package retry import ( "context" "fmt" "io" "time" "github.com/cenkalti/backoff/v4" "github.com/restic/restic/internal/backend" "github.com/restic/restic/internal/debug" ) // Backend retries operations on the backend in case of an error with a // backoff. type Backend struct { backend.Backend MaxTries int Report func(string, error, time.Duration) Success func(string, int) } // statically ensure that RetryBackend implements backend.Backend. var _ backend.Backend = &Backend{} // New wraps be with a backend that retries operations after a // backoff. report is called with a description and the error, if one occurred. // success is called with the number of retries before a successful operation // (it is not called if it succeeded on the first try) func New(be backend.Backend, maxTries int, report func(string, error, time.Duration), success func(string, int)) *Backend { return &Backend{ Backend: be, MaxTries: maxTries, Report: report, Success: success, } } // retryNotifyErrorWithSuccess is an extension of backoff.RetryNotify with notification of success after an error. // success is NOT notified on the first run of operation (only after an error). func retryNotifyErrorWithSuccess(operation backoff.Operation, b backoff.BackOff, notify backoff.Notify, success func(retries int)) error { if success == nil { return backoff.RetryNotify(operation, b, notify) } retries := 0 operationWrapper := func() error { err := operation() if err != nil { retries++ } else if retries > 0 { success(retries) } return err } return backoff.RetryNotify(operationWrapper, b, notify) } var fastRetries = false func (be *Backend) retry(ctx context.Context, msg string, f func() error) error { // Don't do anything when called with an already cancelled context. There would be // no retries in that case either, so be consistent and abort always. // This enforces a strict contract for backend methods: Using a cancelled context // will prevent any backup repository modifications. This simplifies ensuring that // a backup repository is not modified any further after a context was cancelled. // The 'local' backend for example does not provide this guarantee on its own. if ctx.Err() != nil { return ctx.Err() } bo := backoff.NewExponentialBackOff() if fastRetries { // speed up integration tests bo.InitialInterval = 1 * time.Millisecond } err := retryNotifyErrorWithSuccess(f, backoff.WithContext(backoff.WithMaxRetries(bo, uint64(be.MaxTries)), ctx), func(err error, d time.Duration) { if be.Report != nil { be.Report(msg, err, d) } }, func(retries int) { if be.Success != nil { be.Success(msg, retries) } }, ) return err } // Save stores the data in the backend under the given handle. func (be *Backend) Save(ctx context.Context, h backend.Handle, rd backend.RewindReader) error { return be.retry(ctx, fmt.Sprintf("Save(%v)", h), func() error { err := rd.Rewind() if err != nil { return err } err = be.Backend.Save(ctx, h, rd) if err == nil { return nil } if be.Backend.HasAtomicReplace() { debug.Log("Save(%v) failed with error: %v", h, err) // there is no need to remove files from backends which can atomically replace files // in fact if something goes wrong at the backend side the delete operation might delete the wrong instance of the file } else { debug.Log("Save(%v) failed with error, removing file: %v", h, err) rerr := be.Backend.Remove(ctx, h) if rerr != nil { debug.Log("Remove(%v) returned error: %v", h, err) } } // return original error return err }) } // Load returns a reader that yields the contents of the file at h at the // given offset. If length is larger than zero, only a portion of the file // is returned. rd must be closed after use. If an error is returned, the // ReadCloser must be nil. func (be *Backend) Load(ctx context.Context, h backend.Handle, length int, offset int64, consumer func(rd io.Reader) error) (err error) { return be.retry(ctx, fmt.Sprintf("Load(%v, %v, %v)", h, length, offset), func() error { err := be.Backend.Load(ctx, h, length, offset, consumer) if be.Backend.IsNotExist(err) { return backoff.Permanent(err) } return err }) } // Stat returns information about the File identified by h. func (be *Backend) Stat(ctx context.Context, h backend.Handle) (fi backend.FileInfo, err error) { err = be.retry(ctx, fmt.Sprintf("Stat(%v)", h), func() error { var innerError error fi, innerError = be.Backend.Stat(ctx, h) if be.Backend.IsNotExist(innerError) { // do not retry if file is not found, as stat is usually used to check whether a file exists return backoff.Permanent(innerError) } return innerError }) return fi, err } // Remove removes a File with type t and name. func (be *Backend) Remove(ctx context.Context, h backend.Handle) (err error) { return be.retry(ctx, fmt.Sprintf("Remove(%v)", h), func() error { return be.Backend.Remove(ctx, h) }) } // List runs fn for each file in the backend which has the type t. When an // error is returned by the underlying backend, the request is retried. When fn // returns an error, the operation is aborted and the error is returned to the // caller. func (be *Backend) List(ctx context.Context, t backend.FileType, fn func(backend.FileInfo) error) error { // create a new context that we can cancel when fn returns an error, so // that listing is aborted listCtx, cancel := context.WithCancel(ctx) defer cancel() listed := make(map[string]struct{}) // remember for which files we already ran fn var innerErr error // remember when fn returned an error, so we can return that to the caller err := be.retry(listCtx, fmt.Sprintf("List(%v)", t), func() error { return be.Backend.List(ctx, t, func(fi backend.FileInfo) error { if _, ok := listed[fi.Name]; ok { return nil } listed[fi.Name] = struct{}{} innerErr = fn(fi) if innerErr != nil { // if fn returned an error, listing is aborted, so we cancel the context cancel() } return innerErr }) }) // the error fn returned takes precedence if innerErr != nil { return innerErr } return err } func (be *Backend) Unwrap() backend.Backend { return be.Backend }