// Package base provides a base implementation of the storage driver that can // be used to implement common checks. The goal is to increase the amount of // code sharing. // // The canonical approach to use this class is to embed in the exported driver // struct such that calls are proxied through this implementation. First, // declare the internal driver, as follows: // // type driver struct { ... internal ...} // // The resulting type should implement StorageDriver such that it can be the // target of a Base struct. The exported type can then be declared as follows: // // type Driver struct { // Base // } // // Because Driver embeds Base, it effectively implements Base. If the driver // needs to intercept a call, before going to base, Driver should implement // that method. Effectively, Driver can intercept calls before coming in and // driver implements the actual logic. // // To further shield the embed from other packages, it is recommended to // employ a private embed struct: // // type baseEmbed struct { // base.Base // } // // Then, declare driver to embed baseEmbed, rather than Base directly: // // type Driver struct { // baseEmbed // } // // The type now implements StorageDriver, proxying through Base, without // exporting an unnecessary field. package base import ( "context" "io" "time" dcontext "github.com/distribution/distribution/v3/context" prometheus "github.com/distribution/distribution/v3/metrics" storagedriver "github.com/distribution/distribution/v3/registry/storage/driver" "github.com/docker/go-metrics" ) // storageAction is the metrics of blob related operations var storageAction = prometheus.StorageNamespace.NewLabeledTimer("action", "The number of seconds that the storage action takes", "driver", "action") func init() { metrics.Register(prometheus.StorageNamespace) } // Base provides a wrapper around a storagedriver implementation that provides // common path and bounds checking. type Base struct { storagedriver.StorageDriver } // Format errors received from the storage driver func (base *Base) setDriverName(e error) error { switch actual := e.(type) { case nil: return nil case storagedriver.ErrUnsupportedMethod: actual.DriverName = base.StorageDriver.Name() return actual case storagedriver.PathNotFoundError: actual.DriverName = base.StorageDriver.Name() return actual case storagedriver.InvalidPathError: actual.DriverName = base.StorageDriver.Name() return actual case storagedriver.InvalidOffsetError: actual.DriverName = base.StorageDriver.Name() return actual default: storageError := storagedriver.Error{ DriverName: base.StorageDriver.Name(), Enclosed: e, } return storageError } } // GetContent wraps GetContent of underlying storage driver. func (base *Base) GetContent(ctx context.Context, path string) ([]byte, error) { ctx, done := dcontext.WithTrace(ctx) defer done("%s.GetContent(%q)", base.Name(), path) if !storagedriver.PathRegexp.MatchString(path) { return nil, storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()} } start := time.Now() b, e := base.StorageDriver.GetContent(ctx, path) storageAction.WithValues(base.Name(), "GetContent").UpdateSince(start) return b, base.setDriverName(e) } // PutContent wraps PutContent of underlying storage driver. func (base *Base) PutContent(ctx context.Context, path string, content []byte) error { ctx, done := dcontext.WithTrace(ctx) defer done("%s.PutContent(%q)", base.Name(), path) if !storagedriver.PathRegexp.MatchString(path) { return storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()} } start := time.Now() err := base.setDriverName(base.StorageDriver.PutContent(ctx, path, content)) storageAction.WithValues(base.Name(), "PutContent").UpdateSince(start) return err } // Reader wraps Reader of underlying storage driver. func (base *Base) Reader(ctx context.Context, path string, offset int64) (io.ReadCloser, error) { ctx, done := dcontext.WithTrace(ctx) defer done("%s.Reader(%q, %d)", base.Name(), path, offset) if offset < 0 { return nil, storagedriver.InvalidOffsetError{Path: path, Offset: offset, DriverName: base.StorageDriver.Name()} } if !storagedriver.PathRegexp.MatchString(path) { return nil, storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()} } rc, e := base.StorageDriver.Reader(ctx, path, offset) return rc, base.setDriverName(e) } // Writer wraps Writer of underlying storage driver. func (base *Base) Writer(ctx context.Context, path string, append bool) (storagedriver.FileWriter, error) { ctx, done := dcontext.WithTrace(ctx) defer done("%s.Writer(%q, %v)", base.Name(), path, append) if !storagedriver.PathRegexp.MatchString(path) { return nil, storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()} } writer, e := base.StorageDriver.Writer(ctx, path, append) return writer, base.setDriverName(e) } // Stat wraps Stat of underlying storage driver. func (base *Base) Stat(ctx context.Context, path string) (storagedriver.FileInfo, error) { ctx, done := dcontext.WithTrace(ctx) defer done("%s.Stat(%q)", base.Name(), path) if !storagedriver.PathRegexp.MatchString(path) && path != "/" { return nil, storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()} } start := time.Now() fi, e := base.StorageDriver.Stat(ctx, path) storageAction.WithValues(base.Name(), "Stat").UpdateSince(start) return fi, base.setDriverName(e) } // List wraps List of underlying storage driver. func (base *Base) List(ctx context.Context, path string) ([]string, error) { ctx, done := dcontext.WithTrace(ctx) defer done("%s.List(%q)", base.Name(), path) if !storagedriver.PathRegexp.MatchString(path) && path != "/" { return nil, storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()} } start := time.Now() str, e := base.StorageDriver.List(ctx, path) storageAction.WithValues(base.Name(), "List").UpdateSince(start) return str, base.setDriverName(e) } // Move wraps Move of underlying storage driver. func (base *Base) Move(ctx context.Context, sourcePath string, destPath string) error { ctx, done := dcontext.WithTrace(ctx) defer done("%s.Move(%q, %q", base.Name(), sourcePath, destPath) if !storagedriver.PathRegexp.MatchString(sourcePath) { return storagedriver.InvalidPathError{Path: sourcePath, DriverName: base.StorageDriver.Name()} } else if !storagedriver.PathRegexp.MatchString(destPath) { return storagedriver.InvalidPathError{Path: destPath, DriverName: base.StorageDriver.Name()} } start := time.Now() err := base.setDriverName(base.StorageDriver.Move(ctx, sourcePath, destPath)) storageAction.WithValues(base.Name(), "Move").UpdateSince(start) return err } // Delete wraps Delete of underlying storage driver. func (base *Base) Delete(ctx context.Context, path string) error { ctx, done := dcontext.WithTrace(ctx) defer done("%s.Delete(%q)", base.Name(), path) if !storagedriver.PathRegexp.MatchString(path) { return storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()} } start := time.Now() err := base.setDriverName(base.StorageDriver.Delete(ctx, path)) storageAction.WithValues(base.Name(), "Delete").UpdateSince(start) return err } // URLFor wraps URLFor of underlying storage driver. func (base *Base) URLFor(ctx context.Context, path string, options map[string]interface{}) (string, error) { ctx, done := dcontext.WithTrace(ctx) defer done("%s.URLFor(%q)", base.Name(), path) if !storagedriver.PathRegexp.MatchString(path) { return "", storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()} } start := time.Now() str, e := base.StorageDriver.URLFor(ctx, path, options) storageAction.WithValues(base.Name(), "URLFor").UpdateSince(start) return str, base.setDriverName(e) } // Walk wraps Walk of underlying storage driver. func (base *Base) Walk(ctx context.Context, path string, f storagedriver.WalkFn) error { ctx, done := dcontext.WithTrace(ctx) defer done("%s.Walk(%q)", base.Name(), path) if !storagedriver.PathRegexp.MatchString(path) && path != "/" { return storagedriver.InvalidPathError{Path: path, DriverName: base.StorageDriver.Name()} } return base.setDriverName(base.StorageDriver.Walk(ctx, path, f)) }