// Copyright (C) 2020 Storj Labs, Inc. // See LICENSE for copying information. package metabase import ( "context" "database/sql" "errors" "time" pgxerrcode "github.com/jackc/pgerrcode" "github.com/zeebo/errs" "storj.io/common/storj" "storj.io/storj/private/dbutil/pgutil/pgerrcode" "storj.io/storj/private/dbutil/txutil" "storj.io/storj/private/tagsql" ) // we need to disable PlainSize validation for old uplinks. const validatePlainSize = false var ( // ErrInvalidRequest is used to indicate invalid requests. ErrInvalidRequest = errs.Class("metabase: invalid request") // ErrConflict is used to indicate conflict with the request. ErrConflict = errs.Class("metabase: conflict") ) // BeginObjectNextVersion contains arguments necessary for starting an object upload. type BeginObjectNextVersion struct { ObjectStream ExpiresAt *time.Time ZombieDeletionDeadline *time.Time Encryption storj.EncryptionParameters } // BeginObjectNextVersion adds a pending object to the database, with automatically assigned version. func (db *DB) BeginObjectNextVersion(ctx context.Context, opts BeginObjectNextVersion) (committed Version, err error) { defer mon.Task()(&ctx)(&err) if err := opts.ObjectStream.Verify(); err != nil { return -1, err } if opts.Version != NextVersion { return -1, ErrInvalidRequest.New("Version should be metabase.NextVersion") } row := db.db.QueryRow(ctx, ` INSERT INTO objects ( project_id, bucket_name, object_key, version, stream_id, expires_at, encryption, zombie_deletion_deadline ) VALUES ( $1, $2, $3, coalesce(( SELECT version + 1 FROM objects WHERE project_id = $1 AND bucket_name = $2 AND object_key = $3 ORDER BY version DESC LIMIT 1 ), 1), $4, $5, $6, $7) RETURNING version `, opts.ProjectID, []byte(opts.BucketName), []byte(opts.ObjectKey), opts.StreamID, opts.ExpiresAt, encryptionParameters{&opts.Encryption}, opts.ZombieDeletionDeadline) var v int64 if err := row.Scan(&v); err != nil { return -1, Error.New("unable to insert object: %w", err) } return Version(v), nil } // BeginObjectExactVersion contains arguments necessary for starting an object upload. type BeginObjectExactVersion struct { ObjectStream ExpiresAt *time.Time ZombieDeletionDeadline *time.Time Encryption storj.EncryptionParameters } // BeginObjectExactVersion adds a pending object to the database, with specific version. func (db *DB) BeginObjectExactVersion(ctx context.Context, opts BeginObjectExactVersion) (committed Object, err error) { defer mon.Task()(&ctx)(&err) if err := opts.ObjectStream.Verify(); err != nil { return Object{}, err } if opts.Version == NextVersion { return Object{}, ErrInvalidRequest.New("Version should not be metabase.NextVersion") } object := Object{ ObjectStream: ObjectStream{ ProjectID: opts.ProjectID, BucketName: opts.BucketName, ObjectKey: opts.ObjectKey, Version: opts.Version, StreamID: opts.StreamID, }, ExpiresAt: opts.ExpiresAt, Encryption: opts.Encryption, ZombieDeletionDeadline: opts.ZombieDeletionDeadline, } err = db.db.QueryRow(ctx, ` INSERT INTO objects ( project_id, bucket_name, object_key, version, stream_id, expires_at, encryption, zombie_deletion_deadline ) values ( $1, $2, $3, $4, $5, $6, $7, $8 ) RETURNING status, created_at `, opts.ProjectID, []byte(opts.BucketName), []byte(opts.ObjectKey), opts.Version, opts.StreamID, opts.ExpiresAt, encryptionParameters{&opts.Encryption}, opts.ZombieDeletionDeadline). Scan( &object.Status, &object.CreatedAt, ) if err != nil { if code := pgerrcode.FromError(err); code == pgxerrcode.UniqueViolation { return Object{}, ErrConflict.New("object already exists") } return Object{}, Error.New("unable to insert object: %w", err) } return object, nil } // BeginSegment contains options to verify, whether a new segment upload can be started. type BeginSegment struct { ObjectStream Position SegmentPosition RootPieceID storj.PieceID Pieces Pieces } // BeginSegment verifies, whether a new segment upload can be started. func (db *DB) BeginSegment(ctx context.Context, opts