/* * MinIO Cloud Storage, (C) 2018 MinIO, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package cmd import ( "context" "errors" "fmt" "io" "io/ioutil" "net/http" "os" "sort" "strconv" "strings" "time" "github.com/djherbis/atime" "github.com/minio/minio/cmd/crypto" "github.com/minio/minio/cmd/logger" "github.com/minio/minio/pkg/hash" "github.com/minio/minio/pkg/wildcard" ) const ( // disk cache needs to have object size space free for a cache entry to be created. cacheTrashDir = "trash" cacheCleanupInterval = 10 // in minutes ) // abstract slice of cache drives backed by FS. type diskCache struct { cfs []*cacheFSObjects } // Abstracts disk caching - used by the S3 layer type cacheObjects struct { // pointer to disk cache cache *diskCache // ListObjects pool management. listPool *TreeWalkPool // file path patterns to exclude from cache exclude []string // Object functions pointing to the corresponding functions of backend implementation. GetObjectNInfoFn func(ctx context.Context, bucket, object string, rs *HTTPRangeSpec, h http.Header, lockType LockType, opts ObjectOptions) (gr *GetObjectReader, err error) GetObjectFn func(ctx context.Context, bucket, object string, startOffset int64, length int64, writer io.Writer, etag string, opts ObjectOptions) (err error) GetObjectInfoFn func(ctx context.Context, bucket, object string, opts ObjectOptions) (objInfo ObjectInfo, err error) PutObjectFn func(ctx context.Context, bucket, object string, data *PutObjReader, opts ObjectOptions) (objInfo ObjectInfo, err error) DeleteObjectFn func(ctx context.Context, bucket, object string) error ListObjectsFn func(ctx context.Context, bucket, prefix, marker, delimiter string, maxKeys int) (result ListObjectsInfo, err error) ListObjectsV2Fn func(ctx context.Context, bucket, prefix, continuationToken, delimiter string, maxKeys int, fetchOwner bool, startAfter string) (result ListObjectsV2Info, err error) ListBucketsFn func(ctx context.Context) (buckets []BucketInfo, err error) GetBucketInfoFn func(ctx context.Context, bucket string) (bucketInfo BucketInfo, err error) NewMultipartUploadFn func(ctx context.Context, bucket, object string, opts ObjectOptions) (uploadID string, err error) PutObjectPartFn func(ctx context.Context, bucket, object, uploadID string, partID int, data *PutObjReader, opts ObjectOptions) (info PartInfo, err error) AbortMultipartUploadFn func(ctx context.Context, bucket, object, uploadID string) error CompleteMultipartUploadFn func(ctx context.Context, bucket, object, uploadID string, uploadedParts []CompletePart, opts ObjectOptions) (objInfo ObjectInfo, err error) DeleteBucketFn func(ctx context.Context, bucket string) error } // CacheStorageInfo - represents total, free capacity of // underlying cache storage. type CacheStorageInfo struct { Total uint64 // Total cache disk space. Free uint64 // Free cache available space. } // CacheObjectLayer implements primitives for cache object API layer. type CacheObjectLayer interface { // Bucket operations. ListObjects(ctx context.Context, bucket, prefix, marker, delimiter string, maxKeys int) (result ListObjectsInfo, err error) ListObjectsV2(ctx context.Context, bucket, prefix, continuationToken, delimiter string, maxKeys int, fetchOwner bool, startAfter string) (result ListObjectsV2Info, err error) GetBucketInfo(ctx context.Context, bucket string) (bucketInfo BucketInfo, err error) ListBuckets(ctx context.Context) (buckets []BucketInfo, err error) DeleteBucket(ctx context.Context, bucket string) error // Object operations. GetObjectNInfo(ctx context.Context, bucket, object string, rs *HTTPRangeSpec, h http.Header, lockType LockType, opts ObjectOptions) (gr *GetObjectReader, err error) GetObject(ctx context.Context, bucket, object string, startOffset int64, length int64, writer io.Writer, etag string, opts ObjectOptions) (err error) GetObjectInfo(ctx context.Context, bucket, object string, opts ObjectOptions) (objInfo ObjectInfo, err error) PutObject(ctx context.Context, bucket, object string, data *PutObjReader, opts ObjectOptions) (objInfo ObjectInfo, err error) DeleteObject(ctx context.Context, bucket, object string) error // Multipart operations. NewMultipartUpload(ctx context.Context, bucket, object string, opts ObjectOptions) (uploadID string, err error) PutObjectPart(ctx context.Context, bucket, object, uploadID string, partID int, data *PutObjReader, opts ObjectOptions) (info PartInfo, err error) AbortMultipartUpload(ctx context.Context, bucket, object, uploadID string) error CompleteMultipartUpload(ctx context.Context, bucket, object, uploadID string, uploadedParts []CompletePart, opts ObjectOptions) (objInfo ObjectInfo, err error) // Storage operations. StorageInfo(ctx context.Context) CacheStorageInfo } // IsCacheable returns if the object should be saved in the cache. func (o ObjectInfo) IsCacheable() bool { return !crypto.IsEncrypted(o.UserDefined) } // backendDownError returns true if err is due to backend failure or faulty disk if in server mode func backendDownError(err error) bool { _, backendDown := err.