minio/cmd/disk-cache-backend.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"
"crypto/md5"
"crypto/rand"
"encoding/base64"
"encoding/hex"
"errors"
"fmt"
"io"
"net/http"
"os"
"path"
"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/djherbis/atime"
"github.com/minio/minio/internal/amztime"
"github.com/minio/minio/internal/config/cache"
"github.com/minio/minio/internal/crypto"
"github.com/minio/minio/internal/disk"
"github.com/minio/minio/internal/fips"
"github.com/minio/minio/internal/hash"
xhttp "github.com/minio/minio/internal/http"
xioutil "github.com/minio/minio/internal/ioutil"
"github.com/minio/minio/internal/kms"
"github.com/minio/minio/internal/logger"
"github.com/minio/sio"
)
const (
// cache.json object metadata for cached objects.
cacheMetaJSONFile = "cache.json"
cacheDataFile = "part.1"
cacheDataFilePrefix = "part"
cacheMetaVersion = "1.0.0"
cacheExpiryDays = 90 * time.Hour * 24 // defaults to 90 days
// SSECacheEncrypted is the metadata key indicating that the object
// is a cache entry encrypted with cache KMS master key in globalCacheKMS.
SSECacheEncrypted = "X-Minio-Internal-Encrypted-Cache"
cacheMultipartDir = "multipart"
cacheWritebackDir = "writeback"
cacheStaleUploadCleanupInterval = time.Hour * 24
cacheStaleUploadExpiry = time.Hour * 24
cacheWBStaleUploadExpiry = time.Hour * 24 * 7
)
// CacheChecksumInfoV1 - carries checksums of individual blocks on disk.
type CacheChecksumInfoV1 struct {
Algorithm string `json:"algorithm"`
Blocksize int64 `json:"blocksize"`
}
// Represents the cache metadata struct
type cacheMeta struct {
Version string `json:"version"`
Stat StatInfo `json:"stat"` // Stat of the current object `cache.json`.
// checksums of blocks on disk.
Checksum CacheChecksumInfoV1 `json:"checksum,omitempty"`
// Metadata map for current object.
Meta map[string]string `json:"meta,omitempty"`
// Ranges maps cached range to associated filename.
Ranges map[string]string `json:"ranges,omitempty"`
// Hits is a counter on the number of times this object has been accessed so far.
Hits int `json:"hits,omitempty"`
Bucket string `json:"bucket,omitempty"`
Object string `json:"object,omitempty"`
// for multipart upload
PartNumbers []int `json:"partNums,omitempty"` // Part Numbers
PartETags []string `json:"partETags,omitempty"` // Part ETags
PartSizes []int64 `json:"partSizes,omitempty"` // Part Sizes
PartActualSizes []int64 `json:"partASizes,omitempty"` // Part ActualSizes (compression)
}
// RangeInfo has the range, file and range length information for a cached range.
type RangeInfo struct {
Range string
File string
Size int64
}
// Empty returns true if this is an empty struct
func (r *RangeInfo) Empty() bool {
return r.Range == "" && r.File == "" && r.Size == 0
}
func (m *cacheMeta) ToObjectInfo() (o ObjectInfo) {
if len(m.Meta) == 0 {
m.Meta = make(map[string]string)
m.Stat.ModTime = timeSentinel
}
o = ObjectInfo{
Bucket: m.Bucket,
Name: m.Object,
CacheStatus: CacheHit,
CacheLookupStatus: CacheHit,
}
meta := cloneMSS(m.Meta)
// We set file info only if its valid.
o.Size = m.Stat.Size
o.ETag = extractETag(meta)
o.ContentType = meta["content-type"]
o.ContentEncoding = meta["content-encoding"]
if storageClass, ok := meta[xhttp.AmzStorageClass]; ok {
o.StorageClass = storageClass
} else {
o.StorageClass = globalMinioDefaultStorageClass
}
if exp, ok := meta["expires"]; ok {
if t, e := amztime.ParseHeader(exp); e == nil {
o.Expires = t.UTC()
}
}
if mtime, ok := meta["last-modified"]; ok {
if t, e := amztime.ParseHeader(mtime); e == nil {
o.ModTime = t.UTC()
}
}
o.Parts = make([]ObjectPartInfo, len(m.PartNumbers))
for i := range m.PartNumbers {
o.Parts[i].Number = m.PartNumbers[i]
o.Parts[i].Size = m.PartSizes[i]
o.Parts[i].ETag = m.PartETags[i]
o.Parts[i].ActualSize = m.PartActualSizes[i]
}
// etag/md5Sum has already been extracted. We need to
// remove to avoid it from appearing as part of user-defined metadata
o.UserDefined = cleanMetadata(meta)
return o
}
// represents disk cache struct
type diskCache struct {
// is set to 0 if drive is offline
online uint32 // ref: https://golang.org/pkg/sync/atomic/#pkg-note-BUG
purgeRunning int32
triggerGC chan struct{}
dir string // caching directory
stats CacheDiskStats // disk cache stats for prometheus
quotaPct int // max usage in %
pool sync.Pool
after int // minimum accesses before an object is cached.
lowWatermark int
highWatermark int
enableRange bool
commitWriteback bool
commitWritethrough bool
retryWritebackCh chan ObjectInfo
// nsMutex namespace lock
nsMutex *nsLockMap
// Object functions pointing to the corresponding functions of backend implementation.
NewNSLockFn func(cachePath string) RWLocker
}
// Inits the disk cache dir if it is not initialized already.
func newDiskCache(ctx context.Context, dir string, config cache.Config) (*diskCache, error) {
quotaPct := config.MaxUse
if quotaPct == 0 {
quotaPct = config.Quota
}
if err := os.MkdirAll(dir, 0o777); err != nil {
return nil, fmt.Errorf("Unable to initialize '%s' dir, %w", dir, err)
}
cache := diskCache{
dir: dir,
triggerGC: make(chan struct{}, 1),
stats: CacheDiskStats{Dir: dir},
quotaPct: quotaPct,
after: config.After,
lowWatermark: config.WatermarkLow,
highWatermark: config.WatermarkHigh,
enableRange: config.Range,
commitWriteback: config.CacheCommitMode == CommitWriteBack,
commitWritethrough: config.CacheCommitMode == CommitWriteThrough,
retryWritebackCh: make(chan ObjectInfo, 10000),
online: 1,
pool: sync.Pool{
New: func() interface{} {
b := disk.AlignedBlock(int(cacheBlkSize))
return &b
},
},
nsMutex: newNSLock(false),
}
go cache.purgeWait(ctx)
go cache.cleanupStaleUploads(ctx)
if cache.commitWriteback {
go cache.scanCacheWritebackFailures(ctx)
}
cache.diskSpaceAvailable(0) // update if cache usage is already high.
cache.NewNSLockFn = func(cachePath string) RWLocker {
return cache.nsMutex.NewNSLock(nil, cachePath, "")
}
return &cache, nil
}
// diskUsageLow() returns true if disk usage falls below the low watermark w.r.t configured cache quota.
