forked from TrueCloudLab/frostfs-s3-gw
602 lines
16 KiB
Go
602 lines
16 KiB
Go
/*
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* MinIO Cloud Storage, (C) 2020 MinIO, Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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package legacy
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import (
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"bytes"
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"context"
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"errors"
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"fmt"
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"io"
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"path"
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"path/filepath"
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"strings"
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"time"
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"github.com/cespare/xxhash/v2"
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"github.com/klauspost/compress/zstd"
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"github.com/minio/minio/legacy/logger"
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"github.com/minio/minio/pkg/bucket/lifecycle"
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"github.com/minio/minio/pkg/hash"
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"github.com/tinylib/msgp/msgp"
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)
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//go:generate msgp -file $GOFILE -unexported
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// dataUsageHash is the hash type used.
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type dataUsageHash string
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// sizeHistogram is a size histogram.
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type sizeHistogram [dataUsageBucketLen]uint64
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//msgp:tuple dataUsageEntry
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type dataUsageEntry struct {
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// These fields do no include any children.
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Size int64
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Objects uint64
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ObjSizes sizeHistogram
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Children dataUsageHashMap
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}
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// dataUsageCache contains a cache of data usage entries.
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type dataUsageCache struct {
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Info dataUsageCacheInfo
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Cache map[string]dataUsageEntry
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}
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//msgp:ignore dataUsageEntryInfo
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type dataUsageEntryInfo struct {
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Name string
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Parent string
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Entry dataUsageEntry
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}
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type dataUsageCacheInfo struct {
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// Name of the bucket. Also root element.
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Name string
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LastUpdate time.Time
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NextCycle uint32
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BloomFilter []byte `msg:"BloomFilter,omitempty"`
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lifeCycle *lifecycle.Lifecycle `msg:"-"`
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}
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// merge other data usage entry into this, excluding children.
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func (e *dataUsageEntry) merge(other dataUsageEntry) {
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e.Objects += other.Objects
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e.Size += other.Size
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for i, v := range other.ObjSizes[:] {
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e.ObjSizes[i] += v
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}
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}
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// mod returns true if the hash mod cycles == cycle.
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func (h dataUsageHash) mod(cycle uint32, cycles uint32) bool {
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return uint32(xxhash.Sum64String(string(h)))%cycles == cycle%cycles
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}
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// addChildString will add a child based on its name.
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// If it already exists it will not be added again.
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func (e *dataUsageEntry) addChildString(name string) {
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e.addChild(hashPath(name))
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}
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// addChild will add a child based on its hash.
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// If it already exists it will not be added again.
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func (e *dataUsageEntry) addChild(hash dataUsageHash) {
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if _, ok := e.Children[hash.Key()]; ok {
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return
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}
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if e.Children == nil {
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e.Children = make(dataUsageHashMap, 1)
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}
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e.Children[hash.Key()] = struct{}{}
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}
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// find a path in the cache.
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// Returns nil if not found.
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func (d *dataUsageCache) find(path string) *dataUsageEntry {
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due, ok := d.Cache[hashPath(path).Key()]
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if !ok {
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return nil
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}
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return &due
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}
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// Returns nil if not found.
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func (d *dataUsageCache) subCache(path string) dataUsageCache {
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dst := dataUsageCache{Info: dataUsageCacheInfo{
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Name: path,
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LastUpdate: d.Info.LastUpdate,
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BloomFilter: d.Info.BloomFilter,
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}}
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dst.copyWithChildren(d, dataUsageHash(hashPath(path).Key()), nil)
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return dst
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}
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func (d *dataUsageCache) deleteRecursive(h dataUsageHash) {
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if existing, ok := d.Cache[h.String()]; ok {
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// Delete first if there should be a loop.
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delete(d.Cache, h.Key())
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for child := range existing.Children {
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d.deleteRecursive(dataUsageHash(child))
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}
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}
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}
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// replaceRootChild will replace the child of root in d with the root of 'other'.
