//===-- sanitizer_quarantine.h ----------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Memory quarantine for AddressSanitizer and potentially other tools. // Quarantine caches some specified amount of memory in per-thread caches, // then evicts to global FIFO queue. When the queue reaches specified threshold, // oldest memory is recycled. // //===----------------------------------------------------------------------===// #ifndef SANITIZER_QUARANTINE_H #define SANITIZER_QUARANTINE_H #include "sanitizer_internal_defs.h" #include "sanitizer_mutex.h" #include "sanitizer_list.h" namespace __sanitizer { template<typename Node> class QuarantineCache; struct QuarantineBatch { static const uptr kSize = 1021; QuarantineBatch *next; uptr size; uptr count; void *batch[kSize]; }; COMPILER_CHECK(sizeof(QuarantineBatch) <= (1 << 13)); // 8Kb. // The callback interface is: // void Callback::Recycle(Node *ptr); // void *cb.Allocate(uptr size); // void cb.Deallocate(void *ptr); template<typename Callback, typename Node> class Quarantine { public: typedef QuarantineCache<Callback> Cache; explicit Quarantine(LinkerInitialized) : cache_(LINKER_INITIALIZED) { } void Init(uptr size, uptr cache_size) { atomic_store(&max_size_, size, memory_order_release); atomic_store(&min_size_, size / 10 * 9, memory_order_release); // 90% of max size. max_cache_size_ = cache_size; } uptr GetSize() const { return atomic_load(&max_size_, memory_order_acquire); } void Put(Cache *c, Callback cb, Node *ptr, uptr size) { c->Enqueue(cb, ptr, size); if (c->Size() > max_cache_size_) Drain(c, cb); } void NOINLINE Drain(Cache *c, Callback cb) { { SpinMutexLock l(&cache_mutex_); cache_.Transfer(c); } if (cache_.Size() > GetSize() && recycle_mutex_.TryLock()) Recycle(cb); } private: // Read-only data. char pad0_[kCacheLineSize]; atomic_uintptr_t max_size_; atomic_uintptr_t min_size_; uptr max_cache_size_; char pad1_[kCacheLineSize]; SpinMutex cache_mutex_; SpinMutex recycle_mutex_; Cache cache_; char pad2_[kCacheLineSize]; void NOINLINE Recycle(Callback cb) { Cache tmp; uptr min_size = atomic_load(&min_size_, memory_order_acquire); { SpinMutexLock l(&cache_mutex_); while (cache_.Size() > min_size) { QuarantineBatch *b = cache_.DequeueBatch(); tmp.EnqueueBatch(b); } } recycle_mutex_.Unlock(); DoRecycle(&tmp, cb); } void NOINLINE DoRecycle(Cache *c, Callback cb) { while (QuarantineBatch *b = c->DequeueBatch()) { const uptr kPrefetch = 16; CHECK(kPrefetch <= ARRAY_SIZE(b->batch)); for (uptr i = 0; i < kPrefetch; i++) PREFETCH(b->batch[i]); for (uptr i = 0, count = b->count; i < count; i++) { if (i + kPrefetch < count) PREFETCH(b->batch[i + kPrefetch]); cb.Recycle((Node*)b->batch[i]); } cb.Deallocate(b); } } }; // Per-thread cache of memory blocks. template<typename Callback> class QuarantineCache { public: explicit QuarantineCache(LinkerInitialized) { } QuarantineCache() : size_() { list_.clear(); } uptr Size() const { return atomic_load(&size_, memory_order_relaxed); } void Enqueue(Callback cb, void *ptr, uptr size) { if (list_.empty() || list_.back()->count == QuarantineBatch::kSize) { AllocBatch(cb); size += sizeof(QuarantineBatch); // Count the batch in Quarantine size. } QuarantineBatch *b = list_.back(); CHECK(b); b->batch[b->count++] = ptr; b->size += size; SizeAdd(size); } void Transfer(QuarantineCache *c) { list_.append_back(&c->list_); SizeAdd(c->Size()); atomic_store(&c->size_, 0, memory_order_relaxed); } void EnqueueBatch(QuarantineBatch *b) { list_.push_back(b); SizeAdd(b->size); } QuarantineBatch *DequeueBatch() { if (list_.empty()) return nullptr; QuarantineBatch *b = list_.front(); list_.pop_front(); SizeSub(b->size); return b; } private: IntrusiveList<QuarantineBatch> list_; atomic_uintptr_t size_; void SizeAdd(uptr add) { atomic_store(&size_, Size() + add, memory_order_relaxed); } void SizeSub(uptr sub) { atomic_store(&size_, Size() - sub, memory_order_relaxed); } NOINLINE QuarantineBatch* AllocBatch(Callback cb) { QuarantineBatch *b = (QuarantineBatch *)cb.Allocate(sizeof(*b)); CHECK(b); b->count = 0; b->size = 0; list_.push_back(b); return b; } }; } // namespace __sanitizer #endif // SANITIZER_QUARANTINE_H