/* * Copyright 2013 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkDiscardableMemory.h" #include "SkDiscardableMemoryPool.h" #include "SkImageGenerator.h" #include "SkMutex.h" #include "SkOncePtr.h" #include "SkTInternalLList.h" // Note: // A PoolDiscardableMemory is memory that is counted in a pool. // A DiscardableMemoryPool is a pool of PoolDiscardableMemorys. namespace { class PoolDiscardableMemory; /** * This non-global pool can be used for unit tests to verify that the * pool works. */ class DiscardableMemoryPool : public SkDiscardableMemoryPool { public: /** * Without mutex, will be not be thread safe. */ DiscardableMemoryPool(size_t budget, SkBaseMutex* mutex = nullptr); virtual ~DiscardableMemoryPool(); SkDiscardableMemory* create(size_t bytes) override; size_t getRAMUsed() override; void setRAMBudget(size_t budget) override; size_t getRAMBudget() override { return fBudget; } /** purges all unlocked DMs */ void dumpPool() override; #if SK_LAZY_CACHE_STATS // Defined in SkDiscardableMemoryPool.h int getCacheHits() override { return fCacheHits; } int getCacheMisses() override { return fCacheMisses; } void resetCacheHitsAndMisses() override { fCacheHits = fCacheMisses = 0; } int fCacheHits; int fCacheMisses; #endif // SK_LAZY_CACHE_STATS private: SkBaseMutex* fMutex; size_t fBudget; size_t fUsed; SkTInternalLList<PoolDiscardableMemory> fList; /** Function called to free memory if needed */ void dumpDownTo(size_t budget); /** called by DiscardableMemoryPool upon destruction */ void free(PoolDiscardableMemory* dm); /** called by DiscardableMemoryPool::lock() */ bool lock(PoolDiscardableMemory* dm); /** called by DiscardableMemoryPool::unlock() */ void unlock(PoolDiscardableMemory* dm); friend class PoolDiscardableMemory; typedef SkDiscardableMemory::Factory INHERITED; }; /** * A PoolDiscardableMemory is a SkDiscardableMemory that relies on * a DiscardableMemoryPool object to manage the memory. */ class PoolDiscardableMemory : public SkDiscardableMemory { public: PoolDiscardableMemory(DiscardableMemoryPool* pool, void* pointer, size_t bytes); virtual ~PoolDiscardableMemory(); bool lock() override; void* data() override; void unlock() override; friend class DiscardableMemoryPool; private: SK_DECLARE_INTERNAL_LLIST_INTERFACE(PoolDiscardableMemory); DiscardableMemoryPool* const fPool; bool fLocked; void* fPointer; const size_t fBytes; }; PoolDiscardableMemory::PoolDiscardableMemory(DiscardableMemoryPool* pool, void* pointer, size_t bytes) : fPool(pool) , fLocked(true) , fPointer(pointer) , fBytes(bytes) { SkASSERT(fPool != nullptr); SkASSERT(fPointer != nullptr); SkASSERT(fBytes > 0); fPool->ref(); } PoolDiscardableMemory::~PoolDiscardableMemory() { SkASSERT(!fLocked); // contract for SkDiscardableMemory fPool->free(this); fPool->unref(); } bool PoolDiscardableMemory::lock() { SkASSERT(!fLocked); // contract for SkDiscardableMemory return fPool->lock(this); } void* PoolDiscardableMemory::data() { SkASSERT(fLocked); // contract for SkDiscardableMemory return fPointer; } void PoolDiscardableMemory::unlock() { SkASSERT(fLocked); // contract for SkDiscardableMemory fPool->unlock(this); } //////////////////////////////////////////////////////////////////////////////// DiscardableMemoryPool::DiscardableMemoryPool(size_t