quic/core/quic_stream_id_manager.h - quiche - Git at Google

 // Copyright (c) 2018 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_QUIC_CORE_QUIC_STREAM_ID_MANAGER_H_
 #define QUICHE_QUIC_CORE_QUIC_STREAM_ID_MANAGER_H_

 #include "base/macros.h"
 #include "net/third_party/quiche/src/quic/core/frames/quic_frame.h"
 #include "net/third_party/quiche/src/quic/core/quic_types.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_logging.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_str_cat.h"

 namespace quic {

 namespace test {
 class QuicSessionPeer;
 class QuicStreamIdManagerPeer;
 }  // namespace test

 class QuicSession;

 // Amount to increment a stream ID value to get the next stream ID in
 // the stream ID space.
 const QuicStreamId kV99StreamIdIncrement = 4;

 // This constant controls the size of the window when deciding whether
 // to generate a MAX STREAM ID frame or not. See the discussion of the
 // window, below, for more details.
 const int kMaxStreamIdWindowDivisor = 2;

 // This class manages the stream ids for Version 99/IETF QUIC.
 // TODO(fkastenholz): Expand to support bi- and uni-directional stream ids
 // TODO(fkastenholz): Roll in pre-version-99 management
 class QUIC_EXPORT_PRIVATE QuicStreamIdManager {
  public:
   QuicStreamIdManager(QuicSession* session,
                       QuicStreamId next_outgoing_stream_id,
                       QuicStreamId largest_peer_created_stream_id,
                       QuicStreamId first_incoming_dynamic_stream_id,
                       size_t max_allowed_outgoing_streams,
                       size_t max_allowed_incoming_streams);

   ~QuicStreamIdManager();

   // Generate a string suitable for sending to the log/etc to show current state
   // of the stream ID manager.
   QuicString DebugString() const {
     return QuicStrCat(
         " { max_allowed_outgoing_stream_id: ", max_allowed_outgoing_stream_id_,
         ", actual_max_allowed_incoming_stream_id_: ",
         actual_max_allowed_incoming_stream_id_,
         ", advertised_max_allowed_incoming_stream_id_: ",
         advertised_max_allowed_incoming_stream_id_,
         ", max_stream_id_window_: ", max_stream_id_window_,
         ", max_allowed_outgoing_streams_: ", max_allowed_outgoing_streams_,
         ", max_allowed_incoming_streams_: ", max_allowed_incoming_streams_,
         ", available_incoming_streams_: ", available_incoming_streams_,
         ", first_incoming_dynamic_stream_id_: ",
         first_incoming_dynamic_stream_id_,
         ", first_outgoing_dynamic_stream_id_: ",
         first_outgoing_dynamic_stream_id_, " }");
   }

   // Processes the MAX STREAM ID frame, invoked from
   // QuicSession::OnMaxStreamIdFrame. It has the same semantics as the
   // QuicFramerVisitorInterface, returning true if the framer should continue
   // processing the packet, false if not.
   bool OnMaxStreamIdFrame(const QuicMaxStreamIdFrame& frame);

   // Processes the STREAM ID BLOCKED frame, invoked from
   // QuicSession::OnStreamIdBlockedFrame. It has the same semantics as the
   // QuicFramerVisitorInterface, returning true if the framer should continue
   // processing the packet, false if not.
   bool OnStreamIdBlockedFrame(const QuicStreamIdBlockedFrame& frame);

   // Indicates whether the next outgoing stream ID can be allocated or not. The
   // test is whether it will exceed the maximum-stream-id or not.
   bool CanOpenNextOutgoingStream();

   // Generate and send a MAX_STREAM_ID frame.
   void SendMaxStreamIdFrame();

   // Invoked to deal with releasing a stream ID.
   void OnStreamClosed(QuicStreamId stream_id);

   // Returns the next outgoing stream id. If it fails (due to running into the
   // max_allowed_outgoing_stream_id limit) then it returns an invalid stream id.
   QuicStreamId GetNextOutgoingStreamId();

   // Initialize the maximum allowed incoming stream id and number of streams.
   void SetMaxOpenIncomingStreams(size_t max_streams);

