net/base/datagram_buffer.h - chromium/src.git - 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 NET_BASE_DATAGRAM_BUFFER_H_
 #define NET_BASE_DATAGRAM_BUFFER_H_

 #include <list>

 #include "base/memory/weak_ptr.h"
 #include "net/base/net_export.h"

 namespace net {

 // An IO buffer, (at least initially) specifically for use with the
 // new DatagramClientSocket::WriteAsync method, with the following key
 // features:
 //
 //   1) Meant to be easily batched when that improves efficiency. The
 //      primary goal of WriteAsync is to enable enlisting an
 //      additional cpu core for the kernel part of socket write.
 //   2) Uses unique_ptr (with std::move) rather than reference
 //      counting as in IOBuffers.  The benefit is safer cancellation
 //      semantics, IOBuffer used reference count to enforce unique
 //      ownership in an idiomatic fashion.  unique_ptr is ligher weight
 //      as it doesn't use thread safe primitives as
 //      RefCountedThreadSafe does.
 //   3) Provides a pooling allocator, which for datagram buffers is
 //      much cheaper than using fully general allocator (e.g. malloc
 //      etc.).  The implementation takes advantage of
 //      std::list::splice so that costs associated with allocations
 //      and copies of pool metadata quickly amortize to zero, and all
 //      common operations are O(1).

 class DatagramBuffer;

 // Batches of DatagramBuffers are treated as a FIFO queue, implemented
 // by |std::list|.  Note that |std::list::splice()| is attractive for
 // this use case because it keeps most operations to O(1) and
 // minimizes allocations/frees and copies.
 typedef std::list<std::unique_ptr<DatagramBuffer>> DatagramBuffers;

 class NET_EXPORT_PRIVATE DatagramBufferPool {
  public:
   // |max_buffer_size| must be >= largest |buf_len| provided to
   // ||New()|.
   DatagramBufferPool(size_t max_buffer_size);
   DatagramBufferPool(const DatagramBufferPool&) = delete;
   DatagramBufferPool& operator=(const DatagramBufferPool&) = delete;
   virtual ~DatagramBufferPool();
   // Insert a new element (drawn from the pool) containing a copy of
   // |buffer| to |buffers|. Caller retains owenership of |buffers| and |buffer|.
   void Enqueue(const char* buffer, size_t buf_len, DatagramBuffers* buffers);
   // Return all elements of |buffers| to the pool.  Caller retains
   // ownership of |buffers|.
   void Dequeue(DatagramBuffers* buffers);

   size_t max_buffer_size() { return max_buffer_size_; }

  private:
   const size_t max_buffer_size_;
   DatagramBuffers free_list_;
 };

 // |DatagramBuffer|s can only be created via
 // |DatagramBufferPool::Enqueue()|.
 //

 // |DatagramBuffer|s should be recycled via
 // |DatagramBufferPool::Dequeue|.  Care must be taken when a
 // |DatagramBuffer| is moved to another thread via
 // |PostTask|. |Dequeue| is not expected to be thread-safe, so it
 // is preferred to move the |DatagramBuffer|s back to the thread where
 // the pool lives (e.g. using |PostTaskAndReturnWithResult|) and
 // dequeuing them from there.  In the exception of pathalogical
 // cancellation (e.g. due to thread tear-down), the destructor will
 // release its memory permanently rather than returning to the pool.
 class NET_EXPORT_PRIVATE DatagramBuffer {
  public:
   DatagramBuffer() = delete;
   DatagramBuffer(const DatagramBuffer&) = delete;
   DatagramBuffer& operator=(const DatagramBuffer&) = delete;
   ~DatagramBuffer();

   char* data() const;
   size_t length() const;

  protected:
   DatagramBuffer(size_t max_packet_size);

  private:
   friend class DatagramBufferPool;

   void Set(const char* buffer, size_t buf_len);

   std::unique_ptr<char[]> data_;
   size_t length_;
 };

