// Copyright (c) 2016 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 NET_SPDY_CORE_WRITE_SCHEDULER_H_ #define NET_SPDY_CORE_WRITE_SCHEDULER_H_ #include #include #include "net/spdy/core/spdy_protocol.h" #include "net/spdy/platform/api/spdy_export.h" namespace net { // Abstract superclass for classes that decide which SPDY or HTTP/2 stream to // write next. Concrete subclasses implement various scheduling policies: // // PriorityWriteScheduler: implements SPDY priority-based stream scheduling, // where (writable) higher-priority streams are always given precedence // over lower-priority streams. // // Http2PriorityWriteScheduler: implements SPDY priority-based stream // scheduling coupled with the HTTP/2 stream dependency model. This is only // intended as a transitional step towards Http2WeightedWriteScheduler. // // Http2WeightedWriteScheduler (coming soon): implements the HTTP/2 stream // dependency model with weighted stream scheduling, fully conforming to // RFC 7540. // // The type used to represent stream IDs (StreamIdType) is templated in order // to allow for use by both SPDY and QUIC codebases. It must be a POD that // supports comparison (i.e., a numeric type). // // Each stream can be in one of two states: ready or not ready (for writing). // Ready state is changed by calling the MarkStreamReady() and // MarkStreamNotReady() methods. Only streams in the ready state can be // returned by PopNextReadyStream(); when returned by that method, the stream's // state changes to not ready. template class SPDY_EXPORT_PRIVATE WriteScheduler { public: typedef StreamPrecedence StreamPrecedenceType; virtual ~WriteScheduler() {} // Registers new stream |stream_id| with the scheduler, assigning it the // given precedence. If the scheduler supports stream dependencies, the // stream is inserted into the dependency tree under // |precedence.parent_id()|. // // Preconditions: |stream_id| should be unregistered, and // |precedence.parent_id()| should be registered or |kHttp2RootStreamId|. virtual void RegisterStream(StreamIdType stream_id, const StreamPrecedenceType& precedence) = 0; // Unregisters the given stream from the scheduler, which will no longer keep // state for it. // // Preconditions: |stream_id| should be registered. virtual void UnregisterStream(StreamIdType stream_id) = 0; // Returns true if the given stream is currently registered. virtual bool StreamRegistered(StreamIdType stream_id) const = 0; // Returns the precedence of the specified stream. If the scheduler supports // stream dependencies, calling |parent_id()| on the return value returns the // stream's parent, and calling |exclusive()| returns true iff the specified // stream is an only child of the parent stream. // // Preconditions: |stream_id| should be registered. virtual StreamPrecedenceType GetStreamPrecedence( StreamIdType stream_id) const = 0; // Updates the precedence of the given stream. If the scheduler supports // stream dependencies, |stream_id|'s parent will be updated to be // |precedence.parent_id()| if it is not already. // // Preconditions: |stream_id| should be unregistered, and // |precedence.parent_id()| should be registered or |kHttp2RootStreamId|. virtual void UpdateStreamPrecedence( StreamIdType stream_id, const StreamPrecedenceType& precedence) = 0; // Returns child streams of the given stream, if any. If the scheduler // doesn't support stream dependencies, returns an empty vector. // // Preconditions: |stream_id| should be registered. virtual std::vector GetStreamChildren( StreamIdType stream_id) const = 0; // Records time (in microseconds) of a read/write event for the given // stream. // // Preconditions: |stream_id| should be registered. virtual void RecordStreamEventTime(StreamIdType stream_id, int64_t now_in_usec) = 0; // Returns time (in microseconds) of the last read/write event for a stream // with higher priority than the priority of the given stream, or 0 if there // is no such event. // // Preconditions: |stream_id| should be registered. virtual int64_t GetLatestEventWithPrecedence( StreamIdType stream_id) const = 0; // If the scheduler has any ready streams, returns the next scheduled // ready stream, in the process transitioning the stream from ready to not // ready. // // Preconditions: |HasReadyStreams() == true| virtual StreamIdType PopNextReadyStream() = 0; // If the scheduler has any ready streams, returns the next scheduled // ready stream and its priority, in the process transitioning the stream from // ready to not ready. // // Preconditions: |HasReadyStreams() == true| virtual std::tuple PopNextReadyStreamAndPrecedence() = 0; // Returns true if there's another stream ahead of the given stream in the // scheduling queue. This function can be called to see if the given stream // should yield work to another stream. // // Preconditions: |stream_id| should be registered. virtual bool ShouldYield(StreamIdType stream_id) const = 0; // Marks the stream as ready to write. If the stream was already ready, does // nothing. If add_to_front is true, the stream is scheduled ahead of other // streams of the same priority/weight, otherwise it is scheduled behind them. // // Preconditions: |stream_id| should be registered. virtual void MarkStreamReady(StreamIdType stream_id, bool add_to_front) = 0; // Marks the stream as not ready to write. If the stream is not registered or // not ready, does nothing. // // Preconditions: |stream_id| should be registered. virtual void MarkStreamNotReady(StreamIdType stream_id) = 0; // Returns true iff the scheduler has any ready streams. virtual bool HasReadyStreams() const = 0; // Returns the number of streams currently marked ready. virtual size_t NumReadyStreams() const = 0; }; } // namespace net #endif // NET_SPDY_CORE_WRITE_SCHEDULER_H_