/* * Copyright (C) 2013 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 "rosalloc_space-inl.h" #include "gc/accounting/card_table.h" #include "gc/accounting/space_bitmap-inl.h" #include "gc/heap.h" #include "mirror/class-inl.h" #include "mirror/object-inl.h" #include "runtime.h" #include "thread.h" #include "thread_list.h" #include "utils.h" #include "valgrind_malloc_space-inl.h" namespace art { namespace gc { namespace space { static constexpr bool kPrefetchDuringRosAllocFreeList = false; static constexpr size_t kPrefetchLookAhead = 8; // Use this only for verification, it is not safe to use since the class of the object may have // been freed. static constexpr bool kVerifyFreedBytes = false; // TODO: Fix // template class ValgrindMallocSpace; RosAllocSpace::RosAllocSpace(const std::string& name, MemMap* mem_map, art::gc::allocator::RosAlloc* rosalloc, byte* begin, byte* end, byte* limit, size_t growth_limit, bool can_move_objects, size_t starting_size, size_t initial_size, bool low_memory_mode) : MallocSpace(name, mem_map, begin, end, limit, growth_limit, true, can_move_objects, starting_size, initial_size), rosalloc_(rosalloc), low_memory_mode_(low_memory_mode) { CHECK(rosalloc != nullptr); } RosAllocSpace* RosAllocSpace::CreateFromMemMap(MemMap* mem_map, const std::string& name, size_t starting_size, size_t initial_size, size_t growth_limit, size_t capacity, bool low_memory_mode, bool can_move_objects) { DCHECK(mem_map != nullptr); allocator::RosAlloc* rosalloc = CreateRosAlloc(mem_map->Begin(), starting_size, initial_size, capacity, low_memory_mode); if (rosalloc == NULL) { LOG(ERROR) << "Failed to initialize rosalloc for alloc space (" << name << ")"; return NULL; } // Protect memory beyond the starting size. MoreCore will add r/w permissions when necessory byte* 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 byte* begin = mem_map->Begin(); // TODO: Fix RosAllocSpace to support valgrind. There is currently some issues with // AllocationSize caused by redzones. b/12944686 if (false && Runtime::Current()->GetHeap()->RunningOnValgrind()) { LOG(FATAL) << "Unimplemented"; } else { return new RosAllocSpace(name, mem_map, rosalloc, begin, end, begin + capacity, growth_limit, can_move_objects, starting_size, initial_size, low_memory_mode); } } RosAllocSpace::~RosAllocSpace() { delete rosalloc_; } RosAllocSpace* RosAllocSpace::Create(const std::string& name, size_t initial_size, size_t growth_limit, size_t capacity, byte* requested_begin, bool low_memory_mode, bool can_move_objects) { uint64_t start_time = 0; if (VLOG_IS_ON(heap) || VLOG_IS_ON(startup)) { start_time = NanoTime(); VLOG(startup) << "RosAllocSpace::Create entering " << name << " initial_size=" << PrettySize(initial_size) << " growth_limit=" << PrettySize(growth_limit) << " capacity=" << PrettySize(capacity) << " requested_begin=" << reinterpret_cast(requested_begin); } // Memory we promise to rosalloc before it asks for morecore. // Note: making this value large means that large allocations are unlikely to succeed as rosalloc // 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 = Heap::kDefaultStartingSize; MemMap* mem_map = CreateMemMap(name, starting_size, &initial_size, &growth_limit, &capacity, requested_begin); if (mem_map == NULL) { LOG(ERROR) << "Failed to create mem map for alloc space (" << name << ") of size " << PrettySize(capacity); return NULL; } RosAllocSpace* space = CreateFromMemMap(mem_map, name, starting_size, initial_size, growth_limit, capacity, low_memory_mode, 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) << "RosAllocSpace::Create exiting (" << PrettyDuration(NanoTime() - start_time) << " ) " << *space; } return