/* * Copyright (C) 2011 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. */ #include "dlmalloc_space-inl.h" #include "base/time_utils.h" #include "gc/accounting/card_table.h" #include "gc/accounting/space_bitmap-inl.h" #include "gc/heap.h" #include "jit/jit.h" #include "jit/jit_code_cache.h" #include "memory_tool_malloc_space-inl.h" #include "mirror/class-inl.h" #include "mirror/object-inl.h" #include "runtime.h" #include "thread.h" #include "thread_list.h" #include "utils.h" namespace art { namespace gc { namespace space { static constexpr bool kPrefetchDuringDlMallocFreeList = true; DlMallocSpace::DlMallocSpace(MemMap* mem_map, size_t initial_size, const std::string& name, void* mspace, uint8_t* begin, uint8_t* end, uint8_t* limit, size_t growth_limit, bool can_move_objects, size_t starting_size) : MallocSpace(name, mem_map, begin, end, limit, growth_limit, true, can_move_objects, starting_size, initial_size), mspace_(mspace) { CHECK(mspace != nullptr); } DlMallocSpace* DlMallocSpace::CreateFromMemMap(MemMap* mem_map, const std::string& name, size_t starting_size, size_t initial_size, size_t growth_limit, size_t capacity, bool can_move_objects) { DCHECK(mem_map != nullptr); void* mspace = CreateMspace(mem_map->Begin(), starting_size, initial_size); if (mspace == nullptr) { LOG(ERROR) << "Failed to initialize mspace for alloc space (" << name << ")"; return nullptr; } // Protect memory beyond the starting size. morecore will add r/w permissions when necessory uint8_t* end = mem_map->Begin() + starting_size; if (capacity - starting_size > 0) { CHECK_MEMORY_CALL(mprotect, (end, capacity - starting_size, PROT_NONE), name); } // Everything is set so record in immutable structure and leave uint8_t* begin = mem_map->Begin(); if (Runtime::Current()->IsRunningOnMemoryTool()) { return new MemoryToolMallocSpace<DlMallocSpace, kDefaultMemoryToolRedZoneBytes, true, false>( mem_map, initial_size, name, mspace, begin, end, begin + capacity, growth_limit, can_move_objects, starting_size); } else { return new DlMallocSpace(mem_map, initial_size, name, mspace, begin, end, begin + capacity, growth_limit, can_move_objects, starting_size); } } DlMallocSpace* DlMallocSpace::Create(const std::string& name, size_t initial_size, size_t growth_limit, size_t capacity, uint8_t* requested_begin, bool can_move_objects) { uint64_t start_time = 0; if (VLOG_IS_ON(heap) || VLOG_IS_ON(startup)) { start_time = NanoTime(); LOG(INFO) << "DlMallocSpace::Create entering " << name << " initial_size=" << PrettySize(initial_size) << " growth_limit=" << PrettySize(growth_limit) << " capacity=" << PrettySize(capacity) << " requested_begin=" << reinterpret_cast<void*>(requested_begin); } // Memory we promise to dlmalloc before it asks for morecore. // Note: making this value large means that large allocations are unlikely to succeed as dlmalloc // will ask for this memory from sys_alloc which will fail as the footprint (this value plus the // size of the large allocation) will be greater than the footprint limit. size_t starting_size = kPageSize; MemMap* mem_map = CreateMemMap(name, starting_size, &initial_size, &growth_limit, &capacity, requested_begin); if (mem_map == nullptr) { LOG(ERROR) << "Failed to create mem map for alloc space (" << name << ") of size " << PrettySize(capacity); return nullptr; } DlMallocSpace* space = CreateFromMemMap(mem_map, name, starting_size, initial_size, growth_limit, capacity, can_move_objects); // We start out with only the initial size possibly containing objects. if (VLOG_IS_ON(heap) || VLOG_IS_ON(startup)) { LOG(INFO) << "DlMallocSpace::Create exiting (" << PrettyDuration(NanoTime() - start_time) << " ) " << *space; } return space; } void* DlMallocSpace::CreateMspace(void* begin, size_t morecore_start, size_t initial_size) { // clear errno to allow PLOG on error errno = 0; // create mspace using our backing storage starting at begin and with a footprint of // morecore_start. Don't use an internal dlmalloc