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minio/cmd/erasure-decode.go

193 lines
4.9 KiB

/*
* MinIO Cloud Storage, (C) 2016 MinIO, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package cmd
import (
"context"
"io"
"sync"
"github.com/minio/minio/cmd/logger"
)
// Reads in parallel from readers.
type parallelReader struct {
readers []io.ReaderAt
dataBlocks int
offset int64
shardSize int64
shardFileSize int64
buf [][]byte
}
// newParallelReader returns parallelReader.
func newParallelReader(readers []io.ReaderAt, e Erasure, offset, totalLength int64) *parallelReader {
return &parallelReader{
readers,
e.dataBlocks,
(offset / e.blockSize) * e.ShardSize(),
e.ShardSize(),
e.ShardFileSize(totalLength),
make([][]byte, len(readers)),
}
}
// Returns if buf can be erasure decoded.
func (p *parallelReader) canDecode(buf [][]byte) bool {
bufCount := 0
for _, b := range buf {
if b != nil {
bufCount++
}
}
return bufCount >= p.dataBlocks
}
// Read reads from readers in parallel. Returns p.dataBlocks number of bufs.
func (p *parallelReader) Read() ([][]byte, error) {
newBuf := make([][]byte, len(p.readers))
var newBufLK sync.RWMutex
if p.offset+p.shardSize > p.shardFileSize {
p.shardSize = p.shardFileSize - p.offset
}
readTriggerCh := make(chan bool, len(p.readers))
for i := 0; i < p.dataBlocks; i++ {
// Setup read triggers for p.dataBlocks number of reads so that it reads in parallel.
readTriggerCh <- true
}
readerIndex := 0
var wg sync.WaitGroup
// if readTrigger is true, it implies next disk.ReadAt() should be tried
// if readTrigger is false, it implies previous disk.ReadAt() was successful and there is no need
// to try reading the next disk.
for readTrigger := range readTriggerCh {
newBufLK.RLock()
canDecode := p.canDecode(newBuf)
newBufLK.RUnlock()
if canDecode {
break
}
if readerIndex == len(p.readers) {
break
}
if !readTrigger {
continue
}
wg.Add(1)
go func(i int) {
defer wg.Done()
disk := p.readers[i]
if disk == nil {
// Since disk is nil, trigger another read.
readTriggerCh <- true
return
}
if p.buf[i] == nil {
// Reading first time on this disk, hence the buffer needs to be allocated.
// Subsequent reads will re-use this buffer.
p.buf[i] = make([]byte, p.shardSize)
}
// For the last shard, the shardsize might be less than previous shard sizes.
// Hence the following statement ensures that the buffer size is reset to the right size.
p.buf[i] = p.buf[i][:p.shardSize]
_, err := disk.ReadAt(p.buf[i], p.offset)
if err != nil {
p.readers[i] = nil
// Since ReadAt returned error, trigger another read.
readTriggerCh <- true
return
}
newBufLK.Lock()
newBuf[i] = p.buf[i]
newBufLK.Unlock()
// Since ReadAt returned success, there is no need to trigger another read.
readTriggerCh <- false
}(readerIndex)
readerIndex++
}
wg.Wait()
if p.canDecode(newBuf) {
p.offset += p.shardSize
return newBuf, nil
}
return nil, errXLReadQuorum
}
// Decode reads from readers, reconstructs data if needed and writes the data to the writer.
func (e Erasure) Decode(ctx context.Context, writer io.Writer, readers []io.ReaderAt, offset, length, totalLength int64) error {
if offset < 0 || length < 0 {
logger.LogIf(ctx, errInvalidArgument)
return errInvalidArgument
}
if offset+length > totalLength {
logger.LogIf(ctx, errInvalidArgument)
return errInvalidArgument
}
if length == 0 {
return nil
}
reader := newParallelReader(readers, e, offset, totalLength)
startBlock := offset / e.blockSize
endBlock := (offset + length) / e.blockSize
var bytesWritten int64
for block := startBlock; block <= endBlock; block++ {
var blockOffset, blockLength int64
switch {
case startBlock == endBlock:
blockOffset = offset % e.blockSize
blockLength = length
case block == startBlock:
blockOffset = offset % e.blockSize
blockLength = e.blockSize - blockOffset
case block == endBlock:
blockOffset = 0
blockLength = (offset + length) % e.blockSize
default:
blockOffset = 0
blockLength = e.blockSize
}
if blockLength == 0 {
break
}
bufs, err := reader.Read()
if err != nil {
return err
}
if err = e.DecodeDataBlocks(bufs); err != nil {
logger.LogIf(ctx, err)
return err
}
n, err := writeDataBlocks(ctx, writer, bufs, e.dataBlocks, blockOffset, blockLength)
if err != nil {
return err
}
bytesWritten += n
}
if bytesWritten != length {
logger.LogIf(ctx, errLessData)
return errLessData
}
return nil
}