net/dcsctp/tx/stream_scheduler.cc - src - Git at Google

 /*
  *  Copyright (c) 2022 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */
 #include "net/dcsctp/tx/stream_scheduler.h"

 #include <algorithm>

 #include "absl/algorithm/container.h"
 #include "absl/types/optional.h"
 #include "api/array_view.h"
 #include "net/dcsctp/common/str_join.h"
 #include "net/dcsctp/packet/data.h"
 #include "net/dcsctp/public/dcsctp_message.h"
 #include "net/dcsctp/public/dcsctp_socket.h"
 #include "net/dcsctp/public/types.h"
 #include "net/dcsctp/tx/send_queue.h"
 #include "rtc_base/checks.h"
 #include "rtc_base/logging.h"

 namespace dcsctp {

 void StreamScheduler::Stream::SetPriority(StreamPriority priority) {
   priority_ = priority;
   inverse_weight_ = InverseWeight(priority);
 }

 absl::optional<SendQueue::DataToSend> StreamScheduler::Produce(
     TimeMs now,
     size_t max_size) {
   // For non-interleaved streams, avoid rescheduling while still sending a
   // message as it needs to be sent in full. For interleaved messaging,
   // reschedule for every I-DATA chunk sent.
   bool rescheduling =
       enable_message_interleaving_ || !currently_sending_a_message_;

   RTC_LOG(LS_VERBOSE) << "Producing data, rescheduling=" << rescheduling
                       << ", active="
                       << StrJoin(active_streams_, ", ",
                                  [&](rtc::StringBuilder& sb, const auto& p) {
                                    sb << *p->stream_id() << "@"
                                       << *p->next_finish_time();
                                  });

   RTC_DCHECK(rescheduling || current_stream_ != nullptr);

   absl::optional<SendQueue::DataToSend> data;
   while (!data.has_value() && !active_streams_.empty()) {
     if (rescheduling) {
       auto it = active_streams_.begin();
       current_stream_ = *it;
       RTC_DLOG(LS_VERBOSE) << "Rescheduling to stream "
                            << *current_stream_->stream_id();

       active_streams_.erase(it);
       current_stream_->ForceMarkInactive();
     } else {
       RTC_DLOG(LS_VERBOSE) << "Producing from previous stream: "
                            << *current_stream_->stream_id();
       RTC_DCHECK(absl::c_any_of(active_streams_, [this](const auto* p) {
         return p == current_stream_;
       }));
     }

     data = current_stream_->Produce(now, max_size);
   }

   if (!data.has_value()) {
     RTC_DLOG(LS_VERBOSE)
         << "There is no stream with data; Can't produce any data.";
     RTC_DCHECK(IsConsistent());

     return absl::nullopt;
   }

   RTC_DCHECK(data->data.stream_id == current_stream_->stream_id());

   RTC_DLOG(LS_VERBOSE) << "Producing DATA, type="
                        << (data->data.is_unordered ? "unordered" : "ordered")
                        << "::"
                        << (*data->data.is_beginning && *data->data.is_end
                                ? "complete"
                            : *data->data.is_beginning ? "first"
                            : *data->data.is_end       ? "last"
                                                       : "middle")
                        << ", stream_id=" << *current_stream_->stream_id()
                        << ", ppid=" << *data->data.ppid
                        << ", length=" << data->data.payload.size();

   currently_sending_a_message_ = !*data->data.is_end;
   virtual_time_ = current_stream_->current_time();

   // One side-effect of rescheduling is that the new stream will not be present
   // in `active_streams`.
   size_t bytes_to_send_next = current_stream_->bytes_to_send_in_next_message();
   if (rescheduling && bytes_to_send_next > 0) {
     current_stream_->MakeActive(bytes_to_send_next);
   } else if (!rescheduling && bytes_to_send_next == 0) {
     current_stream_->MakeInactive();
   }

   RTC_DCHECK(IsConsistent());
   return data;
 }

 StreamScheduler::VirtualTime StreamScheduler::Stream::CalculateFinishTime(
     size_t bytes_to_send_next) const {
   if (parent_.enable_message_interleaving_) {
     // Perform weighted fair queuing scheduling.
     return VirtualTime(*current_virtual_time_ +
                        bytes_to_send_next * *inverse_weight_);
   }

   // Perform round-robin scheduling by letting the stream have its next virtual
   // finish time in the future. It doesn't matter how far into the future, just
   // any positive number so that any other stream that has the same virtual
   // finish time as this stream gets to produce their data before revisiting
   // this stream.
   return VirtualTime(*current_virtual_time_ + 1);
 }

 absl::optional<SendQueue::DataToSend> StreamScheduler::Stream::Produce(
     TimeMs now,
     size_t max_size) {
   absl::optional<SendQueue::DataToSend> data = producer_.Produce(now, max_size);

   if (data.has_value()) {
     VirtualTime new_current = CalculateFinishTime(data->data.payload.size());
     RTC_DLOG(LS_VERBOSE) << "Virtual time changed: " << *current_virtual_time_
                          << " -> " << *new_current;
     current_virtual_time_ = new_current;
   }

