third_party/perfetto/src/profiling/common/interning_output.cc - cobalt - Git at Google

 /*
  * Copyright (C) 2020 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/common/interning_output.h"

 #include "protos/perfetto/trace/interned_data/interned_data.pbzero.h"
 #include "protos/perfetto/trace/profiling/profile_common.pbzero.h"
 #include "protos/perfetto/trace/profiling/profile_packet.pbzero.h"
 #include "protos/perfetto/trace/trace_packet.pbzero.h"

 namespace {
 // Flags used to distinguish distinct types of interned strings.
 constexpr int kDumpedBuildID = 1 << 0;
 constexpr int kDumpedMappingPath = 1 << 1;
 constexpr int kDumpedFunctionName = 1 << 2;
 }  // namespace

 namespace perfetto {
 namespace profiling {

 // static
 void InterningOutputTracker::WriteFixedInterningsPacket(
     TraceWriter* trace_writer,
     uint32_t sequence_flags) {
   constexpr const uint8_t kEmptyString[] = "";
   // Explicitly reserve intern ID 0 for the empty string, so unset string
   // fields get mapped to this.
   auto packet = trace_writer->NewTracePacket();
   auto* interned_data = packet->set_interned_data();
   auto* interned_string = interned_data->add_build_ids();
   interned_string->set_iid(0);
   interned_string->set_str(kEmptyString, 0);

   interned_string = interned_data->add_mapping_paths();
   interned_string->set_iid(0);
   interned_string->set_str(kEmptyString, 0);

   interned_string = interned_data->add_function_names();
   interned_string->set_iid(0);
   interned_string->set_str(kEmptyString, 0);

   if (sequence_flags) {
     packet->set_sequence_flags(sequence_flags);
   }
 }

 void InterningOutputTracker::WriteMap(const Interned<Mapping> map,
                                       protos::pbzero::InternedData* out) {
   auto map_it_and_inserted = dumped_mappings_.emplace(map.id());
   if (map_it_and_inserted.second) {
     for (const Interned<std::string>& str : map->path_components)
       WriteMappingPathString(str, out);

     WriteBuildIDString(map->build_id, out);

     protos::pbzero::Mapping* mapping = out->add_mappings();
     mapping->set_iid(map.id());
     mapping->set_exact_offset(map->exact_offset);
     mapping->set_start_offset(map->start_offset);
     mapping->set_start(map->start);
     mapping->set_end(map->end);
     mapping->set_load_bias(map->load_bias);
     mapping->set_build_id(map->build_id.id());
     for (const Interned<std::string>& str : map->path_components)
       mapping->add_path_string_ids(str.id());
   }
 }

 void InterningOutputTracker::WriteFrame(Interned<Frame> frame,
                                         protos::pbzero::InternedData* out) {
   // Trace processor depends on the map being written before the
   // frame. See StackProfileTracker::AddFrame.
   WriteMap(frame->mapping, out);
   WriteFunctionNameString(frame->function_name, out);
   bool inserted;
   std::tie(std::ignore, inserted) = dumped_frames_.emplace(frame.id());
   if (inserted) {
     protos::pbzero::Frame* frame_proto = out->add_frames();
     frame_proto->set_iid(frame.id());
     frame_proto->set_function_name_id(frame->function_name.id());
     frame_proto->set_mapping_id(frame->mapping.id());
     frame_proto->set_rel_pc(frame->rel_pc);
   }
 }

 void InterningOutputTracker::WriteBuildIDString(
     const Interned<std::string>& str,
     protos::pbzero::InternedData* out) {
   auto it_and_inserted = dumped_strings_.emplace(str.id(), 0);
   auto it = it_and_inserted.first;
   // This is for the rare case that the same string is used as two different
   // types (e.g. a function name that matches a path segment). In that case
   // we need to emit the string as all of its types.
   if ((it->second & kDumpedBuildID) == 0) {
     protos::pbzero::InternedString* interned_string = out->add_build_ids();
     interned_string->set_iid(str.id());
     interned_string->set_str(str.data());
     it->second |= kDumpedBuildID;
   }
 }

