// exec executes the request. Any error encountered is returned; it is // the caller's responsibility to update the response. func (e *Executor) execStmts(sql string, planMaker *planner) driver.Response { var resp driver.Response stmts, err := planMaker.parser.Parse(sql, parser.Syntax(planMaker.session.Syntax)) if err != nil { // A parse error occurred: we can't determine if there were multiple // statements or only one, so just pretend there was one. resp.Results = append(resp.Results, makeResultFromError(planMaker, err)) return resp } for _, stmt := range stmts { result, err := e.execStmt(stmt, planMaker) if err != nil { result = makeResultFromError(planMaker, err) } resp.Results = append(resp.Results, result) // Release the leases once a transaction is complete. if planMaker.txn == nil { planMaker.releaseLeases(e.db) // The previous transaction finished executing some schema changes. Wait for // the schema changes to propagate to all nodes, so that once the executor // returns the new schema are live everywhere. This is not needed for // correctness but is done to make the UI experience/tests predictable. if err := e.waitForCompletedSchemaChangesToPropagate(planMaker); err != nil { log.Warning(err) } } } return resp }
// exec executes the request. Any error encountered is returned; it is // the caller's responsibility to update the response. func (e *Executor) execStmts(sql string, planMaker *planner) driver.Response { var resp driver.Response stmts, err := planMaker.parser.Parse(sql, parser.Syntax(planMaker.session.Syntax)) if err != nil { // A parse error occurred: we can't determine if there were multiple // statements or only one, so just pretend there was one. resp.Results = append(resp.Results, makeResultFromError(planMaker, err)) return resp } for _, stmt := range stmts { result, err := e.execStmt(stmt, planMaker) if err != nil { result = makeResultFromError(planMaker, err) } // Release the leases once a transaction is complete. if planMaker.txn == nil { planMaker.releaseLeases(e.db) // Execute any schema changes that were scheduled. if len(planMaker.schemaChangers) > 0 && // Disable execution in some tests. !disableSyncSchemaChangeExec { retryOpts := retry.Options{ InitialBackoff: 20 * time.Millisecond, MaxBackoff: 200 * time.Millisecond, Multiplier: 2, } for _, sc := range planMaker.schemaChangers { sc.db = e.db for r := retry.Start(retryOpts); r.Next(); { if done, err := sc.IsDone(); err != nil { log.Warning(err) break } else if done { break } if err := sc.exec(); err != nil { if err == errExistingSchemaChangeLease { // Try again. continue } // All other errors can be reported. result = makeResultFromError(planMaker, err) } break } } } } resp.Results = append(resp.Results, result) } return resp }
// ShowTables returns all the tables. func (s *Server) ShowTables(session *Session, p *parser.ShowTables, args []driver.Datum, resp *driver.Response) error { if p.Name == nil { if session.Database == "" { return errNoDatabase } p.Name = append(p.Name, session.Database) } dbID, err := s.lookupDatabase(p.Name.String()) if err != nil { return err } prefix := keys.MakeNameMetadataKey(dbID, "") sr, err := s.db.Scan(prefix, prefix.PrefixEnd(), 0) if err != nil { return err } var rows []driver.Result_Row for _, row := range sr { name := string(bytes.TrimPrefix(row.Key, prefix)) rows = append(rows, driver.Result_Row{ Values: []driver.Datum{ {StringVal: &name}, }, }) } resp.Results = []driver.Result{ { Columns: []string{"tables"}, Rows: rows, }, } return nil }
// ShowIndex returns all the indexes for a table. func (s *Server) ShowIndex(session *Session, p *parser.ShowIndex, args []driver.Datum, resp *driver.Response) error { desc, err := s.getTableDesc(session.Database, p.Table) if err != nil { return err } // TODO(pmattis): This output doesn't match up with MySQL. Should it? var rows []driver.Result_Row name := p.Table.Table() for i, index := range desc.Indexes { for j, col := range index.ColumnNames { seq := int64(j + 1) c := col rows = append(rows, driver.Result_Row{ Values: []driver.Datum{ {StringVal: &name}, {StringVal: &desc.Indexes[i].Name}, {BoolVal: &desc.Indexes[i].Unique}, {IntVal: &seq}, {StringVal: &c}, }, }) } } resp.Results = []driver.Result{ { // TODO(pmattis): This output doesn't match up with MySQL. Should it? Columns: []string{"Table", "Name", "Unique", "Seq", "Column"}, Rows: rows, }, } return nil }