lock (as we already hold heap lock). When // morecore_start bytes of memory is exhaused morecore will be called. void* msp = create_mspace_with_base(begin, morecore_start, false /*locked*/); if (msp != nullptr) { // Do not allow morecore requests to succeed beyond the initial size of the heap mspace_set_footprint_limit(msp, initial_size); } else { PLOG(ERROR) << "create_mspace_with_base failed"; } return msp; } mirror::Object* DlMallocSpace::AllocWithGrowth(Thread* self, size_t num_bytes, size_t* bytes_allocated, size_t* usable_size, size_t* bytes_tl_bulk_allocated) { mirror::Object* result; { MutexLock mu(self, lock_); // Grow as much as possible within the space. size_t max_allowed = Capacity(); mspace_set_footprint_limit(mspace_, max_allowed); // Try the allocation. result = AllocWithoutGrowthLocked(self, num_bytes, bytes_allocated, usable_size, bytes_tl_bulk_allocated); // Shrink back down as small as possible. size_t footprint = mspace_footprint(mspace_); mspace_set_footprint_limit(mspace_, footprint); } if (result != nullptr) { // Zero freshly allocated memory, done while not holding the space's lock. memset(result, 0, num_bytes); // Check that the result is contained in the space. CHECK(!kDebugSpaces || Contains(result)); } return result; } MallocSpace* DlMallocSpace::CreateInstance(MemMap* mem_map, const std::string& name, void* allocator, uint8_t* begin, uint8_t* end, uint8_t* limit, size_t growth_limit, bool can_move_objects) { if (Runtime::Current()->IsRunningOnMemoryTool()) { return new MemoryToolMallocSpace<DlMallocSpace, kDefaultMemoryToolRedZoneBytes, true, false>( mem_map, initial_size_, name, allocator, begin, end, limit, growth_limit, can_move_objects, starting_size_); } else { return new DlMallocSpace(mem_map, initial_size_, name, allocator, begin, end, limit, growth_limit, can_move_objects, starting_size_); } } size_t DlMallocSpace::Free(Thread* self, mirror::Object* ptr) { MutexLock mu(self, lock_); if (kDebugSpaces) { CHECK(ptr != nullptr); CHECK(Contains(ptr)) << "Free (" << ptr << ") not in bounds of heap " << *this; } const size_t bytes_freed = AllocationSizeNonvirtual(ptr, nullptr); if (kRecentFreeCount > 0) { RegisterRecentFree(ptr); } mspace_free(mspace_, ptr); return bytes_freed; } size_t DlMallocSpace::FreeList(Thread* self, size_t num_ptrs, mirror::Object** ptrs) { DCHECK(ptrs != nullptr); // Don't need the lock to calculate the size of the freed pointers. size_t bytes_freed = 0; for (size_t i = 0; i < num_ptrs; i++) { mirror::Object* ptr = ptrs[i]; const size_t look_ahead = 8; if (kPrefetchDuringDlMallocFreeList && i + look_ahead < num_ptrs) { // The head of chunk for the allocation is sizeof(size_t) behind the allocation. __builtin_prefetch(reinterpret_cast<char*>(ptrs[i + look_ahead]) - sizeof(size_t)); } bytes_freed += AllocationSizeNonvirtual(ptr, nullptr); } if (kRecentFreeCount > 0) { MutexLock mu(self, lock_); for (size_t i = 0; i < num_ptrs; i++) { RegisterRecentFree(ptrs[i]); } } if (kDebugSpaces) { size_t num_broken_ptrs = 0; for (size_t i = 0; i < num_ptrs; i++) { if (!Contains(ptrs[i])) { num_broken_ptrs++; LOG(ERROR) << "FreeList[" << i << "] (" << ptrs[i] << ") not in bounds of heap " << *this; } else { size_t size = mspace_usable_size(ptrs[i]); memset(ptrs[i], 0xEF, size); } } CHECK_EQ(num_broken_ptrs, 0u); } { MutexLock mu(self, lock_); mspace_bulk_free(mspace_, reinterpret_cast<void**>(ptrs), num_ptrs); return bytes_freed; } } size_t DlMallocSpace::Trim() { MutexLock mu(Thread::Current(), lock_); // Trim to release memory at the end of the space. mspace_trim(mspace_, 0); // Visit space looking for page-sized holes to advise the kernel we don't need. size_t reclaimed = 0; mspace_inspect_all(mspace_, DlmallocMadviseCallback, &reclaimed); return reclaimed; } void DlMallocSpace::Walk(void(*callback)(void *start, void *end, size_t num_bytes, void* callback_arg), void* arg) { MutexLock mu(Thread::Current(), lock_); mspace_inspect_all(mspace_, callback, arg); callback(nullptr, nullptr, 