package layer import ( "context" "encoding/hex" stderrors "errors" "fmt" "io" "sort" "strconv" "strings" "time" "github.com/nspcc-dev/neofs-s3-gw/api/data" "github.com/nspcc-dev/neofs-s3-gw/api/errors" "github.com/nspcc-dev/neofs-s3-gw/internal/misc" oid "github.com/nspcc-dev/neofs-sdk-go/object/id" "github.com/nspcc-dev/neofs-sdk-go/user" "go.uber.org/zap" ) const ( UploadIDAttributeName = "S3-Upload-Id" UploadPartNumberAttributeName = "S3-Upload-Part-Number" UploadCompletedParts = "S3-Completed-Parts" metaPrefix = "meta-" aclPrefix = "acl-" MaxSizeUploadsList = 1000 MaxSizePartsList = 1000 UploadMinPartNumber = 1 UploadMaxPartNumber = 10000 uploadMinSize = 5 * 1048576 // 5MB uploadMaxSize = 5 * 1073741824 // 5GB ) type ( UploadInfoParams struct { UploadID string Bkt *data.BucketInfo Key string } CreateMultipartParams struct { Info *UploadInfoParams Header map[string]string Data *UploadData } UploadData struct { TagSet map[string]string ACLHeaders map[string]string } UploadPartParams struct { Info *UploadInfoParams PartNumber int Size int64 Reader io.Reader } UploadCopyParams struct { Info *UploadInfoParams SrcObjInfo *data.ObjectInfo SrcBktInfo *data.BucketInfo PartNumber int Range *RangeParams } CompleteMultipartParams struct { Info *UploadInfoParams Parts []*CompletedPart } CompletedPart struct { ETag string PartNumber int } Part struct { ETag string LastModified string PartNumber int Size int64 } ListMultipartUploadsParams struct { Bkt *data.BucketInfo Delimiter string EncodingType string KeyMarker string MaxUploads int Prefix string UploadIDMarker string } ListPartsParams struct { Info *UploadInfoParams MaxParts int PartNumberMarker int } ListPartsInfo struct { Parts []*Part Owner user.ID NextPartNumberMarker int IsTruncated bool } ListMultipartUploadsInfo struct { Prefixes []string Uploads []*UploadInfo IsTruncated bool NextKeyMarker string NextUploadIDMarker string } UploadInfo struct { IsDir bool Key string UploadID string Owner user.ID Created time.Time } ) func (n *layer) CreateMultipartUpload(ctx context.Context, p *CreateMultipartParams) error { metaSize := len(p.Header) if p.Data != nil { metaSize += len(p.Data.ACLHeaders) metaSize += len(p.Data.TagSet) } info := &data.MultipartInfo{ Key: p.Info.Key, UploadID: p.Info.UploadID, Owner: n.Owner(ctx), Created: time.Now(), Meta: make(map[string]string, metaSize), } for key, val := range p.Header { info.Meta[metaPrefix+key] = val } if p.Data != nil { for key, val := range p.Data.ACLHeaders { info.Meta[aclPrefix+key] = val } for key, val := range p.Data.TagSet { info.Meta[tagPrefix+key] = val } } return n.treeService.CreateMultipartUpload(ctx, p.Info.Bkt.CID, info) } func (n *layer) UploadPart(ctx context.Context, p *UploadPartParams) (string, error) { multipartInfo, err := n.treeService.GetMultipartUpload(ctx, p.Info.Bkt.CID, p.Info.Key, p.Info.UploadID) if err != nil { if stderrors.Is(err, ErrNodeNotFound) { return "", errors.GetAPIError(errors.ErrNoSuchUpload) } return "", err } if p.Size > uploadMaxSize { return "", errors.GetAPIError(errors.ErrEntityTooLarge) } objInfo, err := n.uploadPart(ctx, multipartInfo, p) if err != nil { return "", err } return objInfo.HashSum, nil } func (n *layer) uploadPart(ctx context.Context, multipartInfo *data.MultipartInfo, p *UploadPartParams) (*data.ObjectInfo, error) { bktInfo := p.Info.Bkt prm := PrmObjectCreate{ Container: bktInfo.CID, Creator: bktInfo.Owner, Attributes: make([][2]string, 2), Payload: p.Reader, } prm.Attributes[0][0], prm.Attributes[0][1] = UploadIDAttributeName, p.Info.UploadID prm.Attributes[1][0], prm.Attributes[1][1] = UploadPartNumberAttributeName, strconv.Itoa(p.PartNumber) id, hash, err := n.objectPutAndHash(ctx, prm, bktInfo) if err != nil { return nil, err } partInfo := &data.PartInfo{ Key: p.Info.Key, UploadID: p.Info.UploadID, Number: p.PartNumber, OID: *id, Size: p.Size, ETag: hex.EncodeToString(hash), Created: time.Now(), } oldPartID, err := n.treeService.AddPart(ctx, bktInfo.CID, multipartInfo.ID, partInfo) if err != nil { return nil, err } if oldPartID != nil { if err = n.objectDelete(ctx, bktInfo, *oldPartID); err != nil { n.log.Error("couldn't delete old part object", zap.Error(err), zap.String("cnrID", bktInfo.CID.EncodeToString()), zap.String("bucket name", bktInfo.Name), zap.String("objID", oldPartID.EncodeToString())) } } objInfo := &data.ObjectInfo{ ID: *id, CID: bktInfo.CID, Owner: bktInfo.Owner, Bucket: bktInfo.Name, Size: partInfo.Size, Created: partInfo.Created, HashSum: partInfo.ETag, } return objInfo, nil } func (n *layer) UploadPartCopy(ctx context.Context, p *UploadCopyParams) (*data.ObjectInfo, error) { multipartInfo, err := n.treeService.GetMultipartUpload(ctx, p.Info.Bkt.CID, p.Info.Key, p.Info.UploadID) if err != nil { if stderrors.Is(err, ErrNodeNotFound) { return nil, errors.GetAPIError(errors.ErrNoSuchUpload) } return nil, err } size := p.SrcObjInfo.Size if p.Range != nil { size = int64(p.Range.End - p.Range.Start + 1) if p.Range.End > uint64(p.SrcObjInfo.Size) { return nil, errors.GetAPIError(errors.ErrInvalidCopyPartRangeSource) } } if size > uploadMaxSize { return nil, errors.GetAPIError(errors.ErrEntityTooLarge) } pr, pw := io.Pipe() go func() { err = n.GetObject(ctx, &GetObjectParams{ ObjectInfo: p.SrcObjInfo, Writer: pw, Range: p.Range, BucketInfo: p.SrcBktInfo, }) if err = pw.CloseWithError(err); err != nil { n.log.Error("could not get object", zap.Error(err)) } }() params := &UploadPartParams{ Info: p.Info, PartNumber: p.PartNumber, Size: size, Reader: pr, } return n.uploadPart(ctx, multipartInfo, params) } // implements io.Reader of payloads of the object list stored in the NeoFS network. type multiObjectReader struct { ctx context.Context layer *layer prm getParams curReader io.Reader parts []*data.PartInfo } func (x *multiObjectReader) Read(p []byte) (n int, err error) { if x.curReader != nil { n, err = x.curReader.Read(p) if !stderrors.Is(err, io.EOF) { return n, err } } if len(x.parts) == 0 { return n, io.EOF } x.prm.oid = x.parts[0].OID x.curReader, err = x.layer.initObjectPayloadReader(x.ctx, x.prm) if err != nil { return n, fmt.Errorf("init payload reader for the next part: %w", err) } x.parts = x.parts[1:] next, err := x.Read(p[n:]) return n + next, err } func (n *layer) CompleteMultipartUpload(ctx context.Context, p *CompleteMultipartParams) (*UploadData, *data.ObjectInfo, error) { for i := 1; i < len(p.Parts); i++ { if p.Parts[i].PartNumber <= p.Parts[i-1].PartNumber { return nil, nil, errors.GetAPIError(errors.ErrInvalidPartOrder) } } multipartInfo, partsInfo, err := n.getUploadParts(ctx, p.Info) if err != nil { return nil, nil, err } if len(partsInfo) < len(p.Parts) { return nil, nil, errors.GetAPIError(errors.ErrInvalidPart) } var multipartObjetSize