// ShowColumns of a table func (s *Server) ShowColumns(session *Session, p *parser.ShowColumns, args []driver.Datum, resp *driver.Response) error { desc, err := s.getTableDesc(session.Database, p.Table) if err != nil { return err } var rows []driver.Result_Row for i, col := range desc.Columns { t := col.Type.SQLString() rows = append(rows, driver.Result_Row{ Values: []driver.Datum{ {StringVal: &desc.Columns[i].Name}, {StringVal: &t}, {BoolVal: &desc.Columns[i].Nullable}, }, }) } // TODO(pmattis): This output doesn't match up with MySQL. Should it? resp.Results = []driver.Result{ { Columns: []string{"Field", "Type", "Null"}, Rows: rows, }, } return nil }
// exec executes the request. Any error encountered is returned; it is // the caller's responsibility to update the response. func (s *Server) exec(req driver.Request) (driver.Response, error) { var resp driver.Response // Pick up current session state. planner := planner{db: s.db} if req.Session != nil { // TODO(tschottdorf) will have to validate the Session information (for // instance, whether access to the stored database is permitted). if err := gogoproto.Unmarshal(req.Session, &planner.session); err != nil { return resp, err } } stmts, err := parser.Parse(req.Sql) if err != nil { return resp, err } for _, stmt := range stmts { // Bind all the placeholder variables in the stmt to actual values. if err := parser.FillArgs(stmt, parameters(req.Params)); err != nil { return resp, err } var plan planNode if plan, err = planner.makePlan(stmt); err != nil { return resp, err } result := driver.Result{ Columns: plan.Columns(), } for plan.Next() { values := plan.Values() row := driver.Result_Row{} row.Values = make([]driver.Datum, 0, len(values)) for _, val := range values { switch vt := val.(type) { case parser.DBool: row.Values = append(row.Values, driver.Datum{BoolVal: (*bool)(&vt)}) case parser.DInt: row.Values = append(row.Values, driver.Datum{IntVal: (*int64)(&vt)}) case parser.DFloat: row.Values = append(row.Values, driver.Datum{FloatVal: (*float64)(&vt)}) case parser.DString: row.Values = append(row.Values, driver.Datum{StringVal: (*string)(&vt)}) case parser.DNull: row.Values = append(row.Values, driver.Datum{}) default: return resp, util.Errorf("unsupported datum: %T", val) } } result.Rows = append(result.Rows, row) } resp.Results = append(resp.Results, result) } // Update session state. resp.Session, err = gogoproto.Marshal(&planner.session) return resp, err }
// exec executes the request. Any error encountered is returned; it is // the caller's responsibility to update the response. func (s server) execStmts(sql string, params parameters, planMaker *planner) driver.Response { var resp driver.Response stmts, err := parser.Parse(sql, parser.Syntax(planMaker.session.Syntax)) if err != nil { // A parse error occured: we can't determine if there were multiple // statements or only one, so just pretend there was one. resp.Results = append(resp.Results, rollbackTxnAndReturnResultWithError(planMaker, err)) return resp } for _, stmt := range stmts { result, err := s.execStmt(stmt, params, planMaker) if err != nil { result = rollbackTxnAndReturnResultWithError(planMaker, err) } resp.Results = append(resp.Results, result) } return resp }
