minio/cmd/fs-v1.go

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// 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 <http://www.gnu.org/licenses/>.
package cmd
import (
"bytes"
"context"
"fmt"
"io"
"net/http"
"os"
"os/user"
"path"
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"sort"
"strings"
"sync"
"time"
jsoniter "github.com/json-iterator/go"
"github.com/minio/madmin-go"
"github.com/minio/minio-go/v7/pkg/s3utils"
"github.com/minio/minio-go/v7/pkg/tags"
"github.com/minio/minio/internal/color"
"github.com/minio/minio/internal/config"
xhttp "github.com/minio/minio/internal/http"
xioutil "github.com/minio/minio/internal/ioutil"
"github.com/minio/minio/internal/lock"
"github.com/minio/minio/internal/logger"
"github.com/minio/minio/internal/mountinfo"
"github.com/minio/pkg/bucket/policy"
"github.com/minio/pkg/mimedb"
)
// Default etag is used for pre-existing objects.
var defaultEtag = "00000000000000000000000000000000-1"
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// FSObjects - Implements fs object layer.
type FSObjects struct {
GatewayUnsupported
// Path to be exported over S3 API.
fsPath string
// meta json filename, varies by fs / cache backend.
metaJSONFile string
// Unique value to be used for all
// temporary transactions.
fsUUID string
// This value shouldn't be touched, once initialized.
fsFormatRlk *lock.RLockedFile // Is a read lock on `format.json`.
// FS rw pool.
rwPool *fsIOPool
// ListObjects pool management.
listPool *TreeWalkPool
diskMount bool
appendFileMap map[string]*fsAppendFile
appendFileMapMu sync.Mutex
// To manage the appendRoutine go-routines
nsMutex *nsLockMap
}
// Represents the background append file.
type fsAppendFile struct {
sync.Mutex
parts []PartInfo // List of parts appended.
filePath string // Absolute path of the file in the temp location.
}
// Initializes meta volume on all the fs path.
func initMetaVolumeFS(fsPath, fsUUID string) error {
// This happens for the first time, but keep this here since this
// is the only place where it can be made less expensive
// optimizing all other calls. Create minio meta volume,
// if it doesn't exist yet.
metaBucketPath := pathJoin(fsPath, minioMetaBucket)
if err := os.MkdirAll(metaBucketPath, 0o777); err != nil {
return err
}
metaTmpPath := pathJoin(fsPath, minioMetaTmpBucket, fsUUID)
if err := os.MkdirAll(metaTmpPath, 0o777); err != nil {
return err
}
if err := os.MkdirAll(pathJoin(metaTmpPath, bgAppendsDirName), 0o777); err != nil {
return err
}
if err := os.MkdirAll(pathJoin(fsPath, dataUsageBucket), 0o777); err != nil {
return err
}
metaMultipartPath := pathJoin(fsPath, minioMetaMultipartBucket)
return os.MkdirAll(metaMultipartPath, 0o777)
}
// NewFSObjectLayer - initialize new fs object layer.
func NewFSObjectLayer(ctx context.Context, fsPath string) (ObjectLayer, error) {
if fsPath == "" {
return nil, errInvalidArgument
}
var err error
if fsPath, err = getValidPath(fsPath); err != nil {
if err == errMinDiskSize {
return nil, config.ErrUnableToWriteInBackend(err).Hint(err.Error())
}
// Show a descriptive error with a hint about how to fix it.
var username string
if u, err := user.Current(); err == nil {
username = u.Username
} else {
username = "<your-username>"
}
hint := fmt.Sprintf("Use 'sudo chown -R %s %s && sudo chmod u+rxw %s' to provide sufficient permissions.", username, fsPath, fsPath)
return nil, config.ErrUnableToWriteInBackend(err).Hint(hint)
}
fsFormatPath := pathJoin(fsPath, minioMetaBucket, formatConfigFile)
if _, err = fsStat(ctx, fsFormatPath); err != nil && os.IsNotExist(err) {
return nil, errFreshDisk
}
// Assign a new UUID for FS minio mode. Each server instance
// gets its own UUID for temporary file transaction.
fsUUID := mustGetUUID()
// Initialize meta volume, if volume already exists ignores it.
if err = initMetaVolumeFS(fsPath, fsUUID); err != nil {
return nil, err
}
// Initialize `format.json`, this function also returns.
rlk, err := initFormatFS(ctx, fsPath)
if err != nil {
return nil, err
}
// Initialize fs objects.
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fs := &FSObjects{
fsPath: fsPath,
metaJSONFile: fsMetaJSONFile,
fsUUID: fsUUID,
rwPool: &fsIOPool{
readersMap: make(map[string]*lock.RLockedFile),
},
nsMutex: newNSLock(false),
listPool: NewTreeWalkPool(globalLookupTimeout),
appendFileMap: make(map[string]*fsAppendFile),
diskMount: mountinfo.IsLikelyMountPoint(fsPath),
}
// Once the filesystem has initialized hold the read lock for
// the life time of the server. This is done to ensure that under
// shared backend mode for FS, remote servers do not migrate
// or cause changes on backend format.
fs.fsFormatRlk = rlk
go fs.cleanupStaleUploads(ctx)
go intDataUpdateTracker.start(ctx, fsPath)
// Return successfully initialized object layer.
return fs, nil
}
// NewNSLock - initialize a new namespace RWLocker instance.
func (fs *FSObjects) NewNSLock(bucket string, objects ...string) RWLocker {
// lockers are explicitly 'nil' for FS mode since there are only local lockers
return fs.nsMutex.NewNSLock(nil, bucket, objects...)
}
// SetDriveCounts no-op
func (fs *FSObjects) SetDriveCounts() []int {
return nil
}
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// Shutdown - should be called when process shuts down.
func (fs *FSObjects) Shutdown(ctx context.Context) error {
fs.fsFormatRlk.Close()
// Cleanup and delete tmp uuid.
return fsRemoveAll(ctx, pathJoin(fs.fsPath, minioMetaTmpBucket, fs.fsUUID))
}
// BackendInfo - returns backend information
func (fs *FSObjects) BackendInfo() madmin.BackendInfo {
return madmin.BackendInfo{
Type: madmin.FS,
StandardSCData: []int{1},
StandardSCParity: 0,
RRSCData: []int{1},
RRSCParity: 0,
}
}
// LocalStorageInfo - returns underlying storage statistics.
func (fs *FSObjects) LocalStorageInfo(ctx context.Context) (StorageInfo, []error) {
return fs.StorageInfo(ctx)
}
// StorageInfo - returns underlying storage statistics.
