package layer import ( "bytes" "context" "crypto/md5" "crypto/sha256" "encoding/base64" "encoding/hex" "encoding/json" "errors" "fmt" "io" "mime" "path/filepath" "strconv" "strings" "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api" "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api/auth" "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api/data" apiErrors "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api/errors" "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/internal/logs" "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/client" cid "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/container/id" "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object" oid "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object/id" "github.com/minio/sio" "go.uber.org/zap" ) type ( getParams struct { // payload range off, ln uint64 objInfo *data.ObjectInfo bktInfo *data.BucketInfo } getFrostFSParams struct { // payload range off, ln uint64 oid oid.ID bktInfo *data.BucketInfo } DeleteMarkerError struct { ErrorCode apiErrors.ErrorCode } ) func (e DeleteMarkerError) Error() string { return "object is delete marker" } const ( continuationToken = "" ) func newAddress(cnr cid.ID, obj oid.ID) oid.Address { var addr oid.Address addr.SetContainer(cnr) addr.SetObject(obj) return addr } // objectHead returns all object's headers. func (n *Layer) objectHead(ctx context.Context, bktInfo *data.BucketInfo, idObj oid.ID) (*object.Object, error) { prm := PrmObjectHead{ Container: bktInfo.CID, Object: idObj, } n.prepareAuthParameters(ctx, &prm.PrmAuth, bktInfo.Owner) return n.frostFS.HeadObject(ctx, prm) } func (n *Layer) initObjectPayloadReader(ctx context.Context, p getParams) (io.Reader, error) { if _, isCombined := p.objInfo.Headers[MultipartObjectSize]; !isCombined { return n.initFrostFSObjectPayloadReader(ctx, getFrostFSParams{ off: p.off, ln: p.ln, oid: p.objInfo.ID, bktInfo: p.bktInfo, }) } combinedObj, err := n.objectGet(ctx, p.bktInfo, p.objInfo.ID) if err != nil { return nil, fmt.Errorf("get combined object '%s': %w", p.objInfo.ID.EncodeToString(), err) } var parts []*data.PartInfo if err = json.NewDecoder(combinedObj.Payload).Decode(&parts); err != nil { return nil, fmt.Errorf("unmarshal combined object parts: %w", err) } isEncrypted := FormEncryptionInfo(p.objInfo.Headers).Enabled objParts := make([]partObj, len(parts)) for i, part := range parts { size := part.Size if isEncrypted { if size, err = sio.EncryptedSize(part.Size); err != nil { return nil, fmt.Errorf("compute encrypted size: %w", err) } } objParts[i] = partObj{ OID: part.OID, Size: size, } } return newMultiObjectReader(ctx, multiObjectReaderConfig{ layer: n, off: p.off, ln: p.ln, parts: objParts, bktInfo: p.bktInfo, }) } // initializes payload reader of the FrostFS object. // Zero range corresponds to full payload (panics if only offset is set). func (n *Layer) initFrostFSObjectPayloadReader(ctx context.Context, p getFrostFSParams) (io.Reader, error) { var prmAuth PrmAuth n.prepareAuthParameters(ctx, &prmAuth, p.bktInfo.Owner) if p.off+p.ln != 0 { prm := PrmObjectRange{ PrmAuth: prmAuth, Container: p.bktInfo.CID, Object: p.oid, PayloadRange: [2]uint64{p.off, p.ln}, } return n.frostFS.RangeObject(ctx, prm) } prm := PrmObjectGet{ PrmAuth: prmAuth, Container: p.bktInfo.CID, Object: p.oid, } res, err := n.frostFS.GetObject(ctx, prm) if err != nil { return nil, err } return res.Payload, nil } // objectGet returns an object with payload in the object. func (n *Layer) objectGet(ctx context.Context, bktInfo *data.BucketInfo, objID oid.ID) (*Object, error) { return n.objectGetBase(ctx, bktInfo, objID, PrmAuth{}) } // objectGetWithAuth returns an object with payload in the object. Uses provided