mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
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202 lines
7.3 KiB
Go
202 lines
7.3 KiB
Go
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// Copyright 2023 The LevelDB-Go and Pebble Authors. All rights reserved. Use
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// of this source code is governed by a BSD-style license that can be found in
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// the LICENSE file.
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package objstorageprovider
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const (
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// Constants for dynamic readahead of data blocks. Note that the size values
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// make sense as some multiple of the default block size; and they should
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// both be larger than the default block size.
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minFileReadsForReadahead = 2
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// TODO(bilal): Have the initial size value be a factor of the block size,
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// as opposed to a hardcoded value.
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initialReadaheadSize = 64 << 10 /* 64KB */
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)
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// readaheadState contains state variables related to readahead. Updated on
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// file reads.
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type readaheadState struct {
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// Number of sequential reads.
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numReads int64
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maxReadaheadSize int64
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// Size issued to the next call to Prefetch. Starts at or above
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// initialReadaheadSize and grows exponentially until maxReadaheadSize.
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size int64
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// prevSize is the size used in the last Prefetch call.
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prevSize int64
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// The byte offset up to which the OS has been asked to read ahead / cached.
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// When reading ahead, reads up to this limit should not incur an IO
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// operation. Reads after this limit can benefit from a new call to
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// Prefetch.
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limit int64
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}
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func makeReadaheadState(maxReadaheadSize int64) readaheadState {
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return readaheadState{
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size: initialReadaheadSize,
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maxReadaheadSize: maxReadaheadSize,
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}
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}
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func (rs *readaheadState) recordCacheHit(offset, blockLength int64) {
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currentReadEnd := offset + blockLength
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if rs.numReads >= minFileReadsForReadahead {
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if currentReadEnd >= rs.limit && offset <= rs.limit+rs.maxReadaheadSize {
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// This is a read that would have resulted in a readahead, had it
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// not been a cache hit.
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rs.limit = currentReadEnd
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return
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}
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if currentReadEnd < rs.limit-rs.prevSize || offset > rs.limit+rs.maxReadaheadSize {
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// We read too far away from rs.limit to benefit from readahead in
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// any scenario. Reset all variables.
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rs.numReads = 1
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rs.limit = currentReadEnd
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rs.size = initialReadaheadSize
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rs.prevSize = 0
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return
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}
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// Reads in the range [rs.limit - rs.prevSize, rs.limit] end up
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// here. This is a read that is potentially benefitting from a past
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// readahead.
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return
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}
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if currentReadEnd >= rs.limit && offset <= rs.limit+rs.maxReadaheadSize {
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// Blocks are being read sequentially and would benefit from readahead
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// down the line.
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rs.numReads++
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return
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}
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// We read too far ahead of the last read, or before it. This indicates
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// a random read, where readahead is not desirable. Reset all variables.
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rs.numReads = 1
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rs.limit = currentReadEnd
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rs.size = initialReadaheadSize
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rs.prevSize = 0
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}
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// maybeReadahead updates state and determines whether to issue a readahead /
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// prefetch call for a block read at offset for blockLength bytes.
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// Returns a size value (greater than 0) that should be prefetched if readahead
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// would be beneficial.
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func (rs *readaheadState) maybeReadahead(offset, blockLength int64) int64 {
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currentReadEnd := offset + blockLength
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if rs.numReads >= minFileReadsForReadahead {
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// The minimum threshold of sequential reads to justify reading ahead
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// has been reached.
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// There are two intervals: the interval being read:
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// [offset, currentReadEnd]
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// as well as the interval where a read would benefit from read ahead:
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// [rs.limit, rs.limit + rs.size]
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// We increase the latter interval to
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// [rs.limit, rs.limit + rs.maxReadaheadSize] to account for cases where
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// readahead may not be beneficial with a small readahead size, but over
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// time the readahead size would increase exponentially to make it
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// beneficial.
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if currentReadEnd >= rs.limit && offset <= rs.limit+rs.maxReadaheadSize {
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// We are doing a read in the interval ahead of
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// the last readahead range. In the diagrams below, ++++ is the last
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// readahead range, ==== is the range represented by
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// [rs.limit, rs.limit + rs.maxReadaheadSize], and ---- is the range
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// being read.
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//
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// rs.limit rs.limit + rs.maxReadaheadSize
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// ++++++++++|===========================|
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//
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// |-------------|
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// offset currentReadEnd
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//
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// This case is also possible, as are all cases with an overlap
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// between [rs.limit, rs.limit + rs.maxReadaheadSize] and [offset,
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// currentReadEnd]:
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//
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// rs.limit rs.limit + rs.maxReadaheadSize
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// ++++++++++|===========================|
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//
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// |-------------|
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// offset currentReadEnd
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//
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//
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rs.numReads++
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rs.limit = offset + rs.size
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rs.prevSize = rs.size
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// Increase rs.size for the next read.
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rs.size *= 2
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if rs.size > rs.maxReadaheadSize {
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rs.size = rs.maxReadaheadSize
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}
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return rs.prevSize
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}
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if currentReadEnd < rs.limit-rs.prevSize || offset > rs.limit+rs.maxReadaheadSize {
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// The above conditional has rs.limit > rs.prevSize to confirm that
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// rs.limit - rs.prevSize would not underflow.
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// We read too far away from rs.limit to benefit from readahead in
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// any scenario. Reset all variables.
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// The case where we read too far ahead:
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//
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// (rs.limit - rs.prevSize) (rs.limit) (rs.limit + rs.maxReadaheadSize)
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// |+++++++++++++|=============|
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//
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// |-------------|
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// offset currentReadEnd
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//
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// Or too far behind:
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//
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// (rs.limit - rs.prevSize) (rs.limit) (rs.limit + rs.maxReadaheadSize)
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// |+++++++++++++|=============|
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//
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// |-------------|
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// offset currentReadEnd
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//
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rs.numReads = 1
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rs.limit = currentReadEnd
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rs.size = initialReadaheadSize
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rs.prevSize = 0
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return 0
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}
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// Reads in the range [rs.limit - rs.prevSize, rs.limit] end up
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// here. This is a read that is potentially benefitting from a past
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// readahead, but there's no reason to issue a readahead call at the
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// moment.
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//
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// (rs.limit - rs.prevSize) (rs.limit + rs.maxReadaheadSize)
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// |+++++++++++++|===============|
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// (rs.limit)
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//
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// |-------|
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// offset currentReadEnd
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//
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rs.numReads++
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return 0
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}
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if currentReadEnd >= rs.limit && offset <= rs.limit+rs.maxReadaheadSize {
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// Blocks are being read sequentially and would benefit from readahead
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// down the line.
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//
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// (rs.limit) (rs.limit + rs.maxReadaheadSize)
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// |=============|
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//
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// |-------|
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// offset currentReadEnd
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//
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rs.numReads++
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return 0
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}
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// We read too far ahead of the last read, or before it. This indicates
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// a random read, where readahead is not desirable. Reset all variables.
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//
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// (rs.limit - rs.maxReadaheadSize) (rs.limit) (rs.limit + rs.maxReadaheadSize)
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// |+++++++++++++|=============|
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//
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// |-------|
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// offset currentReadEnd
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//
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rs.numReads = 1
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rs.limit = currentReadEnd
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rs.size = initialReadaheadSize
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rs.prevSize = 0
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return 0
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}
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