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caac9d216e
for actionable, inspections we have `mc support inspect` we do not need double logging, healing will report relevant errors if any, in terms of quorum lost etc.
211 lines
8.6 KiB
Go
211 lines
8.6 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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"bytes"
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"context"
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"encoding/hex"
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"fmt"
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"os"
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"reflect"
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"sync"
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"github.com/cespare/xxhash/v2"
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"github.com/klauspost/reedsolomon"
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"github.com/minio/minio/internal/logger"
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)
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// Erasure - erasure encoding details.
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type Erasure struct {
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encoder func() reedsolomon.Encoder
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dataBlocks, parityBlocks int
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blockSize int64
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}
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// NewErasure creates a new ErasureStorage.
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func NewErasure(ctx context.Context, dataBlocks, parityBlocks int, blockSize int64) (e Erasure, err error) {
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// Check the parameters for sanity now.
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if dataBlocks <= 0 || parityBlocks < 0 {
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return e, reedsolomon.ErrInvShardNum
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}
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if dataBlocks+parityBlocks > 256 {
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return e, reedsolomon.ErrMaxShardNum
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}
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e = Erasure{
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dataBlocks: dataBlocks,
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parityBlocks: parityBlocks,
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blockSize: blockSize,
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}
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// Encoder when needed.
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var enc reedsolomon.Encoder
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var once sync.Once
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e.encoder = func() reedsolomon.Encoder {
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once.Do(func() {
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e, err := reedsolomon.New(dataBlocks, parityBlocks, reedsolomon.WithAutoGoroutines(int(e.ShardSize())))
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if err != nil {
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// Error conditions should be checked above.
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panic(err)
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}
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enc = e
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})
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return enc
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}
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return
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}
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// EncodeData encodes the given data and returns the erasure-coded data.
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// It returns an error if the erasure coding failed.
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func (e *Erasure) EncodeData(ctx context.Context, data []byte) ([][]byte, error) {
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if len(data) == 0 {
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return make([][]byte, e.dataBlocks+e.parityBlocks), nil
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}
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encoded, err := e.encoder().Split(data)
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if err != nil {
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return nil, err
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}
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if err = e.encoder().Encode(encoded); err != nil {
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return nil, err
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}
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return encoded, nil
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}
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// DecodeDataBlocks decodes the given erasure-coded data.
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// It only decodes the data blocks but does not verify them.
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// It returns an error if the decoding failed.
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func (e *Erasure) DecodeDataBlocks(data [][]byte) error {
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isZero := 0
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for _, b := range data {
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if len(b) == 0 {
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isZero++
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break
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}
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}
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if isZero == 0 || isZero == len(data) {
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// If all are zero, payload is 0 bytes.
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return nil
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}
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return e.encoder().ReconstructData(data)
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}
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// DecodeDataAndParityBlocks decodes the given erasure-coded data and verifies it.
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// It returns an error if the decoding failed.
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func (e *Erasure) DecodeDataAndParityBlocks(ctx context.Context, data [][]byte) error {
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return e.encoder().Reconstruct(data)
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}
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// ShardSize - returns actual shared size from erasure blockSize.
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func (e *Erasure) ShardSize() int64 {
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return ceilFrac(e.blockSize, int64(e.dataBlocks))
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}
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// ShardFileSize - returns final erasure size from original size.
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func (e *Erasure) ShardFileSize(totalLength int64) int64 {
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if totalLength == 0 {
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return 0
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}
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if totalLength == -1 {
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return -1
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}
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numShards := totalLength / e.blockSize
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lastBlockSize := totalLength % e.blockSize
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lastShardSize := ceilFrac(lastBlockSize, int64(e.dataBlocks))
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return numShards*e.ShardSize() + lastShardSize
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}
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// ShardFileOffset - returns the effective offset where erasure reading begins.
