Example #1
0
func protoFromRow(r ResultRow) driver.Response_Result_Rows_Row {
	rr := driver.Response_Result_Rows_Row{
		Values: make([]driver.Datum, 0, len(r.Values)),
	}
	for _, v := range r.Values {
		rr.Values = append(rr.Values, protoFromDatum(v))
	}
	return rr
}
Example #2
0
func (e *Executor) execStmt(stmt parser.Statement, planMaker *planner) (driver.Response_Result, error) {
	var result driver.Response_Result
	switch stmt.(type) {
	case *parser.BeginTransaction:
		if planMaker.txn != nil {
			return result, errTransactionInProgress
		}
		// Start a transaction here and not in planMaker to prevent begin
		// transaction from being called within an auto-transaction below.
		planMaker.setTxn(client.NewTxn(e.db), time.Now())
		planMaker.txn.SetDebugName("sql", 0)
	case *parser.CommitTransaction, *parser.RollbackTransaction:
		if planMaker.txn == nil {
			return result, errNoTransactionInProgress
		} else if planMaker.txn.Proto.Status == roachpb.ABORTED {
			// Reset to allow starting a new transaction.
			planMaker.resetTxn()
			return result, nil
		}
	case *parser.SetTransaction:
		if planMaker.txn == nil {
			return result, errNoTransactionInProgress
		}
	default:
		if planMaker.txn != nil && planMaker.txn.Proto.Status == roachpb.ABORTED {
			return result, errTransactionAborted
		}
	}

	// Bind all the placeholder variables in the stmt to actual values.
	if err := parser.FillArgs(stmt, &planMaker.params); err != nil {
		return result, err
	}

	// Create a function which both makes and executes the plan, populating
	// result.
	//
	// TODO(pmattis): Should this be a separate function? Perhaps we should move
	// some of the common code back out into execStmts and have execStmt contain
	// only the body of this closure.
	f := func(timestamp time.Time) error {
		planMaker.evalCtx.StmtTimestamp = parser.DTimestamp{Time: timestamp}
		plan, err := planMaker.makePlan(stmt)
		if err != nil {
			return err
		}

		switch stmt.StatementType() {
		case parser.DDL:
			result.Union = &driver.Response_Result_DDL_{DDL: &driver.Response_Result_DDL{}}
		case parser.RowsAffected:
			resultRowsAffected := driver.Response_Result_RowsAffected{}
			result.Union = &resultRowsAffected
			for plan.Next() {
				resultRowsAffected.RowsAffected++
			}

		case parser.Rows:
			var resultRows driver.Response_Result_Rows
			for _, column := range plan.Columns() {
				datum, err := makeDriverDatum(column.typ)
				if err != nil {
					return err
				}

				resultRows.Columns = append(resultRows.Columns, &driver.Response_Result_Rows_Column{
					Name: column.name,
					Typ:  datum,
				})
			}

			result.Union = &driver.Response_Result_Rows_{
				Rows: &resultRows,
			}
			for plan.Next() {
				values := plan.Values()
				row := driver.Response_Result_Rows_Row{Values: make([]driver.Datum, 0, len(values))}
				for _, val := range values {
					datum, err := makeDriverDatum(val)
					if err != nil {
						return err
					}
					row.Values = append(row.Values, datum)
				}
				resultRows.Rows = append(resultRows.Rows, row)
			}
		}

		return plan.Err()
	}

	// If there is a pending transaction.
	if planMaker.txn != nil {
		err := f(time.Now())
		return result, err
	}

	if testingWaitForMetadata {
		// We might need to verify metadata. Lock the system config so that
		// no gossip updates sneak in under us.
		// This lock does not change semantics. Even outside of tests, the
		// planner is initialized with a static systemConfig, so locking
		// the Executor's systemConfig cannot change the semantics of the
		// SQL operation being performed under lock.
		//
		// The case of a multi-request transaction is not handled here,
		// because those transactions outlive the verification callback.
		// This can be addressed when we move to a connection-oriented
		// protocol and server-side transactions.
		e.systemConfigCond.L.Lock()
		defer e.systemConfigCond.L.Unlock()
	}

	// No transaction. Run the command as a retryable block in an
	// auto-transaction.
	err := e.db.Txn(func(txn *client.Txn) error {
		timestamp := time.Now()
		planMaker.setTxn(txn, timestamp)
		err := f(timestamp)
		planMaker.resetTxn()
		return err
	})

	if testingWaitForMetadata && err == nil {
		if verify := planMaker.testingVerifyMetadata; verify != nil {
			// In the case of a multi-statement request, avoid reusing this
			// callback.
			planMaker.testingVerifyMetadata = nil
			for i := 0; ; i++ {
				if verify(e.systemConfig) != nil {
					e.systemConfigCond.Wait()
				} else {
					if i == 0 {
						err = util.Errorf("expected %q to require a gossip update, but it did not", stmt)
					} else if i > 1 {
						log.Infof("%q unexpectedly required %d gossip updates", stmt, i)
					}
					break
				}
			}
		}
	}