func (fs *FSObjects) StorageInfo(ctx context.Context) (StorageInfo, []error) {
di, err := getDiskInfo(fs.fsPath)
if err != nil {
return StorageInfo{}, []error{err}
}
storageInfo := StorageInfo{
Disks: []madmin.Disk{
{
State: madmin.DriveStateOk,
TotalSpace: di.Total,
UsedSpace: di.Used,
AvailableSpace: di.Free,
DrivePath: fs.fsPath,
},
},
}
storageInfo.Backend = fs.BackendInfo()
return storageInfo, nil
}
// NSScanner returns data usage stats of the current FS deployment
func (fs *FSObjects) NSScanner(ctx context.Context, bf *bloomFilter, updates chan<- DataUsageInfo, wantCycle uint32, _ madmin.HealScanMode) error {
defer close(updates)
// Load bucket totals
var totalCache dataUsageCache
err := totalCache.load(ctx, fs, dataUsageCacheName)
if err != nil {
return err
}
totalCache.Info.Name = dataUsageRoot
buckets, err := fs.ListBuckets(ctx, BucketOptions{})
if err != nil {
return err
}
if len(buckets) == 0 {
totalCache.keepBuckets(buckets)
updates <- totalCache.dui(dataUsageRoot, buckets)
return nil
}
for i, b := range buckets {
if isReservedOrInvalidBucket(b.Name, false) {
// Delete bucket...
buckets = append(buckets[:i], buckets[i+1:]...)
}
}
totalCache.Info.BloomFilter = bf.bytes()
// Clear totals.
var root dataUsageEntry
if r := totalCache.root(); r != nil {
root.Children = r.Children
}
totalCache.replace(dataUsageRoot, "", root)
// Delete all buckets that does not exist anymore.
totalCache.keepBuckets(buckets)
for _, b := range buckets {
// Load bucket cache.
var bCache dataUsageCache
err := bCache.load(ctx, fs, path.Join(b.Name, dataUsageCacheName))
if err != nil {
return err
}
if bCache.Info.Name == "" {
bCache.Info.Name = b.Name
}
bCache.Info.BloomFilter = totalCache.Info.BloomFilter
bCache.Info.NextCycle = wantCycle
upds := make(chan dataUsageEntry, 1)
var wg sync.WaitGroup
wg.Add(1)
go func() {
defer wg.Done()
for update := range upds {
totalCache.replace(b.Name, dataUsageRoot, update)
if intDataUpdateTracker.debug {
logger.Info(color.Green("NSScanner:")+" Got update: %v", len(totalCache.Cache))
}
cloned := totalCache.clone()
updates <- cloned.dui(dataUsageRoot, buckets)
}
}()
bCache.Info.updates = upds
cache, err := fs.scanBucket(ctx, b.Name, bCache)
select {
case <-ctx.Done():
return ctx.Err()
default:
}
logger.LogIf(ctx, err)
cache.Info.BloomFilter = nil
wg.Wait()
if cache.root() == nil {
if intDataUpdateTracker.debug {
logger.Info(color.Green("NSScanner:") + " No root added. Adding empty")
}
cache.replace(cache.Info.Name, dataUsageRoot, dataUsageEntry{})
}
if cache.Info.LastUpdate.After(bCache.Info.LastUpdate) {
if intDataUpdateTracker.debug {
logger.Info(color.Green("NSScanner:")+" Saving bucket %q cache with %d entries", b.Name, len(cache.Cache))
}
logger.LogIf(ctx, cache.save(ctx, fs, path.Join(b.Name, dataUsageCacheName)))
}
// Merge, save and send update.
// We do it even if unchanged.
cl := cache.clone()
entry := cl.flatten(*cl.root())
totalCache.replace(cl.Info.Name, dataUsageRoot, entry)
if intDataUpdateTracker.debug {
logger.Info(color.Green("NSScanner:")+" Saving totals cache with %d entries", len(totalCache.Cache))
}
totalCache.Info.LastUpdate = time.Now()
logger.LogIf(ctx, totalCache.save(ctx, fs, dataUsageCacheName))
cloned := totalCache.clone()
updates <- cloned.dui(dataUsageRoot, buckets)
}
return nil
}
// scanBucket scans a single bucket in FS mode.
// The updated cache for the bucket is returned.
// A partially updated bucket may be returned.
func (fs *FSObjects) scanBucket(ctx context.Context, bucket string, cache dataUsageCache) (dataUsageCache, error) {
defer close(cache.Info.updates)
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defer globalScannerMetrics.log(scannerMetricScanBucketDisk, fs.fsPath, bucket)()
// Get bucket policy
// Check if the current bucket has a configured lifecycle policy
lc, err := globalLifecycleSys.Get(bucket)
if err == nil && lc.HasActiveRules("", true) {
if intDataUpdateTracker.debug {
logger.Info(color.Green("scanBucket:") + " lifecycle: Active rules found")
}
cache.Info.lifeCycle = lc
}
// Load bucket info.
cache, err = scanDataFolder(ctx, -1, -1, fs.fsPath, cache, func(item scannerItem) (sizeSummary, error) {
bucket, object := item.bucket, item.objectPath()
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stopFn := globalScannerMetrics.log(scannerMetricScanObject, fs.fsPath, PathJoin(item.bucket, item.objectPath()))
defer stopFn()
var fsMetaBytes []byte
done := globalScannerMetrics.timeSize(scannerMetricReadMetadata)
defer func() {
if done != nil {
done(len(fsMetaBytes))
}
}()
fsMetaBytes, err := xioutil.ReadFile(pathJoin(fs.fsPath, minioMetaBucket, bucketMetaPrefix, bucket, object, fs.metaJSONFile))
if err != nil && !osIsNotExist(err) {
if intDataUpdateTracker.debug {
logger.Info(color.Green("scanBucket:")+" object return unexpected error: %v/%v: %w", item.bucket, item.objectPath(), err)
}
return sizeSummary{}, errSkipFile
}
fsMeta := newFSMetaV1()
metaOk := false
if len(fsMetaBytes) > 0 {
json := jsoniter.ConfigCompatibleWithStandardLibrary
if err = json.Unmarshal(fsMetaBytes, &fsMeta); err == nil {
metaOk = true
}
}
if !metaOk {
fsMeta = fs.defaultFsJSON(object)
}
// Stat the file.
