// Package crypt provides wrappers for Fs and Object which implement encryption package crypt import ( "context" "fmt" "io" "path" "strings" "time" "github.com/pkg/errors" "github.com/rclone/rclone/fs" "github.com/rclone/rclone/fs/accounting" "github.com/rclone/rclone/fs/cache" "github.com/rclone/rclone/fs/config/configmap" "github.com/rclone/rclone/fs/config/configstruct" "github.com/rclone/rclone/fs/config/obscure" "github.com/rclone/rclone/fs/fspath" "github.com/rclone/rclone/fs/hash" ) // Globals // Register with Fs func init() { fs.Register(&fs.RegInfo{ Name: "crypt", Description: "Encrypt/Decrypt a remote", NewFs: NewFs, CommandHelp: commandHelp, Options: []fs.Option{{ Name: "remote", Help: "Remote to encrypt/decrypt.\nNormally should contain a ':' and a path, eg \"myremote:path/to/dir\",\n\"myremote:bucket\" or maybe \"myremote:\" (not recommended).", Required: true, }, { Name: "filename_encryption", Help: "How to encrypt the filenames.", Default: "standard", Examples: []fs.OptionExample{ { Value: "standard", Help: "Encrypt the filenames see the docs for the details.", }, { Value: "obfuscate", Help: "Very simple filename obfuscation.", }, { Value: "off", Help: "Don't encrypt the file names. Adds a \".bin\" extension only.", }, }, }, { Name: "directory_name_encryption", Help: `Option to either encrypt directory names or leave them intact. NB If filename_encryption is "off" then this option will do nothing.`, Default: true, Examples: []fs.OptionExample{ { Value: "true", Help: "Encrypt directory names.", }, { Value: "false", Help: "Don't encrypt directory names, leave them intact.", }, }, }, { Name: "password", Help: "Password or pass phrase for encryption.", IsPassword: true, Required: true, }, { Name: "password2", Help: "Password or pass phrase for salt. Optional but recommended.\nShould be different to the previous password.", IsPassword: true, }, { Name: "server_side_across_configs", Default: false, Help: `Allow server side operations (eg copy) to work across different crypt configs. Normally this option is not what you want, but if you have two crypts pointing to the same backend you can use it. This can be used, for example, to change file name encryption type without re-uploading all the data. Just make two crypt backends pointing to two different directories with the single changed parameter and use rclone move to move the files between the crypt remotes.`, Advanced: true, }, { Name: "show_mapping", Help: `For all files listed show how the names encrypt. If this flag is set then for each file that the remote is asked to list, it will log (at level INFO) a line stating the decrypted file name and the encrypted file name. This is so you can work out which encrypted names are which decrypted names just in case you need to do something with the encrypted file names, or for debugging purposes.`, Default: false, Hide: fs.OptionHideConfigurator, Advanced: true, }}, }) } // newCipherForConfig constructs a Cipher for the given config name func newCipherForConfig(opt *Options) (*Cipher, error) { mode, err := NewNameEncryptionMode(opt.FilenameEncryption) if err != nil { return nil, err } if opt.Password == "" { return nil, errors.New("password not set in config file") } password, err := obscure.Reveal(opt.Password) if err != nil { return nil, errors.Wrap(err, "failed to decrypt password") } var salt string if opt.Password2 != "" { salt, err = obscure.Reveal(opt.Password2) if err != nil { return nil, errors.Wrap(err, "failed to decrypt password2") } } cipher, err := newCipher(mode, password, salt, opt.DirectoryNameEncryption) if err != nil { return nil, errors.Wrap(err, "failed to make cipher") } return cipher, nil } // NewCipher constructs a Cipher for the given config func NewCipher(m configmap.Mapper) (*Cipher, error) { // Parse config into Options struct opt := new(Options) err := configstruct.Set(m, opt) if err != nil { return nil, err } return newCipherForConfig(opt) } // NewFs constructs an Fs from the path, container:path func NewFs(name, rpath 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 } cipher, err := newCipherForConfig(opt) if err != nil { return nil, err } remote := opt.Remote if strings.HasPrefix(remote, name+":") { return nil, errors.New("can't point crypt remote at itself - check the value of the remote setting") } // Make sure to remove trailing . referring to the current dir if path.Base(rpath) == "." { rpath = strings.TrimSuffix(rpath, ".") } // Look for a file first var wrappedFs fs.Fs if rpath == "" { wrappedFs, err = cache.Get(remote) } else { remotePath := fspath.JoinRootPath(remote, cipher.EncryptFileName(rpath)) wrappedFs, err = cache.Get(remotePath) // if that didn't produce a file, look for a directory if err != fs.ErrorIsFile { remotePath = fspath.JoinRootPath(remote, cipher.EncryptDirName(rpath)) wrappedFs, err = cache.Get(remotePath) } } if err != fs.ErrorIsFile && err != nil { return nil, errors.Wrapf(err, "failed to make remote %q to wrap", remote) } f := &Fs{ Fs: wrappedFs, name: name, root: rpath, opt: *opt, cipher: cipher, } cache.PinUntilFinalized(f.Fs, f) // the features here are ones we could support, and they are // ANDed with the ones from wrappedFs f.features = (&fs.Features{ CaseInsensitive: cipher.NameEncryptionMode() == NameEncryptionOff, DuplicateFiles: true, ReadMimeType: false, // MimeTypes not supported with crypt WriteMimeType: false, BucketBased: true, CanHaveEmptyDirectories: true, SetTier: true, GetTier: true, ServerSideAcrossConfigs: opt.ServerSideAcrossConfigs, }).Fill(f).Mask(wrappedFs).WrapsFs(f, wrappedFs) return f, err } // Options defines the configuration for this backend type Options struct { Remote string `config:"remote"` FilenameEncryption string `config:"filename_encryption"` DirectoryNameEncryption bool `config:"directory_name_encryption"` Password string `config:"password"` Password2 string `config:"password2"` ServerSideAcrossConfigs bool `config:"server_side_across_configs"` ShowMapping bool `config:"show_mapping"` } // Fs represents a wrapped fs.Fs type Fs struct { fs.Fs wrapper fs.Fs name string root string opt Options features *fs.Features // optional features cipher *Cipher } // 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("Encrypted drive '%s:%s'", f.name, f.root) } // Encrypt an object file name to entries. func (f *Fs) add(entries *fs.DirEntries, obj fs.Object) { remote := obj.Remote() decryptedRemote, err := f.cipher.DecryptFileName(remote) if err != nil { fs.Debugf(remote, "Skipping undecryptable file name: %v", err) return } if f.opt.ShowMapping { fs.Logf(decryptedRemote, "Encrypts to %q", remote) } *entries = append(*entries, f.newObject(obj)) } // Encrypt a directory file name to entries. func (f *Fs) addDir(ctx context.Context, entries *fs.DirEntries, dir fs.Directory) { remote := dir.Remote() decryptedRemote, err := f.cipher.DecryptDirName(remote) if err != nil { fs.Debugf(remote, "Skipping undecryptable dir name: %v", err) return } if f.opt.ShowMapping { fs.Logf(decryptedRemote, "Encrypts to %q", remote) } *entries = append(*entries, f.newDir(ctx, dir)) } // Encrypt some directory entries. This alters entries returning it as newEntries. func (f *Fs) encryptEntries(ctx context.Context, entries fs.DirEntries) (newEntries fs.DirEntries, err error) { newEntries = entries[:0] // in place filter for _, entry := range entries { switch x := entry.