third_party/perfetto/src/trace_processor/util/annotated_callsites.cc - cobalt - Git at Google

 /*
  * Copyright (C) 2021 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/trace_processor/util/annotated_callsites.h"

 #include <iostream>
 #include <optional>

 #include "src/trace_processor/tables/profiler_tables_py.h"
 #include "src/trace_processor/types/trace_processor_context.h"

 namespace perfetto {
 namespace trace_processor {

 AnnotatedCallsites::AnnotatedCallsites(const TraceProcessorContext* context)
     : context_(*context),
       // String to identify trampoline frames. If the string does not exist in
       // TraceProcessor's StringPool (nullopt) then there will be no trampoline
       // frames in the trace so there is no point in adding it to the pool to do
       // all comparisons, instead we initialize the member to std::nullopt and
       // the string comparisons will all fail.
       art_jni_trampoline_(
           context->storage->string_pool().GetId("art_jni_trampoline")) {}

 AnnotatedCallsites::State AnnotatedCallsites::GetState(
     std::optional<CallsiteId> id) {
   if (!id) {
     return State::kInitial;
   }
   auto it = states_.find(*id);
   if (it != states_.end()) {
     return it->second;
   }

   State state =
       Get(*context_.storage->stack_profile_callsite_table().FindById(*id))
           .first;
   states_.emplace(*id, state);
   return state;
 }

 std::pair<AnnotatedCallsites::State, CallsiteAnnotation>
 AnnotatedCallsites::Get(
     const tables::StackProfileCallsiteTable::ConstRowReference& callsite) {
   State state = GetState(callsite.parent_id());

   // Keep immediate callee of a JNI trampoline, but keep tagging all
   // successive libart frames as common.
   if (state == State::kKeepNext) {
     return {State::kEraseLibart, CallsiteAnnotation::kNone};
   }

   // Special-case "art_jni_trampoline" frames, keeping their immediate callee
   // even if it is in libart, as it could be a native implementation of a
   // managed method. Example for "java.lang.reflect.Method.Invoke":
   //   art_jni_trampoline
   //   art::Method_invoke(_JNIEnv*, _jobject*, _jobject*, _jobjectArray*)
   //
   // Simpleperf also relies on this frame name, so it should be fairly stable.
   // TODO(rsavitski): consider detecting standard JNI upcall entrypoints -
   // _JNIEnv::Call*. These are sometimes inlined into other DSOs, so erasing
   // only the libart frames does not clean up all of the JNI-related frames.
   auto frame = *context_.storage->stack_profile_frame_table().FindById(
       callsite.frame_id());
   // art_jni_trampoline_ could be std::nullopt if the string does not exist in
   // the StringPool, but that also means no frame will ever have that name.
   if (art_jni_trampoline_.has_value() &&
       frame.name() == art_jni_trampoline_.value()) {
     return {State::kKeepNext, CallsiteAnnotation::kCommonFrame};
   }

   MapType map_type = GetMapType(frame.mapping());

   // Annotate managed frames.
   if (map_type == MapType::kArtInterp ||  //
       map_type == MapType::kArtJit ||     //
       map_type == MapType::kArtAot) {
     // Now know to be in a managed callstack - erase subsequent ART frames.
     if (state == State::kInitial) {
       state = State::kEraseLibart;
     }

     if (map_type == MapType::kArtInterp)
       return {state, CallsiteAnnotation::kArtInterpreted};
     if (map_type == MapType::kArtJit)
       return {state, CallsiteAnnotation::kArtJit};
     if (map_type == MapType::kArtAot)
       return {state, CallsiteAnnotation::kArtAot};
   }

