third_party/perfetto/src/profiling/memory/bookkeeping_dump.cc - cobalt - Git at Google

 /*
  * Copyright (C) 2019 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 "src/profiling/memory/bookkeeping_dump.h"

 namespace perfetto {
 namespace profiling {
 namespace {
 using ::perfetto::protos::pbzero::ProfilePacket;
 // This needs to be lower than the maximum acceptable chunk size, because this
 // is checked *before* writing another submessage. We conservatively assume
 // submessages can be up to 100k here for a 500k chunk size.
 // DropBox has a 500k chunk limit, and each chunk needs to parse as a proto.
 uint32_t kPacketSizeThreshold = 400000;
 }  // namespace

 void DumpState::WriteMap(const Interned<Mapping> map) {
   intern_state_->WriteMap(map, GetCurrentInternedData());
 }

 void DumpState::WriteFrame(Interned<Frame> frame) {
   intern_state_->WriteFrame(frame, GetCurrentInternedData());
 }

 void DumpState::WriteBuildIDString(const Interned<std::string>& str) {
   intern_state_->WriteBuildIDString(str, GetCurrentInternedData());
 }

 void DumpState::WriteMappingPathString(const Interned<std::string>& str) {
   intern_state_->WriteMappingPathString(str, GetCurrentInternedData());
 }

 void DumpState::WriteFunctionNameString(const Interned<std::string>& str) {
   intern_state_->WriteFunctionNameString(str, GetCurrentInternedData());
 }

 void DumpState::WriteAllocation(const HeapTracker::CallstackAllocations& alloc,
                                 bool dump_at_max_mode) {
   if (intern_state_->IsCallstackNew(alloc.node->id())) {
     callstacks_to_dump_.emplace(alloc.node);
   }

   auto* heap_samples = GetCurrentProcessHeapSamples();
   ProfilePacket::HeapSample* sample = heap_samples->add_samples();
   sample->set_callstack_id(alloc.node->id());
   if (dump_at_max_mode) {
     sample->set_self_max(alloc.value.retain_max.max);
     sample->set_self_max_count(alloc.value.retain_max.max_count);
   } else {
     sample->set_self_allocated(alloc.value.totals.allocated);
     sample->set_self_freed(alloc.value.totals.freed);

     sample->set_alloc_count(alloc.value.totals.allocation_count);
     sample->set_free_count(alloc.value.totals.free_count);
   }
 }

 void DumpState::DumpCallstacks(GlobalCallstackTrie* callsites) {
   // We need a way to signal to consumers when they have fully consumed the
   // InternedData they need to understand the sequence of continued
   // ProfilePackets. The way we do that is to mark the last ProfilePacket as
   // continued, then emit the InternedData, and then an empty ProfilePacket
   // to terminate the sequence.
   //
   // This is why we set_continued at the beginning of this function, and
   // MakeProfilePacket at the end.
   if (current_trace_packet_)
     current_profile_packet_->set_continued(true);
   for (GlobalCallstackTrie::Node* node : callstacks_to_dump_) {
     intern_state_->WriteCallstack(node, callsites, GetCurrentInternedData());
   }
   MakeProfilePacket();
 }

 ProfilePacket::ProcessHeapSamples* DumpState::GetCurrentProcessHeapSamples() {
   if (currently_written() > kPacketSizeThreshold) {
     if (current_profile_packet_)
       current_profile_packet_->set_continued(true);
     MakeProfilePacket();
   }

   if (current_process_heap_samples_ == nullptr) {
     current_process_heap_samples_ =
         current_profile_packet_->add_process_dumps();
     current_process_fill_header_(current_process_heap_samples_);
   }

   return current_process_heap_samples_;
 }

 protos::pbzero::InternedData* DumpState::GetCurrentInternedData() {
   if (currently_written() > kPacketSizeThreshold)
     MakeTracePacket();

   if (current_interned_data_ == nullptr)
     current_interned_data_ = current_trace_packet_->set_interned_data();