 }  // namespace net

 #endif  // NET_BASE_DATAGRAM_BUFFER_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 NET_BASE_DATAGRAM_BUFFER_H_
	#define NET_BASE_DATAGRAM_BUFFER_H_

	#include <list>

	#include "base/memory/weak_ptr.h"
	#include "net/base/net_export.h"

	namespace net {

	// An IO buffer, (at least initially) specifically for use with the
	// new DatagramClientSocket::WriteAsync method, with the following key
	// features:
	//
	// 1) Meant to be easily batched when that improves efficiency. The
	// primary goal of WriteAsync is to enable enlisting an
	// additional cpu core for the kernel part of socket write.
	// 2) Uses unique_ptr (with std::move) rather than reference
	// counting as in IOBuffers. The benefit is safer cancellation
	// semantics, IOBuffer used reference count to enforce unique
	// ownership in an idiomatic fashion. unique_ptr is ligher weight
	// as it doesn't use thread safe primitives as
	// RefCountedThreadSafe does.
	// 3) Provides a pooling allocator, which for datagram buffers is
	// much cheaper than using fully general allocator (e.g. malloc
	// etc.). The implementation takes advantage of
	// std::list::splice so that costs associated with allocations
	// and copies of pool metadata quickly amortize to zero, and all
	// common operations are O(1).

	class DatagramBuffer;

	// Batches of DatagramBuffers are treated as a FIFO queue, implemented
	// by \|std::list\|. Note that \|std::list::splice()\| is attractive for
	// this use case because it keeps most operations to O(1) and
	// minimizes allocations/frees and copies.
	typedef std::list<std::unique_ptr<DatagramBuffer>> DatagramBuffers;

	class NET_EXPORT_PRIVATE DatagramBufferPool {
	public:
	// \|max_buffer_size\| must be >= largest \|buf_len\| provided to
	// \|\|New()\|.
	DatagramBufferPool(size_t max_buffer_size);
	DatagramBufferPool(const DatagramBufferPool&) = delete;
	DatagramBufferPool& operator=(const DatagramBufferPool&) = delete;
	virtual ~DatagramBufferPool();
	// Insert a new element (drawn from the pool) containing a copy of
	// \|buffer\| to \|buffers\|. Caller retains owenership of \|buffers\| and \|buffer\|.
	void Enqueue(const char* buffer, size_t buf_len, DatagramBuffers* buffers);
	// Return all elements of \|buffers\| to the pool. Caller retains
	// ownership of \|buffers\|.
	void Dequeue(DatagramBuffers* buffers);

	size_t max_buffer_size() { return max_buffer_size_; }

	private:
	const size_t max_buffer_size_;
	DatagramBuffers free_list_;
	};

	// \|DatagramBuffer\|s can only be created via
	// \|DatagramBufferPool::Enqueue()\|.
	//

	// \|DatagramBuffer\|s should be recycled via
	// \|DatagramBufferPool::Dequeue\|. Care must be taken when a
	// \|DatagramBuffer\| is moved to another thread via
	// \|PostTask\|. \|Dequeue\| is not expected to be thread-safe, so it
	// is preferred to move the \|DatagramBuffer\|s back to the thread where
	// the pool lives (e.g. using \|PostTaskAndReturnWithResult\|) and
	// dequeuing them from there. In the exception of pathalogical
	// cancellation (e.g. due to thread tear-down), the destructor will
	// release its memory permanently rather than returning to the pool.
	class NET_EXPORT_PRIVATE DatagramBuffer {
	public:
	DatagramBuffer() = delete;
	DatagramBuffer(const DatagramBuffer&) = delete;
	DatagramBuffer& operator=(const DatagramBuffer&) = delete;
	~DatagramBuffer();

	char* data() const;
	size_t length() const;

	protected:
	DatagramBuffer(size_t max_packet_size);

	private:
	friend class DatagramBufferPool;

	void Set(const char* buffer, size_t buf_len);

	std::unique_ptr<char[]> data_;
	size_t length_;
	};

	} // namespace net

	#endif // NET_BASE_DATAGRAM_BUFFER_H_