(BackendDown) return backendDown || IsErr(err, baseErrs...) } // get cache disk where object is currently cached for a GET operation. If object does not exist at that location, // treat the list of cache drives as a circular buffer and walk through them starting at hash index // until an online drive is found.If object is not found, fall back to the first online cache drive // closest to the hash index, so that object can be recached. func (c diskCache) getCachedFSLoc(ctx context.Context, bucket, object string) (*cacheFSObjects, error) { index := c.hashIndex(bucket, object) numDisks := len(c.cfs) // save first online cache disk closest to the hint index var firstOnlineDisk *cacheFSObjects for k := 0; k < numDisks; k++ { i := (index + k) % numDisks if c.cfs[i] == nil { continue } if c.cfs[i].IsOnline() { if firstOnlineDisk == nil { firstOnlineDisk = c.cfs[i] } if c.cfs[i].Exists(ctx, bucket, object) { return c.cfs[i], nil } } } if firstOnlineDisk != nil { return firstOnlineDisk, nil } return nil, errDiskNotFound } // choose a cache deterministically based on hash of bucket,object. The hash index is treated as // a hint. In the event that the cache drive at hash index is offline, treat the list of cache drives // as a circular buffer and walk through them starting at hash index until an online drive is found. func (c diskCache) getCacheFS(ctx context.Context, bucket, object string) (*cacheFSObjects, error) { index := c.hashIndex(bucket, object) numDisks := len(c.cfs) for k := 0; k < numDisks; k++ { i := (index + k) % numDisks if c.cfs[i] == nil { continue } if c.cfs[i].IsOnline() { return c.cfs[i], nil } } return nil, errDiskNotFound } // Compute a unique hash sum for bucket and object func (c diskCache) hashIndex(bucket, object string) int { return crcHashMod(pathJoin(bucket, object), len(c.cfs)) } // construct a metadata k-v map func (c cacheObjects) getMetadata(objInfo ObjectInfo) map[string]string { metadata := make(map[string]string) metadata["etag"] = objInfo.ETag metadata["content-type"] = objInfo.ContentType metadata["content-encoding"] = objInfo.ContentEncoding for key, val := range objInfo.UserDefined { metadata[key] = val } return metadata } func (c cacheObjects) GetObjectNInfo(ctx context.Context, bucket, object string, rs *HTTPRangeSpec, h http.Header, lockType LockType, opts ObjectOptions) (gr *GetObjectReader, err error) { if c.isCacheExclude(bucket, object) { return c.GetObjectNInfoFn(ctx, bucket, object, rs, h, lockType, opts) } // fetch cacheFSObjects if object is currently cached or nearest available cache drive dcache, err := c.cache.getCachedFSLoc(ctx, bucket, object) if err != nil { return c.GetObjectNInfoFn(ctx, bucket, object, rs, h, lockType, opts) } cacheReader, cacheErr := dcache.GetObjectNInfo(ctx, bucket, object, rs, h, lockType, opts) objInfo, err := c.GetObjectInfoFn(ctx, bucket, object, opts) if backendDownError(err) && cacheErr == nil { return cacheReader, nil } else if err != nil { if _, ok := err.(ObjectNotFound); ok { if cacheErr == nil { cacheReader.Close() // Delete cached entry if backend object // was deleted. dcache.Delete(ctx, bucket, object) } } return nil, err } if !objInfo.IsCacheable() || filterFromCache(objInfo.UserDefined) { return c.GetObjectNInfoFn(ctx, bucket, object, rs, h, lockType, opts) } if cacheErr == nil { if cacheReader.ObjInfo.ETag == objInfo.ETag && !isStaleCache(objInfo) { // Object is not stale, so serve from cache return cacheReader, nil } cacheReader.Close() // Object is stale, so delete from cache dcache.Delete(ctx, bucket, object) } // Since we got here, we are serving the request from backend, // and also adding the object to the cache. if rs != nil { // We don't cache partial objects. return c.GetObjectNInfoFn(ctx, bucket, object, rs, h, lockType, opts) } if !dcache.diskAvailable(objInfo.Size) { return