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func (d *dataUsageCache) replaceRootChild(other dataUsageCache) {
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otherRoot := other.root()
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if otherRoot == nil {
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logger.LogIf(GlobalContext, errors.New("replaceRootChild: Source has no root"))
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return
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}
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thisRoot := d.root()
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if thisRoot == nil {
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logger.LogIf(GlobalContext, errors.New("replaceRootChild: Root of current not found"))
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return
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}
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thisRootHash := d.rootHash()
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otherRootHash := other.rootHash()
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if thisRootHash == otherRootHash {
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logger.LogIf(GlobalContext, errors.New("replaceRootChild: Root of child matches root of destination"))
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return
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}
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d.deleteRecursive(other.rootHash())
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d.copyWithChildren(&other, other.rootHash(), &thisRootHash)
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}
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// keepBuckets will keep only the buckets specified specified by delete all others.
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func (d *dataUsageCache) keepBuckets(b []BucketInfo) {
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lu := make(map[dataUsageHash]struct{})
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for _, v := range b {
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lu[hashPath(v.Name)] = struct{}{}
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}
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d.keepRootChildren(lu)
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}
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// keepRootChildren will keep the root children specified by delete all others.
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func (d *dataUsageCache) keepRootChildren(list map[dataUsageHash]struct{}) {
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if d.root() == nil {
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return
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}
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rh := d.rootHash()
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for k := range d.Cache {
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h := dataUsageHash(k)
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if h == rh {
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continue
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}
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if _, ok := list[h]; !ok {
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delete(d.Cache, k)
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d.deleteRecursive(h)
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}
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}
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}
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// dui converts the flattened version of the path to DataUsageInfo.
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// As a side effect d will be flattened, use a clone if this is not ok.
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func (d *dataUsageCache) dui(path string, buckets []BucketInfo) DataUsageInfo {
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e := d.find(path)
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if e == nil {
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// No entry found, return empty.
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return DataUsageInfo{}
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}
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flat := d.flatten(*e)
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return DataUsageInfo{
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LastUpdate: d.Info.LastUpdate,
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ObjectsTotalCount: flat.Objects,
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ObjectsTotalSize: uint64(flat.Size),
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BucketsCount: uint64(len(e.Children)),
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BucketsUsage: d.bucketsUsageInfo(buckets),
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}
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}
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// replace will add or replace an entry in the cache.
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// If a parent is specified it will be added to that if not already there.
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// If the parent does not exist, it will be added.
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func (d *dataUsageCache) replace(path, parent string, e dataUsageEntry) {
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hash := hashPath(path)
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if d.Cache == nil {
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d.Cache = make(map[string]dataUsageEntry, 100)
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}
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d.Cache[hash.Key()] = e
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if parent != "" {
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phash := hashPath(parent)
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p := d.Cache[phash.Key()]
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p.addChild(hash)
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d.Cache[phash.Key()] = p
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}
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}
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// replaceHashed add or replaces an entry to the cache based on its hash.
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// If a parent is specified it will be added to that if not already there.
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// If the parent does not exist, it will be added.
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func (d *dataUsageCache) replaceHashed(hash dataUsageHash, parent *dataUsageHash, e dataUsageEntry) {
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if d.Cache == nil {
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d.Cache = make(map[string]dataUsageEntry, 100)
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}
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d.Cache[hash.Key()] = e
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if parent != nil {
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p := d.Cache[parent.Key()]
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p.addChild(hash)
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d.Cache[parent.Key()] = p
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}
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}
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// copyWithChildren will copy entry with hash from src if it exists along with any children.
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// If a parent is specified it will be added to that if not already there.
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// If the parent does not exist, it will be added.