(type) { case fs.Object: f.add(&newEntries, x) case fs.Directory: f.addDir(ctx, &newEntries, x) default: return nil, errors.Errorf("Unknown object type %T", entry) } } return newEntries, nil } // List the objects and directories in dir into entries. The // entries can be returned in any order but should be for a // complete directory. // // dir should be "" to list the root, and should not have // trailing slashes. // // This should return ErrDirNotFound if the directory isn't // found. func (f *Fs) List(ctx context.Context, dir string) (entries fs.DirEntries, err error) { entries, err = f.Fs.List(ctx, f.cipher.EncryptDirName(dir)) if err != nil { return nil, err } return f.encryptEntries(ctx, entries) } // ListR lists the objects and directories of the Fs starting // from dir recursively into out. // // dir should be "" to start from the root, and should not // have trailing slashes. // // This should return ErrDirNotFound if the directory isn't // found. // // It should call callback for each tranche of entries read. // These need not be returned in any particular order. If // callback returns an error then the listing will stop // immediately. // // Don't implement this unless you have a more efficient way // of listing recursively that doing a directory traversal. func (f *Fs) ListR(ctx context.Context, dir string, callback fs.ListRCallback) (err error) { return f.Fs.Features().ListR(ctx, f.cipher.EncryptDirName(dir), func(entries fs.DirEntries) error { newEntries, err := f.encryptEntries(ctx, entries) if err != nil { return err } return callback(newEntries) }) } // NewObject finds the Object at remote. func (f *Fs) NewObject(ctx context.Context, remote string) (fs.Object, error) { o, err := f.Fs.NewObject(ctx, f.cipher.EncryptFileName(remote)) if err != nil { return nil, err } return f.newObject(o), nil } type putFn func(ctx context.Context, in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) // put implements Put or PutStream func (f *Fs) put(ctx context.Context, in io.Reader, src fs.ObjectInfo, options []fs.OpenOption, put putFn) (fs.Object, error) { // Encrypt the data into wrappedIn wrappedIn, encrypter, err := f.cipher.encryptData(in) if err != nil { return nil, err } // Find a hash the destination supports to compute a hash of // the encrypted data ht := f.Fs.Hashes().GetOne() var hasher *hash.MultiHasher if ht != hash.None { hasher, err = hash.NewMultiHasherTypes(hash.NewHashSet(ht)) if err != nil { return nil, err } // unwrap the accounting var wrap accounting.WrapFn wrappedIn, wrap = accounting.UnWrap(wrappedIn) // add the hasher wrappedIn = io.TeeReader(wrappedIn, hasher) // wrap the accounting back on wrappedIn = wrap(wrappedIn) } // Transfer the data o, err := put(ctx, wrappedIn, f.newObjectInfo(src, encrypter.nonce), options...) if err != nil { return nil, err } // Check the hashes of the encrypted data if we were comparing them if ht != hash.None && hasher != nil { srcHash := hasher.Sums()[ht] var dstHash string dstHash, err = o.Hash(ctx, ht) if err != nil { return nil, errors.Wrap(err, "failed to read destination hash") } if srcHash != "" && dstHash != "" && srcHash != dstHash { // remove object err = o.Remove(ctx) if err != nil { fs.Errorf(o, "Failed to remove corrupted object: %v", err) } return nil, errors.Errorf("corrupted on transfer: %v crypted hash differ %q vs %q", ht, srcHash, dstHash) } } return f.newObject(o), nil } // 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) { return f.put(ctx, in, src, options, f.Fs.Put) } // PutStream uploads to the remote path with the modTime given of indeterminate size func (f *Fs) PutStream(ctx context.Context, in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) { return f.put(ctx, in, src, options, f.Fs.Features().PutStream) } // Hashes returns the supported hash sets. func (f *Fs) Hashes() hash.Set { return hash.Set(hash.None) } // Mkdir makes the directory (container, bucket) // // Shouldn't return an error if it already exists func (f *Fs) Mkdir(ctx context.Context, dir string) error { return f.Fs.Mkdir(ctx, f.cipher.EncryptDirName(dir)) } // Rmdir removes the directory (container, bucket) if empty // // Return an error if it doesn't exist or isn't empty func (f *Fs) Rmdir(ctx context.Context, dir string) error { return f.Fs.Rmdir(ctx, f.cipher.EncryptDirName(dir)) } // Purge all files