c.GetObjectNInfoFn(ctx, bucket, object, rs, h, lockType, opts) } bkReader, bkErr := c.GetObjectNInfoFn(ctx, bucket, object, rs, h, lockType, opts) if bkErr != nil { return nil, bkErr } // Initialize pipe. pipeReader, pipeWriter := io.Pipe() teeReader := io.TeeReader(bkReader, pipeWriter) hashReader, herr := hash.NewReader(pipeReader, bkReader.ObjInfo.Size, "", "", bkReader.ObjInfo.Size) if herr != nil { bkReader.Close() return nil, herr } go func() { putErr := dcache.Put(ctx, bucket, object, NewPutObjReader(hashReader, nil, nil), ObjectOptions{UserDefined: c.getMetadata(bkReader.ObjInfo)}) // close the write end of the pipe, so the error gets // propagated to getObjReader pipeWriter.CloseWithError(putErr) }() cleanupBackend := func() { bkReader.Close() } cleanupPipe := func() { pipeReader.Close() } return NewGetObjectReaderFromReader(teeReader, bkReader.ObjInfo, opts.CheckCopyPrecondFn, cleanupBackend, cleanupPipe) } // Uses cached-object to serve the request. If object is not cached it serves the request from the backend and also // stores it in the cache for serving subsequent requests. func (c cacheObjects) GetObject(ctx context.Context, bucket, object string, startOffset int64, length int64, writer io.Writer, etag string, opts ObjectOptions) (err error) { GetObjectFn := c.GetObjectFn GetObjectInfoFn := c.GetObjectInfoFn if c.isCacheExclude(bucket, object) { return GetObjectFn(ctx, bucket, object, startOffset, length, writer, etag, opts) } // fetch cacheFSObjects if object is currently cached or nearest available cache drive dcache, err := c.cache.getCachedFSLoc(ctx, bucket, object) if err != nil { return GetObjectFn(ctx, bucket, object, startOffset, length, writer, etag, opts) } // stat object on backend objInfo, err := GetObjectInfoFn(ctx, bucket, object, opts) backendDown := backendDownError(err) if err != nil && !backendDown { if _, ok := err.(ObjectNotFound); ok { // Delete the cached entry if backend object was deleted. dcache.Delete(ctx, bucket, object) } return err } if !backendDown && !objInfo.IsCacheable() { return GetObjectFn(ctx, bucket, object, startOffset, length, writer, etag, opts) } if !backendDown && filterFromCache(objInfo.UserDefined) { return GetObjectFn(ctx, bucket, object, startOffset, length, writer, etag, opts) } cachedObjInfo, err := dcache.GetObjectInfo(ctx, bucket, object, opts) if err == nil { if backendDown { // If the backend is down, serve the request from cache. return dcache.Get(ctx, bucket, object, startOffset, length, writer, etag, opts) } if cachedObjInfo.ETag == objInfo.ETag && !isStaleCache(objInfo) { return dcache.Get(ctx, bucket, object, startOffset, length, writer, etag, opts) } dcache.Delete(ctx, bucket, object) } if startOffset != 0 || (length > 0 && length != objInfo.Size) { // We don't cache partial objects. return GetObjectFn(ctx, bucket, object, startOffset, length, writer, etag, opts) } if !dcache.diskAvailable(objInfo.Size) { return GetObjectFn(ctx, bucket, object, startOffset, length, writer, etag, opts) } // Initialize pipe. pipeReader, pipeWriter := io.Pipe() hashReader, err := hash.NewReader(pipeReader, objInfo.Size, "", "", objInfo.Size) if err != nil { return err } go func() { gerr := GetObjectFn(ctx, bucket, object, 0, objInfo.Size, io.MultiWriter(writer, pipeWriter), etag, opts) pipeWriter.CloseWithError(gerr) // Close writer explicitly signaling we wrote all data. }() opts.UserDefined = c.getMetadata(objInfo) err = dcache.Put(ctx, bucket, object, NewPutObjReader(hashReader, nil, nil), opts) if err != nil { return err } pipeReader.Close() return } // Returns ObjectInfo from cache if available. func (c cacheObjects) GetObjectInfo(ctx context.Context, bucket, object string, opts ObjectOptions) (ObjectInfo, error) { getObjectInfoFn := c.GetObjectInfoFn if c.isCacheExclude(bucket, object) { return getObjectInfoFn(ctx, bucket, object, opts) } // fetch cacheFSObjects if object is currently cached or nearest available cache drive dcache, err := c.cache.getCachedFSLoc(ctx, bucket, object) if err != nil { return getObjectInfoFn(ctx, bucket, object, opts) } objInfo, err := getObjectInfoFn(ctx, bucket, object, opts) if err != nil { if _, ok := err.