// +build !plan9 package cache import ( "context" "fmt" "io" "math" "os" "os/signal" "path" "path/filepath" "sort" "strconv" "strings" "sync" "syscall" "time" "github.com/ncw/rclone/backend/crypt" "github.com/ncw/rclone/fs" "github.com/ncw/rclone/fs/config" "github.com/ncw/rclone/fs/config/configmap" "github.com/ncw/rclone/fs/config/configstruct" "github.com/ncw/rclone/fs/config/obscure" "github.com/ncw/rclone/fs/fspath" "github.com/ncw/rclone/fs/hash" "github.com/ncw/rclone/fs/rc" "github.com/ncw/rclone/fs/walk" "github.com/ncw/rclone/lib/atexit" "github.com/pkg/errors" "golang.org/x/time/rate" ) const ( // DefCacheChunkSize is the default value for chunk size DefCacheChunkSize = fs.SizeSuffix(5 * 1024 * 1024) // DefCacheTotalChunkSize is the default value for the maximum size of stored chunks DefCacheTotalChunkSize = fs.SizeSuffix(10 * 1024 * 1024 * 1024) // DefCacheChunkCleanInterval is the interval at which chunks are cleaned DefCacheChunkCleanInterval = fs.Duration(time.Minute) // DefCacheInfoAge is the default value for object info age DefCacheInfoAge = fs.Duration(6 * time.Hour) // DefCacheReadRetries is the default value for read retries DefCacheReadRetries = 10 // DefCacheTotalWorkers is how many workers run in parallel to download chunks DefCacheTotalWorkers = 4 // DefCacheChunkNoMemory will enable or disable in-memory storage for chunks DefCacheChunkNoMemory = false // DefCacheRps limits the number of requests per second to the source FS DefCacheRps = -1 // DefCacheWrites will cache file data on writes through the cache DefCacheWrites = false // DefCacheTmpWaitTime says how long should files be stored in local cache before being uploaded DefCacheTmpWaitTime = fs.Duration(15 * time.Second) // DefCacheDbWaitTime defines how long the cache backend should wait for the DB to be available DefCacheDbWaitTime = fs.Duration(1 * time.Second) ) // Register with Fs func init() { fs.Register(&fs.RegInfo{ Name: "cache", Description: "Cache a remote", NewFs: NewFs, Options: []fs.Option{{ Name: "remote", Help: "Remote to cache.\nNormally should contain a ':' and a path, eg \"myremote:path/to/dir\",\n\"myremote:bucket\" or maybe \"myremote:\" (not recommended).", Required: true, }, { Name: "plex_url", Help: "The URL of the Plex server", }, { Name: "plex_username", Help: "The username of the Plex user", }, { Name: "plex_password", Help: "The password of the Plex user", IsPassword: true, }, { Name: "plex_token", Help: "The plex token for authentication - auto set normally", Hide: fs.OptionHideBoth, Advanced: true, }, { Name: "plex_insecure", Help: "Skip all certificate verifications when connecting to the Plex server", Advanced: true, }, { Name: "chunk_size", Help: `The size of a chunk (partial file data). Use lower numbers for slower connections. If the chunk size is changed, any downloaded chunks will be invalid and cache-chunk-path will need to be cleared or unexpected EOF errors will occur.`, Default: DefCacheChunkSize, Examples: []fs.OptionExample{{ Value: "1m", Help: "1MB", }, { Value: "5M", Help: "5 MB", }, { Value: "10M", Help: "10 MB", }}, }, { Name: "info_age", Help: `How long to cache file structure information (directory listings, file size, times etc). If all write operations are done through the cache then you can safely make this value very large as the cache store will also be updated in real time.`, Default: DefCacheInfoAge, Examples: []fs.OptionExample{{ Value: "1h", Help: "1 hour", }, { Value: "24h", Help: "24 hours", }, { Value: "48h", Help: "48 hours", }}, }, { Name: "chunk_total_size", Help: `The total size that the chunks can take up on the local disk. If the cache exceeds this value then it will start to delete the oldest chunks until it goes under this value.`, Default: DefCacheTotalChunkSize, Examples: []fs.OptionExample{{ Value: "500M", Help: "500 MB", }, { Value: "1G", Help: "1 GB", }, { Value: "10G", Help: "10 GB", }}, }, { Name: "db_path", Default: filepath.Join(config.CacheDir, "cache-backend"), Help: "Directory to store file structure metadata DB.\nThe remote name is used as the DB file name.", Advanced: true, }, { Name: "chunk_path", Default: filepath.Join(config.CacheDir, "cache-backend"), Help: `Directory to cache chunk files. Path to where partial file data (chunks) are stored locally. The remote name is appended to the final path. This config follows the "--cache-db-path". If you specify a custom location for "--cache-db-path" and don't specify one for "--cache-chunk-path" then "--cache-chunk-path" will use the same path as "--cache-db-path".`, Advanced: true, }, { Name: "db_purge", Default: false, Help: "Clear all the cached data for this remote on start.", Hide: fs.OptionHideConfigurator, Advanced: true, }, { Name: "chunk_clean_interval", Default: DefCacheChunkCleanInterval, Help: `How often should the cache perform cleanups of the chunk storage. The default value should be ok for most people. If you find that the cache goes over "cache-chunk-total-size" too often then try to lower this value to force it to perform cleanups more often.`, Advanced: true, }, { Name: "read_retries", Default: DefCacheReadRetries, Help: `How many times to retry a read from a cache storage. Since reading from a cache stream is independent from downloading file data, readers can get to a point where there's no more data in the cache. Most of the times this can indicate a connectivity issue if cache isn't able to provide file data anymore. For really slow connections, increase this to a point where the stream is able to provide data but your experience will be very stuttering.`, Advanced: true, }, { Name: "workers", Default: DefCacheTotalWorkers, Help: `How many workers should run in parallel to download chunks. Higher values will mean more parallel processing (better CPU needed) and more concurrent requests on the cloud provider. This impacts several aspects like the cloud provider API limits, more stress on the hardware that rclone runs on but it also means that streams will be more fluid and data will be available much more faster to readers. **Note**: If the optional Plex integration is enabled then this setting will adapt to the type of reading performed and the value specified here will be used as a maximum number of workers to use.