fi, fiErr := os.Stat(item.Path)
if fiErr != nil {
if intDataUpdateTracker.debug {
logger.Info(color.Green("scanBucket:")+" object path missing: %v: %w", item.Path, fiErr)
}
return sizeSummary{}, errSkipFile
}
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done(len(fsMetaBytes))
done = nil
// FS has no "all versions". Increment the counter, though
globalScannerMetrics.incNoTime(scannerMetricApplyAll)
oi := fsMeta.ToObjectInfo(bucket, object, fi)
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doneVer := globalScannerMetrics.time(scannerMetricApplyVersion)
sz := item.applyActions(ctx, fs, oi, &sizeSummary{})
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doneVer()
if sz >= 0 {
feat: add dynamic usage cache (#12229) A cache structure will be kept with a tree of usages. The cache is a tree structure where each keeps track of its children. An uncompacted branch contains a count of the files only directly at the branch level, and contains link to children branches or leaves. The leaves are "compacted" based on a number of properties. A compacted leaf contains the totals of all files beneath it. A leaf is only scanned once every dataUsageUpdateDirCycles, rarer if the bloom filter for the path is clean and no lifecycles are applied. Skipped leaves have their totals transferred from the previous cycle. A clean leaf will be included once every healFolderIncludeProb for partial heal scans. When selected there is a one in healObjectSelectProb that any object will be chosen for heal scan. Compaction happens when either: - The folder (and subfolders) contains less than dataScannerCompactLeastObject objects. - The folder itself contains more than dataScannerCompactAtFolders folders. - The folder only contains objects and no subfolders. - A bucket root will never be compacted. Furthermore, if a has more than dataScannerCompactAtChildren recursive children (uncompacted folders) the tree will be recursively scanned and the branches with the least number of objects will be compacted until the limit is reached. This ensures that any branch will never contain an unreasonable amount of other branches, and also that small branches with few objects don't take up unreasonable amounts of space. Whenever a branch is scanned, it is assumed that it will be un-compacted before it hits any of the above limits. This will make the branch rebalance itself when scanned if the distribution of objects has changed. TLDR; With current values: No bucket will ever have more than 10000 child nodes recursively. No single folder will have more than 2500 child nodes by itself. All subfolders are compacted if they have less than 500 objects in them recursively. We accumulate the (non-deletemarker) version count for paths as well, since we are changing the structure anyway.
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return sizeSummary{totalSize: sz, versions: 1}, nil
}
feat: add dynamic usage cache (#12229) A cache structure will be kept with a tree of usages. The cache is a tree structure where each keeps track of its children. An uncompacted branch contains a count of the files only directly at the branch level, and contains link to children branches or leaves. The leaves are "compacted" based on a number of properties. A compacted leaf contains the totals of all files beneath it. A leaf is only scanned once every dataUsageUpdateDirCycles, rarer if the bloom filter for the path is clean and no lifecycles are applied. Skipped leaves have their totals transferred from the previous cycle. A clean leaf will be included once every healFolderIncludeProb for partial heal scans. When selected there is a one in healObjectSelectProb that any object will be chosen for heal scan. Compaction happens when either: - The folder (and subfolders) contains less than dataScannerCompactLeastObject objects. - The folder itself contains more than dataScannerCompactAtFolders folders. - The folder only contains objects and no subfolders. - A bucket root will never be compacted. Furthermore, if a has more than dataScannerCompactAtChildren recursive children (uncompacted folders) the tree will be recursively scanned and the branches with the least number of objects will be compacted until the limit is reached. This ensures that any branch will never contain an unreasonable amount of other branches, and also that small branches with few objects don't take up unreasonable amounts of space. Whenever a branch is scanned, it is assumed that it will be un-compacted before it hits any of the above limits. This will make the branch rebalance itself when scanned if the distribution of objects has changed. TLDR; With current values: No bucket will ever have more than 10000 child nodes recursively. No single folder will have more than 2500 child nodes by itself. All subfolders are compacted if they have less than 500 objects in them recursively. We accumulate the (non-deletemarker) version count for paths as well, since we are changing the structure anyway.
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return sizeSummary{totalSize: fi.Size(), versions: 1}, nil
}, 0)
return cache, err
}
// Bucket operations
// getBucketDir - will convert incoming bucket names to
// corresponding valid bucket names on the backend in a platform
// compatible way for all operating systems.
func (fs *FSObjects) getBucketDir(ctx context.Context, bucket string) (string, error) {
if bucket == "" || bucket == "." || bucket == ".." {
return "", errVolumeNotFound
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}
bucketDir := pathJoin(fs.fsPath, bucket)
return bucketDir, nil
}
func (fs *FSObjects) statBucketDir(ctx context.Context, bucket string) (os.FileInfo, error) {
bucketDir, err := fs.getBucketDir(ctx, bucket)
if err != nil {
return nil, err
}
st, err := fsStatVolume(ctx, bucketDir)
if err != nil {
return nil, err
}
return st, nil
}
// MakeBucketWithLocation - create a new bucket, returns if it already exists.
func (fs *FSObjects) MakeBucketWithLocation(ctx context.Context, bucket string, opts MakeBucketOptions) error {
if opts.LockEnabled || opts.VersioningEnabled {
return NotImplemented{}
}
// Verify if bucket is valid.
if s3utils.CheckValidBucketNameStrict(bucket) != nil {
return BucketNameInvalid{Bucket: bucket}
}
defer NSUpdated(bucket, slashSeparator)
bucketDir, err := fs.getBucketDir(ctx, bucket)
if err != nil {
return toObjectErr(err, bucket)
}
if err = fsMkdir(ctx, bucketDir); err != nil {
return toObjectErr(err, bucket)
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}
meta := newBucketMetadata(bucket)
meta.SetCreatedAt(opts.CreatedAt)
if err := meta.Save(ctx, fs); err != nil {
return toObjectErr(err, bucket)
}
globalBucketMetadataSys.Set(bucket, meta)
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return nil
}
// GetBucketPolicy - only needed for FS in NAS mode
func (fs *FSObjects) GetBucketPolicy(ctx context.Context, bucket string) (*policy.Policy, error) {
meta, err := loadBucketMetadata(ctx, fs, bucket)
if err != nil {
return nil, BucketPolicyNotFound{Bucket: bucket}
}
if meta.policyConfig == nil {
return nil, BucketPolicyNotFound{Bucket: bucket}
}
return meta.policyConfig, nil
}
// SetBucketPolicy - only needed for FS in NAS mode
func (fs *FSObjects) SetBucketPolicy(ctx context.Context, bucket string, p *policy.Policy) error {
meta, err := loadBucketMetadata(ctx, fs, bucket)
if err != nil {
return err
}
json := jsoniter.ConfigCompatibleWithStandardLibrary
configData, err := json.Marshal(p)
if err != nil {
return err
}
meta.PolicyConfigJSON = configData
return meta.Save(ctx, fs)
}
// DeleteBucketPolicy - only needed for FS in NAS mode
func (fs *FSObjects) DeleteBucketPolicy(ctx context.Context, bucket string) error {
meta, err := loadBucketMetadata(ctx, fs, bucket)
if err != nil {
return err
}
meta.PolicyConfigJSON = nil
return meta.Save(ctx, fs)
}
// GetBucketInfo - fetch bucket metadata info.
func (fs *FSObjects) GetBucketInfo(ctx context.Context, bucket string, opts BucketOptions) (bi BucketInfo, e error) {
st, err := fs.statBucketDir(ctx, bucket)
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if err != nil {
return bi, toObjectErr(err, bucket)
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}
createdTime := st.ModTime()
meta, err := globalBucketMetadataSys.Get(bucket)
if err == nil {
createdTime = meta.Created
}
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return BucketInfo{
Name: bucket,
Created: createdTime,
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}, nil
}
// ListBuckets - list all s3 compatible buckets (directories) at fsPath.
