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

 // Copyright (c) 2015 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_SEQUENCER_BUFFER_H_
 #define QUICHE_QUIC_CORE_QUIC_STREAM_SEQUENCER_BUFFER_H_

 // QuicStreamSequencerBuffer is a circular stream buffer with random write and
 // in-sequence read. It consists of a vector of pointers pointing
 // to memory blocks created as needed and an interval set recording received
 // data.
 // - Data are written in with offset indicating where it should be in the
 // stream, and the buffer grown as needed (up to the maximum buffer capacity),
 // without expensive copying (extra blocks are allocated).
 // - Data can be read from the buffer if there is no gap before it,
 // and the buffer shrinks as the data are consumed.
 // - An upper limit on the number of blocks in the buffer provides an upper
 //   bound on memory use.
 //
 // This class is thread-unsafe.
 //
 // QuicStreamSequencerBuffer maintains a concept of the readable region, which
 // contains all written data that has not been read.
 // It promises stability of the underlying memory addresses in the readable
 // region, so pointers into it can be maintained, and the offset of a pointer
 // from the start of the read region can be calculated.
 //
 // Expected Use:
 //  QuicStreamSequencerBuffer buffer(2.5 * 8 * 1024);
 //  std::string source(1024, 'a');
 //  quiche::QuicheStringPiece string_piece(source.data(), source.size());
 //  size_t written = 0;
 //  buffer.OnStreamData(800, string_piece, GetEpollClockNow(), &written);
 //  source = std::string{800, 'b'};
 //  quiche::QuicheStringPiece string_piece1(source.data(), 800);
 //  // Try to write to [1, 801), but should fail due to overlapping,
 //  // res should be QUIC_INVALID_STREAM_DATA
 //  auto res = buffer.OnStreamData(1, string_piece1, &written));
 //  // write to [0, 800), res should be QUIC_NO_ERROR
 //  auto res = buffer.OnStreamData(0, string_piece1, GetEpollClockNow(),
 //                                  &written);
 //
 //  // Read into a iovec array with total capacity of 120 bytes.
 //  char dest[120];
 //  iovec iovecs[3]{iovec{dest, 40}, iovec{dest + 40, 40},
 //                  iovec{dest + 80, 40}};
 //  size_t read = buffer.Readv(iovecs, 3);
 //
 //  // Get single readable region.
 //  iovec iov;
 //  buffer.GetReadableRegion(iov);
 //
 //  // Get readable regions from [256, 1024) and consume some of it.
 //  iovec iovs[2];
 //  int iov_count = buffer.GetReadableRegions(iovs, 2);
 //  // Consume some bytes in iovs, returning number of bytes having been
 //  consumed.
 //  size_t consumed = consume_iovs(iovs, iov_count);
 //  buffer.MarkConsumed(consumed);

 #include <cstddef>
 #include <functional>
 #include <list>
 #include <memory>
 #include <string>

 #include "net/third_party/quiche/src/quic/core/quic_interval_set.h"
 #include "net/third_party/quiche/src/quic/core/quic_packets.h"
 #include "net/third_party/quiche/src/quic/core/quic_types.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_export.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_iovec.h"
 #include "net/third_party/quiche/src/common/platform/api/quiche_string_piece.h"

 namespace quic {

 namespace test {
 class QuicStreamSequencerBufferPeer;
 }  // namespace test

 class QUIC_EXPORT_PRIVATE QuicStreamSequencerBuffer {
  public:
   // Size of blocks used by this buffer.
   // Choose 8K to make block large enough to hold multiple frames, each of
   // which could be up to 1.5 KB.
   static const size_t kBlockSizeBytes = 8 * 1024;  // 8KB

   // The basic storage block used by this buffer.
   struct QUIC_EXPORT_PRIVATE BufferBlock {
     char buffer[kBlockSizeBytes];
   };

   explicit QuicStreamSequencerBuffer(size_t max_capacity_bytes);
   QuicStreamSequencerBuffer(const QuicStreamSequencerBuffer&) = delete;
   QuicStreamSequencerBuffer(QuicStreamSequencerBuffer&&) = default;
   QuicStreamSequencerBuffer& operator=(const QuicStreamSequencerBuffer&) =
       delete;
   QuicStreamSequencerBuffer& operator=(QuicStreamSequencerBuffer&&) = default;
   ~QuicStreamSequencerBuffer();

   // Free the space used to buffer data.
   void Clear();

   // Returns true if there is nothing to read in this buffer.
   bool Empty() const;

   // Called to buffer new data received for this stream.  If the data was
   // successfully buffered, returns QUIC_NO_ERROR and stores the number of
   // bytes buffered in |bytes_buffered|. Returns an error otherwise.
   QuicErrorCode OnStreamData(QuicStreamOffset offset,
                              quiche::QuicheStringPiece data,
                              size_t* bytes_buffered,
                              std::string* error_details);