// Ex. for a 100GB disk, if quota is configured as 70% and watermark_low = 80% and
// watermark_high = 90% then garbage collection starts when 63% of disk is used and
// stops when disk usage drops to 56%
func (c *diskCache) diskUsageLow() bool {
gcStopPct := c.quotaPct * c.lowWatermark / 100
di, err := disk.GetInfo(c.dir, false)
if err != nil {
reqInfo := (&logger.ReqInfo{}).AppendTags("cachePath", c.dir)
ctx := logger.SetReqInfo(GlobalContext, reqInfo)
logger.LogIf(ctx, err)
return false
}
usedPercent := float64(di.Used) * 100 / float64(di.Total)
low := int(usedPercent) < gcStopPct
atomic.StoreUint64(&c.stats.UsagePercent, uint64(usedPercent))
if low {
atomic.StoreInt32(&c.stats.UsageState, 0)
}
return low
}
// Returns if the disk usage reaches or exceeds configured cache quota when size is added.
// If current usage without size exceeds high watermark a GC is automatically queued.
func (c *diskCache) diskSpaceAvailable(size int64) bool {
reqInfo := (&logger.ReqInfo{}).AppendTags("cachePath", c.dir)
ctx := logger.SetReqInfo(GlobalContext, reqInfo)
gcTriggerPct := c.quotaPct * c.highWatermark / 100
di, err := disk.GetInfo(c.dir, false)
if err != nil {
logger.LogIf(ctx, err)
return false
}
if di.Total == 0 {
logger.LogIf(ctx, errors.New("diskCache: Received 0 total disk size"))
return false
}
usedPercent := float64(di.Used) * 100 / float64(di.Total)
if usedPercent >= float64(gcTriggerPct) {
atomic.StoreInt32(&c.stats.UsageState, 1)
c.queueGC()
}
atomic.StoreUint64(&c.stats.UsagePercent, uint64(usedPercent))
// Recalculate percentage with provided size added.
usedPercent = float64(di.Used+uint64(size)) * 100 / float64(di.Total)
return usedPercent < float64(c.quotaPct)
}
// queueGC will queue a GC.
// Calling this function is always non-blocking.
func (c *diskCache) queueGC() {
select {
case c.triggerGC <- struct{}{}:
default:
}
}
// toClear returns how many bytes should be cleared to reach the low watermark quota.
// returns 0 if below quota.
func (c *diskCache) toClear() uint64 {
di, err := disk.GetInfo(c.dir, false)
if err != nil {
reqInfo := (&logger.ReqInfo{}).AppendTags("cachePath", c.dir)
ctx := logger.SetReqInfo(GlobalContext, reqInfo)
logger.LogIf(ctx, err)
return 0
}
return bytesToClear(int64(di.Total), int64(di.Free), uint64(c.quotaPct), uint64(c.lowWatermark), uint64(c.highWatermark))
}
func (c *diskCache) purgeWait(ctx context.Context) {
for {
select {
case <-ctx.Done():
case <-c.triggerGC: // wait here until someone triggers.
c.purge(ctx)
}
}
}
// Purge cache entries that were not accessed.
func (c *diskCache) purge(ctx context.Context) {
if atomic.LoadInt32(&c.purgeRunning) == 1 || c.diskUsageLow() {
return
}
toFree := c.toClear()
if toFree == 0 {
return
}
atomic.StoreInt32(&c.purgeRunning, 1) // do not run concurrent purge()
defer atomic.StoreInt32(&c.purgeRunning, 0)
// expiry for cleaning up old cache.json files that
// need to be cleaned up.
expiry := UTCNow().Add(-cacheExpiryDays)
// defaulting max hits count to 100
// ignore error we know what value we are passing.
scorer, err := newFileScorer(toFree, time.Now().Unix(), 100)
if err != nil {
logger.LogIf(ctx, err)
return
}
// this function returns FileInfo for cached range files.
fiStatRangesFn := func(ranges map[string]string, pathPrefix string) map[string]os.FileInfo {
fm := make(map[string]os.FileInfo)
for _, rngFile := range ranges {
fname := pathJoin(pathPrefix, rngFile)
if fi, err := os.Stat(fname); err == nil {
fm[fname] = fi
}
}
return fm
}
// this function returns most recent Atime among cached part files.
lastAtimeFn := func(partNums []int, pathPrefix string) time.Time {
lastATime := timeSentinel
for _, pnum := range partNums {
fname := pathJoin(pathPrefix, fmt.Sprintf("%s.%d", cacheDataFilePrefix, pnum))
if fi, err := os.Stat(fname); err == nil {
if atime.Get(fi).After(lastATime) {
lastATime = atime.Get(fi)
}
}
}
if len(partNums) == 0 {
fname := pathJoin(pathPrefix, cacheDataFile)
if fi, err := os.Stat(fname); err == nil {
lastATime = atime.Get(fi)
}
}
return lastATime
}
filterFn := func(name string, typ os.FileMode) error {
if name == minioMetaBucket {
// Proceed to next file.
return nil
}
cacheDir := pathJoin(c.dir, name)
meta, _, numHits, err := c.statCachedMeta(ctx, cacheDir)
if err != nil {
// delete any partially filled cache entry left behind.
removeAll(cacheDir)
// Proceed to next file.
return nil
}
// get last access time of cache part files
lastAtime := lastAtimeFn(meta.PartNumbers, pathJoin(c.dir, name))
// stat all cached file ranges.
cachedRngFiles := fiStatRangesFn(meta.Ranges, pathJoin(c.dir, name))
objInfo := meta.ToObjectInfo()
// prevent gc from clearing un-synced commits. This metadata is present when
// cache writeback commit setting is enabled.
status, ok := objInfo.UserDefined[writeBackStatusHeader]
if ok && status != CommitComplete.String() {
return nil
}
cc := cacheControlOpts(objInfo)
switch {
case cc != nil:
if cc.isStale(objInfo.ModTime) {
removeAll(cacheDir)
scorer.adjustSaveBytes(-objInfo.Size)
// break early if sufficient disk space reclaimed.
if c.diskUsageLow() {
// if we found disk usage is already low, we return nil filtering is complete.
return errDoneForNow
}
}
case lastAtime != timeSentinel:
// cached multipart or single part
objInfo.AccTime = lastAtime
objInfo.Name = pathJoin(c.dir, name, cacheDataFile)
scorer.addFileWithObjInfo(objInfo, numHits)
}
for fname, fi := range cachedRngFiles {
if fi == nil {
continue
}
if cc != nil {
if cc.isStale(objInfo.ModTime) {
removeAll(fname)
scorer.adjustSaveBytes(-fi.Size())
// break early if sufficient disk space reclaimed.
if c.diskUsageLow() {
// if we found disk usage is already low, we return nil filtering is complete.
return errDoneForNow
}
}
continue
}
scorer.addFile(fname, atime.Get(fi), fi.Size(), numHits)
}
// clean up stale cache.json files for objects that never got cached but access count was maintained in cache.json
fi, err := os.Stat(pathJoin(cacheDir, cacheMetaJSONFile))
if err != nil || (fi != nil && fi.ModTime().Before(expiry) && len(cachedRngFiles) == 0) {
removeAll(cacheDir)
if fi != nil {
scorer.adjustSaveBytes(-fi.Size())
}
// Proceed to next file.