func (fs *FSObjects) ListBuckets(ctx context.Context, opts BucketOptions) ([]BucketInfo, error) {
if err := checkPathLength(fs.fsPath); err != nil {
logger.LogIf(ctx, err)
return nil, err
}
entries, err := readDirWithOpts(fs.fsPath, readDirOpts{count: -1, followDirSymlink: true})
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if err != nil {
logger.LogIf(ctx, errDiskNotFound)
return nil, toObjectErr(errDiskNotFound)
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}
bucketInfos := make([]BucketInfo, 0, len(entries))
for _, entry := range entries {
// Ignore all reserved bucket names and invalid bucket names.
if isReservedOrInvalidBucket(entry, false) {
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continue
}
var fi os.FileInfo
fi, err = fsStatVolume(ctx, pathJoin(fs.fsPath, entry))
// There seems like no practical reason to check for errors
// at this point, if there are indeed errors we can simply
// just ignore such buckets and list only those which
// return proper Stat information instead.
if err != nil {
// Ignore any errors returned here.
continue
}
created := fi.ModTime()
meta, err := globalBucketMetadataSys.Get(fi.Name())
if err == nil {
created = meta.Created
}
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bucketInfos = append(bucketInfos, BucketInfo{
Name: fi.Name(),
Created: created,
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})
}
// Sort bucket infos by bucket name.
sort.Slice(bucketInfos, func(i, j int) bool {
return bucketInfos[i].Name < bucketInfos[j].Name
})
// Succes.
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return bucketInfos, nil
}
// DeleteBucket - delete a bucket and all the metadata associated
// with the bucket including pending multipart, object metadata.
func (fs *FSObjects) DeleteBucket(ctx context.Context, bucket string, opts DeleteBucketOptions) error {
defer NSUpdated(bucket, slashSeparator)
bucketDir, err := fs.getBucketDir(ctx, bucket)
if err != nil {
return toObjectErr(err, bucket)
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}
if !opts.Force {
// Attempt to delete regular bucket.
if err = fsRemoveDir(ctx, bucketDir); err != nil {
return toObjectErr(err, bucket)
}
} else {
tmpBucketPath := pathJoin(fs.fsPath, minioMetaTmpBucket, bucket+"."+mustGetUUID())
if err = Rename(bucketDir, tmpBucketPath); err != nil {
return toObjectErr(err, bucket)
}
go func() {
fsRemoveAll(ctx, tmpBucketPath) // ignore returned error if any.
}()
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}
// Cleanup all the bucket metadata.
minioMetadataBucketDir := pathJoin(fs.fsPath, minioMetaBucket, bucketMetaPrefix, bucket)
if err = fsRemoveAll(ctx, minioMetadataBucketDir); err != nil {
return toObjectErr(err, bucket)
}
// Delete all bucket metadata.
deleteBucketMetadata(ctx, fs, bucket)
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return nil
}
// Object Operations
// CopyObject - copy object source object to destination object.
// if source object and destination object are same we only
// update metadata.
func (fs *FSObjects) CopyObject(ctx context.Context, srcBucket, srcObject, dstBucket, dstObject string, srcInfo ObjectInfo, srcOpts, dstOpts ObjectOptions) (oi ObjectInfo, err error) {
if srcOpts.VersionID != "" && srcOpts.VersionID != nullVersionID {
return oi, VersionNotFound{
Bucket: srcBucket,
Object: srcObject,
VersionID: srcOpts.VersionID,
}
}
cpSrcDstSame := isStringEqual(pathJoin(srcBucket, srcObject), pathJoin(dstBucket, dstObject))
defer NSUpdated(dstBucket, dstObject)
if !cpSrcDstSame {
objectDWLock := fs.NewNSLock(dstBucket, dstObject)
lkctx, err := objectDWLock.GetLock(ctx, globalOperationTimeout)
if err != nil {
return oi, err
}
ctx = lkctx.Context()
defer objectDWLock.Unlock(lkctx.Cancel)
}
if _, err := fs.statBucketDir(ctx, srcBucket); err != nil {
return oi, toObjectErr(err, srcBucket)
}
if cpSrcDstSame && srcInfo.metadataOnly {
fsMetaPath := pathJoin(fs.fsPath, minioMetaBucket, bucketMetaPrefix, srcBucket, srcObject, fs.metaJSONFile)
wlk, err := fs.rwPool.Write(fsMetaPath)
if err != nil {
wlk, err = fs.rwPool.Create(fsMetaPath)
if err != nil {
logger.LogIf(ctx, err)
return oi, toObjectErr(err, srcBucket, srcObject)
}
}
// This close will allow for locks to be synchronized on `fs.json`.
defer wlk.Close()
// Save objects' metadata in `fs.json`.
fsMeta := newFSMetaV1()
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if _, err = fsMeta.ReadFrom(ctx, wlk); err != nil {
// For any error to read fsMeta, set default ETag and proceed.
fsMeta = fs.defaultFsJSON(srcObject)
}
fsMeta.Meta = cloneMSS(srcInfo.UserDefined)
fsMeta.Meta["etag"] = srcInfo.ETag
if _, err = fsMeta.WriteTo(wlk); err != nil {
return oi, toObjectErr(err, srcBucket, srcObject)
}
fsObjectPath := pathJoin(fs.fsPath, srcBucket, srcObject)
// Update object modtime
err = fsTouch(ctx, fsObjectPath)
if err != nil {
return oi, toObjectErr(err, srcBucket, srcObject)
}
// Stat the file to get object info
fi, err := fsStatFile(ctx, fsObjectPath)
if err != nil {
return oi, toObjectErr(err, srcBucket, srcObject)
}
// Return the new object info.
return fsMeta.ToObjectInfo(srcBucket, srcObject, fi), nil
}
if err := checkPutObjectArgs(ctx, dstBucket, dstObject, fs); err != nil {
return ObjectInfo{}, err
}
objInfo, err := fs.putObject(ctx, dstBucket, dstObject, srcInfo.PutObjReader, ObjectOptions{ServerSideEncryption: dstOpts.ServerSideEncryption, UserDefined: srcInfo.UserDefined})
if err != nil {
return oi, toObjectErr(err, dstBucket, dstObject)
}
return objInfo, nil
}
// GetObjectNInfo - returns object info and a reader for object
// content.
func (fs *FSObjects) GetObjectNInfo(ctx context.Context, bucket, object string, rs *HTTPRangeSpec, h http.Header, lockType LockType, opts ObjectOptions) (gr *GetObjectReader, err error) {
if opts.VersionID != "" && opts.VersionID != nullVersionID {
return nil, VersionNotFound{
Bucket: bucket,
Object: object,
VersionID: opts.VersionID,
}
}
if err = checkGetObjArgs(ctx, bucket, object); err != nil {
return nil, err
}
if _, err = fs.statBucketDir(ctx, bucket); err != nil {
return nil, toObjectErr(err, bucket)
}
nsUnlocker := func() {}
if lockType != noLock {
// Lock the object before reading.
