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

 // Copyright 2013 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_PACKET_WRITER_H_
 #define QUICHE_QUIC_CORE_QUIC_PACKET_WRITER_H_

 #include <cstddef>
 #include <utility>

 #include "net/third_party/quiche/src/quic/core/quic_packets.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_export.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_socket_address.h"

 namespace quic {

 struct WriteResult;

 struct QUIC_EXPORT_PRIVATE PerPacketOptions {
   virtual ~PerPacketOptions() {}

   // Returns a heap-allocated copy of |this|.
   //
   // The subclass implementation of this method should look like this:
   //   return std::make_unique<MyAwesomePerPacketOptions>(*this);
   //
   // This method is declared pure virtual in order to ensure the subclasses
   // would not forget to override it.
   virtual std::unique_ptr<PerPacketOptions> Clone() const = 0;

   // Specifies ideal release time delay for this packet.
   QuicTime::Delta release_time_delay = QuicTime::Delta::Zero();
   // Whether it is allowed to send this packet without |release_time_delay|.
   bool allow_burst = false;
 };

 // An interface between writers and the entity managing the
 // socket (in our case the QuicDispatcher).  This allows the Dispatcher to
 // control writes, and manage any writers who end up write blocked.
 // A concrete writer works in one of the two modes:
 // - PassThrough mode. This is the default mode. Caller calls WritePacket with
 //   caller-allocated packet buffer. Unless the writer is blocked, each call to
 //   WritePacket triggers a write using the underlying socket API.
 //
 // - Batch mode. In this mode, a call to WritePacket may not cause a packet to
 //   be sent using the underlying socket API. Instead, multiple packets are
 //   saved in the writer's internal buffer until they are flushed. The flush can
 //   be explicit, by calling Flush, or implicit, e.g. by calling
 //   WritePacket when the internal buffer is near full.
 //
 // Buffer management:
 // In Batch mode, a writer manages an internal buffer, which is large enough to
 // hold multiple packets' data. If the caller calls WritePacket with a
 // caller-allocated packet buffer, the writer will memcpy the buffer into the
 // internal buffer. Caller can also avoid this memcpy by:
 // 1. Call GetNextWriteLocation to get a pointer P into the internal buffer.
 // 2. Serialize the packet directly to P.
 // 3. Call WritePacket with P as the |buffer|.
 class QUIC_EXPORT_PRIVATE QuicPacketWriter {
  public:
   virtual ~QuicPacketWriter() {}

   // PassThrough mode:
   // Sends the packet out to the peer, with some optional per-packet options.
   // If the write succeeded, the result's status is WRITE_STATUS_OK and
   // bytes_written is populated. If the write failed, the result's status is
   // WRITE_STATUS_BLOCKED or WRITE_STATUS_ERROR and error_code is populated.
   //
   // Batch mode:
   // If the writer is blocked, return WRITE_STATUS_BLOCKED immediately.
   // If the packet can be batched with other buffered packets, save the packet
   // to the internal buffer.
   // If the packet can not be batched, or the internal buffer is near full after
   // it is buffered, the internal buffer is flushed to free up space.
   // Return WriteResult(WRITE_STATUS_OK, <bytes_flushed>) on success. When
   // <bytes_flushed> is zero, it means the packet is buffered and not flushed.
   // Return WRITE_STATUS_BLOCKED if the packet is not buffered and the socket is
   // blocked while flushing.
   // Otherwise return an error status.
   //
   // Options must be either null, or created for the particular QuicPacketWriter
   // implementation. Options may be ignored, depending on the implementation.
   //
   // Some comment about memory management if |buffer| was previously acquired
   // by a call to "GetNextWriteLocation()":
   //
   // a) When WRITE_STATUS_OK is returned, the caller expects the writer owns the
   // packet buffers and they will be released when the write finishes.
   //
   // b) When this function returns any status >= WRITE_STATUS_ERROR, the caller
   // expects the writer releases the buffer (if needed) before the function
   // returns.
   //
   // c) When WRITE_STATUS_BLOCKED is returned, the caller makes a copy of the
   // buffer and will retry after unblock, so if |payload| is allocated from
   // GetNextWriteLocation(), it
   //    1) needs to be released before return, and
   //    2) the content of |payload| should not change after return.
   //
   // d) When WRITE_STATUS_BLOCKED_DATA_BUFFERED is returned, the caller expects
   // 1) the writer owns the packet buffers, and 2) the writer will re-send the
   // packet when it unblocks.
   virtual WriteResult WritePacket(const char* buffer,
                                   size_t buf_len,
                                   const QuicIpAddress& self_address,
                                   const QuicSocketAddress& peer_address,
                                   PerPacketOptions* options) = 0;