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func (e *Erasure) ShardFileOffset(startOffset, length, totalLength int64) int64 {
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shardSize := e.ShardSize()
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shardFileSize := e.ShardFileSize(totalLength)
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endShard := (startOffset + length) / e.blockSize
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tillOffset := endShard*shardSize + shardSize
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if tillOffset > shardFileSize {
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tillOffset = shardFileSize
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}
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return tillOffset
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}
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// erasureSelfTest performs a self-test to ensure that erasure
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// algorithms compute expected erasure codes. If any algorithm
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// produces an incorrect value it fails with a hard error.
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//
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// erasureSelfTest tries to catch any issue in the erasure implementation
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// early instead of silently corrupting data.
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func erasureSelfTest() {
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// Approx runtime ~1ms
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var testConfigs [][2]uint8
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for total := uint8(4); total < 16; total++ {
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for data := total / 2; data < total; data++ {
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parity := total - data
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testConfigs = append(testConfigs, [2]uint8{data, parity})
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}
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}
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got := make(map[[2]uint8]map[ErasureAlgo]uint64, len(testConfigs))
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// Copied from output of fmt.Printf("%#v", got) at the end.
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want := map[[2]uint8]map[ErasureAlgo]uint64{{0x2, 0x2}: {0x1: 0x23fb21be2496f5d3}, {0x2, 0x3}: {0x1: 0xa5cd5600ba0d8e7c}, {0x3, 0x1}: {0x1: 0x60ab052148b010b4}, {0x3, 0x2}: {0x1: 0xe64927daef76435a}, {0x3, 0x3}: {0x1: 0x672f6f242b227b21}, {0x3, 0x4}: {0x1: 0x571e41ba23a6dc6}, {0x4, 0x1}: {0x1: 0x524eaa814d5d86e2}, {0x4, 0x2}: {0x1: 0x62b9552945504fef}, {0x4, 0x3}: {0x1: 0xcbf9065ee053e518}, {0x4, 0x4}: {0x1: 0x9a07581dcd03da8}, {0x4, 0x5}: {0x1: 0xbf2d27b55370113f}, {0x5, 0x1}: {0x1: 0xf71031a01d70daf}, {0x5, 0x2}: {0x1: 0x8e5845859939d0f4}, {0x5, 0x3}: {0x1: 0x7ad9161acbb4c325}, {0x5, 0x4}: {0x1: 0xc446b88830b4f800}, {0x5, 0x5}: {0x1: 0xabf1573cc6f76165}, {0x5, 0x6}: {0x1: 0x7b5598a85045bfb8}, {0x6, 0x1}: {0x1: 0xe2fc1e677cc7d872}, {0x6, 0x2}: {0x1: 0x7ed133de5ca6a58e}, {0x6, 0x3}: {0x1: 0x39ef92d0a74cc3c0}, {0x6, 0x4}: {0x1: 0xcfc90052bc25d20}, {0x6, 0x5}: {0x1: 0x71c96f6baeef9c58}, {0x6, 0x6}: {0x1: 0x4b79056484883e4c}, {0x6, 0x7}: {0x1: 0xb1a0e2427ac2dc1a}, {0x7, 0x1}: {0x1: 0x937ba2b7af467a22}, {0x7, 0x2}: {0x1: 0x5fd13a734d27d37a}, {0x7, 0x3}: {0x1: 0x3be2722d9b66912f}, {0x7, 0x4}: {0x1: 0x14c628e59011be3d}, {0x7, 0x5}: {0x1: 0xcc3b39ad4c083b9f}, {0x7, 0x6}: {0x1: 0x45af361b7de7a4ff}, {0x7, 0x7}: {0x1: 0x456cc320cec8a6e6}, {0x7, 0x8}: {0x1: 0x1867a9f4db315b5c}, {0x8, 0x1}: {0x1: 0xbc5756b9a9ade030}, {0x8, 0x2}: {0x1: 0xdfd7d9d0b3e36503}, {0x8, 0x3}: {0x1: 0x72bb72c2cdbcf99d}, {0x8, 0x4}: {0x1: 0x3ba5e9b41bf07f0}, {0x8, 0x5}: {0x1: 0xd7dabc15800f9d41}, {0x8, 0x6}: {0x1: 0xb482a6169fd270f}, {0x8, 0x7}: {0x1: 0x50748e0099d657e8}, {0x9, 0x1}: {0x1: 0xc77ae0144fcaeb6e}, {0x9, 0x2}: {0x1: 0x8a86c7dbebf27b68}, {0x9, 0x3}: {0x1: 0xa64e3be6d6fe7e92}, {0x9, 0x4}: {0x1: 0x239b71c41745d207}, {0x9, 0x5}: {0x1: 0x2d0803094c5a86ce}, {0x9, 0x6}: {0x1: 0xa3c2539b3af84874}, {0xa, 0x1}: {0x1: 0x7d30d91b89fcec21}, {0xa, 0x2}: {0x1: 0xfa5af9aa9f1857a3}, {0xa, 0x3}: {0x1: 0x84bc4bda8af81f90}, {0xa, 0x4}: {0x1: 0x6c1cba8631de994a}, {0xa, 0x5}: {0x1: 0x4383e58a086cc1ac}, {0xb, 0x1}: {0x1: 0x4ed2929a2df690b}, {0xb, 0x2}: {0x1: 0xecd6f1b1399775c0}, {0xb, 0x3}: {0x1: 0xc78cfbfc0dc64d01}, {0xb, 0x4}: {0x1: 0xb2643390973702d6}, {0xc, 0x1}: {0x1: 0x3b2a88686122d082}, {0xc, 0x2}: {0x1: 0xfd2f30a48a8e2e9}, {0xc, 0x3}: {0x1: 0xd5ce58368ae90b13}, {0xd, 0x1}: {0x1: 0x9c88e2a9d1b8fff8}, {0xd, 0x2}: {0x1: 0xcb8460aa4cf6613}, {0xe, 0x1}: {0x1: 0x78a28bbaec57996e}}
