spdy/core/lifo_write_scheduler.h - 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.

 #ifndef QUICHE_SPDY_CORE_LIFO_WRITE_SCHEDULER_H_
 #define QUICHE_SPDY_CORE_LIFO_WRITE_SCHEDULER_H_

 #include <map>
 #include <set>
 #include <string>

 #include "net/third_party/quiche/src/spdy/core/write_scheduler.h"
 #include "net/third_party/quiche/src/spdy/platform/api/spdy_containers.h"
 #include "net/third_party/quiche/src/spdy/platform/api/spdy_string_utils.h"

 namespace spdy {

 namespace test {

 template <typename StreamIdType>
 class LifoWriteSchedulerPeer;

 }  // namespace test

 // Create a write scheduler where the stream added last will have the highest
 // priority.
 template <typename StreamIdType>
 class LifoWriteScheduler : public WriteScheduler<StreamIdType> {
  public:
   using typename WriteScheduler<StreamIdType>::StreamPrecedenceType;

   LifoWriteScheduler() = default;

   void RegisterStream(StreamIdType stream_id,
                       const StreamPrecedenceType& /*precedence*/) override;

   void UnregisterStream(StreamIdType stream_id) override;

   bool StreamRegistered(StreamIdType stream_id) const override {
     return registered_streams_.find(stream_id) != registered_streams_.end();
   }

   // Stream precedence is not supported by this scheduler.
   StreamPrecedenceType GetStreamPrecedence(
       StreamIdType /*stream_id*/) const override {
     return StreamPrecedenceType(kV3LowestPriority);
   }

   void UpdateStreamPrecedence(
       StreamIdType /*stream_id*/,
       const StreamPrecedenceType& /*precedence*/) override {}

   std::vector<StreamIdType> GetStreamChildren(
       StreamIdType /*stream_id*/) const override {
     return std::vector<StreamIdType>();
   }

   void RecordStreamEventTime(StreamIdType stream_id,
                              int64_t now_in_usec) override;

   int64_t GetLatestEventWithPrecedence(StreamIdType stream_id) const override;

   StreamIdType PopNextReadyStream() override;

   std::tuple<StreamIdType, StreamPrecedenceType>
   PopNextReadyStreamAndPrecedence() override {
     return std::make_tuple(PopNextReadyStream(),
                            StreamPrecedenceType(kV3LowestPriority));
   }

   bool ShouldYield(StreamIdType stream_id) const override {
     return !ready_streams_.empty() && stream_id < *ready_streams_.rbegin();
   }

   void MarkStreamReady(StreamIdType stream_id, bool /*add_to_front*/) override;

   void MarkStreamNotReady(StreamIdType stream_id) override;

   bool HasReadyStreams() const override { return !ready_streams_.empty(); }
   size_t NumReadyStreams() const override { return ready_streams_.size(); }
   bool IsStreamReady(StreamIdType stream_id) const override;
   size_t NumRegisteredStreams() const override;
   std::string DebugString() const override;

  private:
   friend class test::LifoWriteSchedulerPeer<StreamIdType>;

   std::set<StreamIdType> ready_streams_;
   std::map<StreamIdType, int64_t> registered_streams_;
 };

 template <typename StreamIdType>
 void LifoWriteScheduler<StreamIdType>::RegisterStream(
     StreamIdType stream_id,
     const StreamPrecedenceType& /*precedence*/) {
   if (StreamRegistered(stream_id)) {
     SPDY_BUG << "Stream " << stream_id << " already registered";
     return;
   }
   registered_streams_.emplace_hint(registered_streams_.end(), stream_id, 0);
 }

 template <typename StreamIdType>
 void LifoWriteScheduler<StreamIdType>::UnregisterStream(
     StreamIdType stream_id) {
   if (!StreamRegistered(stream_id)) {
     SPDY_BUG << "Stream " << stream_id << " is not registered";
     return;
   }
   registered_streams_.erase(stream_id);
   ready_streams_.erase(stream_id);
 }

 template <typename StreamIdType>
 void LifoWriteScheduler<StreamIdType>::RecordStreamEventTime(
     StreamIdType stream_id,
     int64_t now_in_usec) {
   auto it = registered_streams_.find(stream_id);
   if (it != registered_streams_.end()) {
     it->second = now_in_usec;
   } else {
     SPDY_BUG << "Stream " << stream_id << " is not registered";
   }
 }

 template <typename StreamIdType>
 int64_t LifoWriteScheduler<StreamIdType>::GetLatestEventWithPrecedence(
     StreamIdType stream_id) const {
   if (!StreamRegistered(stream_id)) {
     SPDY_BUG << "Stream " << stream_id << " is not registered";
     return 0;
   }
   int64_t latest_event_time_us = 0;
   for (auto it = registered_streams_.rbegin(); it != registered_streams_.rend();
        ++it) {
     if (stream_id < it->first) {
       if (it->second > latest_event_time_us) {
         latest_event_time_us = it->second;
       }
     } else {
       break;
     }
   }
   return latest_event_time_us;
 }