return nil
}
// if we found disk usage is already low, we return nil filtering is complete.
if c.diskUsageLow() {
return errDoneForNow
}
// Proceed to next file.
return nil
}
if err := readDirFn(c.dir, filterFn); err != nil {
logger.LogIf(ctx, err)
return
}
scorer.purgeFunc(func(qfile queuedFile) {
fileName := qfile.name
removeAll(fileName)
slashIdx := strings.LastIndex(fileName, SlashSeparator)
if slashIdx >= 0 {
fileNamePrefix := fileName[0:slashIdx]
fname := fileName[slashIdx+1:]
if fname == cacheDataFile {
removeAll(fileNamePrefix)
}
}
})
scorer.reset()
}
// sets cache drive status
func (c *diskCache) setOffline() {
atomic.StoreUint32(&c.online, 0)
}
// returns true if cache drive is online
func (c *diskCache) IsOnline() bool {
return atomic.LoadUint32(&c.online) != 0
}
// Stat returns ObjectInfo from disk cache
func (c *diskCache) Stat(ctx context.Context, bucket, object string) (oi ObjectInfo, numHits int, err error) {
var partial bool
var meta *cacheMeta
cacheObjPath := getCacheSHADir(c.dir, bucket, object)
// Stat the file to get file size.
meta, partial, numHits, err = c.statCachedMeta(ctx, cacheObjPath)
if err != nil {
return
}
if partial {
return oi, numHits, errFileNotFound
}
oi = meta.ToObjectInfo()
oi.Bucket = bucket
oi.Name = object
if err = decryptCacheObjectETag(&oi); err != nil {
return
}
return
}
// statCachedMeta returns metadata from cache - including ranges cached, partial to indicate
// if partial object is cached.
func (c *diskCache) statCachedMeta(ctx context.Context, cacheObjPath string) (meta *cacheMeta, partial bool, numHits int, err error) {
cLock := c.NewNSLockFn(cacheObjPath)
lkctx, err := cLock.GetRLock(ctx, globalOperationTimeout)
if err != nil {
return
}
ctx = lkctx.Context()
defer cLock.RUnlock(lkctx)
return c.statCache(ctx, cacheObjPath)
}
// statRange returns ObjectInfo and RangeInfo from disk cache
func (c *diskCache) statRange(ctx context.Context, bucket, object string, rs *HTTPRangeSpec) (oi ObjectInfo, rngInfo RangeInfo, numHits int, err error) {
// Stat the file to get file size.
cacheObjPath := getCacheSHADir(c.dir, bucket, object)
var meta *cacheMeta
var partial bool
meta, partial, numHits, err = c.statCachedMeta(ctx, cacheObjPath)
if err != nil {
return
}
oi = meta.ToObjectInfo()
oi.Bucket = bucket
oi.Name = object
if !partial {
err = decryptCacheObjectETag(&oi)
return
}
actualSize := uint64(meta.Stat.Size)
var length int64
_, length, err = rs.GetOffsetLength(int64(actualSize))
if err != nil {
return
}
actualRngSize := uint64(length)
if globalCacheKMS != nil {
actualRngSize, _ = sio.EncryptedSize(uint64(length))
}
rng := rs.String(int64(actualSize))
rngFile, ok := meta.Ranges[rng]
if !ok {
return oi, rngInfo, numHits, ObjectNotFound{Bucket: bucket, Object: object}
}
if _, err = os.Stat(pathJoin(cacheObjPath, rngFile)); err != nil {
return oi, rngInfo, numHits, ObjectNotFound{Bucket: bucket, Object: object}
}
rngInfo = RangeInfo{Range: rng, File: rngFile, Size: int64(actualRngSize)}
err = decryptCacheObjectETag(&oi)
return
}
// statCache is a convenience function for purge() to get ObjectInfo for cached object
func (c *diskCache) statCache(ctx context.Context, cacheObjPath string) (meta *cacheMeta, partial bool, numHits int, err error) {
// Stat the file to get file size.
metaPath := pathJoin(cacheObjPath, cacheMetaJSONFile)
f, err := os.Open(metaPath)
if err != nil {
return meta, partial, 0, err
}
defer f.Close()
meta = &cacheMeta{Version: cacheMetaVersion}
if err := jsonLoad(f, meta); err != nil {
return meta, partial, 0, err
}
// get metadata of part.1 if full file has been cached.
partial = true
if _, err := os.Stat(pathJoin(cacheObjPath, cacheDataFile)); err == nil {
partial = false
}
if writebackInProgress(meta.Meta) {
partial = false
}
return meta, partial, meta.Hits, nil
}
// saves object metadata to disk cache
// incHitsOnly is true if metadata update is incrementing only the hit counter
// finalizeWB is true only if metadata update accompanied by moving part from temp location to cache dir.
func (c *diskCache) SaveMetadata(ctx context.Context, bucket, object string, meta map[string]string, actualSize int64, rs *HTTPRangeSpec, rsFileName string, incHitsOnly, finalizeWB bool) error {
cachedPath := getCacheSHADir(c.dir, bucket, object)
cLock := c.NewNSLockFn(cachedPath)
lkctx, err := cLock.GetLock(ctx, globalOperationTimeout)
if err != nil {
return err
}
ctx = lkctx.Context()
defer cLock.Unlock(lkctx)
if err = c.saveMetadata(ctx, bucket, object, meta, actualSize, rs, rsFileName, incHitsOnly); err != nil {
return err
}
// move part saved in writeback directory and cache.json atomically
if finalizeWB {
wbdir := getCacheWriteBackSHADir(c.dir, bucket, object)
if err = renameAll(pathJoin(wbdir, cacheDataFile), pathJoin(cachedPath, cacheDataFile), c.dir); err != nil {
return err
}
removeAll(wbdir) // cleanup writeback/shadir
}
return nil
}
// saves object metadata to disk cache
// incHitsOnly is true if metadata update is incrementing only the hit counter
func (c *diskCache) saveMetadata(ctx context.Context, bucket, object string, meta map[string]string, actualSize int64, rs *HTTPRangeSpec, rsFileName string, incHitsOnly bool) error {
cachedPath := getCacheSHADir(c.dir, bucket, object)
metaPath := pathJoin(cachedPath, cacheMetaJSONFile)
// Create cache directory if needed
if err := os.MkdirAll(cachedPath, 0o777); err != nil {
return err
}
f, err := OpenFile(metaPath, os.O_RDWR|os.O_CREATE|writeMode, 0o666)
if err != nil {
return err
}
defer f.Close()
m := &cacheMeta{
Version: cacheMetaVersion,
Bucket: bucket,
Object: object,
}
if err := jsonLoad(f, m); err != nil && err != io.EOF {
return err
}
// increment hits
if rs != nil {
// rsFileName gets set by putRange. Check for blank values here
// coming from other code paths that set rs only (eg initial creation or hit increment).
if rsFileName != "" {
if m.Ranges == nil {
m.Ranges = make(map[string]string)
}
m.Ranges[rs.String(actualSize)] = rsFileName
}
}
if rs == nil && !incHitsOnly {
// this is necessary cleanup of range files if entire object is cached.