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var testData [256]byte
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for i := range testData {
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testData[i] = byte(i)
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}
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ok := true
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for algo := invalidErasureAlgo + 1; algo < lastErasureAlgo; algo++ {
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for _, conf := range testConfigs {
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failOnErr := func(err error) {
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if err != nil {
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logger.Fatal(errSelfTestFailure, "%v: error on self-test [d:%d,p:%d]: %v. Unsafe to start server.\n", algo, conf[0], conf[1], err)
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}
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}
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e, err := NewErasure(context.Background(), int(conf[0]), int(conf[1]), blockSizeV2)
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failOnErr(err)
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encoded, err := e.EncodeData(GlobalContext, testData[:])
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failOnErr(err)
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hash := xxhash.New()
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for i, data := range encoded {
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// Write index to keep track of sizes of each.
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_, err = hash.Write([]byte{byte(i)})
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failOnErr(err)
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_, err = hash.Write(data)
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failOnErr(err)
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got[conf] = map[ErasureAlgo]uint64{algo: hash.Sum64()}
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}
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if a, b := want[conf], got[conf]; !reflect.DeepEqual(a, b) {
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fmt.Fprintf(os.Stderr, "%v: error on self-test [d:%d,p:%d]: want %#v, got %#v\n", algo, conf[0], conf[1], a, b)
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ok = false
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continue
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}
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// Delete first shard and reconstruct...
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first := encoded[0]
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encoded[0] = nil
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failOnErr(e.DecodeDataBlocks(encoded))
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if a, b := first, encoded[0]; !bytes.Equal(a, b) {
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fmt.Fprintf(os.Stderr, "%v: error on self-test [d:%d,p:%d]: want %#v, got %#v\n", algo, conf[0], conf[1], hex.EncodeToString(a), hex.EncodeToString(b))
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ok = false
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continue
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}
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}
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}
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if !ok {
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logger.Fatal(errSelfTestFailure, "Erasure Coding self test failed")
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}
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}
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