   // Initialize the maximum allowed outgoing stream id, number of streams, and
   // MAX_STREAM_ID advertisement window.
   void SetMaxOpenOutgoingStreams(size_t max_streams);

   // Register a new stream as a static stream. This is used so that the
   // advertised maximum stream ID can be calculated based on the start of the
   // dynamic stream space. This method will take any stream ID, one that either
   // this node or the peer will initiate.
   void RegisterStaticStream(QuicStreamId stream_id);

   // Check that an incoming stream id is valid -- is below the maximum allowed
   // stream ID. Note that this method uses the actual maximum, not the most
   // recently advertised maximum this helps preserve the Google-QUIC semantic
   // that we actually care about the number of open streams, not the maximum
   // stream ID.  Returns true if the stream ID is valid. If the stream ID fails
   // the test, will close the connection (per the protocol specification) and
   // return false. This method also maintains state with regard to the number of
   // streams that the peer can open (used for generating MAX_STREAM_ID frames).
   // This method should be called exactly once for each incoming stream
   // creation.
   bool MaybeIncreaseLargestPeerStreamId(const QuicStreamId stream_id);

   // Returns true if |id| is still available.
   bool IsAvailableStream(QuicStreamId id) const;

   // Return true if given stream is peer initiated.
   bool IsIncomingStream(QuicStreamId id) const;

   size_t max_allowed_outgoing_streams() const {
     return max_allowed_outgoing_streams_;
   }
   size_t max_allowed_incoming_streams() const {
     return max_allowed_incoming_streams_;
   }
   QuicStreamId max_allowed_outgoing_stream_id() const {
     return max_allowed_outgoing_stream_id_;
   }
   QuicStreamId advertised_max_allowed_incoming_stream_id() const {
     return advertised_max_allowed_incoming_stream_id_;
   }
   QuicStreamId actual_max_allowed_incoming_stream_id() const {
     return actual_max_allowed_incoming_stream_id_;
   }
   QuicStreamId max_stream_id_window() const { return max_stream_id_window_; }

   QuicStreamId next_outgoing_stream_id() const {
     return next_outgoing_stream_id_;
   }

   QuicStreamId first_incoming_dynamic_stream_id() {
     return first_incoming_dynamic_stream_id_;
   }
   QuicStreamId first_outgoing_dynamic_stream_id() {
     return first_outgoing_dynamic_stream_id_;
   }
   size_t available_incoming_streams() { return available_incoming_streams_; }

   void set_max_allowed_incoming_streams(size_t stream_count) {
     max_allowed_incoming_streams_ = stream_count;
   }

   void set_largest_peer_created_stream_id(
       QuicStreamId largest_peer_created_stream_id) {
     largest_peer_created_stream_id_ = largest_peer_created_stream_id;
   }

  private:
   friend class test::QuicSessionPeer;
   friend class test::QuicStreamIdManagerPeer;

   // Check whether the MAX_STREAM_ID window has opened up enough and, if so,
   // generate and send a MAX_STREAM_ID frame.
   void MaybeSendMaxStreamIdFrame();

   // Back reference to the session containing this Stream ID Manager.
   // needed to access various session methods, such as perspective()
   QuicSession* session_;

   // The ID to use for the next outgoing stream.
   QuicStreamId next_outgoing_stream_id_;

   // Set of stream ids that are less than the largest stream id that has been
   // received, but are nonetheless available to be created.
   QuicUnorderedSet<QuicStreamId> available_streams_;

   QuicStreamId largest_peer_created_stream_id_;

   // The maximum stream ID value that we can use. This is initialized based on,
   // first, the default number of open streams we can do, updated per the number
   // of streams we receive in the transport parameters, and then finally is
   // modified whenever a MAX_STREAM_ID frame is received from the peer.
   QuicStreamId max_allowed_outgoing_stream_id_;

   // Unlike for streams this node initiates, for incoming streams, there are two
   // maxima; the actual maximum which is the limit the peer must obey and the
   // maximum that was most recently advertised to the peer in a MAX_STREAM_ID
   // frame.
   //
   // The advertised maximum is never larger than the actual maximum. The actual
   // maximum increases whenever an incoming stream is closed. The advertised
   // maximum increases (to the actual maximum) whenever a MAX_STREAM_ID is sent.
   //
   // The peer is granted some leeway, incoming streams are accepted as long as
   // their stream id is not greater than the actual maximum.  The protocol
   // specifies that the advertised maximum is the limit. This implmentation uses
   // the actual maximum in order to support Google-QUIC semantics, where it's
   // the number of open streams, not their ID number, that is the real limit.
   QuicStreamId actual_max_allowed_incoming_stream_id_;
   QuicStreamId advertised_max_allowed_incoming_stream_id_;

