start = OffsetToIndex(sweep_begin - live_bitmap.heap_begin_);
	size_t end = OffsetToIndex(sweep_end - live_bitmap.heap_begin_ - 1);
	CHECK_LT(end, live_bitmap.Size() / kWordSize);
	word* live = live_bitmap.bitmap_begin_;
	word* mark = mark_bitmap.bitmap_begin_;
	for (size_t i = start; i <= end; i++) {
	word garbage = live[i] & ~mark[i];
	if (UNLIKELY(garbage != 0)) {
	uintptr_t ptr_base = IndexToOffset(i) + live_bitmap.heap_begin_;
	do {
	const size_t shift = CLZ(garbage);
	garbage ^= static_cast<size_t>(kWordHighBitMask) >> shift;
	pb++ = reinterpret_cast<mirror::Object>(ptr_base + shift * kAlignment);
	} while (garbage != 0);
	// Make sure that there are always enough slots available for an
	// entire word of one bits.
	if (pb >= &pointer_buf[buffer_size - kBitsPerWord]) {
	(*callback)(pb - &pointer_buf[0], &pointer_buf[0], arg);
	pb = &pointer_buf[0];
	}
	}
	}
	if (pb > &pointer_buf[0]) {
	(*callback)(pb - &pointer_buf[0], &pointer_buf[0], arg);
	}
	}

	static void WalkFieldsInOrder(SpaceBitmap* visited, SpaceBitmap::Callback* callback, mirror::Object* obj,
	void* arg);

	// Walk instance fields of the given Class. Separate function to allow recursion on the super
	// class.
	static void WalkInstanceFields(SpaceBitmap* visited, SpaceBitmap::Callback* callback, mirror::Object* obj,
	mirror::Class* klass, void* arg)
	SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
	// Visit fields of parent classes first.
	mirror::Class* super = klass->GetSuperClass();
	if (super != NULL) {
	WalkInstanceFields(visited, callback, obj, super, arg);
	}
	// Walk instance fields
	mirror::ObjectArray<mirror::ArtField>* fields = klass->GetIFields();
	if (fields != NULL) {
	for (int32_t i = 0; i < fields->GetLength(); i++) {
	mirror::ArtField* field = fields->Get(i);
	FieldHelper fh(field);
	if (!fh.IsPrimitiveType()) {
	mirror::Object* value = field->GetObj(obj);
	if (value != NULL) {
	WalkFieldsInOrder(visited, callback, value, arg);
	}
	}
	}
	}
	}

	// For an unvisited object, visit it then all its children found via fields.
	static void WalkFieldsInOrder(SpaceBitmap* visited, SpaceBitmap::Callback* callback, mirror::Object* obj,
	void* arg)
	SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
	if (visited->Test(obj)) {
	return;
	}
	// visit the object itself
	(*callback)(obj, arg);
	visited->Set(obj);
	// Walk instance fields of all objects
	mirror::Class* klass = obj->GetClass();
	WalkInstanceFields(visited, callback, obj, klass, arg);
	// Walk static fields of a Class
	if (obj->IsClass()) {
	mirror::ObjectArray<mirror::ArtField>* fields = klass->GetSFields();
	if (fields != NULL) {
	for (int32_t i = 0; i < fields->GetLength(); i++) {
	mirror::ArtField* field = fields->Get(i);
	FieldHelper fh(field);
	if (!fh.IsPrimitiveType()) {
	mirror::Object* value = field->GetObj(NULL);
	if (value != NULL) {
	WalkFieldsInOrder(visited, callback, value, arg);
	}
	}
	}
	}
	} else if (obj->IsObjectArray()) {
	// Walk elements of an object array
	mirror::ObjectArray<mirror::Object>* obj_array = obj->AsObjectArray<mirror::Object>();
	int32_t length = obj_array->GetLength();
	for (int32_t i = 0; i < length; i++) {
	mirror::Object* value = obj_array->Get(i);
	if (value != NULL) {
	WalkFieldsInOrder(visited, callback, value, arg);
	}
	}
	}
	}

	// Visits set bits with an in order traversal. The callback is not permitted to change the bitmap
	// bits or max during the traversal.
	void SpaceBitmap::InOrderWalk(SpaceBitmap::Callback* callback, void* arg) {
	UniquePtr<SpaceBitmap> visited(Create("bitmap for in-order walk",
	reinterpret_cast<byte*>(heap_begin_),
	IndexToOffset(bitmap_size_ / kWordSize)));
	CHECK(bitmap_begin_ != NULL);
	CHECK(callback != NULL);
	uintptr_t end = Size() / kWordSize;
	for (uintptr_t i = 0; i < end; ++i) {
	word w = bitmap_begin_[i];
	if (UNLIKELY(w != 0)) {
	uintptr_t ptr_base = IndexToOffset(i) + heap_begin_;
	while (w != 0) {
	const size_t shift = CLZ(w);
	mirror::Object* obj = reinterpret_cast<mirror::Object>(ptr_base + shift kAlignment);
	WalkFieldsInOrder(visited.get(), callback, obj, arg);
	w ^= static_cast<size_t>(kWordHighBitMask) >> shift;
	}
	}
	}
	}

	std::string SpaceSetMap::GetName() const {
	return name_;
	}

	void SpaceSetMap::SetName(const std::string& name) {
	name_ = name;
	}

	void SpaceSetMap::CopyFrom(const SpaceSetMap& space_set) {
	contained_ = space_set.contained_;
	}

	std::ostream& operator << (std::ostream& stream, const SpaceBitmap& bitmap) {
	return stream
	<< bitmap.GetName() << "["
	<< "begin=" << reinterpret_cast<const void*>(bitmap.HeapBegin())
	<< ",end=" << reinterpret_cast<const void*>(bitmap.HeapLimit())
	<< "]";
	}

	} // namespace accounting
	} // namespace gc
	} // namespace art