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365 lines
9.5 KiB
Go
365 lines
9.5 KiB
Go
// Copyright (c) 2015-2021 MinIO, Inc.
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//
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// This file is part of MinIO Object Storage stack
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Affero General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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package cmd
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import (
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"context"
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"errors"
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"fmt"
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"io"
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"sync"
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"sync/atomic"
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xioutil "github.com/minio/minio/internal/ioutil"
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)
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// Reads in parallel from readers.
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type parallelReader struct {
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readers []io.ReaderAt
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orgReaders []io.ReaderAt
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dataBlocks int
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offset int64
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shardSize int64
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shardFileSize int64
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buf [][]byte
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readerToBuf []int
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stashBuffer []byte
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}
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// newParallelReader returns parallelReader.
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func newParallelReader(readers []io.ReaderAt, e Erasure, offset, totalLength int64) *parallelReader {
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r2b := make([]int, len(readers))
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for i := range r2b {
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r2b[i] = i
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}
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bufs := make([][]byte, len(readers))
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shardSize := int(e.ShardSize())
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var b []byte
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// We should always have enough capacity, but older objects may be bigger
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// we do not need stashbuffer for them.
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if globalBytePoolCap.Load().WidthCap() >= len(readers)*shardSize {
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// Fill buffers
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b = globalBytePoolCap.Load().Get()
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// Seed the buffers.
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for i := range bufs {
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bufs[i] = b[i*shardSize : (i+1)*shardSize]
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}
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}
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return ¶llelReader{
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readers: readers,
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orgReaders: readers,
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dataBlocks: e.dataBlocks,
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offset: (offset / e.blockSize) * e.ShardSize(),
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shardSize: e.ShardSize(),
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shardFileSize: e.ShardFileSize(totalLength),
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buf: make([][]byte, len(readers)),
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readerToBuf: r2b,
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stashBuffer: b,
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}
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}
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// Done will release any resources used by the parallelReader.
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func (p *parallelReader) Done() {
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if p.stashBuffer != nil {
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globalBytePoolCap.Load().Put(p.stashBuffer)
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p.stashBuffer = nil
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}
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}
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// preferReaders can mark readers as preferred.
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// These will be chosen before others.
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func (p *parallelReader) preferReaders(prefer []bool) {
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if len(prefer) != len(p.orgReaders) {
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return
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}
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// Copy so we don't change our input.
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tmp := make([]io.ReaderAt, len(p.orgReaders))
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copy(tmp, p.orgReaders)
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p.readers = tmp
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// next is the next non-preferred index.
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next := 0
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for i, ok := range prefer {
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if !ok || p.readers[i] == nil {
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continue
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}
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if i == next {
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next++
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continue
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}
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// Move reader with index i to index next.
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// Do this by swapping next and i
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p.readers[next], p.readers[i] = p.readers[i], p.readers[next]
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p.readerToBuf[next] = i
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p.readerToBuf[i] = next
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next++
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}
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}
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// Returns if buf can be erasure decoded.
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func (p *parallelReader) canDecode(buf [][]byte) bool {
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bufCount := 0
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for _, b := range buf {
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if len(b) > 0 {
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bufCount++
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}
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}
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return bufCount >= p.dataBlocks
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}
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// Read reads from readers in parallel. Returns p.dataBlocks number of bufs.
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func (p *parallelReader) Read(dst [][]byte) ([][]byte, error) {
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newBuf := dst
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if len(dst) != len(p.readers) {
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newBuf = make([][]byte, len(p.readers))
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} else {
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for i := range newBuf {
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newBuf[i] = newBuf[i][:0]
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}
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}
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var newBufLK sync.RWMutex
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if p.offset+p.shardSize > p.shardFileSize {
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p.shardSize = p.shardFileSize - p.offset
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}
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if p.shardSize == 0 {
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return newBuf, nil
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}
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readTriggerCh := make(chan bool, len(p.readers))
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defer xioutil.SafeClose(readTriggerCh) // close the channel upon return
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for i := 0; i < p.dataBlocks; i++ {
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// Setup read triggers for p.dataBlocks number of reads so that it reads in parallel.
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readTriggerCh <- true
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}
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disksNotFound := int32(0)
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bitrotHeal := int32(0) // Atomic bool flag.
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missingPartsHeal := int32(0) // Atomic bool flag.
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readerIndex := 0
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var wg sync.WaitGroup
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// if readTrigger is true, it implies next disk.ReadAt() should be tried
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// if readTrigger is false, it implies previous disk.ReadAt() was successful and there is no need
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// to try reading the next disk.
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for readTrigger := range readTriggerCh {
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newBufLK.RLock()
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canDecode := p.canDecode(newBuf)
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newBufLK.RUnlock()
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if canDecode {
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break
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}
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if readerIndex == len(p.readers) {
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break
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}
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if !readTrigger {
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continue
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}
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wg.Add(1)
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go func(i int) {
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defer wg.Done()
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rr := p.readers[i]
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if rr == nil {
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// Since reader is nil, trigger another read.
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readTriggerCh <- true
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return
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}
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bufIdx := p.readerToBuf[i]
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if p.buf[bufIdx] == nil {
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// Reading first time on this disk, hence the buffer needs to be allocated.
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// Subsequent reads will reuse this buffer.
