// +build !nogcs package vfs import ( "context" "encoding/json" "errors" "fmt" "io" "mime" "net/http" "os" "path" "path/filepath" "strings" "time" "cloud.google.com/go/storage" "github.com/eikenb/pipeat" "github.com/pkg/sftp" "google.golang.org/api/googleapi" "google.golang.org/api/iterator" "google.golang.org/api/option" "github.com/drakkan/sftpgo/kms" "github.com/drakkan/sftpgo/logger" "github.com/drakkan/sftpgo/metrics" "github.com/drakkan/sftpgo/version" ) var ( gcsDefaultFieldsSelection = []string{"Name", "Size", "Deleted", "Updated", "ContentType"} ) // GCSFs is a Fs implementation for Google Cloud Storage. type GCSFs struct { connectionID string localTempDir string // if not empty this fs is mouted as virtual folder in the specified path mountPath string config *GCSFsConfig svc *storage.Client ctxTimeout time.Duration ctxLongTimeout time.Duration } func init() { version.AddFeature("+gcs") } // NewGCSFs returns an GCSFs object that allows to interact with Google Cloud Storage func NewGCSFs(connectionID, localTempDir, mountPath string, config GCSFsConfig) (Fs, error) { if localTempDir == "" { localTempDir = filepath.Clean(os.TempDir()) } var err error fs := &GCSFs{ connectionID: connectionID, localTempDir: localTempDir, mountPath: mountPath, config: &config, ctxTimeout: 30 * time.Second, ctxLongTimeout: 300 * time.Second, } if err = fs.config.Validate(fs.config.CredentialFile); err != nil { return fs, err } ctx := context.Background() if fs.config.AutomaticCredentials > 0 { fs.svc, err = storage.NewClient(ctx) } else if !fs.config.Credentials.IsEmpty() { if fs.config.Credentials.IsEncrypted() { err = fs.config.Credentials.Decrypt() if err != nil { return fs, err } } fs.svc, err = storage.NewClient(ctx, option.WithCredentialsJSON([]byte(fs.config.Credentials.GetPayload()))) } else { var creds []byte creds, err = os.ReadFile(fs.config.CredentialFile) if err != nil { return fs, err } secret := kms.NewEmptySecret() err = json.Unmarshal(creds, secret) if err != nil { return fs, err } err = secret.Decrypt() if err != nil { return fs, err } fs.svc, err = storage.NewClient(ctx, option.WithCredentialsJSON([]byte(secret.GetPayload()))) } return fs, err } // Name returns the name for the Fs implementation func (fs *GCSFs) Name() string { return fmt.Sprintf("GCSFs bucket %#v", fs.config.Bucket) } // ConnectionID returns the connection ID associated to this Fs implementation func (fs *GCSFs) ConnectionID() string { return fs.connectionID } // Stat returns a FileInfo describing the named file func (fs *GCSFs) Stat(name string) (os.FileInfo, error) { var result *FileInfo var err error if name == "" || name == "." { err := fs.checkIfBucketExists() if err != nil { return result, err } return NewFileInfo(name, true, 0, time.Now(), false), nil } if fs.config.KeyPrefix == name+"/" { return NewFileInfo(name, true, 0, time.Now(), false), nil } attrs, err := fs.headObject(name) if err == nil { objSize := attrs.Size objectModTime := attrs.Updated isDir := attrs.ContentType == dirMimeType || strings.HasSuffix(attrs.Name, "/") return NewFileInfo(name, isDir, objSize, objectModTime, false), nil } if !fs.IsNotExist(err) { return result, err } // now check if this is a prefix (virtual directory) hasContents, err := fs.hasContents(name) if err != nil { return nil, err } if hasContents { return NewFileInfo(name, true, 0, time.Now(), false), nil } return nil, errors.New("404 no such file or directory") } // Lstat returns a FileInfo describing the named file func (fs *GCSFs) Lstat(name string) (os.FileInfo, error) { return fs.Stat(name) } // Open opens the named file for reading func (fs *GCSFs) Open(name string, offset int64) (File, *pipeat.PipeReaderAt, func(), error) { r, w, err := pipeat.PipeInDir(fs.localTempDir) if err != nil { return nil, nil, nil, err } bkt := fs.svc.Bucket(fs.config.Bucket) obj := bkt.Object(name) ctx, cancelFn := context.WithCancel(context.Background()) objectReader, err := obj.NewRangeReader(ctx, offset, -1) if err == nil && offset > 0 && objectReader.Attrs.ContentEncoding == "gzip" { err = fmt.Errorf("range request is not possible for gzip content encoding, requested offset %v", offset) objectReader.Close() } if err != nil { r.Close() w.Close() cancelFn() return nil, nil, nil, err } go func() { defer cancelFn() defer objectReader.Close() n, err := io.Copy(w, objectReader) w.CloseWithError(err) //nolint:errcheck fsLog(fs, logger.LevelDebug, "download completed, path: %#v size: %v, err: %v", name, n, err) metrics.GCSTransferCompleted(n, 1, err) }() return nil, r, cancelFn, nil } // Create creates or opens the named file for writing func (fs *GCSFs) Create(name string, flag int) (File, *PipeWriter, func(), error) { r, w, err := pipeat.PipeInDir(fs.localTempDir) if err != nil { return nil, nil, nil, err } p := NewPipeWriter(w) bkt := fs.svc.Bucket(fs.config.Bucket) obj := bkt.Object(name) ctx, cancelFn := context.WithCancel(context.Background()) objectWriter := obj.NewWriter(ctx) var contentType string if flag == -1 { contentType = dirMimeType } else { contentType = mime.TypeByExtension(path.Ext(name)) } if contentType != "" { objectWriter.ObjectAttrs.ContentType = contentType } if fs.config.StorageClass != "" { objectWriter.ObjectAttrs.StorageClass = fs.config.StorageClass } go func() { defer cancelFn() n, err := io.Copy(objectWriter, r) closeErr := objectWriter.Close() if err == nil { err = closeErr } r.CloseWithError(err) //nolint:errcheck p.Done(err) fsLog(fs, logger.LevelDebug, "upload completed, path: %#v, readed bytes: %v, err: %v", name, n, err) metrics.GCSTransferCompleted(n, 0, err) }() return nil, p, cancelFn, nil } // Rename renames (moves) source to target. // We don't support renaming non empty directories since we should // rename all the contents too and this could take long time: think // about directories with thousands of files, for each file we should // execute a CopyObject call. func (fs *GCSFs) Rename(source, target string) error { if source == target { return nil } fi, err := fs.Stat(source) if err != nil { return err } if fi.IsDir() { hasContents, err := fs.hasContents(source) if err != nil { return err } if hasContents { return fmt.Errorf("cannot rename non empty directory: %#v", source) } } src := fs.svc.Bucket(fs.config.Bucket).Object(source) dst := fs.svc.Bucket(fs.config.Bucket).Object(target) ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() copier := dst.CopierFrom(src) if fs.config.StorageClass != "" { copier.StorageClass = fs.config.StorageClass } var contentType string if fi.IsDir() { contentType = dirMimeType } else { contentType = mime.TypeByExtension(path.Ext(source)) } if contentType != "" { copier.ContentType = contentType } _, err = copier.Run(ctx) metrics.GCSCopyObjectCompleted(err) if err != nil { return err } return fs.Remove(source, fi.IsDir()) } // Remove removes the named file or (empty) directory. func (fs *GCSFs) Remove(name string, isDir bool) error { if isDir { hasContents, err := fs.hasContents(name) if err != nil { return err } if hasContents { return fmt.Errorf("cannot remove non empty directory: %#v", name) } } ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() err := fs.svc.Bucket(fs.config.Bucket).Object(name).Delete(ctx) metrics.GCSDeleteObjectCompleted(err) return err } // Mkdir creates a new directory with the specified name and default permissions func (fs *GCSFs) Mkdir(name string) error { _, err := fs.Stat(name) if !fs.IsNotExist(err) { return err } _, w, _, err := fs.Create(name, -1) if err != nil { return err } return w.Close() } // MkdirAll does nothing, we don't have folder func (*GCSFs) MkdirAll(name string, uid int, gid int) error { return nil } // Symlink creates source as a symbolic link to target. func (*GCSFs) Symlink(source, target string) error { return ErrVfsUnsupported } // Readlink returns the destination of the named symbolic link func (*GCSFs) Readlink(name string) (string, error) { return "", ErrVfsUnsupported } // Chown changes the numeric uid and gid of the named file. func (*GCSFs) Chown(name string, uid int, gid int) error { return ErrVfsUnsupported } // Chmod changes the mode of the named file to mode. func (*GCSFs) Chmod(name string, mode os.FileMode) error { return ErrVfsUnsupported } // Chtimes changes the access and modification times of the named file. func (*GCSFs) Chtimes(name string, atime, mtime time.Time) error { return ErrVfsUnsupported } // Truncate changes the size of the named file. // Truncate by path is not supported, while truncating an opened // file is handled inside base transfer func (*GCSFs) Truncate(name string, size int64) error { return ErrVfsUnsupported } // ReadDir reads the directory named by dirname and returns // a list of directory entries. func (fs *GCSFs) ReadDir(dirname string) ([]os.FileInfo, error) { var result []os.FileInfo // dirname must be already cleaned prefix := fs.getPrefix(dirname) query := &storage.Query{Prefix: prefix, Delimiter: "/"} err := query.SetAttrSelection(gcsDefaultFieldsSelection) if err != nil { return nil, err } prefixes := make(map[string]bool) ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() bkt := fs.svc.Bucket(fs.config.Bucket) it := bkt.Objects(ctx, query) for { attrs, err := it.Next() if err == iterator.Done { break } if err != nil { metrics.GCSListObjectsCompleted(err) return result, err } if attrs.Prefix != "" { name, _ := fs.resolve(attrs.Prefix, prefix) if name == "" { continue } if _, ok := prefixes[name]; ok { continue } result = append(result, NewFileInfo(name, true, 0, time.Now(), false)) prefixes[name] = true } else { name, isDir := fs.resolve(attrs.Name, prefix) if name == "" { continue } if !attrs.Deleted.IsZero() { continue } if attrs.ContentType == dirMimeType { isDir = true } if isDir { // check if the dir is already included, it will be sent as blob prefix if it contains at least one item if _, ok := prefixes[name]; ok { continue } prefixes[name] = true } fi := NewFileInfo(name, isDir, attrs.Size, attrs.Updated, false) result = append(result, fi) } } metrics.GCSListObjectsCompleted(nil) return result, nil } // IsUploadResumeSupported returns true if upload resume is supported. // SFTP Resume is not supported on S3 func (*GCSFs) IsUploadResumeSupported() bool { return false } // IsAtomicUploadSupported returns true if atomic upload is supported. // S3 uploads are already atomic, we don't need to upload to a temporary // file func (*GCSFs) IsAtomicUploadSupported() bool { return false } // IsNotExist returns a boolean indicating whether the error is known to // report that a file or directory does not exist func (*GCSFs) IsNotExist(err error) bool { if err == nil { return false } if err == storage.ErrObjectNotExist || err == storage.ErrBucketNotExist { return true } if e, ok := err.(*googleapi.Error); ok { if e.Code == http.StatusNotFound { return true } } return strings.Contains(err.Error(), "404") } // IsPermission returns a boolean indicating whether the error is known to // report that permission is denied. func (*GCSFs) IsPermission(err error) bool { if err == nil { return false } if e, ok := err.(*googleapi.Error); ok { if e.Code == http.StatusForbidden || e.Code == http.StatusUnauthorized { return true } } return strings.Contains(err.Error(), "403") } // IsNotSupported returns true if the error indicate an unsupported operation func (*GCSFs) IsNotSupported(err error) bool { if err == nil { return false } return err == ErrVfsUnsupported } // CheckRootPath creates the specified local root directory if it does not exists func (fs *GCSFs) CheckRootPath(username string, uid int, gid int) bool { // we need a local directory for temporary files osFs := NewOsFs(fs.ConnectionID(), fs.localTempDir, "") return osFs.CheckRootPath(username, uid, gid) } // ScanRootDirContents returns the number of files contained in the bucket, // and their size func (fs *GCSFs) ScanRootDirContents() (int, int64, error) { numFiles := 0 size := int64(0) query := &storage.Query{Prefix: fs.config.KeyPrefix} err := query.SetAttrSelection(gcsDefaultFieldsSelection) if err != nil { return numFiles, size, err } ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxLongTimeout)) defer cancelFn() bkt := fs.svc.Bucket(fs.config.Bucket) it := bkt.Objects(ctx, query) for { attrs, err := it.Next() if err == iterator.Done { break } if err != nil { metrics.GCSListObjectsCompleted(err) return numFiles, size, err } if !attrs.Deleted.IsZero() { continue } isDir := strings.HasSuffix(attrs.Name, "/") || attrs.ContentType == dirMimeType if isDir && attrs.Size == 0 { continue } numFiles++ size += attrs.Size } metrics.GCSListObjectsCompleted(nil) return numFiles, size, err } // GetDirSize returns the number of files and the size for a folder // including any subfolders func (*GCSFs) GetDirSize(dirname string) (int, int64, error) { return 0, 0, ErrVfsUnsupported } // GetAtomicUploadPath returns the path to use for an atomic upload. // GCS uploads are already atomic, we never call this method for GCS func (*GCSFs) GetAtomicUploadPath(name string) string { return "" } // GetRelativePath returns the path for a file relative to the user's home dir. // This is the path as seen by SFTPGo users func (fs *GCSFs) GetRelativePath(name string) string { rel := path.Clean(name) if rel == "." { rel = "" } if !path.IsAbs(rel) { rel = "/" + rel } if fs.config.KeyPrefix != "" { if !strings.HasPrefix(rel, "/"+fs.config.KeyPrefix) { rel = "/" } rel = path.Clean("/" + strings.TrimPrefix(rel, "/"+fs.config.KeyPrefix)) } if fs.mountPath != "" { rel = path.Join(fs.mountPath, rel) } return rel } // Walk walks the file tree rooted at root, calling walkFn for each file or // directory in the tree, including root func (fs *GCSFs) Walk(root string, walkFn filepath.WalkFunc) error { prefix := "" if root != "" && root != "." { prefix = strings.TrimPrefix(root, "/") if !strings.HasSuffix(prefix, "/") { prefix += "/" } } query := &storage.Query{Prefix: prefix} err := query.SetAttrSelection(gcsDefaultFieldsSelection) if err != nil { walkFn(root, nil, err) //nolint:errcheck return err } ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() bkt := fs.svc.Bucket(fs.config.Bucket) it := bkt.Objects(ctx, query) for { attrs, err := it.Next() if err == iterator.Done { break } if err != nil { walkFn(root, nil, err) //nolint:errcheck metrics.GCSListObjectsCompleted(err) return err } if !attrs.Deleted.IsZero() { continue } name, isDir := fs.resolve(attrs.Name, prefix) if name == "" { continue } if attrs.ContentType == dirMimeType { isDir = true } err = walkFn(attrs.Name, NewFileInfo(name, isDir, attrs.Size, attrs.Updated, false), nil) if err != nil { return err } } walkFn(root, NewFileInfo(root, true, 0, time.Now(), false), err) //nolint:errcheck metrics.GCSListObjectsCompleted(err) return err } // Join joins any number of path elements into a single path func (*GCSFs) Join(elem ...string) string { return strings.TrimPrefix(path.Join(elem...), "/") } // HasVirtualFolders returns true if folders are emulated func (GCSFs) HasVirtualFolders() bool { return true } // ResolvePath returns the matching filesystem path for the specified virtual path func (fs *GCSFs) ResolvePath(virtualPath string) (string, error) { if fs.mountPath != "" { virtualPath = strings.TrimPrefix(virtualPath, fs.mountPath) } if !path.IsAbs(virtualPath) { virtualPath = path.Clean("/" + virtualPath) } return fs.Join(fs.config.KeyPrefix, strings.TrimPrefix(virtualPath, "/")), nil } func (fs *GCSFs) resolve(name string, prefix string) (string, bool) { result := strings.TrimPrefix(name, prefix) isDir := strings.HasSuffix(result, "/") if isDir { result = strings.TrimSuffix(result, "/") } return result, isDir } func (fs *GCSFs) checkIfBucketExists() error { ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() bkt := fs.svc.Bucket(fs.config.Bucket) _, err := bkt.Attrs(ctx) metrics.GCSHeadBucketCompleted(err) return err } func (fs *GCSFs) hasContents(name string) (bool, error) { result := false prefix := "" if name != "" && name != "." { prefix = strings.TrimPrefix(name, "/") if !strings.HasSuffix(prefix, "/") { prefix += "/" } } query := &storage.Query{Prefix: prefix} err := query.SetAttrSelection(gcsDefaultFieldsSelection) if err != nil { return result, err } ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxLongTimeout)) defer cancelFn() bkt := fs.svc.Bucket(fs.config.Bucket) it := bkt.Objects(ctx, query) // if we have a dir object with a trailing slash it will be returned so we set the size to 2 it.PageInfo().MaxSize = 2 for { attrs, err := it.Next() if err == iterator.Done { break } if err != nil { metrics.GCSListObjectsCompleted(err) return result, err } name, _ := fs.resolve(attrs.Name, prefix) // a dir object with a trailing slash will result in an empty name if name == "/" || name == "" { continue } result = true break } metrics.GCSListObjectsCompleted(err) return result, nil } func (fs *GCSFs) getPrefix(name string) string { prefix := "" if name != "" && name != "." && name != "/" { prefix = strings.TrimPrefix(name, "/") if !strings.HasSuffix(prefix, "/") { prefix += "/" } } return prefix } func (fs *GCSFs) headObject(name string) (*storage.ObjectAttrs, error) { ctx, cancelFn := context.WithDeadline(context.Background(), time.Now().Add(fs.ctxTimeout)) defer cancelFn() bkt := fs.svc.Bucket(fs.config.Bucket) obj := bkt.Object(name) attrs, err := obj.Attrs(ctx) metrics.GCSHeadObjectCompleted(err) return attrs, err } // GetMimeType returns the content type func (fs *GCSFs) GetMimeType(name string) (string, error) { attrs, err := fs.headObject(name) if err != nil { return "", err } return attrs.ContentType, nil } // Close closes the fs func (fs *GCSFs) Close() error { return nil } // GetAvailableDiskSize return the available size for the specified path func (*GCSFs) GetAvailableDiskSize(dirName string) (*sftp.StatVFS, error) { return nil, ErrStorageSizeUnavailable }