/* * 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. */ #ifndef ART_RUNTIME_GC_ACCOUNTING_SPACE_BITMAP_H_ #define ART_RUNTIME_GC_ACCOUNTING_SPACE_BITMAP_H_ #include "base/mutex.h" #include "gc_allocator.h" #include "globals.h" #include "mem_map.h" #include "object_callbacks.h" #include "UniquePtr.h" #include #include #include #include namespace art { namespace mirror { class Object; } // namespace mirror namespace gc { namespace accounting { template class SpaceBitmap { public: typedef void ScanCallback(mirror::Object* obj, void* finger, void* arg); typedef void SweepCallback(size_t ptr_count, mirror::Object** ptrs, void* arg); // Initialize a space bitmap so that it points to a bitmap large enough to cover a heap at // heap_begin of heap_capacity bytes, where objects are guaranteed to be kAlignment-aligned. static SpaceBitmap* Create(const std::string& name, byte* heap_begin, size_t heap_capacity); // Initialize a space bitmap using the provided mem_map as the live bits. Takes ownership of the // mem map. The address range covered starts at heap_begin and is of size equal to heap_capacity. // Objects are kAlignement-aligned. static SpaceBitmap* CreateFromMemMap(const std::string& name, MemMap* mem_map, byte* heap_begin, size_t heap_capacity); ~SpaceBitmap() { } // is the difference from .base to a pointer address. // is the index of .bits that contains the bit representing // . static size_t OffsetToIndex(size_t offset) ALWAYS_INLINE { return offset / kAlignment / kBitsPerWord; } static uintptr_t IndexToOffset(size_t index) ALWAYS_INLINE { return static_cast(index * kAlignment * kBitsPerWord); } // Bits are packed in the obvious way. static uword OffsetToMask(uintptr_t offset) ALWAYS_INLINE { return (static_cast(1)) << ((offset / kAlignment) % kBitsPerWord); } bool Set(const mirror::Object* obj) ALWAYS_INLINE { return Modify(obj); } bool Clear(const mirror::Object* obj) ALWAYS_INLINE { return Modify(obj); } // Returns true if the object was previously marked. bool AtomicTestAndSet(const mirror::Object* obj); // Fill the bitmap with zeroes. Returns the bitmap's memory to the system as a side-effect. void Clear(); bool Test(const mirror::Object* obj) const; // Return true iff is within the range of pointers that this bitmap could potentially cover, // even if a bit has not been set for it. bool HasAddress(const void* obj) const { // If obj < heap_begin_ then offset underflows to some very large value past the end of the // bitmap. const uintptr_t offset = reinterpret_cast(obj) - heap_begin_; const size_t index = OffsetToIndex(offset); return index < bitmap_size_ / kWordSize; } void VisitRange(uintptr_t base, uintptr_t max, ObjectCallback* callback, void* arg) const; class ClearVisitor { public: explicit ClearVisitor(SpaceBitmap* const bitmap) : bitmap_(bitmap) { } void operator()(mirror::Object* obj) const { bitmap_->Clear(obj); } private: SpaceBitmap* const bitmap_; }; template void VisitRange(uintptr_t visit_begin, uintptr_t visit_end, const Visitor& visitor) const { for (; visit_begin < visit_end; visit_begin += kAlignment) { visitor(reinterpret_cast(visit_begin)); } } // Visit the live objects in the range [visit_begin, visit_end). // TODO: Use lock annotations when clang is fixed. // EXCLUSIVE_LOCKS_REQUIRED(Locks::heap_bitmap_lock_) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_); template void VisitMarkedRange(uintptr_t visit_begin, uintptr_t visit_end, const Visitor& visitor) const NO_THREAD_SAFETY_ANALYSIS; // Visits set bits in address order. The callback is not permitted to change the bitmap bits or // max during the traversal. void Walk(ObjectCallback* callback, void* arg) SHARED_LOCKS_REQUIRED(Locks::heap_bitmap_lock_); // Visits set bits with an in order traversal. The callback is not permitted to change the bitmap // bits or max during the traversal. void InOrderWalk(ObjectCallback* callback, void* arg) SHARED_LOCKS_REQUIRED(Locks::heap_bitmap_lock_, Locks::mutator_lock_); // Walk through the bitmaps in increasing address order, and find the object pointers that // correspond to garbage objects. Call zero or more times with lists of these object // pointers. The callback is not permitted to increase the max of either bitmap. static void SweepWalk(const SpaceBitmap& live, const SpaceBitmap& mark, uintptr_t base, uintptr_t max, SweepCallback* thunk, void* arg); void CopyFrom(SpaceBitmap* source_bitmap); // Starting address of our internal storage. uword* Begin() { return bitmap_begin_; } // Size of our internal storage size_t Size() const { return bitmap_size_; } // Size in bytes of the memory that the bitmaps spans. size_t HeapSize() const { return IndexToOffset(Size() / kWordSize); } uintptr_t HeapBegin() const { return heap_begin_; } // The maximum address which the bitmap can span. (HeapBegin() <= object < HeapLimit()). uintptr_t HeapLimit() const { return HeapBegin() + static_cast(HeapSize()); } // Set the max address which can covered by the bitmap. void SetHeapLimit(uintptr_t new_end); std::string GetName() const { return name_; } void SetName(const std::string& name) { name_ = name; } std::string Dump() const { return StringPrintf("%s: %p-%p", name_.c_str(), reinterpret_cast(HeapBegin()), reinterpret_cast(HeapLimit())); } const void* GetObjectWordAddress(const mirror::Object* obj) const { uintptr_t addr = reinterpret_cast(obj); const uintptr_t offset = addr - heap_begin_; const size_t index = OffsetToIndex(offset); return &bitmap_begin_[index]; } private: // TODO: heap_end_ is initialized so that the heap bitmap is empty, this doesn't require the -1, // however, we document that this is expected on heap_end_ SpaceBitmap(const std::string& name, MemMap* mem_map, uword* bitmap_begin, size_t bitmap_size, const void* heap_begin); // Helper function for computing bitmap size based on a 64 bit capacity. static size_t ComputeBitmapSize(uint64_t capacity); template bool Modify(const mirror::Object* obj); // For an unvisited object, visit it then all its children found via fields. static void WalkFieldsInOrder(SpaceBitmap* visited, ObjectCallback* callback, mirror::Object* obj, void* arg) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_); // Walk instance fields of the given Class. Separate function to allow recursion on the super // class. static void WalkInstanceFields(SpaceBitmap* visited, ObjectCallback* callback, mirror::Object* obj, mirror::Class* klass, void* arg) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_); // Backing storage for bitmap. UniquePtr mem_map_; // This bitmap itself, word sized for efficiency in scanning. uword* const bitmap_begin_; // Size of this bitmap. size_t bitmap_size_; // The base address of the heap, which corresponds to the word containing the first bit in the // bitmap. const uintptr_t heap_begin_; // Name of this bitmap. std::string name_; }; typedef SpaceBitmap ContinuousSpaceBitmap; typedef SpaceBitmap LargeObjectBitmap; template std::ostream& operator << (std::ostream& stream, const SpaceBitmap& bitmap); } // namespace accounting } // namespace gc } // namespace art #endif // ART_RUNTIME_GC_ACCOUNTING_SPACE_BITMAP_H_