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p.buf[bufIdx] = make([]byte, p.shardSize)
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}
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// For the last shard, the shardsize might be less than previous shard sizes.
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// Hence the following statement ensures that the buffer size is reset to the right size.
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p.buf[bufIdx] = p.buf[bufIdx][:p.shardSize]
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n, err := rr.ReadAt(p.buf[bufIdx], p.offset)
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if err != nil {
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switch {
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case errors.Is(err, errFileNotFound):
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atomic.StoreInt32(&missingPartsHeal, 1)
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case errors.Is(err, errFileCorrupt):
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atomic.StoreInt32(&bitrotHeal, 1)
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case errors.Is(err, errDiskNotFound):
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atomic.AddInt32(&disksNotFound, 1)
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}
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// This will be communicated upstream.
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p.orgReaders[bufIdx] = nil
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if br, ok := p.readers[i].(io.Closer); ok {
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br.Close()
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}
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p.readers[i] = nil
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// Since ReadAt returned error, trigger another read.
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readTriggerCh <- true
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return
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}
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newBufLK.Lock()
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newBuf[bufIdx] = p.buf[bufIdx][:n]
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newBufLK.Unlock()
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// Since ReadAt returned success, there is no need to trigger another read.
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readTriggerCh <- false
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}(readerIndex)
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readerIndex++
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}
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wg.Wait()
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if p.canDecode(newBuf) {
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p.offset += p.shardSize
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if missingPartsHeal == 1 {
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return newBuf, errFileNotFound
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} else if bitrotHeal == 1 {
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return newBuf, errFileCorrupt
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}
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return newBuf, nil
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}
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// If we cannot decode, just return read quorum error.
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return nil, fmt.Errorf("%w (offline-disks=%d/%d)", errErasureReadQuorum, disksNotFound, len(p.readers))
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}
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// Decode reads from readers, reconstructs data if needed and writes the data to the writer.
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// A set of preferred drives can be supplied. In that case they will be used and the data reconstructed.
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func (e Erasure) Decode(ctx context.Context, writer io.Writer, readers []io.ReaderAt, offset, length, totalLength int64, prefer []bool) (written int64, derr error) {
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if offset < 0 || length < 0 {
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return -1, errInvalidArgument
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}
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if offset+length > totalLength {
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return -1, errInvalidArgument
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}
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if length == 0 {
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return 0, nil
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}
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reader := newParallelReader(readers, e, offset, totalLength)
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if len(prefer) == len(readers) {
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reader.preferReaders(prefer)
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}
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defer reader.Done()
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startBlock := offset / e.blockSize
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endBlock := (offset + length) / e.blockSize
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var bytesWritten int64
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var bufs [][]byte
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for block := startBlock; block <= endBlock; block++ {
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var blockOffset, blockLength int64
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switch {
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case startBlock == endBlock:
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blockOffset = offset % e.blockSize
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blockLength = length
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case block == startBlock:
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blockOffset = offset % e.blockSize
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blockLength = e.blockSize - blockOffset
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case block == endBlock:
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blockOffset = 0
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blockLength = (offset + length) % e.blockSize
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default:
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blockOffset = 0
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blockLength = e.blockSize
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}
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if blockLength == 0 {
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break
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}
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var err error
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bufs, err = reader.Read(bufs)
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if len(bufs) > 0 {
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// Set only if there are be enough data for reconstruction.
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// and only for expected errors, also set once.
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if errors.Is(err, errFileNotFound) || errors.Is(err, errFileCorrupt) {
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if derr == nil {
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derr = err
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}
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}
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} else if err != nil {
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// For all errors that cannot be reconstructed fail the read operation.
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return -1, err
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}
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if err = e.DecodeDataBlocks(bufs); err != nil {
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return -1, err
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}
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n, err := writeDataBlocks(ctx, writer, bufs, e.dataBlocks, blockOffset, blockLength)
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if err != nil {
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return -1, err
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}
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bytesWritten += n
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}
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if bytesWritten != length {
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return bytesWritten, errLessData
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}
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return bytesWritten, derr
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}
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// Heal reads from readers, reconstruct shards and writes the data to the writers.
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func (e Erasure) Heal(ctx context.Context, writers []io.Writer, readers []io.ReaderAt, totalLength int64, prefer []bool) (derr error) {
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if len(writers) != e.parityBlocks+e.dataBlocks {
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return errInvalidArgument
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}
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reader := newParallelReader(readers, e, 0, totalLength)
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if len(readers) == len(prefer) {
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reader.preferReaders(prefer)
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}
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defer reader.Done()
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startBlock := int64(0)
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endBlock := totalLength / e.blockSize
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if totalLength%e.blockSize != 0 {
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endBlock++
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}
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var bufs [][]byte
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for block := startBlock; block < endBlock; block++ {
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var err error
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bufs, err = reader.Read(bufs)
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if len(bufs) > 0 {
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if errors.Is(err, errFileNotFound) || errors.Is(err, errFileCorrupt) {
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if derr == nil {
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derr = err
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}
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}
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} else if err != nil {
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return err
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}
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if err = e.DecodeDataAndParityBlocks(ctx, bufs); err != nil {
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return err
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}
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w := multiWriter{
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writers: writers,
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writeQuorum: 1,
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errs: make([]error, len(writers)),
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}
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if err = w.Write(ctx, bufs); err != nil {
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return err
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}
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}
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return derr
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}
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