in the directory specified // // Implement this if you have a way of deleting all the files // quicker than just running Remove() on the result of List() // // Return an error if it doesn't exist func (f *Fs) Purge(ctx context.Context, dir string) error { do := f.Fs.Features().Purge if do == nil { return fs.ErrorCantPurge } return do(ctx, f.cipher.EncryptDirName(dir)) } // Copy src to this remote using server side copy operations. // // This is stored with the remote path given // // It returns the destination Object and a possible error // // Will only be called if src.Fs().Name() == f.Name() // // If it isn't possible then return fs.ErrorCantCopy func (f *Fs) Copy(ctx context.Context, src fs.Object, remote string) (fs.Object, error) { do := f.Fs.Features().Copy if do == nil { return nil, fs.ErrorCantCopy } o, ok := src.(*Object) if !ok { return nil, fs.ErrorCantCopy } oResult, err := do(ctx, o.Object, f.cipher.EncryptFileName(remote)) if err != nil { return nil, err } return f.newObject(oResult), nil } // Move src to this remote using server side move operations. // // This is stored with the remote path given // // It returns the destination Object and a possible error // // Will only be called if src.Fs().Name() == f.Name() // // If it isn't possible then return fs.ErrorCantMove func (f *Fs) Move(ctx context.Context, src fs.Object, remote string) (fs.Object, error) { do := f.Fs.Features().Move if do == nil { return nil, fs.ErrorCantMove } o, ok := src.(*Object) if !ok { return nil, fs.ErrorCantMove } oResult, err := do(ctx, o.Object, f.cipher.EncryptFileName(remote)) if err != nil { return nil, err } return f.newObject(oResult), nil } // DirMove moves src, srcRemote to this remote at dstRemote // using server side move operations. // // Will only be called if src.Fs().Name() == f.Name() // // If it isn't possible then return fs.ErrorCantDirMove // // If destination exists then return fs.ErrorDirExists func (f *Fs) DirMove(ctx context.Context, src fs.Fs, srcRemote, dstRemote string) error { do := f.Fs.Features().DirMove if do == nil { return fs.ErrorCantDirMove } srcFs, ok := src.(*Fs) if !ok { fs.Debugf(srcFs, "Can't move directory - not same remote type") return fs.ErrorCantDirMove } return do(ctx, srcFs.Fs, f.cipher.EncryptDirName(srcRemote), f.cipher.EncryptDirName(dstRemote)) } // PutUnchecked uploads the object // // This will create a duplicate if we upload a new file without // checking to see if there is one already - use Put() for that. func (f *Fs) PutUnchecked(ctx context.Context, 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") } wrappedIn, encrypter, err := f.cipher.encryptData(in) if err != nil { return nil, err } o, err := do(ctx, wrappedIn, f.newObjectInfo(src, encrypter.nonce)) if err != nil { return nil, err } return f.newObject(o), nil } // CleanUp the trash in the Fs // // Implement this if you have a way of emptying the trash or // otherwise cleaning up old versions of files. func (f *Fs) CleanUp(ctx context.Context) error { do := f.Fs.Features().CleanUp if do == nil { return errors.New("can't CleanUp") } return do(ctx) } // About gets quota information from the Fs func (f *Fs) About(ctx context.Context) (*fs.Usage, error) { do := f.Fs.Features().About if do == nil { return nil, errors.New("About not supported") } return do(ctx) } // 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 } // EncryptFileName returns an encrypted file name func (f *Fs) EncryptFileName(fileName string) string { return f.cipher.EncryptFileName(fileName) } // DecryptFileName returns a decrypted file name func (f *Fs) DecryptFileName(encryptedFileName string) (string, error) { return f.cipher.DecryptFileName(encryptedFileName) } // computeHashWithNonce takes the nonce and encrypts the contents of // src with it, and calculates the hash given by HashType on the fly // // Note that we break lots of encapsulation in this