// Package upstream provides utility functionality to union. package upstream import ( "context" "errors" "fmt" "io" "math" "strings" "sync" "sync/atomic" "time" "github.com/rclone/rclone/backend/union/common" "github.com/rclone/rclone/fs" "github.com/rclone/rclone/fs/cache" "github.com/rclone/rclone/fs/fspath" ) var ( // ErrUsageFieldNotSupported stats the usage field is not supported by the backend ErrUsageFieldNotSupported = errors.New("this usage field is not supported") ) // Fs is a wrap of any fs and its configs type Fs struct { // In order to ensure memory alignment on 32-bit architectures // when this field is accessed through sync/atomic functions, // it must be the first entry in the struct cacheExpiry int64 // usage cache expiry time fs.Fs RootFs fs.Fs RootPath string Opt *common.Options writable bool creatable bool usage *fs.Usage // Cache the usage cacheTime time.Duration // cache duration cacheMutex sync.RWMutex cacheOnce sync.Once cacheUpdate bool // if the cache is updating } // Directory describes a wrapped Directory // // This is a wrapped Directory which contains the upstream Fs type Directory struct { fs.Directory f *Fs } // Object describes a wrapped Object // // This is a wrapped Object which contains the upstream Fs type Object struct { fs.Object f *Fs } // Entry describe a wrapped fs.DirEntry interface with the // information of upstream Fs type Entry interface { fs.DirEntry UpstreamFs() *Fs } // New creates a new Fs based on the // string formatted `type:root_path(:ro/:nc)` func New(ctx context.Context, remote, root string, opt *common.Options) (*Fs, error) { configName, fsPath, err := fspath.SplitFs(remote) if err != nil { return nil, err } f := &Fs{ RootPath: strings.TrimRight(root, "/"), Opt: opt, writable: true, creatable: true, cacheExpiry: time.Now().Unix(), cacheTime: time.Duration(opt.CacheTime) * time.Second, usage: &fs.Usage{}, } if strings.HasSuffix(fsPath, ":ro") { f.writable = false f.creatable = false fsPath = fsPath[0 : len(fsPath)-3] } else if strings.HasSuffix(fsPath, ":nc") { f.writable = true f.creatable = false fsPath = fsPath[0 : len(fsPath)-3] } remote = configName + fsPath rFs, err := cache.Get(ctx, remote) if err != nil && err != fs.ErrorIsFile { return nil, err } f.RootFs = rFs rootString := fspath.JoinRootPath(remote, root) myFs, err := cache.Get(ctx, rootString) if err != nil && err != fs.ErrorIsFile { return nil, err } f.Fs = myFs cache.PinUntilFinalized(f.Fs, f) return f, err } // WrapDirectory wraps an fs.Directory to include the info // of the upstream Fs func (f *Fs) WrapDirectory(e fs.Directory) *Directory { if e == nil { return nil } return &Directory{ Directory: e, f: f, } } // WrapObject wraps an fs.Object to include the info // of the upstream Fs func (f *Fs) WrapObject(o fs.Object) *Object { if o == nil { return nil } return &Object{ Object: o, f: f, } } // WrapEntry wraps an fs.DirEntry to include the info // of the upstream Fs func (f *Fs) WrapEntry(e fs.DirEntry) (Entry, error) { switch e := e.(type) { case fs.Object: return f.WrapObject(e), nil case fs.Directory: return f.WrapDirectory(e), nil default: return nil, fmt.Errorf("unknown object type %T", e) } } // UpstreamFs get the upstream Fs the entry is stored in func (e *Directory) UpstreamFs() *Fs { return e.f } // UpstreamFs get the upstream Fs the entry is stored in func (o *Object) UpstreamFs() *Fs { return o.f } // UnWrap returns the Object that this Object is wrapping or // nil if it isn't wrapping anything func (o *Object) UnWrap() fs.Object { return o.Object } // IsCreatable return if the fs is allowed to create new objects func (f *Fs) IsCreatable() bool { return f.creatable } // IsWritable return if the fs is allowed to write func (f *Fs) IsWritable() bool { return f.writable } // Put in to the remote path with the modTime given of the given size // // May create the object even if it returns an error - if so // will return the object and the error, otherwise will return // nil and the error func (f *Fs) Put(ctx context.Context, in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) { o, err := f.Fs.Put(ctx, in, src, options...) if err != nil { return o, err } f.cacheMutex.Lock() defer f.cacheMutex.Unlock() size := src.Size() if f.usage.Used != nil { *f.usage.Used += size } if f.usage.Free != nil { *f.usage.Free -= size } if f.usage.Objects != nil { *f.usage.Objects++ } return o, nil } // PutStream uploads to the remote path with the modTime given of indeterminate size // // May create the object even if it returns an error - if so // will return the object and the error, otherwise will return // nil and the error func (f *Fs) PutStream(ctx context.Context, in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) { do := f.Features().PutStream if do == nil { return nil, fs.ErrorNotImplemented } o, err := do(ctx, in, src, options...) if err != nil { return o, err } f.cacheMutex.Lock() defer f.cacheMutex.Unlock() size := o.Size() if f.usage.Used != nil { *f.usage.Used += size } if f.usage.Free != nil { *f.usage.Free -= size } if f.usage.Objects != nil { *f.usage.Objects++ } return o, nil } // Update in to the object with the modTime given of the given size // // When called from outside an Fs by rclone, src.Size() will always be >= 0. // But for unknown-sized objects (indicated by src.Size() == -1), Upload should either // return an error or update the object properly (rather than e.g. calling panic). func (o *Object) Update(ctx context.Context, in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) error { size := o.Size() err := o.Object.Update(ctx, in, src, options...) if err != nil { return err } o.f.cacheMutex.Lock() defer o.f.cacheMutex.Unlock() delta := o.Size() - size if delta <= 0 { return nil } if o.f.usage.Used != nil { *o.f.usage.Used += size } if o.f.usage.Free != nil { *o.f.usage.Free -= size } return nil } // GetTier returns storage tier or class of the Object func (o *Object) GetTier() string { do, ok := o.Object.(fs.GetTierer) if !ok { return "" } return do.GetTier() } // ID returns the ID of the Object if known, or "" if not func (o *Object) ID() string { do, ok := o.Object.(fs.IDer) if !ok { return "" } return do.ID() } // MimeType returns the content type of the Object if known func (o *Object) MimeType(ctx context.Context) (mimeType string) { if do, ok := o.Object.(fs.MimeTyper); ok { mimeType = do.MimeType(ctx) } return mimeType } // SetTier performs changing storage tier of the Object if // multiple storage classes supported func (o *Object) SetTier(tier string) error { do, ok := o.Object.(fs.SetTierer) if !ok { return errors.New("underlying remote does not support SetTier") } return do.SetTier(tier) } // Metadata returns metadata for an object // // It should return nil if there is no Metadata func (o *Object) Metadata(ctx context.Context) (fs.Metadata, error) { do, ok := o.Object.(fs.Metadataer) if !ok { return nil, nil } return do.Metadata(ctx) } // About gets quota information from the Fs func (f *Fs) About(ctx context.Context) (*fs.Usage, error) { if atomic.LoadInt64(&f.cacheExpiry) <= time.Now().Unix() { err := f.updateUsage() if err != nil { return nil, ErrUsageFieldNotSupported } } f.cacheMutex.RLock() defer f.cacheMutex.RUnlock() return f.usage, nil } // GetFreeSpace get the free space of the fs // // This is returned as 0..math.MaxInt64-1 leaving math.MaxInt64 as a sentinel func (f *Fs) GetFreeSpace() (int64, error) { if atomic.LoadInt64(&f.cacheExpiry) <= time.Now().Unix() { err := f.updateUsage() if err != nil { return math.MaxInt64 - 1, ErrUsageFieldNotSupported } } f.cacheMutex.RLock() defer f.cacheMutex.RUnlock() if f.usage.Free == nil { return math.MaxInt64 - 1, ErrUsageFieldNotSupported } return *f.usage.Free, nil } // GetUsedSpace get the used space of the fs // // This is returned as 0..math.MaxInt64-1 leaving math.MaxInt64 as a sentinel func (f *Fs) GetUsedSpace() (int64, error) { if atomic.LoadInt64(&f.cacheExpiry) <= time.Now().Unix() { err := f.updateUsage() if err != nil { return 0, ErrUsageFieldNotSupported } } f.cacheMutex.RLock() defer f.cacheMutex.RUnlock() if f.usage.Used == nil { return 0, ErrUsageFieldNotSupported } return *f.usage.Used, nil } // GetNumObjects get the number of objects of the fs func (f *Fs) GetNumObjects() (int64, error) { if atomic.LoadInt64(&f.cacheExpiry) <= time.Now().Unix() { err := f.updateUsage() if err != nil { return 0, ErrUsageFieldNotSupported } } f.cacheMutex.RLock() defer f.cacheMutex.RUnlock() if f.usage.Objects == nil { return 0, ErrUsageFieldNotSupported } return *f.usage.Objects, nil } func (f *Fs) updateUsage() (err error) { if do := f.RootFs.Features().About; do == nil { return ErrUsageFieldNotSupported } done := false f.cacheOnce.Do(func() { f.cacheMutex.Lock() err = f.updateUsageCore(false) f.cacheMutex.Unlock() done = true }) if done { return err } if !f.cacheUpdate { f.cacheUpdate = true go func() { _ = f.updateUsageCore(true) f.cacheUpdate = false }() } return nil } func (f *Fs) updateUsageCore(lock bool) error { // Run in background, should not be cancelled by user ctx, cancel := context.WithTimeout(context.Background(), 15*time.Second) defer cancel() usage, err := f.RootFs.Features().About(ctx) if err != nil { f.cacheUpdate = false if errors.Is(err, fs.ErrorDirNotFound) { err = nil } return err } if lock { f.cacheMutex.Lock() defer f.cacheMutex.Unlock() } // Store usage atomic.StoreInt64(&f.cacheExpiry, time.Now().Add(f.cacheTime).Unix()) f.usage = usage return nil } // Check the interfaces are satisfied var ( _ fs.FullObject = (*Object)(nil) )