   // max_stream_id_window_ is set to max_allowed_outgoing_streams_ / 2
   // (half of the number of streams that are allowed).  The local node
   // does not send a MAX_STREAM_ID frame to the peer until the local node
   // believes that the peer can open fewer than |max_stream_id_window_|
   // streams. When that is so, the local node sends a MAX_STREAM_ID every time
   // an inbound stream is closed.
   QuicStreamId max_stream_id_window_;

   // Maximum number of outgoing and incoming streams that are allowed to be
   // concurrently opened. Initialized as part of configuration.
   size_t max_allowed_outgoing_streams_;
   size_t max_allowed_incoming_streams_;

   // Keep track of the first dynamic stream id (which is the largest static
   // stream id plus one id).  For Google QUIC, static streams are not counted
   // against the stream count limit. When the number of static streams
   // increases, the maximum stream id has to increase by a corresponding amount.
   // These are used as floors from which the relevant maximum is
   // calculated. Keeping the "first dynamic" rather than the "last static" has
   // some implementation advantages.
   QuicStreamId first_incoming_dynamic_stream_id_;
   QuicStreamId first_outgoing_dynamic_stream_id_;

   // Number of streams that that this node believes that the
   // peer can open. It is initialized to the same value as
   // max_allowed_incoming_streams_. It is decremented every
   // time a new incoming stream is detected.  A MAX_STREAM_ID
   // is sent whenver a stream closes and this counter is less
   // than the window. When that happens, it is incremented by
   // the number of streams we make available (the actual max
   // stream ID - the most recently advertised one)
   size_t available_incoming_streams_;
 };

 }  // namespace quic

 #endif  // QUICHE_QUIC_CORE_QUIC_STREAM_ID_MANAGER_H_
	// Copyright (c) 2018 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_QUIC_CORE_QUIC_STREAM_ID_MANAGER_H_
	#define QUICHE_QUIC_CORE_QUIC_STREAM_ID_MANAGER_H_

	#include "base/macros.h"
	#include "net/third_party/quiche/src/quic/core/frames/quic_frame.h"
	#include "net/third_party/quiche/src/quic/core/quic_types.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_logging.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_str_cat.h"

	namespace quic {

	namespace test {
	class QuicSessionPeer;
	class QuicStreamIdManagerPeer;
	} // namespace test

	class QuicSession;

	// Amount to increment a stream ID value to get the next stream ID in
	// the stream ID space.
	const QuicStreamId kV99StreamIdIncrement = 4;

	// This constant controls the size of the window when deciding whether
	// to generate a MAX STREAM ID frame or not. See the discussion of the
	// window, below, for more details.
	const int kMaxStreamIdWindowDivisor = 2;

	// This class manages the stream ids for Version 99/IETF QUIC.
	// TODO(fkastenholz): Expand to support bi- and uni-directional stream ids
	// TODO(fkastenholz): Roll in pre-version-99 management
	class QUIC_EXPORT_PRIVATE QuicStreamIdManager {
	public:
	QuicStreamIdManager(QuicSession* session,
	QuicStreamId next_outgoing_stream_id,
	QuicStreamId largest_peer_created_stream_id,
	QuicStreamId first_incoming_dynamic_stream_id,
	size_t max_allowed_outgoing_streams,
	size_t max_allowed_incoming_streams);

	~QuicStreamIdManager();