   // Mixed callstack, tag libart frames as uninteresting (common-frame).
   // Special case a subset of interpreter implementation frames as
   // "common-frame-interp" using frame name prefixes. Those functions are
   // actually executed, whereas the managed "interp" frames are synthesised as
   // their caller by the unwinding library (based on the dex_pc virtual
   // register restored using the libart's DWARF info). The heuristic covers
   // the "nterp" and "switch" interpreter implementations.
   //
   // Example:
   //  <towards root>
   //  android.view.WindowLayout.computeFrames [interp]
   //  nterp_op_iget_object_slow_path [common-frame-interp]
   //
   // This annotation is helpful when trying to answer "what mode was the
   // process in?" based on the leaf frame of the callstack. As we want to
   // classify such cases as interpreted, even though the leaf frame is
   // libart.so.
   //
   // For "switch" interpreter, we match any frame starting with
   // "art::interpreter::" according to itanium mangling.
   if (state == State::kEraseLibart && map_type == MapType::kNativeLibart) {
     NullTermStringView fname = context_.storage->GetString(frame.name());
     if (fname.StartsWith("nterp_") || fname.StartsWith("Nterp") ||
         fname.StartsWith("ExecuteNterp") ||
         fname.StartsWith("ExecuteSwitchImpl") ||
         fname.StartsWith("_ZN3art11interpreter")) {
       return {state, CallsiteAnnotation::kCommonFrameInterp};
     }
     return {state, CallsiteAnnotation::kCommonFrame};
   }

   return {state, CallsiteAnnotation::kNone};
 }

 AnnotatedCallsites::MapType AnnotatedCallsites::GetMapType(MappingId id) {
   auto it = map_types_.find(id);
   if (it != map_types_.end()) {
     return it->second;
   }

   return map_types_
       .emplace(id, ClassifyMap(context_.storage->GetString(
                        context_.storage->stack_profile_mapping_table()
                            .FindById(id)
                            ->name())))
       .first->second;
 }

 AnnotatedCallsites::MapType AnnotatedCallsites::ClassifyMap(
     NullTermStringView map) {
   if (map.empty())
     return MapType::kOther;

   // Primary mapping where modern ART puts jitted code.
   // The Zygote's JIT region is inherited by all descendant apps, so it can
   // still appear in their callstacks.
   if (map.StartsWith("/memfd:jit-cache") ||
       map.StartsWith("/memfd:jit-zygote-cache")) {
     return MapType::kArtJit;
   }

   size_t last_slash_pos = map.rfind('/');
   if (last_slash_pos != NullTermStringView::npos) {
     base::StringView suffix = map.substr(last_slash_pos);
     if (suffix.StartsWith("/libart.so") || suffix.StartsWith("/libartd.so"))
       return MapType::kNativeLibart;
   }

   size_t extension_pos = map.rfind('.');
   if (extension_pos != NullTermStringView::npos) {
     base::StringView suffix = map.substr(extension_pos);
     if (suffix.StartsWith(".so"))
       return MapType::kNativeOther;
     // unqualified dex
     if (suffix.StartsWith(".dex"))
       return MapType::kArtInterp;
     // dex with verification speedup info, produced by dex2oat
     if (suffix.StartsWith(".vdex"))
       return MapType::kArtInterp;
     // possibly uncompressed dex in a jar archive
     if (suffix.StartsWith(".jar"))
       return MapType::kArtInterp;
     // android package (zip file), this can contain uncompressed dexes or
     // native libraries that are mmap'd directly into the process. We rely on
     // libunwindstack's MapInfo::GetFullName, which suffixes the mapping with
     // "!lib.so" if it knows that the referenced piece of the archive is an
     // uncompressed ELF file. So an unadorned ".apk" is assumed to be a dex
     // file.
     if (suffix.StartsWith(".apk"))
       return MapType::kArtInterp;
     // ahead of time compiled ELFs
     if (suffix.StartsWith(".oat"))
       return MapType::kArtAot;
     // older/alternative name for .oat
     if (suffix.StartsWith(".odex"))
       return MapType::kArtAot;
   }
   return MapType::kOther;
 }

