src/protozero/message.cc - third_party/perfetto - Git at Google

 /*
  * Copyright (C) 2017 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 "perfetto/protozero/message.h"

 #include <atomic>
 #include <type_traits>

 #include "perfetto/base/compiler.h"
 #include "perfetto/base/logging.h"
 #include "perfetto/protozero/message_arena.h"
 #include "perfetto/protozero/message_handle.h"

 #if !PERFETTO_IS_LITTLE_ENDIAN()
 // The memcpy() for float and double below needs to be adjusted if we want to
 // support big endian CPUs. There doesn't seem to be a compelling need today.
 #error Unimplemented for big endian archs.
 #endif

 namespace protozero {

 namespace {

 constexpr int kBytesToCompact = proto_utils::kMessageLengthFieldSize - 1u;

 #if PERFETTO_DCHECK_IS_ON()
 std::atomic<uint32_t> g_generation;
 #endif

 }  // namespace

 // Do NOT put any code in the constructor or use default initialization.
 // Use the Reset() method below instead.

 // This method is called to initialize both root and nested messages.
 void Message::Reset(ScatteredStreamWriter* stream_writer, MessageArena* arena) {
 // Older versions of libstdcxx don't have is_trivially_constructible.
 #if !defined(__GLIBCXX__) || __GLIBCXX__ >= 20170516
   static_assert(std::is_trivially_constructible<Message>::value,
                 "Message must be trivially constructible");
 #endif

   static_assert(std::is_trivially_destructible<Message>::value,
                 "Message must be trivially destructible");
   stream_writer_ = stream_writer;
   arena_ = arena;
   size_ = 0;
   size_field_ = nullptr;
   nested_message_ = nullptr;
   message_state_ = MessageState::kNotFinalized;
 #if PERFETTO_DCHECK_IS_ON()
   handle_ = nullptr;
   generation_ = g_generation.fetch_add(1, std::memory_order_relaxed);
 #endif
 }

 void Message::AppendString(uint32_t field_id, const char* str) {
   AppendBytes(field_id, str, strlen(str));
 }

 void Message::AppendBytes(uint32_t field_id, const void* src, size_t size) {
   PERFETTO_DCHECK(field_id);
   if (nested_message_)
     EndNestedMessage();

   PERFETTO_DCHECK(size < proto_utils::kMaxMessageLength);
   // Write the proto preamble (field id, type and length of the field).
   uint8_t buffer[proto_utils::kMaxSimpleFieldEncodedSize];
   uint8_t* pos = buffer;
   pos = proto_utils::WriteVarInt(proto_utils::MakeTagLengthDelimited(field_id),
                                  pos);
   pos = proto_utils::WriteVarInt(static_cast<uint32_t>(size), pos);
   WriteToStream(buffer, pos);

   const uint8_t* src_u8 = reinterpret_cast<const uint8_t*>(src);
   WriteToStream(src_u8, src_u8 + size);
 }

 size_t Message::AppendScatteredBytes(uint32_t field_id,
                                      ContiguousMemoryRange* ranges,
                                      size_t num_ranges) {
   PERFETTO_DCHECK(field_id);
   if (nested_message_)
     EndNestedMessage();

   size_t size = 0;
   for (size_t i = 0; i < num_ranges; ++i) {
     size += ranges[i].size();
   }

   PERFETTO_DCHECK(size < proto_utils::kMaxMessageLength);

   uint8_t buffer[proto_utils::kMaxSimpleFieldEncodedSize];
   uint8_t* pos = buffer;
   pos = proto_utils::WriteVarInt(proto_utils::MakeTagLengthDelimited(field_id),
                                  pos);
   pos = proto_utils::WriteVarInt(static_cast<uint32_t>(size), pos);
   WriteToStream(buffer, pos);

   for (size_t i = 0; i < num_ranges; ++i) {
     auto& range = ranges[i];
     WriteToStream(range.begin, range.end);
   }

   return size;
 }

 uint32_t Message::Finalize() {
   if (is_finalized())
     return size_;

   if (nested_message_)
     EndNestedMessage();