	// Generate a string suitable for sending to the log/etc to show current state
	// of the stream ID manager.
	QuicString DebugString() const {
	return QuicStrCat(
	" { max_allowed_outgoing_stream_id: ", max_allowed_outgoing_stream_id_,
	", actual_max_allowed_incoming_stream_id_: ",
	actual_max_allowed_incoming_stream_id_,
	", advertised_max_allowed_incoming_stream_id_: ",
	advertised_max_allowed_incoming_stream_id_,
	", max_stream_id_window_: ", max_stream_id_window_,
	", max_allowed_outgoing_streams_: ", max_allowed_outgoing_streams_,
	", max_allowed_incoming_streams_: ", max_allowed_incoming_streams_,
	", available_incoming_streams_: ", available_incoming_streams_,
	", first_incoming_dynamic_stream_id_: ",
	first_incoming_dynamic_stream_id_,
	", first_outgoing_dynamic_stream_id_: ",
	first_outgoing_dynamic_stream_id_, " }");
	}

	// Processes the MAX STREAM ID frame, invoked from
	// QuicSession::OnMaxStreamIdFrame. It has the same semantics as the
	// QuicFramerVisitorInterface, returning true if the framer should continue
	// processing the packet, false if not.
	bool OnMaxStreamIdFrame(const QuicMaxStreamIdFrame& frame);

	// Processes the STREAM ID BLOCKED frame, invoked from
	// QuicSession::OnStreamIdBlockedFrame. It has the same semantics as the
	// QuicFramerVisitorInterface, returning true if the framer should continue
	// processing the packet, false if not.
	bool OnStreamIdBlockedFrame(const QuicStreamIdBlockedFrame& frame);

	// Indicates whether the next outgoing stream ID can be allocated or not. The
	// test is whether it will exceed the maximum-stream-id or not.
	bool CanOpenNextOutgoingStream();

	// Generate and send a MAX_STREAM_ID frame.
	void SendMaxStreamIdFrame();

	// Invoked to deal with releasing a stream ID.
	void OnStreamClosed(QuicStreamId stream_id);

	// Returns the next outgoing stream id. If it fails (due to running into the
	// max_allowed_outgoing_stream_id limit) then it returns an invalid stream id.
	QuicStreamId GetNextOutgoingStreamId();

	// Initialize the maximum allowed incoming stream id and number of streams.
	void SetMaxOpenIncomingStreams(size_t max_streams);

	// Initialize the maximum allowed outgoing stream id, number of streams, and
	// MAX_STREAM_ID advertisement window.
	void SetMaxOpenOutgoingStreams(size_t max_streams);

	// Register a new stream as a static stream. This is used so that the
	// advertised maximum stream ID can be calculated based on the start of the
	// dynamic stream space. This method will take any stream ID, one that either
	// this node or the peer will initiate.
	void RegisterStaticStream(QuicStreamId stream_id);

	// Check that an incoming stream id is valid -- is below the maximum allowed
	// stream ID. Note that this method uses the actual maximum, not the most
	// recently advertised maximum this helps preserve the Google-QUIC semantic
	// that we actually care about the number of open streams, not the maximum
	// stream ID. Returns true if the stream ID is valid. If the stream ID fails
	// the test, will close the connection (per the protocol specification) and
	// return false. This method also maintains state with regard to the number of
	// streams that the peer can open (used for generating MAX_STREAM_ID frames).
	// This method should be called exactly once for each incoming stream
	// creation.
	bool MaybeIncreaseLargestPeerStreamId(const QuicStreamId stream_id);

	// Returns true if \|id\| is still available.
	bool IsAvailableStream(QuicStreamId id) const;

	// Return true if given stream is peer initiated.
	bool IsIncomingStream(QuicStreamId id) const;

	size_t max_allowed_outgoing_streams() const {
	return max_allowed_outgoing_streams_;
	}
	size_t max_allowed_incoming_streams() const {
	return max_allowed_incoming_streams_;
	}
	QuicStreamId max_allowed_outgoing_stream_id() const {
	return max_allowed_outgoing_stream_id_;
	}
	QuicStreamId advertised_max_allowed_incoming_stream_id() const {
	return advertised_max_allowed_incoming_stream_id_;
	}
	QuicStreamId actual_max_allowed_incoming_stream_id() const {
	return actual_max_allowed_incoming_stream_id_;
	}
	QuicStreamId max_stream_id_window() const { return max_stream_id_window_; }

	QuicStreamId next_outgoing_stream_id() const {
	return next_outgoing_stream_id_;
	}