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func (d *dataUsageCache) copyWithChildren(src *dataUsageCache, hash dataUsageHash, parent *dataUsageHash) {
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if d.Cache == nil {
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d.Cache = make(map[string]dataUsageEntry, 100)
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}
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e, ok := src.Cache[hash.String()]
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if !ok {
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return
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}
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d.Cache[hash.Key()] = e
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for ch := range e.Children {
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if ch == hash.Key() {
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logger.LogIf(GlobalContext, errors.New("dataUsageCache.copyWithChildren: Circular reference"))
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return
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}
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d.copyWithChildren(src, dataUsageHash(ch), &hash)
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}
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if parent != nil {
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p := d.Cache[parent.Key()]
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p.addChild(hash)
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d.Cache[parent.Key()] = p
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}
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}
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// StringAll returns a detailed string representation of all entries in the cache.
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func (d *dataUsageCache) StringAll() string {
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s := fmt.Sprintf("info:%+v\n", d.Info)
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for k, v := range d.Cache {
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s += fmt.Sprintf("\t%v: %+v\n", k, v)
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}
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return strings.TrimSpace(s)
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}
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// String returns a human readable representation of the string.
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func (h dataUsageHash) String() string {
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return string(h)
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}
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// String returns a human readable representation of the string.
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func (h dataUsageHash) Key() string {
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return string(h)
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}
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// flatten all children of the root into the root element and return it.
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func (d *dataUsageCache) flatten(root dataUsageEntry) dataUsageEntry {
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for id := range root.Children {
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e := d.Cache[id]
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if len(e.Children) > 0 {
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e = d.flatten(e)
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}
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root.merge(e)
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}
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root.Children = nil
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return root
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}
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// add a size to the histogram.
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func (h *sizeHistogram) add(size int64) {
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// Fetch the histogram interval corresponding
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// to the passed object size.
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for i, interval := range ObjectsHistogramIntervals {
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if size >= interval.start && size <= interval.end {
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h[i]++
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break
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}
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}
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}
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// toMap returns the map to a map[string]uint64.
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func (h *sizeHistogram) toMap() map[string]uint64 {
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res := make(map[string]uint64, dataUsageBucketLen)
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for i, count := range h {
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res[ObjectsHistogramIntervals[i].name] = count
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}
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return res
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}
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// bucketsUsageInfo returns the buckets usage info as a map, with
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// key as bucket name
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func (d *dataUsageCache) bucketsUsageInfo(buckets []BucketInfo) map[string]BucketUsageInfo {
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var dst = make(map[string]BucketUsageInfo, len(buckets))
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for _, bucket := range buckets {
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e := d.find(bucket.Name)
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if e == nil {
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continue
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}
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flat := d.flatten(*e)
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dst[bucket.Name] = BucketUsageInfo{
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Size: uint64(flat.Size),
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ObjectsCount: uint64(flat.Objects),
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ObjectSizesHistogram: flat.ObjSizes.toMap(),
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}
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}
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return dst
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}
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// sizeRecursive returns the path as a flattened entry.
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func (d *dataUsageCache) sizeRecursive(path string) *dataUsageEntry {
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root := d.find(path)
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if root == nil || len(root.Children) == 0 {
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return root
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}
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flat := d.flatten(*root)
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return &flat
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}
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// root returns the root of the cache.
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func (d *dataUsageCache) root() *dataUsageEntry {
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return d.find(d.Info.Name)
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}
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// rootHash returns the root of the cache.
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func (d *dataUsageCache) rootHash() dataUsageHash {
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return hashPath(d.Info.Name)
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}
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// clone returns a copy of the cache with no references to the existing.
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func (d *dataUsageCache) clone() dataUsageCache {
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clone := dataUsageCache{
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Info: d.Info,
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Cache: make(map[string]dataUsageEntry, len(d.Cache)),
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}
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for k, v := range d.Cache {
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clone.Cache[k] = v
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}
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return clone
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}
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// merge root of other into d.
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// children of root will be flattened before being merged.
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// Last update time will be set to the last updated.