   return data;
 }

 bool StreamScheduler::IsConsistent() const {
   for (Stream* stream : active_streams_) {
     if (stream->next_finish_time_ == VirtualTime::Zero()) {
       RTC_DLOG(LS_VERBOSE) << "Stream " << *stream->stream_id()
                            << " is active, but has no next-finish-time";
       return false;
     }
   }
   return true;
 }

 void StreamScheduler::Stream::MaybeMakeActive() {
   RTC_DLOG(LS_VERBOSE) << "MaybeMakeActive(" << *stream_id() << ")";
   RTC_DCHECK(next_finish_time_ == VirtualTime::Zero());
   size_t bytes_to_send_next = bytes_to_send_in_next_message();
   if (bytes_to_send_next == 0) {
     return;
   }

   MakeActive(bytes_to_send_next);
 }

 void StreamScheduler::Stream::MakeActive(size_t bytes_to_send_next) {
   current_virtual_time_ = parent_.virtual_time_;
   RTC_DCHECK_GT(bytes_to_send_next, 0);
   VirtualTime next_finish_time = CalculateFinishTime(
       std::min(bytes_to_send_next, parent_.max_payload_bytes_));
   RTC_DCHECK_GT(*next_finish_time, 0);
   RTC_DLOG(LS_VERBOSE) << "Making stream " << *stream_id()
                        << " active, expiring at " << *next_finish_time;
   RTC_DCHECK(next_finish_time_ == VirtualTime::Zero());
   next_finish_time_ = next_finish_time;
   RTC_DCHECK(!absl::c_any_of(parent_.active_streams_,
                              [this](const auto* p) { return p == this; }));
   parent_.active_streams_.emplace(this);
 }

 void StreamScheduler::Stream::ForceMarkInactive() {
   RTC_DLOG(LS_VERBOSE) << "Making stream " << *stream_id() << " inactive";
   RTC_DCHECK(next_finish_time_ != VirtualTime::Zero());
   next_finish_time_ = VirtualTime::Zero();
 }

 void StreamScheduler::Stream::MakeInactive() {
   ForceMarkInactive();
   webrtc::EraseIf(parent_.active_streams_,
                   [&](const auto* s) { return s == this; });
 }

 std::set<StreamID> StreamScheduler::ActiveStreamsForTesting() const {
   std::set<StreamID> stream_ids;
   for (const auto& stream : active_streams_) {
     stream_ids.insert(stream->stream_id());
   }
   return stream_ids;
 }

 }  // namespace dcsctp
	/*
	* Copyright (c) 2022 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/
	#include "net/dcsctp/tx/stream_scheduler.h"

	#include <algorithm>

	#include "absl/algorithm/container.h"
	#include "absl/types/optional.h"
	#include "api/array_view.h"
	#include "net/dcsctp/common/str_join.h"
	#include "net/dcsctp/packet/data.h"
	#include "net/dcsctp/public/dcsctp_message.h"
	#include "net/dcsctp/public/dcsctp_socket.h"
	#include "net/dcsctp/public/types.h"
	#include "net/dcsctp/tx/send_queue.h"
	#include "rtc_base/checks.h"
	#include "rtc_base/logging.h"

	namespace dcsctp {

	void StreamScheduler::Stream::SetPriority(StreamPriority priority) {
	priority_ = priority;
	inverse_weight_ = InverseWeight(priority);
	}

	absl::optional<SendQueue::DataToSend> StreamScheduler::Produce(
	TimeMs now,
	size_t max_size) {
	// For non-interleaved streams, avoid rescheduling while still sending a
	// message as it needs to be sent in full. For interleaved messaging,
	// reschedule for every I-DATA chunk sent.
	bool rescheduling =
	enable_message_interleaving_ \|\| !currently_sending_a_message_;

	RTC_LOG(LS_VERBOSE) << "Producing data, rescheduling=" << rescheduling
	<< ", active="
	<< StrJoin(active_streams_, ", ",
	[&](rtc::StringBuilder& sb, const auto& p) {
	sb << *p->stream_id() << "@"
	<< *p->next_finish_time();
	});

	RTC_DCHECK(rescheduling \|\| current_stream_ != nullptr);

	absl::optional<SendQueue::DataToSend> data;
	while (!data.has_value() && !active_streams_.empty()) {
	if (rescheduling) {
	auto it = active_streams_.begin();
	current_stream_ = *it;
	RTC_DLOG(LS_VERBOSE) << "Rescheduling to stream "
	<< *current_stream_->stream_id();

	active_streams_.erase(it);
	current_stream_->ForceMarkInactive();
	} else {
	RTC_DLOG(LS_VERBOSE) << "Producing from previous stream: "
	<< *current_stream_->stream_id();
	RTC_DCHECK(absl::c_any_of(active_streams_, [this](const auto* p) {
	return p == current_stream_;
	}));
	}

	data = current_stream_->Produce(now, max_size);
	}

	if (!data.has_value()) {
	RTC_DLOG(LS_VERBOSE)
	<< "There is no stream with data; Can't produce any data.";
	RTC_DCHECK(IsConsistent());

	return absl::nullopt;
	}

	RTC_DCHECK(data->data.stream_id == current_stream_->stream_id());

