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9.0.0_r8
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external
v8
src
profiler
sampling-heap-profiler.cc
// Copyright 2015 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/sampling-heap-profiler.h" #include
#include
#include "src/api.h" #include "src/base/ieee754.h" #include "src/base/utils/random-number-generator.h" #include "src/frames-inl.h" #include "src/heap/heap.h" #include "src/isolate.h" #include "src/profiler/strings-storage.h" namespace v8 { namespace internal { // We sample with a Poisson process, with constant average sampling interval. // This follows the exponential probability distribution with parameter // λ = 1/rate where rate is the average number of bytes between samples. // // Let u be a uniformly distributed random number between 0 and 1, then // next_sample = (- ln u) / λ intptr_t SamplingAllocationObserver::GetNextSampleInterval(uint64_t rate) { if (FLAG_sampling_heap_profiler_suppress_randomness) { return static_cast
(rate); } double u = random_->NextDouble(); double next = (-base::ieee754::log(u)) * rate; return next < kPointerSize ? kPointerSize : (next > INT_MAX ? INT_MAX : static_cast
(next)); } // Samples were collected according to a poisson process. Since we have not // recorded all allocations, we must approximate the shape of the underlying // space of allocations based on the samples we have collected. Given that // we sample at rate R, the probability that an allocation of size S will be // sampled is 1-exp(-S/R). This function uses the above probability to // approximate the true number of allocations with size *size* given that // *count* samples were observed. v8::AllocationProfile::Allocation SamplingHeapProfiler::ScaleSample( size_t size, unsigned int count) { double scale = 1.0 / (1.0 - std::exp(-static_cast
(size) / rate_)); // Round count instead of truncating. return {size, static_cast
(count * scale + 0.5)}; } SamplingHeapProfiler::SamplingHeapProfiler( Heap* heap, StringsStorage* names, uint64_t rate, int stack_depth, v8::HeapProfiler::SamplingFlags flags) : isolate_(heap->isolate()), heap_(heap), new_space_observer_(new SamplingAllocationObserver( heap_, static_cast
(rate), rate, this, heap->isolate()->random_number_generator())), other_spaces_observer_(new SamplingAllocationObserver( heap_, static_cast
(rate), rate, this, heap->isolate()->random_number_generator())), names_(names), profile_root_(nullptr, "(root)", v8::UnboundScript::kNoScriptId, 0), samples_(), stack_depth_(stack_depth), rate_(rate), flags_(flags) { CHECK_GT(rate_, 0u); heap->new_space()->AddAllocationObserver(new_space_observer_.get()); AllSpaces spaces(heap); for (Space* space = spaces.next(); space != nullptr; space = spaces.next()) { if (space != heap->new_space()) { space->AddAllocationObserver(other_spaces_observer_.get()); } } } SamplingHeapProfiler::~SamplingHeapProfiler() { heap_->new_space()->RemoveAllocationObserver(new_space_observer_.get()); AllSpaces spaces(heap_); for (Space* space = spaces.next(); space != nullptr; space = spaces.next()) { if (space != heap_->new_space()) { space->RemoveAllocationObserver(other_spaces_observer_.get()); } } for (auto sample : samples_) { delete sample; } std::set
empty; samples_.swap(empty); } void SamplingHeapProfiler::SampleObject(Address soon_object, size_t size) { DisallowHeapAllocation no_allocation; HandleScope scope(isolate_); HeapObject* heap_object = HeapObject::FromAddress(soon_object); Handle
obj(heap_object, isolate_); // Mark the new block as FreeSpace to make sure the heap is iterable while we // are taking the sample. heap()->CreateFillerObjectAt(soon_object, static_cast
(size), ClearRecordedSlots::kNo); Local
loc = v8::Utils::ToLocal(obj); AllocationNode* node = AddStack(); node->allocations_[size]++; Sample* sample = new Sample(size, node, loc, this); samples_.insert(sample); sample->global.SetWeak(sample, OnWeakCallback, WeakCallbackType::kParameter); sample->global.MarkIndependent(); } void SamplingHeapProfiler::OnWeakCallback( const WeakCallbackInfo
& data) { Sample* sample = data.GetParameter(); AllocationNode* node = sample->owner; DCHECK(node->allocations_[sample->size] > 0); node->allocations_[sample->size]--; if (node->allocations_[sample->size] == 0) { node->allocations_.erase(sample->size); while (node->allocations_.empty() && node->children_.empty() && node->parent_ && !node->parent_->pinned_) { AllocationNode* parent = node->parent_; AllocationNode::FunctionId id = AllocationNode::function_id( node->script_id_, node->script_position_, node->name_); parent->children_.erase(id); delete node; node = parent; } } sample->profiler->samples_.erase(sample); delete sample; } SamplingHeapProfiler::AllocationNode* SamplingHeapProfiler::AllocationNode::FindOrAddChildNode(const char* name, int script_id, int start_position) { FunctionId id = function_id(script_id, start_position, name); auto it = children_.find(id); if (it != children_.end()) { DCHECK(strcmp(it->second->name_, name) == 0); return it->second; } auto child = new AllocationNode(this, name, script_id, start_position); children_.insert(std::make_pair(id, child)); return child; } SamplingHeapProfiler::AllocationNode* SamplingHeapProfiler::AddStack() { AllocationNode* node = &profile_root_; std::vector
stack; JavaScriptFrameIterator it(isolate_); int frames_captured = 0; while (!it.done() && frames_captured < stack_depth_) { JavaScriptFrame* frame = it.frame(); SharedFunctionInfo* shared = frame->function()->shared(); stack.push_back(shared); frames_captured++; it.Advance(); } if (frames_captured == 0) { const char* name = nullptr; switch (isolate_->current_vm_state()) { case GC: name = "(GC)"; break; case COMPILER: name = "(COMPILER)"; break; case OTHER: name = "(V8 API)"; break; case EXTERNAL: name = "(EXTERNAL)"; break; case IDLE: name = "(IDLE)"; break; case JS: name = "(JS)"; break; } return node->FindOrAddChildNode(name, v8::UnboundScript::kNoScriptId, 0); } // We need to process the stack in reverse order as the top of the stack is // the first element in the list. for (auto it = stack.rbegin(); it != stack.rend(); ++it) { SharedFunctionInfo* shared = *it; const char* name = this->names()->GetFunctionName(shared->DebugName()); int script_id = v8::UnboundScript::kNoScriptId; if (shared->script()->IsScript()) { Script* script = Script::cast(shared->script()); script_id = script->id(); } node = node->FindOrAddChildNode(name, script_id, shared->start_position()); } return node; } v8::AllocationProfile::Node* SamplingHeapProfiler::TranslateAllocationNode( AllocationProfile* profile, SamplingHeapProfiler::AllocationNode* node, const std::map
>& scripts) { // By pinning the node we make sure its children won't get disposed if // a GC kicks in during the tree retrieval. node->pinned_ = true; Local
script_name = ToApiHandle
(isolate_->factory()->InternalizeUtf8String("")); int line = v8::AllocationProfile::kNoLineNumberInfo; int column = v8::AllocationProfile::kNoColumnNumberInfo; std::vector
allocations; allocations.reserve(node->allocations_.size()); if (node->script_id_ != v8::UnboundScript::kNoScriptId && scripts.find(node->script_id_) != scripts.end()) { // Cannot use std::map
::at because it is not available on android. auto non_const_scripts = const_cast
>&>(scripts); Handle
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