`, Advanced: true, }, { Name: "chunk_no_memory", Default: DefCacheChunkNoMemory, Help: `Disable the in-memory cache for storing chunks during streaming. By default, cache will keep file data during streaming in RAM as well to provide it to readers as fast as possible. This transient data is evicted as soon as it is read and the number of chunks stored doesn't exceed the number of workers. However, depending on other settings like "cache-chunk-size" and "cache-workers" this footprint can increase if there are parallel streams too (multiple files being read at the same time). If the hardware permits it, use this feature to provide an overall better performance during streaming but it can also be disabled if RAM is not available on the local machine.`, Advanced: true, }, { Name: "rps", Default: int(DefCacheRps), Help: `Limits the number of requests per second to the source FS (-1 to disable) This setting places a hard limit on the number of requests per second that cache will be doing to the cloud provider remote and try to respect that value by setting waits between reads. If you find that you're getting banned or limited on the cloud provider through cache and know that a smaller number of requests per second will allow you to work with it then you can use this setting for that. A good balance of all the other settings should make this setting useless but it is available to set for more special cases. **NOTE**: This will limit the number of requests during streams but other API calls to the cloud provider like directory listings will still pass.`, Advanced: true, }, { Name: "writes", Default: DefCacheWrites, Help: `Cache file data on writes through the FS If you need to read files immediately after you upload them through cache you can enable this flag to have their data stored in the cache store at the same time during upload.`, Advanced: true, }, { Name: "tmp_upload_path", Default: "", Help: `Directory to keep temporary files until they are uploaded. This is the path where cache will use as a temporary storage for new files that need to be uploaded to the cloud provider. Specifying a value will enable this feature. Without it, it is completely disabled and files will be uploaded directly to the cloud provider`, Advanced: true, }, { Name: "tmp_wait_time", Default: DefCacheTmpWaitTime, Help: `How long should files be stored in local cache before being uploaded This is the duration that a file must wait in the temporary location _cache-tmp-upload-path_ before it is selected for upload. Note that only one file is uploaded at a time and it can take longer to start the upload if a queue formed for this purpose.`, Advanced: true, }, { Name: "db_wait_time", Default: DefCacheDbWaitTime, Help: `How long to wait for the DB to be available - 0 is unlimited Only one process can have the DB open at any one time, so rclone waits for this duration for the DB to become available before it gives an error. If you set it to 0 then it will wait forever.`, Advanced: true, }}, }) } // Options defines the configuration for this backend type Options struct { Remote string `config:"remote"` PlexURL string `config:"plex_url"` PlexUsername string `config:"plex_username"` PlexPassword string `config:"plex_password"` PlexToken string `config:"plex_token"` PlexInsecure bool `config:"plex_insecure"` ChunkSize fs.SizeSuffix `config:"chunk_size"` InfoAge fs.Duration `config:"info_age"` ChunkTotalSize fs.SizeSuffix `config:"chunk_total_size"` DbPath string `config:"db_path"` ChunkPath string `config:"chunk_path"` DbPurge bool `config:"db_purge"` ChunkCleanInterval fs.Duration `config:"chunk_clean_interval"` ReadRetries int `config:"read_retries"` TotalWorkers int `config:"workers"` ChunkNoMemory bool `config:"chunk_no_memory"` Rps int `config:"rps"` StoreWrites bool `config:"writes"` TempWritePath string `config:"tmp_upload_path"` TempWaitTime fs.Duration `config:"tmp_wait_time"` DbWaitTime fs.Duration `config:"db_wait_time"` } // Fs represents a wrapped fs.Fs type Fs struct { fs.Fs wrapper fs.Fs name string root string opt Options // parsed options features *fs.Features // optional features cache *Persistent tempFs fs.Fs lastChunkCleanup time.Time cleanupMu sync.Mutex rateLimiter *rate.Limiter plexConnector *plexConnector backgroundRunner *backgroundWriter cleanupChan chan bool parentsForgetFn []func(string, fs.EntryType) notifiedRemotes map[string]bool notifiedMu sync.Mutex parentsForgetMu sync.Mutex } // parseRootPath returns a cleaned root path and a nil error or "" and an error when the path is invalid func parseRootPath(path string) (string, error) { return strings.Trim(path, "/"), nil } // NewFs constructs a Fs from the path, container:path func NewFs(name, rootPath string, m configmap.Mapper) (fs.Fs, error) { // Parse config into Options struct opt := new(Options) err := configstruct.Set(m, opt) if err != nil { return nil, err } if opt.ChunkTotalSize < opt.ChunkSize*fs.SizeSuffix(opt.TotalWorkers) { return nil, errors.Errorf("don't set cache-chunk-total-size(%v) less than cache-chunk-size(%v) * cache-workers(%v)", opt.ChunkTotalSize, opt.ChunkSize, opt.TotalWorkers) } if strings.HasPrefix(opt.Remote, name+":") { return nil, errors.New("can't point cache remote at itself - check the value of the remote setting") } rpath, err := parseRootPath(rootPath) if err != nil { return nil, errors.Wrapf(err, "failed to clean root path %q", rootPath) } wInfo, wName, wPath, wConfig, err := fs.ConfigFs(opt.Remote) if err != nil { return nil, errors.Wrapf(err, "failed to parse remote %q to wrap", opt.Remote) } remotePath := fspath.JoinRootPath(wPath, rootPath) wrappedFs, wrapErr := wInfo.NewFs(wName, remotePath, wConfig) if wrapErr != nil && wrapErr != fs.ErrorIsFile { return nil, errors.Wrapf(wrapErr, "failed to make remote %s:%s to wrap", wName, remotePath) } var fsErr error fs.Debugf(name, "wrapped %v:%v at root %v", wrappedFs.Name(), wrappedFs.Root(), rpath) if wrapErr == fs.ErrorIsFile { fsErr = fs.ErrorIsFile rpath = cleanPath(path.Dir(rpath)) } // configure cache backend if opt.DbPurge { fs.Debugf(name, "Purging the DB") } f := &Fs{ Fs: wrappedFs, name: name, root: rpath, opt: *opt, lastChunkCleanup: time.Now().Truncate(time.Hour * 24 * 30), cleanupChan: make(chan bool, 1), notifiedRemotes: make(map[string]bool), } f.rateLimiter = rate.NewLimiter(rate.Limit(float64(opt.Rps)), opt.TotalWorkers) f.plexConnector = &plexConnector{} if opt.PlexURL != "" { if opt.PlexToken != "" { f.plexConnector, err = newPlexConnectorWithToken(f, opt.PlexURL, opt.PlexToken, opt.PlexInsecure) if err != nil { return nil, errors.Wrapf(err, "failed to connect to the Plex API %v", opt.PlexURL) } } else { if opt.PlexPassword != "" && opt.PlexUsername != "" { decPass, err := obscure.Reveal(opt.PlexPassword) if err != nil { decPass = opt.PlexPassword } f.plexConnector, err = newPlexConnector(f, opt.PlexURL, opt.PlexUsername, decPass, opt.PlexInsecure, func(token string) { m.Set("plex_token", token) }) if err != nil { return