if _, err := os.Stat(pathJoin(cachedPath, cacheDataFile)); err == nil {
for _, f := range m.Ranges {
removeAll(pathJoin(cachedPath, f))
}
m.Ranges = nil
}
}
m.Stat.Size = actualSize
if !incHitsOnly {
// reset meta
m.Meta = meta
} else {
if m.Meta == nil {
m.Meta = make(map[string]string)
}
// save etag in m.Meta if missing
if _, ok := m.Meta["etag"]; !ok {
if etag, ok := meta["etag"]; ok {
m.Meta["etag"] = etag
}
}
}
m.Hits++
m.Checksum = CacheChecksumInfoV1{Algorithm: HighwayHash256S.String(), Blocksize: cacheBlkSize}
return jsonSave(f, m)
}
// updates the ETag and ModTime on cache with ETag from backend
func (c *diskCache) updateMetadata(ctx context.Context, bucket, object, etag string, modTime time.Time, size int64) error {
cachedPath := getCacheSHADir(c.dir, bucket, object)
metaPath := pathJoin(cachedPath, cacheMetaJSONFile)
// Create cache directory if needed
if err := os.MkdirAll(cachedPath, 0o777); err != nil {
return err
}
f, err := OpenFile(metaPath, os.O_RDWR|writeMode, 0o666)
if err != nil {
return err
}
defer f.Close()
m := &cacheMeta{
Version: cacheMetaVersion,
Bucket: bucket,
Object: object,
}
if err := jsonLoad(f, m); err != nil && err != io.EOF {
return err
}
if m.Meta == nil {
m.Meta = make(map[string]string)
}
var key []byte
var objectEncryptionKey crypto.ObjectKey
if globalCacheKMS != nil {
// Calculating object encryption key
key, err = decryptObjectMeta(key, bucket, object, m.Meta)
if err != nil {
return err
}
copy(objectEncryptionKey[:], key)
m.Meta["etag"] = hex.EncodeToString(objectEncryptionKey.SealETag([]byte(etag)))
} else {
m.Meta["etag"] = etag
}
m.Meta["last-modified"] = modTime.UTC().Format(http.TimeFormat)
m.Meta["Content-Length"] = strconv.Itoa(int(size))
return jsonSave(f, m)
}
func getCacheSHADir(dir, bucket, object string) string {
return pathJoin(dir, getSHA256Hash([]byte(pathJoin(bucket, object))))
}
// returns temporary writeback cache location.
func getCacheWriteBackSHADir(dir, bucket, object string) string {
return pathJoin(dir, minioMetaBucket, "writeback", getSHA256Hash([]byte(pathJoin(bucket, object))))
}
// Cache data to disk with bitrot checksum added for each block of 1MB
func (c *diskCache) bitrotWriteToCache(cachePath, fileName string, reader io.Reader, size uint64) (int64, string, error) {
if err := os.MkdirAll(cachePath, 0o777); err != nil {
return 0, "", err
}
filePath := pathJoin(cachePath, fileName)
if filePath == "" || reader == nil {
return 0, "", errInvalidArgument
}
if err := checkPathLength(filePath); err != nil {
return 0, "", err
}
f, err := os.Create(filePath)
if err != nil {
return 0, "", osErrToFileErr(err)
}
defer f.Close()
var bytesWritten int64
h := HighwayHash256S.New()
bufp := c.pool.Get().(*[]byte)
defer c.pool.Put(bufp)
md5Hash := md5.New()
var n, n2 int
for {
n, err = io.ReadFull(reader, *bufp)
if err != nil && err != io.EOF && err != io.ErrUnexpectedEOF {
return 0, "", err
}
eof := err == io.EOF || err == io.ErrUnexpectedEOF
if n == 0 && size != 0 {
// Reached EOF, nothing more to be done.
break
}
h.Reset()
if _, err = h.Write((*bufp)[:n]); err != nil {
return 0, "", err
}
hashBytes := h.Sum(nil)
// compute md5Hash of original data stream if writeback commit to cache
if c.commitWriteback || c.commitWritethrough {
if _, err = md5Hash.Write((*bufp)[:n]); err != nil {
return 0, "", err
}
}
if _, err = f.Write(hashBytes); err != nil {
return 0, "", err
}
if n2, err = f.Write((*bufp)[:n]); err != nil {
return 0, "", err
}
bytesWritten += int64(n2)
if eof {
break
}
}
md5sumCurr := md5Hash.Sum(nil)
return bytesWritten, base64.StdEncoding.EncodeToString(md5sumCurr), nil
}
func newCacheEncryptReader(ctx context.Context, content io.Reader, bucket, object string, metadata map[string]string) (r io.Reader, err error) {
objectEncryptionKey, err := newCacheEncryptMetadata(ctx, bucket, object, metadata)
if err != nil {
return nil, err
}
reader, err := sio.EncryptReader(content, sio.Config{Key: objectEncryptionKey, MinVersion: sio.Version20, CipherSuites: fips.DARECiphers()})
if err != nil {
return nil, crypto.ErrInvalidCustomerKey
}
return reader, nil
}
func newCacheEncryptMetadata(ctx context.Context, bucket, object string, metadata map[string]string) ([]byte, error) {
var sealedKey crypto.SealedKey
if globalCacheKMS == nil {
return nil, errKMSNotConfigured
}
key, err := globalCacheKMS.GenerateKey(ctx, "", kms.Context{bucket: pathJoin(bucket, object)})
if err != nil {
return nil, err
}
objectKey := crypto.GenerateKey(key.Plaintext, rand.Reader)
sealedKey = objectKey.Seal(key.Plaintext, crypto.GenerateIV(rand.Reader), crypto.S3.String(), bucket, object)
crypto.S3.CreateMetadata(metadata, key.KeyID, key.Ciphertext, sealedKey)
if etag, ok := metadata["etag"]; ok {
metadata["etag"] = hex.EncodeToString(objectKey.SealETag([]byte(etag)))
}
metadata[SSECacheEncrypted] = ""
return objectKey[:], nil
}
func (c *diskCache) GetLockContext(ctx context.Context, bucket, object string) (RWLocker, LockContext, error) {
cachePath := getCacheSHADir(c.dir, bucket, object)
cLock := c.NewNSLockFn(cachePath)
lkctx, err := cLock.GetLock(ctx, globalOperationTimeout)
return cLock, lkctx, err
}
// Caches the object to disk
func (c *diskCache) Put(ctx context.Context, bucket, object string, data io.Reader, size int64, rs *HTTPRangeSpec, opts ObjectOptions, incHitsOnly, writeback bool) (oi ObjectInfo, err error) {
cLock, lkctx, err := c.GetLockContext(ctx, bucket, object)
if err != nil {
return oi, err
}
ctx = lkctx.Context()
defer cLock.Unlock(lkctx)
return c.put(ctx, bucket, object, data, size, rs, opts, incHitsOnly, writeback)
}
// Caches the object to disk
func (c *diskCache) put(ctx context.Context, bucket, object string, data io.Reader, size int64, rs *HTTPRangeSpec, opts ObjectOptions, incHitsOnly, writeback bool) (oi ObjectInfo, err error) {
if !c.diskSpaceAvailable(size) {
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io.Copy(io.Discard, data)
return oi, errDiskFull
}
cachePath := getCacheSHADir(c.dir, bucket, object)
meta, _, numHits, err := c.statCache(ctx, cachePath)
// Case where object not yet cached
if osIsNotExist(err) && c.after >= 1 {
return oi, c.saveMetadata(ctx, bucket, object, opts.UserDefined, size, nil, "", false)
