package sqlite import ( "context" "database/sql" "fmt" "strings" "github.com/pkg/errors" "github.com/usememos/memos/common/util" "github.com/usememos/memos/store" ) func (d *DB) CreateMemo(ctx context.Context, create *store.Memo) (*store.Memo, error) { fields := []string{"`creator_id`", "`content`", "`visibility`"} placeholder := []string{"?", "?", "?"} args := []any{create.CreatorID, create.Content, create.Visibility} if create.ID != 0 { fields = append(fields, "`id`") placeholder = append(placeholder, "?") args = append(args, create.ID) } if create.CreatedTs != 0 { fields = append(fields, "`created_ts`") placeholder = append(placeholder, "?") args = append(args, create.CreatedTs) } if create.UpdatedTs != 0 { fields = append(fields, "`updated_ts`") placeholder = append(placeholder, "?") args = append(args, create.UpdatedTs) } if create.RowStatus != "" { fields = append(fields, "`row_status`") placeholder = append(placeholder, "?") args = append(args, create.RowStatus) } stmt := "INSERT INTO memo (" + strings.Join(fields, ", ") + ") VALUES (" + strings.Join(placeholder, ", ") + ") RETURNING `id`, `created_ts`, `updated_ts`, `row_status`" if err := d.db.QueryRowContext(ctx, stmt, args...).Scan( &create.ID, &create.CreatedTs, &create.UpdatedTs, &create.RowStatus, ); err != nil { return nil, err } return create, nil } func (d *DB) ListMemos(ctx context.Context, find *store.FindMemo) ([]*store.Memo, error) { where, args := []string{"1 = 1"}, []any{} if v := find.ID; v != nil { where, args = append(where, "memo.id = ?"), append(args, *v) } if v := find.CreatorID; v != nil { where, args = append(where, "memo.creator_id = ?"), append(args, *v) } if v := find.RowStatus; v != nil { where, args = append(where, "memo.row_status = ?"), append(args, *v) } if v := find.CreatedTsBefore; v != nil { where, args = append(where, "memo.created_ts < ?"), append(args, *v) } if v := find.CreatedTsAfter; v != nil { where, args = append(where, "memo.created_ts > ?"), append(args, *v) } if v := find.ContentSearch; len(v) != 0 { for _, s := range v { where, args = append(where, "memo.content LIKE ?"), append(args, "%"+s+"%") } } if v := find.VisibilityList; len(v) != 0 { list := []string{} for _, visibility := range v { list = append(list, fmt.Sprintf("$%d", len(args)+1)) args = append(args, visibility) } where = append(where, fmt.Sprintf("memo.visibility in (%s)", strings.Join(list, ","))) } if v := find.Pinned; v != nil { where = append(where, "memo_organizer.pinned = 1") } if v := find.HasParent; v != nil { if *v { where = append(where, "parent_id IS NOT NULL") } else { where = append(where, "parent_id IS NULL") } } orders := []string{"pinned DESC"} if find.OrderByUpdatedTs { orders = append(orders, "updated_ts DESC") } else { orders = append(orders, "created_ts DESC") } orders = append(orders, "id DESC") fields := []string{ `memo.id AS id,`, `memo.creator_id AS creator_id,`, `memo.created_ts AS created_ts,`, `memo.updated_ts AS updated_ts,`, `memo.row_status AS row_status,`, `memo.visibility AS visibility,`, } if !find.ExcludeContent { fields = append(fields, `memo.content AS content,`) } query := ` SELECT ` + strings.Join(fields, "\n") + ` CASE WHEN mo.pinned = 1 THEN 1 ELSE 0 END AS pinned, ( SELECT related_memo_id FROM memo_relation WHERE memo_relation.memo_id = memo.id AND memo_relation.type = 'COMMENT' LIMIT 1 ) AS parent_id, GROUP_CONCAT(resource.id) AS resource_id_list, ( SELECT GROUP_CONCAT(memo_relation.memo_id || ':' || memo_relation.related_memo_id || ':' || memo_relation.type) FROM memo_relation WHERE memo_relation.memo_id = memo.id OR memo_relation.related_memo_id = memo.id ) AS relation_list FROM memo LEFT JOIN memo_organizer mo ON memo.id = mo.memo_id LEFT JOIN resource ON memo.id = resource.memo_id WHERE ` + strings.Join(where, " AND ") + ` GROUP BY memo.id ORDER BY ` + strings.Join(orders, ", ") if find.Limit != nil { query = fmt.Sprintf("%s LIMIT %d", query, *find.Limit) if find.Offset != nil { query = fmt.Sprintf("%s OFFSET %d", query, *find.Offset) } } rows, err := d.db.QueryContext(ctx, query, args...) if err != nil { return nil, err } defer rows.Close() list := make([]*store.Memo, 0) for rows.Next() { var memo store.Memo var memoResourceIDList sql.NullString var memoRelationList sql.NullString dests := []any{ &memo.ID, &memo.CreatorID, &memo.CreatedTs, &memo.UpdatedTs, &memo.RowStatus, &memo.Visibility, } if !find.ExcludeContent { dests = append(dests, &memo.Content) } dests = append(dests, &memo.Pinned, &memo.ParentID, &memoResourceIDList, &memoRelationList) if err := rows.Scan(dests...); err != nil { return nil, err } if memoResourceIDList.Valid { idStringList := strings.Split(memoResourceIDList.String, ",") memo.ResourceIDList = make([]int32, 0, len(idStringList)) for _, idString := range idStringList { id, err := util.ConvertStringToInt32(idString) if err != nil { return nil, err } memo.ResourceIDList = append(memo.ResourceIDList, id) } } if memoRelationList.Valid { memo.RelationList = make([]*store.MemoRelation, 0) relatedMemoTypeList := strings.Split(memoRelationList.String, ",") for _, relatedMemoType := range relatedMemoTypeList { relatedMemoTypeList := strings.Split(relatedMemoType, ":") if len(relatedMemoTypeList) != 3 { return nil, errors.New("invalid relation format") } memoID, err := util.ConvertStringToInt32(relatedMemoTypeList[0]) if err != nil { return nil, err } relatedMemoID, err := util.ConvertStringToInt32(relatedMemoTypeList[1]) if err != nil { return nil, err } relationType := store.MemoRelationType(relatedMemoTypeList[2]) memo.RelationList = append(memo.RelationList, &store.MemoRelation{ MemoID: memoID, RelatedMemoID: relatedMemoID, Type: relationType, }) } } list = append(list, &memo) } if err := rows.Err(); err != nil { return nil, err } return list, nil } func (d *DB) UpdateMemo(ctx context.Context, update *store.UpdateMemo) error { set, args := []string{}, []any{} if v := update.CreatedTs; v != nil { set, args = append(set, "created_ts = ?"), append(args, *v) } if v := update.UpdatedTs; v != nil { set, args = append(set, "updated_ts = ?"), append(args, *v) } if v := update.RowStatus; v != nil { set, args = append(set, "row_status = ?"), append(args, *v) } if v := update.Content; v != nil { set, args = append(set, "content = ?"), append(args, *v) } if v := update.Visibility; v != nil { set, args = append(set, "visibility = ?"), append(args, *v) } args = append(args, update.ID) stmt := ` UPDATE memo SET ` + strings.Join(set, ", ") + ` WHERE id = ? ` if _, err := d.db.ExecContext(ctx, stmt, args...); err != nil { return err } return nil } func (d *DB) DeleteMemo(ctx context.Context, delete *store.DeleteMemo) error { where, args := []string{"id = ?"}, []any{delete.ID} stmt := `DELETE FROM memo WHERE ` + strings.Join(where, " AND ") result, err := d.db.ExecContext(ctx, stmt, args...) if err != nil { return err } if _, err := result.RowsAffected(); err != nil { return err } if err := d.Vacuum(ctx); err != nil { // Prevent linter warning. return err } return nil } func (d *DB) FindMemosVisibilityList(ctx context.Context, memoIDs []int32) ([]store.Visibility, error) { args := make([]any, 0, len(memoIDs)) list := make([]string, 0, len(memoIDs)) for _, memoID := range memoIDs { args = append(args, memoID) list = append(list, "?") } where := fmt.Sprintf("id in (%s)", strings.Join(list, ",")) query := `SELECT DISTINCT(visibility) FROM memo WHERE ` + where rows, err := d.db.QueryContext(ctx, query, args...) if err != nil { return nil, err } defer rows.Close() visibilityList := make([]store.Visibility, 0) for rows.Next() { var visibility store.Visibility if err := rows.Scan(&visibility); err != nil { return nil, err } visibilityList = append(visibilityList, visibility) } if err := rows.Err(); err != nil { return nil, err } return visibilityList, nil } func vacuumMemo(ctx context.Context, tx *sql.Tx) error { stmt := ` DELETE FROM memo WHERE creator_id NOT IN ( SELECT id FROM user )` _, err := tx.ExecContext(ctx, stmt) if err != nil { return err } return nil }