   // Write the length of the nested message a posteriori, using a leading-zero
   // redundant varint encoding. This can be nullptr for the root message, among
   // many reasons, because the TraceWriterImpl delegate is keeping track of the
   // root fragment size independently.
   if (size_field_) {
     PERFETTO_DCHECK(!is_finalized());
     PERFETTO_DCHECK(size_ < proto_utils::kMaxMessageLength);
     //
     // Normally the size of a protozero message is written with 4 bytes just
     // before the contents of the message itself:
     //
     //    size          message data
     //   [aa bb cc dd] [01 23 45 67 ...]
     //
     // We always reserve 4 bytes for the size, because the real size of the
     // message isn't known until the call to Finalize(). This is possible
     // because we can use leading zero redundant varint coding to expand any
     // size smaller than 256 MiB to 4 bytes.
     //
     // However this is wasteful for short, frequently written messages, so the
     // code below uses a 1 byte size field when possible. This is done by
     // shifting the already-written data (which should still be in the cache)
     // back by 3 bytes, resulting in this layout:
     //
     //   size  message data
     //   [aa] [01 23 45 67 ...]
     //
     // We can only do this optimization if the message is contained in a single
     // chunk (since we can't modify previously committed chunks). We can check
     // this by verifying that the size field is immediately before the message
     // in memory and is fully contained by the current chunk.
     //
     if (PERFETTO_LIKELY(size_ <= proto_utils::kMaxOneByteMessageLength &&
                         size_field_ ==
                             stream_writer_->write_ptr() - size_ -
                                 proto_utils::kMessageLengthFieldSize &&
                         size_field_ >= stream_writer_->cur_range().begin)) {
       stream_writer_->Rewind(size_, kBytesToCompact);
       PERFETTO_DCHECK(size_field_ == stream_writer_->write_ptr() - size_ - 1u);
       *size_field_ = static_cast<uint8_t>(size_);
       message_state_ = MessageState::kFinalizedWithCompaction;
     } else {
       proto_utils::WriteRedundantVarInt(size_, size_field_);
       message_state_ = MessageState::kFinalized;
     }
     size_field_ = nullptr;
   } else {
     message_state_ = MessageState::kFinalized;
   }

 #if PERFETTO_DCHECK_IS_ON()
   if (handle_)
     handle_->reset_message();
 #endif

   return size_;
 }

 Message* Message::BeginNestedMessageInternal(uint32_t field_id) {
   PERFETTO_DCHECK(field_id);
   if (nested_message_)
     EndNestedMessage();

   // Write the proto preamble for the nested message.
   uint8_t data[proto_utils::kMaxTagEncodedSize];
   uint8_t* data_end = proto_utils::WriteVarInt(
       proto_utils::MakeTagLengthDelimited(field_id), data);
   WriteToStream(data, data_end);

   Message* message = arena_->NewMessage();
   message->Reset(stream_writer_, arena_);

   // The length of the nested message cannot be known upfront. So right now
   // just reserve the bytes to encode the size after the nested message is done.
   message->set_size_field(
       stream_writer_->ReserveBytes(proto_utils::kMessageLengthFieldSize));
   size_ += proto_utils::kMessageLengthFieldSize;

   nested_message_ = message;
   return message;
 }

 void Message::EndNestedMessage() {
   size_ += nested_message_->Finalize();
   if (nested_message_->message_state_ ==
       MessageState::kFinalizedWithCompaction) {
     size_ -= kBytesToCompact;
   }
   arena_->DeleteLastMessage(nested_message_);
   nested_message_ = nullptr;
 }

 }  // namespace protozero
	/*
	* Copyright (C) 2017 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 "perfetto/protozero/message.h"

	#include <atomic>
	#include <type_traits>

	#include "perfetto/base/compiler.h"
	#include "perfetto/base/logging.h"
	#include "perfetto/protozero/message_arena.h"
	#include "perfetto/protozero/message_handle.h"

	#if !PERFETTO_IS_LITTLE_ENDIAN()
	// The memcpy() for float and double below needs to be adjusted if we want to
	// support big endian CPUs. There doesn't seem to be a compelling need today.
	#error Unimplemented for big endian archs.
	#endif

	namespace protozero {

	namespace {

	constexpr int kBytesToCompact = proto_utils::kMessageLengthFieldSize - 1u;

	#if PERFETTO_DCHECK_IS_ON()
	std::atomic<uint32_t> g_generation;
	#endif

	} // namespace

	// Do NOT put any code in the constructor or use default initialization.
	// Use the Reset() method below instead.

	// This method is called to initialize both root and nested messages.
	void Message::Reset(ScatteredStreamWriter* stream_writer, MessageArena* arena) {
	// Older versions of libstdcxx don't have is_trivially_constructible.
	#if !defined(__GLIBCXX__) \|\| __GLIBCXX__ >= 20170516
	static_assert(std::is_trivially_constructible<Message>::value,
	"Message must be trivially constructible");
	#endif

	static_assert(std::is_trivially_destructible<Message>::value,
	"Message must be trivially destructible");
	stream_writer_ = stream_writer;
	arena_ = arena;
	size_ = 0;
	size_field_ = nullptr;
	nested_message_ = nullptr;
	message_state_ = MessageState::kNotFinalized;
	#if PERFETTO_DCHECK_IS_ON()
	handle_ = nullptr;
	generation_ = g_generation.fetch_add(1, std::memory_order_relaxed);
	#endif
	}

	void Message::AppendString(uint32_t field_id, const char* str) {
	AppendBytes(field_id, str, strlen(str));
	}

	void Message::AppendBytes(uint32_t field_id, const void* src, size_t size) {
	PERFETTO_DCHECK(field_id);
	if (nested_message_)
	EndNestedMessage();