}
// Case where object already has a cache metadata entry but not yet cached
if err == nil && numHits < c.after {
cETag := extractETag(meta.Meta)
bETag := extractETag(opts.UserDefined)
if cETag == bETag {
return oi, c.saveMetadata(ctx, bucket, object, opts.UserDefined, size, nil, "", false)
}
incHitsOnly = true
}
if rs != nil {
return oi, c.putRange(ctx, bucket, object, data, size, rs, opts)
}
if !c.diskSpaceAvailable(size) {
return oi, errDiskFull
}
if writeback {
cachePath = getCacheWriteBackSHADir(c.dir, bucket, object)
}
if err := os.MkdirAll(cachePath, 0o777); err != nil {
removeAll(cachePath)
return oi, err
}
metadata := cloneMSS(opts.UserDefined)
reader := data
actualSize := uint64(size)
if globalCacheKMS != nil {
reader, err = newCacheEncryptReader(ctx, data, bucket, object, metadata)
if err != nil {
removeAll(cachePath)
return oi, err
}
actualSize, _ = sio.EncryptedSize(uint64(size))
}
n, md5sum, err := c.bitrotWriteToCache(cachePath, cacheDataFile, reader, actualSize)
if IsErr(err, baseErrs...) {
// take the cache drive offline
c.setOffline()
}
if err != nil {
removeAll(cachePath)
return oi, err
}
if actualSize != uint64(n) {
removeAll(cachePath)
return oi, IncompleteBody{Bucket: bucket, Object: object}
}
if writeback {
metadata["content-md5"] = md5sum
if md5bytes, err := base64.StdEncoding.DecodeString(md5sum); err == nil {
metadata["etag"] = hex.EncodeToString(md5bytes)
}
metadata[writeBackStatusHeader] = CommitPending.String()
}
return ObjectInfo{
Bucket: bucket,
Name: object,
ETag: metadata["etag"],
Size: n,
UserDefined: metadata,
},
c.saveMetadata(ctx, bucket, object, metadata, n, nil, "", incHitsOnly)
}
// Caches the range to disk
func (c *diskCache) putRange(ctx context.Context, bucket, object string, data io.Reader, size int64, rs *HTTPRangeSpec, opts ObjectOptions) error {
rlen, err := rs.GetLength(size)
if err != nil {
return err
}
if !c.diskSpaceAvailable(rlen) {
return errDiskFull
}
cachePath := getCacheSHADir(c.dir, bucket, object)
if err := os.MkdirAll(cachePath, 0o777); err != nil {
return err
}
metadata := cloneMSS(opts.UserDefined)
reader := data
actualSize := uint64(rlen)
// objSize is the actual size of object (with encryption overhead if any)
objSize := uint64(size)
if globalCacheKMS != nil {
reader, err = newCacheEncryptReader(ctx, data, bucket, object, metadata)
if err != nil {
return err
}
actualSize, _ = sio.EncryptedSize(uint64(rlen))
objSize, _ = sio.EncryptedSize(uint64(size))
}
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cacheFile := mustGetUUID()
n, _, err := c.bitrotWriteToCache(cachePath, cacheFile, reader, actualSize)
if IsErr(err, baseErrs...) {
// take the cache drive offline
c.setOffline()
}
if err != nil {
removeAll(cachePath)
return err
}
if actualSize != uint64(n) {
removeAll(cachePath)
return IncompleteBody{Bucket: bucket, Object: object}
}
return c.saveMetadata(ctx, bucket, object, metadata, int64(objSize), rs, cacheFile, false)
}
// checks streaming bitrot checksum of cached object before returning data
func (c *diskCache) bitrotReadFromCache(ctx context.Context, filePath string, offset, length int64, writer io.Writer) error {
h := HighwayHash256S.New()
checksumHash := make([]byte, h.Size())
startBlock := offset / cacheBlkSize
endBlock := (offset + length) / cacheBlkSize
// get block start offset
var blockStartOffset int64
if startBlock > 0 {
blockStartOffset = (cacheBlkSize + int64(h.Size())) * startBlock
}
tillLength := (cacheBlkSize + int64(h.Size())) * (endBlock - startBlock + 1)
// Start offset cannot be negative.
if offset < 0 {
logger.LogIf(ctx, errUnexpected)
return errUnexpected
}
// Writer cannot be nil.
if writer == nil {
logger.LogIf(ctx, errUnexpected)
return errUnexpected
}
var blockOffset, blockLength int64
rc, err := readCacheFileStream(filePath, blockStartOffset, tillLength)
if err != nil {
return err
}
defer rc.Close()
bufp := c.pool.Get().(*[]byte)
defer c.pool.Put(bufp)
for block := startBlock; block <= endBlock; block++ {
switch {
case startBlock == endBlock:
blockOffset = offset % cacheBlkSize
blockLength = length
case block == startBlock:
blockOffset = offset % cacheBlkSize
blockLength = cacheBlkSize - blockOffset
case block == endBlock:
blockOffset = 0
blockLength = (offset + length) % cacheBlkSize
default:
blockOffset = 0
blockLength = cacheBlkSize
}
if blockLength == 0 {
break
}
if _, err := io.ReadFull(rc, checksumHash); err != nil {
return err
}
h.Reset()
n, err := io.ReadFull(rc, *bufp)
if err != nil && err != io.EOF && err != io.ErrUnexpectedEOF {
logger.LogIf(ctx, err)
return err
}
eof := err == io.EOF || err == io.ErrUnexpectedEOF
if n == 0 && length != 0 {
// Reached EOF, nothing more to be done.
break
}
if _, e := h.Write((*bufp)[:n]); e != nil {
return e
}
hashBytes := h.Sum(nil)
if !bytes.Equal(hashBytes, checksumHash) {
err = fmt.Errorf("hashes do not match expected %s, got %s",
hex.EncodeToString(checksumHash), hex.EncodeToString(hashBytes))
logger.LogIf(GlobalContext, err)
return err
}
if _, err = io.Copy(writer, bytes.NewReader((*bufp)[blockOffset:blockOffset+blockLength])); err != nil {
if err != io.ErrClosedPipe {
logger.LogIf(ctx, err)
return err
}
eof = true
}
if eof {
break
}
}
return nil
}
// Get returns ObjectInfo and reader for object from disk cache
func (c *diskCache) Get(ctx context.Context, bucket, object string, rs *HTTPRangeSpec, h http.Header, opts ObjectOptions) (gr *GetObjectReader, numHits int, err error) {
cacheObjPath := getCacheSHADir(c.dir, bucket, object)
cLock := c.NewNSLockFn(cacheObjPath)
lkctx, err := cLock.GetRLock(ctx, globalOperationTimeout)
if err != nil {
return nil, numHits, err
}
ctx = lkctx.Context()
defer cLock.RUnlock(lkctx)
var objInfo ObjectInfo
var rngInfo RangeInfo
if objInfo, rngInfo, numHits, err = c.statRange(ctx, bucket, object, rs); err != nil {
return nil, numHits, toObjectErr(err, bucket, object)
}
cacheFile := cacheDataFile
objSize := objInfo.Size
if !rngInfo.Empty() {
// for cached ranges, need to pass actual range file size to GetObjectReader
// and clear out range spec
cacheFile = rngInfo.File
objInfo.Size = rngInfo.Size
rs = nil
}
if objInfo.IsCompressed() {
// Cache isn't compressed.
