package sqlds import ( "database/sql" "fmt" ds "github.com/ipfs/go-datastore" dsq "github.com/ipfs/go-datastore/query" ) // Queries generates SQL queries for datastore operations. type Queries interface { Delete() string Exists() string Get() string Put() string Query() string Prefix() string Limit() string Offset() string GetSize() string } // Datastore is a SQL backed datastore. type Datastore struct { db *sql.DB queries Queries } // NewDatastore returns a new SQL datastore. func NewDatastore(db *sql.DB, queries Queries) *Datastore { return &Datastore{db: db, queries: queries} } // Close closes the underying SQL database. func (d *Datastore) Close() error { return d.db.Close() } // Delete removes a row from the SQL database by the given key. func (d *Datastore) Delete(key ds.Key) error { _, err := d.db.Exec(d.queries.Delete(), key.String()) if err != nil { return err } return nil } // Get retrieves a value from the SQL database by the given key. func (d *Datastore) Get(key ds.Key) (value []byte, err error) { row := d.db.QueryRow(d.queries.Get(), key.String()) var out []byte switch err := row.Scan(&out); err { case sql.ErrNoRows: return nil, ds.ErrNotFound case nil: return out, nil default: return nil, err } } // Has determines if a value for the given key exists in the SQL database. func (d *Datastore) Has(key ds.Key) (exists bool, err error) { row := d.db.QueryRow(d.queries.Exists(), key.String()) switch err := row.Scan(&exists); err { case sql.ErrNoRows: return exists, nil case nil: return exists, nil default: return exists, err } } // Put "upserts" a row into the SQL database. func (d *Datastore) Put(key ds.Key, value []byte) error { _, err := d.db.Exec(d.queries.Put(), key.String(), value) if err != nil { return err } return nil } // Query returns multiple rows from the SQL database based on the passed query parameters. func (d *Datastore) Query(q dsq.Query) (dsq.Results, error) { raw, err := d.rawQuery(q) if err != nil { return nil, err } for _, f := range q.Filters { raw = dsq.NaiveFilter(raw, f) } raw = dsq.NaiveOrder(raw, q.Orders...) // if we have filters or orders, offset and limit won't have been applied in the query if len(q.Filters) > 0 || len(q.Orders) > 0 { if q.Offset != 0 { raw = dsq.NaiveOffset(raw, q.Offset) } if q.Limit != 0 { raw = dsq.NaiveLimit(raw, q.Limit) } } return raw, nil } func (d *Datastore) rawQuery(q dsq.Query) (dsq.Results, error) { var rows *sql.Rows var err error rows, err = queryWithParams(d, q) if err != nil { return nil, err } it := dsq.Iterator{ Next: func() (dsq.Result, bool) { if !rows.Next() { return dsq.Result{}, false } var key string var out []byte err := rows.Scan(&key, &out) if err != nil { return dsq.Result{Error: err}, false } entry := dsq.Entry{Key: key} if !q.KeysOnly { entry.Value = out } if q.ReturnsSizes { entry.Size = len(out) } return dsq.Result{Entry: entry}, true }, Close: func() error { return rows.Close() }, } return dsq.ResultsFromIterator(q, it), nil } // Sync is noop for SQL databases. func (d *Datastore) Sync(key ds.Key) error { return nil } // GetSize determines the size in bytes of the value for a given key. func (d *Datastore) GetSize(key ds.Key) (int, error) { row := d.db.QueryRow(d.queries.GetSize(), key.String()) var size int switch err := row.Scan(&size); err { case sql.ErrNoRows: return -1, ds.ErrNotFound case nil: return size, nil default: return 0, err } } // queryWithParams applies prefix, limit, and offset params in pg query func queryWithParams(d *Datastore, q dsq.Query) (*sql.Rows, error) { var qNew = d.queries.Query() if q.Prefix != "" { // normalize prefix := ds.NewKey(q.Prefix).String() if prefix != "/" { qNew += fmt.Sprintf(d.queries.Prefix(), prefix+"/") } } // only apply limit and offset if we do not have to naive filter/order the results if len(q.Filters) == 0 && len(q.Orders) == 0 { if q.Limit != 0 { qNew += fmt.Sprintf(d.queries.Limit(), q.Limit) } if q.Offset != 0 { qNew += fmt.Sprintf(d.queries.Offset(), q.Offset) } } return d.db.Query(qNew) } var _ ds.Datastore = (*Datastore)(nil)