budget, SkBaseMutex* mutex) : fMutex(mutex) , fBudget(budget) , fUsed(0) { #if SK_LAZY_CACHE_STATS fCacheHits = 0; fCacheMisses = 0; #endif // SK_LAZY_CACHE_STATS } DiscardableMemoryPool::~DiscardableMemoryPool() { // PoolDiscardableMemory objects that belong to this pool are // always deleted before deleting this pool since each one has a // ref to the pool. SkASSERT(fList.isEmpty()); } void DiscardableMemoryPool::dumpDownTo(size_t budget) { if (fMutex != nullptr) { fMutex->assertHeld(); } if (fUsed <= budget) { return; } typedef SkTInternalLList<PoolDiscardableMemory>::Iter Iter; Iter iter; PoolDiscardableMemory* cur = iter.init(fList, Iter::kTail_IterStart); while ((fUsed > budget) && (cur)) { if (!cur->fLocked) { PoolDiscardableMemory* dm = cur; SkASSERT(dm->fPointer != nullptr); sk_free(dm->fPointer); dm->fPointer = nullptr; SkASSERT(fUsed >= dm->fBytes); fUsed -= dm->fBytes; cur = iter.prev(); // Purged DMs are taken out of the list. This saves times // looking them up. Purged DMs are NOT deleted. fList.remove(dm); } else { cur = iter.prev(); } } } SkDiscardableMemory* DiscardableMemoryPool::create(size_t bytes) { void* addr = sk_malloc_flags(bytes, 0); if (nullptr == addr) { return nullptr; } PoolDiscardableMemory* dm = new PoolDiscardableMemory(this, addr, bytes); SkAutoMutexAcquire autoMutexAcquire(fMutex); fList.addToHead(dm); fUsed += bytes; this->dumpDownTo(fBudget); return dm; } void DiscardableMemoryPool::free(PoolDiscardableMemory* dm) { SkAutoMutexAcquire autoMutexAcquire(fMutex); // This is called by dm's destructor. if (dm->fPointer != nullptr) { sk_free(dm->fPointer); dm->fPointer = nullptr; SkASSERT(fUsed >= dm->fBytes); fUsed -= dm->fBytes; fList.remove(dm); } else { SkASSERT(!fList.isInList(dm)); } } bool DiscardableMemoryPool::lock(PoolDiscardableMemory* dm) { SkASSERT(dm != nullptr); SkAutoMutexAcquire autoMutexAcquire(fMutex); if (nullptr == dm->fPointer) { // May have been purged while waiting for lock. #if SK_LAZY_CACHE_STATS ++fCacheMisses; #endif // SK_LAZY_CACHE_STATS return false; } dm->fLocked = true; fList.remove(dm); fList.addToHead(dm); #if SK_LAZY_CACHE_STATS ++fCacheHits; #endif // SK_LAZY_CACHE_STATS return true; } void DiscardableMemoryPool::unlock(PoolDiscardableMemory* dm) { SkASSERT(dm != nullptr); SkAutoMutexAcquire autoMutexAcquire(fMutex); dm->fLocked = false; this->dumpDownTo(fBudget); } size_t DiscardableMemoryPool::getRAMUsed() { return fUsed; } void DiscardableMemoryPool::setRAMBudget(size_t budget) { SkAutoMutexAcquire autoMutexAcquire(fMutex); fBudget = budget; this->dumpDownTo(fBudget); } void DiscardableMemoryPool::dumpPool() { SkAutoMutexAcquire autoMutexAcquire(fMutex); this->dumpDownTo(0); } } // namespace SkDiscardableMemoryPool* SkDiscardableMemoryPool::Create(size_t size, SkBaseMutex* mutex) { return new DiscardableMemoryPool(size, mutex); } SK_DECLARE_STATIC_MUTEX(gMutex); SK_DECLARE_STATIC_ONCE_PTR(SkDiscardableMemoryPool, global); SkDiscardableMemoryPool* SkGetGlobalDiscardableMemoryPool() { return global.get([] { return SkDiscardableMemoryPool::Create(SK_DEFAULT_GLOBAL_DISCARDABLE_MEMORY_POOL_SIZE, &gMutex); }); }