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func (d *dataUsageCache) merge(other dataUsageCache) {
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existingRoot := d.root()
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otherRoot := other.root()
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if existingRoot == nil && otherRoot == nil {
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return
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}
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if otherRoot == nil {
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return
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}
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if existingRoot == nil {
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*d = other.clone()
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return
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}
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if other.Info.LastUpdate.After(d.Info.LastUpdate) {
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d.Info.LastUpdate = other.Info.LastUpdate
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}
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existingRoot.merge(*otherRoot)
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eHash := d.rootHash()
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for key := range otherRoot.Children {
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entry := other.Cache[key]
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flat := other.flatten(entry)
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existing := d.Cache[key]
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// If not found, merging simply adds.
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existing.merge(flat)
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d.replaceHashed(dataUsageHash(key), &eHash, existing)
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}
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}
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// load the cache content with name from minioMetaBackgroundOpsBucket.
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// Only backend errors are returned as errors.
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// If the object is not found or unable to deserialize d is cleared and nil error is returned.
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func (d *dataUsageCache) load(ctx context.Context, store ObjectLayer, name string) error {
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var buf bytes.Buffer
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err := store.GetObject(ctx, dataUsageBucket, name, 0, -1, &buf, "", ObjectOptions{})
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if err != nil {
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if !isErrObjectNotFound(err) && !isErrBucketNotFound(err) && !errors.Is(err, InsufficientReadQuorum{}) {
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return toObjectErr(err, dataUsageBucket, name)
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}
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*d = dataUsageCache{}
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return nil
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}
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err = d.deserialize(&buf)
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if err != nil {
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*d = dataUsageCache{}
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logger.LogIf(ctx, err)
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}
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return nil
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}
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// save the content of the cache to minioMetaBackgroundOpsBucket with the provided name.
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func (d *dataUsageCache) save(ctx context.Context, store ObjectLayer, name string) error {
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b := d.serialize()
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size := int64(len(b))
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r, err := hash.NewReader(bytes.NewReader(b), size, "", "", size, false)
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if err != nil {
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return err
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}
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_, err = store.PutObject(ctx,
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dataUsageBucket,
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name,
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NewPutObjReader(r, nil, nil),
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ObjectOptions{})
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if isErrBucketNotFound(err) {
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return nil
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}
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return err
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}
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// dataUsageCacheVer indicates the cache version.
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// Bumping the cache version will drop data from previous versions
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// and write new data with the new version.
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const dataUsageCacheVer = 2
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// serialize the contents of the cache.
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func (d *dataUsageCache) serialize() []byte {
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// Prepend version and compress.
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dst := make([]byte, 0, d.Msgsize()+1)
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dst = append(dst, dataUsageCacheVer)
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buf := bytes.NewBuffer(dst)
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enc, err := zstd.NewWriter(buf,
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zstd.WithEncoderLevel(zstd.SpeedFastest),
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zstd.WithWindowSize(1<<20),
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zstd.WithEncoderConcurrency(2))
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if err != nil {
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logger.LogIf(GlobalContext, err)
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return nil
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}
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mEnc := msgp.NewWriter(enc)
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err = d.EncodeMsg(mEnc)
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if err != nil {
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logger.LogIf(GlobalContext, err)
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return nil
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}
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mEnc.Flush()
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err = enc.Close()
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if err != nil {
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logger.LogIf(GlobalContext, err)
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return nil
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}
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return buf.Bytes()
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}
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// deserialize the supplied byte slice into the cache.
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func (d *dataUsageCache) deserialize(r io.Reader) error {
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var b [1]byte
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n, _ := r.Read(b[:])
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if n != 1 {
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return io.ErrUnexpectedEOF
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}
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switch b[0] {
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case 1:
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return errors.New("cache version deprecated (will autoupdate)")
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case dataUsageCacheVer:
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default:
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return fmt.Errorf("dataUsageCache: unknown version: %d", int(b[0]))
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}
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// Zstd compressed.