 template <typename StreamIdType>
 StreamIdType LifoWriteScheduler<StreamIdType>::PopNextReadyStream() {
   if (ready_streams_.empty()) {
     SPDY_BUG << "No ready streams available";
     return 0;
   }
   auto it = --ready_streams_.end();
   StreamIdType id = *it;
   ready_streams_.erase(it);
   return id;
 }

 template <typename StreamIdType>
 void LifoWriteScheduler<StreamIdType>::MarkStreamReady(StreamIdType stream_id,
                                                        bool /*add_to_front*/) {
   if (!StreamRegistered(stream_id)) {
     SPDY_BUG << "Stream " << stream_id << " is not registered";
     return;
   }
   if (ready_streams_.find(stream_id) != ready_streams_.end()) {
     SPDY_VLOG(1) << "Stream already exists in the list";
     return;
   }
   ready_streams_.insert(stream_id);
 }

 template <typename StreamIdType>
 void LifoWriteScheduler<StreamIdType>::MarkStreamNotReady(
     StreamIdType stream_id) {
   auto it = ready_streams_.find(stream_id);
   if (it == ready_streams_.end()) {
     SPDY_VLOG(1) << "Try to remove a stream that is not on list";
     return;
   }
   ready_streams_.erase(it);
 }

 template <typename StreamIdType>
 bool LifoWriteScheduler<StreamIdType>::IsStreamReady(
     StreamIdType stream_id) const {
   if (!StreamRegistered(stream_id)) {
     SPDY_BUG << "Stream " << stream_id << " is not registered";
     return false;
   }
   return ready_streams_.find(stream_id) != ready_streams_.end();
 }

 template <typename StreamIdType>
 size_t LifoWriteScheduler<StreamIdType>::NumRegisteredStreams() const {
   return registered_streams_.size();
 }

 template <typename StreamIdType>
 std::string LifoWriteScheduler<StreamIdType>::DebugString() const {
   return SpdyStrCat(
       "LifoWriteScheduler {num_streams=", registered_streams_.size(),
       " num_ready_streams=", NumReadyStreams(), "}");
 }

 }  // namespace spdy

 #endif  // QUICHE_SPDY_CORE_LIFO_WRITE_SCHEDULER_H_
	// 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.

	#ifndef QUICHE_SPDY_CORE_LIFO_WRITE_SCHEDULER_H_
	#define QUICHE_SPDY_CORE_LIFO_WRITE_SCHEDULER_H_

	#include <map>
	#include <set>
	#include <string>

	#include "net/third_party/quiche/src/spdy/core/write_scheduler.h"
	#include "net/third_party/quiche/src/spdy/platform/api/spdy_containers.h"
	#include "net/third_party/quiche/src/spdy/platform/api/spdy_string_utils.h"

	namespace spdy {

	namespace test {

	template <typename StreamIdType>
	class LifoWriteSchedulerPeer;

	} // namespace test

	// Create a write scheduler where the stream added last will have the highest
	// priority.
	template <typename StreamIdType>
	class LifoWriteScheduler : public WriteScheduler<StreamIdType> {
	public:
	using typename WriteScheduler<StreamIdType>::StreamPrecedenceType;

	LifoWriteScheduler() = default;

	void RegisterStream(StreamIdType stream_id,
	const StreamPrecedenceType& /precedence/) override;

	void UnregisterStream(StreamIdType stream_id) override;

	bool StreamRegistered(StreamIdType stream_id) const override {
	return registered_streams_.find(stream_id) != registered_streams_.end();
	}

	// Stream precedence is not supported by this scheduler.
	StreamPrecedenceType GetStreamPrecedence(
	StreamIdType /stream_id/) const override {
	return StreamPrecedenceType(kV3LowestPriority);
	}

	void UpdateStreamPrecedence(
	StreamIdType /stream_id/,
	const StreamPrecedenceType& /precedence/) override {}

	std::vector<StreamIdType> GetStreamChildren(
	StreamIdType /stream_id/) const override {
	return std::vector<StreamIdType>();
	}

	void RecordStreamEventTime(StreamIdType stream_id,
	int64_t now_in_usec) override;

	int64_t GetLatestEventWithPrecedence(StreamIdType stream_id) const override;

