/* * Copyright (C) 2011 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. 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. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``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 APPLE INC. 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 "config.h" #include "CopiedSpace.h" #include "CopiedSpaceInlineMethods.h" #include "GCActivityCallback.h" namespace JSC { CopiedSpace::CopiedSpace(Heap* heap) : m_heap(heap) , m_toSpace(0) , m_fromSpace(0) , m_inCopyingPhase(false) , m_numberOfLoanedBlocks(0) { m_toSpaceLock.Init(); } CopiedSpace::~CopiedSpace() { while (!m_toSpace->isEmpty()) m_heap->blockAllocator().deallocate(CopiedBlock::destroy(m_toSpace->removeHead())); while (!m_fromSpace->isEmpty()) m_heap->blockAllocator().deallocate(CopiedBlock::destroy(m_fromSpace->removeHead())); while (!m_oversizeBlocks.isEmpty()) CopiedBlock::destroy(m_oversizeBlocks.removeHead()).deallocate(); } void CopiedSpace::init() { m_toSpace = &m_blocks1; m_fromSpace = &m_blocks2; allocateBlock(); } CheckedBoolean CopiedSpace::tryAllocateSlowCase(size_t bytes, void** outPtr) { if (isOversize(bytes)) return tryAllocateOversize(bytes, outPtr); ASSERT(m_heap->globalData()->apiLock().currentThreadIsHoldingLock()); m_heap->didAllocate(m_allocator.currentCapacity()); allocateBlock(); *outPtr = m_allocator.forceAllocate(bytes); return true; } CheckedBoolean CopiedSpace::tryAllocateOversize(size_t bytes, void** outPtr) { ASSERT(isOversize(bytes)); size_t blockSize = WTF::roundUpToMultipleOf(WTF::pageSize(), sizeof(CopiedBlock) + bytes); PageAllocationAligned allocation = PageAllocationAligned::allocate(blockSize, WTF::pageSize(), OSAllocator::JSGCHeapPages); if (!static_cast(allocation)) { *outPtr = 0; return false; } CopiedBlock* block = CopiedBlock::create(allocation); m_oversizeBlocks.push(block); m_blockFilter.add(reinterpret_cast(block)); m_blockSet.add(block); CopiedAllocator allocator; allocator.setCurrentBlock(block); *outPtr = allocator.forceAllocate(bytes); allocator.resetCurrentBlock(); m_heap->didAllocate(blockSize); return true; } CheckedBoolean CopiedSpace::tryReallocate(void** ptr, size_t oldSize, size_t newSize) { if (oldSize >= newSize) return true; void* oldPtr = *ptr; ASSERT(!m_heap->globalData()->isInitializingObject()); if (isOversize(oldSize) || isOversize(newSize)) return tryReallocateOversize(ptr, oldSize, newSize); if (m_allocator.tryReallocate(oldPtr, oldSize, newSize)) return true; void* result = 0; if (!tryAllocate(newSize, &result)) { *ptr = 0; return false; } memcpy(result, oldPtr, oldSize); *ptr = result; return true; } CheckedBoolean CopiedSpace::tryReallocateOversize(void** ptr, size_t oldSize, size_t newSize) { ASSERT(isOversize(oldSize) || isOversize(newSize)); ASSERT(newSize > oldSize); void* oldPtr = *ptr; void* newPtr = 0; if (!tryAllocateOversize(newSize, &newPtr)) { *ptr = 0; return false; } memcpy(newPtr, oldPtr, oldSize); if (isOversize(oldSize)) { CopiedBlock* oldBlock = oversizeBlockFor(oldPtr); m_oversizeBlocks.remove(oldBlock); m_blockSet.remove(oldBlock); CopiedBlock::destroy(oldBlock).deallocate(); } *ptr = newPtr; return true; } void CopiedSpace::doneFillingBlock(CopiedBlock* block) { ASSERT(m_inCopyingPhase); if (!block) return; if (!block->dataSize()) { recycleBlock(block); return; } block->zeroFillWilderness(); { SpinLockHolder locker(&m_toSpaceLock); m_toSpace->push(block); m_blockSet.add(block); m_blockFilter.add(reinterpret_cast(block)); } { MutexLocker locker(m_loanedBlocksLock); ASSERT(m_numberOfLoanedBlocks > 0); m_numberOfLoanedBlocks--; if (!m_numberOfLoanedBlocks) m_loanedBlocksCondition.signal(); } } void CopiedSpace::doneCopying() { { MutexLocker locker(m_loanedBlocksLock); while (m_numberOfLoanedBlocks > 0) m_loanedBlocksCondition.wait(m_loanedBlocksLock); } ASSERT(m_inCopyingPhase); m_inCopyingPhase = false; while (!m_fromSpace->isEmpty()) { CopiedBlock* block = m_fromSpace->removeHead(); if (block->m_isPinned) { block->m_isPinned = false; // We don't add the block to the blockSet because it was never removed. ASSERT(m_blockSet.contains(block)); m_blockFilter.add(reinterpret_cast(block)); m_toSpace->push(block); continue; } m_blockSet.remove(block); m_heap->blockAllocator().deallocate(CopiedBlock::destroy(block)); } CopiedBlock* curr = m_oversizeBlocks.head(); while (curr) { CopiedBlock* next = curr->next(); if (!curr->m_isPinned) { m_oversizeBlocks.remove(curr); m_blockSet.remove(curr); CopiedBlock::destroy(curr).deallocate(); } else { m_blockFilter.add(reinterpret_cast(curr)); curr->m_isPinned = false; } curr = next; } if (!m_toSpace->head()) allocateBlock(); else m_allocator.setCurrentBlock(m_toSpace->head()); } size_t CopiedSpace::size() { size_t calculatedSize = 0; for (CopiedBlock* block = m_toSpace->head(); block; block = block->next()) calculatedSize += block->size(); for (CopiedBlock* block = m_fromSpace->head(); block; block = block->next()) calculatedSize += block->size(); for (CopiedBlock* block = m_oversizeBlocks.head(); block; block = block->next()) calculatedSize += block->size(); return calculatedSize; } size_t CopiedSpace::capacity() { size_t calculatedCapacity = 0; for (CopiedBlock* block = m_toSpace->head(); block; block = block->next()) calculatedCapacity += block->capacity(); for (CopiedBlock* block = m_fromSpace->head(); block; block = block->next()) calculatedCapacity += block->capacity(); for (CopiedBlock* block = m_oversizeBlocks.head(); block; block = block->next()) calculatedCapacity += block->capacity(); return calculatedCapacity; } static bool isBlockListPagedOut(double deadline, DoublyLinkedList* list) { unsigned itersSinceLastTimeCheck = 0; CopiedBlock* current = list->head(); while (current) { current = current->next(); ++itersSinceLastTimeCheck; if (itersSinceLastTimeCheck >= Heap::s_timeCheckResolution) { double currentTime = WTF::monotonicallyIncreasingTime(); if (currentTime > deadline) return true; itersSinceLastTimeCheck = 0; } } return false; } bool CopiedSpace::isPagedOut(double deadline) { return isBlockListPagedOut(deadline, m_toSpace) || isBlockListPagedOut(deadline, m_fromSpace) || isBlockListPagedOut(deadline, &m_oversizeBlocks); } } // namespace JSC