BeginSegment) (err error) { defer mon.Task()(&ctx)(&err) if err := opts.ObjectStream.Verify(); err != nil { return err } if err := opts.Pieces.Verify(); err != nil { return err } if opts.RootPieceID.IsZero() { return ErrInvalidRequest.New("RootPieceID missing") } // NOTE: this isn't strictly necessary, since we can also fail this in CommitSegment. // however, we should prevent creating segements for non-partial objects. // NOTE: these queries could be combined into one. return txutil.WithTx(ctx, db.db, nil, func(ctx context.Context, tx tagsql.Tx) (err error) { // Verify that object exists and is partial. var value int err = tx.QueryRow(ctx, ` SELECT 1 FROM objects WHERE project_id = $1 AND bucket_name = $2 AND object_key = $3 AND version = $4 AND stream_id = $5 AND status = `+pendingStatus, opts.ProjectID, []byte(opts.BucketName), []byte(opts.ObjectKey), opts.Version, opts.StreamID).Scan(&value) if err != nil { if errors.Is(err, sql.ErrNoRows) { return Error.New("pending object missing") } return Error.New("unable to query object status: %w", err) } // Verify that the segment does not exist. err = tx.QueryRow(ctx, ` SELECT 1 FROM segments WHERE stream_id = $1 AND position = $2 `, opts.StreamID, opts.Position).Scan(&value) if err != nil && !errors.Is(err, sql.ErrNoRows) { return Error.New("unable to query segments: %w", err) } err = nil //nolint: ineffassign, ignore any other err result (explicitly) return nil }) } // CommitSegment contains all necessary information about the segment. type CommitSegment struct { ObjectStream Position SegmentPosition RootPieceID storj.PieceID EncryptedKeyNonce []byte EncryptedKey []byte PlainOffset int64 // offset in the original data stream PlainSize int32 // size before encryption EncryptedSize int32 // segment size after encryption EncryptedETag []byte Redundancy storj.RedundancyScheme Pieces Pieces } // CommitSegment commits segment to the database. func (db *DB) CommitSegment(ctx context.Context, opts CommitSegment) (err error) { defer mon.Task()(&ctx)(&err) if err := opts.ObjectStream.Verify(); err != nil { return err } if err := opts.Pieces.Verify(); err != nil { return err } switch { case opts.RootPieceID.IsZero(): return ErrInvalidRequest.New("RootPieceID missing") case len(opts.EncryptedKey) == 0: return ErrInvalidRequest.New("EncryptedKey missing") case len(opts.EncryptedKeyNonce) == 0: return ErrInvalidRequest.New("EncryptedKeyNonce missing") case opts.EncryptedSize <= 0: return ErrInvalidRequest.New("EncryptedSize negative or zero") case opts.PlainSize <= 0 && validatePlainSize: return ErrInvalidRequest.New("PlainSize negative or zero") case opts.PlainOffset < 0: return ErrInvalidRequest.New("PlainOffset negative") case opts.Redundancy.IsZero(): return ErrInvalidRequest.New("Redundancy zero") } if len(opts.Pieces) < int(opts.Redundancy.OptimalShares) { return ErrInvalidRequest.New("number of pieces is less than redundancy optimal shares value") } aliasPieces, err := db.aliasCache.ConvertPiecesToAliases(ctx, opts.Pieces) if err != nil { return Error.New("unable to convert pieces to aliases: %w", err) } // Verify that object exists and is partial. _, err = db.db.ExecContext(ctx, ` INSERT INTO segments ( stream_id, position, root_piece_id, encrypted_key_nonce, encrypted_key, encrypted_size, plain_offset, plain_size, encrypted_etag, redundancy, remote_alias_pieces ) VALUES ( (SELECT stream_id FROM objects WHERE project_id = $11 AND bucket_name = $12 AND object_key = $13 AND version = $14 AND stream_id = $15 AND status = `+pendingStatus+ ` ), $1, $2, $3, $4, $5, $6, $7, $8, $9, $10 )`, opts.Position, opts.RootPieceID, opts.EncryptedKeyNonce, opts.EncryptedKey, opts.EncryptedSize, opts.PlainOffset, opts.PlainSize, opts.EncryptedETag, redundancyScheme{&opts.Redundancy}, aliasPieces, opts.ProjectID, []byte(opts.BucketName), []byte(opts.ObjectKey), opts.Version, opts.StreamID, ) if err != nil { if code := pgerrcode.FromError(err); code == pgxerrcode.NotNullViolation { return Error.New("pending object missing") } if code := pgerrcode.FromError(err); code == pgxerrcode.UniqueViolation { return ErrConflict.New("segment already exists") } return Error.New("unable to insert segment: %w", err) } return nil } // CommitInlineSegment contains all necessary information about the segment. type CommitInlineSegment struct { ObjectStream Position SegmentPosition EncryptedKeyNonce []byte EncryptedKey []byte PlainOffset int64 // offset in the original data stream PlainSize int32 // size before encryption EncryptedETag []byte InlineData []byte } // CommitInlineSegment commits inline segment to the database. func (db *DB) CommitInlineSegment(ctx context.Context, opts CommitInlineSegment) (err error) { defer mon.Task()(&ctx)(&err) if err := opts.ObjectStream.Verify(); err != nil { return err } // TODO: do we have a lower limit for inline data? // TODO should we move check for max inline segment from metainfo here switch { case len(opts.EncryptedKey) == 0: return ErrInvalidRequest.New("EncryptedKey missing") case len(opts.EncryptedKeyNonce) == 0: return ErrInvalidRequest.New("EncryptedKeyNonce missing") case opts.PlainSize <= 0 && validatePlainSize: return ErrInvalidRequest.New("PlainSize negative or zero") case opts.PlainOffset < 0: return ErrInvalidRequest.New("PlainOffset negative") } // Verify that object exists and is partial. _, err = db.db.ExecContext(ctx, ` INSERT INTO segments ( stream_id, position, root_piece_id, encrypted_key_nonce, encrypted_key, encrypted_size, plain_offset, plain_size, encrypted_etag, inline_data ) VALUES ( (SELECT stream_id FROM objects WHERE project_id = $10 AND bucket_name = $11 AND object_key = $12 AND version = $13 AND stream_id = $14 AND status = `+pendingStatus+ ` ), $1, $2, $3, $4, $5, $6, $7, $8, $9 )`, opts.Position, storj.PieceID{}, opts.EncryptedKeyNonce, opts.EncryptedKey, len(opts.InlineData), opts.PlainOffset, opts.PlainSize, opts.EncryptedETag, opts.InlineData, opts.ProjectID, []byte(opts.BucketName), []byte(opts.ObjectKey), opts.Version, opts.StreamID, ) if err != nil { if code := pgerrcode.FromError(err); code == pgxerrcode.NotNullViolation { return Error.New("pending object missing") } if code := pgerrcode.FromError(err); code == pgxerrcode.UniqueViolation { return ErrConflict.New("segment already exists") } return Error.New("unable to insert segment: %w", err) } return nil } // CommitObject contains arguments necessary for committing an object. type CommitObject struct { ObjectStream Encryption storj.EncryptionParameters EncryptedMetadata []byte EncryptedMetadataNonce []byte EncryptedMetadataEncryptedKey []byte } // CommitObject adds a pending object to the database. func (db *DB) CommitObject(ctx context.Context, opts CommitObject) (object Object, err error) { defer mon.Task()(&ctx)(&err) if err := opts.ObjectStream.Verify(); err != nil { return Object{}, err } if opts.Encryption.CipherSuite != storj.EncUnspecified && opts.Encryption.BlockSize <= 0 { return Object{}, ErrInvalidRequest.New("Encryption.BlockSize is negative or zero") } err = txutil.WithTx(ctx, db.db, nil, func(ctx context.Context, tx tagsql.Tx) error { segments, err := fetchSegmentsForCommit(ctx, tx, opts.StreamID) if err != nil { return Error.New("failed to fetch segments: %w", err) } finalSegments := convertToFinalSegments(segments) err = updateSegmentOffsets(ctx, tx, opts.StreamID, finalSegments) if err != nil { return Error.New("failed to update segments: %w", err) } // TODO: would we even need this when we make main index plain_offset? fixedSegmentSize := int32(0) if len(finalSegments) > 0 { fixedSegmentSize = finalSegments[0].PlainSize for i, seg := range finalSegments { if seg.Position.Part != 0 || seg.Position.Index != uint32(i) { fixedSegmentSize = -1 break } if i < len(finalSegments)-1 && seg.PlainSize != fixedSegmentSize { fixedSegmentSize = -1 break } } } var totalPlainSize, totalEncryptedSize int64 for _, seg := range finalSegments { totalPlainSize += int64(seg.PlainSize) totalEncryptedSize += int64(seg.EncryptedSize) } err = tx.QueryRow(ctx, ` UPDATE objects SET status =`+committedStatus+`, segment_count = $6, encrypted_metadata_nonce = $7, encrypted_metadata = $8, encrypted_metadata_encrypted_key = $9, total_plain_size = $10, total_encrypted_size = $11, fixed_segment_size = $12, zombie_deletion_deadline = NULL, -- TODO should we allow to override existing encryption parameters or return error if don't match with opts? encryption = CASE WHEN objects.encryption = 0 AND $13 <> 0 THEN $13 WHEN objects.encryption = 0 AND $13 = 0 THEN NULL ELSE objects.encryption END WHERE project_id = $1 AND bucket_name = $2 AND object_key = $3 AND version = $4 AND stream_id = $5 AND status = `+pendingStatus+` RETURNING created_at, expires_at, encryption; `, opts.ProjectID, []byte(opts.BucketName), []byte(opts.ObjectKey), opts.Version, opts.StreamID, len(segments), opts.EncryptedMetadataNonce, opts.EncryptedMetadata, opts.EncryptedMetadataEncryptedKey, totalPlainSize, totalEncryptedSize, fixedSegmentSize, encryptionParameters{&opts.Encryption}, ). Scan( &object.CreatedAt, &object.ExpiresAt, encryptionParameters{&object.Encryption}, ) if err != nil { if errors.Is(err, sql.ErrNoRows) { return storj.ErrObjectNotFound.Wrap(Error.New("object with specified version and pending status is missing")) } else if code := pgerrcode.FromError(err); code == pgxerrcode.NotNullViolation { // TODO maybe we should check message if 'encryption' label is there return ErrInvalidRequest.New("Encryption is missing") } return Error.New("failed to update object: %w", err) } object.StreamID = opts.StreamID object.ProjectID = opts.ProjectID object.BucketName = opts.BucketName object.ObjectKey = opts.ObjectKey object.Version = opts.Version object.Status = Committed object.SegmentCount = int32(len(segments)) object.EncryptedMetadataNonce = opts.EncryptedMetadataNonce object.EncryptedMetadata = opts.EncryptedMetadata object.EncryptedMetadataEncryptedKey = opts.EncryptedMetadataEncryptedKey object.TotalPlainSize = totalPlainSize object.TotalEncryptedSize = totalEncryptedSize object.FixedSegmentSize = fixedSegmentSize return nil }) if err != nil { return Object{}, err } return object, nil } // UpdateObjectMetadata contains arguments necessary for updating an object metadata. type UpdateObjectMetadata struct { ObjectStream EncryptedMetadata []byte EncryptedMetadataNonce []byte EncryptedMetadataEncryptedKey []byte } // UpdateObjectMetadata updates an object metadata. func (db *DB) UpdateObjectMetadata(ctx context.Context, opts UpdateObjectMetadata) (err error) { defer mon.Task()(&ctx)(&err) if err := opts.ObjectStream.Verify(); err != nil { return err } if opts.ObjectStream.Version <= 0 { return ErrInvalidRequest.New("Version invalid: %v", opts.Version) } // TODO So the issue is that during a multipart upload of an object, // uplink can update object metadata. If we add the arguments EncryptedMetadata // to CommitObject, they will need to account for them being optional. // Leading to scenarios where uplink calls update metadata, but wants to clear them // during commit object. result, err := db.db.ExecContext(ctx, ` UPDATE objects SET encrypted_metadata_nonce = $6, encrypted_metadata = $7, encrypted_metadata_encrypted_key = $8 WHERE project_id = $1 AND bucket_name = $2 AND object_key = $3 AND version = $4 AND stream_id = $5 AND status = `+committedStatus, opts.ProjectID, []byte(opts.BucketName), []byte(opts.ObjectKey), opts.Version, opts.StreamID, opts.EncryptedMetadataNonce, opts.EncryptedMetadata, opts.EncryptedMetadataEncryptedKey) if err != nil { return Error.New("unable to update object metadata: %w", err) } affected, err := result.RowsAffected() if err != nil { return Error.New("failed to get rows affected: %w", err) } if affected == 0 { return storj.ErrObjectNotFound.Wrap( Error.New("object with specified version and committed status is missing"), ) } return nil }