	StreamIdType PopNextReadyStream() override;

	std::tuple<StreamIdType, StreamPrecedenceType>
	PopNextReadyStreamAndPrecedence() override {
	return std::make_tuple(PopNextReadyStream(),
	StreamPrecedenceType(kV3LowestPriority));
	}

	bool ShouldYield(StreamIdType stream_id) const override {
	return !ready_streams_.empty() && stream_id < *ready_streams_.rbegin();
	}

	void MarkStreamReady(StreamIdType stream_id, bool /add_to_front/) override;

	void MarkStreamNotReady(StreamIdType stream_id) override;

	bool HasReadyStreams() const override { return !ready_streams_.empty(); }
	size_t NumReadyStreams() const override { return ready_streams_.size(); }
	bool IsStreamReady(StreamIdType stream_id) const override;
	size_t NumRegisteredStreams() const override;
	std::string DebugString() const override;

	private:
	friend class test::LifoWriteSchedulerPeer<StreamIdType>;

	std::set<StreamIdType> ready_streams_;
	std::map<StreamIdType, int64_t> registered_streams_;
	};

	template <typename StreamIdType>
	void LifoWriteScheduler<StreamIdType>::RegisterStream(
	StreamIdType stream_id,
	const StreamPrecedenceType& /precedence/) {
	if (StreamRegistered(stream_id)) {
	SPDY_BUG << "Stream " << stream_id << " already registered";
	return;
	}
	registered_streams_.emplace_hint(registered_streams_.end(), stream_id, 0);
	}

	template <typename StreamIdType>
	void LifoWriteScheduler<StreamIdType>::UnregisterStream(
	StreamIdType stream_id) {
	if (!StreamRegistered(stream_id)) {
	SPDY_BUG << "Stream " << stream_id << " is not registered";
	return;
	}
	registered_streams_.erase(stream_id);
	ready_streams_.erase(stream_id);
	}

	template <typename StreamIdType>
	void LifoWriteScheduler<StreamIdType>::RecordStreamEventTime(
	StreamIdType stream_id,
	int64_t now_in_usec) {
	auto it = registered_streams_.find(stream_id);
	if (it != registered_streams_.end()) {
	it->second = now_in_usec;
	} else {
	SPDY_BUG << "Stream " << stream_id << " is not registered";
	}
	}

	template <typename StreamIdType>
	int64_t LifoWriteScheduler<StreamIdType>::GetLatestEventWithPrecedence(
	StreamIdType stream_id) const {
	if (!StreamRegistered(stream_id)) {
	SPDY_BUG << "Stream " << stream_id << " is not registered";
	return 0;
	}
	int64_t latest_event_time_us = 0;
	for (auto it = registered_streams_.rbegin(); it != registered_streams_.rend();
	++it) {
	if (stream_id < it->first) {
	if (it->second > latest_event_time_us) {
	latest_event_time_us = it->second;
	}
	} else {
	break;
	}
	}
	return latest_event_time_us;
	}

	template <typename StreamIdType>
	StreamIdType LifoWriteScheduler<StreamIdType>::PopNextReadyStream() {
	if (ready_streams_.empty()) {
	SPDY_BUG << "No ready streams available";
	return 0;
	}
	auto it = --ready_streams_.end();
	StreamIdType id = *it;
	ready_streams_.erase(it);
	return id;
	}

	template <typename StreamIdType>
	void LifoWriteScheduler<StreamIdType>::MarkStreamReady(StreamIdType stream_id,
	bool /add_to_front/) {
	if (!StreamRegistered(stream_id)) {
	SPDY_BUG << "Stream " << stream_id << " is not registered";
	return;
	}
	if (ready_streams_.find(stream_id) != ready_streams_.end()) {
	SPDY_VLOG(1) << "Stream already exists in the list";
	return;
	}
	ready_streams_.insert(stream_id);
	}

	template <typename StreamIdType>
	void LifoWriteScheduler<StreamIdType>::MarkStreamNotReady(
	StreamIdType stream_id) {
	auto it = ready_streams_.find(stream_id);
	if (it == ready_streams_.end()) {
	SPDY_VLOG(1) << "Try to remove a stream that is not on list";
	return;
	}
	ready_streams_.erase(it);
	}

	template <typename StreamIdType>
	bool LifoWriteScheduler<StreamIdType>::IsStreamReady(
	StreamIdType stream_id) const {
	if (!StreamRegistered(stream_id)) {
	SPDY_BUG << "Stream " << stream_id << " is not registered";
	return false;
	}
	return ready_streams_.find(stream_id) != ready_streams_.end();
	}

	template <typename StreamIdType>
	size_t LifoWriteScheduler<StreamIdType>::NumRegisteredStreams() const {
	return registered_streams_.size();
	}

	template <typename StreamIdType>
	std::string LifoWriteScheduler<StreamIdType>::DebugString() const {
	return SpdyStrCat(
	"LifoWriteScheduler {num_streams=", registered_streams_.size(),
	" num_ready_streams=", NumReadyStreams(), "}");
	}

	} // namespace spdy

	#endif // QUICHE_SPDY_CORE_LIFO_WRITE_SCHEDULER_H_