 void InterningOutputTracker::WriteMappingPathString(
     const Interned<std::string>& str,
     protos::pbzero::InternedData* out) {
   auto it_and_inserted = dumped_strings_.emplace(str.id(), 0);
   auto it = it_and_inserted.first;
   // This is for the rare case that the same string is used as two different
   // types (e.g. a function name that matches a path segment). In that case
   // we need to emit the string as all of its types.
   if ((it->second & kDumpedMappingPath) == 0) {
     protos::pbzero::InternedString* interned_string = out->add_mapping_paths();
     interned_string->set_iid(str.id());
     interned_string->set_str(str.data());
     it->second |= kDumpedMappingPath;
   }
 }

 void InterningOutputTracker::WriteFunctionNameString(
     const Interned<std::string>& str,
     protos::pbzero::InternedData* out) {
   auto it_and_inserted = dumped_strings_.emplace(str.id(), 0);
   auto it = it_and_inserted.first;
   // This is for the rare case that the same string is used as two different
   // types (e.g. a function name that matches a path segment). In that case
   // we need to emit the string as all of its types.
   if ((it->second & kDumpedFunctionName) == 0) {
     protos::pbzero::InternedString* interned_string = out->add_function_names();
     interned_string->set_iid(str.id());
     interned_string->set_str(str.data());
     it->second |= kDumpedFunctionName;
   }
 }

 void InterningOutputTracker::WriteCallstack(GlobalCallstackTrie::Node* node,
                                             GlobalCallstackTrie* trie,
                                             protos::pbzero::InternedData* out) {
   bool inserted;
   std::tie(std::ignore, inserted) = dumped_callstacks_.emplace(node->id());
   if (inserted) {
     // There need to be two separate loops over built_callstack because
     // protozero cannot interleave different messages.
     auto built_callstack = trie->BuildInverseCallstack(node);
     for (const Interned<Frame>& frame : built_callstack)
       WriteFrame(frame, out);

     protos::pbzero::Callstack* callstack = out->add_callstacks();
     callstack->set_iid(node->id());
     for (auto frame_it = built_callstack.crbegin();
          frame_it != built_callstack.crend(); ++frame_it) {
       const Interned<Frame>& frame = *frame_it;
       callstack->add_frame_ids(frame.id());
     }
   }
 }

 void InterningOutputTracker::ClearHistory() {
   dumped_strings_.clear();
   dumped_frames_.clear();
   dumped_mappings_.clear();
   dumped_callstacks_.clear();
 }

 }  // namespace profiling
 }  // namespace perfetto
	/*
	* Copyright (C) 2020 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/common/interning_output.h"

	#include "protos/perfetto/trace/interned_data/interned_data.pbzero.h"
	#include "protos/perfetto/trace/profiling/profile_common.pbzero.h"
	#include "protos/perfetto/trace/profiling/profile_packet.pbzero.h"
	#include "protos/perfetto/trace/trace_packet.pbzero.h"

	namespace {
	// Flags used to distinguish distinct types of interned strings.
	constexpr int kDumpedBuildID = 1 << 0;
	constexpr int kDumpedMappingPath = 1 << 1;
	constexpr int kDumpedFunctionName = 1 << 2;
	} // namespace

	namespace perfetto {
	namespace profiling {

	// static
	void InterningOutputTracker::WriteFixedInterningsPacket(
	TraceWriter* trace_writer,
	uint32_t sequence_flags) {
	constexpr const uint8_t kEmptyString[] = "";
	// Explicitly reserve intern ID 0 for the empty string, so unset string
	// fields get mapped to this.
	auto packet = trace_writer->NewTracePacket();
	auto* interned_data = packet->set_interned_data();
	auto* interned_string = interned_data->add_build_ids();
	interned_string->set_iid(0);
	interned_string->set_str(kEmptyString, 0);

	interned_string = interned_data->add_mapping_paths();
	interned_string->set_iid(0);
	interned_string->set_str(kEmptyString, 0);

	interned_string = interned_data->add_function_names();
	interned_string->set_iid(0);
	interned_string->set_str(kEmptyString, 0);

	if (sequence_flags) {
	packet->set_sequence_flags(sequence_flags);
	}
	}

	void InterningOutputTracker::WriteMap(const Interned<Mapping> map,
	protos::pbzero::InternedData* out) {
	auto map_it_and_inserted = dumped_mappings_.emplace(map.id());
	if (map_it_and_inserted.second) {
	for (const Interned<std::string>& str : map->path_components)
	WriteMappingPathString(str, out);