delete(objInfo.UserDefined, ReservedMetadataPrefix+"compression")
}
// For a directory, we need to send an reader that returns no bytes.
if HasSuffix(object, SlashSeparator) {
// The lock taken above is released when
// objReader.Close() is called by the caller.
gr, gerr := NewGetObjectReaderFromReader(bytes.NewBuffer(nil), objInfo, opts)
return gr, numHits, gerr
}
fn, startOffset, length, nErr := NewGetObjectReader(rs, objInfo, opts)
if nErr != nil {
return nil, numHits, nErr
}
var totalBytesRead int64
pr, pw := xioutil.WaitPipe()
if len(objInfo.Parts) > 0 {
// For negative length read everything.
if length < 0 {
length = objInfo.Size - startOffset
}
// Reply back invalid range if the input offset and length fall out of range.
if startOffset > objInfo.Size || startOffset+length > objInfo.Size {
logger.LogIf(ctx, InvalidRange{startOffset, length, objInfo.Size}, logger.Application)
return nil, numHits, InvalidRange{startOffset, length, objInfo.Size}
}
// Get start part index and offset.
partIndex, partOffset, err := cacheObjectToPartOffset(objInfo, startOffset)
if err != nil {
return nil, numHits, InvalidRange{startOffset, length, objInfo.Size}
}
// Calculate endOffset according to length
endOffset := startOffset
if length > 0 {
endOffset += length - 1
}
// Get last part index to read given length.
lastPartIndex, _, err := cacheObjectToPartOffset(objInfo, endOffset)
if err != nil {
return nil, numHits, InvalidRange{startOffset, length, objInfo.Size}
}
go func() {
for ; partIndex <= lastPartIndex; partIndex++ {
if length == totalBytesRead {
break
}
partNumber := objInfo.Parts[partIndex].Number
// Save the current part name and size.
partSize := objInfo.Parts[partIndex].Size
partLength := partSize - partOffset
// partLength should be adjusted so that we don't write more data than what was requested.
if partLength > (length - totalBytesRead) {
partLength = length - totalBytesRead
}
filePath := pathJoin(cacheObjPath, fmt.Sprintf("part.%d", partNumber))
err := c.bitrotReadFromCache(ctx, filePath, partOffset, partLength, pw)
if err != nil {
removeAll(cacheObjPath)
pw.CloseWithError(err)
break
}
totalBytesRead += partLength
// partOffset will be valid only for the first part, hence reset it to 0 for
// the remaining parts.
partOffset = 0
} // End of read all parts loop.
pw.CloseWithError(err)
}()
} else {
go func() {
if writebackInProgress(objInfo.UserDefined) {
cacheObjPath = getCacheWriteBackSHADir(c.dir, bucket, object)
}
filePath := pathJoin(cacheObjPath, cacheFile)
err := c.bitrotReadFromCache(ctx, filePath, startOffset, length, pw)
if err != nil {
removeAll(cacheObjPath)
}
pw.CloseWithError(err)
}()
}
// Cleanup function to cause the go routine above to exit, in
// case of incomplete read.
pipeCloser := func() { pr.CloseWithError(nil) }
gr, gerr := fn(pr, h, pipeCloser)
if gerr != nil {
return gr, numHits, gerr
}
if globalCacheKMS != nil {
// clean up internal SSE cache metadata
delete(gr.ObjInfo.UserDefined, xhttp.AmzServerSideEncryption)
}
if !rngInfo.Empty() {
// overlay Size with actual object size and not the range size
gr.ObjInfo.Size = objSize
}
return gr, numHits, nil
}
// deletes the cached object - caller should have taken write lock
func (c *diskCache) delete(bucket, object string) (err error) {
cacheObjPath := getCacheSHADir(c.dir, bucket, object)
return removeAll(cacheObjPath)
}
// Deletes the cached object
func (c *diskCache) Delete(ctx context.Context, bucket, object string) (err error) {
cacheObjPath := getCacheSHADir(c.dir, bucket, object)
cLock := c.NewNSLockFn(cacheObjPath)
lkctx, err := cLock.GetLock(ctx, globalOperationTimeout)
if err != nil {
return err
}
defer cLock.Unlock(lkctx)
return removeAll(cacheObjPath)
}
// convenience function to check if object is cached on this diskCache
func (c *diskCache) Exists(ctx context.Context, bucket, object string) bool {
if _, err := os.Stat(getCacheSHADir(c.dir, bucket, object)); err != nil {
return false
}
return true
}
// queues writeback upload failures on server startup
func (c *diskCache) scanCacheWritebackFailures(ctx context.Context) {
defer close(c.retryWritebackCh)
filterFn := func(name string, typ os.FileMode) error {
if name == minioMetaBucket {
// Proceed to next file.
return nil
}
cacheDir := pathJoin(c.dir, name)
meta, _, _, err := c.statCachedMeta(ctx, cacheDir)
if err != nil {
return nil
}
objInfo := meta.ToObjectInfo()
status, ok := objInfo.UserDefined[writeBackStatusHeader]
if !ok || status == CommitComplete.String() {
return nil
}
select {
case c.retryWritebackCh <- objInfo:
default:
}
return nil
}
if err := readDirFn(c.dir, filterFn); err != nil {
logger.LogIf(ctx, err)
return
}
}
// NewMultipartUpload caches multipart uploads when writethrough is MINIO_CACHE_COMMIT mode
// multiparts are saved in .minio.sys/multipart/cachePath/uploadID dir until finalized. Then the individual parts
// are moved from the upload dir to cachePath/ directory.