PrmAuth. func (n *Layer) objectGetWithAuth(ctx context.Context, bktInfo *data.BucketInfo, objID oid.ID, auth PrmAuth) (*Object, error) { return n.objectGetBase(ctx, bktInfo, objID, auth) } func (n *Layer) objectGetBase(ctx context.Context, bktInfo *data.BucketInfo, objID oid.ID, auth PrmAuth) (*Object, error) { prm := PrmObjectGet{ PrmAuth: auth, Container: bktInfo.CID, Object: objID, } n.prepareAuthParameters(ctx, &prm.PrmAuth, bktInfo.Owner) return n.frostFS.GetObject(ctx, prm) } // MimeByFilePath detect mime type by file path extension. func MimeByFilePath(path string) string { ext := filepath.Ext(path) if len(ext) == 0 { return "" } return mime.TypeByExtension(ext) } func encryptionReader(r io.Reader, size uint64, key []byte) (io.Reader, uint64, error) { encSize, err := sio.EncryptedSize(size) if err != nil { return nil, 0, fmt.Errorf("failed to compute enc size: %w", err) } r, err = sio.EncryptReader(r, sio.Config{MinVersion: sio.Version20, MaxVersion: sio.Version20, Key: key, CipherSuites: []byte{sio.AES_256_GCM}}) if err != nil { return nil, 0, fmt.Errorf("couldn't create encrypter: %w", err) } return r, encSize, nil } func ParseCompletedPartHeader(hdr string) (*Part, error) { // partInfo[0] -- part number, partInfo[1] -- part size, partInfo[2] -- checksum partInfo := strings.Split(hdr, "-") if len(partInfo) != 3 { return nil, fmt.Errorf("invalid completed part header") } num, err := strconv.Atoi(partInfo[0]) if err != nil { return nil, fmt.Errorf("invalid completed part number '%s': %w", partInfo[0], err) } size, err := strconv.ParseUint(partInfo[1], 10, 64) if err != nil { return nil, fmt.Errorf("invalid completed part size '%s': %w", partInfo[1], err) } return &Part{ ETag: partInfo[2], PartNumber: num, Size: size, }, nil } // PutObject stores object into FrostFS, took payload from io.Reader. func (n *Layer) PutObject(ctx context.Context, p *PutObjectParams) (*data.ExtendedObjectInfo, error) { bktSettings, err := n.GetBucketSettings(ctx, p.BktInfo) if err != nil { return nil, fmt.Errorf("couldn't get versioning settings object: %w", err) } r := p.Reader if p.Encryption.Enabled() { p.Header[AttributeDecryptedSize] = strconv.FormatUint(p.Size, 10) if err = addEncryptionHeaders(p.Header, p.Encryption); err != nil { return nil, fmt.Errorf("add encryption header: %w", err) } var encSize uint64 if r, encSize, err = encryptionReader(p.Reader, p.Size, p.Encryption.Key()); err != nil { return nil, fmt.Errorf("create encrypter: %w", err) } p.Size = encSize } if r != nil { if len(p.Header[api.ContentType]) == 0 { if contentType := MimeByFilePath(p.Object); len(contentType) == 0 { d := newDetector(r) if contentType, err := d.Detect(); err == nil { p.Header[api.ContentType] = contentType } r = d.MultiReader() } else { p.Header[api.ContentType] = contentType } } } prm := PrmObjectCreate{ Container: p.BktInfo.CID, PayloadSize: p.Size, Filepath: p.Object, Payload: r, CreationTime: TimeNow(ctx), CopiesNumber: p.CopiesNumbers, } prm.Attributes = make([][2]string, 0, len(p.Header)) for k, v := range p.Header { prm.Attributes = append(prm.Attributes, [2]string{k, v}) } createdObj, err := n.objectPutAndHash(ctx, prm, p.BktInfo) if err != nil { return nil, err } if len(p.ContentMD5) > 0 { headerMd5Hash, err := base64.StdEncoding.DecodeString(p.ContentMD5) if err != nil { return nil, apiErrors.GetAPIError(apiErrors.ErrInvalidDigest) } if !bytes.Equal(headerMd5Hash, createdObj.MD5Sum) { err = n.objectDelete(ctx, p.BktInfo, createdObj.ID) if err != nil { n.reqLogger(ctx).Debug(logs.FailedToDeleteObject, zap.Stringer("cid", p.BktInfo.CID), zap.Stringer("oid", createdObj.ID)) } return nil, apiErrors.GetAPIError(apiErrors.ErrInvalidDigest) } } if !p.Encryption.Enabled() && len(p.ContentSHA256Hash) > 