lock := fs.NewNSLock(bucket, object)
switch lockType {
case writeLock:
lkctx, err := lock.GetLock(ctx, globalOperationTimeout)
if err != nil {
return nil, err
}
ctx = lkctx.Context()
nsUnlocker = func() { lock.Unlock(lkctx.Cancel) }
case readLock:
lkctx, err := lock.GetRLock(ctx, globalOperationTimeout)
if err != nil {
return nil, err
}
ctx = lkctx.Context()
nsUnlocker = func() { lock.RUnlock(lkctx.Cancel) }
}
}
// Otherwise we get the object info
var objInfo ObjectInfo
if objInfo, err = fs.getObjectInfo(ctx, bucket, object); err != nil {
nsUnlocker()
return nil, toObjectErr(err, bucket, object)
}
// For a directory, we need to return a reader that returns no bytes.
if HasSuffix(object, SlashSeparator) {
// The lock taken above is released when
// objReader.Close() is called by the caller.
return NewGetObjectReaderFromReader(bytes.NewBuffer(nil), objInfo, opts, nsUnlocker)
}
// Take a rwPool lock for NFS gateway type deployment
rwPoolUnlocker := func() {}
if bucket != minioMetaBucket && lockType != noLock {
fsMetaPath := pathJoin(fs.fsPath, minioMetaBucket, bucketMetaPrefix, bucket, object, fs.metaJSONFile)
_, err = fs.rwPool.Open(fsMetaPath)
if err != nil && err != errFileNotFound {
logger.LogIf(ctx, err)
nsUnlocker()
return nil, toObjectErr(err, bucket, object)
}
// Need to clean up lock after getObject is
// completed.
rwPoolUnlocker = func() { fs.rwPool.Close(fsMetaPath) }
}
objReaderFn, off, length, err := NewGetObjectReader(rs, objInfo, opts)
if err != nil {
rwPoolUnlocker()
nsUnlocker()
return nil, err
}
// Read the object, doesn't exist returns an s3 compatible error.
fsObjPath := pathJoin(fs.fsPath, bucket, object)
readCloser, size, err := fsOpenFile(ctx, fsObjPath, off)
if err != nil {
rwPoolUnlocker()
nsUnlocker()
return nil, toObjectErr(err, bucket, object)
}
closeFn := func() {
readCloser.Close()
}
reader := io.LimitReader(readCloser, length)
// Check if range is valid
if off > size || off+length > size {
err = InvalidRange{off, length, size}
logger.LogIf(ctx, err, logger.Application)
closeFn()
rwPoolUnlocker()
nsUnlocker()
return nil, err
}
return objReaderFn(reader, h, closeFn, rwPoolUnlocker, nsUnlocker)
}
// Create a new fs.json file, if the existing one is corrupt. Should happen very rarely.
func (fs *FSObjects) createFsJSON(object, fsMetaPath string) error {
fsMeta := newFSMetaV1()
fsMeta.Meta = map[string]string{
"etag": GenETag(),
"content-type": mimedb.TypeByExtension(path.Ext(object)),
}
wlk, werr := fs.rwPool.Create(fsMetaPath)
if werr == nil {
_, err := fsMeta.WriteTo(wlk)
wlk.Close()
return err
}
return werr
}
// Used to return default etag values when a pre-existing object's meta data is queried.
func (fs *FSObjects) defaultFsJSON(object string) fsMetaV1 {
fsMeta := newFSMetaV1()
fsMeta.Meta = map[string]string{
"etag": defaultEtag,
"content-type": mimedb.TypeByExtension(path.Ext(object)),
}
return fsMeta
}
func (fs *FSObjects) getObjectInfoNoFSLock(ctx context.Context, bucket, object string) (oi ObjectInfo, e error) {
fsMeta := fsMetaV1{}
if HasSuffix(object, SlashSeparator) {
fi, err := fsStatDir(ctx, pathJoin(fs.fsPath, bucket, object))
if err != nil {
return oi, err
}
return fsMeta.ToObjectInfo(bucket, object, fi), nil
}
if !globalCLIContext.StrictS3Compat {
// Stat the file to get file size.
fi, err := fsStatFile(ctx, pathJoin(fs.fsPath, bucket, object))
if err != nil {
return oi, err
}
return fsMeta.ToObjectInfo(bucket, object, fi), nil
}
fsMetaPath := pathJoin(fs.fsPath, minioMetaBucket, bucketMetaPrefix, bucket, object, fs.metaJSONFile)
// Read `fs.json` to perhaps contend with
// parallel Put() operations.
rc, _, err := fsOpenFile(ctx, fsMetaPath, 0)
if err == nil {
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fsMetaBuf, rerr := io.ReadAll(rc)
rc.Close()
if rerr == nil {
json := jsoniter.ConfigCompatibleWithStandardLibrary
if rerr = json.Unmarshal(fsMetaBuf, &fsMeta); rerr != nil {
// For any error to read fsMeta, set default ETag and proceed.
fsMeta = fs.defaultFsJSON(object)
}
} else {
// For any error to read fsMeta, set default ETag and proceed.
fsMeta = fs.defaultFsJSON(object)
}
}
// Return a default etag and content-type based on the object's extension.
if err == errFileNotFound {
fsMeta = fs.defaultFsJSON(object)
}
// Ignore if `fs.json` is not available, this is true for pre-existing data.
if err != nil && err != errFileNotFound {
logger.LogIf(ctx, err)
return oi, err
}
// Stat the file to get file size.
fi, err := fsStatFile(ctx, pathJoin(fs.fsPath, bucket, object))
if err != nil {
return oi, err
}
return fsMeta.ToObjectInfo(bucket, object, fi), nil
}
// getObjectInfo - wrapper for reading object metadata and constructs ObjectInfo.
func (fs *FSObjects) getObjectInfo(ctx context.Context, bucket, object string) (oi ObjectInfo, e error) {
if strings.HasSuffix(object, SlashSeparator) && !fs.isObjectDir(bucket, object) {
return oi, errFileNotFound
}
fsMeta := fsMetaV1{}
if HasSuffix(object, SlashSeparator) {
fi, err := fsStatDir(ctx, pathJoin(fs.fsPath, bucket, object))
if err != nil {
return oi, err
}
return fsMeta.ToObjectInfo(bucket, object, fi), nil
}
fsMetaPath := pathJoin(fs.fsPath, minioMetaBucket, bucketMetaPrefix, bucket, object, fs.metaJSONFile)
// Read `fs.json` to perhaps contend with
// parallel Put() operations.
rlk, err := fs.rwPool.Open(fsMetaPath)
if err == nil {
// Read from fs metadata only if it exists.