func (c *diskCache) NewMultipartUpload(ctx context.Context, bucket, object, uID string, opts ObjectOptions) (uploadID string, err error) {
uploadID = uID
if uploadID == "" {
return "", InvalidUploadID{
Bucket: bucket,
Object: object,
UploadID: uploadID,
}
}
cachePath := getMultipartCacheSHADir(c.dir, bucket, object)
uploadIDDir := path.Join(cachePath, uploadID)
if err := mkdirAll(uploadIDDir, 0o777, c.dir); err != nil {
return uploadID, err
}
metaPath := pathJoin(uploadIDDir, cacheMetaJSONFile)
f, err := OpenFile(metaPath, os.O_RDWR|os.O_CREATE|writeMode, 0o666)
if err != nil {
return uploadID, err
}
defer f.Close()
m := &cacheMeta{
Version: cacheMetaVersion,
Bucket: bucket,
Object: object,
}
if err := jsonLoad(f, m); err != nil && err != io.EOF {
return uploadID, err
}
m.Meta = opts.UserDefined
m.Checksum = CacheChecksumInfoV1{Algorithm: HighwayHash256S.String(), Blocksize: cacheBlkSize}
m.Stat.ModTime = UTCNow()
if globalCacheKMS != nil {
m.Meta[ReservedMetadataPrefix+"Encrypted-Multipart"] = ""
if _, err := newCacheEncryptMetadata(ctx, bucket, object, m.Meta); err != nil {
return uploadID, err
}
}
err = jsonSave(f, m)
return uploadID, err
}
// PutObjectPart caches part to cache multipart path.
func (c *diskCache) PutObjectPart(ctx context.Context, bucket, object, uploadID string, partID int, data io.Reader, size int64, opts ObjectOptions) (partInfo PartInfo, err error) {
oi := PartInfo{}
if !c.diskSpaceAvailable(size) {
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io.Copy(io.Discard, data)
return oi, errDiskFull
}
cachePath := getMultipartCacheSHADir(c.dir, bucket, object)
uploadIDDir := path.Join(cachePath, uploadID)
partIDLock := c.NewNSLockFn(pathJoin(uploadIDDir, strconv.Itoa(partID)))
lkctx, err := partIDLock.GetLock(ctx, globalOperationTimeout)
if err != nil {
return oi, err
}
ctx = lkctx.Context()
defer partIDLock.Unlock(lkctx)
meta, _, _, err := c.statCache(ctx, uploadIDDir)
// Case where object not yet cached
if err != nil {
return oi, err
}
if !c.diskSpaceAvailable(size) {
return oi, errDiskFull
}
reader := data
actualSize := uint64(size)
if globalCacheKMS != nil {
reader, err = newCachePartEncryptReader(ctx, bucket, object, partID, data, size, meta.Meta)
if err != nil {
return oi, err
}
actualSize, _ = sio.EncryptedSize(uint64(size))
}
n, md5sum, err := c.bitrotWriteToCache(uploadIDDir, fmt.Sprintf("part.%d", partID), reader, actualSize)
if IsErr(err, baseErrs...) {
// take the cache drive offline
c.setOffline()
}
if err != nil {
return oi, err
}
if actualSize != uint64(n) {
return oi, IncompleteBody{Bucket: bucket, Object: object}
}
var md5hex string
if md5bytes, err := base64.StdEncoding.DecodeString(md5sum); err == nil {
md5hex = hex.EncodeToString(md5bytes)
}
pInfo := PartInfo{
PartNumber: partID,
ETag: md5hex,
Size: n,
ActualSize: int64(actualSize),
LastModified: UTCNow(),
}
return pInfo, nil
}
// SavePartMetadata saves part upload metadata to uploadID directory on disk cache
func (c *diskCache) SavePartMetadata(ctx context.Context, bucket, object, uploadID string, partID int, pinfo PartInfo) error {
cachePath := getMultipartCacheSHADir(c.dir, bucket, object)
uploadDir := path.Join(cachePath, uploadID)
// acquire a write lock at upload path to update cache.json
uploadLock := c.NewNSLockFn(uploadDir)
ulkctx, err := uploadLock.GetLock(ctx, globalOperationTimeout)
if err != nil {
return err
}
defer uploadLock.Unlock(ulkctx)
metaPath := pathJoin(uploadDir, cacheMetaJSONFile)
f, err := OpenFile(metaPath, os.O_RDWR|writeMode, 0o666)
if err != nil {
return err
}
defer f.Close()
m := &cacheMeta{}
if err := jsonLoad(f, m); err != nil && err != io.EOF {
return err
}
var key []byte
var objectEncryptionKey crypto.ObjectKey
if globalCacheKMS != nil {
// Calculating object encryption key
key, err = decryptObjectMeta(key, bucket, object, m.Meta)
if err != nil {
return err
}
copy(objectEncryptionKey[:], key)
pinfo.ETag = hex.EncodeToString(objectEncryptionKey.SealETag([]byte(pinfo.ETag)))
}
pIdx := cacheObjPartIndex(m, partID)
if pIdx == -1 {
m.PartActualSizes = append(m.PartActualSizes, pinfo.ActualSize)
m.PartNumbers = append(m.PartNumbers, pinfo.PartNumber)
m.PartETags = append(m.PartETags, pinfo.ETag)
m.PartSizes = append(m.PartSizes, pinfo.Size)
} else {
m.PartActualSizes[pIdx] = pinfo.ActualSize
m.PartNumbers[pIdx] = pinfo.PartNumber
m.PartETags[pIdx] = pinfo.ETag
m.PartSizes[pIdx] = pinfo.Size
}
return jsonSave(f, m)
}
// newCachePartEncryptReader returns encrypted cache part reader, with part data encrypted with part encryption key
func newCachePartEncryptReader(ctx context.Context, bucket, object string, partID int, content io.Reader, size int64, metadata map[string]string) (r io.Reader, err error) {
var key []byte
var objectEncryptionKey, partEncryptionKey crypto.ObjectKey
// Calculating object encryption key
key, err = decryptObjectMeta(key, bucket, object, metadata)
if err != nil {
return nil, err
}
copy(objectEncryptionKey[:], key)
partEnckey := objectEncryptionKey.DerivePartKey(uint32(partID))
copy(partEncryptionKey[:], partEnckey[:])
wantSize := int64(-1)
if size >= 0 {
info := ObjectInfo{Size: size}
wantSize = info.EncryptedSize()
}
hReader, err := hash.NewReader(ctx, content, wantSize, "", "", size)
if err != nil {
return nil, err
}
pReader := NewPutObjReader(hReader)
content, err = pReader.WithEncryption(hReader, &partEncryptionKey)
if err != nil {
return nil, err
}
reader, err := sio.EncryptReader(content, sio.Config{Key: partEncryptionKey[:], MinVersion: sio.Version20, CipherSuites: fips.DARECiphers()})
if err != nil {
return nil, crypto.ErrInvalidCustomerKey
}
return reader, nil
}
// uploadIDExists returns error if uploadID is not being cached.
func (c *diskCache) uploadIDExists(bucket, object, uploadID string) (err error) {
mpartCachePath := getMultipartCacheSHADir(c.dir, bucket, object)
uploadIDDir := path.Join(mpartCachePath, uploadID)
if _, err := Stat(uploadIDDir); err != nil {
return err
}
return nil
}
// CompleteMultipartUpload completes multipart upload on cache. The parts and cache.json are moved from the temporary location in
// .minio.sys/multipart/cacheSHA/.. to cacheSHA path after part verification succeeds.