	return result, err
}
Example #3
0
func (e *Executor) execStmt(stmt parser.Statement, params parameters, planMaker *planner) (driver.Response_Result, error) {
	var result driver.Response_Result
	switch stmt.(type) {
	case *parser.BeginTransaction:
		if planMaker.txn != nil {
			return result, errTransactionInProgress
		}
		// Start a transaction here and not in planMaker to prevent begin
		// transaction from being called within an auto-transaction below.
		planMaker.setTxn(client.NewTxn(e.db), time.Now())
		planMaker.txn.SetDebugName("sql", 0)
	case *parser.CommitTransaction, *parser.RollbackTransaction:
		if planMaker.txn == nil {
			return result, errNoTransactionInProgress
		} else if planMaker.txn.Proto.Status == roachpb.ABORTED {
			// Reset to allow starting a new transaction.
			planMaker.resetTxn()
			return result, nil
		}
	case *parser.SetTransaction:
		if planMaker.txn == nil {
			return result, errNoTransactionInProgress
		}
	default:
		if planMaker.txn != nil && planMaker.txn.Proto.Status == roachpb.ABORTED {
			return result, errTransactionAborted
		}
	}

	// Bind all the placeholder variables in the stmt to actual values.
	if err := parser.FillArgs(stmt, params); err != nil {
		return result, err
	}

	// Create a function which both makes and executes the plan, populating
	// result.
	//
	// TODO(pmattis): Should this be a separate function? Perhaps we should move
	// some of the common code back out into execStmts and have execStmt contain
	// only the body of this closure.
	f := func(timestamp time.Time) error {
		planMaker.evalCtx.StmtTimestamp = parser.DTimestamp{Time: timestamp}
		plan, err := planMaker.makePlan(stmt)
		if err != nil {
			return err
		}

		switch stmt.StatementType() {
		case parser.DDL:
			result.Union = &driver.Response_Result_DDL_{DDL: &driver.Response_Result_DDL{}}
		case parser.RowsAffected:
			resultRowsAffected := driver.Response_Result_RowsAffected{}
			result.Union = &resultRowsAffected
			for plan.Next() {
				resultRowsAffected.RowsAffected++
			}

		case parser.Rows:
			resultRows := &driver.Response_Result_Rows{
				Columns: plan.Columns(),
			}

			result.Union = &driver.Response_Result_Rows_{
				Rows: resultRows,
			}
			for plan.Next() {
				values := plan.Values()
				row := driver.Response_Result_Rows_Row{Values: make([]driver.Datum, 0, len(values))}
				for _, val := range values {
					if val == parser.DNull {
						row.Values = append(row.Values, driver.Datum{})
						continue
					}

					switch vt := val.(type) {
					case parser.DBool:
						row.Values = append(row.Values, driver.Datum{
							Payload: &driver.Datum_BoolVal{BoolVal: bool(vt)},
						})
					case parser.DInt:
						row.Values = append(row.Values, driver.Datum{
							Payload: &driver.Datum_IntVal{IntVal: int64(vt)},
						})
					case parser.DFloat:
						row.Values = append(row.Values, driver.Datum{
							Payload: &driver.Datum_FloatVal{FloatVal: float64(vt)},
						})
					case parser.DBytes:
						row.Values = append(row.Values, driver.Datum{
							Payload: &driver.Datum_BytesVal{BytesVal: []byte(vt)},
						})
					case parser.DString:
						row.Values = append(row.Values, driver.Datum{
							Payload: &driver.Datum_StringVal{StringVal: string(vt)},
						})
					case parser.DDate:
						row.Values = append(row.Values, driver.Datum{
							Payload: &driver.Datum_DateVal{DateVal: int64(vt)},
						})
					case parser.DTimestamp:
						wireTimestamp := driver.Timestamp(vt.Time)
						row.Values = append(row.Values, driver.Datum{
							Payload: &driver.Datum_TimeVal{
								TimeVal: &wireTimestamp,
							},
						})
					case parser.DInterval:
						row.Values = append(row.Values, driver.Datum{
							Payload: &driver.Datum_IntervalVal{IntervalVal: vt.Nanoseconds()},
						})
					default:
						return fmt.Errorf("unsupported result type: %s", val.Type())
					}
				}
				resultRows.Rows = append(resultRows.Rows, row)
			}
		}

		return plan.Err()
	}

	// If there is a pending transaction.
	if planMaker.txn != nil {
		err := f(time.Now())
		return result, err
	}

	// No transaction. Run the command as a retryable block in an
	// auto-transaction.
	err := e.db.Txn(func(txn *client.Txn) error {
		timestamp := time.Now()
		planMaker.setTxn(txn, timestamp)
		err := f(timestamp)
		planMaker.resetTxn()
		return err
	})
	return result, err
}