nil, errors.Wrapf(err, "failed to connect to the Plex API %v", opt.PlexURL) } } } } dbPath := f.opt.DbPath chunkPath := f.opt.ChunkPath // if the dbPath is non default but the chunk path is default, we overwrite the last to follow the same one as dbPath if dbPath != filepath.Join(config.CacheDir, "cache-backend") && chunkPath == filepath.Join(config.CacheDir, "cache-backend") { chunkPath = dbPath } if filepath.Ext(dbPath) != "" { dbPath = filepath.Dir(dbPath) } if filepath.Ext(chunkPath) != "" { chunkPath = filepath.Dir(chunkPath) } err = os.MkdirAll(dbPath, os.ModePerm) if err != nil { return nil, errors.Wrapf(err, "failed to create cache directory %v", dbPath) } err = os.MkdirAll(chunkPath, os.ModePerm) if err != nil { return nil, errors.Wrapf(err, "failed to create cache directory %v", chunkPath) } dbPath = filepath.Join(dbPath, name+".db") chunkPath = filepath.Join(chunkPath, name) fs.Infof(name, "Cache DB path: %v", dbPath) fs.Infof(name, "Cache chunk path: %v", chunkPath) f.cache, err = GetPersistent(dbPath, chunkPath, &Features{ PurgeDb: opt.DbPurge, DbWaitTime: time.Duration(opt.DbWaitTime), }) if err != nil { return nil, errors.Wrapf(err, "failed to start cache db") } // Trap SIGINT and SIGTERM to close the DB handle gracefully c := make(chan os.Signal, 1) signal.Notify(c, syscall.SIGHUP) atexit.Register(func() { if opt.PlexURL != "" { f.plexConnector.closeWebsocket() } f.StopBackgroundRunners() }) go func() { for { s := <-c if s == syscall.SIGHUP { fs.Infof(f, "Clearing cache from signal") f.DirCacheFlush() } } }() fs.Infof(name, "Chunk Memory: %v", !f.opt.ChunkNoMemory) fs.Infof(name, "Chunk Size: %v", f.opt.ChunkSize) fs.Infof(name, "Chunk Total Size: %v", f.opt.ChunkTotalSize) fs.Infof(name, "Chunk Clean Interval: %v", f.opt.ChunkCleanInterval) fs.Infof(name, "Workers: %v", f.opt.TotalWorkers) fs.Infof(name, "File Age: %v", f.opt.InfoAge) if f.opt.StoreWrites { fs.Infof(name, "Cache Writes: enabled") } if f.opt.TempWritePath != "" { err = os.MkdirAll(f.opt.TempWritePath, os.ModePerm) if err != nil { return nil, errors.Wrapf(err, "failed to create cache directory %v", f.opt.TempWritePath) } f.opt.TempWritePath = filepath.ToSlash(f.opt.TempWritePath) f.tempFs, err = fs.NewFs(f.opt.TempWritePath) if err != nil { return nil, errors.Wrapf(err, "failed to create temp fs: %v", err) } fs.Infof(name, "Upload Temp Rest Time: %v", f.opt.TempWaitTime) fs.Infof(name, "Upload Temp FS: %v", f.opt.TempWritePath) f.backgroundRunner, _ = initBackgroundUploader(f) go f.backgroundRunner.run() } go func() { for { time.Sleep(time.Duration(f.opt.ChunkCleanInterval)) select { case <-f.cleanupChan: fs.Infof(f, "stopping cleanup") return default: fs.Debugf(f, "starting cleanup") f.CleanUpCache(false) } } }() if doChangeNotify := wrappedFs.Features().ChangeNotify; doChangeNotify != nil { pollInterval := make(chan time.Duration, 1) pollInterval <- time.Duration(f.opt.ChunkCleanInterval) doChangeNotify(f.receiveChangeNotify, pollInterval) } f.features = (&fs.Features{ CanHaveEmptyDirectories: true, DuplicateFiles: false, // storage doesn't permit this }).Fill(f).Mask(wrappedFs).WrapsFs(f, wrappedFs) // override only those features that use a temp fs and it doesn't support them //f.features.ChangeNotify = f.ChangeNotify if f.opt.TempWritePath != "" { if f.tempFs.Features().Copy == nil { f.features.Copy = nil } if f.tempFs.Features().Move == nil { f.features.Move = nil } if f.tempFs.Features().Move == nil { f.features.Move = nil } if f.tempFs.Features().DirMove == nil { f.features.DirMove = nil } if f.tempFs.Features().MergeDirs == nil { f.features.MergeDirs = nil } } // even if the wrapped fs doesn't support it, we still want it f.features.DirCacheFlush = f.DirCacheFlush rc.Add(rc.Call{ Path: "cache/expire", Fn: f.httpExpireRemote, Title: "Purge a remote from cache", Help: ` Purge a remote from the cache backend. Supports either a directory or a file. Params: - remote = path to remote (required) - withData = true/false to delete cached data (chunks) as well (optional) Eg rclone rc cache/expire remote=path/to/sub/folder/ rclone rc cache/expire remote=/ withData=true `, }) rc.Add(rc.Call{ Path: "cache/stats", Fn: f.httpStats, Title: "Get cache stats", Help: ` Show statistics for the cache remote. `, }) rc.Add(rc.Call{ Path: "cache/fetch", Fn: f.rcFetch, Title: "Fetch file chunks", Help: ` Ensure the specified file chunks are cached on disk. The chunks= parameter specifies the file chunks to check. It takes a comma separated list of array slice indices. The slice indices are similar to Python slices: start[:end] start is the 0 based chunk number from the beginning of the file to fetch inclusive. end is 0 based chunk number from the beginning of the file to fetch exclusive. Both values can be negative, in which case they count from the back of the file. The value "-5:" represents the last 5 chunks of a file. Some valid examples are: ":5,-5:" -> the first and last five chunks "0,-2" -> the first and the second last chunk "0:10" -> the first ten chunks Any parameter with a key that starts with "file" can be used to specify files to fetch, eg rclone rc cache/fetch chunks=0 file=hello file2=home/goodbye File names will automatically be encrypted when the a crypt remote is used on top of the cache. `, }) return f, fsErr } func (f *Fs) httpStats(in rc.Params) (out rc.Params, err error) { out = make(rc.Params) m, err := f.Stats() if err != nil { return out, errors.Errorf("error while getting cache stats") } out["status"] = "ok" out["stats"] = m return out, nil } func (f *Fs) unwrapRemote(remote string) string { remote = cleanPath(remote) if remote != "" { // if it's wrapped by crypt we need to check what format we got if cryptFs, yes := f.isWrappedByCrypt(); yes { _, err := cryptFs.DecryptFileName(remote) // if it failed to decrypt then it is a decrypted format and we need to encrypt it if err != nil { return cryptFs.EncryptFileName(remote) } // else it's an encrypted format and we can use it as it is } } return remote } func (f *Fs) httpExpireRemote(in rc.Params) (out rc.Params, err error) { out = make(rc.Params) remoteInt, ok := in["remote"] if !ok { return out, errors.Errorf("remote is needed") } remote := remoteInt.