// 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 ( "bytes" "context" "time" "github.com/minio/madmin-go/v2" ) // commonTime returns a maximally occurring time from a list of time. func commonTimeAndOccurence(times []time.Time, group time.Duration) (maxTime time.Time, maxima int) { timeOccurenceMap := make(map[int64]int, len(times)) groupNano := group.Nanoseconds() // Ignore the uuid sentinel and count the rest. for _, t := range times { if t.Equal(timeSentinel) || t.IsZero() { continue } nano := t.UnixNano() if group > 0 { for k := range timeOccurenceMap { if k == nano { // We add to ourself later continue } diff := k - nano if diff < 0 { diff = -diff } // We are within the limit if diff < groupNano { timeOccurenceMap[k]++ } } } // Add ourself... timeOccurenceMap[nano]++ } maxima = 0 // Counter for remembering max occurrence of elements. latest := int64(0) // Find the common cardinality from previously collected // occurrences of elements. for nano, count := range timeOccurenceMap { if count < maxima { continue } // We are at or above maxima if count > maxima || nano > latest { maxima = count latest = nano } } // Return the collected common max time, with maxima return time.Unix(0, latest).UTC(), maxima } // commonTime returns a maximally occurring time from a list of time if it // occurs >= quorum, else return timeSentinel func commonTime(modTimes []time.Time, quorum int) time.Time { if modTime, count := commonTimeAndOccurence(modTimes, 0); count >= quorum { return modTime } return timeSentinel } // Beginning of unix time is treated as sentinel value here. var ( timeSentinel = time.Unix(0, 0).UTC() timeSentinel1970 = time.Unix(0, 1).UTC() // 1970 used for special cases when xlmeta.version == 0 ) // Boot modTimes up to disk count, setting the value to time sentinel. func bootModtimes(diskCount int) []time.Time { modTimes := make([]time.Time, diskCount) // Boots up all the modtimes. for i := range modTimes { modTimes[i] = timeSentinel } return modTimes } // Extracts list of times from FileInfo slice and returns, skips // slice elements which have errors. func listObjectModtimes(partsMetadata []FileInfo, errs []error) (modTimes []time.Time) { modTimes = bootModtimes(len(partsMetadata)) for index, metadata := range partsMetadata { if errs[index] != nil { continue } // Once the file is found, save the uuid saved on disk. modTimes[index] = metadata.ModTime } return modTimes } func filterOnlineDisksInplace(fi FileInfo, partsMetadata []FileInfo, onlineDisks []StorageAPI) { for i, meta := range partsMetadata { if fi.XLV1 == meta.XLV1 { continue } onlineDisks[i] = nil } } // Extracts list of disk mtimes from FileInfo slice and returns, skips // slice elements that have errors. func listObjectDiskMtimes(partsMetadata []FileInfo) (diskMTimes []time.Time) { diskMTimes = bootModtimes(len(partsMetadata)) for index, metadata := range partsMetadata { if metadata.IsValid() { // Once the file is found, save the disk mtime saved on disk. diskMTimes[index] = metadata.DiskMTime } } return diskMTimes } // Notes: // There are 5 possible states a disk could be in, // 1. __online__ - has the latest copy of xl.meta - returned by listOnlineDisks // // 2. __offline__ - err == errDiskNotFound // // 3. __availableWithParts__ - has the latest copy of xl.meta and has all // parts with checksums matching; returned by disksWithAllParts // // 4. __outdated__ - returned by outDatedDisk, provided []StorageAPI // returned by diskWithAllParts is passed for latestDisks. // - has an old copy of xl.meta // - doesn't have xl.meta (errFileNotFound) // - has the latest xl.meta but one or more parts are corrupt // // 5. __missingParts__ - has the latest copy of xl.meta but has some parts // missing. This is identified separately since this may need manual // inspection to understand the root cause. E.g, this could be due to // backend filesystem corruption. // listOnlineDisks - returns // - a slice of disks where disk having 'older' xl.meta (or nothing) // are set to nil. // - latest (in time) of the maximally occurring modTime(s), which has at least quorum occurrences. func listOnlineDisks(disks []StorageAPI, partsMetadata []FileInfo, errs []error, quorum int) (onlineDisks []StorageAPI, modTime time.Time) { onlineDisks = make([]StorageAPI, len(disks)) // List all the file commit ids from parts metadata. modTimes := listObjectModtimes(partsMetadata, errs) // Reduce list of UUIDs to a single common value. modTime = commonTime(modTimes, quorum) // Create a new online disks slice, which have common uuid. for index, t := range modTimes { if partsMetadata[index].IsValid() && t.Equal(modTime) { onlineDisks[index] = disks[index] } else { onlineDisks[index] = nil } } return onlineDisks, modTime } // disksWithAllParts - This function needs to be called with // []StorageAPI returned by listOnlineDisks. Returns, // // - disks which have all parts specified in the latest xl.meta. // // - slice of errors about the state of data files on disk - can have // a not-found error or a hash-mismatch error. func disksWithAllParts(ctx context.Context, onlineDisks []StorageAPI, partsMetadata []FileInfo, errs []error, latestMeta FileInfo, bucket, object string, scanMode madmin.HealScanMode) ([]StorageAPI, []error, time.Time, ) { var diskMTime time.Time var shardFix bool if !latestMeta.DataShardFixed() { diskMTime = pickValidDiskTimeWithQuorum(partsMetadata, latestMeta.Erasure.DataBlocks) } availableDisks := make([]StorageAPI, len(onlineDisks)) dataErrs := make([]error, len(onlineDisks)) inconsistent := 0 for i, meta := range partsMetadata { if !meta.IsValid() { // Since for majority of the cases erasure.Index matches with erasure.Distribution we can // consider the offline disks as consistent. continue } if !meta.Deleted { if len(meta.Erasure.Distribution) != len(onlineDisks) { // Erasure distribution seems to have lesser // number of items than number of online disks. inconsistent++ continue } if meta.Erasure.Distribution[i] != meta.Erasure.Index { // Mismatch indexes with distribution order inconsistent++ } } } erasureDistributionReliable := true if inconsistent > len(partsMetadata)/2 { // If there are too many inconsistent files, then we can't trust erasure.Distribution (most likely // because of bugs found in CopyObject/PutObjectTags) https://github.com/minio/minio/pull/10772 erasureDistributionReliable = false } for i, onlineDisk := range onlineDisks { if errs[i] != nil { dataErrs[i] = errs[i] continue } if onlineDisk == OfflineDisk { dataErrs[i] = errDiskNotFound continue } meta := partsMetadata[i] if !meta.ModTime.Equal(latestMeta.ModTime) || meta.DataDir != latestMeta.DataDir { dataErrs[i] = errFileCorrupt partsMetadata[i] = FileInfo{} continue } if erasureDistributionReliable { if !meta.IsValid() { partsMetadata[i] = FileInfo{} dataErrs[i] = errFileCorrupt continue } if !meta.Deleted { if len(meta.Erasure.Distribution) != len(onlineDisks) { // Erasure distribution is not the same as onlineDisks // attempt a fix if possible, assuming other entries // might have the right erasure distribution. partsMetadata[i] = FileInfo{} dataErrs[i] = errFileCorrupt continue } // Since erasure.Distribution is trustable we can fix the mismatching erasure.Index if meta.Erasure.Distribution[i] != meta.Erasure.Index { partsMetadata[i] = FileInfo{} dataErrs[i] = errFileCorrupt continue } } } if !diskMTime.Equal(timeSentinel) && !diskMTime.IsZero() { if !partsMetadata[i].AcceptableDelta(diskMTime, shardDiskTimeDelta) { // not with in acceptable delta, skip. // If disk mTime mismatches it is considered outdated // https://github.com/minio/minio/pull/13803 // // This check only is active if we could find maximally // occurring disk mtimes that are somewhat same across // the quorum. Allowing to skip those shards which we // might think are wrong. shardFix = true partsMetadata[i] = FileInfo{} dataErrs[i] = errFileCorrupt continue } } // Always check data, if we got it. if (len(meta.Data) > 0 || meta.Size == 0) && len(meta.Parts) > 0 { checksumInfo := meta.Erasure.GetChecksumInfo(meta.Parts[0].Number) dataErrs[i] = bitrotVerify(bytes.NewReader(meta.Data), int64(len(meta.Data)), meta.Erasure.ShardFileSize(meta.Size), checksumInfo.Algorithm, checksumInfo.Hash, meta.Erasure.ShardSize()) if dataErrs[i] == nil { // All parts verified, mark it as all data available. availableDisks[i] = onlineDisk } else { // upon errors just make that disk's fileinfo invalid partsMetadata[i] = FileInfo{} } continue } meta.DataDir = latestMeta.DataDir switch scanMode { case madmin.HealDeepScan: // disk has a valid xl.meta but may not have all the // parts. This is considered an outdated disk, since // it needs healing too. if !meta.Deleted && !meta.IsRemote() { dataErrs[i] = onlineDisk.VerifyFile(ctx, bucket, object, meta) } case madmin.HealNormalScan: if !meta.Deleted && !meta.IsRemote() { dataErrs[i] = onlineDisk.CheckParts(ctx, bucket, object, meta) } } if dataErrs[i] == nil { // All parts verified, mark it as all data available. availableDisks[i] = onlineDisk } else { // upon errors just make that disk's fileinfo invalid partsMetadata[i] = FileInfo{} } } if shardFix { // Only when shard is fixed return an appropriate disk mtime value. return availableDisks, dataErrs, diskMTime } // else return timeSentinel for disk mtime return availableDisks, dataErrs, timeSentinel }