_, rerr := fsMeta.ReadFrom(ctx, rlk.LockedFile)
fs.rwPool.Close(fsMetaPath)
if rerr != nil {
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// For any error to read fsMeta, set default ETag and proceed.
fsMeta = fs.defaultFsJSON(object)
}
}
// Return a default etag and content-type based on the object's extension.
if err == errFileNotFound {
fsMeta = fs.defaultFsJSON(object)
}
// Ignore if `fs.json` is not available, this is true for pre-existing data.
if err != nil && err != errFileNotFound {
logger.LogIf(ctx, err)
return oi, err
}
// Stat the file to get file size.
fi, err := fsStatFile(ctx, pathJoin(fs.fsPath, bucket, object))
if err != nil {
return oi, err
}
return fsMeta.ToObjectInfo(bucket, object, fi), nil
}
// getObjectInfoWithLock - reads object metadata and replies back ObjectInfo.
func (fs *FSObjects) getObjectInfoWithLock(ctx context.Context, bucket, object string) (oi ObjectInfo, err error) {
// Lock the object before reading.
lk := fs.NewNSLock(bucket, object)
lkctx, err := lk.GetRLock(ctx, globalOperationTimeout)
if err != nil {
return oi, err
}
ctx = lkctx.Context()
defer lk.RUnlock(lkctx.Cancel)
if err := checkGetObjArgs(ctx, bucket, object); err != nil {
return oi, err
}
if _, err := fs.statBucketDir(ctx, bucket); err != nil {
return oi, err
}
if strings.HasSuffix(object, SlashSeparator) && !fs.isObjectDir(bucket, object) {
return oi, errFileNotFound
}
return fs.getObjectInfo(ctx, bucket, object)
}
// GetObjectInfo - reads object metadata and replies back ObjectInfo.
func (fs *FSObjects) GetObjectInfo(ctx context.Context, bucket, object string, opts ObjectOptions) (oi ObjectInfo, e error) {
if opts.VersionID != "" && opts.VersionID != nullVersionID {
return oi, VersionNotFound{
Bucket: bucket,
Object: object,
VersionID: opts.VersionID,
}
}
oi, err := fs.getObjectInfoWithLock(ctx, bucket, object)
if err == errCorruptedFormat || err == io.EOF {
lk := fs.NewNSLock(bucket, object)
lkctx, err := lk.GetLock(ctx, globalOperationTimeout)
if err != nil {
return oi, toObjectErr(err, bucket, object)
}
fsMetaPath := pathJoin(fs.fsPath, minioMetaBucket, bucketMetaPrefix, bucket, object, fs.metaJSONFile)
err = fs.createFsJSON(object, fsMetaPath)
lk.Unlock(lkctx.Cancel)
if err != nil {
return oi, toObjectErr(err, bucket, object)
}
oi, err = fs.getObjectInfoWithLock(ctx, bucket, object)
return oi, toObjectErr(err, bucket, object)
}
return oi, toObjectErr(err, bucket, object)
}
// PutObject - creates an object upon reading from the input stream
// until EOF, writes data directly to configured filesystem path.
// Additionally writes `fs.json` which carries the necessary metadata
// for future object operations.
func (fs *FSObjects) PutObject(ctx context.Context, bucket string, object string, r *PutObjReader, opts ObjectOptions) (objInfo ObjectInfo, err error) {
if opts.Versioned {
return objInfo, NotImplemented{}
}
if err := checkPutObjectArgs(ctx, bucket, object, fs); err != nil {
return ObjectInfo{}, err
}
defer NSUpdated(bucket, object)
// Lock the object.
lk := fs.NewNSLock(bucket, object)
lkctx, err := lk.GetLock(ctx, globalOperationTimeout)
if err != nil {
logger.LogIf(ctx, err)
return objInfo, err
}
ctx = lkctx.Context()
defer lk.Unlock(lkctx.Cancel)
return fs.putObject(ctx, bucket, object, r, opts)
}
// putObject - wrapper for PutObject
func (fs *FSObjects) putObject(ctx context.Context, bucket string, object string, r *PutObjReader, opts ObjectOptions) (objInfo ObjectInfo, retErr error) {
data := r.Reader
// No metadata is set, allocate a new one.
meta := cloneMSS(opts.UserDefined)
var err error
// Validate if bucket name is valid and exists.
if _, err = fs.statBucketDir(ctx, bucket); err != nil {
return ObjectInfo{}, toObjectErr(err, bucket)
}
fsMeta := newFSMetaV1()
fsMeta.Meta = meta
// This is a special case with size as '0' and object ends
// with a slash separator, we treat it like a valid operation
// and return success.
if isObjectDir(object, data.Size()) {
if err = mkdirAll(pathJoin(fs.fsPath, bucket, object), 0o777); err != nil {
logger.LogIf(ctx, err)
return ObjectInfo{}, toObjectErr(err, bucket, object)
}
var fi os.FileInfo
if fi, err = fsStatDir(ctx, pathJoin(fs.fsPath, bucket, object)); err != nil {
return ObjectInfo{}, toObjectErr(err, bucket, object)
}
return fsMeta.ToObjectInfo(bucket, object, fi), nil
}
// Validate input data size and it can never be less than zero.
if data.Size() < -1 {
logger.LogIf(ctx, errInvalidArgument, logger.Application)
return ObjectInfo{}, errInvalidArgument
}
var wlk *lock.LockedFile
if bucket != minioMetaBucket {
bucketMetaDir := pathJoin(fs.fsPath, minioMetaBucket, bucketMetaPrefix)
fsMetaPath := pathJoin(bucketMetaDir, bucket, object, fs.metaJSONFile)
wlk, err = fs.rwPool.Write(fsMetaPath)
var freshFile bool
if err != nil {
wlk, err = fs.rwPool.Create(fsMetaPath)
if err != nil {
logger.LogIf(ctx, err)
return ObjectInfo{}, toObjectErr(err, bucket, object)
}
freshFile = true
}
// This close will allow for locks to be synchronized on `fs.json`.
defer wlk.Close()
defer func() {
// Remove meta file when PutObject encounters
// any error and it is a fresh file.
//
// We should preserve the `fs.json` of any
// existing object
if retErr != nil && freshFile {
tmpDir := pathJoin(fs.fsPath, minioMetaTmpBucket, fs.fsUUID)
fsRemoveMeta(ctx, bucketMetaDir, fsMetaPath, tmpDir)
}
}()
}
// Uploaded object will first be written to the temporary location which will eventually
// be renamed to the actual location. It is first written to the temporary location
// so that cleaning it up will be easy if the server goes down.
tempObj := mustGetUUID()
fsTmpObjPath := pathJoin(fs.fsPath, minioMetaTmpBucket, fs.fsUUID, tempObj)
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bytesWritten, err := fsCreateFile(ctx, fsTmpObjPath, data, data.Size())
// Delete the temporary object in the case of a
// failure. If PutObject succeeds, then there would be
// nothing to delete.
defer fsRemoveFile(ctx, fsTmpObjPath)
if err != nil {
return ObjectInfo{}, toObjectErr(err, bucket, object)
}
fsMeta.Meta["etag"] = r.MD5CurrentHexString()
// Should return IncompleteBody{} error when reader has fewer
// bytes than specified in request header.