(ObjectNotFound); ok { // Delete the cached entry if backend object was deleted. dcache.Delete(ctx, bucket, object) return ObjectInfo{}, err } if !backendDownError(err) { return ObjectInfo{}, err } // when backend is down, serve from cache. cachedObjInfo, cerr := dcache.GetObjectInfo(ctx, bucket, object, opts) if cerr == nil { return cachedObjInfo, nil } return ObjectInfo{}, BackendDown{} } // when backend is up, do a sanity check on cached object cachedObjInfo, err := dcache.GetObjectInfo(ctx, bucket, object, opts) if err != nil { return objInfo, nil } if cachedObjInfo.ETag != objInfo.ETag { // Delete the cached entry if the backend object was replaced. dcache.Delete(ctx, bucket, object) } return objInfo, nil } // 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. // disks - list of fsObjects func listDirCacheFactory(isLeaf IsLeafFunc, disks []*cacheFSObjects) ListDirFunc { listCacheDirs := func(bucket, prefixDir, prefixEntry string) (dirs []string) { var entries []string for _, disk := range disks { // ignore disk-caches that might be missing/offline if disk == nil { continue } fs := disk.FSObjects var err error entries, err = readDir(pathJoin(fs.fsPath, bucket, prefixDir)) if err != nil { continue } // Filter entries that have the prefix prefixEntry. entries = filterMatchingPrefix(entries, prefixEntry) dirs = append(dirs, entries...) } return dirs } // listDir - lists all the entries at a given prefix and given entry in the prefix. listDir := func(bucket, prefixDir, prefixEntry string) (mergedEntries []string, delayIsLeaf bool) { cacheEntries := listCacheDirs(bucket, prefixDir, prefixEntry) for _, entry := range cacheEntries { // Find elements in entries which are not in mergedEntries idx := sort.SearchStrings(mergedEntries, entry) // if entry is already present in mergedEntries don't add. if idx < len(mergedEntries) && mergedEntries[idx] == entry { continue } mergedEntries = append(mergedEntries, entry) sort.Strings(mergedEntries) } return mergedEntries, false } return listDir } // List all objects at prefix upto maxKeys, optionally delimited by '/' from the cache. Maintains the list pool // state for future re-entrant list requests. func (c cacheObjects) listCacheObjects(ctx context.Context, bucket, prefix, marker, delimiter string, maxKeys int) (result ListObjectsInfo, err error) { var objInfos []ObjectInfo var eof bool var nextMarker string recursive := true if delimiter == slashSeparator { recursive = false } walkResultCh, endWalkCh := c.listPool.Release(listParams{bucket, recursive, marker, prefix}) if walkResultCh == nil { endWalkCh = make(chan struct{}) isLeaf := func(bucket, object string) bool { fs, err := c.cache.getCacheFS(ctx, bucket, object) if err != nil { return false } _, err = fs.getObjectInfo(ctx, bucket, object) return err == nil } isLeafDir := func(bucket, object string) bool { fs, err := c.cache.getCacheFS(ctx, bucket, object) if err != nil { return false } return fs.isObjectDir(bucket, object) } listDir := listDirCacheFactory(isLeaf, c.cache.cfs) walkResultCh = startTreeWalk(ctx, bucket, prefix, marker, recursive, listDir, isLeaf, isLeafDir, endWalkCh) } for i := 0; i < maxKeys; { walkResult, ok := <-walkResultCh if !ok { // Closed channel. eof = true break } entry := walkResult.entry var objInfo ObjectInfo if hasSuffix(entry, slashSeparator) { // Object name needs to be full path. objInfo.Bucket = bucket objInfo.Name = entry objInfo.IsDir = true } else { // Set the Mode to a "regular" file. var err error fs, err := c.cache.getCacheFS(ctx, bucket, entry) if err != nil { // Ignore errDiskNotFound if err == errDiskNotFound { continue } return result, toObjectErr(err, bucket, prefix) } objInfo, err = fs.getObjectInfo(ctx, bucket, entry) if err != nil { // Ignore ObjectNotFound error if _, ok := err.(ObjectNotFound); ok { continue } return result, toObjectErr(err, bucket, prefix) } } nextMarker = objInfo.Name objInfos = append(objInfos, objInfo) i++ if walkResult.end { eof = true break } } params := listParams{bucket, recursive, nextMarker, prefix} if !eof { c.listPool.Set(params, walkResultCh, endWalkCh) } result = ListObjectsInfo{IsTruncated: !eof} for _, objInfo := range objInfos { result.NextMarker = objInfo.Name if objInfo.IsDir && delimiter == slashSeparator { result.Prefixes = append(result.Prefixes, objInfo.Name) continue } result.Objects = append(result.Objects, objInfo) } return result, nil } // listCacheV2Objects lists all blobs in bucket filtered by prefix from the cache func (c cacheObjects) listCacheV2Objects(ctx context.Context, bucket, prefix, continuationToken, delimiter string, maxKeys int, fetchOwner bool, startAfter string) (result ListObjectsV2Info, err error) { loi, err := c.listCacheObjects(ctx, bucket, prefix, continuationToken, 