   return current_interned_data_;
 }

 }  // namespace profiling
 }  // namespace perfetto
	/*
	* Copyright (C) 2019 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 "src/profiling/memory/bookkeeping_dump.h"

	namespace perfetto {
	namespace profiling {
	namespace {
	using ::perfetto::protos::pbzero::ProfilePacket;
	// This needs to be lower than the maximum acceptable chunk size, because this
	// is checked before writing another submessage. We conservatively assume
	// submessages can be up to 100k here for a 500k chunk size.
	// DropBox has a 500k chunk limit, and each chunk needs to parse as a proto.
	uint32_t kPacketSizeThreshold = 400000;
	} // namespace

	void DumpState::WriteMap(const Interned<Mapping> map) {
	intern_state_->WriteMap(map, GetCurrentInternedData());
	}

	void DumpState::WriteFrame(Interned<Frame> frame) {
	intern_state_->WriteFrame(frame, GetCurrentInternedData());
	}

	void DumpState::WriteBuildIDString(const Interned<std::string>& str) {
	intern_state_->WriteBuildIDString(str, GetCurrentInternedData());
	}

	void DumpState::WriteMappingPathString(const Interned<std::string>& str) {
	intern_state_->WriteMappingPathString(str, GetCurrentInternedData());
	}

	void DumpState::WriteFunctionNameString(const Interned<std::string>& str) {
	intern_state_->WriteFunctionNameString(str, GetCurrentInternedData());
	}

	void DumpState::WriteAllocation(const HeapTracker::CallstackAllocations& alloc,
	bool dump_at_max_mode) {
	if (intern_state_->IsCallstackNew(alloc.node->id())) {
	callstacks_to_dump_.emplace(alloc.node);
	}

	auto* heap_samples = GetCurrentProcessHeapSamples();
	ProfilePacket::HeapSample* sample = heap_samples->add_samples();
	sample->set_callstack_id(alloc.node->id());
	if (dump_at_max_mode) {
	sample->set_self_max(alloc.value.retain_max.max);
	sample->set_self_max_count(alloc.value.retain_max.max_count);
	} else {
	sample->set_self_allocated(alloc.value.totals.allocated);
	sample->set_self_freed(alloc.value.totals.freed);

	sample->set_alloc_count(alloc.value.totals.allocation_count);
	sample->set_free_count(alloc.value.totals.free_count);
	}
	}

	void DumpState::DumpCallstacks(GlobalCallstackTrie* callsites) {
	// We need a way to signal to consumers when they have fully consumed the
	// InternedData they need to understand the sequence of continued
	// ProfilePackets. The way we do that is to mark the last ProfilePacket as
	// continued, then emit the InternedData, and then an empty ProfilePacket
	// to terminate the sequence.
	//
	// This is why we set_continued at the beginning of this function, and
	// MakeProfilePacket at the end.
	if (current_trace_packet_)
	current_profile_packet_->set_continued(true);
	for (GlobalCallstackTrie::Node* node : callstacks_to_dump_) {
	intern_state_->WriteCallstack(node, callsites, GetCurrentInternedData());
	}
	MakeProfilePacket();
	}

	ProfilePacket::ProcessHeapSamples* DumpState::GetCurrentProcessHeapSamples() {
	if (currently_written() > kPacketSizeThreshold) {
	if (current_profile_packet_)
	current_profile_packet_->set_continued(true);
	MakeProfilePacket();
	}

	if (current_process_heap_samples_ == nullptr) {
	current_process_heap_samples_ =
	current_profile_packet_->add_process_dumps();
	current_process_fill_header_(current_process_heap_samples_);
	}

	return current_process_heap_samples_;
	}

	protos::pbzero::InternedData* DumpState::GetCurrentInternedData() {
	if (currently_written() > kPacketSizeThreshold)
	MakeTracePacket();

	if (current_interned_data_ == nullptr)
	current_interned_data_ = current_trace_packet_->set_interned_data();

	return current_interned_data_;
	}

	} // namespace profiling
	} // namespace perfetto