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301 lines
6.8 KiB
Go
301 lines
6.8 KiB
Go
// Copyright (C) 2019 Storj Labs, Inc.
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// See LICENSE for copying information.
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package eestream
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import (
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"io"
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"sync"
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"go.uber.org/zap"
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)
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// PieceBuffer is a synchronized buffer for storing erasure shares for a piece.
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type PieceBuffer struct {
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log *zap.Logger
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buf []byte
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shareSize int
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cond *sync.Cond
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newDataCond *sync.Cond
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rpos, wpos int
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full bool
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currentShare int64 // current erasure share number
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totalwr int64 // total bytes ever written to the buffer
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lastwr int64 // total bytes ever written when last notified newDataCond
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err error
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}
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// NewPieceBuffer creates and initializes a new PieceBuffer using buf as its
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// internal content. If new data is written to the buffer, newDataCond will be
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// notified.
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func NewPieceBuffer(log *zap.Logger, buf []byte, shareSize int, newDataCond *sync.Cond) *PieceBuffer {
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return &PieceBuffer{
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log: log,
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buf: buf,
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shareSize: shareSize,
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cond: sync.NewCond(&sync.Mutex{}),
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newDataCond: newDataCond,
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}
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}
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// Read reads the next len(p) bytes from the buffer or until the buffer is
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// drained. The return value n is the number of bytes read. If the buffer has
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// no data to return and no error is set, the call will block until new data is
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// written to the buffer. Otherwise the error will be returned.
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func (b *PieceBuffer) Read(p []byte) (n int, err error) {
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defer b.cond.Broadcast()
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b.cond.L.Lock()
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defer b.cond.L.Unlock()
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for b.empty() {
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if b.err != nil {
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return 0, b.err
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}
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b.cond.Wait()
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}
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if b.rpos >= b.wpos {
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nn := copy(p, b.buf[b.rpos:])
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n += nn
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b.rpos = (b.rpos + nn) % len(b.buf)
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p = p[nn:]
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}
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if b.rpos < b.wpos {
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nn := copy(p, b.buf[b.rpos:b.wpos])
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n += nn
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b.rpos += nn
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}
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if n > 0 {
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b.full = false
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}
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return n, nil
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}
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// Skip advances the read pointer with n bytes. It the buffered number of bytes
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// are less than n, the method will block until enough data is written to the
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// buffer.
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func (b *PieceBuffer) Skip(n int) error {
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defer b.cond.Broadcast()
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b.cond.L.Lock()
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defer b.cond.L.Unlock()
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for n > 0 {
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for b.empty() {
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if b.err != nil {
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return b.err
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}
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b.cond.Wait()
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}
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if b.rpos >= b.wpos {
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if len(b.buf)-b.rpos > n {
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b.rpos = (b.rpos + n) % len(b.buf)
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n = 0
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} else {
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n -= len(b.buf) - b.rpos
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b.rpos = 0
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}
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} else {
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if b.wpos-b.rpos > n {
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b.rpos += n
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n = 0
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} else {
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n -= b.wpos - b.rpos
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b.rpos = b.wpos
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}
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}
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b.full = false
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}
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return nil
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}
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// Write writes the contents of p into the buffer. If the buffer is full it
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// will block until some data is read from it, or an error is set. The return
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// value n is the number of bytes written. If an error was set, it be returned.
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func (b *PieceBuffer) Write(p []byte) (n int, err error) {
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for n < len(p) {
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nn, err := b.write(p[n:])
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n += nn
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if err != nil {
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return n, err
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}
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// Notify for new data only if a new complete erasure share is available
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b.totalwr += int64(nn)
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if b.totalwr/int64(b.shareSize)-b.lastwr/int64(b.shareSize) > 0 {
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b.lastwr = b.totalwr
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b.notifyNewData()
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}
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}
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return n, nil
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}
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// write is a helper method that takes care for the locking on each copy
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// iteration.