   // Reads from this buffer into given iovec array, up to number of iov_len
   // iovec objects and returns the number of bytes read.
   QuicErrorCode Readv(const struct iovec* dest_iov,
                       size_t dest_count,
                       size_t* bytes_read,
                       std::string* error_details);

   // Returns the readable region of valid data in iovec format. The readable
   // region is the buffer region where there is valid data not yet read by
   // client.
   // Returns the number of iovec entries in |iov| which were populated.
   // If the region is empty, one iovec entry with 0 length
   // is returned, and the function returns 0. If there are more readable
   // regions than |iov_size|, the function only processes the first
   // |iov_size| of them.
   int GetReadableRegions(struct iovec* iov, int iov_len) const;

   // Fills in one iovec with data from the next readable region.
   // Returns false if there is no readable region available.
   bool GetReadableRegion(iovec* iov) const;

   // Returns true and sets |*iov| to point to a region starting at |offset|.
   // Returns false if no data can be read at |offset|, which can be because data
   // has not been received yet or it is already consumed.
   // Does not consume data.
   bool PeekRegion(QuicStreamOffset offset, iovec* iov) const;

   // Called after GetReadableRegions() to free up |bytes_consumed| space if
   // these bytes are processed.
   // Pre-requisite: bytes_consumed <= available bytes to read.
   bool MarkConsumed(size_t bytes_consumed);

   // Deletes and records as consumed any buffered data and clear the buffer.
   // (To be called only after sequencer's StopReading has been called.)
   size_t FlushBufferedFrames();

   // Free the memory of buffered data.
   void ReleaseWholeBuffer();

   // Whether there are bytes can be read out.
   bool HasBytesToRead() const;

   // Count how many bytes have been consumed (read out of buffer).
   QuicStreamOffset BytesConsumed() const;

   // Count how many bytes are in buffer at this moment.
   size_t BytesBuffered() const;

   // Returns number of bytes available to be read out.
   size_t ReadableBytes() const;

  private:
   friend class test::QuicStreamSequencerBufferPeer;

   // Copies |data| to blocks_, sets |bytes_copy|. Returns true if the copy is
   // successful. Otherwise, sets |error_details| and returns false.
   bool CopyStreamData(QuicStreamOffset offset,
                       quiche::QuicheStringPiece data,
                       size_t* bytes_copy,
                       std::string* error_details);

   // Dispose the given buffer block.
   // After calling this method, blocks_[index] is set to nullptr
   // in order to indicate that no memory set is allocated for that block.
   // Returns true on success, false otherwise.
   bool RetireBlock(size_t index);

   // Should only be called after the indexed block is read till the end of the
   // block or missing data has been reached.
   // If the block at |block_index| contains no buffered data, the block
   // should be retired.
   // Returns true on success, or false otherwise.
   bool RetireBlockIfEmpty(size_t block_index);

   // Calculate the capacity of block at specified index.
   // Return value should be either kBlockSizeBytes for non-trailing blocks and
   // max_buffer_capacity % kBlockSizeBytes for trailing block.
   size_t GetBlockCapacity(size_t index) const;

   // Does not check if offset is within reasonable range.
   size_t GetBlockIndex(QuicStreamOffset offset) const;

   // Given an offset in the stream, return the offset from the beginning of the
   // block which contains this data.
   size_t GetInBlockOffset(QuicStreamOffset offset) const;

   // Get offset relative to index 0 in logical 1st block to start next read.
   size_t ReadOffset() const;

   // Get the index of the logical 1st block to start next read.
   size_t NextBlockToRead() const;

   // Returns offset of first missing byte.
   QuicStreamOffset FirstMissingByte() const;

   // Returns offset of highest received byte + 1.
   QuicStreamOffset NextExpectedByte() const;

   // Return all received frames as a string.
   std::string ReceivedFramesDebugString() const;

   // The maximum total capacity of this buffer in byte, as constructed.
   size_t max_buffer_capacity_bytes_;

   // How many blocks this buffer would need when it reaches full capacity.
   size_t blocks_count_;

   // Number of bytes read out of buffer.
   QuicStreamOffset total_bytes_read_;

   // An ordered, variable-length list of blocks, with the length limited
   // such that the number of blocks never exceeds blocks_count_.
   // Each list entry can hold up to kBlockSizeBytes bytes.
   std::unique_ptr<BufferBlock*[]> blocks_;

   // Number of bytes in buffer.
   size_t num_bytes_buffered_;

   // Currently received data.
   QuicIntervalSet<QuicStreamOffset> bytes_received_;
 };