0, arg); // Indicate end of a space. } size_t DlMallocSpace::GetFootprint() { MutexLock mu(Thread::Current(), lock_); return mspace_footprint(mspace_); } size_t DlMallocSpace::GetFootprintLimit() { MutexLock mu(Thread::Current(), lock_); return mspace_footprint_limit(mspace_); } void DlMallocSpace::SetFootprintLimit(size_t new_size) { MutexLock mu(Thread::Current(), lock_); VLOG(heap) << "DlMallocSpace::SetFootprintLimit " << PrettySize(new_size); // Compare against the actual footprint, rather than the Size(), because the heap may not have // grown all the way to the allowed size yet. size_t current_space_size = mspace_footprint(mspace_); if (new_size < current_space_size) { // Don't let the space grow any more. new_size = current_space_size; } mspace_set_footprint_limit(mspace_, new_size); } uint64_t DlMallocSpace::GetBytesAllocated() { MutexLock mu(Thread::Current(), lock_); size_t bytes_allocated = 0; mspace_inspect_all(mspace_, DlmallocBytesAllocatedCallback, &bytes_allocated); return bytes_allocated; } uint64_t DlMallocSpace::GetObjectsAllocated() { MutexLock mu(Thread::Current(), lock_); size_t objects_allocated = 0; mspace_inspect_all(mspace_, DlmallocObjectsAllocatedCallback, &objects_allocated); return objects_allocated; } void DlMallocSpace::Clear() { size_t footprint_limit = GetFootprintLimit(); madvise(GetMemMap()->Begin(), GetMemMap()->Size(), MADV_DONTNEED); live_bitmap_->Clear(); mark_bitmap_->Clear(); SetEnd(Begin() + starting_size_); mspace_ = CreateMspace(mem_map_->Begin(), starting_size_, initial_size_); SetFootprintLimit(footprint_limit); } #ifndef NDEBUG void DlMallocSpace::CheckMoreCoreForPrecondition() { lock_.AssertHeld(Thread::Current()); } #endif static void MSpaceChunkCallback(void* start, void* end, size_t used_bytes, void* arg) { size_t chunk_size = reinterpret_cast<uint8_t*>(end) - reinterpret_cast<uint8_t*>(start); if (used_bytes < chunk_size) { size_t chunk_free_bytes = chunk_size - used_bytes; size_t& max_contiguous_allocation = *reinterpret_cast<size_t*>(arg); max_contiguous_allocation = std::max(max_contiguous_allocation, chunk_free_bytes); } } void DlMallocSpace::LogFragmentationAllocFailure(std::ostream& os, size_t failed_alloc_bytes ATTRIBUTE_UNUSED) { Thread* const self = Thread::Current(); size_t max_contiguous_allocation = 0; // To allow the Walk/InspectAll() to exclusively-lock the mutator // lock, temporarily release the shared access to the mutator // lock here by transitioning to the suspended state. Locks::mutator_lock_->AssertSharedHeld(self); ScopedThreadSuspension sts(self, kSuspended); Walk(MSpaceChunkCallback, &max_contiguous_allocation); os << "; failed due to fragmentation (largest possible contiguous allocation " << max_contiguous_allocation << " bytes)"; } } // namespace space namespace allocator { // Implement the dlmalloc morecore callback. void* ArtDlMallocMoreCore(void* mspace, intptr_t increment) SHARED_REQUIRES(Locks::mutator_lock_) { Runtime* runtime = Runtime::Current(); Heap* heap = runtime->GetHeap(); ::art::gc::space::DlMallocSpace* dlmalloc_space = heap->GetDlMallocSpace(); // Support for multiple DlMalloc provided by a slow path. if (UNLIKELY(dlmalloc_space == nullptr || dlmalloc_space->GetMspace() != mspace)) { if (LIKELY(runtime->GetJit() != nullptr)) { jit::JitCodeCache* code_cache = runtime->GetJit()->GetCodeCache(); if (code_cache->OwnsSpace(mspace)) { return code_cache->MoreCore(mspace, increment); } } dlmalloc_space = nullptr; for (space::ContinuousSpace* space : heap->GetContinuousSpaces()) { if (space->IsDlMallocSpace()) { ::art::gc::space::DlMallocSpace* cur_dlmalloc_space = space->AsDlMallocSpace(); if (cur_dlmalloc_space->GetMspace() == mspace) { dlmalloc_space = cur_dlmalloc_space; break; } } } CHECK(dlmalloc_space != nullptr) << "Couldn't find DlmMallocSpace with mspace=" << mspace; } return dlmalloc_space->MoreCore(increment); } } // namespace allocator } // namespace gc } // namespace art