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func (b *PieceBuffer) write(p []byte) (n int, err error) {
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defer b.cond.Broadcast()
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b.cond.L.Lock()
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defer b.cond.L.Unlock()
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for b.full {
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if b.err != nil {
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return n, b.err
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}
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b.cond.Wait()
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}
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var wr int
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if b.wpos < b.rpos {
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wr = copy(b.buf[b.wpos:b.rpos], p)
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} else {
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wr = copy(b.buf[b.wpos:], p)
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}
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n += wr
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b.wpos = (b.wpos + wr) % len(b.buf)
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if b.wpos == b.rpos {
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b.full = true
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}
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return n, nil
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}
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// Close sets io.ErrClosedPipe to the buffer to prevent further writes and
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// blocking on read.
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func (b *PieceBuffer) Close() error {
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b.SetError(io.ErrClosedPipe)
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return nil
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}
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// SetError sets an error to be returned by Read and Write. Read will return
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// the error after all data is read from the buffer.
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func (b *PieceBuffer) SetError(err error) {
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b.setError(err)
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b.notifyNewData()
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}
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// setError is a helper method that locks the mutex before setting the error.
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func (b *PieceBuffer) setError(err error) {
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defer b.cond.Broadcast()
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b.cond.L.Lock()
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defer b.cond.L.Unlock()
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b.err = err
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}
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// getError is a helper method that locks the mutex before getting the error.
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func (b *PieceBuffer) getError() error {
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b.cond.L.Lock()
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defer b.cond.L.Unlock()
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return b.err
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}
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// notifyNewData notifies newDataCond that new data is written to the buffer.
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func (b *PieceBuffer) notifyNewData() {
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b.newDataCond.L.Lock()
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defer b.newDataCond.L.Unlock()
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b.newDataCond.Broadcast()
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}
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// empty chacks if the buffer is empty.
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func (b *PieceBuffer) empty() bool {
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return !b.full && b.rpos == b.wpos
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}
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// buffered returns the number of bytes that can be read from the buffer
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// without blocking.
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func (b *PieceBuffer) buffered() int {
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b.cond.L.Lock()
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defer b.cond.L.Unlock()
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switch {
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case b.rpos < b.wpos:
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return b.wpos - b.rpos
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case b.rpos > b.wpos:
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return len(b.buf) + b.wpos - b.rpos
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case b.full:
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return len(b.buf)
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default: // empty
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return 0
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}
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}
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// HasShare checks if the num-th share can be read from the buffer without
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// blocking. If there are older erasure shares in the buffer, they will be
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// discarded to leave room for the newer erasure shares to be written.
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func (b *PieceBuffer) HasShare(num int64) bool {
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if num < b.currentShare {
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// we should never get here!
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b.log.Fatal("Requested erasure share was already read",
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zap.Int64("Requested Erasure Share", num),
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zap.Int64("Current Erasure Share", b.currentShare),
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)
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}
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if b.getError() != nil {
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return true
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}
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bufShares := int64(b.buffered() / b.shareSize)
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if num-b.currentShare > 0 {
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if bufShares > num-b.currentShare {
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// TODO: should this error be ignored?
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_ = b.discardUntil(num)
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} else {
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_ = b.discardUntil(b.currentShare + bufShares)
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}
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bufShares = int64(b.buffered() / b.shareSize)
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}
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return bufShares > num-b.currentShare
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}
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// ReadShare reads the num-th erasure share from the buffer into p. Any shares
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// before num will be discarded from the buffer.
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func (b *PieceBuffer) ReadShare(num int64, p []byte) error {
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if num < b.currentShare {
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// we should never get here!
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b.log.Fatal("Requested erasure share was already read",
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zap.Int64("Requested Erasure Share", num),
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zap.Int64("Current Erasure Share", b.currentShare),
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)
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}
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err := b.discardUntil(num)
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if err != nil {
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return err
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}
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_, err = io.ReadFull(b, p)
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if err != nil {
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return err
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}
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b.currentShare++
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return nil
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}
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// discardUntil discards all erasure shares from the buffer until the num-th
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// erasure share exclusively.
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func (b *PieceBuffer) discardUntil(num int64) error {
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if num <= b.currentShare {
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return nil
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}
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err := b.Skip(int(num-b.currentShare) * b.shareSize)
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if err != nil {
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return err
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}
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b.currentShare = num
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return nil
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}
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