 }  // namespace quic

 #endif  // QUICHE_QUIC_CORE_QUIC_STREAM_SEQUENCER_BUFFER_H_
	// Copyright (c) 2015 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_SEQUENCER_BUFFER_H_
	#define QUICHE_QUIC_CORE_QUIC_STREAM_SEQUENCER_BUFFER_H_

	// QuicStreamSequencerBuffer is a circular stream buffer with random write and
	// in-sequence read. It consists of a vector of pointers pointing
	// to memory blocks created as needed and an interval set recording received
	// data.
	// - Data are written in with offset indicating where it should be in the
	// stream, and the buffer grown as needed (up to the maximum buffer capacity),
	// without expensive copying (extra blocks are allocated).
	// - Data can be read from the buffer if there is no gap before it,
	// and the buffer shrinks as the data are consumed.
	// - An upper limit on the number of blocks in the buffer provides an upper
	// bound on memory use.
	//
	// This class is thread-unsafe.
	//
	// QuicStreamSequencerBuffer maintains a concept of the readable region, which
	// contains all written data that has not been read.
	// It promises stability of the underlying memory addresses in the readable
	// region, so pointers into it can be maintained, and the offset of a pointer
	// from the start of the read region can be calculated.
	//
	// Expected Use:
	// QuicStreamSequencerBuffer buffer(2.5 * 8 * 1024);
	// std::string source(1024, 'a');
	// quiche::QuicheStringPiece string_piece(source.data(), source.size());
	// size_t written = 0;
	// buffer.OnStreamData(800, string_piece, GetEpollClockNow(), &written);
	// source = std::string{800, 'b'};
	// quiche::QuicheStringPiece string_piece1(source.data(), 800);
	// // Try to write to [1, 801), but should fail due to overlapping,
	// // res should be QUIC_INVALID_STREAM_DATA
	// auto res = buffer.OnStreamData(1, string_piece1, &written));
	// // write to [0, 800), res should be QUIC_NO_ERROR
	// auto res = buffer.OnStreamData(0, string_piece1, GetEpollClockNow(),
	// &written);
	//
	// // Read into a iovec array with total capacity of 120 bytes.
	// char dest[120];
	// iovec iovecs[3]{iovec{dest, 40}, iovec{dest + 40, 40},
	// iovec{dest + 80, 40}};
	// size_t read = buffer.Readv(iovecs, 3);
	//
	// // Get single readable region.
	// iovec iov;
	// buffer.GetReadableRegion(iov);
	//
	// // Get readable regions from [256, 1024) and consume some of it.
	// iovec iovs[2];
	// int iov_count = buffer.GetReadableRegions(iovs, 2);
	// // Consume some bytes in iovs, returning number of bytes having been
	// consumed.
	// size_t consumed = consume_iovs(iovs, iov_count);
	// buffer.MarkConsumed(consumed);

	#include <cstddef>
	#include <functional>
	#include <list>
	#include <memory>
	#include <string>

	#include "net/third_party/quiche/src/quic/core/quic_interval_set.h"
	#include "net/third_party/quiche/src/quic/core/quic_packets.h"
	#include "net/third_party/quiche/src/quic/core/quic_types.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_export.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_iovec.h"
	#include "net/third_party/quiche/src/common/platform/api/quiche_string_piece.h"

	namespace quic {

	namespace test {
	class QuicStreamSequencerBufferPeer;
	} // namespace test

	class QUIC_EXPORT_PRIVATE QuicStreamSequencerBuffer {
	public:
	// Size of blocks used by this buffer.
	// Choose 8K to make block large enough to hold multiple frames, each of
	// which could be up to 1.5 KB.
	static const size_t kBlockSizeBytes = 8 * 1024; // 8KB

	// The basic storage block used by this buffer.
	struct QUIC_EXPORT_PRIVATE BufferBlock {
	char buffer[kBlockSizeBytes];
	};

	explicit QuicStreamSequencerBuffer(size_t max_capacity_bytes);
	QuicStreamSequencerBuffer(const QuicStreamSequencerBuffer&) = delete;
	QuicStreamSequencerBuffer(QuicStreamSequencerBuffer&&) = default;
	QuicStreamSequencerBuffer& operator=(const QuicStreamSequencerBuffer&) =
	delete;
	QuicStreamSequencerBuffer& operator=(QuicStreamSequencerBuffer&&) = default;
	~QuicStreamSequencerBuffer();

	// Free the space used to buffer data.
	void Clear();

	// Returns true if there is nothing to read in this buffer.
	bool Empty() const;

	// Called to buffer new data received for this stream. If the data was
	// successfully buffered, returns QUIC_NO_ERROR and stores the number of
	// bytes buffered in \|bytes_buffered\|. Returns an error otherwise.
	QuicErrorCode OnStreamData(QuicStreamOffset offset,
	quiche::QuicheStringPiece data,
	size_t* bytes_buffered,
	std::string* error_details);