(string) withData := false _, ok = in["withData"] if ok { withData = true } remote = f.unwrapRemote(remote) if !f.cache.HasEntry(path.Join(f.Root(), remote)) { return out, errors.Errorf("%s doesn't exist in cache", remote) } co := NewObject(f, remote) err = f.cache.GetObject(co) if err != nil { // it could be a dir cd := NewDirectory(f, remote) err := f.cache.ExpireDir(cd) if err != nil { return out, errors.WithMessage(err, "error expiring directory") } // notify vfs too f.notifyChangeUpstream(cd.Remote(), fs.EntryDirectory) out["status"] = "ok" out["message"] = fmt.Sprintf("cached directory cleared: %v", remote) return out, nil } // expire the entry err = f.cache.ExpireObject(co, withData) if err != nil { return out, errors.WithMessage(err, "error expiring file") } // notify vfs too f.notifyChangeUpstream(co.Remote(), fs.EntryObject) out["status"] = "ok" out["message"] = fmt.Sprintf("cached file cleared: %v", remote) return out, nil } func (f *Fs) rcFetch(in rc.Params) (rc.Params, error) { type chunkRange struct { start, end int64 } parseChunks := func(ranges string) (crs []chunkRange, err error) { for _, part := range strings.Split(ranges, ",") { var start, end int64 = 0, math.MaxInt64 switch ints := strings.Split(part, ":"); len(ints) { case 1: start, err = strconv.ParseInt(ints[0], 10, 64) if err != nil { return nil, errors.Errorf("invalid range: %q", part) } end = start + 1 case 2: if ints[0] != "" { start, err = strconv.ParseInt(ints[0], 10, 64) if err != nil { return nil, errors.Errorf("invalid range: %q", part) } } if ints[1] != "" { end, err = strconv.ParseInt(ints[1], 10, 64) if err != nil { return nil, errors.Errorf("invalid range: %q", part) } } default: return nil, errors.Errorf("invalid range: %q", part) } crs = append(crs, chunkRange{start: start, end: end}) } return } walkChunkRange := func(cr chunkRange, size int64, cb func(chunk int64)) { if size <= 0 { return } chunks := (size-1)/f.ChunkSize() + 1 start, end := cr.start, cr.end if start < 0 { start += chunks } if end <= 0 { end += chunks } if end <= start { return } switch { case start < 0: start = 0 case start >= chunks: return } switch { case end <= start: end = start + 1 case end >= chunks: end = chunks } for i := start; i < end; i++ { cb(i) } } walkChunkRanges := func(crs []chunkRange, size int64, cb func(chunk int64)) { for _, cr := range crs { walkChunkRange(cr, size, cb) } } v, ok := in["chunks"] if !ok { return nil, errors.New("missing chunks parameter") } s, ok := v.(string) if !ok { return nil, errors.New("invalid chunks parameter") } delete(in, "chunks") crs, err := parseChunks(s) if err != nil { return nil, errors.Wrap(err, "invalid chunks parameter") } var files [][2]string for k, v := range in { if !strings.HasPrefix(k, "file") { return nil, errors.Errorf("invalid parameter %s=%s", k, v) } switch v := v.(type) { case string: files = append(files, [2]string{v, f.unwrapRemote(v)}) default: return nil, errors.Errorf("invalid parameter %s=%s", k, v) } } type fileStatus struct { Error string FetchedChunks int } fetchedChunks := make(map[string]fileStatus, len(files)) for _, pair := range files { file, remote := pair[0], pair[1] var status fileStatus o, err := f.NewObject(remote) if err != nil { fetchedChunks[file] = fileStatus{Error: err.Error()} continue } co := o.(*Object) err = co.refreshFromSource(true) if err != nil { fetchedChunks[file] = fileStatus{Error: err.Error()} continue } handle := NewObjectHandle(co, f) handle.UseMemory = false handle.scaleWorkers(1) walkChunkRanges(crs, co.Size(), func(chunk int64) { _, err := handle.getChunk(chunk * f.ChunkSize()) if err != nil { if status.Error == "" { status.Error = err.Error() } } else { status.FetchedChunks++ } }) fetchedChunks[file] = status } return rc.Params{"status": fetchedChunks}, nil } // receiveChangeNotify is a wrapper to notifications sent from the wrapped FS about changed files func (f *Fs) receiveChangeNotify(forgetPath string, entryType fs.EntryType) { if crypt, yes := f.isWrappedByCrypt(); yes { decryptedPath, err := crypt.DecryptFileName(forgetPath) if err == nil { fs.Infof(decryptedPath, "received cache expiry notification") } else { fs.Infof(forgetPath, "received cache expiry notification") } } else { fs.Infof(forgetPath, "received cache expiry notification") } // notify upstreams too (vfs) f.notifyChangeUpstream(forgetPath, entryType) var cd *Directory if entryType == fs.EntryObject { co := NewObject(f, forgetPath) err := f.cache.GetObject(co) if err != nil { fs.Debugf(f, "got change notification for non cached entry %v", co) } err = f.cache.ExpireObject(co, true) if err != nil { fs.Debugf(forgetPath, "notify: error expiring '%v': %v", co, err) } cd = NewDirectory(f, cleanPath(path.Dir(co.Remote()))) } else { cd = NewDirectory(f, forgetPath) } // we expire the dir err := f.cache.ExpireDir(cd) if err != nil { fs.Debugf(forgetPath, "notify: error expiring '%v': %v", cd, err) } else { fs.Debugf(forgetPath, "notify: expired '%v'", cd) } f.notifiedMu.Lock() defer f.notifiedMu.Unlock() f.notifiedRemotes[forgetPath] = true f.notifiedRemotes[cd.Remote()] = true } // notifyChangeUpstreamIfNeeded will check if the wrapped remote doesn't notify on changes // or if we use a temp fs func (f *Fs) notifyChangeUpstreamIfNeeded(remote string, entryType fs.EntryType) { if f.Fs.Features().ChangeNotify == nil || f.opt.TempWritePath != "" { f.notifyChangeUpstream(remote, entryType) } } // notifyChangeUpstream will loop through all the upstreams and notify // of the provided remote (should be only a dir) func (f *Fs) notifyChangeUpstream(remote string, entryType fs.EntryType) { f.parentsForgetMu.Lock() defer f.parentsForgetMu.Unlock() if len(f.parentsForgetFn) > 0 { for _, fn := range f.parentsForgetFn { fn(remote, entryType) } } } // ChangeNotify can subscribe multiple callers // this is coupled with the wrapped fs ChangeNotify (if it supports it) // and also notifies other caches (i.e VFS) to clear out whenever something changes func (f *Fs) ChangeNotify(notifyFunc func(string, fs.EntryType), pollInterval <-chan time.Duration) { f.parentsForgetMu.Lock() defer f.parentsForgetMu.Unlock() fs.Debugf(f, "subscribing to ChangeNotify") f.parentsForgetFn = append(f.parentsForgetFn, notifyFunc) go func() { for range pollInterval { } }() } // Name of the remote (as passed into NewFs) func (f *Fs) Name() string { return f.name } // Root of the remote (as passed into NewFs) func (f *Fs) Root() string { return f.root } // Features returns the optional features of this Fs func (f *Fs) Features() *fs.Features { return f.features } // String returns a description of the FS func (f *Fs) String() string { return fmt.Sprintf("Cache remote %s:%s", f.name, f.root) } // ChunkSize returns the configured chunk size func (f *Fs) ChunkSize() int64 { return int64(f.opt.ChunkSize) } // InfoAge returns the configured file age func (f *Fs) InfoAge() time.Duration { return time.Duration(f.opt.InfoAge) } // TempUploadWaitTime returns the configured temp file upload wait time func (f *Fs) TempUploadWaitTime() time.Duration { return time.Duration(f.opt.TempWaitTime) } // NewObject finds the Object at remote. func (f *Fs) NewObject(remote string) (fs.Object, error) { var err error fs.Debugf(f, "new object '%s'", remote) co := NewObject(f, remote) // search for entry in cache and validate it err = f.cache.GetObject(co) if err != nil { fs.Debugf(remote, "find: error: %v", err) } else if time.Now().After(co.CacheTs.Add(time.Duration(f.opt.InfoAge))) { fs.Debugf(co, "find: cold object: %+v", co) } else { fs.Debugf(co, "find: warm object: %v, expiring on: %v", co, co.CacheTs.Add(time.Duration(f.opt.InfoAge))) return co, nil } // search for entry in source or temp fs var obj fs.Object if f.opt.TempWritePath != "" { obj, err = f.tempFs.NewObject(remote) // not found in temp fs if err != nil { fs.Debugf(remote, "find: not found in local cache fs") obj, err = f.Fs.NewObject(remote) } else { fs.Debugf(obj, "find: found in local cache fs") } } else { obj, err = f.Fs.NewObject(remote) } // not found in either fs if err != nil { fs.Debugf(obj, "find failed: not found in either local or remote fs") return nil, err } // cache the new entry co = ObjectFromOriginal(f, obj).persist() fs.Debugf(co, "find: cached object") return co, nil } // List the objects and directories in dir into entries func (f *Fs) List(dir string) (entries fs.DirEntries, err error) { fs.Debugf(f, "list '%s'", dir) cd := ShallowDirectory(f, dir) // search for cached dir entries and validate them entries, err = f.cache.GetDirEntries(cd) if err != nil { fs.Debugf(dir, "list: error: %v", err) } else if time.Now().After(cd.CacheTs.Add(time.Duration(f.opt.InfoAge))) { fs.Debugf(dir, "list: cold listing: %v", cd.CacheTs) } else if len(entries) == 0 { // TODO: read empty dirs from source? fs.Debugf(dir, "list: empty listing") } else { fs.Debugf(dir, "list: warm %v from cache for: %v, expiring on: %v", len(entries), cd.abs(), cd.CacheTs.Add(time.Duration(f.opt.InfoAge))) fs.Debugf(dir, "list: cached entries: %v", entries) return entries, nil } // we first search any temporary files stored locally var cachedEntries fs.DirEntries if f.opt.TempWritePath != "" { queuedEntries, err := f.cache.searchPendingUploadFromDir(cd.abs()) if err != nil { fs.Errorf(dir, "list: error getting pending uploads: %v", err) } else { fs.Debugf(dir, "list: read %v from temp fs", len(queuedEntries)) fs.Debugf(dir, "list: temp fs entries: %v", queuedEntries) for _, queuedRemote := range queuedEntries { queuedEntry, err := f.tempFs.NewObject(f.cleanRootFromPath(queuedRemote)) if err != nil { fs.Debugf(dir, "list: temp file not found in local fs: %v", err) continue } co := ObjectFromOriginal(f, queuedEntry).persist() fs.Debugf(co, "list: cached temp object") cachedEntries = append(cachedEntries, co) } } } // search from the source sourceEntries, err := f.Fs.List(dir) if err != nil { return nil, err } fs.Debugf(dir, "list: read %v from source", len(sourceEntries)) fs.Debugf(dir, "list: source entries: %v", sourceEntries) sort.Sort(sourceEntries) for _, entry := range entries { entryRemote := entry.Remote() i := sort.Search(len(sourceEntries), func(i int) bool { return sourceEntries[i].Remote() >= entryRemote }) if i < len(sourceEntries) && sourceEntries[i].Remote() == entryRemote { continue } fp := path.Join(f.Root(), entryRemote) switch entry.(type) { case fs.Object: _ = f.cache.RemoveObject(fp) case fs.Directory: _ = f.cache.RemoveDir(fp) } fs.Debugf(dir, "list: remove entry: %v", entryRemote) } entries = nil // and then iterate over the ones from source (temp Objects will override source ones) var batchDirectories []*Directory sort.Sort(cachedEntries) tmpCnt := len(cachedEntries) for _, entry := range sourceEntries { switch o := entry.(type) { case fs.Object: // skip over temporary objects (might be uploading) oRemote := o.Remote() i := sort.Search(tmpCnt, func(i int) bool { return cachedEntries[i].Remote() >= oRemote }) if i < tmpCnt && cachedEntries[i].Remote() == oRemote { continue } co := ObjectFromOriginal(f, o).persist() cachedEntries = append(cachedEntries, co) fs.Debugf(dir, "list: cached object: %v", co) case fs.Directory: cdd := DirectoryFromOriginal(f, o) // check if the dir isn't expired and add it in cache if it isn't if cdd2, err := f.cache.GetDir(cdd.abs()); err != nil || time.Now().Before(cdd2.CacheTs.Add(time.Duration(f.opt.InfoAge))) { batchDirectories = append(batchDirectories, cdd) } cachedEntries = append(cachedEntries, cdd) default: fs.Debugf(entry, "list: Unknown object type %T", entry) } } err = f.cache.AddBatchDir(batchDirectories) if err != nil { fs.Errorf(dir, "list: error caching directories from listing %v", dir) } else { fs.Debugf(dir, "list: cached directories: %v", len(batchDirectories)) } // cache dir meta t := time.Now() cd.CacheTs = &t err = f.cache.AddDir(cd) if err != nil { fs.Errorf(cd, "list: save error: '%v'", err) } else { fs.Debugf(dir, "list: cached dir: '%v', cache ts: %v", cd.abs(), cd.CacheTs) } return cachedEntries, nil } func (f *Fs) recurse(dir string, list *walk.ListRHelper) error { entries, err := f.List(dir) if err != nil { return err } for i := 0; i < len(entries); i++ { innerDir, ok := entries[i].(fs.Directory) if ok { err := f.recurse(innerDir.Remote(), list) if err != nil { return err } } err := list.Add(entries[i]) if err != nil { return err } } return nil } // ListR lists the objects and directories of the Fs starting // from dir recursively into out. func (f *Fs) ListR(dir string, callback fs.ListRCallback) (err error) { fs.Debugf(f, "list recursively from '%s'", dir) // we check if the source FS supports ListR // if it does, we'll use that to get all the entries, cache them and return do := f.Fs.Features().ListR if do != nil { return do(dir, func(entries fs.DirEntries) error { // we got called back with a set of entries so let's cache them and call the original callback for _, entry := range entries { switch o := entry.