0 && !auth.IsStandardContentSHA256(p.ContentSHA256Hash) { contentHashBytes, err := hex.DecodeString(p.ContentSHA256Hash) if err != nil { return nil, apiErrors.GetAPIError(apiErrors.ErrContentSHA256Mismatch) } if !bytes.Equal(contentHashBytes, createdObj.HashSum) { err = n.objectDelete(ctx, p.BktInfo, createdObj.ID) if err != nil { n.reqLogger(ctx).Debug(logs.FailedToDeleteObject, zap.Stringer("cid", p.BktInfo.CID), zap.Stringer("oid", createdObj.ID)) } return nil, apiErrors.GetAPIError(apiErrors.ErrContentSHA256Mismatch) } } n.reqLogger(ctx).Debug(logs.PutObject, zap.Stringer("cid", p.BktInfo.CID), zap.Stringer("oid", createdObj.ID)) now := TimeNow(ctx) newVersion := &data.NodeVersion{ BaseNodeVersion: data.BaseNodeVersion{ OID: createdObj.ID, ETag: hex.EncodeToString(createdObj.HashSum), FilePath: p.Object, Size: p.Size, Created: &now, Owner: &n.gateOwner, CreationEpoch: createdObj.CreationEpoch, }, IsUnversioned: !bktSettings.VersioningEnabled(), IsCombined: p.Header[MultipartObjectSize] != "", } if len(p.CompleteMD5Hash) > 0 { newVersion.MD5 = p.CompleteMD5Hash } else { newVersion.MD5 = hex.EncodeToString(createdObj.MD5Sum) } if newVersion.ID, err = n.treeService.AddVersion(ctx, p.BktInfo, newVersion); err != nil { return nil, fmt.Errorf("couldn't add new verion to tree service: %w", err) } if p.Lock != nil && (p.Lock.Retention != nil || p.Lock.LegalHold != nil) { putLockInfoPrms := &PutLockInfoParams{ ObjVersion: &data.ObjectVersion{ BktInfo: p.BktInfo, ObjectName: p.Object, VersionID: createdObj.ID.EncodeToString(), }, NewLock: p.Lock, CopiesNumbers: p.CopiesNumbers, NodeVersion: newVersion, // provide new version to make one less tree service call in PutLockInfo } if err = n.PutLockInfo(ctx, putLockInfoPrms); err != nil { return nil, err } } n.cache.CleanListCacheEntriesContainingObject(p.Object, p.BktInfo.CID) objInfo := &data.ObjectInfo{ ID: createdObj.ID, CID: p.BktInfo.CID, Owner: n.gateOwner, Bucket: p.BktInfo.Name, Name: p.Object, Size: createdObj.Size, Created: prm.CreationTime, Headers: p.Header, ContentType: p.Header[api.ContentType], HashSum: newVersion.ETag, MD5Sum: newVersion.MD5, } extendedObjInfo := &data.ExtendedObjectInfo{ ObjectInfo: objInfo, NodeVersion: newVersion, } n.cache.PutObjectWithName(n.BearerOwner(ctx), extendedObjInfo) return extendedObjInfo, nil } func (n *Layer) headLastVersionIfNotDeleted(ctx context.Context, bkt *data.BucketInfo, objectName string) (*data.ExtendedObjectInfo, error) { owner := n.BearerOwner(ctx) if extObjInfo := n.cache.GetLastObject(owner, bkt.Name, objectName); extObjInfo != nil { return extObjInfo, nil } node, err := n.treeService.GetLatestVersion(ctx, bkt, objectName) if err != nil { if errors.Is(err, ErrNodeNotFound) { return nil, fmt.Errorf("%w: %s", apiErrors.GetAPIError(apiErrors.ErrNoSuchKey), err.Error()) } return nil, err } if node.IsDeleteMarker { return nil, DeleteMarkerError{ErrorCode: apiErrors.ErrNoSuchKey} } meta, err := n.objectHead(ctx, bkt, node.OID) if err != nil { if client.IsErrObjectNotFound(err) { return nil, fmt.Errorf("%w: %s; %s", apiErrors.GetAPIError(apiErrors.ErrNoSuchKey), err.Error(), node.OID.EncodeToString()) } return nil, err } objInfo := objectInfoFromMeta(bkt, meta) objInfo.MD5Sum = node.MD5 extObjInfo := &data.ExtendedObjectInfo{ ObjectInfo: objInfo, NodeVersion: node, } n.cache.PutObjectWithName(owner, extObjInfo) return extObjInfo, nil } func (n *Layer) headVersion(ctx context.Context, bkt *data.BucketInfo, p *HeadObjectParams) (*data.ExtendedObjectInfo, error) { var err error var foundVersion *data.NodeVersion if p.VersionID == data.UnversionedObjectVersionID { foundVersion, err = n.treeService.GetUnversioned(ctx, bkt, p.Object) if err != nil { if errors.Is(err, ErrNodeNotFound) { return