	// Reads from this buffer into given iovec array, up to number of iov_len
	// iovec objects and returns the number of bytes read.
	QuicErrorCode Readv(const struct iovec* dest_iov,
	size_t dest_count,
	size_t* bytes_read,
	std::string* error_details);

	// Returns the readable region of valid data in iovec format. The readable
	// region is the buffer region where there is valid data not yet read by
	// client.
	// Returns the number of iovec entries in \|iov\| which were populated.
	// If the region is empty, one iovec entry with 0 length
	// is returned, and the function returns 0. If there are more readable
	// regions than \|iov_size\|, the function only processes the first
	// \|iov_size\| of them.
	int GetReadableRegions(struct iovec* iov, int iov_len) const;

	// Fills in one iovec with data from the next readable region.
	// Returns false if there is no readable region available.
	bool GetReadableRegion(iovec* iov) const;

	// Returns true and sets \|*iov\| to point to a region starting at \|offset\|.
	// Returns false if no data can be read at \|offset\|, which can be because data
	// has not been received yet or it is already consumed.
	// Does not consume data.
	bool PeekRegion(QuicStreamOffset offset, iovec* iov) const;

	// Called after GetReadableRegions() to free up \|bytes_consumed\| space if
	// these bytes are processed.
	// Pre-requisite: bytes_consumed <= available bytes to read.
	bool MarkConsumed(size_t bytes_consumed);

	// Deletes and records as consumed any buffered data and clear the buffer.
	// (To be called only after sequencer's StopReading has been called.)
	size_t FlushBufferedFrames();

	// Free the memory of buffered data.
	void ReleaseWholeBuffer();

	// Whether there are bytes can be read out.
	bool HasBytesToRead() const;

	// Count how many bytes have been consumed (read out of buffer).
	QuicStreamOffset BytesConsumed() const;

	// Count how many bytes are in buffer at this moment.
	size_t BytesBuffered() const;

	// Returns number of bytes available to be read out.
	size_t ReadableBytes() const;

	private:
	friend class test::QuicStreamSequencerBufferPeer;

	// Copies \|data\| to blocks_, sets \|bytes_copy\|. Returns true if the copy is
	// successful. Otherwise, sets \|error_details\| and returns false.
	bool CopyStreamData(QuicStreamOffset offset,
	quiche::QuicheStringPiece data,
	size_t* bytes_copy,
	std::string* error_details);

	// Dispose the given buffer block.
	// After calling this method, blocks_[index] is set to nullptr
	// in order to indicate that no memory set is allocated for that block.
	// Returns true on success, false otherwise.
	bool RetireBlock(size_t index);

	// Should only be called after the indexed block is read till the end of the
	// block or missing data has been reached.
	// If the block at \|block_index\| contains no buffered data, the block
	// should be retired.
	// Returns true on success, or false otherwise.
	bool RetireBlockIfEmpty(size_t block_index);

	// Calculate the capacity of block at specified index.
	// Return value should be either kBlockSizeBytes for non-trailing blocks and
	// max_buffer_capacity % kBlockSizeBytes for trailing block.
	size_t GetBlockCapacity(size_t index) const;

	// Does not check if offset is within reasonable range.
	size_t GetBlockIndex(QuicStreamOffset offset) const;

	// Given an offset in the stream, return the offset from the beginning of the
	// block which contains this data.
	size_t GetInBlockOffset(QuicStreamOffset offset) const;

	// Get offset relative to index 0 in logical 1st block to start next read.
	size_t ReadOffset() const;

	// Get the index of the logical 1st block to start next read.
	size_t NextBlockToRead() const;

	// Returns offset of first missing byte.
	QuicStreamOffset FirstMissingByte() const;

	// Returns offset of highest received byte + 1.
	QuicStreamOffset NextExpectedByte() const;

	// Return all received frames as a string.
	std::string ReceivedFramesDebugString() const;

	// The maximum total capacity of this buffer in byte, as constructed.
	size_t max_buffer_capacity_bytes_;

	// How many blocks this buffer would need when it reaches full capacity.
	size_t blocks_count_;

	// Number of bytes read out of buffer.
	QuicStreamOffset total_bytes_read_;

	// An ordered, variable-length list of blocks, with the length limited
	// such that the number of blocks never exceeds blocks_count_.
	// Each list entry can hold up to kBlockSizeBytes bytes.
	std::unique_ptr<BufferBlock*[]> blocks_;

	// Number of bytes in buffer.
	size_t num_bytes_buffered_;

	// Currently received data.
	QuicIntervalSet<QuicStreamOffset> bytes_received_;
	};

	} // namespace quic

	#endif // QUICHE_QUIC_CORE_QUIC_STREAM_SEQUENCER_BUFFER_H_