if bytesWritten < data.Size() {
return ObjectInfo{}, IncompleteBody{Bucket: bucket, Object: object}
}
// Entire object was written to the temp location, now it's safe to rename it to the actual location.
fsNSObjPath := pathJoin(fs.fsPath, bucket, object)
if err = fsRenameFile(ctx, fsTmpObjPath, fsNSObjPath); err != nil {
return ObjectInfo{}, toObjectErr(err, bucket, object)
}
if bucket != minioMetaBucket {
// Write FS metadata after a successful namespace operation.
if _, err = fsMeta.WriteTo(wlk); err != nil {
return ObjectInfo{}, toObjectErr(err, bucket, object)
}
}
// Stat the file to fetch timestamp, size.
fi, err := fsStatFile(ctx, pathJoin(fs.fsPath, bucket, object))
if err != nil {
return ObjectInfo{}, toObjectErr(err, bucket, object)
}
// Success.
return fsMeta.ToObjectInfo(bucket, object, fi), nil
}
// DeleteObjects - deletes an object from a bucket, this operation is destructive
// and there are no rollbacks supported.
func (fs *FSObjects) DeleteObjects(ctx context.Context, bucket string, objects []ObjectToDelete, opts ObjectOptions) ([]DeletedObject, []error) {
errs := make([]error, len(objects))
dobjects := make([]DeletedObject, len(objects))
for idx, object := range objects {
if object.VersionID != "" {
errs[idx] = VersionNotFound{
Bucket: bucket,
Object: object.ObjectName,
VersionID: object.VersionID,
}
continue
}
_, errs[idx] = fs.DeleteObject(ctx, bucket, object.ObjectName, opts)
if errs[idx] == nil || isErrObjectNotFound(errs[idx]) {
dobjects[idx] = DeletedObject{
ObjectName: object.ObjectName,
}
errs[idx] = nil
}
}
return dobjects, errs
}
// DeleteObject - deletes an object from a bucket, this operation is destructive
// and there are no rollbacks supported.
func (fs *FSObjects) DeleteObject(ctx context.Context, bucket, object string, opts ObjectOptions) (objInfo ObjectInfo, err error) {
if opts.VersionID != "" && opts.VersionID != nullVersionID {
return objInfo, VersionNotFound{
Bucket: bucket,
Object: object,
VersionID: opts.VersionID,
}
}
defer NSUpdated(bucket, object)
// Acquire a write lock before deleting the object.
lk := fs.NewNSLock(bucket, object)
lkctx, err := lk.GetLock(ctx, globalOperationTimeout)
if err != nil {
return objInfo, err
}
ctx = lkctx.Context()
defer lk.Unlock(lkctx.Cancel)
if err = checkDelObjArgs(ctx, bucket, object); err != nil {
return objInfo, err
}
if _, err = fs.statBucketDir(ctx, bucket); err != nil {
return objInfo, toObjectErr(err, bucket)
}
var rwlk *lock.LockedFile
minioMetaBucketDir := pathJoin(fs.fsPath, minioMetaBucket)
fsMetaPath := pathJoin(minioMetaBucketDir, bucketMetaPrefix, bucket, object, fs.metaJSONFile)
if bucket != minioMetaBucket {
rwlk, err = fs.rwPool.Write(fsMetaPath)
if err != nil && err != errFileNotFound {
logger.LogIf(ctx, err)
return objInfo, toObjectErr(err, bucket, object)
}
}
// Delete the object.
if err = fsDeleteFile(ctx, pathJoin(fs.fsPath, bucket), pathJoin(fs.fsPath, bucket, object)); err != nil {
if rwlk != nil {
rwlk.Close()
}
return objInfo, toObjectErr(err, bucket, object)
}
// Close fsMetaPath before deletion
if rwlk != nil {
rwlk.Close()
}
if bucket != minioMetaBucket {
// Delete the metadata object.
err = fsDeleteFile(ctx, minioMetaBucketDir, fsMetaPath)
if err != nil && err != errFileNotFound {
return objInfo, toObjectErr(err, bucket, object)
}
}
return ObjectInfo{Bucket: bucket, Name: object}, nil
}
func (fs *FSObjects) isLeafDir(bucket string, leafPath string) bool {
return fs.isObjectDir(bucket, leafPath)
}
func (fs *FSObjects) isLeaf(bucket string, leafPath string) bool {
return !strings.HasSuffix(leafPath, slashSeparator)
}
// Returns function "listDir" of the type listDirFunc.
// isLeaf - is used by listDir function to check if an entry
// is a leaf or non-leaf entry.
func (fs *FSObjects) listDirFactory() ListDirFunc {
// listDir - lists all the entries at a given prefix and given entry in the prefix.
listDir := func(bucket, prefixDir, prefixEntry string) (emptyDir bool, entries []string, delayIsLeaf bool) {
var err error
entries, err = readDir(pathJoin(fs.fsPath, bucket, prefixDir))
if err != nil && err != errFileNotFound {
logger.LogIf(GlobalContext, err)
return false, nil, false
}
if len(entries) == 0 {
return true, nil, false
}
entries, delayIsLeaf = filterListEntries(bucket, prefixDir, entries, prefixEntry, fs.isLeaf)
return false, entries, delayIsLeaf
}
// Return list factory instance.
return listDir
}
// isObjectDir returns true if the specified bucket & prefix exists
// and the prefix represents an empty directory. An S3 empty directory
// is also an empty directory in the FS backend.
func (fs *FSObjects) isObjectDir(bucket, prefix string) bool {
entries, err := readDirN(pathJoin(fs.fsPath, bucket, prefix), 1)
if err != nil {
return false
}
return len(entries) == 0
}
// ListObjectVersions not implemented for FS mode.
func (fs *FSObjects) ListObjectVersions(ctx context.Context, bucket, prefix, marker, versionMarker, delimiter string, maxKeys int) (loi ListObjectVersionsInfo, e error) {
return loi, NotImplemented{}
}
// ListObjects - list all objects at prefix upto maxKeys., optionally delimited by '/'. Maintains the list pool
// state for future re-entrant list requests.
func (fs *FSObjects) ListObjects(ctx context.Context, bucket, prefix, marker, delimiter string, maxKeys int) (loi ListObjectsInfo, err error) {
// listObjects may in rare cases not be able to find any valid results.
// Therefore, it cannot set a NextMarker.
