quic/core/batch_writer/quic_batch_writer_base.cc - quiche - Git at Google

 // Copyright (c) 2019 The Chromium 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 "quic/core/batch_writer/quic_batch_writer_base.h"
 #include <cstdint>

 #include "quic/platform/api/quic_export.h"
 #include "quic/platform/api/quic_flags.h"
 #include "quic/platform/api/quic_server_stats.h"

 namespace quic {

 QuicBatchWriterBase::QuicBatchWriterBase(
     std::unique_ptr<QuicBatchWriterBuffer> batch_buffer)
     : write_blocked_(false), batch_buffer_(std::move(batch_buffer)) {}

 WriteResult QuicBatchWriterBase::WritePacket(
     const char* buffer,
     size_t buf_len,
     const QuicIpAddress& self_address,
     const QuicSocketAddress& peer_address,
     PerPacketOptions* options) {
   const WriteResult result =
       InternalWritePacket(buffer, buf_len, self_address, peer_address, options);

   if (IsWriteBlockedStatus(result.status)) {
     write_blocked_ = true;
   }

   return result;
 }

 WriteResult QuicBatchWriterBase::InternalWritePacket(
     const char* buffer,
     size_t buf_len,
     const QuicIpAddress& self_address,
     const QuicSocketAddress& peer_address,
     PerPacketOptions* options) {
   if (buf_len > kMaxOutgoingPacketSize) {
     return WriteResult(WRITE_STATUS_MSG_TOO_BIG, EMSGSIZE);
   }

   ReleaseTime release_time{0, QuicTime::Delta::Zero()};
   if (SupportsReleaseTime()) {
     release_time = GetReleaseTime(options);
     if (release_time.release_time_offset >= QuicTime::Delta::Zero()) {
       QUIC_SERVER_HISTOGRAM_TIMES(
           "batch_writer_positive_release_time_offset",
           release_time.release_time_offset.ToMicroseconds(), 1, 100000, 50,
           "Duration from ideal release time to actual "
           "release time, in microseconds.");
     } else {
       QUIC_SERVER_HISTOGRAM_TIMES(
           "batch_writer_negative_release_time_offset",
           -release_time.release_time_offset.ToMicroseconds(), 1, 100000, 50,
           "Duration from actual release time to ideal "
           "release time, in microseconds.");
     }
   }

   const CanBatchResult can_batch_result =
       CanBatch(buffer, buf_len, self_address, peer_address, options,
                release_time.actual_release_time);

   bool buffered = false;
   bool flush = can_batch_result.must_flush;

   if (can_batch_result.can_batch) {
     QuicBatchWriterBuffer::PushResult push_result =
         batch_buffer_->PushBufferedWrite(buffer, buf_len, self_address,
                                          peer_address, options,
                                          release_time.actual_release_time);
     if (push_result.succeeded) {
       buffered = true;
       // If there's no space left after the packet is buffered, force a flush.
       flush = flush || (batch_buffer_->GetNextWriteLocation() == nullptr);
     } else {
       // If there's no space without this packet, force a flush.
       flush = true;
     }
   }

   if (!flush) {
     WriteResult result(WRITE_STATUS_OK, 0);
     result.send_time_offset = release_time.release_time_offset;
     return result;
   }

   size_t num_buffered_packets = buffered_writes().size();
   const FlushImplResult flush_result = CheckedFlush();
   WriteResult result = flush_result.write_result;
   QUIC_DVLOG(1) << "Internally flushed " << flush_result.num_packets_sent
                 << " out of " << num_buffered_packets
                 << " packets. WriteResult=" << result;

   if (result.status != WRITE_STATUS_OK) {
     if (IsWriteBlockedStatus(result.status)) {
       return WriteResult(
           buffered ? WRITE_STATUS_BLOCKED_DATA_BUFFERED : WRITE_STATUS_BLOCKED,
           result.error_code);
     }

     // Drop all packets, including the one being written.
     size_t dropped_packets =
         buffered ? buffered_writes().size() : buffered_writes().size() + 1;

     batch_buffer().Clear();
     result.dropped_packets =
         dropped_packets > std::numeric_limits<uint16_t>::max()
             ? std::numeric_limits<uint16_t>::max()
             : static_cast<uint16_t>(dropped_packets);
     return result;
   }

   if (!buffered) {
     QuicBatchWriterBuffer::PushResult push_result =
         batch_buffer_->PushBufferedWrite(buffer, buf_len, self_address,
                                          peer_address, options,
                                          release_time.actual_release_time);
     buffered = push_result.succeeded;

