// Package crypt provides wrappers for Fs and Object which implement encryption package crypt import ( "fmt" "io" "path" "strings" "github.com/ncw/rclone/fs" "github.com/pkg/errors" ) // Globals var ( // Flags cryptShowMapping = fs.BoolP("crypt-show-mapping", "", false, "For all files listed show how the names encrypt.") ) // Register with Fs func init() { fs.Register(&fs.RegInfo{ Name: "crypt", Description: "Encrypt/Decrypt a remote", NewFs: NewFs, 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).", }, { Name: "filename_encryption", Help: "How to encrypt the filenames.", Examples: []fs.OptionExample{ { Value: "off", Help: "Don't encrypt the file names. Adds a \".bin\" extension only.", }, { Value: "standard", Help: "Encrypt the filenames see the docs for the details.", }, { Value: "obfuscate", Help: "Very simple filename obfuscation.", }, }, }, { Name: "password", Help: "Password or pass phrase for encryption.", IsPassword: true, }, { Name: "password2", Help: "Password or pass phrase for salt. Optional but recommended.\nShould be different to the previous password.", IsPassword: true, Optional: true, }}, }) } // NewFs contstructs an Fs from the path, container:path func NewFs(name, rpath string) (fs.Fs, error) { mode, err := NewNameEncryptionMode(fs.ConfigFileGet(name, "filename_encryption", "standard")) if err != nil { return nil, err } password := fs.ConfigFileGet(name, "password", "") if password == "" { return nil, errors.New("password not set in config file") } password, err = fs.Reveal(password) if err != nil { return nil, errors.Wrap(err, "failed to decrypt password") } salt := fs.ConfigFileGet(name, "password2", "") if salt != "" { salt, err = fs.Reveal(salt) if err != nil { return nil, errors.Wrap(err, "failed to decrypt password2") } } cipher, err := newCipher(mode, password, salt) if err != nil { return nil, errors.Wrap(err, "failed to make cipher") } remote := fs.ConfigFileGet(name, "remote") if strings.HasPrefix(remote, name+":") { return nil, errors.New("can't point crypt remote at itself - check the value of the remote setting") } // Look for a file first remotePath := path.Join(remote, cipher.EncryptFileName(rpath)) wrappedFs, err := fs.NewFs(remotePath) // if that didn't produce a file, look for a directory if err != fs.ErrorIsFile { remotePath = path.Join(remote, cipher.EncryptDirName(rpath)) wrappedFs, err = fs.NewFs(remotePath) } if err != fs.ErrorIsFile && err != nil { return nil, errors.Wrapf(err, "failed to make remote %q to wrap", remotePath) } f := &Fs{ Fs: wrappedFs, name: name, root: rpath, cipher: cipher, mode: mode, } // the features here are ones we could support, and they are // ANDed with the ones from wrappedFs f.features = (&fs.Features{ CaseInsensitive: mode == NameEncryptionOff, DuplicateFiles: true, ReadMimeType: false, // MimeTypes not supported with crypt WriteMimeType: false, BucketBased: true, CanHaveEmptyDirectories: true, }).Fill(f).Mask(wrappedFs) return f, err } // Fs represents a wrapped fs.Fs type Fs struct { fs.Fs name string root string features *fs.Features // optional features cipher Cipher mode NameEncryptionMode } // 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 *cryptShowMapping { fs.Logf(decryptedRemote, "Encrypts to %q", remote) } *entries = append(*entries, f.newObject(obj)) } // Encrypt an directory file name to entries. func (f *Fs) addDir(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 *cryptShowMapping { fs.Logf(decryptedRemote, "Encrypts to %q", remote) } *entries = append(*entries, f.newDir(dir)) } // Encrypt some directory entries. This alters entries returning it as newEntries. func (f *Fs) encryptEntries(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(&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(dir string) (entries fs.DirEntries, err error) { entries, err = f.Fs.List(f.cipher.EncryptDirName(dir)) if err != nil { return nil, err } return f.encryptEntries(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(dir string, callback fs.ListRCallback) (err error) { return f.Fs.Features().ListR(f.cipher.EncryptDirName(dir), func(entries fs.DirEntries) error { newEntries, err := f.encryptEntries(entries) if err != nil { return err } return callback(newEntries) }) } // NewObject finds the Object at remote. func (f *Fs) NewObject(remote string) (fs.Object, error) { o, err := f.Fs.NewObject(f.cipher.EncryptFileName(remote)) if err != nil { return nil, err } 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(in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) { wrappedIn, err := f.cipher.EncryptData(in) if err != nil { return nil, err } o, err := f.Fs.Put(wrappedIn, f.newObjectInfo(src), options...) if err != nil { return