	PERFETTO_DCHECK(size < proto_utils::kMaxMessageLength);
	// Write the proto preamble (field id, type and length of the field).
	uint8_t buffer[proto_utils::kMaxSimpleFieldEncodedSize];
	uint8_t* pos = buffer;
	pos = proto_utils::WriteVarInt(proto_utils::MakeTagLengthDelimited(field_id),
	pos);
	pos = proto_utils::WriteVarInt(static_cast<uint32_t>(size), pos);
	WriteToStream(buffer, pos);

	const uint8_t* src_u8 = reinterpret_cast<const uint8_t*>(src);
	WriteToStream(src_u8, src_u8 + size);
	}

	size_t Message::AppendScatteredBytes(uint32_t field_id,
	ContiguousMemoryRange* ranges,
	size_t num_ranges) {
	PERFETTO_DCHECK(field_id);
	if (nested_message_)
	EndNestedMessage();

	size_t size = 0;
	for (size_t i = 0; i < num_ranges; ++i) {
	size += ranges[i].size();
	}

	PERFETTO_DCHECK(size < proto_utils::kMaxMessageLength);

	uint8_t buffer[proto_utils::kMaxSimpleFieldEncodedSize];
	uint8_t* pos = buffer;
	pos = proto_utils::WriteVarInt(proto_utils::MakeTagLengthDelimited(field_id),
	pos);
	pos = proto_utils::WriteVarInt(static_cast<uint32_t>(size), pos);
	WriteToStream(buffer, pos);

	for (size_t i = 0; i < num_ranges; ++i) {
	auto& range = ranges[i];
	WriteToStream(range.begin, range.end);
	}

	return size;
	}

	uint32_t Message::Finalize() {
	if (is_finalized())
	return size_;

	if (nested_message_)
	EndNestedMessage();

	// Write the length of the nested message a posteriori, using a leading-zero
	// redundant varint encoding. This can be nullptr for the root message, among
	// many reasons, because the TraceWriterImpl delegate is keeping track of the
	// root fragment size independently.
	if (size_field_) {
	PERFETTO_DCHECK(!is_finalized());
	PERFETTO_DCHECK(size_ < proto_utils::kMaxMessageLength);
	//
	// Normally the size of a protozero message is written with 4 bytes just
	// before the contents of the message itself:
	//
	// size message data
	// [aa bb cc dd] [01 23 45 67 ...]
	//
	// We always reserve 4 bytes for the size, because the real size of the
	// message isn't known until the call to Finalize(). This is possible
	// because we can use leading zero redundant varint coding to expand any
	// size smaller than 256 MiB to 4 bytes.
	//
	// However this is wasteful for short, frequently written messages, so the
	// code below uses a 1 byte size field when possible. This is done by
	// shifting the already-written data (which should still be in the cache)
	// back by 3 bytes, resulting in this layout:
	//
	// size message data
	// [aa] [01 23 45 67 ...]
	//
	// We can only do this optimization if the message is contained in a single
	// chunk (since we can't modify previously committed chunks). We can check
	// this by verifying that the size field is immediately before the message
	// in memory and is fully contained by the current chunk.
	//
	if (PERFETTO_LIKELY(size_ <= proto_utils::kMaxOneByteMessageLength &&
	size_field_ ==
	stream_writer_->write_ptr() - size_ -
	proto_utils::kMessageLengthFieldSize &&
	size_field_ >= stream_writer_->cur_range().begin)) {
	stream_writer_->Rewind(size_, kBytesToCompact);
	PERFETTO_DCHECK(size_field_ == stream_writer_->write_ptr() - size_ - 1u);
	*size_field_ = static_cast<uint8_t>(size_);
	message_state_ = MessageState::kFinalizedWithCompaction;
	} else {
	proto_utils::WriteRedundantVarInt(size_, size_field_);
	message_state_ = MessageState::kFinalized;
	}
	size_field_ = nullptr;
	} else {
	message_state_ = MessageState::kFinalized;
	}

	#if PERFETTO_DCHECK_IS_ON()
	if (handle_)
	handle_->reset_message();
	#endif

	return size_;
	}

	Message* Message::BeginNestedMessageInternal(uint32_t field_id) {
	PERFETTO_DCHECK(field_id);
	if (nested_message_)
	EndNestedMessage();

	// Write the proto preamble for the nested message.
	uint8_t data[proto_utils::kMaxTagEncodedSize];
	uint8_t* data_end = proto_utils::WriteVarInt(
	proto_utils::MakeTagLengthDelimited(field_id), data);
	WriteToStream(data, data_end);

	Message* message = arena_->NewMessage();
	message->Reset(stream_writer_, arena_);

	// The length of the nested message cannot be known upfront. So right now
	// just reserve the bytes to encode the size after the nested message is done.
	message->set_size_field(
	stream_writer_->ReserveBytes(proto_utils::kMessageLengthFieldSize));
	size_ += proto_utils::kMessageLengthFieldSize;

	nested_message_ = message;
	return message;
	}

	void Message::EndNestedMessage() {
	size_ += nested_message_->Finalize();
	if (nested_message_->message_state_ ==
	MessageState::kFinalizedWithCompaction) {
	size_ -= kBytesToCompact;
	}
	arena_->DeleteLastMessage(nested_message_);
	nested_message_ = nullptr;
	}

	} // namespace protozero