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 } // List all objects at prefix upto maxKeys., optionally delimited by '/'. Maintains the list pool // state for future re-entrant list requests. Retrieve from cache if backend is down func (c cacheObjects) ListObjects(ctx context.Context, bucket, prefix, marker, delimiter string, maxKeys int) (result ListObjectsInfo, err error) { listObjectsFn := c.ListObjectsFn result, err = listObjectsFn(ctx, bucket, prefix, marker, delimiter, maxKeys) if err != nil { if backendDownError(err) { return c.listCacheObjects(ctx, bucket, prefix, marker, delimiter, maxKeys) } return } return } // ListObjectsV2 lists all blobs in bucket filtered by prefix func (c cacheObjects) ListObjectsV2(ctx context.Context, bucket, prefix, continuationToken, delimiter string, maxKeys int, fetchOwner bool, startAfter string) (result ListObjectsV2Info, err error) { listObjectsV2Fn := c.ListObjectsV2Fn result, err = listObjectsV2Fn(ctx, bucket, prefix, continuationToken, delimiter, maxKeys, fetchOwner, startAfter) if err != nil { if backendDownError(err) { return c.listCacheV2Objects(ctx, bucket, prefix, continuationToken, delimiter, maxKeys, fetchOwner, startAfter) } return } return } // Lists all the buckets in the cache func (c cacheObjects) listBuckets(ctx context.Context) (buckets []BucketInfo, err error) { m := make(map[string]string) for _, cache := range c.cache.cfs { // ignore disk-caches that might be missing/offline if cache == nil { continue } entries, err := cache.ListBuckets(ctx) if err != nil { return nil, err } for _, entry := range entries { _, ok := m[entry.Name] if !ok { m[entry.Name] = entry.Name buckets = append(buckets, entry) } } } // Sort bucket infos by bucket name. sort.Sort(byBucketName(buckets)) return } // Returns list of buckets from cache or the backend. If the backend is down, buckets // available on cache are served. func (c cacheObjects) ListBuckets(ctx context.Context) (buckets []BucketInfo, err error) { listBucketsFn := c.ListBucketsFn buckets, err = listBucketsFn(ctx) if err != nil { if backendDownError(err) { return c.listBuckets(ctx) } return []BucketInfo{}, err } return } // Returns bucket info from cache if backend is down. func (c cacheObjects) GetBucketInfo(ctx context.Context, bucket string) (bucketInfo BucketInfo, err error) { getBucketInfoFn := c.GetBucketInfoFn bucketInfo, err = getBucketInfoFn(ctx, bucket) if backendDownError(err) { for _, cache := range c.cache.cfs { // ignore disk-caches that might be missing/offline if cache == nil { continue } if bucketInfo, err = cache.GetBucketInfo(ctx, bucket); err == nil { return } } } return } // Delete Object deletes from cache as well if backend operation succeeds func (c cacheObjects) DeleteObject(ctx context.Context, bucket, object string) (err error) { if err = c.DeleteObjectFn(ctx, bucket, object); err != nil { return } if c.isCacheExclude(bucket, object) { return } dcache, cerr := c.cache.getCachedFSLoc(ctx, bucket, object) if cerr == nil { _ = dcache.DeleteObject(ctx, bucket, object) } return } // Returns true if object should be excluded from cache func (c cacheObjects) isCacheExclude(bucket, object string) bool { for _, pattern := range c.exclude { matchStr := fmt.Sprintf("%s/%s", bucket, object) if ok := wildcard.MatchSimple(pattern, matchStr); ok { return true } } return false } // PutObject - caches the uploaded object for single Put operations func (c cacheObjects) PutObject(ctx context.Context, bucket, object string, r *PutObjReader, opts ObjectOptions) (objInfo ObjectInfo, err error) { putObjectFn := c.PutObjectFn data := r.Reader dcache, err := c.cache.getCacheFS(ctx, bucket, object) if err != nil { // disk cache could not be located,execute backend call. return putObjectFn(ctx, bucket, object, r, opts) } size := r.Size() // fetch from backend if there is no space on cache drive if !dcache.diskAvailable(size) { return putObjectFn(ctx, bucket, object, r, opts) } // fetch from backend if cache exclude pattern or cache-control // directive set to exclude if c.isCacheExclude(bucket, object) || filterFromCache(opts.UserDefined) { dcache.Delete(ctx, bucket, object) return putObjectFn(ctx, bucket, object, r, opts) } objInfo = ObjectInfo{} // Initialize pipe to stream data to backend pipeReader, pipeWriter := io.Pipe() hashReader, err := hash.NewReader(pipeReader, size, data.MD5HexString(), data.SHA256HexString(), data.ActualSize()) if err != nil { return ObjectInfo{}, err } // Initialize pipe to stream data to cache rPipe, wPipe := io.Pipe() cHashReader, err := hash.NewReader(rPipe, size, data.MD5HexString(), data.SHA256HexString(), data.ActualSize()) if err != nil { return ObjectInfo{}, err } oinfoCh := make(chan ObjectInfo) errCh := make(chan error) go func() { oinfo, perr := putObjectFn(ctx, bucket, object, NewPutObjReader(hashReader, nil, nil), opts) if perr != nil { pipeWriter.CloseWithError(perr) wPipe.CloseWithError(perr) close(oinfoCh) errCh <- perr return } close(errCh) oinfoCh <- oinfo }() go func() { if err = dcache.Put(ctx, bucket, object, NewPutObjReader(cHashReader, nil, nil), opts); err != nil { wPipe.CloseWithError(err) return } }() mwriter := io.MultiWriter(pipeWriter, wPipe) _, err = io.Copy(mwriter, data) if err != nil { err = <-errCh return objInfo, err } pipeWriter.Close() wPipe.Close() objInfo = <-oinfoCh return objInfo, err } // NewMultipartUpload - Starts a new multipart upload operation to backend and cache. func (c cacheObjects) NewMultipartUpload(ctx context.Context, bucket, object string, opts ObjectOptions) (uploadID string, err error) { newMultipartUploadFn := c.NewMultipartUploadFn if c.isCacheExclude(bucket, object) || filterFromCache(opts.UserDefined) { return newMultipartUploadFn(ctx, bucket, object, opts) } dcache, err := c.cache.getCacheFS(ctx, bucket, object) if err != nil { // disk cache could not be located,execute backend call. return newMultipartUploadFn(ctx, bucket, object, opts) } uploadID, err = newMultipartUploadFn(ctx, bucket, object, opts) if err != nil { return } // create new multipart upload in cache with same uploadID dcache.NewMultipartUpload(ctx, bucket, object, uploadID, opts) return uploadID, err } // PutObjectPart - uploads part to backend and cache simultaneously. func (c cacheObjects) PutObjectPart(ctx context.Context, bucket, object, uploadID string, partID int, r *PutObjReader, opts ObjectOptions) (info PartInfo, err error) { data := r.Reader putObjectPartFn := c.PutObjectPartFn dcache, err := c.cache.getCacheFS(ctx, bucket, object) if err != nil { // disk cache could not be located,execute backend call. return putObjectPartFn(ctx, bucket, object, uploadID, partID, r, opts) } if c.isCacheExclude(bucket, object) { return putObjectPartFn(ctx, bucket, object, uploadID, partID, r, opts) } // make sure cache has at least size space available size := data.Size() if !dcache.diskAvailable(size) { select { case dcache.purgeChan <- struct{}{}: default: } return putObjectPartFn(ctx, bucket, object, uploadID, partID, r, opts) } info = PartInfo{} // Initialize pipe to stream data to backend pipeReader, pipeWriter := io.Pipe() hashReader, err := hash.NewReader(pipeReader, size, data.MD5HexString(), data.SHA256HexString(), data.ActualSize()) if err != nil { return } // Initialize pipe to stream data to cache rPipe, wPipe := io.Pipe() cHashReader, err := hash.NewReader(rPipe, size, data.MD5HexString(), data.SHA256HexString(), data.ActualSize()) if err != nil { return } pinfoCh := make(chan PartInfo) errorCh := make(chan error) go func() { info, err = putObjectPartFn(ctx, bucket, object, uploadID, partID, NewPutObjReader(hashReader, nil, nil), opts) if err != nil { close(pinfoCh) pipeWriter.CloseWithError(err) wPipe.CloseWithError(err) errorCh <- err return } close(errorCh) pinfoCh <- info }() go func() { if _, perr := dcache.PutObjectPart(ctx, bucket, object, uploadID, partID, NewPutObjReader(cHashReader, nil, nil), opts); perr != nil { wPipe.CloseWithError(perr) return } }() mwriter := io.MultiWriter(pipeWriter, wPipe) _, err = io.Copy(mwriter, data) if err != nil { err = <-errorCh return PartInfo{}, err } pipeWriter.Close() wPipe.Close() info = <-pinfoCh return info, err } // AbortMultipartUpload - aborts multipart upload on backend and cache. func (c cacheObjects) AbortMultipartUpload(ctx context.Context, bucket, object, uploadID string) error { abortMultipartUploadFn := c.AbortMultipartUploadFn if c.isCacheExclude(bucket, object) { return abortMultipartUploadFn(ctx, bucket, object, uploadID) } dcache, err := c.cache.getCacheFS(ctx, bucket, object) if err != nil { // disk cache could not be located,execute backend call. return abortMultipartUploadFn(ctx, bucket, object, uploadID) } // execute backend operation err = abortMultipartUploadFn(ctx, bucket, object, uploadID) if err != nil { return err } // abort multipart upload on cache dcache.AbortMultipartUpload(ctx, bucket, object, uploadID) return nil } // CompleteMultipartUpload - completes multipart upload operation on backend and cache. func (c cacheObjects) CompleteMultipartUpload(ctx context.Context, bucket, object, uploadID string, uploadedParts []CompletePart, opts ObjectOptions) (objInfo ObjectInfo, err error) { completeMultipartUploadFn := c.CompleteMultipartUploadFn if c.isCacheExclude(bucket, object) { return completeMultipartUploadFn(ctx, bucket, object, uploadID, uploadedParts, opts) } dcache, err := c.cache.getCacheFS(ctx, bucket, object) if err != nil { // disk cache could not be located,execute backend call. return completeMultipartUploadFn(ctx, bucket, object, uploadID, uploadedParts, opts) } // perform backend operation objInfo, err = completeMultipartUploadFn(ctx, bucket, object, uploadID, uploadedParts, opts) if err != nil { return } // create new multipart upload in cache with same uploadID dcache.CompleteMultipartUpload(ctx, bucket, object, uploadID, uploadedParts, opts) return } // StorageInfo - returns underlying storage statistics. func (c cacheObjects) StorageInfo(ctx context.Context) (cInfo CacheStorageInfo) { var total, free uint64 for _, cfs := range c.cache.cfs { if cfs == nil { continue } info, err := getDiskInfo(cfs.fsPath) logger.GetReqInfo(ctx).AppendTags("cachePath", cfs.fsPath) logger.LogIf(ctx, err) total += info.Total free += info.Free } return CacheStorageInfo{ Total: total, Free: free, } } // DeleteBucket - marks bucket to be deleted from cache if bucket is deleted from backend. func (c cacheObjects) DeleteBucket(ctx context.Context, bucket string) (err error) { deleteBucketFn := c.DeleteBucketFn var toDel []*cacheFSObjects for _, cfs := range c.cache.cfs { // ignore disk-caches that might be missing/offline if cfs == nil { continue } if _, cerr := cfs.GetBucketInfo(ctx, bucket); cerr == nil { toDel = append(toDel, cfs) } } // perform backend operation err = deleteBucketFn(ctx, bucket) if err != nil { return } // move bucket metadata and content to cache's trash dir for _, d := range toDel { d.moveBucketToTrash(ctx, bucket) } return } // newCache initializes the cacheFSObjects for the "drives" specified in config.json // or the global env overrides. func newCache(config CacheConfig) (*diskCache, error) { var cfsObjects []*cacheFSObjects ctx := logger.SetReqInfo(context.Background(), &logger.ReqInfo{}) formats, err := loadAndValidateCacheFormat(ctx, config.Drives) if err != nil { return nil, err } for i, dir := range config.Drives { // skip cacheFSObjects creation for cache drives missing a format.json if formats[i] == nil { cfsObjects = append(cfsObjects, nil) continue } if err := checkAtimeSupport(dir); err != nil { return nil, errors.New("Atime support required for disk caching") } cache, err := newCacheFSObjects(dir, config.Expiry, config.MaxUse) if err != nil { return nil, err } // Start the purging go-routine for entries that have expired go cache.purge() // Start trash purge routine for deleted buckets. go cache.purgeTrash() cfsObjects = append(cfsObjects, cache) } return &diskCache{cfs: cfsObjects}, nil } // Return error if Atime is disabled on the O/S func checkAtimeSupport(dir string) (err error) { file, err := ioutil.TempFile(dir, "prefix") if err != nil { return } defer os.Remove(file.Name()) finfo1, err := os.Stat(file.Name()) if err != nil { return } if _, err = io.Copy(ioutil.Discard, file); err != io.EOF { return } finfo2, err := os.Stat(file.Name()) if atime.Get(finfo2).Equal(atime.Get(finfo1)) { return errors.New("Atime not supported") } return } // Returns cacheObjects for use by Server. func newServerCacheObjects(config CacheConfig) (CacheObjectLayer, error) { // list of disk caches for cache "drives" specified in config.json or MINIO_CACHE_DRIVES env var. dcache, err := newCache(config) if err != nil { return nil, err } return &cacheObjects{ cache: dcache, exclude: config.Exclude, listPool: NewTreeWalkPool(globalLookupTimeout), GetObjectFn: func(ctx context.Context, bucket, object string, startOffset int64, length int64, writer io.Writer, etag string, opts ObjectOptions) error { return newObjectLayerFn().GetObject(ctx, bucket, object, startOffset, length, writer, etag, opts) }, GetObjectInfoFn: func(ctx context.Context, bucket, object string, opts ObjectOptions) (ObjectInfo, error) { return newObjectLayerFn().GetObjectInfo(ctx, bucket, object, opts) }, GetObjectNInfoFn: func(ctx context.Context, bucket, object string, rs *HTTPRangeSpec, h http.Header, lockType LockType, opts