/*

* 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 (

"bytes"

"context"

"crypto/rand"

"io"

"os"

"testing"

)

var erasureHealTests = []struct {

dataBlocks, disks int

// number of offline disks is also number of staleDisks for

// erasure reconstruction in this test

offDisks int

// bad disks are online disks which return errors

badDisks, badStaleDisks int

blocksize, size int64

algorithm BitrotAlgorithm

shouldFail bool

}{

{dataBlocks: 2, disks: 4, offDisks: 1, badDisks: 0, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: SHA256, shouldFail: false}, // 0

{dataBlocks: 3, disks: 6, offDisks: 2, badDisks: 0, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: BLAKE2b512, shouldFail: false}, // 1

{dataBlocks: 4, disks: 8, offDisks: 2, badDisks: 1, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: BLAKE2b512, shouldFail: false}, // 2

{dataBlocks: 5, disks: 10, offDisks: 3, badDisks: 1, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 3

{dataBlocks: 6, disks: 12, offDisks: 2, badDisks: 3, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: SHA256, shouldFail: false}, // 4

{dataBlocks: 7, disks: 14, offDisks: 4, badDisks: 1, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 5

{dataBlocks: 8, disks: 16, offDisks: 6, badDisks: 1, badStaleDisks: 1, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 6

{dataBlocks: 7, disks: 14, offDisks: 2, badDisks: 3, badStaleDisks: 0, blocksize: int64(oneMiByte / 2), size: oneMiByte, algorithm: BLAKE2b512, shouldFail: false}, // 7

{dataBlocks: 6, disks: 12, offDisks: 1, badDisks: 0, badStaleDisks: 1, blocksize: int64(oneMiByte - 1), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: true}, // 8

{dataBlocks: 5, disks: 10, offDisks: 3, badDisks: 0, badStaleDisks: 3, blocksize: int64(oneMiByte / 2), size: oneMiByte, algorithm: SHA256, shouldFail: true}, // 9

{dataBlocks: 4, disks: 8, offDisks: 1, badDisks: 1, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 10

{dataBlocks: 2, disks: 4, offDisks: 1, badDisks: 0, badStaleDisks: 1, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: true}, // 11

{dataBlocks: 6, disks: 12, offDisks: 8, badDisks: 3, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: true}, // 12

{dataBlocks: 7, disks: 14, offDisks: 3, badDisks: 4, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: BLAKE2b512, shouldFail: false}, // 13

{dataBlocks: 7, disks: 14, offDisks: 6, badDisks: 1, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 14

{dataBlocks: 8, disks: 16, offDisks: 4, badDisks: 5, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: true}, // 15

{dataBlocks: 2, disks: 4, offDisks: 1, badDisks: 0, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 16

{dataBlocks: 12, disks: 16, offDisks: 2, badDisks: 1, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 17

{dataBlocks: 6, disks: 8, offDisks: 1, badDisks: 0, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte, algorithm: BLAKE2b512, shouldFail: false}, // 18

{dataBlocks: 2, disks: 4, offDisks: 1, badDisks: 0, badStaleDisks: 0, blocksize: int64(blockSizeV1), size: oneMiByte * 64, algorithm: SHA256, shouldFail: false}, // 19

}

func TestErasureHeal(t *testing.T) {

for i, test := range erasureHealTests {

if test.offDisks < test.badStaleDisks {

// test case sanity check

t.Fatalf("Test %d: Bad test case - number of stale disks cannot be less than number of badstale disks", i)

}

// create some test data

setup, err := newErasureTestSetup(test.dataBlocks, test.disks-test.dataBlocks, test.blocksize)

if err != nil {

t.Fatalf("Test %d: failed to setup XL environment: %v", i, err)

}

disks := setup.disks

erasure, err := NewErasure(context.Background(), test.dataBlocks, test.disks-test.dataBlocks, test.blocksize)

if err != nil {

setup.Remove()

t.Fatalf("Test %d: failed to create ErasureStorage: %v", i, err)

}

data := make([]byte, test.size)

if _, err = io.ReadFull(rand.Reader, data); err != nil {

setup.Remove()

t.Fatalf("Test %d: failed to create random test data: %v", i, err)

}

buffer := make([]byte, test.blocksize, 2*test.blocksize)

writers := make([]io.Writer, len(disks))

for i, disk := range disks {

writers[i] = newBitrotWriter(disk, "testbucket", "testobject", erasure.ShardFileSize(test.size), test.algorithm, erasure.ShardSize())

}

_, err = erasure.Encode(context.Background(), bytes.NewReader(data), writers, buffer, erasure.dataBlocks+1)

closeBitrotWriters(writers)

if err != nil {

setup.Remove()

t.Fatalf("Test %d: failed to create random test data: %v", i, err)

}

readers := make([]io.ReaderAt, len(disks))

for i, disk := range disks {

shardFilesize := erasure.ShardFileSize(test.size)

readers[i] = newBitrotReader(disk, "testbucket", "testobject", shardFilesize, test.algorithm, bitrotWriterSum(writers[i]), erasure.ShardSize())

}

// setup stale disks for the test case

staleDisks := make([]StorageAPI, len(disks))

copy(staleDisks, disks)

for j := 0; j < len(staleDisks); j++ {

if j < test.offDisks {

readers[j] = nil

} else {

staleDisks[j] = nil

}

}

for j := 0; j < test.badDisks; j++ {

switch r := readers[test.offDisks+j].(type) {

case *streamingBitrotReader:

r.disk = badDisk{nil}

case *wholeBitrotReader:

r.disk = badDisk{nil}

}

}

for j := 0; j < test.badStaleDisks; j++ {

staleDisks[j] = badDisk{nil}

}

staleWriters := make([]io.Writer, len(staleDisks))

for i, disk := range staleDisks {

if disk == nil {

continue

}

os.Remove(pathJoin(disk.String(), "testbucket", "testobject"))

staleWriters[i] = newBitrotWriter(disk, "testbucket", "testobject", erasure.ShardFileSize(test.size), test.algorithm, erasure.ShardSize())

}

// test case setup is complete - now call Heal()

err = erasure.Heal(context.Background(), readers, staleWriters, test.size)

closeBitrotReaders(readers)

closeBitrotWriters(staleWriters)

if err != nil && !test.shouldFail {

t.Errorf("Test %d: should pass but it failed with: %v", i, err)

}

if err == nil && test.shouldFail {

t.Errorf("Test %d: should fail but it passed", i)

}

if err == nil {

// Verify that checksums of staleDisks

// match expected values

for i := range staleWriters {

if staleWriters[i] == nil {

continue

}

if !bytes.Equal(bitrotWriterSum(staleWriters[i]), bitrotWriterSum(writers[i])) {

t.Errorf("Test %d: heal returned different bitrot checksums", i)

}

}

}

setup.Remove()

}

}