internal static long GetLength(ReadCursor begin, ReadCursor end)
        {
            if (begin.IsDefault)
            {
                return(0);
            }

            var segment = begin.Segment;

            switch (segment)
            {
            case IMemoryList <byte> bufferSegment:
                return(GetLength(bufferSegment, begin.Index, end.Get <IMemoryList <byte> >(), end.Index));

            case byte[] _:
            case OwnedMemory <byte> _:
                return(end.Index - begin.Index);
            }

            PipelinesThrowHelper.ThrowInvalidOperationException(ExceptionResource.UnexpectedSegmentType);
            return(default);
Esempio n. 2
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        // Reading

        void IPipeReader.Advance(ReadCursor consumed, ReadCursor examined)
        {
            BufferSegment returnStart = null;
            BufferSegment returnEnd   = null;

            // Reading commit head shared with writer
            Action continuation = null;

            lock (_sync)
            {
                bool examinedEverything = false;
                if (examined.Segment == _commitHead)
                {
                    examinedEverything = _commitHead != null ? examined.Index == _commitHeadIndex - _commitHead.Start : examined.Index == 0;
                }

                if (!consumed.IsDefault)
                {
                    if (_readHead == null)
                    {
                        PipelinesThrowHelper.ThrowInvalidOperationException(ExceptionResource.AdvanceToInvalidCursor);
                        return;
                    }

                    var consumedSegment = consumed.Get <BufferSegment>();

                    returnStart = _readHead;
                    returnEnd   = consumedSegment;

                    // Check if we crossed _maximumSizeLow and complete backpressure
                    var consumedBytes = ReadCursorOperations.GetLength(returnStart, _readHeadIndex, consumedSegment, consumed.Index);
                    var oldLength     = _length;
                    _length -= consumedBytes;

                    if (oldLength >= _maximumSizeLow &&
                        _length < _maximumSizeLow)
                    {
                        continuation = _writerAwaitable.Complete();
                    }

                    // Check if we consumed entire last segment
                    // if we are going to return commit head
                    // we need to check that there is no writing operation that
                    // might be using tailspace
                    if (consumed.Index == returnEnd.Length &&
                        !(_commitHead == returnEnd && _writingState.IsActive))
                    {
                        var nextBlock = returnEnd.NextSegment;
                        if (_commitHead == returnEnd)
                        {
                            _commitHead      = nextBlock;
                            _commitHeadIndex = 0;
                        }

                        _readHead      = nextBlock;
                        _readHeadIndex = 0;
                        returnEnd      = nextBlock;
                    }
                    else
                    {
                        _readHead      = consumedSegment;
                        _readHeadIndex = consumed.Index;
                    }
                }

                // We reset the awaitable to not completed if we've examined everything the producer produced so far
                // but only if writer is not completed yet
                if (examinedEverything && !_writerCompletion.IsCompleted)
                {
                    // Prevent deadlock where reader awaits new data and writer await backpressure
                    if (!_writerAwaitable.IsCompleted)
                    {
                        PipelinesThrowHelper.ThrowInvalidOperationException(ExceptionResource.BackpressureDeadlock);
                    }
                    _readerAwaitable.Reset();
                }

                _readingState.End(ExceptionResource.NoReadToComplete);

                while (returnStart != null && returnStart != returnEnd)
                {
                    returnStart.ResetMemory();
                    ReturnSegmentUnsynchronized(returnStart);
                    returnStart = returnStart.NextSegment;
                }
            }

            TrySchedule(_writerScheduler, continuation);
        }