nil, err } return f.newObject(o), nil } // PutStream uploads to the remote path with the modTime given of indeterminate size func (f *Fs) PutStream(in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) (fs.Object, error) { return f.Put(in, src, options...) } // Hashes returns the supported hash sets. func (f *Fs) Hashes() fs.HashSet { return fs.HashSet(fs.HashNone) } // Mkdir makes the directory (container, bucket) // // Shouldn't return an error if it already exists func (f *Fs) Mkdir(dir string) error { return f.Fs.Mkdir(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(dir string) error { return f.Fs.Rmdir(f.cipher.EncryptDirName(dir)) } // Purge all files in the root and the root directory // // 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() error { do := f.Fs.Features().Purge if do == nil { return fs.ErrorCantPurge } return do() } // 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(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(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(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(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(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(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(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, err := f.cipher.EncryptData(in) if err != nil { return nil, err } o, err := do(wrappedIn, f.newObjectInfo(src)) 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() error { do := f.Fs.Features().CleanUp if do == nil { return errors.New("can't CleanUp") } return do() } // UnWrap returns the Fs that this Fs is wrapping func (f *Fs) UnWrap() fs.Fs { return f.Fs } // ComputeHash takes the nonce from o, and encrypts the contents of // src with it, and calcuates the hash given by HashType on the fly // // Note that we break lots of encapsulation in this function. func (f *Fs) ComputeHash(o *Object, src fs.Object, hashType fs.HashType) (hash string, err error) { // Read the nonce - opening the file is sufficient to read the nonce in in, err := o.Open() if err != nil { return "", errors.Wrap(err, "failed to read nonce") } nonce := in.(*decrypter).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 in once we have read the nonce err = in.Close() if err != nil { return "", errors.Wrap(err, "failed to close nonce read") } // Open the src for input in, err = src.Open() 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.(*cipher).newEncrypter(in, &nonce) if err != nil { return "", errors.Wrap(err, "failed to make encrypter") } // pipe into hash m := fs.NewMultiHasher() _, err = io.Copy(m, out) if err != nil { return "", errors.Wrap(err, "failed to hash data") } return m.Sums()[hashType], nil } // 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(hash fs.HashType) (string, error) { return "", nil } // 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(options ...fs.OpenOption) (rc io.ReadCloser, err error) { var offset int64 for _, option := range options { switch x := option.(type) { case *fs.SeekOption: offset = x.Offset default: if option.Mandatory() { fs.Logf(o, "Unsupported mandatory option: %v", option) } } } rc, err = o.f.cipher.DecryptDataSeek(func(underlyingOffset int64) (io.ReadCloser, error) { if underlyingOffset == 0 { // Open with no seek return o.Object.Open() } // Open stream with a seek of underlyingOffset return o.Object.Open(&fs.SeekOption{Offset: underlyingOffset}) }, offset) if err != nil { return nil, err } return rc, err } // Update in to the object with the modTime given of the given size func (o *Object) Update(in io.Reader, src fs.ObjectInfo, options ...fs.OpenOption) error { wrappedIn, err := o.f.cipher.EncryptData(in) if err != nil { return err } return o.Object.Update(wrappedIn, o.f.newObjectInfo(src)) } // newDir returns a dir with the Name decrypted func (f *Fs) newDir(dir fs.Directory) fs.Directory { new := fs.NewDirCopy(dir) remote := dir.Remote() decryptedRemote, err := f.cipher.DecryptDirName(remote) if err != nil { fs.Debugf(remote, "Undecryptable dir name: %v", err) } else { new.SetRemote(decryptedRemote) } return new } // 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 } func (f *Fs) newObjectInfo(src fs.ObjectInfo) *ObjectInfo { return &ObjectInfo{ ObjectInfo: src, f: f, } } // 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 { return o.f.cipher.EncryptedSize(o.ObjectInfo.Size()) } // Hash returns the selected checksum of the file // If no checksum is available it returns "" func (o *ObjectInfo) Hash(hash fs.HashType) (string, error) { return "", nil } // 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.ListRer = (*Fs)(nil) _ fs.ObjectInfo = (*ObjectInfo)(nil) _ fs.Object = (*Object)(nil) )