   // Returns true if the network socket is not writable.
   virtual bool IsWriteBlocked() const = 0;

   // Records that the socket has become writable, for example when an EPOLLOUT
   // is received or an asynchronous write completes.
   virtual void SetWritable() = 0;

   // Returns the maximum size of the packet which can be written using this
   // writer for the supplied peer address.  This size may actually exceed the
   // size of a valid QUIC packet.
   virtual QuicByteCount GetMaxPacketSize(
       const QuicSocketAddress& peer_address) const = 0;

   // Returns true if the socket supports release timestamp.
   virtual bool SupportsReleaseTime() const = 0;

   // True=Batch mode. False=PassThrough mode.
   virtual bool IsBatchMode() const = 0;

   // PassThrough mode: Return {nullptr, nullptr}
   //
   // Batch mode:
   // Return the QuicPacketBuffer for the next packet. A minimum of
   // kMaxOutgoingPacketSize is guaranteed to be available from the returned
   // address. If the internal buffer does not have enough space,
   // {nullptr, nullptr} is returned. All arguments should be identical to the
   // follow-up call to |WritePacket|, they are here to allow advanced packet
   // memory management in packet writers, e.g. one packet buffer pool per
   // |peer_address|.
   //
   // If QuicPacketBuffer.release_buffer is !nullptr, it should be called iff
   // the caller does not call WritePacket for the returned buffer.
   virtual QuicPacketBuffer GetNextWriteLocation(
       const QuicIpAddress& self_address,
       const QuicSocketAddress& peer_address) = 0;

   // PassThrough mode: Return WriteResult(WRITE_STATUS_OK, 0).
   //
   // Batch mode:
   // Try send all buffered packets.
   // - Return WriteResult(WRITE_STATUS_OK, <bytes_flushed>) if all buffered
   //   packets were sent successfully.
   // - Return WRITE_STATUS_BLOCKED if the underlying socket is blocked while
   //   sending. Some packets may have been sent, packets not sent will stay in
   //   the internal buffer.
   // - Return a status >= WRITE_STATUS_ERROR if an error was encuontered while
   //   sending. As this is not a re-tryable error, any batched packets which
   //   were on memory acquired via GetNextWriteLocation() should be released and
   //   the batch should be dropped.
   virtual WriteResult Flush() = 0;
 };

 }  // namespace quic

 #endif  // QUICHE_QUIC_CORE_QUIC_PACKET_WRITER_H_
	// Copyright 2013 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_PACKET_WRITER_H_
	#define QUICHE_QUIC_CORE_QUIC_PACKET_WRITER_H_

	#include <cstddef>
	#include <utility>

	#include "net/third_party/quiche/src/quic/core/quic_packets.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_export.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_socket_address.h"

	namespace quic {

	struct WriteResult;

	struct QUIC_EXPORT_PRIVATE PerPacketOptions {
	virtual ~PerPacketOptions() {}

	// Returns a heap-allocated copy of \|this\|.
	//
	// The subclass implementation of this method should look like this:
	// return std::make_unique<MyAwesomePerPacketOptions>(*this);
	//
	// This method is declared pure virtual in order to ensure the subclasses
	// would not forget to override it.
	virtual std::unique_ptr<PerPacketOptions> Clone() const = 0;

	// Specifies ideal release time delay for this packet.
	QuicTime::Delta release_time_delay = QuicTime::Delta::Zero();
	// Whether it is allowed to send this packet without \|release_time_delay\|.
	bool allow_burst = false;
	};

	// An interface between writers and the entity managing the
	// socket (in our case the QuicDispatcher). This allows the Dispatcher to
	// control writes, and manage any writers who end up write blocked.
	// A concrete writer works in one of the two modes:
	// - PassThrough mode. This is the default mode. Caller calls WritePacket with
	// caller-allocated packet buffer. Unless the writer is blocked, each call to
	// WritePacket triggers a write using the underlying socket API.
	//
	// - Batch mode. In this mode, a call to WritePacket may not cause a packet to
	// be sent using the underlying socket API. Instead, multiple packets are
	// saved in the writer's internal buffer until they are flushed. The flush can
	// be explicit, by calling Flush, or implicit, e.g. by calling
	// WritePacket when the internal buffer is near full.
	//
	// Buffer management:
	// In Batch mode, a writer manages an internal buffer, which is large enough to
	// hold multiple packets' data. If the caller calls WritePacket with a
	// caller-allocated packet buffer, the writer will memcpy the buffer into the
	// internal buffer. Caller can also avoid this memcpy by:
	// 1. Call GetNextWriteLocation to get a pointer P into the internal buffer.
	// 2. Serialize the packet directly to P.
	// 3. Call WritePacket with P as the \|buffer\|.
	class QUIC_EXPORT_PRIVATE QuicPacketWriter {
	public:
	virtual ~QuicPacketWriter() {}

