package s3 import ( "bytes" "errors" "io" "strings" "github.com/minio/minio-go" "github.com/restic/restic/backend" "github.com/restic/restic/debug" ) const maxKeysInList = 1000 const connLimit = 10 const backendPrefix = "restic" func s3path(t backend.Type, name string) string { if t == backend.Config { return backendPrefix + "/" + string(t) } return backendPrefix + "/" + string(t) + "/" + name } type S3Backend struct { client minio.CloudStorageClient connChan chan struct{} bucketname string } // Open opens the S3 backend at bucket and region. The bucket is created if it // does not exist yet. func Open(cfg Config) (backend.Backend, error) { debug.Log("s3.Open", "open, config %#v", cfg) client, err := minio.New(cfg.Endpoint, cfg.KeyID, cfg.Secret, cfg.UseHTTP) if err != nil { return nil, err } be := &S3Backend{client: client, bucketname: cfg.Bucket} be.createConnections() if err := client.BucketExists(cfg.Bucket); err != nil { debug.Log("s3.Open", "BucketExists(%v) returned err %v, trying to create the bucket", cfg.Bucket, err) // create new bucket with default ACL in default region err = client.MakeBucket(cfg.Bucket, "", "") if err != nil { return nil, err } } return be, nil } func (be *S3Backend) createConnections() { be.connChan = make(chan struct{}, connLimit) for i := 0; i < connLimit; i++ { be.connChan <- struct{}{} } } // Location returns this backend's location (the bucket name). func (be *S3Backend) Location() string { return be.bucketname } type s3Blob struct { b *S3Backend buf *bytes.Buffer final bool } func (bb *s3Blob) Write(p []byte) (int, error) { if bb.final { return 0, errors.New("blob already closed") } n, err := bb.buf.Write(p) return n, err } func (bb *s3Blob) Read(p []byte) (int, error) { return bb.buf.Read(p) } func (bb *s3Blob) Close() error { bb.final = true bb.buf.Reset() return nil } func (bb *s3Blob) Size() uint { return uint(bb.buf.Len()) } func (bb *s3Blob) Finalize(t backend.Type, name string) error { debug.Log("s3.blob.Finalize()", "bucket %v, finalize %v, %d bytes", bb.b.bucketname, name, bb.buf.Len()) if bb.final { return errors.New("Already finalized") } bb.final = true path := s3path(t, name) // Check key does not already exist _, err := bb.b.client.StatObject(bb.b.bucketname, path) if err == nil { debug.Log("s3.blob.Finalize()", "%v already exists", name) return errors.New("key already exists") } expectedBytes := bb.buf.Len() <-bb.b.connChan debug.Log("s3.Finalize", "PutObject(%v, %v, %v, %v)", bb.b.bucketname, path, int64(bb.buf.Len()), "binary/octet-stream") n, err := bb.b.client.PutObject(bb.b.bucketname, path, bb.buf, "binary/octet-stream") debug.Log("s3.Finalize", "finalized %v -> n %v, err %#v", path, n, err) bb.b.connChan <- struct{}{} if err != nil { return err } if n != int64(expectedBytes) { return errors.New("could not store all bytes") } return nil } // Create creates a new Blob. The data is available only after Finalize() // has been called on the returned Blob. func (be *S3Backend) Create() (backend.Blob, error) { blob := s3Blob{ b: be, buf: &bytes.Buffer{}, } return &blob, nil } // Load returns the data stored in the backend for h at the given offset // and saves it in p. Load has the same semantics as io.ReaderAt. func (be S3Backend) Load(h backend.Handle, p []byte, off int64) (int, error) { debug.Log("s3.Load", "%v, offset %v, len %v", h, off, len(p)) path := s3path(h.Type, h.Name) obj, err := be.client.GetObject(be.bucketname, path) if err != nil { debug.Log("s3.GetReader", " err %v", err) return 0, err } if off > 0 { _, err = obj.Seek(off, 0) if err != nil { return 0, err } } return io.ReadFull(obj, p) } // Stat returns information about a blob. func (be S3Backend) Stat(h backend.Handle) (backend.BlobInfo, error) { debug.Log("s3.Stat", "%v") path := s3path(h.Type, h.Name) obj, err := be.client.GetObject(be.bucketname, path) if err != nil { debug.Log("s3.Stat", "GetObject() err %v", err) return backend.BlobInfo{}, err } fi, err := obj.Stat() if err != nil { debug.Log("s3.Stat", "Stat() err %v", err) return backend.BlobInfo{}, err } return backend.BlobInfo{Size: fi.Size}, nil } // Test returns true if a blob of the given type and name exists in the backend. func (be *S3Backend) Test(t backend.Type, name string) (bool, error) { found := false path := s3path(t, name) _, err := be.client.StatObject(be.bucketname, path) if err == nil { found = true } // If error, then not found return found, nil } // Remove removes the blob with the given name and type. func (be *S3Backend) Remove(t backend.Type, name string) error { path := s3path(t, name) err := be.client.RemoveObject(be.bucketname, path) debug.Log("s3.Remove", "%v %v -> err %v", t, name, err) return err } // List returns a channel that yields all names of blobs of type t. A // goroutine is started for this. If the channel done is closed, sending // stops. func (be *S3Backend) List(t backend.Type, done <-chan struct{}) <-chan string { debug.Log("s3.List", "listing %v", t) ch := make(chan string) prefix := s3path(t, "") listresp := be.client.ListObjects(be.bucketname, prefix, true, done) go func() { defer close(ch) for obj := range listresp { m := strings.TrimPrefix(obj.Key, prefix) if m == "" { continue } select { case ch <- m: case <-done: return } } }() return ch } // Remove keys for a specified backend type. func (be *S3Backend) removeKeys(t backend.Type) error { done := make(chan struct{}) defer close(done) for key := range be.List(backend.Data, done) { err := be.Remove(backend.Data, key) if err != nil { return err } } return nil } // Delete removes all restic keys in the bucket. It will not remove the bucket itself. func (be *S3Backend) Delete() error { alltypes := []backend.Type{ backend.Data, backend.Key, backend.Lock, backend.Snapshot, backend.Index} for _, t := range alltypes { err := be.removeKeys(t) if err != nil { return nil } } return be.Remove(backend.Config, "") } // Close does nothing func (be *S3Backend) Close() error { return nil }