 }  // namespace trace_processor
 }  // namespace perfetto
	/*
	* Copyright (C) 2021 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/trace_processor/util/annotated_callsites.h"

	#include <iostream>
	#include <optional>

	#include "src/trace_processor/tables/profiler_tables_py.h"
	#include "src/trace_processor/types/trace_processor_context.h"

	namespace perfetto {
	namespace trace_processor {

	AnnotatedCallsites::AnnotatedCallsites(const TraceProcessorContext* context)
	: context_(*context),
	// String to identify trampoline frames. If the string does not exist in
	// TraceProcessor's StringPool (nullopt) then there will be no trampoline
	// frames in the trace so there is no point in adding it to the pool to do
	// all comparisons, instead we initialize the member to std::nullopt and
	// the string comparisons will all fail.
	art_jni_trampoline_(
	context->storage->string_pool().GetId("art_jni_trampoline")) {}

	AnnotatedCallsites::State AnnotatedCallsites::GetState(
	std::optional<CallsiteId> id) {
	if (!id) {
	return State::kInitial;
	}
	auto it = states_.find(*id);
	if (it != states_.end()) {
	return it->second;
	}

	State state =
	Get(context_.storage->stack_profile_callsite_table().FindById(id))
	.first;
	states_.emplace(*id, state);
	return state;
	}

	std::pair<AnnotatedCallsites::State, CallsiteAnnotation>
	AnnotatedCallsites::Get(
	const tables::StackProfileCallsiteTable::ConstRowReference& callsite) {
	State state = GetState(callsite.parent_id());

	// Keep immediate callee of a JNI trampoline, but keep tagging all
	// successive libart frames as common.
	if (state == State::kKeepNext) {
	return {State::kEraseLibart, CallsiteAnnotation::kNone};
	}

	// Special-case "art_jni_trampoline" frames, keeping their immediate callee
	// even if it is in libart, as it could be a native implementation of a
	// managed method. Example for "java.lang.reflect.Method.Invoke":
	// art_jni_trampoline
	// art::Method_invoke(_JNIEnv, _jobject, _jobject, _jobjectArray)
	//
	// Simpleperf also relies on this frame name, so it should be fairly stable.
	// TODO(rsavitski): consider detecting standard JNI upcall entrypoints -
	// _JNIEnv::Call*. These are sometimes inlined into other DSOs, so erasing
	// only the libart frames does not clean up all of the JNI-related frames.
	auto frame = *context_.storage->stack_profile_frame_table().FindById(
	callsite.frame_id());
	// art_jni_trampoline_ could be std::nullopt if the string does not exist in
	// the StringPool, but that also means no frame will ever have that name.
	if (art_jni_trampoline_.has_value() &&
	frame.name() == art_jni_trampoline_.value()) {
	return {State::kKeepNext, CallsiteAnnotation::kCommonFrame};
	}

	MapType map_type = GetMapType(frame.mapping());

	// Annotate managed frames.
	if (map_type == MapType::kArtInterp \|\| //
	map_type == MapType::kArtJit \|\| //
	map_type == MapType::kArtAot) {
	// Now know to be in a managed callstack - erase subsequent ART frames.
	if (state == State::kInitial) {
	state = State::kEraseLibart;
	}

	if (map_type == MapType::kArtInterp)
	return {state, CallsiteAnnotation::kArtInterpreted};
	if (map_type == MapType::kArtJit)
	return {state, CallsiteAnnotation::kArtJit};
	if (map_type == MapType::kArtAot)
	return {state, CallsiteAnnotation::kArtAot};
	}