nil, fmt.Errorf("%w: %s", apiErrors.GetAPIError(apiErrors.ErrNoSuchVersion), err.Error()) } return nil, err } } else { versions, err := n.treeService.GetVersions(ctx, bkt, p.Object) if err != nil { return nil, fmt.Errorf("couldn't get versions: %w", err) } for _, version := range versions { if version.OID.EncodeToString() == p.VersionID { foundVersion = version break } } if foundVersion == nil { return nil, fmt.Errorf("%w: there isn't tree node with requested version id", apiErrors.GetAPIError(apiErrors.ErrNoSuchVersion)) } } owner := n.BearerOwner(ctx) if extObjInfo := n.cache.GetObject(owner, newAddress(bkt.CID, foundVersion.OID)); extObjInfo != nil { return extObjInfo, nil } if foundVersion.IsDeleteMarker { return nil, DeleteMarkerError{ErrorCode: apiErrors.ErrMethodNotAllowed} } meta, err := n.objectHead(ctx, bkt, foundVersion.OID) if err != nil { if client.IsErrObjectNotFound(err) { return nil, fmt.Errorf("%w: %s", apiErrors.GetAPIError(apiErrors.ErrNoSuchVersion), err.Error()) } return nil, err } objInfo := objectInfoFromMeta(bkt, meta) objInfo.MD5Sum = foundVersion.MD5 extObjInfo := &data.ExtendedObjectInfo{ ObjectInfo: objInfo, NodeVersion: foundVersion, } n.cache.PutObject(owner, extObjInfo) return extObjInfo, nil } // objectDelete puts tombstone object into frostfs. func (n *Layer) objectDelete(ctx context.Context, bktInfo *data.BucketInfo, idObj oid.ID) error { return n.objectDeleteBase(ctx, bktInfo, idObj, PrmAuth{}) } // objectDeleteWithAuth puts tombstone object into frostfs. Uses provided PrmAuth. func (n *Layer) objectDeleteWithAuth(ctx context.Context, bktInfo *data.BucketInfo, idObj oid.ID, auth PrmAuth) error { return n.objectDeleteBase(ctx, bktInfo, idObj, auth) } func (n *Layer) objectDeleteBase(ctx context.Context, bktInfo *data.BucketInfo, idObj oid.ID, auth PrmAuth) error { prm := PrmObjectDelete{ PrmAuth: auth, Container: bktInfo.CID, Object: idObj, } n.prepareAuthParameters(ctx, &prm.PrmAuth, bktInfo.Owner) n.cache.DeleteObject(newAddress(bktInfo.CID, idObj)) return n.frostFS.DeleteObject(ctx, prm) } // objectPutAndHash prepare auth parameters and invoke frostfs.CreateObject. func (n *Layer) objectPutAndHash(ctx context.Context, prm PrmObjectCreate, bktInfo *data.BucketInfo) (*data.CreatedObjectInfo, error) { n.prepareAuthParameters(ctx, &prm.PrmAuth, bktInfo.Owner) prm.ClientCut = n.features.ClientCut() prm.BufferMaxSize = n.features.BufferMaxSizeForPut() prm.WithoutHomomorphicHash = bktInfo.HomomorphicHashDisabled var size uint64 hash := sha256.New() md5Hash := md5.New() prm.Payload = wrapReader(prm.Payload, 64*1024, func(buf []byte) { size += uint64(len(buf)) hash.Write(buf) md5Hash.Write(buf) }) res, err := n.frostFS.CreateObject(ctx, prm) if err != nil { if _, errDiscard := io.Copy(io.Discard, prm.Payload); errDiscard != nil { n.reqLogger(ctx).Warn(logs.FailedToDiscardPutPayloadProbablyGoroutineLeaks, zap.Error(errDiscard)) } return nil, err } return &data.CreatedObjectInfo{ ID: res.ObjectID, Size: size, HashSum: hash.Sum(nil), MD5Sum: md5Hash.Sum(nil), CreationEpoch: res.CreationEpoch, }, nil } type logWrapper struct { log *zap.Logger } func (l *logWrapper) Printf(format string, args ...interface{}) { l.log.Info(fmt.Sprintf(format, args...)) } func IsSystemHeader(key string) bool { _, ok := api.SystemMetadata[key] return ok || strings.HasPrefix(key, api.FrostFSSystemMetadataPrefix) } func wrapReader(input io.Reader, bufSize int, f func(buf []byte)) io.Reader { if input == nil { return nil } r, w := io.Pipe() go func() { var buf = make([]byte, bufSize) for { n, err := input.Read(buf) if n > 0 { f(buf[:n]) _, _ = w.Write(buf[:n]) // ignore error, input is not ReadCloser } if err != nil { _ = w.CloseWithError(err) break } } }() return r }