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80ca120088
Each Put, List, Multipart operations heavily rely on making GetBucketInfo() call to verify if bucket exists or not on a regular basis. This has a large performance cost when there are tons of servers involved. We did optimize this part by vectorizing the bucket calls, however its not enough, beyond 100 nodes and this becomes fairly visible in terms of performance.
158 lines
7.9 KiB
Go
158 lines
7.9 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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"crypto/rand"
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"io"
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"os"
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"testing"
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)
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var erasureHealTests = []struct {
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dataBlocks, disks int
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// number of offline disks is also number of staleDisks for
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// erasure reconstruction in this test
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offDisks int
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// bad disks are online disks which return errors
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badDisks, badStaleDisks int
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blocksize, size int64
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algorithm BitrotAlgorithm
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shouldFail bool
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}{
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{dataBlocks: 2, disks: 4, offDisks: 1, badDisks: 0, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: SHA256, shouldFail: false}, // 0
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{dataBlocks: 3, disks: 6, offDisks: 2, badDisks: 0, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: BLAKE2b512, shouldFail: false}, // 1
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{dataBlocks: 4, disks: 8, offDisks: 2, badDisks: 1, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: BLAKE2b512, shouldFail: false}, // 2
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{dataBlocks: 5, disks: 10, offDisks: 3, badDisks: 1, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 3
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{dataBlocks: 6, disks: 12, offDisks: 2, badDisks: 3, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: SHA256, shouldFail: false}, // 4
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{dataBlocks: 7, disks: 14, offDisks: 4, badDisks: 1, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 5
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{dataBlocks: 8, disks: 16, offDisks: 6, badDisks: 1, badStaleDisks: 1, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 6
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{dataBlocks: 7, disks: 14, offDisks: 2, badDisks: 3, badStaleDisks: 0, blocksize: int64(oneMiByte / 2), size: oneMiByte, algorithm: BLAKE2b512, shouldFail: false}, // 7
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{dataBlocks: 6, disks: 12, offDisks: 1, badDisks: 0, badStaleDisks: 1, blocksize: int64(oneMiByte - 1), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: true}, // 8
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{dataBlocks: 5, disks: 10, offDisks: 3, badDisks: 0, badStaleDisks: 3, blocksize: int64(oneMiByte / 2), size: oneMiByte, algorithm: SHA256, shouldFail: true}, // 9
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{dataBlocks: 4, disks: 8, offDisks: 1, badDisks: 1, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 10
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{dataBlocks: 2, disks: 4, offDisks: 1, badDisks: 0, badStaleDisks: 1, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: true}, // 11
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{dataBlocks: 6, disks: 12, offDisks: 8, badDisks: 3, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: true}, // 12
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{dataBlocks: 7, disks: 14, offDisks: 3, badDisks: 4, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: BLAKE2b512, shouldFail: false}, // 13
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{dataBlocks: 7, disks: 14, offDisks: 6, badDisks: 1, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 14
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{dataBlocks: 8, disks: 16, offDisks: 4, badDisks: 5, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: true}, // 15
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{dataBlocks: 2, disks: 4, offDisks: 1, badDisks: 0, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 16
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{dataBlocks: 12, disks: 16, offDisks: 2, badDisks: 1, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: DefaultBitrotAlgorithm, shouldFail: false}, // 17
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{dataBlocks: 6, disks: 8, offDisks: 1, badDisks: 0, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte, algorithm: BLAKE2b512, shouldFail: false}, // 18
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{dataBlocks: 2, disks: 4, offDisks: 1, badDisks: 0, badStaleDisks: 0, blocksize: int64(blockSizeV2), size: oneMiByte * 64, algorithm: SHA256, shouldFail: false}, // 19
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}
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func TestErasureHeal(t *testing.T) {
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for i, test := range erasureHealTests {
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if test.offDisks < test.badStaleDisks {
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// test case sanity check
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t.Fatalf("Test %d: Bad test case - number of stale drives cannot be less than number of badstale drives", i)
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}
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// create some test data
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setup, err := newErasureTestSetup(t, test.dataBlocks, test.disks-test.dataBlocks, test.blocksize)
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if err != nil {
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t.Fatalf("Test %d: failed to setup Erasure environment: %v", i, err)
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}
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disks := setup.disks
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erasure, err := NewErasure(context.Background(), test.dataBlocks, test.disks-test.dataBlocks, test.blocksize)
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if err != nil {
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t.Fatalf("Test %d: failed to create ErasureStorage: %v", i, err)
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}
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data := make([]byte, test.size)
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if _, err = io.ReadFull(rand.Reader, data); err != nil {
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t.Fatalf("Test %d: failed to create random test data: %v", i, err)
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}
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buffer := make([]byte, test.blocksize, 2*test.blocksize)
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writers := make([]io.Writer, len(disks))
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for i, disk := range disks {
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writers[i] = newBitrotWriter(disk, "", "testbucket", "testobject", erasure.ShardFileSize(test.size), test.algorithm, erasure.ShardSize())
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}
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_, err = erasure.Encode(context.Background(), bytes.NewReader(data), writers, buffer, erasure.dataBlocks+1)
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closeBitrotWriters(writers)
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if err != nil {
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t.Fatalf("Test %d: failed to create random test data: %v", i, err)
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}
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readers := make([]io.ReaderAt, len(disks))
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for i, disk := range disks {
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shardFilesize := erasure.ShardFileSize(test.size)
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readers[i] = newBitrotReader(disk, nil, "testbucket", "testobject", shardFilesize, test.algorithm, bitrotWriterSum(writers[i]), erasure.ShardSize())
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}
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// setup stale disks for the test case
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staleDisks := make([]StorageAPI, len(disks))
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copy(staleDisks, disks)
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for j := 0; j < len(staleDisks); j++ {
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if j < test.offDisks {
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readers[j] = nil
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} else {
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staleDisks[j] = nil
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}
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}
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for j := 0; j < test.badDisks; j++ {
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switch r := readers[test.offDisks+j].(type) {
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case *streamingBitrotReader:
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r.disk = badDisk{nil}
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case *wholeBitrotReader:
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r.disk = badDisk{nil}
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}
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}
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for j := 0; j < test.badStaleDisks; j++ {
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staleDisks[j] = badDisk{nil}
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}
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staleWriters := make([]io.Writer, len(staleDisks))
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for i, disk := range staleDisks {
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if disk == nil {
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continue
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}
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os.Remove(pathJoin(disk.String(), "testbucket", "testobject"))
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staleWriters[i] = newBitrotWriter(disk, "", "testbucket", "testobject", erasure.ShardFileSize(test.size), test.algorithm, erasure.ShardSize())
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}
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// test case setup is complete - now call Heal()
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err = erasure.Heal(context.Background(), staleWriters, readers, test.size, nil)
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closeBitrotReaders(readers)
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closeBitrotWriters(staleWriters)
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if err != nil && !test.shouldFail {
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t.Errorf("Test %d: should pass but it failed with: %v", i, err)
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}
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if err == nil && test.shouldFail {
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t.Errorf("Test %d: should fail but it passed", i)
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}
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if err == nil {
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// Verify that checksums of staleDisks
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// match expected values
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for i := range staleWriters {
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if staleWriters[i] == nil {
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continue
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}
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if !bytes.Equal(bitrotWriterSum(staleWriters[i]), bitrotWriterSum(writers[i])) {
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t.Errorf("Test %d: heal returned different bitrot checksums", i)
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}
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}
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}
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}
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}
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