(type) { case fs.Object: _ = f.cache.AddObject(ObjectFromOriginal(f, o)) case fs.Directory: _ = f.cache.AddDir(DirectoryFromOriginal(f, o)) default: return errors.Errorf("Unknown object type %T", entry) } } // call the original callback return callback(entries) }) } // if we're here, we're gonna do a standard recursive traversal and cache everything list := walk.NewListRHelper(callback) err = f.recurse(dir, list) if err != nil { return err } return list.Flush() } // Mkdir makes the directory (container, bucket) func (f *Fs) Mkdir(dir string) error { fs.Debugf(f, "mkdir '%s'", dir) err := f.Fs.Mkdir(dir) if err != nil { return err } fs.Debugf(dir, "mkdir: created dir in source fs") cd := NewDirectory(f, cleanPath(dir)) err = f.cache.AddDir(cd) if err != nil { fs.Errorf(dir, "mkdir: add error: %v", err) } else { fs.Debugf(cd, "mkdir: added to cache") } // expire parent of new dir parentCd := NewDirectory(f, cleanPath(path.Dir(dir))) err = f.cache.ExpireDir(parentCd) if err != nil { fs.Errorf(parentCd, "mkdir: cache expire error: %v", err) } else { fs.Infof(parentCd, "mkdir: cache expired") } // advertise to ChangeNotify if wrapped doesn't do that f.notifyChangeUpstreamIfNeeded(parentCd.Remote(), fs.EntryDirectory) return nil } // Rmdir removes the directory (container, bucket) if empty func (f *Fs) Rmdir(dir string) error { fs.Debugf(f, "rmdir '%s'", dir) if f.opt.TempWritePath != "" { // pause background uploads f.backgroundRunner.pause() defer f.backgroundRunner.play() // we check if the source exists on the remote and make the same move on it too if it does // otherwise, we skip this step _, err := f.UnWrap().List(dir) if err == nil { err := f.Fs.Rmdir(dir) if err != nil { return err } fs.Debugf(dir, "rmdir: removed dir in source fs") } var queuedEntries []*Object err = walk.ListR(f.tempFs, dir, true, -1, walk.ListObjects, func(entries fs.DirEntries) error { for _, o := range entries { if oo, ok := o.(fs.Object); ok { co := ObjectFromOriginal(f, oo) queuedEntries = append(queuedEntries, co) } } return nil }) if err != nil { fs.Errorf(dir, "rmdir: error getting pending uploads: %v", err) } else { fs.Debugf(dir, "rmdir: read %v from temp fs", len(queuedEntries)) fs.Debugf(dir, "rmdir: temp fs entries: %v", queuedEntries) if len(queuedEntries) > 0 { fs.Errorf(dir, "rmdir: temporary dir not empty: %v", queuedEntries) return fs.ErrorDirectoryNotEmpty } } } else { err := f.Fs.Rmdir(dir) if err != nil { return err } fs.Debugf(dir, "rmdir: removed dir in source fs") } // remove dir data d := NewDirectory(f, dir) err := f.cache.RemoveDir(d.abs()) if err != nil { fs.Errorf(dir, "rmdir: remove error: %v", err) } else { fs.Debugf(d, "rmdir: removed from cache") } // expire parent parentCd := NewDirectory(f, cleanPath(path.Dir(dir))) err = f.cache.ExpireDir(parentCd) if err != nil { fs.Errorf(dir, "rmdir: cache expire error: %v", err) } else { fs.Infof(parentCd, "rmdir: cache expired") } // advertise to ChangeNotify if wrapped doesn't do that f.notifyChangeUpstreamIfNeeded(parentCd.Remote(), fs.EntryDirectory) return nil } // DirMove moves src, srcRemote to this remote at dstRemote // using server side move operations. func (f *Fs) DirMove(src fs.Fs, srcRemote, dstRemote string) error { fs.Debugf(f, "move dir '%s'/'%s' -> '%s'/'%s'", src.Root(), srcRemote, f.Root(), dstRemote) do := f.Fs.Features().DirMove if do == nil { return fs.ErrorCantDirMove } srcFs, ok := src.(*Fs) if !ok { fs.Errorf(srcFs, "can't move directory - not same remote type") return fs.ErrorCantDirMove } if srcFs.Fs.Name() != f.Fs.Name() { fs.Errorf(srcFs, "can't move directory - not wrapping same remotes") return fs.ErrorCantDirMove } if f.opt.TempWritePath != "" { // pause background uploads f.backgroundRunner.pause() defer f.backgroundRunner.play() _, errInWrap := srcFs.UnWrap().List(srcRemote) _, errInTemp := f.tempFs.List(srcRemote) // not found in either fs if errInWrap != nil && errInTemp != nil { return fs.ErrorDirNotFound } // we check if the source exists on the remote and make the same move on it too if it does // otherwise, we skip this step if errInWrap == nil { err := do(srcFs.UnWrap(), srcRemote, dstRemote) if err != nil { return err } fs.Debugf(srcRemote, "movedir: dir moved in the source fs") } // we need to check if the directory exists in the temp fs // and skip the move if it doesn't if errInTemp != nil { goto cleanup } var queuedEntries []*Object err := walk.ListR(f.tempFs, srcRemote, true, -1, walk.ListObjects, func(entries fs.DirEntries) error { for _, o := range entries { if oo, ok := o.(fs.Object); ok { co := ObjectFromOriginal(f, oo) queuedEntries = append(queuedEntries, co) if co.tempFileStartedUpload() { fs.Errorf(co, "can't move - upload has already started. need to finish that") return fs.ErrorCantDirMove } } } return nil }) if err != nil { return err } fs.Debugf(srcRemote, "dirmove: read %v from temp fs", len(queuedEntries)) fs.Debugf(srcRemote, "dirmove: temp fs entries: %v", queuedEntries) do := f.tempFs.Features().DirMove if do == nil { fs.Errorf(srcRemote, "dirmove: can't move dir in temp fs") return fs.ErrorCantDirMove } err = do(f.tempFs, srcRemote, dstRemote) if err != nil { return err } err = f.cache.ReconcileTempUploads(f) if err != nil { return err } } else { err := do(srcFs.UnWrap(), srcRemote, dstRemote) if err != nil { return err } fs.Debugf(srcRemote, "movedir: dir moved in the source fs") } cleanup: // delete src dir from cache along with all chunks srcDir := NewDirectory(srcFs, srcRemote) err := f.cache.RemoveDir(srcDir.abs()) if err != nil { fs.Errorf(srcDir, "dirmove: remove error: %v", err) } else { fs.Debugf(srcDir, "dirmove: removed cached dir") } // expire src parent srcParent := NewDirectory(f, cleanPath(path.Dir(srcRemote))) err = f.cache.ExpireDir(srcParent) if err != nil { fs.Errorf(srcParent, "dirmove: cache expire error: %v", err) } else { fs.Debugf(srcParent, "dirmove: cache expired") } // advertise to ChangeNotify if wrapped doesn't do that f.notifyChangeUpstreamIfNeeded(srcParent.Remote(), fs.EntryDirectory) // expire parent dir at the destination path dstParent := NewDirectory(f, cleanPath(path.Dir(dstRemote))) err = f.cache.ExpireDir(dstParent) if err != nil { fs.Errorf(dstParent, "dirmove: cache expire error: %v", err) } else { fs.Debugf(dstParent, "dirmove: cache expired") } // advertise to ChangeNotify if wrapped doesn't do that f.notifyChangeUpstreamIfNeeded(dstParent.Remote(), fs.EntryDirectory) // TODO: precache dst dir and save the chunks return nil } // cacheReader will split the stream of a reader to be cached at the same time it is read by the original source func (f *Fs) cacheReader(u io.Reader, src fs.ObjectInfo, originalRead func(inn io.Reader)) { // create the pipe and tee reader pr, pw := io.Pipe() tr := io.TeeReader(u, pw) // create channel to synchronize done := make(chan bool) defer close(done) go func() { // notify the cache reader that we're complete after the source FS finishes defer func() { _ = pw.Close() }() // process original reading originalRead(tr) // signal complete done <- true }() go func() { var offset int64 for { chunk := make([]byte, f.opt.ChunkSize) readSize, err := io.ReadFull(pr, chunk) // we ignore 3 failures which are ok: // 1. EOF - original reading finished and we got a full buffer too // 2. ErrUnexpectedEOF - original reading finished and partial buffer // 3. ErrClosedPipe - source remote reader was closed (usually means it reached the end) and we need to stop too // if we have a different error: we're going to error out the original reading too and stop this if err != nil && err != io.EOF && err != io.ErrUnexpectedEOF && err != io.ErrClosedPipe { fs.Errorf(src, "error saving new data in cache. offset: %v, err: %v", offset, err) _ = pr.CloseWithError(err) break } // if we have some bytes we cache them if readSize > 0 { chunk = chunk[:readSize] err2 := f.cache.AddChunk(cleanPath(path.Join(f.root, src.Remote())), chunk, offset) if err2 != nil { fs.Errorf(src, "error saving new data in cache '%v'", err2) _ = pr.CloseWithError(err2) break } offset += int64(readSize) } // stuff should be closed but let's be sure if err == io.EOF || err == io.ErrUnexpectedEOF || err == io.ErrClosedPipe { _ = pr.Close() break } } // signal complete done <- true }() // wait until both are done for c := 0; c < 2; c++ { <-done } } type putFn func(in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) // put in to the remote path func (f *Fs) put(in io.Reader, src fs.ObjectInfo, options []fs.OpenOption, put putFn) (fs.Object, error) { var err error var obj fs.Object // queue for upload and store in temp fs if configured if f.opt.TempWritePath != "" { // we need to clear the caches before a put through temp fs parentCd := NewDirectory(f, cleanPath(path.Dir(src.Remote()))) _ = f.cache.ExpireDir(parentCd) f.notifyChangeUpstreamIfNeeded(parentCd.Remote(), fs.EntryDirectory) obj, err = f.tempFs.Put(in, src, options...) if err != nil { fs.Errorf(obj, "put: failed to upload in temp fs: %v", err) return nil, err } fs.Infof(obj, "put: uploaded in temp fs") err = f.cache.addPendingUpload(path.Join(f.Root(), src.Remote()), false) if err != nil { fs.Errorf(obj, "put: failed to queue for upload: %v", err) return nil, err } fs.Infof(obj, "put: queued for upload") // if cache writes is enabled write it first through cache } else if f.opt.StoreWrites { f.cacheReader(in, src, func(inn io.Reader) { obj, err = put(inn, src, options...) }) if err == nil { fs.Debugf(obj, "put: uploaded to remote fs and saved in cache") } // last option: save it directly in remote fs } else { obj, err = put(in, src, options...) if err == nil { fs.Debugf(obj, "put: uploaded to remote fs") } } // validate and stop if errors are found if err != nil { fs.Errorf(src, "put: error uploading: %v", err) return nil, err } // cache the new file cachedObj := ObjectFromOriginal(f, obj) // deleting cached chunks and info to be replaced with new ones _ = f.cache.RemoveObject(cachedObj.abs()) cachedObj.persist() fs.Debugf(cachedObj, "put: added to cache") // expire parent parentCd := NewDirectory(f, cleanPath(path.Dir(cachedObj.Remote()))) err = f.cache.ExpireDir(parentCd) if err != nil { fs.Errorf(cachedObj, "put: cache expire error: %v", err) } else { fs.Infof(parentCd, "put: cache expired") } // advertise to ChangeNotify f.notifyChangeUpstreamIfNeeded(parentCd.Remote(), fs.EntryDirectory) return cachedObj, nil } // Put in to the remote path with the modTime given of the given size func (f *Fs) Put(in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) { fs.Debugf(f, "put data at '%s'", src.Remote()) return f.put(in, src, options, f.Fs.Put) } // PutUnchecked uploads the object func (f *Fs) PutUnchecked(in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) { do := f.Fs.Features().PutUnchecked if do == nil { return nil, errors.New("can't PutUnchecked") } fs.Debugf(f, "put data unchecked in '%s'", src.Remote()) return f.put(in, src, options, do) } // PutStream uploads the object func (f *Fs) PutStream(in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) { do := f.Fs.Features().PutStream if do == nil { return nil, errors.New("can't PutStream") } fs.Debugf(f, "put data streaming in '%s'", src.Remote()) return f.put(in, src, options, do) } // Copy src to this remote using server side copy operations. func (f *Fs) Copy(src fs.Object, remote string) (fs.Object, error) { fs.Debugf(f, "copy obj '%s' -> '%s'", src, remote) do := f.Fs.Features().Copy if do == nil { fs.Errorf(src, "source remote (%v) doesn't support Copy", src.Fs()) return nil, fs.ErrorCantCopy } // the source must be a cached object or we abort srcObj, ok := src.(*Object) if !ok { fs.Errorf(srcObj, "can't copy - not same remote type") return nil, fs.ErrorCantCopy } // both the source cache fs and this cache fs need to wrap the same remote if srcObj.CacheFs.Fs.Name() != f.Fs.Name() { fs.Errorf(srcObj, "can't copy - not wrapping same remotes") return nil, fs.ErrorCantCopy } // refresh from source or abort if err := srcObj.refreshFromSource(false); err != nil { fs.Errorf(f, "can't copy %v - %v", src, err) return nil, fs.ErrorCantCopy } if srcObj.isTempFile() { // we check if the feature is still active if f.opt.TempWritePath == "" { fs.Errorf(srcObj, "can't copy - this is a local cached file but this feature is turned off this run") return nil, fs.ErrorCantCopy } do = srcObj.ParentFs.Features().Copy if do == nil { fs.Errorf(src, "parent remote (%v) doesn't support Copy", srcObj.ParentFs) return nil, fs.ErrorCantCopy } } obj, err := do(srcObj.Object, remote) if err != nil { fs.Errorf(srcObj, "error moving in cache: %v", err) return nil, err } fs.Debugf(obj, "copy: file copied") // persist new co := ObjectFromOriginal(f, obj).persist() fs.Debugf(co, "copy: added to cache") // expire the destination path parentCd := NewDirectory(f, cleanPath(path.Dir(co.Remote()))) err = f.cache.ExpireDir(parentCd) if err != nil { fs.Errorf(parentCd, "copy: cache expire error: %v", err) } else { fs.Infof(parentCd, "copy: cache expired") } // advertise to ChangeNotify if wrapped doesn't do that f.notifyChangeUpstreamIfNeeded(parentCd.Remote(), fs.EntryDirectory) // expire src parent srcParent := NewDirectory(f, cleanPath(path.Dir(src.Remote()))) err = f.cache.ExpireDir(srcParent) if err != nil { fs.Errorf(srcParent, "copy: cache expire error: %v", err) } else { fs.Infof(srcParent, "copy: cache expired") } // advertise to ChangeNotify if wrapped doesn't do that f.notifyChangeUpstreamIfNeeded(srcParent.Remote(), fs.EntryDirectory) return co, nil } // Move src to this remote using server side move operations. func (f *Fs) Move(src fs.Object, remote string) (fs.Object, error) { fs.Debugf(f, "moving obj '%s' -> %s", src, remote) // if source fs doesn't support move abort do := f.Fs.Features().Move if do == nil { fs.Errorf(src, "source remote (%v) doesn't support Move", src.Fs()) return nil, fs.ErrorCantMove } // the source must be a cached object or we abort srcObj, ok := src.