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dec, err := zstd.NewReader(r, zstd.WithDecoderConcurrency(2))
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if err != nil {
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return err
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}
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defer dec.Close()
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return d.DecodeMsg(msgp.NewReader(dec))
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}
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// Trim this from start+end of hashes.
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var hashPathCutSet = dataUsageRoot
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func init() {
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if dataUsageRoot != string(filepath.Separator) {
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hashPathCutSet = dataUsageRoot + string(filepath.Separator)
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}
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}
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// hashPath calculates a hash of the provided string.
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func hashPath(data string) dataUsageHash {
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if data != dataUsageRoot {
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data = strings.Trim(data, hashPathCutSet)
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}
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return dataUsageHash(path.Clean(data))
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}
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//msgp:ignore dataUsageHashMap
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type dataUsageHashMap map[string]struct{}
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// DecodeMsg implements msgp.Decodable
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func (z *dataUsageHashMap) DecodeMsg(dc *msgp.Reader) (err error) {
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var zb0002 uint32
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zb0002, err = dc.ReadArrayHeader()
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if err != nil {
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err = msgp.WrapError(err)
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return
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}
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*z = make(dataUsageHashMap, zb0002)
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for i := uint32(0); i < zb0002; i++ {
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{
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var zb0003 string
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zb0003, err = dc.ReadString()
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|
if err != nil {
|
|
err = msgp.WrapError(err)
|
|
return
|
|
}
|
|
(*z)[zb0003] = struct{}{}
|
|
}
|
|
}
|
|
return
|
|
}
|
|
|
|
// EncodeMsg implements msgp.Encodable
|
|
func (z dataUsageHashMap) EncodeMsg(en *msgp.Writer) (err error) {
|
|
err = en.WriteArrayHeader(uint32(len(z)))
|
|
if err != nil {
|
|
err = msgp.WrapError(err)
|
|
return
|
|
}
|
|
for zb0004 := range z {
|
|
err = en.WriteString(zb0004)
|
|
if err != nil {
|
|
err = msgp.WrapError(err, zb0004)
|
|
return
|
|
}
|
|
}
|
|
return
|
|
}
|
|
|
|
// MarshalMsg implements msgp.Marshaler
|
|
func (z dataUsageHashMap) MarshalMsg(b []byte) (o []byte, err error) {
|
|
o = msgp.Require(b, z.Msgsize())
|
|
o = msgp.AppendArrayHeader(o, uint32(len(z)))
|
|
for zb0004 := range z {
|
|
o = msgp.AppendString(o, zb0004)
|
|
}
|
|
return
|
|
}
|
|
|
|
// UnmarshalMsg implements msgp.Unmarshaler
|
|
func (z *dataUsageHashMap) UnmarshalMsg(bts []byte) (o []byte, err error) {
|
|
var zb0002 uint32
|
|
zb0002, bts, err = msgp.ReadArrayHeaderBytes(bts)
|
|
if err != nil {
|
|
err = msgp.WrapError(err)
|
|
return
|
|
}
|
|
*z = make(dataUsageHashMap, zb0002)
|
|
for i := uint32(0); i < zb0002; i++ {
|
|
{
|
|
var zb0003 string
|
|
zb0003, bts, err = msgp.ReadStringBytes(bts)
|
|
if err != nil {
|
|
err = msgp.WrapError(err)
|
|
return
|
|
}
|
|
(*z)[zb0003] = struct{}{}
|
|
}
|
|
}
|
|
o = bts
|
|
return
|
|
}
|
|
|
|
// Msgsize returns an upper bound estimate of the number of bytes occupied by the serialized message
|
|
func (z dataUsageHashMap) Msgsize() (s int) {
|
|
s = msgp.ArrayHeaderSize
|
|
for zb0004 := range z {
|
|
s += msgp.StringPrefixSize + len(zb0004)
|
|
}
|
|
return
|
|
}
|