	// Mixed callstack, tag libart frames as uninteresting (common-frame).
	// Special case a subset of interpreter implementation frames as
	// "common-frame-interp" using frame name prefixes. Those functions are
	// actually executed, whereas the managed "interp" frames are synthesised as
	// their caller by the unwinding library (based on the dex_pc virtual
	// register restored using the libart's DWARF info). The heuristic covers
	// the "nterp" and "switch" interpreter implementations.
	//
	// Example:
	// <towards root>
	// android.view.WindowLayout.computeFrames [interp]
	// nterp_op_iget_object_slow_path [common-frame-interp]
	//
	// This annotation is helpful when trying to answer "what mode was the
	// process in?" based on the leaf frame of the callstack. As we want to
	// classify such cases as interpreted, even though the leaf frame is
	// libart.so.
	//
	// For "switch" interpreter, we match any frame starting with
	// "art::interpreter::" according to itanium mangling.
	if (state == State::kEraseLibart && map_type == MapType::kNativeLibart) {
	NullTermStringView fname = context_.storage->GetString(frame.name());
	if (fname.StartsWith("nterp_") \|\| fname.StartsWith("Nterp") \|\|
	fname.StartsWith("ExecuteNterp") \|\|
	fname.StartsWith("ExecuteSwitchImpl") \|\|
	fname.StartsWith("_ZN3art11interpreter")) {
	return {state, CallsiteAnnotation::kCommonFrameInterp};
	}
	return {state, CallsiteAnnotation::kCommonFrame};
	}

	return {state, CallsiteAnnotation::kNone};
	}

	AnnotatedCallsites::MapType AnnotatedCallsites::GetMapType(MappingId id) {
	auto it = map_types_.find(id);
	if (it != map_types_.end()) {
	return it->second;
	}

	return map_types_
	.emplace(id, ClassifyMap(context_.storage->GetString(
	context_.storage->stack_profile_mapping_table()
	.FindById(id)
	->name())))
	.first->second;
	}

	AnnotatedCallsites::MapType AnnotatedCallsites::ClassifyMap(
	NullTermStringView map) {
	if (map.empty())
	return MapType::kOther;

	// Primary mapping where modern ART puts jitted code.
	// The Zygote's JIT region is inherited by all descendant apps, so it can
	// still appear in their callstacks.
	if (map.StartsWith("/memfd:jit-cache") \|\|
	map.StartsWith("/memfd:jit-zygote-cache")) {
	return MapType::kArtJit;
	}

	size_t last_slash_pos = map.rfind('/');
	if (last_slash_pos != NullTermStringView::npos) {
	base::StringView suffix = map.substr(last_slash_pos);
	if (suffix.StartsWith("/libart.so") \|\| suffix.StartsWith("/libartd.so"))
	return MapType::kNativeLibart;
	}

	size_t extension_pos = map.rfind('.');
	if (extension_pos != NullTermStringView::npos) {
	base::StringView suffix = map.substr(extension_pos);
	if (suffix.StartsWith(".so"))
	return MapType::kNativeOther;
	// unqualified dex
	if (suffix.StartsWith(".dex"))
	return MapType::kArtInterp;
	// dex with verification speedup info, produced by dex2oat
	if (suffix.StartsWith(".vdex"))
	return MapType::kArtInterp;
	// possibly uncompressed dex in a jar archive
	if (suffix.StartsWith(".jar"))
	return MapType::kArtInterp;
	// android package (zip file), this can contain uncompressed dexes or
	// native libraries that are mmap'd directly into the process. We rely on
	// libunwindstack's MapInfo::GetFullName, which suffixes the mapping with
	// "!lib.so" if it knows that the referenced piece of the archive is an
	// uncompressed ELF file. So an unadorned ".apk" is assumed to be a dex
	// file.
	if (suffix.StartsWith(".apk"))
	return MapType::kArtInterp;
	// ahead of time compiled ELFs
	if (suffix.StartsWith(".oat"))
	return MapType::kArtAot;
	// older/alternative name for .oat
	if (suffix.StartsWith(".odex"))
	return MapType::kArtAot;
	}
	return MapType::kOther;
	}

	} // namespace trace_processor
	} // namespace perfetto