// exec executes the request. Any error encountered is returned; it is // the caller's responsibility to update the response. func (e *Executor) execStmts(sql string, params parameters, planMaker *planner) driver.Response { var resp driver.Response stmts, err := parser.Parse(sql, parser.Syntax(planMaker.session.Syntax)) if err != nil { // A parse error occurred: we can't determine if there were multiple // statements or only one, so just pretend there was one. resp.Results = append(resp.Results, makeResultFromError(planMaker, err)) return resp } for _, stmt := range stmts { result, err := e.execStmt(stmt, params, planMaker) if err != nil { result = makeResultFromError(planMaker, err) } resp.Results = append(resp.Results, result) // TODO(pmattis): Is this the correct time to be releasing leases acquired // during execution of the statement? // // TODO(pmattis): Need to record the leases used by a transaction within // the transaction state and restore it when the transaction is restored. planMaker.releaseLeases(e.db) } return resp }
// ShowDatabases returns all the databases. func (s *Server) ShowDatabases(session *Session, p *parser.ShowDatabases, args []driver.Datum, resp *driver.Response) error { prefix := keys.MakeNameMetadataKey(structured.RootNamespaceID, "") sr, err := s.db.Scan(prefix, prefix.PrefixEnd(), 0) if err != nil { return err } var rows []driver.Result_Row for _, row := range sr { name := string(bytes.TrimPrefix(row.Key, prefix)) rows = append(rows, driver.Result_Row{ Values: []driver.Datum{ {StringVal: &name}, }, }) } resp.Results = []driver.Result{ { Columns: []string{"Database"}, Rows: rows, }, } return nil }
// Select selects rows from a single table. func (s *Server) Select(session *Session, p *parser.Select, args []driver.Datum, resp *driver.Response) error { if len(p.Exprs) != 1 { return fmt.Errorf("TODO(pmattis): unsupported select exprs: %s", p.Exprs) } if _, ok := p.Exprs[0].(*parser.StarExpr); !ok { return fmt.Errorf("TODO(pmattis): unsupported select expr: %s", p.Exprs) } if len(p.From) != 1 { return fmt.Errorf("TODO(pmattis): unsupported from: %s", p.From) } var desc *structured.TableDescriptor { ate, ok := p.From[0].(*parser.AliasedTableExpr) if !ok { return fmt.Errorf("TODO(pmattis): unsupported from: %s", p.From) } table, ok := ate.Expr.(parser.QualifiedName) if !ok { return fmt.Errorf("TODO(pmattis): unsupported from: %s", p.From) } var err error desc, err = s.getTableDesc(session.Database, table) if err != nil { return err } } // Retrieve all of the keys that start with our index key prefix. startKey := proto.Key(encodeIndexKeyPrefix(desc.ID, desc.Indexes[0].ID)) endKey := startKey.PrefixEnd() sr, err := s.db.Scan(startKey, endKey, 0) if err != nil { return err } // All of the columns for a particular row will be grouped together. We loop // over the returned key/value pairs and decode the key to extract the // columns encoded within the key and the column ID. We use the column ID to // lookup the column and decode the value. All of these values go into a map // keyed by column name. When the index key changes we output a row // containing the current values. // // The TODOs here are too numerous to list. This is only performing a full // table scan using the primary key. var rows []driver.Result_Row var primaryKey []byte vals := valMap{} l := len(sr) // Iterate through the scan result set. We decide at the beginning of each // new row whether the previous row is to be output. To deal with the very // last one, the loop below goes an extra iteration (i==l). for i := 0; ; i++ { var kv client.KeyValue if i < l { kv = sr[i] } if primaryKey != nil && (i == l || !bytes.HasPrefix(kv.Key, primaryKey)) { // The current key belongs to a new row. Decide whether the last // row is to be output. if output, err := shouldOutputRow(p.Where, vals); err != nil { return err } else if output { rows = append(rows, outputRow(desc.Columns, vals)) } vals = valMap{} } if i >= l { break } remaining, err := decodeIndexKey(desc, desc.Indexes[0], vals, kv.Key) if err != nil { return err } primaryKey = []byte(kv.Key[:len(kv.Key)-len(remaining)]) _, colID := encoding.DecodeUvarint(remaining) if err != nil { return err } col, err := desc.FindColumnByID(uint32(colID)) if err != nil { return err } vals[col.Name] = unmarshalValue(*col, kv) if log.V(2) { log.Infof("Scan %q -> %v", kv.Key, vals[col.Name]) } } resp.Results = []driver.Result{ { Columns: make([]string, len(desc.Columns)), Rows: rows, }, } for i, col := range desc.Columns { resp.Results[0].Columns[i] = col.Name } return nil }