	WriteBuildIDString(map->build_id, out);

	protos::pbzero::Mapping* mapping = out->add_mappings();
	mapping->set_iid(map.id());
	mapping->set_exact_offset(map->exact_offset);
	mapping->set_start_offset(map->start_offset);
	mapping->set_start(map->start);
	mapping->set_end(map->end);
	mapping->set_load_bias(map->load_bias);
	mapping->set_build_id(map->build_id.id());
	for (const Interned<std::string>& str : map->path_components)
	mapping->add_path_string_ids(str.id());
	}
	}

	void InterningOutputTracker::WriteFrame(Interned<Frame> frame,
	protos::pbzero::InternedData* out) {
	// Trace processor depends on the map being written before the
	// frame. See StackProfileTracker::AddFrame.
	WriteMap(frame->mapping, out);
	WriteFunctionNameString(frame->function_name, out);
	bool inserted;
	std::tie(std::ignore, inserted) = dumped_frames_.emplace(frame.id());
	if (inserted) {
	protos::pbzero::Frame* frame_proto = out->add_frames();
	frame_proto->set_iid(frame.id());
	frame_proto->set_function_name_id(frame->function_name.id());
	frame_proto->set_mapping_id(frame->mapping.id());
	frame_proto->set_rel_pc(frame->rel_pc);
	}
	}

	void InterningOutputTracker::WriteBuildIDString(
	const Interned<std::string>& str,
	protos::pbzero::InternedData* out) {
	auto it_and_inserted = dumped_strings_.emplace(str.id(), 0);
	auto it = it_and_inserted.first;
	// This is for the rare case that the same string is used as two different
	// types (e.g. a function name that matches a path segment). In that case
	// we need to emit the string as all of its types.
	if ((it->second & kDumpedBuildID) == 0) {
	protos::pbzero::InternedString* interned_string = out->add_build_ids();
	interned_string->set_iid(str.id());
	interned_string->set_str(str.data());
	it->second \|= kDumpedBuildID;
	}
	}

	void InterningOutputTracker::WriteMappingPathString(
	const Interned<std::string>& str,
	protos::pbzero::InternedData* out) {
	auto it_and_inserted = dumped_strings_.emplace(str.id(), 0);
	auto it = it_and_inserted.first;
	// This is for the rare case that the same string is used as two different
	// types (e.g. a function name that matches a path segment). In that case
	// we need to emit the string as all of its types.
	if ((it->second & kDumpedMappingPath) == 0) {
	protos::pbzero::InternedString* interned_string = out->add_mapping_paths();
	interned_string->set_iid(str.id());
	interned_string->set_str(str.data());
	it->second \|= kDumpedMappingPath;
	}
	}

	void InterningOutputTracker::WriteFunctionNameString(
	const Interned<std::string>& str,
	protos::pbzero::InternedData* out) {
	auto it_and_inserted = dumped_strings_.emplace(str.id(), 0);
	auto it = it_and_inserted.first;
	// This is for the rare case that the same string is used as two different
	// types (e.g. a function name that matches a path segment). In that case
	// we need to emit the string as all of its types.
	if ((it->second & kDumpedFunctionName) == 0) {
	protos::pbzero::InternedString* interned_string = out->add_function_names();
	interned_string->set_iid(str.id());
	interned_string->set_str(str.data());
	it->second \|= kDumpedFunctionName;
	}
	}

	void InterningOutputTracker::WriteCallstack(GlobalCallstackTrie::Node* node,
	GlobalCallstackTrie* trie,
	protos::pbzero::InternedData* out) {
	bool inserted;
	std::tie(std::ignore, inserted) = dumped_callstacks_.emplace(node->id());
	if (inserted) {
	// There need to be two separate loops over built_callstack because
	// protozero cannot interleave different messages.
	auto built_callstack = trie->BuildInverseCallstack(node);
	for (const Interned<Frame>& frame : built_callstack)
	WriteFrame(frame, out);

	protos::pbzero::Callstack* callstack = out->add_callstacks();
	callstack->set_iid(node->id());
	for (auto frame_it = built_callstack.crbegin();
	frame_it != built_callstack.crend(); ++frame_it) {
	const Interned<Frame>& frame = *frame_it;
	callstack->add_frame_ids(frame.id());
	}
	}
	}

	void InterningOutputTracker::ClearHistory() {
	dumped_strings_.clear();
	dumped_frames_.clear();
	dumped_mappings_.clear();
	dumped_callstacks_.clear();
	}

	} // namespace profiling
	} // namespace perfetto