     // Since buffered_writes has been emptied, this write must have been
     // buffered successfully.
     QUIC_BUG_IF(quic_bug_10826_1, !buffered)
         << "Failed to push to an empty batch buffer."
         << "  self_addr:" << self_address.ToString()
         << ", peer_addr:" << peer_address.ToString() << ", buf_len:" << buf_len;
   }

   result.send_time_offset = release_time.release_time_offset;
   return result;
 }

 QuicBatchWriterBase::FlushImplResult QuicBatchWriterBase::CheckedFlush() {
   if (buffered_writes().empty()) {
     return FlushImplResult{WriteResult(WRITE_STATUS_OK, 0),
                            /*num_packets_sent=*/0, /*bytes_written=*/0};
   }

   const FlushImplResult flush_result = FlushImpl();

   // Either flush_result.write_result.status is not WRITE_STATUS_OK, or it is
   // WRITE_STATUS_OK and batch_buffer is empty.
   QUICHE_DCHECK(flush_result.write_result.status != WRITE_STATUS_OK ||
                 buffered_writes().empty());

   // Flush should never return WRITE_STATUS_BLOCKED_DATA_BUFFERED.
   QUICHE_DCHECK(flush_result.write_result.status !=
                 WRITE_STATUS_BLOCKED_DATA_BUFFERED);

   return flush_result;
 }

 WriteResult QuicBatchWriterBase::Flush() {
   size_t num_buffered_packets = buffered_writes().size();
   FlushImplResult flush_result = CheckedFlush();
   QUIC_DVLOG(1) << "Externally flushed " << flush_result.num_packets_sent
                 << " out of " << num_buffered_packets
                 << " packets. WriteResult=" << flush_result.write_result;

   if (IsWriteError(flush_result.write_result.status)) {
     if (buffered_writes().size() > std::numeric_limits<uint16_t>::max()) {
       flush_result.write_result.dropped_packets =
           std::numeric_limits<uint16_t>::max();
     } else {
       flush_result.write_result.dropped_packets =
           static_cast<uint16_t>(buffered_writes().size());
     }
     // Treat all errors as non-retryable fatal errors. Drop all buffered packets
     // to avoid sending them and getting the same error again.
     batch_buffer().Clear();
   }

   if (flush_result.write_result.status == WRITE_STATUS_BLOCKED) {
     write_blocked_ = true;
   }
   return flush_result.write_result;
 }

 }  // namespace quic
	// Copyright (c) 2019 The Chromium 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 "quic/core/batch_writer/quic_batch_writer_base.h"
	#include <cstdint>

	#include "quic/platform/api/quic_export.h"
	#include "quic/platform/api/quic_flags.h"
	#include "quic/platform/api/quic_server_stats.h"

	namespace quic {

	QuicBatchWriterBase::QuicBatchWriterBase(
	std::unique_ptr<QuicBatchWriterBuffer> batch_buffer)
	: write_blocked_(false), batch_buffer_(std::move(batch_buffer)) {}

	WriteResult QuicBatchWriterBase::WritePacket(
	const char* buffer,
	size_t buf_len,
	const QuicIpAddress& self_address,
	const QuicSocketAddress& peer_address,
	PerPacketOptions* options) {
	const WriteResult result =
	InternalWritePacket(buffer, buf_len, self_address, peer_address, options);

	if (IsWriteBlockedStatus(result.status)) {
	write_blocked_ = true;
	}

	return result;
	}

	WriteResult QuicBatchWriterBase::InternalWritePacket(
	const char* buffer,
	size_t buf_len,
	const QuicIpAddress& self_address,
	const QuicSocketAddress& peer_address,
	PerPacketOptions* options) {
	if (buf_len > kMaxOutgoingPacketSize) {
	return WriteResult(WRITE_STATUS_MSG_TOO_BIG, EMSGSIZE);
	}

	ReleaseTime release_time{0, QuicTime::Delta::Zero()};
	if (SupportsReleaseTime()) {
	release_time = GetReleaseTime(options);
	if (release_time.release_time_offset >= QuicTime::Delta::Zero()) {
	QUIC_SERVER_HISTOGRAM_TIMES(
	"batch_writer_positive_release_time_offset",
	release_time.release_time_offset.ToMicroseconds(), 1, 100000, 50,
	"Duration from ideal release time to actual "
	"release time, in microseconds.");
	} else {
	QUIC_SERVER_HISTOGRAM_TIMES(
	"batch_writer_negative_release_time_offset",
	-release_time.release_time_offset.ToMicroseconds(), 1, 100000, 50,
	"Duration from actual release time to ideal "
	"release time, in microseconds.");
	}
	}