function. func (f *Fs) computeHashWithNonce(ctx context.Context, nonce nonce, src fs.Object, hashType hash.Type) (hashStr string, err error) { // Open the src for input in, err := src.Open(ctx) if err != nil { return "", errors.Wrap(err, "failed to open src") } defer fs.CheckClose(in, &err) // Now encrypt the src with the nonce out, err := f.cipher.newEncrypter(in, &nonce) if err != nil { return "", errors.Wrap(err, "failed to make encrypter") } // pipe into hash m, err := hash.NewMultiHasherTypes(hash.NewHashSet(hashType)) if err != nil { return "", errors.Wrap(err, "failed to make hasher") } _, err = io.Copy(m, out) if err != nil { return "", errors.Wrap(err, "failed to hash data") } return m.Sums()[hashType], nil } // ComputeHash takes the nonce from o, and encrypts the contents of // src with it, and calculates the hash given by HashType on the fly // // Note that we break lots of encapsulation in this function. func (f *Fs) ComputeHash(ctx context.Context, o *Object, src fs.Object, hashType hash.Type) (hashStr string, err error) { // Read the nonce - opening the file is sufficient to read the nonce in // use a limited read so we only read the header in, err := o.Object.Open(ctx, &fs.RangeOption{Start: 0, End: int64(fileHeaderSize) - 1}) if err != nil { return "", errors.Wrap(err, "failed to open object to read nonce") } d, err := f.cipher.newDecrypter(in) if err != nil { _ = in.Close() return "", errors.Wrap(err, "failed to open object to read nonce") } nonce := d.nonce // fs.Debugf(o, "Read nonce % 2x", nonce) // Check nonce isn't all zeros isZero := true for i := range nonce { if nonce[i] != 0 { isZero = false } } if isZero { fs.Errorf(o, "empty nonce read") } // Close d (and hence in) once we have read the nonce err = d.Close() if err != nil { return "", errors.Wrap(err, "failed to close nonce read") } return f.computeHashWithNonce(ctx, nonce, src, hashType) } // MergeDirs merges the contents of all the directories passed // in into the first one and rmdirs the other directories. func (f *Fs) MergeDirs(ctx context.Context, dirs []fs.Directory) error { do := f.Fs.Features().MergeDirs if do == nil { return errors.New("MergeDirs not supported") } out := make([]fs.Directory, len(dirs)) for i, dir := range dirs { out[i] = fs.NewDirCopy(ctx, dir).SetRemote(f.cipher.EncryptDirName(dir.Remote())) } return do(ctx, out) } // DirCacheFlush resets the directory cache - used in testing // as an optional interface func (f *Fs) DirCacheFlush() { do := f.Fs.Features().DirCacheFlush if do != nil { do() } } // PublicLink generates a public link to the remote path (usually readable by anyone) func (f *Fs) PublicLink(ctx context.Context, remote string, expire fs.Duration, unlink bool) (string, error) { do := f.Fs.Features().PublicLink if do == nil { return "", errors.New("PublicLink not supported") } o, err := f.NewObject(ctx, remote) if err != nil { // assume it is a directory return do(ctx, f.cipher.EncryptDirName(remote), expire, unlink) } return do(ctx, o.(*Object).Object.Remote(), expire, unlink) } // ChangeNotify calls the passed function with a path // that has had changes. If the implementation // uses polling, it should adhere to the given interval. func (f *Fs) ChangeNotify(ctx context.Context, notifyFunc func(string, fs.EntryType), pollIntervalChan <-chan time.Duration) { do := f.Fs.Features().ChangeNotify if do == nil { return } wrappedNotifyFunc := func(path string, entryType fs.EntryType) { // fs.Debugf(f, "ChangeNotify: path %q entryType %d", path, entryType) var ( err error decrypted string ) switch entryType { case fs.EntryDirectory: decrypted, err = f.cipher.DecryptDirName(path) case fs.EntryObject: decrypted, err = f.cipher.DecryptFileName(path) default: fs.Errorf(path, "crypt ChangeNotify: ignoring unknown EntryType %d", entryType) return } if err != nil { fs.Logf(f, "ChangeNotify was unable to decrypt %q: %s", path, err) return } notifyFunc(decrypted, entryType) } do(ctx, wrappedNotifyFunc, pollIntervalChan) } var commandHelp = []fs.CommandHelp{ { Name: "encode", Short: "Encode the given filename(s)", Long: `This encodes the filenames given as arguments returning a list of strings of the encoded results. Usage Example: rclone backend encode crypt: file1 [file2...] rclone rc backend/command command=encode fs=crypt: file1 [file2...] `, }, { Name: "decode", Short: "Decode the given filename(s)", Long: `This decodes the filenames given as arguments returning a list of strings of the decoded results. It will return an error if any of the inputs are invalid. Usage Example: rclone backend decode crypt: encryptedfile1 [encryptedfile2...] rclone rc backend/command command=decode fs=crypt: encryptedfile1 [encryptedfile2...] `, }, } // Command the backend to run a named command // // The command run is name // args may be used to read arguments from // opts may be used to read optional arguments from // // The result should be capable of being JSON encoded // If it is a string or a []string it will be shown to the user // otherwise it will be JSON encoded and shown to the user like that func (f *Fs) Command(ctx context.Context, name string, arg []string, opt map[string]string) (out interface{}, err error) { switch name { case "decode": out := make([]string, 0, len(arg)) for _, encryptedFileName := range arg { fileName, err := f.DecryptFileName(encryptedFileName) if err != nil { return out, errors.Wrap(err, fmt.Sprintf("Failed to decrypt : %s", encryptedFileName)) } out = append(out, fileName) } return out, nil case "encode": out := make([]string, 0, len(arg)) for _, fileName := range arg { encryptedFileName := f.EncryptFileName(fileName) out = append(out, encryptedFileName) } return out, nil default: return nil, fs.ErrorCommandNotFound } } // Object describes a wrapped for being read from the Fs // // This decrypts the remote name and decrypts the data type Object struct { fs.Object f *Fs } func (f *Fs) newObject(o fs.Object) *Object { return &Object{ Object: o, f: f, } } // Fs returns read only access to the Fs that this object is part of func (o *Object) Fs() fs.Info { return o.f } // Return a string version func (o *Object) String() string { if o == nil { return "" } return o.Remote() } // Remote returns the remote path func (o *Object) Remote() string { remote := o.Object.Remote() decryptedName, err := o.f.cipher.DecryptFileName(remote) if err != nil { fs.Debugf(remote, "Undecryptable file name: %v", err) return remote } return decryptedName } // Size returns the size of the file func (o *Object) Size() int64 { size, err := o.f.cipher.DecryptedSize(o.Object.Size()) if err != nil { fs.Debugf(o, "Bad size for decrypt: %v", err) } return size } // Hash returns the selected checksum of the file // If no checksum is available it returns "" func (o *Object) Hash(ctx context.Context, ht hash.Type) (string, error) { return "", hash.ErrUnsupported } // UnWrap returns the wrapped Object func (o *Object) UnWrap() fs.Object { return o.Object } // Open opens the file for read. Call Close() on the returned io.ReadCloser func (o *Object) Open(ctx context.Context, options ...fs.OpenOption) (rc io.ReadCloser, err error) { var openOptions []fs.OpenOption var offset, limit int64 = 0, -1 for _, option := range options { switch x := option.