/* * 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_INL_H_ #define ART_RUNTIME_GC_ACCOUNTING_SPACE_BITMAP_INL_H_ #include "space_bitmap.h" #include #include #include "base/atomic.h" #include "base/bit_utils.h" namespace art { namespace gc { namespace accounting { template inline bool SpaceBitmap::AtomicTestAndSet(const mirror::Object* obj) { uintptr_t addr = reinterpret_cast(obj); DCHECK_GE(addr, heap_begin_); const uintptr_t offset = addr - heap_begin_; const size_t index = OffsetToIndex(offset); const uintptr_t mask = OffsetToMask(offset); Atomic* atomic_entry = &bitmap_begin_[index]; DCHECK_LT(index, bitmap_size_ / sizeof(intptr_t)) << " bitmap_size_ = " << bitmap_size_; uintptr_t old_word; do { old_word = atomic_entry->load(std::memory_order_relaxed); // Fast path: The bit is already set. if ((old_word & mask) != 0) { DCHECK(Test(obj)); return true; } } while (!atomic_entry->CompareAndSetWeakRelaxed(old_word, old_word | mask)); DCHECK(Test(obj)); return false; } template inline bool SpaceBitmap::Test(const mirror::Object* obj) const { uintptr_t addr = reinterpret_cast(obj); DCHECK(HasAddress(obj)) << obj; DCHECK(bitmap_begin_ != nullptr); DCHECK_GE(addr, heap_begin_); const uintptr_t offset = addr - heap_begin_; size_t index = OffsetToIndex(offset); return (bitmap_begin_[index].load(std::memory_order_relaxed) & OffsetToMask(offset)) != 0; } template template inline void SpaceBitmap::VisitMarkedRange(uintptr_t visit_begin, uintptr_t visit_end, Visitor&& visitor) const { DCHECK_LE(visit_begin, visit_end); #if 0 for (uintptr_t i = visit_begin; i < visit_end; i += kAlignment) { mirror::Object* obj = reinterpret_cast(i); if (Test(obj)) { visitor(obj); } } #else DCHECK_LE(heap_begin_, visit_begin); DCHECK_LE(visit_end, HeapLimit()); const uintptr_t offset_start = visit_begin - heap_begin_; const uintptr_t offset_end = visit_end - heap_begin_; const uintptr_t index_start = OffsetToIndex(offset_start); const uintptr_t index_end = OffsetToIndex(offset_end); const size_t bit_start = (offset_start / kAlignment) % kBitsPerIntPtrT; const size_t bit_end = (offset_end / kAlignment) % kBitsPerIntPtrT; // Index(begin) ... Index(end) // [xxxxx???][........][????yyyy] // ^ ^ // | #---- Bit of visit_end // #---- Bit of visit_begin // // Left edge. uintptr_t left_edge = bitmap_begin_[index_start]; // Mark of lower bits that are not in range. left_edge &= ~((static_cast(1) << bit_start) - 1); // Right edge. Either unique, or left_edge. uintptr_t right_edge; if (index_start < index_end) { // Left edge != right edge. // Traverse left edge. if (left_edge != 0) { const uintptr_t ptr_base = IndexToOffset(index_start) + heap_begin_; do { const size_t shift = CTZ(left_edge); mirror::Object* obj = reinterpret_cast(ptr_base + shift * kAlignment); visitor(obj); left_edge ^= (static_cast(1)) << shift; } while (left_edge != 0); } // Traverse the middle, full part. for (size_t i = index_start + 1; i < index_end; ++i) { uintptr_t w = bitmap_begin_[i].load(std::memory_order_relaxed); if (w != 0) { const uintptr_t ptr_base = IndexToOffset(i) + heap_begin_; // Iterate on the bits set in word `w`, from the least to the most significant bit. do { const size_t shift = CTZ(w); mirror::Object* obj = reinterpret_cast(ptr_base + shift * kAlignment); visitor(obj); w ^= (static_cast(1)) << shift; } while (w != 0); } } // Right edge is unique. // But maybe we don't have anything to do: visit_end starts in a new word... if (bit_end == 0) { // Do not read memory, as it could be after the end of the bitmap. right_edge = 0; } else { right_edge = bitmap_begin_[index_end]; } } else { // Right edge = left edge. right_edge = left_edge; } // Right edge handling. right_edge &= ((static_cast(1) << bit_end) - 1); if (right_edge != 0) { const uintptr_t ptr_base = IndexToOffset(index_end) + heap_begin_; // Iterate on the bits set in word `right_edge`, from the least to the most significant bit. do { const size_t shift = CTZ(right_edge); mirror::Object* obj = reinterpret_cast(ptr_base + shift * kAlignment); visitor(obj); right_edge ^= (static_cast(1)) << shift; } while (right_edge != 0); } #endif } template template void SpaceBitmap::Walk(Visitor&& visitor) { CHECK(bitmap_begin_ != nullptr); uintptr_t end = OffsetToIndex(HeapLimit() - heap_begin_ - 1); Atomic* bitmap_begin = bitmap_begin_; for (uintptr_t i = 0; i <= end; ++i) { uintptr_t w = bitmap_begin[i].load(std::memory_order_relaxed); if (w != 0) { uintptr_t ptr_base = IndexToOffset(i) + heap_begin_; do { const size_t shift = CTZ(w); mirror::Object* obj = reinterpret_cast(ptr_base + shift * kAlignment); visitor(obj); w ^= (static_cast(1)) << shift; } while (w != 0); } } } template template inline bool SpaceBitmap::Modify(const mirror::Object* obj) { uintptr_t addr = reinterpret_cast(obj); DCHECK_GE(addr, heap_begin_); DCHECK(HasAddress(obj)) << obj; const uintptr_t offset = addr - heap_begin_; const size_t index = OffsetToIndex(offset); const uintptr_t mask = OffsetToMask(offset); DCHECK_LT(index, bitmap_size_ / sizeof(intptr_t)) << " bitmap_size_ = " << bitmap_size_; Atomic* atomic_entry = &bitmap_begin_[index]; uintptr_t old_word = atomic_entry->load(std::memory_order_relaxed); if (kSetBit) { // Check the bit before setting the word incase we are trying to mark a read only bitmap // like an image space bitmap. This bitmap is mapped as read only and will fault if we // attempt to change any words. Since all of the objects are marked, this will never // occur if we check before setting the bit. This also prevents dirty pages that would // occur if the bitmap was read write and we did not check the bit. if ((old_word & mask) == 0) { atomic_entry->store(old_word | mask, std::memory_order_relaxed); } } else { atomic_entry->store(old_word & ~mask, std::memory_order_relaxed); } DCHECK_EQ(Test(obj), kSetBit); return (old_word & mask) != 0; } template inline std::ostream& operator << (std::ostream& stream, const SpaceBitmap& bitmap) { return stream << bitmap.GetName() << "[" << "begin=" << reinterpret_cast(bitmap.HeapBegin()) << ",end=" << reinterpret_cast(bitmap.HeapLimit()) << "]"; } } // namespace accounting } // namespace gc } // namespace art #endif // ART_RUNTIME_GC_ACCOUNTING_SPACE_BITMAP_INL_H_