	// PassThrough mode:
	// Sends the packet out to the peer, with some optional per-packet options.
	// If the write succeeded, the result's status is WRITE_STATUS_OK and
	// bytes_written is populated. If the write failed, the result's status is
	// WRITE_STATUS_BLOCKED or WRITE_STATUS_ERROR and error_code is populated.
	//
	// Batch mode:
	// If the writer is blocked, return WRITE_STATUS_BLOCKED immediately.
	// If the packet can be batched with other buffered packets, save the packet
	// to the internal buffer.
	// If the packet can not be batched, or the internal buffer is near full after
	// it is buffered, the internal buffer is flushed to free up space.
	// Return WriteResult(WRITE_STATUS_OK, <bytes_flushed>) on success. When
	// <bytes_flushed> is zero, it means the packet is buffered and not flushed.
	// Return WRITE_STATUS_BLOCKED if the packet is not buffered and the socket is
	// blocked while flushing.
	// Otherwise return an error status.
	//
	// Options must be either null, or created for the particular QuicPacketWriter
	// implementation. Options may be ignored, depending on the implementation.
	//
	// Some comment about memory management if \|buffer\| was previously acquired
	// by a call to "GetNextWriteLocation()":
	//
	// a) When WRITE_STATUS_OK is returned, the caller expects the writer owns the
	// packet buffers and they will be released when the write finishes.
	//
	// b) When this function returns any status >= WRITE_STATUS_ERROR, the caller
	// expects the writer releases the buffer (if needed) before the function
	// returns.
	//
	// c) When WRITE_STATUS_BLOCKED is returned, the caller makes a copy of the
	// buffer and will retry after unblock, so if \|payload\| is allocated from
	// GetNextWriteLocation(), it
	// 1) needs to be released before return, and
	// 2) the content of \|payload\| should not change after return.
	//
	// d) When WRITE_STATUS_BLOCKED_DATA_BUFFERED is returned, the caller expects
	// 1) the writer owns the packet buffers, and 2) the writer will re-send the
	// packet when it unblocks.
	virtual WriteResult WritePacket(const char* buffer,
	size_t buf_len,
	const QuicIpAddress& self_address,
	const QuicSocketAddress& peer_address,
	PerPacketOptions* options) = 0;

	// Returns true if the network socket is not writable.
	virtual bool IsWriteBlocked() const = 0;

	// Records that the socket has become writable, for example when an EPOLLOUT
	// is received or an asynchronous write completes.
	virtual void SetWritable() = 0;

	// Returns the maximum size of the packet which can be written using this
	// writer for the supplied peer address. This size may actually exceed the
	// size of a valid QUIC packet.
	virtual QuicByteCount GetMaxPacketSize(
	const QuicSocketAddress& peer_address) const = 0;

	// Returns true if the socket supports release timestamp.
	virtual bool SupportsReleaseTime() const = 0;

	// True=Batch mode. False=PassThrough mode.
	virtual bool IsBatchMode() const = 0;

	// PassThrough mode: Return {nullptr, nullptr}
	//
	// Batch mode:
	// Return the QuicPacketBuffer for the next packet. A minimum of
	// kMaxOutgoingPacketSize is guaranteed to be available from the returned
	// address. If the internal buffer does not have enough space,
	// {nullptr, nullptr} is returned. All arguments should be identical to the
	// follow-up call to \|WritePacket\|, they are here to allow advanced packet
	// memory management in packet writers, e.g. one packet buffer pool per
	// \|peer_address\|.
	//
	// If QuicPacketBuffer.release_buffer is !nullptr, it should be called iff
	// the caller does not call WritePacket for the returned buffer.
	virtual QuicPacketBuffer GetNextWriteLocation(
	const QuicIpAddress& self_address,
	const QuicSocketAddress& peer_address) = 0;

	// PassThrough mode: Return WriteResult(WRITE_STATUS_OK, 0).
	//
	// Batch mode:
	// Try send all buffered packets.
	// - Return WriteResult(WRITE_STATUS_OK, <bytes_flushed>) if all buffered
	// packets were sent successfully.
	// - Return WRITE_STATUS_BLOCKED if the underlying socket is blocked while
	// sending. Some packets may have been sent, packets not sent will stay in
	// the internal buffer.
	// - Return a status >= WRITE_STATUS_ERROR if an error was encuontered while
	// sending. As this is not a re-tryable error, any batched packets which
	// were on memory acquired via GetNextWriteLocation() should be released and
	// the batch should be dropped.
	virtual WriteResult Flush() = 0;
	};

	} // namespace quic

	#endif // QUICHE_QUIC_CORE_QUIC_PACKET_WRITER_H_