space; } allocator::RosAlloc* RosAllocSpace::CreateRosAlloc(void* begin, size_t morecore_start, size_t initial_size, size_t maximum_size, bool low_memory_mode) { // clear errno to allow PLOG on error errno = 0; // create rosalloc using our backing storage starting at begin and // with a footprint of morecore_start. When morecore_start bytes of // memory is exhaused morecore will be called. allocator::RosAlloc* rosalloc = new art::gc::allocator::RosAlloc( begin, morecore_start, maximum_size, low_memory_mode ? art::gc::allocator::RosAlloc::kPageReleaseModeAll : art::gc::allocator::RosAlloc::kPageReleaseModeSizeAndEnd); if (rosalloc != NULL) { rosalloc->SetFootprintLimit(initial_size); } else { PLOG(ERROR) << "RosAlloc::Create failed"; } return rosalloc; } mirror::Object* RosAllocSpace::AllocWithGrowth(Thread* self, size_t num_bytes, size_t* bytes_allocated, size_t* usable_size) { mirror::Object* result; { MutexLock mu(self, lock_); // Grow as much as possible within the space. size_t max_allowed = Capacity(); rosalloc_->SetFootprintLimit(max_allowed); // Try the allocation. result = AllocCommon(self, num_bytes, bytes_allocated, usable_size); // Shrink back down as small as possible. size_t footprint = rosalloc_->Footprint(); rosalloc_->SetFootprintLimit(footprint); } // Note RosAlloc zeroes memory internally. // Return the new allocation or NULL. CHECK(!kDebugSpaces || result == nullptr || Contains(result)); return result; } MallocSpace* RosAllocSpace::CreateInstance(const std::string& name, MemMap* mem_map, void* allocator, byte* begin, byte* end, byte* limit, size_t growth_limit, bool can_move_objects) { return new RosAllocSpace(name, mem_map, reinterpret_cast(allocator), begin, end, limit, growth_limit, can_move_objects, starting_size_, initial_size_, low_memory_mode_); } size_t RosAllocSpace::Free(Thread* self, mirror::Object* ptr) { if (kDebugSpaces) { CHECK(ptr != NULL); CHECK(Contains(ptr)) << "Free (" << ptr << ") not in bounds of heap " << *this; } if (kRecentFreeCount > 0) { MutexLock mu(self, lock_); RegisterRecentFree(ptr); } return rosalloc_->Free(self, ptr); } size_t RosAllocSpace::FreeList(Thread* self, size_t num_ptrs, mirror::Object** ptrs) { DCHECK(ptrs != nullptr); size_t verify_bytes = 0; for (size_t i = 0; i < num_ptrs; i++) { if (kPrefetchDuringRosAllocFreeList && i + kPrefetchLookAhead < num_ptrs) { __builtin_prefetch(reinterpret_cast(ptrs[i + kPrefetchLookAhead])); } if (kVerifyFreedBytes) { verify_bytes += AllocationSizeNonvirtual(ptrs[i], 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 = rosalloc_->UsableSize(ptrs[i]); memset(ptrs[i], 0xEF, size); } } CHECK_EQ(num_broken_ptrs, 0u); } const size_t bytes_freed = rosalloc_->BulkFree(self, reinterpret_cast(ptrs), num_ptrs); if (kVerifyFreedBytes) { CHECK_EQ(verify_bytes, bytes_freed); } return bytes_freed; } // Callback from rosalloc when it needs to increase the footprint extern "C" void* art_heap_rosalloc_morecore(allocator::RosAlloc* rosalloc, intptr_t increment) { Heap* heap = Runtime::Current()->GetHeap(); RosAllocSpace* rosalloc_space = heap->GetRosAllocSpace(rosalloc); DCHECK(rosalloc_space != nullptr); DCHECK_EQ(rosalloc_space->GetRosAlloc(), rosalloc); return rosalloc_space->MoreCore(increment); } size_t RosAllocSpace::Trim() { VLOG(heap) << "RosAllocSpace::Trim() "; { MutexLock mu(Thread::Current(), lock_); // Trim to release memory at the end of the space. rosalloc_->Trim(); } // Attempt to release pages if it does not release all empty pages. if (!rosalloc_->DoesReleaseAllPages()) { return rosalloc_->ReleasePages(); } return 0; } void RosAllocSpace::Walk(void(*callback)(void *start, void *end, size_t num_bytes, void* callback_arg), void* arg) { InspectAllRosAlloc(callback, arg, true); } size_t RosAllocSpace::GetFootprint() { MutexLock mu(Thread::Current(), lock_); return rosalloc_->Footprint(); } size_t RosAllocSpace::GetFootprintLimit() { MutexLock mu(Thread::Current(), lock_); return rosalloc_->FootprintLimit(); } void RosAllocSpace::SetFootprintLimit(size_t new_size) { MutexLock mu(Thread::Current(), lock_); VLOG(heap) << "RosAllocSpace::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 = rosalloc_->Footprint(); if (new_size < current_space_size) { // Don't let the space grow any more. new_size = current_space_size; } rosalloc_->SetFootprintLimit(new_size); } uint64_t RosAllocSpace::GetBytesAllocated() { size_t bytes_allocated = 0; InspectAllRosAlloc(art::gc::allocator::RosAlloc::BytesAllocatedCallback, &bytes_allocated, false); return bytes_allocated; } uint64_t RosAllocSpace::GetObjectsAllocated() { size_t objects_allocated = 0; InspectAllRosAlloc(art::gc::allocator::RosAlloc::ObjectsAllocatedCallback, &objects_allocated, false); return objects_allocated; } void RosAllocSpace::InspectAllRosAllocWithSuspendAll( void (*callback)(void *start, void *end, size_t num_bytes, void* callback_arg), void* arg, bool do_null_callback_at_end) NO_THREAD_SAFETY_ANALYSIS { // TODO: NO_THREAD_SAFETY_ANALYSIS. Thread* self = Thread::Current(); ThreadList* tl = Runtime::Current()->GetThreadList(); tl->SuspendAll(); { MutexLock mu(self, *Locks::runtime_shutdown_lock_); MutexLock mu2(self, *Locks::thread_list_lock_); rosalloc_->InspectAll(callback, arg); if (do_null_callback_at_end) { callback(NULL, NULL, 0, arg); // Indicate end of a space. } } tl->ResumeAll(); } void RosAllocSpace::InspectAllRosAlloc(void (*callback)(void *start, void *end, size_t num_bytes, void* callback_arg), void* arg, bool do_null_callback_at_end) NO_THREAD_SAFETY_ANALYSIS { // TODO: NO_THREAD_SAFETY_ANALYSIS. Thread* self = Thread::Current(); if (Locks::mutator_lock_->IsExclusiveHeld(self)) { // The mutators are already suspended. For example, a call path // from SignalCatcher::HandleSigQuit(). rosalloc_->InspectAll(callback, arg); if (do_null_callback_at_end) { callback(NULL, NULL, 0, arg); // Indicate end of a space. } } else if (Locks::mutator_lock_->IsSharedHeld(self)) { // The mutators are not suspended yet and we have a shared access // to the mutator lock. Temporarily release the shared access by // transitioning to the suspend state, and suspend the mutators. self->TransitionFromRunnableToSuspended(kSuspended); InspectAllRosAllocWithSuspendAll(callback, arg, do_null_callback_at_end); self->TransitionFromSuspendedToRunnable(); Locks::mutator_lock_->AssertSharedHeld(self); } else { // The mutators are not suspended yet. Suspend the mutators. InspectAllRosAllocWithSuspendAll(callback, arg, do_null_callback_at_end); } } void RosAllocSpace::RevokeThreadLocalBuffers(Thread* thread) { rosalloc_->RevokeThreadLocalRuns(thread); } void RosAllocSpace::RevokeAllThreadLocalBuffers() { rosalloc_->RevokeAllThreadLocalRuns(); } void RosAllocSpace::AssertAllThreadLocalBuffersAreRevoked() { if (kIsDebugBuild) { rosalloc_->AssertAllThreadLocalRunsAreRevoked(); } } void RosAllocSpace::Clear() { size_t footprint_limit = GetFootprintLimit(); madvise(GetMemMap()->Begin(), GetMemMap()->Size(), MADV_DONTNEED); live_bitmap_->Clear(); mark_bitmap_->Clear(); SetEnd(begin_ + starting_size_); delete rosalloc_; rosalloc_ = CreateRosAlloc(mem_map_->Begin(), starting_size_, initial_size_, NonGrowthLimitCapacity(), low_memory_mode_); SetFootprintLimit(footprint_limit); } } // namespace space } // namespace gc } // namespace art