	RTC_DLOG(LS_VERBOSE) << "Producing DATA, type="
	<< (data->data.is_unordered ? "unordered" : "ordered")
	<< "::"
	<< (data->data.is_beginning && data->data.is_end
	? "complete"
	: *data->data.is_beginning ? "first"
	: *data->data.is_end ? "last"
	: "middle")
	<< ", stream_id=" << *current_stream_->stream_id()
	<< ", ppid=" << *data->data.ppid
	<< ", length=" << data->data.payload.size();

	currently_sending_a_message_ = !*data->data.is_end;
	virtual_time_ = current_stream_->current_time();

	// One side-effect of rescheduling is that the new stream will not be present
	// in `active_streams`.
	size_t bytes_to_send_next = current_stream_->bytes_to_send_in_next_message();
	if (rescheduling && bytes_to_send_next > 0) {
	current_stream_->MakeActive(bytes_to_send_next);
	} else if (!rescheduling && bytes_to_send_next == 0) {
	current_stream_->MakeInactive();
	}

	RTC_DCHECK(IsConsistent());
	return data;
	}

	StreamScheduler::VirtualTime StreamScheduler::Stream::CalculateFinishTime(
	size_t bytes_to_send_next) const {
	if (parent_.enable_message_interleaving_) {
	// Perform weighted fair queuing scheduling.
	return VirtualTime(*current_virtual_time_ +
	bytes_to_send_next * *inverse_weight_);
	}

	// Perform round-robin scheduling by letting the stream have its next virtual
	// finish time in the future. It doesn't matter how far into the future, just
	// any positive number so that any other stream that has the same virtual
	// finish time as this stream gets to produce their data before revisiting
	// this stream.
	return VirtualTime(*current_virtual_time_ + 1);
	}

	absl::optional<SendQueue::DataToSend> StreamScheduler::Stream::Produce(
	TimeMs now,
	size_t max_size) {
	absl::optional<SendQueue::DataToSend> data = producer_.Produce(now, max_size);

	if (data.has_value()) {
	VirtualTime new_current = CalculateFinishTime(data->data.payload.size());
	RTC_DLOG(LS_VERBOSE) << "Virtual time changed: " << *current_virtual_time_
	<< " -> " << *new_current;
	current_virtual_time_ = new_current;
	}

	return data;
	}

	bool StreamScheduler::IsConsistent() const {
	for (Stream* stream : active_streams_) {
	if (stream->next_finish_time_ == VirtualTime::Zero()) {
	RTC_DLOG(LS_VERBOSE) << "Stream " << *stream->stream_id()
	<< " is active, but has no next-finish-time";
	return false;
	}
	}
	return true;
	}

	void StreamScheduler::Stream::MaybeMakeActive() {
	RTC_DLOG(LS_VERBOSE) << "MaybeMakeActive(" << *stream_id() << ")";
	RTC_DCHECK(next_finish_time_ == VirtualTime::Zero());
	size_t bytes_to_send_next = bytes_to_send_in_next_message();
	if (bytes_to_send_next == 0) {
	return;
	}

	MakeActive(bytes_to_send_next);
	}

	void StreamScheduler::Stream::MakeActive(size_t bytes_to_send_next) {
	current_virtual_time_ = parent_.virtual_time_;
	RTC_DCHECK_GT(bytes_to_send_next, 0);
	VirtualTime next_finish_time = CalculateFinishTime(
	std::min(bytes_to_send_next, parent_.max_payload_bytes_));
	RTC_DCHECK_GT(*next_finish_time, 0);
	RTC_DLOG(LS_VERBOSE) << "Making stream " << *stream_id()
	<< " active, expiring at " << *next_finish_time;
	RTC_DCHECK(next_finish_time_ == VirtualTime::Zero());
	next_finish_time_ = next_finish_time;
	RTC_DCHECK(!absl::c_any_of(parent_.active_streams_,
	[this](const auto* p) { return p == this; }));
	parent_.active_streams_.emplace(this);
	}

	void StreamScheduler::Stream::ForceMarkInactive() {
	RTC_DLOG(LS_VERBOSE) << "Making stream " << *stream_id() << " inactive";
	RTC_DCHECK(next_finish_time_ != VirtualTime::Zero());
	next_finish_time_ = VirtualTime::Zero();
	}

	void StreamScheduler::Stream::MakeInactive() {
	ForceMarkInactive();
	webrtc::EraseIf(parent_.active_streams_,
	[&](const auto* s) { return s == this; });
	}

	std::set<StreamID> StreamScheduler::ActiveStreamsForTesting() const {
	std::set<StreamID> stream_ids;
	for (const auto& stream : active_streams_) {
	stream_ids.insert(stream->stream_id());
	}
	return stream_ids;
	}

	} // namespace dcsctp