	const CanBatchResult can_batch_result =
	CanBatch(buffer, buf_len, self_address, peer_address, options,
	release_time.actual_release_time);

	bool buffered = false;
	bool flush = can_batch_result.must_flush;

	if (can_batch_result.can_batch) {
	QuicBatchWriterBuffer::PushResult push_result =
	batch_buffer_->PushBufferedWrite(buffer, buf_len, self_address,
	peer_address, options,
	release_time.actual_release_time);
	if (push_result.succeeded) {
	buffered = true;
	// If there's no space left after the packet is buffered, force a flush.
	flush = flush \|\| (batch_buffer_->GetNextWriteLocation() == nullptr);
	} else {
	// If there's no space without this packet, force a flush.
	flush = true;
	}
	}

	if (!flush) {
	WriteResult result(WRITE_STATUS_OK, 0);
	result.send_time_offset = release_time.release_time_offset;
	return result;
	}

	size_t num_buffered_packets = buffered_writes().size();
	const FlushImplResult flush_result = CheckedFlush();
	WriteResult result = flush_result.write_result;
	QUIC_DVLOG(1) << "Internally flushed " << flush_result.num_packets_sent
	<< " out of " << num_buffered_packets
	<< " packets. WriteResult=" << result;

	if (result.status != WRITE_STATUS_OK) {
	if (IsWriteBlockedStatus(result.status)) {
	return WriteResult(
	buffered ? WRITE_STATUS_BLOCKED_DATA_BUFFERED : WRITE_STATUS_BLOCKED,
	result.error_code);
	}

	// Drop all packets, including the one being written.
	size_t dropped_packets =
	buffered ? buffered_writes().size() : buffered_writes().size() + 1;

	batch_buffer().Clear();
	result.dropped_packets =
	dropped_packets > std::numeric_limits<uint16_t>::max()
	? std::numeric_limits<uint16_t>::max()
	: static_cast<uint16_t>(dropped_packets);
	return result;
	}

	if (!buffered) {
	QuicBatchWriterBuffer::PushResult push_result =
	batch_buffer_->PushBufferedWrite(buffer, buf_len, self_address,
	peer_address, options,
	release_time.actual_release_time);
	buffered = push_result.succeeded;

	// Since buffered_writes has been emptied, this write must have been
	// buffered successfully.
	QUIC_BUG_IF(quic_bug_10826_1, !buffered)
	<< "Failed to push to an empty batch buffer."
	<< " self_addr:" << self_address.ToString()
	<< ", peer_addr:" << peer_address.ToString() << ", buf_len:" << buf_len;
	}

	result.send_time_offset = release_time.release_time_offset;
	return result;
	}

	QuicBatchWriterBase::FlushImplResult QuicBatchWriterBase::CheckedFlush() {
	if (buffered_writes().empty()) {
	return FlushImplResult{WriteResult(WRITE_STATUS_OK, 0),
	/num_packets_sent=/0, /bytes_written=/0};
	}

	const FlushImplResult flush_result = FlushImpl();

	// Either flush_result.write_result.status is not WRITE_STATUS_OK, or it is
	// WRITE_STATUS_OK and batch_buffer is empty.
	QUICHE_DCHECK(flush_result.write_result.status != WRITE_STATUS_OK \|\|
	buffered_writes().empty());

	// Flush should never return WRITE_STATUS_BLOCKED_DATA_BUFFERED.
	QUICHE_DCHECK(flush_result.write_result.status !=
	WRITE_STATUS_BLOCKED_DATA_BUFFERED);

	return flush_result;
	}

	WriteResult QuicBatchWriterBase::Flush() {
	size_t num_buffered_packets = buffered_writes().size();
	FlushImplResult flush_result = CheckedFlush();
	QUIC_DVLOG(1) << "Externally flushed " << flush_result.num_packets_sent
	<< " out of " << num_buffered_packets
	<< " packets. WriteResult=" << flush_result.write_result;

	if (IsWriteError(flush_result.write_result.status)) {
	if (buffered_writes().size() > std::numeric_limits<uint16_t>::max()) {
	flush_result.write_result.dropped_packets =
	std::numeric_limits<uint16_t>::max();
	} else {
	flush_result.write_result.dropped_packets =
	static_cast<uint16_t>(buffered_writes().size());
	}
	// Treat all errors as non-retryable fatal errors. Drop all buffered packets
	// to avoid sending them and getting the same error again.
	batch_buffer().Clear();
	}

	if (flush_result.write_result.status == WRITE_STATUS_BLOCKED) {
	write_blocked_ = true;
	}
	return flush_result.write_result;
	}

	} // namespace quic