int64 parts := make([]*data.PartInfo, 0, len(p.Parts)) var completedPartsHeader strings.Builder for i, part := range p.Parts { partInfo := partsInfo[part.PartNumber] if partInfo == nil || part.ETag != partInfo.ETag { return nil, nil, errors.GetAPIError(errors.ErrInvalidPart) } // for the last part we have no minimum size limit if i != len(p.Parts)-1 && partInfo.Size < uploadMinSize { return nil, nil, errors.GetAPIError(errors.ErrEntityTooSmall) } parts = append(parts, partInfo) multipartObjetSize += partInfo.Size partInfoStr := partInfo.ToHeaderString() if i != len(p.Parts)-1 { partInfoStr += "," } if _, err = completedPartsHeader.WriteString(partInfoStr); err != nil { return nil, nil, err } } initMetadata := make(map[string]string, len(multipartInfo.Meta)+1) initMetadata[UploadCompletedParts] = completedPartsHeader.String() uploadData := &UploadData{ TagSet: make(map[string]string), ACLHeaders: make(map[string]string), } for key, val := range multipartInfo.Meta { if strings.HasPrefix(key, metaPrefix) { initMetadata[strings.TrimPrefix(key, metaPrefix)] = val } else if strings.HasPrefix(key, tagPrefix) { uploadData.TagSet[strings.TrimPrefix(key, tagPrefix)] = val } else if strings.HasPrefix(key, aclPrefix) { uploadData.ACLHeaders[strings.TrimPrefix(key, aclPrefix)] = val } } r := &multiObjectReader{ ctx: ctx, layer: n, parts: parts, } r.prm.bktInfo = p.Info.Bkt obj, err := n.PutObject(ctx, &PutObjectParams{ BktInfo: p.Info.Bkt, Object: p.Info.Key, Reader: r, Header: initMetadata, Size: multipartObjetSize, }) if err != nil { n.log.Error("could not put a completed object (multipart upload)", zap.String("uploadID", misc.SanitizeString(p.Info.UploadID)), zap.String("uploadKey", p.Info.Key), zap.Error(err)) return nil, nil, errors.GetAPIError(errors.ErrInternalError) } var addr oid.Address addr.SetContainer(p.Info.Bkt.CID) for _, partInfo := range partsInfo { if err = n.objectDelete(ctx, p.Info.Bkt, partInfo.OID); err != nil { n.log.Warn("could not delete upload part", zap.Stringer("object id", &partInfo.OID), zap.Stringer("bucket id", p.Info.Bkt.CID), zap.Error(err)) } addr.SetObject(partInfo.OID) n.objCache.Delete(addr) } return uploadData, obj, n.treeService.DeleteMultipartUpload(ctx, p.Info.Bkt.CID, multipartInfo.ID) } func (n *layer) ListMultipartUploads(ctx context.Context, p *ListMultipartUploadsParams) (*ListMultipartUploadsInfo, error) { var result ListMultipartUploadsInfo if p.MaxUploads == 0 { return &result, nil } multipartInfos, err := n.treeService.GetMultipartUploadsByPrefix(ctx, p.Bkt.CID, p.Prefix) if err != nil { return nil, err } uploads := make([]*UploadInfo, 0, len(multipartInfos)) uniqDirs := make(map[string]struct{}) for _, multipartInfo := range multipartInfos { info := uploadInfoFromMultipartInfo(multipartInfo, p.Prefix, p.Delimiter) if info != nil { if info.IsDir { if _, ok := uniqDirs[info.Key]; ok { continue } uniqDirs[info.Key] = struct{}{} } uploads = append(uploads, info) } } sort.Slice(uploads, func(i, j int) bool { if uploads[i].Key == uploads[j].Key { return uploads[i].UploadID < uploads[j].UploadID } return uploads[i].Key < uploads[j].Key }) if p.KeyMarker != "" { if p.UploadIDMarker != "" { uploads = trimAfterUploadIDAndKey(p.KeyMarker, p.UploadIDMarker, uploads) } else { uploads = trimAfterUploadKey(p.KeyMarker, uploads) } } if len(uploads) > p.MaxUploads { result.IsTruncated = true uploads = uploads[:p.MaxUploads] result.NextUploadIDMarker = uploads[len(uploads)-1].UploadID result.NextKeyMarker = uploads[len(uploads)-1].Key } for _, ov := range uploads { if ov.IsDir { result.Prefixes = append(result.Prefixes, ov.Key) } else { result.Uploads = append(result.Uploads, ov) } } return &result, nil } func (n *layer) AbortMultipartUpload(ctx context.Context, p *UploadInfoParams) error { multipartInfo, parts, err := n.getUploadParts(ctx, p) if err != nil { return err } for _, info := range parts { if err = n.objectDelete(ctx, p.Bkt, info.OID); err != nil { n.log.Warn("couldn't delete part", zap.String("cid", p.Bkt.CID.EncodeToString()), zap.String("oid", info.OID.EncodeToString()), zap.Int("part number", info.Number)) } } return n.treeService.DeleteMultipartUpload(ctx, p.Bkt.CID, multipartInfo.ID) } func (n *layer) ListParts(ctx context.Context, p *ListPartsParams) (*ListPartsInfo, error) { var res ListPartsInfo multipartInfo, partsInfo, err := n.getUploadParts(ctx, p.Info) if err != nil { return nil, err } res.Owner = multipartInfo.Owner parts := make([]*Part, 0, len(partsInfo)) for _, partInfo := range partsInfo { parts = append(parts, &Part{ ETag: partInfo.ETag, LastModified: partInfo.Created.UTC().Format(time.RFC3339), PartNumber: partInfo.Number, Size: partInfo.Size, }) } sort.Slice(parts, func(i, j int) bool { return parts[i].PartNumber < parts[j].PartNumber }) if p.PartNumberMarker != 0 { for i, part := range parts { if part.PartNumber > p.PartNumberMarker { parts = parts[i:] break } } } if len(parts) > p.MaxParts { res.IsTruncated = true res.NextPartNumberMarker = parts[p.MaxParts-1].PartNumber parts = parts[:p.MaxParts] } res.Parts = parts return &res, nil } func (n *layer) getUploadParts(ctx context.Context, p *UploadInfoParams) (*data.MultipartInfo, map[int]*data.PartInfo, error) { multipartInfo, err := n.treeService.GetMultipartUpload(ctx, p.Bkt.CID, p.Key, p.UploadID) if err != nil { if stderrors.Is(err, ErrNodeNotFound) { return nil, nil, errors.GetAPIError(errors.ErrNoSuchUpload) } return nil, nil, err } parts, err := n.treeService.GetParts(ctx, p.Bkt.CID, multipartInfo.ID) if err != nil { return nil, nil, err } res := make(map[int]*data.PartInfo, len(parts)) for _, part := range parts { res[part.Number] = part } return multipartInfo, res, nil } func trimAfterUploadIDAndKey(key, id string, uploads []*UploadInfo) []*UploadInfo { var res []*UploadInfo if len(uploads) != 0 && uploads[len(uploads)-1].Key < key { return res } for _, obj := range uploads { if obj.Key >= key && obj.UploadID > id { res = append(res, obj) } } return res } func trimAfterUploadKey(key string, objects []*UploadInfo) []*UploadInfo { var result []*UploadInfo if len(objects) != 0 && objects[len(objects)-1].Key <= key { return result } for i, obj := range objects { if obj.Key > key { result = objects[i:] break } } return result } func uploadInfoFromMultipartInfo(uploadInfo *data.MultipartInfo, prefix, delimiter string) *UploadInfo { var isDir bool key := uploadInfo.Key if !strings.HasPrefix(key, prefix) { return nil } if len(delimiter) > 0 { tail := strings.TrimPrefix(key, prefix) index := strings.Index(tail, delimiter) if index >= 0 { isDir = true key = prefix + tail[:index+1] } } return &UploadInfo{ IsDir: isDir, Key: key, UploadID: uploadInfo.UploadID, Owner: uploadInfo.Owner, Created: uploadInfo.Created, } }