// Copyright (c) 2015-2021 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package cmd import ( "context" "errors" "fmt" "hash/crc32" "github.com/minio/minio/internal/logger" "github.com/minio/minio/internal/sync/errgroup" ) // Returns number of errors that occurred the most (incl. nil) and the // corresponding error value. NB When there is more than one error value that // occurs maximum number of times, the error value returned depends on how // golang's map orders keys. This doesn't affect correctness as long as quorum // value is greater than or equal to simple majority, since none of the equally // maximal values would occur quorum or more number of times. func reduceErrs(errs []error, ignoredErrs []error) (maxCount int, maxErr error) { errorCounts := make(map[error]int) for _, err := range errs { if IsErrIgnored(err, ignoredErrs...) { continue } // Errors due to context cancelation may be wrapped - group them by context.Canceled. if errors.Is(err, context.Canceled) { errorCounts[context.Canceled]++ continue } errorCounts[err]++ } max := 0 for err, count := range errorCounts { switch { case max < count: max = count maxErr = err // Prefer `nil` over other error values with the same // number of occurrences. case max == count && err == nil: maxErr = err } } return max, maxErr } // reduceQuorumErrs behaves like reduceErrs by only for returning // values of maximally occurring errors validated against a generic // quorum number that can be read or write quorum depending on usage. func reduceQuorumErrs(ctx context.Context, errs []error, ignoredErrs []error, quorum int, quorumErr error) error { maxCount, maxErr := reduceErrs(errs, ignoredErrs) if maxCount >= quorum { return maxErr } return quorumErr } // reduceReadQuorumErrs behaves like reduceErrs but only for returning // values of maximally occurring errors validated against readQuorum. func reduceReadQuorumErrs(ctx context.Context, errs []error, ignoredErrs []error, readQuorum int) (maxErr error) { return reduceQuorumErrs(ctx, errs, ignoredErrs, readQuorum, errErasureReadQuorum) } // reduceWriteQuorumErrs behaves like reduceErrs but only for returning // values of maximally occurring errors validated against writeQuorum. func reduceWriteQuorumErrs(ctx context.Context, errs []error, ignoredErrs []error, writeQuorum int) (maxErr error) { return reduceQuorumErrs(ctx, errs, ignoredErrs, writeQuorum, errErasureWriteQuorum) } // Similar to 'len(slice)' but returns the actual elements count // skipping the unallocated elements. func diskCount(disks []StorageAPI) int { diskCount := 0 for _, disk := range disks { if disk == nil { continue } diskCount++ } return diskCount } // hashOrder - hashes input key to return consistent // hashed integer slice. Returned integer order is salted // with an input key. This results in consistent order. // NOTE: collisions are fine, we are not looking for uniqueness // in the slices returned. func hashOrder(key string, cardinality int) []int { if cardinality <= 0 { // Returns an empty int slice for cardinality < 0. return nil } nums := make([]int, cardinality) keyCrc := crc32.Checksum([]byte(key), crc32.IEEETable) start := int(keyCrc % uint32(cardinality)) for i := 1; i <= cardinality; i++ { nums[i-1] = 1 + ((start + i) % cardinality) } return nums } // Reads all `xl.meta` metadata as a FileInfo slice. // Returns error slice indicating the failed metadata reads. func readAllFileInfo(ctx context.Context, disks []StorageAPI, bucket, object, versionID string, readData bool) ([]FileInfo, []error) { metadataArray := make([]FileInfo, len(disks)) g := errgroup.WithNErrs(len(disks)) // Read `xl.meta` in parallel across disks. for index := range disks { index := index g.Go(func() (err error) { if disks[index] == nil { return errDiskNotFound } metadataArray[index], err = disks[index].ReadVersion(ctx, bucket, object, versionID, readData) if err != nil { if !IsErr(err, []error{ errFileNotFound, errVolumeNotFound, errFileVersionNotFound, errDiskNotFound, }...) { logger.LogOnceIf(ctx, fmt.Errorf("Drive %s, path (%s/%s) returned an error (%w)", disks[index], bucket, object, err), disks[index].String()) } } return err }, index) } // Return all the metadata. return metadataArray, g.Wait() } // shuffleDisksAndPartsMetadataByIndex this function should be always used by GetObjectNInfo() // and CompleteMultipartUpload code path, it is not meant to be used with PutObject, // NewMultipartUpload metadata shuffling. func shuffleDisksAndPartsMetadataByIndex(disks []StorageAPI, metaArr []FileInfo, fi FileInfo) (shuffledDisks []StorageAPI, shuffledPartsMetadata []FileInfo) { shuffledDisks = make([]StorageAPI, len(disks)) shuffledPartsMetadata = make([]FileInfo, len(disks)) distribution := fi.Erasure.Distribution var inconsistent int for i, meta := range metaArr { if disks[i] == nil { // Assuming offline drives as inconsistent, // to be safe and fallback to original // distribution order. inconsistent++ continue } if !meta.IsValid() { inconsistent++ continue } if len(fi.Data) != len(meta.Data) { inconsistent++ continue } // check if erasure distribution order matches the index // position if this is not correct we discard the disk // and move to collect others if distribution[i] != meta.Erasure.Index { inconsistent++ // keep track of inconsistent entries continue } shuffledDisks[meta.Erasure.Index-1] = disks[i] shuffledPartsMetadata[meta.Erasure.Index-1] = metaArr[i] } // Inconsistent meta info is with in the limit of // expected quorum, proceed with EcIndex based // disk order. if inconsistent < fi.Erasure.ParityBlocks { return shuffledDisks, shuffledPartsMetadata } // fall back to original distribution based order. return shuffleDisksAndPartsMetadata(disks, metaArr, fi) } // Return shuffled partsMetadata depending on fi.Distribution. // additional validation is attempted and invalid metadata is // automatically skipped only when fi.ModTime is non-zero // indicating that this is called during read-phase func shuffleDisksAndPartsMetadata(disks []StorageAPI, partsMetadata []FileInfo, fi FileInfo) (shuffledDisks []StorageAPI, shuffledPartsMetadata []FileInfo) { shuffledDisks = make([]StorageAPI, len(disks)) shuffledPartsMetadata = make([]FileInfo, len(partsMetadata)) distribution := fi.Erasure.Distribution init := fi.ModTime.IsZero() // Shuffle slice xl metadata for expected distribution. for index := range partsMetadata { if disks[index] == nil { continue } if !init && !partsMetadata[index].IsValid() { // Check for parts metadata validity for only // fi.ModTime is not empty - ModTime is always set, // if object was ever written previously. continue } if !init && len(fi.Data) != len(partsMetadata[index].Data) { // Check for length of data parts only when // fi.ModTime is not empty - ModTime is always set, // if object was ever written previously. continue } blockIndex := distribution[index] shuffledPartsMetadata[blockIndex-1] = partsMetadata[index] shuffledDisks[blockIndex-1] = disks[index] } return shuffledDisks, shuffledPartsMetadata } // Return shuffled partsMetadata depending on distribution. func shufflePartsMetadata(partsMetadata []FileInfo, distribution []int) (shuffledPartsMetadata []FileInfo) { if distribution == nil { return partsMetadata } shuffledPartsMetadata = make([]FileInfo, len(partsMetadata)) // Shuffle slice xl metadata for expected distribution. for index := range partsMetadata { blockIndex := distribution[index] shuffledPartsMetadata[blockIndex-1] = partsMetadata[index] } return shuffledPartsMetadata } // shuffleDisks - shuffle input disks slice depending on the // erasure distribution. Return shuffled slice of disks with // their expected distribution. func shuffleDisks(disks []StorageAPI, distribution []int) (shuffledDisks []StorageAPI) { if distribution == nil { return disks } shuffledDisks = make([]StorageAPI, len(disks)) // Shuffle disks for expected distribution. for index := range disks { blockIndex := distribution[index] shuffledDisks[blockIndex-1] = disks[index] } return shuffledDisks } // evalDisks - returns a new slice of disks where nil is set if // the corresponding error in errs slice is not nil func evalDisks(disks []StorageAPI, errs []error) []StorageAPI { if len(errs) != len(disks) { logger.LogIf(GlobalContext, errors.New("unexpected disks/errors slice length")) return nil } newDisks := make([]StorageAPI, len(disks)) for index := range errs { if errs[index] == nil { newDisks[index] = disks[index] } else { newDisks[index] = nil } } return newDisks } // Errors specifically generated by calculatePartSizeFromIdx function. var ( errPartSizeZero = errors.New("Part size cannot be zero") errPartSizeIndex = errors.New("Part index cannot be smaller than 1") ) // calculatePartSizeFromIdx calculates the part size according to input index. // returns error if totalSize is -1, partSize is 0, partIndex is 0. func calculatePartSizeFromIdx(ctx context.Context, totalSize int64, partSize int64, partIndex int) (currPartSize int64, err error) { if totalSize < -1 { logger.LogIf(ctx, errInvalidArgument) return 0, errInvalidArgument } if partSize == 0 { logger.LogIf(ctx, errPartSizeZero) return 0, errPartSizeZero } if partIndex < 1 { logger.LogIf(ctx, errPartSizeIndex) return 0, errPartSizeIndex } if totalSize == -1 { return -1, nil } if totalSize > 0 { // Compute the total count of parts partsCount := totalSize/partSize + 1 // Return the part's size switch { case int64(partIndex) < partsCount: currPartSize = partSize case int64(partIndex) == partsCount: // Size of last part currPartSize = totalSize % partSize default: currPartSize = 0 } } return currPartSize, nil }