	QuicStreamId first_incoming_dynamic_stream_id() {
	return first_incoming_dynamic_stream_id_;
	}
	QuicStreamId first_outgoing_dynamic_stream_id() {
	return first_outgoing_dynamic_stream_id_;
	}
	size_t available_incoming_streams() { return available_incoming_streams_; }

	void set_max_allowed_incoming_streams(size_t stream_count) {
	max_allowed_incoming_streams_ = stream_count;
	}

	void set_largest_peer_created_stream_id(
	QuicStreamId largest_peer_created_stream_id) {
	largest_peer_created_stream_id_ = largest_peer_created_stream_id;
	}

	private:
	friend class test::QuicSessionPeer;
	friend class test::QuicStreamIdManagerPeer;

	// Check whether the MAX_STREAM_ID window has opened up enough and, if so,
	// generate and send a MAX_STREAM_ID frame.
	void MaybeSendMaxStreamIdFrame();

	// Back reference to the session containing this Stream ID Manager.
	// needed to access various session methods, such as perspective()
	QuicSession* session_;

	// The ID to use for the next outgoing stream.
	QuicStreamId next_outgoing_stream_id_;

	// Set of stream ids that are less than the largest stream id that has been
	// received, but are nonetheless available to be created.
	QuicUnorderedSet<QuicStreamId> available_streams_;

	QuicStreamId largest_peer_created_stream_id_;

	// The maximum stream ID value that we can use. This is initialized based on,
	// first, the default number of open streams we can do, updated per the number
	// of streams we receive in the transport parameters, and then finally is
	// modified whenever a MAX_STREAM_ID frame is received from the peer.
	QuicStreamId max_allowed_outgoing_stream_id_;

	// Unlike for streams this node initiates, for incoming streams, there are two
	// maxima; the actual maximum which is the limit the peer must obey and the
	// maximum that was most recently advertised to the peer in a MAX_STREAM_ID
	// frame.
	//
	// The advertised maximum is never larger than the actual maximum. The actual
	// maximum increases whenever an incoming stream is closed. The advertised
	// maximum increases (to the actual maximum) whenever a MAX_STREAM_ID is sent.
	//
	// The peer is granted some leeway, incoming streams are accepted as long as
	// their stream id is not greater than the actual maximum. The protocol
	// specifies that the advertised maximum is the limit. This implmentation uses
	// the actual maximum in order to support Google-QUIC semantics, where it's
	// the number of open streams, not their ID number, that is the real limit.
	QuicStreamId actual_max_allowed_incoming_stream_id_;
	QuicStreamId advertised_max_allowed_incoming_stream_id_;

	// max_stream_id_window_ is set to max_allowed_outgoing_streams_ / 2
	// (half of the number of streams that are allowed). The local node
	// does not send a MAX_STREAM_ID frame to the peer until the local node
	// believes that the peer can open fewer than \|max_stream_id_window_\|
	// streams. When that is so, the local node sends a MAX_STREAM_ID every time
	// an inbound stream is closed.
	QuicStreamId max_stream_id_window_;

	// Maximum number of outgoing and incoming streams that are allowed to be
	// concurrently opened. Initialized as part of configuration.
	size_t max_allowed_outgoing_streams_;
	size_t max_allowed_incoming_streams_;

	// Keep track of the first dynamic stream id (which is the largest static
	// stream id plus one id). For Google QUIC, static streams are not counted
	// against the stream count limit. When the number of static streams
	// increases, the maximum stream id has to increase by a corresponding amount.
	// These are used as floors from which the relevant maximum is
	// calculated. Keeping the "first dynamic" rather than the "last static" has
	// some implementation advantages.
	QuicStreamId first_incoming_dynamic_stream_id_;
	QuicStreamId first_outgoing_dynamic_stream_id_;

	// Number of streams that that this node believes that the
	// peer can open. It is initialized to the same value as
	// max_allowed_incoming_streams_. It is decremented every
	// time a new incoming stream is detected. A MAX_STREAM_ID
	// is sent whenver a stream closes and this counter is less
	// than the window. When that happens, it is incremented by
	// the number of streams we make available (the actual max
	// stream ID - the most recently advertised one)
	size_t available_incoming_streams_;
	};

	} // namespace quic

	#endif // QUICHE_QUIC_CORE_QUIC_STREAM_ID_MANAGER_H_