mirror of
https://github.com/minio/minio.git
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1ebf6f146a
This PR adds transition support for ILM to transition data to another MinIO target represented by a storage class ARN. Subsequent GET or HEAD for that object will be streamed from the transition tier. If PostRestoreObject API is invoked, the transitioned object can be restored for duration specified to the source cluster.
293 lines
7.6 KiB
Go
293 lines
7.6 KiB
Go
/*
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* MinIO Cloud Storage, (C) 2016-2020 MinIO, Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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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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"io"
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"sync"
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"sync/atomic"
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"github.com/minio/minio/cmd/logger"
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)
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var errHealRequired = errors.New("heal required")
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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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}
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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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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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}
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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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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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healRequired := 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 re-use 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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_, err := rr.ReadAt(p.buf[bufIdx], p.offset)
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if err != nil {
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if _, ok := err.(*errHashMismatch); ok {
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atomic.StoreInt32(&healRequired, 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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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]
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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 healRequired != 0 {
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return newBuf, errHealRequired
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}
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return newBuf, nil
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}
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return nil, errErasureReadQuorum
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}
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type errDecodeHealRequired struct {
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err error
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}
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func (err *errDecodeHealRequired) Error() string {
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return err.err.Error()
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}
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func (err *errDecodeHealRequired) Unwrap() error {
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return err.err
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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) error {
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healRequired, err := e.decode(ctx, writer, readers, offset, length, totalLength, prefer)
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if healRequired {
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return &errDecodeHealRequired{err}
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}
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return err
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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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func (e Erasure) decode(ctx context.Context, writer io.Writer, readers []io.ReaderAt, offset, length, totalLength int64, prefer []bool) (bool, error) {
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if offset < 0 || length < 0 {
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logger.LogIf(ctx, errInvalidArgument)
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return false, errInvalidArgument
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}
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if offset+length > totalLength {
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logger.LogIf(ctx, errInvalidArgument)
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return false, errInvalidArgument
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}
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if length == 0 {
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return false, 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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startBlock := offset / e.blockSize
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endBlock := (offset + length) / e.blockSize
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var healRequired bool
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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 err != nil {
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if errors.Is(err, errHealRequired) {
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// errHealRequired is only returned if there are be enough data for reconstruction.
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healRequired = true
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} else {
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return healRequired, err
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}
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}
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if err = e.DecodeDataBlocks(bufs); err != nil {
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logger.LogIf(ctx, err)
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return healRequired, 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 healRequired, 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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logger.LogIf(ctx, errLessData)
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return healRequired, errLessData
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}
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return healRequired, nil
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}
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