// In that case we retry the operation, but we add a
// max limit, so we never end up in an infinite loop.
tries := 50
for {
loi, err = listObjects(ctx, fs, bucket, prefix, marker, delimiter, maxKeys, fs.listPool,
fs.listDirFactory(), fs.isLeaf, fs.isLeafDir, fs.getObjectInfoNoFSLock, fs.getObjectInfoNoFSLock)
if err != nil {
return loi, err
}
if !loi.IsTruncated || loi.NextMarker != "" || tries == 0 {
return loi, nil
}
tries--
}
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}
// GetObjectTags - get object tags from an existing object
func (fs *FSObjects) GetObjectTags(ctx context.Context, bucket, object string, opts ObjectOptions) (*tags.Tags, error) {
if opts.VersionID != "" && opts.VersionID != nullVersionID {
return nil, VersionNotFound{
Bucket: bucket,
Object: object,
VersionID: opts.VersionID,
}
}
oi, err := fs.GetObjectInfo(ctx, bucket, object, ObjectOptions{})
if err != nil {
return nil, err
}
return tags.ParseObjectTags(oi.UserTags)
}
// PutObjectTags - replace or add tags to an existing object
func (fs *FSObjects) PutObjectTags(ctx context.Context, bucket, object string, tags string, opts ObjectOptions) (ObjectInfo, error) {
if opts.VersionID != "" && opts.VersionID != nullVersionID {
return ObjectInfo{}, VersionNotFound{
Bucket: bucket,
Object: object,
VersionID: opts.VersionID,
}
}
fsMetaPath := pathJoin(fs.fsPath, minioMetaBucket, bucketMetaPrefix, bucket, object, fs.metaJSONFile)
fsMeta := fsMetaV1{}
wlk, err := fs.rwPool.Write(fsMetaPath)
if err != nil {
wlk, err = fs.rwPool.Create(fsMetaPath)
if err != nil {
logger.LogIf(ctx, err)
return ObjectInfo{}, toObjectErr(err, bucket, object)
}
}
// This close will allow for locks to be synchronized on `fs.json`.
defer wlk.Close()
// Read objects' metadata in `fs.json`.
if _, err = fsMeta.ReadFrom(ctx, wlk); err != nil {
// For any error to read fsMeta, set default ETag and proceed.
fsMeta = fs.defaultFsJSON(object)
}
// clean fsMeta.Meta of tag key, before updating the new tags
delete(fsMeta.Meta, xhttp.AmzObjectTagging)
// Do not update for empty tags
if tags != "" {
fsMeta.Meta[xhttp.AmzObjectTagging] = tags
}
if _, err = fsMeta.WriteTo(wlk); err != nil {
return ObjectInfo{}, toObjectErr(err, bucket, object)
}
// Stat the file to get file size.
fi, err := fsStatFile(ctx, pathJoin(fs.fsPath, bucket, object))
if err != nil {
return ObjectInfo{}, err
}
return fsMeta.ToObjectInfo(bucket, object, fi), nil
}
// DeleteObjectTags - delete object tags from an existing object
func (fs *FSObjects) DeleteObjectTags(ctx context.Context, bucket, object string, opts ObjectOptions) (ObjectInfo, error) {
return fs.PutObjectTags(ctx, bucket, object, "", opts)
}
// HealFormat - no-op for fs, Valid only for Erasure.
func (fs *FSObjects) HealFormat(ctx context.Context, dryRun bool) (madmin.HealResultItem, error) {
return madmin.HealResultItem{}, NotImplemented{}
}
// HealObject - no-op for fs. Valid only for Erasure.
func (fs *FSObjects) HealObject(ctx context.Context, bucket, object, versionID string, opts madmin.HealOpts) (
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res madmin.HealResultItem, err error,
) {
return res, NotImplemented{}
}
// HealBucket - no-op for fs, Valid only for Erasure.
func (fs *FSObjects) HealBucket(ctx context.Context, bucket string, opts madmin.HealOpts) (madmin.HealResultItem,
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error,
) {
return madmin.HealResultItem{}, NotImplemented{}
}
// Walk a bucket, optionally prefix recursively, until we have returned
// all the content to objectInfo channel, it is callers responsibility
// to allocate a receive channel for ObjectInfo, upon any unhandled
// error walker returns error. Optionally if context.Done() is received
// then Walk() stops the walker.
func (fs *FSObjects) Walk(ctx context.Context, bucket, prefix string, results chan<- ObjectInfo, opts ObjectOptions) error {
return fsWalk(ctx, fs, bucket, prefix, fs.listDirFactory(), fs.isLeaf, fs.isLeafDir, results, fs.getObjectInfoNoFSLock, fs.getObjectInfoNoFSLock)
}
// HealObjects - no-op for fs. Valid only for Erasure.
func (fs *FSObjects) HealObjects(ctx context.Context, bucket, prefix string, opts madmin.HealOpts, fn HealObjectFn) (e error) {
logger.LogIf(ctx, NotImplemented{})
return NotImplemented{}
}
// GetMetrics - no op
func (fs *FSObjects) GetMetrics(ctx context.Context) (*BackendMetrics, error) {
logger.LogIf(ctx, NotImplemented{})
return &BackendMetrics{}, NotImplemented{}
}
// ListObjectsV2 lists all blobs in bucket filtered by prefix
func (fs *FSObjects) ListObjectsV2(ctx context.Context, bucket, prefix, continuationToken, delimiter string, maxKeys int, fetchOwner bool, startAfter string) (result ListObjectsV2Info, err error) {
marker := continuationToken
if marker == "" {
marker = startAfter
}
loi, err := fs.ListObjects(ctx, bucket, prefix, marker, delimiter, maxKeys)
if err != nil {
return result, err
}
listObjectsV2Info := ListObjectsV2Info{
IsTruncated: loi.IsTruncated,
ContinuationToken: continuationToken,
NextContinuationToken: loi.NextMarker,
Objects: loi.Objects,
Prefixes: loi.Prefixes,
}
return listObjectsV2Info, err
}
// IsNotificationSupported returns whether bucket notification is applicable for this layer.
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func (fs *FSObjects) IsNotificationSupported() bool {
return true
}
// IsListenSupported returns whether listen bucket notification is applicable for this layer.
func (fs *FSObjects) IsListenSupported() bool {
return true
}
// IsEncryptionSupported returns whether server side encryption is implemented for this layer.
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func (fs *FSObjects) IsEncryptionSupported() bool {
return true
}
// IsCompressionSupported returns whether compression is applicable for this layer.
func (fs *FSObjects) IsCompressionSupported() bool {
return true
}
// IsTaggingSupported returns true, object tagging is supported in fs object layer.
func (fs *FSObjects) IsTaggingSupported() bool {
return true
}
// Health returns health of the object layer
func (fs *FSObjects) Health(ctx context.Context, opts HealthOptions) HealthResult {
if _, err := os.Stat(fs.fsPath); err != nil {
return HealthResult{}
}
return HealthResult{
Healthy: newObjectLayerFn() != nil,
}
}
// ReadHealth returns "read" health of the object layer
func (fs *FSObjects) ReadHealth(ctx context.Context) bool {
_, err := os.Stat(fs.fsPath)
return err == nil
}
// TransitionObject - transition object content to target tier.
func (fs *FSObjects) TransitionObject(ctx context.Context, bucket, object string, opts ObjectOptions) error {
return NotImplemented{}
}
// RestoreTransitionedObject - restore transitioned object content locally on this cluster.
func (fs *FSObjects) RestoreTransitionedObject(ctx context.Context, bucket, object string, opts ObjectOptions) error {
return NotImplemented{}
}