(type) { case *fs.SeekOption: offset = x.Offset case *fs.RangeOption: offset, limit = x.Decode(o.Size()) default: // pass on Options to underlying open if appropriate openOptions = append(openOptions, option) } } rc, err = o.f.cipher.DecryptDataSeek(ctx, func(ctx context.Context, underlyingOffset, underlyingLimit int64) (io.ReadCloser, error) { if underlyingOffset == 0 && underlyingLimit < 0 { // Open with no seek return o.Object.Open(ctx, openOptions...) } // Open stream with a range of underlyingOffset, underlyingLimit end := int64(-1) if underlyingLimit >= 0 { end = underlyingOffset + underlyingLimit - 1 if end >= o.Object.Size() { end = -1 } } newOpenOptions := append(openOptions, &fs.RangeOption{Start: underlyingOffset, End: end}) return o.Object.Open(ctx, newOpenOptions...) }, offset, limit) if err != nil { return nil, err } return rc, nil } // Update in to the object with the modTime given of the given size func (o *Object) Update(ctx context.Context, in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) error { update := func(ctx context.Context, in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) { return o.Object, o.Object.Update(ctx, in, src, options...) } _, err := o.f.put(ctx, in, src, options, update) return err } // newDir returns a dir with the Name decrypted func (f *Fs) newDir(ctx context.Context, dir fs.Directory) fs.Directory { newDir := fs.NewDirCopy(ctx, dir) remote := dir.Remote() decryptedRemote, err := f.cipher.DecryptDirName(remote) if err != nil { fs.Debugf(remote, "Undecryptable dir name: %v", err) } else { newDir.SetRemote(decryptedRemote) } return newDir } // UserInfo returns info about the connected user func (f *Fs) UserInfo(ctx context.Context) (map[string]string, error) { do := f.Fs.Features().UserInfo if do == nil { return nil, fs.ErrorNotImplemented } return do(ctx) } // Disconnect the current user func (f *Fs) Disconnect(ctx context.Context) error { do := f.Fs.Features().Disconnect if do == nil { return fs.ErrorNotImplemented } return do(ctx) } // ObjectInfo describes a wrapped fs.ObjectInfo for being the source // // This encrypts the remote name and adjusts the size type ObjectInfo struct { fs.ObjectInfo f *Fs nonce nonce } func (f *Fs) newObjectInfo(src fs.ObjectInfo, nonce nonce) *ObjectInfo { return &ObjectInfo{ ObjectInfo: src, f: f, nonce: nonce, } } // Fs returns read only access to the Fs that this object is part of func (o *ObjectInfo) Fs() fs.Info { return o.f } // Remote returns the remote path func (o *ObjectInfo) Remote() string { return o.f.cipher.EncryptFileName(o.ObjectInfo.Remote()) } // Size returns the size of the file func (o *ObjectInfo) Size() int64 { size := o.ObjectInfo.Size() if size < 0 { return size } return o.f.cipher.EncryptedSize(size) } // Hash returns the selected checksum of the file // If no checksum is available it returns "" func (o *ObjectInfo) Hash(ctx context.Context, hash hash.Type) (string, error) { var srcObj fs.Object var ok bool // Get the underlying object if there is one if srcObj, ok = o.ObjectInfo.(fs.Object); ok { // Prefer direct interface assertion } else if do, ok := o.ObjectInfo.(fs.ObjectUnWrapper); ok { // Otherwise likely is an operations.OverrideRemote srcObj = do.UnWrap() } else { return "", nil } // if this is wrapping a local object then we work out the hash if srcObj.Fs().Features().IsLocal { // Read the data and encrypt it to calculate the hash fs.Debugf(o, "Computing %v hash of encrypted source", hash) return o.f.computeHashWithNonce(ctx, o.nonce, srcObj, hash) } return "", nil } // 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() } // 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("crypt: underlying remote does not support SetTier") } return do.SetTier(tier) } // 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() } // 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.Commander = (*Fs)(nil) _ fs.PutUncheckeder = (*Fs)(nil) _ fs.PutStreamer = (*Fs)(nil) _ fs.CleanUpper = (*Fs)(nil) _ fs.UnWrapper = (*Fs)(nil) _ fs.ListRer = (*Fs)(nil) _ fs.Abouter = (*Fs)(nil) _ fs.Wrapper = (*Fs)(nil) _ fs.MergeDirser = (*Fs)(nil) _ fs.DirCacheFlusher = (*Fs)(nil) _ fs.ChangeNotifier = (*Fs)(nil) _ fs.PublicLinker = (*Fs)(nil) _ fs.UserInfoer = (*Fs)(nil) _ fs.Disconnecter = (*Fs)(nil) _ fs.ObjectInfo = (*ObjectInfo)(nil) _ fs.Object = (*Object)(nil) _ fs.ObjectUnWrapper = (*Object)(nil) _ fs.IDer = (*Object)(nil) _ fs.SetTierer = (*Object)(nil) _ fs.GetTierer = (*Object)(nil) )