// Copyright 2009-2010 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "src/profiler/heap-profiler.h" #include "src/api.h" #include "src/debug/debug.h" #include "src/heap/heap-inl.h" #include "src/profiler/allocation-tracker.h" #include "src/profiler/heap-snapshot-generator-inl.h" #include "src/profiler/sampling-heap-profiler.h" namespace v8 { namespace internal { HeapProfiler::HeapProfiler(Heap* heap) : ids_(new HeapObjectsMap(heap)), names_(new StringsStorage(heap)), is_tracking_object_moves_(false), get_retainer_infos_callback_(nullptr) {} static void DeleteHeapSnapshot(HeapSnapshot** snapshot_ptr) { delete *snapshot_ptr; } HeapProfiler::~HeapProfiler() { snapshots_.Iterate(DeleteHeapSnapshot); snapshots_.Clear(); } void HeapProfiler::DeleteAllSnapshots() { snapshots_.Iterate(DeleteHeapSnapshot); snapshots_.Clear(); names_.reset(new StringsStorage(heap())); } void HeapProfiler::RemoveSnapshot(HeapSnapshot* snapshot) { snapshots_.RemoveElement(snapshot); } void HeapProfiler::DefineWrapperClass( uint16_t class_id, v8::HeapProfiler::WrapperInfoCallback callback) { DCHECK(class_id != v8::HeapProfiler::kPersistentHandleNoClassId); if (wrapper_callbacks_.length() <= class_id) { wrapper_callbacks_.AddBlock( NULL, class_id - wrapper_callbacks_.length() + 1); } wrapper_callbacks_[class_id] = callback; } v8::RetainedObjectInfo* HeapProfiler::ExecuteWrapperClassCallback( uint16_t class_id, Object** wrapper) { if (wrapper_callbacks_.length() <= class_id) return NULL; return wrapper_callbacks_[class_id]( class_id, Utils::ToLocal(Handle(wrapper))); } void HeapProfiler::SetGetRetainerInfosCallback( v8::HeapProfiler::GetRetainerInfosCallback callback) { get_retainer_infos_callback_ = callback; } v8::HeapProfiler::RetainerInfos HeapProfiler::GetRetainerInfos( Isolate* isolate) { v8::HeapProfiler::RetainerInfos infos; if (get_retainer_infos_callback_ != nullptr) infos = get_retainer_infos_callback_(reinterpret_cast(isolate)); return infos; } HeapSnapshot* HeapProfiler::TakeSnapshot( v8::ActivityControl* control, v8::HeapProfiler::ObjectNameResolver* resolver) { HeapSnapshot* result = new HeapSnapshot(this); { HeapSnapshotGenerator generator(result, control, resolver, heap()); if (!generator.GenerateSnapshot()) { delete result; result = NULL; } else { snapshots_.Add(result); } } ids_->RemoveDeadEntries(); is_tracking_object_moves_ = true; heap()->isolate()->debug()->feature_tracker()->Track( DebugFeatureTracker::kHeapSnapshot); return result; } bool HeapProfiler::StartSamplingHeapProfiler( uint64_t sample_interval, int stack_depth, v8::HeapProfiler::SamplingFlags flags) { if (sampling_heap_profiler_.get()) { return false; } sampling_heap_profiler_.reset(new SamplingHeapProfiler( heap(), names_.get(), sample_interval, stack_depth, flags)); return true; } void HeapProfiler::StopSamplingHeapProfiler() { sampling_heap_profiler_.reset(); } v8::AllocationProfile* HeapProfiler::GetAllocationProfile() { if (sampling_heap_profiler_.get()) { return sampling_heap_profiler_->GetAllocationProfile(); } else { return nullptr; } } void HeapProfiler::StartHeapObjectsTracking(bool track_allocations) { ids_->UpdateHeapObjectsMap(); is_tracking_object_moves_ = true; DCHECK(!is_tracking_allocations()); if (track_allocations) { allocation_tracker_.reset(new AllocationTracker(ids_.get(), names_.get())); heap()->DisableInlineAllocation(); heap()->isolate()->debug()->feature_tracker()->Track( DebugFeatureTracker::kAllocationTracking); } } SnapshotObjectId HeapProfiler::PushHeapObjectsStats(OutputStream* stream, int64_t* timestamp_us) { return ids_->PushHeapObjectsStats(stream, timestamp_us); } void HeapProfiler::StopHeapObjectsTracking() { ids_->StopHeapObjectsTracking(); if (is_tracking_allocations()) { allocation_tracker_.reset(); heap()->EnableInlineAllocation(); } } size_t HeapProfiler::GetMemorySizeUsedByProfiler() { size_t size = sizeof(*this); size += names_->GetUsedMemorySize(); size += ids_->GetUsedMemorySize(); size += GetMemoryUsedByList(snapshots_); for (int i = 0; i < snapshots_.length(); ++i) { size += snapshots_[i]->RawSnapshotSize(); } return size; } int HeapProfiler::GetSnapshotsCount() { return snapshots_.length(); } HeapSnapshot* HeapProfiler::GetSnapshot(int index) { return snapshots_.at(index); } SnapshotObjectId HeapProfiler::GetSnapshotObjectId(Handle obj) { if (!obj->IsHeapObject()) return v8::HeapProfiler::kUnknownObjectId; return ids_->FindEntry(HeapObject::cast(*obj)->address()); } void HeapProfiler::ObjectMoveEvent(Address from, Address to, int size) { base::LockGuard guard(&profiler_mutex_); bool known_object = ids_->MoveObject(from, to, size); if (!known_object && allocation_tracker_) { allocation_tracker_->address_to_trace()->MoveObject(from, to, size); } } void HeapProfiler::AllocationEvent(Address addr, int size) { DisallowHeapAllocation no_allocation; if (allocation_tracker_) { allocation_tracker_->AllocationEvent(addr, size); } } void HeapProfiler::UpdateObjectSizeEvent(Address addr, int size) { ids_->UpdateObjectSize(addr, size); } Handle HeapProfiler::FindHeapObjectById(SnapshotObjectId id) { HeapObject* object = NULL; HeapIterator iterator(heap(), HeapIterator::kFilterUnreachable); // Make sure that object with the given id is still reachable. for (HeapObject* obj = iterator.next(); obj != NULL; obj = iterator.next()) { if (ids_->FindEntry(obj->address()) == id) { DCHECK(object == NULL); object = obj; // Can't break -- kFilterUnreachable requires full heap traversal. } } return object != NULL ? Handle(object) : Handle(); } void HeapProfiler::ClearHeapObjectMap() { ids_.reset(new HeapObjectsMap(heap())); if (!is_tracking_allocations()) is_tracking_object_moves_ = false; } Heap* HeapProfiler::heap() const { return ids_->heap(); } } // namespace internal } // namespace v8