ObjectOptions) (gr *GetObjectReader, err error) { return newObjectLayerFn().GetObjectNInfo(ctx, bucket, object, rs, h, lockType, opts) }, PutObjectFn: func(ctx context.Context, bucket, object string, data *PutObjReader, opts ObjectOptions) (objInfo ObjectInfo, err error) { return newObjectLayerFn().PutObject(ctx, bucket, object, data, opts) }, DeleteObjectFn: func(ctx context.Context, bucket, object string) error { return newObjectLayerFn().DeleteObject(ctx, bucket, object) }, ListObjectsFn: func(ctx context.Context, bucket, prefix, marker, delimiter string, maxKeys int) (result ListObjectsInfo, err error) { return newObjectLayerFn().ListObjects(ctx, bucket, prefix, marker, delimiter, maxKeys) }, ListObjectsV2Fn: func(ctx context.Context, bucket, prefix, continuationToken, delimiter string, maxKeys int, fetchOwner bool, startAfter string) (result ListObjectsV2Info, err error) { return newObjectLayerFn().ListObjectsV2(ctx, bucket, prefix, continuationToken, delimiter, maxKeys, fetchOwner, startAfter) }, ListBucketsFn: func(ctx context.Context) (buckets []BucketInfo, err error) { return newObjectLayerFn().ListBuckets(ctx) }, GetBucketInfoFn: func(ctx context.Context, bucket string) (bucketInfo BucketInfo, err error) { return newObjectLayerFn().GetBucketInfo(ctx, bucket) }, NewMultipartUploadFn: func(ctx context.Context, bucket, object string, opts ObjectOptions) (uploadID string, err error) { return newObjectLayerFn().NewMultipartUpload(ctx, bucket, object, opts) }, PutObjectPartFn: func(ctx context.Context, bucket, object, uploadID string, partID int, data *PutObjReader, opts ObjectOptions) (info PartInfo, err error) { return newObjectLayerFn().PutObjectPart(ctx, bucket, object, uploadID, partID, data, opts) }, AbortMultipartUploadFn: func(ctx context.Context, bucket, object, uploadID string) error { return newObjectLayerFn().AbortMultipartUpload(ctx, bucket, object, uploadID) }, CompleteMultipartUploadFn: func(ctx context.Context, bucket, object, uploadID string, uploadedParts []CompletePart, opts ObjectOptions) (objInfo ObjectInfo, err error) { return newObjectLayerFn().CompleteMultipartUpload(ctx, bucket, object, uploadID, uploadedParts, opts) }, DeleteBucketFn: func(ctx context.Context, bucket string) error { return newObjectLayerFn().DeleteBucket(ctx, bucket) }, }, nil } type cacheControl struct { exclude bool expiry time.Time maxAge int sMaxAge int minFresh int } // cache exclude directives in cache-control header var cacheExcludeDirectives = []string{ "no-cache", "no-store", "must-revalidate", } // returns true if cache exclude directives are set. func isCacheExcludeDirective(s string) bool { for _, directive := range cacheExcludeDirectives { if s == directive { return true } } return false } // returns struct with cache-control settings from user metadata. func getCacheControlOpts(m map[string]string) (c cacheControl, err error) { var headerVal string for k, v := range m { if k == "cache-control" { headerVal = v } if k == "expires" { if e, err := http.ParseTime(v); err == nil { c.expiry = e } } } if headerVal == "" { return } headerVal = strings.ToLower(headerVal) headerVal = strings.TrimSpace(headerVal) vals := strings.Split(headerVal, ",") for _, val := range vals { val = strings.TrimSpace(val) p := strings.Split(val, "=") if isCacheExcludeDirective(p[0]) { c.exclude = true continue } if len(p) != 2 { continue } if p[0] == "max-age" || p[0] == "s-maxage" || p[0] == "min-fresh" { i, err := strconv.Atoi(p[1]) if err != nil { return c, err } if p[0] == "max-age" { c.maxAge = i } if p[0] == "s-maxage" { c.sMaxAge = i } if p[0] == "min-fresh" { c.minFresh = i } } } return c, nil } // return true if metadata has a cache-control header // directive to exclude object from cache. func filterFromCache(m map[string]string) bool { c, err := getCacheControlOpts(m) if err != nil { return false } return c.exclude } // returns true if cache expiry conditions met in cache-control/expiry metadata. func isStaleCache(objInfo ObjectInfo) bool { c, err := getCacheControlOpts(objInfo.UserDefined) if err != nil { return false } now := time.Now() if c.sMaxAge > 0 && c.sMaxAge > int(now.Sub(objInfo.ModTime).Seconds()) { return true } if c.maxAge > 0 && c.maxAge > int(now.Sub(objInfo.ModTime).Seconds()) { return true } if !c.expiry.Equal(time.Time{}) && c.expiry.Before(time.Now()) { return true } if c.minFresh > 0 && c.minFresh <= int(now.Sub(objInfo.ModTime).Seconds()) { return true } return false }