(*Object) if !ok { fs.Errorf(srcObj, "can't move - not same remote type") return nil, fs.ErrorCantMove } // both the source cache fs and this cache fs need to wrap the same remote if srcObj.CacheFs.Fs.Name() != f.Fs.Name() { fs.Errorf(srcObj, "can't move - not wrapping same remote types") return nil, fs.ErrorCantMove } // refresh from source or abort if err := srcObj.refreshFromSource(false); err != nil { fs.Errorf(f, "can't move %v - %v", src, err) return nil, fs.ErrorCantMove } // if this is a temp object then we perform the changes locally if srcObj.isTempFile() { // we check if the feature is still active if f.opt.TempWritePath == "" { fs.Errorf(srcObj, "can't move - this is a local cached file but this feature is turned off this run") return nil, fs.ErrorCantMove } // pause background uploads f.backgroundRunner.pause() defer f.backgroundRunner.play() // started uploads can't be moved until they complete if srcObj.tempFileStartedUpload() { fs.Errorf(srcObj, "can't move - upload has already started. need to finish that") return nil, fs.ErrorCantMove } do = f.tempFs.Features().Move // we must also update the pending queue err := f.cache.updatePendingUpload(srcObj.abs(), func(item *tempUploadInfo) error { item.DestPath = path.Join(f.Root(), remote) item.AddedOn = time.Now() return nil }) if err != nil { fs.Errorf(srcObj, "failed to rename queued file for upload: %v", err) return nil, fs.ErrorCantMove } fs.Debugf(srcObj, "move: queued file moved to %v", remote) } obj, err := do(srcObj.Object, remote) if err != nil { fs.Errorf(srcObj, "error moving: %v", err) return nil, err } fs.Debugf(obj, "move: file moved") // remove old err = f.cache.RemoveObject(srcObj.abs()) if err != nil { fs.Errorf(srcObj, "move: remove error: %v", err) } else { fs.Debugf(srcObj, "move: removed from cache") } // expire old parent parentCd := NewDirectory(f, cleanPath(path.Dir(srcObj.Remote()))) err = f.cache.ExpireDir(parentCd) if err != nil { fs.Errorf(parentCd, "move: parent cache expire error: %v", err) } else { fs.Infof(parentCd, "move: cache expired") } // advertise to ChangeNotify if wrapped doesn't do that f.notifyChangeUpstreamIfNeeded(parentCd.Remote(), fs.EntryDirectory) // persist new cachedObj := ObjectFromOriginal(f, obj).persist() fs.Debugf(cachedObj, "move: added to cache") // expire new parent parentCd = NewDirectory(f, cleanPath(path.Dir(cachedObj.Remote()))) err = f.cache.ExpireDir(parentCd) if err != nil { fs.Errorf(parentCd, "move: expire error: %v", err) } else { fs.Infof(parentCd, "move: cache expired") } // advertise to ChangeNotify if wrapped doesn't do that f.notifyChangeUpstreamIfNeeded(parentCd.Remote(), fs.EntryDirectory) return cachedObj, nil } // Hashes returns the supported hash sets. func (f *Fs) Hashes() hash.Set { return f.Fs.Hashes() } // Purge all files in the root and the root directory func (f *Fs) Purge() error { fs.Infof(f, "purging cache") f.cache.Purge() do := f.Fs.Features().Purge if do == nil { return nil } err := do() if err != nil { return err } return nil } // CleanUp the trash in the Fs func (f *Fs) CleanUp() error { f.CleanUpCache(false) do := f.Fs.Features().CleanUp if do == nil { return nil } return do() } // About gets quota information from the Fs func (f *Fs) About() (*fs.Usage, error) { do := f.Fs.Features().About if do == nil { return nil, errors.New("About not supported") } return do() } // Stats returns stats about the cache storage func (f *Fs) Stats() (map[string]map[string]interface{}, error) { return f.cache.Stats() } // openRateLimited will execute a closure under a rate limiter watch func (f *Fs) openRateLimited(fn func() (io.ReadCloser, error)) (io.ReadCloser, error) { var err error ctx, cancel := context.WithTimeout(context.Background(), time.Second*10) defer cancel() start := time.Now() if err = f.rateLimiter.Wait(ctx); err != nil { return nil, err } elapsed := time.Since(start) if elapsed > time.Second*2 { fs.Debugf(f, "rate limited: %s", elapsed) } return fn() } // CleanUpCache will cleanup only the cache data that is expired func (f *Fs) CleanUpCache(ignoreLastTs bool) { f.cleanupMu.Lock() defer f.cleanupMu.Unlock() if ignoreLastTs || time.Now().After(f.lastChunkCleanup.Add(time.Duration(f.opt.ChunkCleanInterval))) { f.cache.CleanChunksBySize(int64(f.opt.ChunkTotalSize)) f.lastChunkCleanup = time.Now() } } // StopBackgroundRunners will signall all the runners to stop their work // can be triggered from a terminate signal or from testing between runs func (f *Fs) StopBackgroundRunners() { f.cleanupChan <- false if f.opt.TempWritePath != "" && f.backgroundRunner != nil && f.backgroundRunner.isRunning() { f.backgroundRunner.close() } f.cache.Close() fs.Debugf(f, "Services stopped") } // UnWrap returns the Fs that this Fs is wrapping func (f *Fs) UnWrap() fs.Fs { return f.Fs } // WrapFs returns the Fs that is wrapping this Fs func (f *Fs) WrapFs() fs.Fs { return f.wrapper } // SetWrapper sets the Fs that is wrapping this Fs func (f *Fs) SetWrapper(wrapper fs.Fs) { f.wrapper = wrapper } // isWrappedByCrypt checks if this is wrapped by a crypt remote func (f *Fs) isWrappedByCrypt() (*crypt.Fs, bool) { if f.wrapper == nil { return nil, false } c, ok := f.wrapper.(*crypt.Fs) return c, ok } // cleanRootFromPath trims the root of the current fs from a path func (f *Fs) cleanRootFromPath(p string) string { if f.Root() != "" { p = p[len(f.Root()):] // trim out root if len(p) > 0 { // remove first separator p = p[1:] } } return p } func (f *Fs) isRootInPath(p string) bool { if f.Root() == "" { return true } return strings.HasPrefix(p, f.Root()+"/") } // DirCacheFlush flushes the dir cache func (f *Fs) DirCacheFlush() { _ = f.cache.RemoveDir("") } // GetBackgroundUploadChannel returns a channel that can be listened to for remote activities that happen // in the background func (f *Fs) GetBackgroundUploadChannel() chan BackgroundUploadState { if f.opt.TempWritePath != "" { return f.backgroundRunner.notifyCh } return nil } func (f *Fs) isNotifiedRemote(remote string) bool { f.notifiedMu.Lock() defer f.notifiedMu.Unlock() n, ok := f.notifiedRemotes[remote] if !ok || !n { return false } delete(f.notifiedRemotes, remote) return n } func cleanPath(p string) string { p = path.Clean(p) if p == "." || p == "/" { p = "" } return p } // Check the interfaces are satisfied var ( _ fs.Fs = (*Fs)(nil) _ fs.Purger = (*Fs)(nil) _ fs.Copier = (*Fs)(nil) _ fs.Mover = (*Fs)(nil) _ fs.DirMover = (*Fs)(nil) _ fs.PutUncheckeder = (*Fs)(nil) _ fs.PutStreamer = (*Fs)(nil) _ fs.CleanUpper = (*Fs)(nil) _ fs.UnWrapper = (*Fs)(nil) _ fs.Wrapper = (*Fs)(nil) _ fs.ListRer = (*Fs)(nil) _ fs.ChangeNotifier = (*Fs)(nil) _ fs.Abouter = (*Fs)(nil) )