func (c *diskCache) CompleteMultipartUpload(ctx context.Context, bucket, object, uploadID string, uploadedParts []CompletePart, roi ObjectInfo, opts ObjectOptions) (oi ObjectInfo, err error) {
cachePath := getCacheSHADir(c.dir, bucket, object)
cLock := c.NewNSLockFn(cachePath)
lkctx, err := cLock.GetLock(ctx, globalOperationTimeout)
if err != nil {
return oi, err
}
ctx = lkctx.Context()
defer cLock.Unlock(lkctx)
mpartCachePath := getMultipartCacheSHADir(c.dir, bucket, object)
uploadIDDir := path.Join(mpartCachePath, uploadID)
uploadMeta, _, _, uerr := c.statCache(ctx, uploadIDDir)
if uerr != nil {
return oi, errUploadIDNotFound
}
// Case where object not yet cached
// Calculate full object size.
var objectSize int64
// Calculate consolidated actual size.
var objectActualSize int64
var partETags []string
partETags, err = decryptCachePartETags(uploadMeta)
if err != nil {
return oi, err
}
for i, pi := range uploadedParts {
pIdx := cacheObjPartIndex(uploadMeta, pi.PartNumber)
if pIdx == -1 {
invp := InvalidPart{
PartNumber: pi.PartNumber,
GotETag: pi.ETag,
}
return oi, invp
}
pi.ETag = canonicalizeETag(pi.ETag)
if partETags[pIdx] != pi.ETag {
invp := InvalidPart{
PartNumber: pi.PartNumber,
ExpETag: partETags[pIdx],
GotETag: pi.ETag,
}
return oi, invp
}
// All parts except the last part has to be atleast 5MB.
if (i < len(uploadedParts)-1) && !isMinAllowedPartSize(uploadMeta.PartActualSizes[pIdx]) {
return oi, PartTooSmall{
PartNumber: pi.PartNumber,
PartSize: uploadMeta.PartActualSizes[pIdx],
PartETag: pi.ETag,
}
}
// Save for total object size.
objectSize += uploadMeta.PartSizes[pIdx]
// Save the consolidated actual size.
objectActualSize += uploadMeta.PartActualSizes[pIdx]
}
uploadMeta.Stat.Size = objectSize
uploadMeta.Stat.ModTime = roi.ModTime
uploadMeta.Bucket = bucket
uploadMeta.Object = object
// if encrypted - make sure ETag updated
uploadMeta.Meta["etag"] = roi.ETag
uploadMeta.Meta[ReservedMetadataPrefix+"actual-size"] = strconv.FormatInt(objectActualSize, 10)
var cpartETags []string
var cpartNums []int
var cpartSizes, cpartActualSizes []int64
for _, pi := range uploadedParts {
pIdx := cacheObjPartIndex(uploadMeta, pi.PartNumber)
if pIdx != -1 {
cpartETags = append(cpartETags, uploadMeta.PartETags[pIdx])
cpartNums = append(cpartNums, uploadMeta.PartNumbers[pIdx])
cpartSizes = append(cpartSizes, uploadMeta.PartSizes[pIdx])
cpartActualSizes = append(cpartActualSizes, uploadMeta.PartActualSizes[pIdx])
}
}
uploadMeta.PartETags = cpartETags
uploadMeta.PartSizes = cpartSizes
uploadMeta.PartActualSizes = cpartActualSizes
uploadMeta.PartNumbers = cpartNums
uploadMeta.Hits++
metaPath := pathJoin(uploadIDDir, cacheMetaJSONFile)
f, err := OpenFile(metaPath, os.O_RDWR|os.O_CREATE|writeMode, 0o666)
if err != nil {
return oi, err
}
defer f.Close()
jsonSave(f, uploadMeta)
for _, pi := range uploadedParts {
part := fmt.Sprintf("part.%d", pi.PartNumber)
renameAll(pathJoin(uploadIDDir, part), pathJoin(cachePath, part), c.dir)
}
renameAll(pathJoin(uploadIDDir, cacheMetaJSONFile), pathJoin(cachePath, cacheMetaJSONFile), c.dir)
removeAll(uploadIDDir) // clean up any unused parts in the uploadIDDir
return uploadMeta.ToObjectInfo(), nil
}
func (c *diskCache) AbortUpload(bucket, object, uploadID string) (err error) {
mpartCachePath := getMultipartCacheSHADir(c.dir, bucket, object)
uploadDir := path.Join(mpartCachePath, uploadID)
return removeAll(uploadDir)
}
// cacheObjPartIndex - returns the index of matching object part number.
func cacheObjPartIndex(m *cacheMeta, partNumber int) int {
for i, part := range m.PartNumbers {
if partNumber == part {
return i
}
}
return -1
}
// cacheObjectToPartOffset calculates part index and part offset for requested offset for content on cache.
func cacheObjectToPartOffset(objInfo ObjectInfo, offset int64) (partIndex int, partOffset int64, err error) {
if offset == 0 {
// Special case - if offset is 0, then partIndex and partOffset are always 0.
return 0, 0, nil
}
partOffset = offset
// Seek until object offset maps to a particular part offset.
for i, part := range objInfo.Parts {
partIndex = i
// Offset is smaller than size we have reached the proper part offset.
if partOffset < part.Size {
return partIndex, partOffset, nil
}
// Continue to towards the next part.
partOffset -= part.Size
}
// Offset beyond the size of the object return InvalidRange.
return 0, 0, InvalidRange{}
}
// get path of on-going multipart caching
func getMultipartCacheSHADir(dir, bucket, object string) string {
return pathJoin(dir, minioMetaBucket, cacheMultipartDir, getSHA256Hash([]byte(pathJoin(bucket, object))))
}
// clean up stale cache multipart uploads according to cleanup interval.
func (c *diskCache) cleanupStaleUploads(ctx context.Context) {
timer := time.NewTimer(cacheStaleUploadCleanupInterval)
defer timer.Stop()
for {
select {
case <-ctx.Done():
return
case <-timer.C:
now := time.Now()
readDirFn(pathJoin(c.dir, minioMetaBucket, cacheMultipartDir), func(shaDir string, typ os.FileMode) error {
return readDirFn(pathJoin(c.dir, minioMetaBucket, cacheMultipartDir, shaDir), func(uploadIDDir string, typ os.FileMode) error {
uploadIDPath := pathJoin(c.dir, minioMetaBucket, cacheMultipartDir, shaDir, uploadIDDir)
fi, err := Stat(uploadIDPath)
if err != nil {
return nil
}
if now.Sub(fi.ModTime()) > cacheStaleUploadExpiry {
removeAll(uploadIDPath)
}
return nil
})
})
// clean up of writeback folder where cache.json no longer exists in the main c.dir/<sha256(bucket,object> path
// and if past upload expiry window.
readDirFn(pathJoin(c.dir, minioMetaBucket, cacheWritebackDir), func(shaDir string, typ os.FileMode) error {
wbdir := pathJoin(c.dir, minioMetaBucket, cacheWritebackDir, shaDir)
cachedir := pathJoin(c.dir, shaDir)
if _, err := Stat(cachedir); os.IsNotExist(err) {
fi, err := Stat(wbdir)
if err != nil {
return nil
}
if now.Sub(fi.ModTime()) > cacheWBStaleUploadExpiry {
return removeAll(wbdir)
}
}
return nil
})
// Reset for the next interval
timer.Reset(cacheStaleUploadCleanupInterval)
}
}
}