// SetUIData is an endpoint that stores the given key/value pairs in the // system.ui table. See GetUIData for more details on semantics. func (s *adminServer) SetUIData(ctx context.Context, req *serverpb.SetUIDataRequest) (*serverpb.SetUIDataResponse, error) { if len(req.KeyValues) == 0 { return nil, grpc.Errorf(codes.InvalidArgument, "KeyValues cannot be empty") } args := sql.SessionArgs{User: s.getUser(req)} session := sql.NewSession(ctx, args, s.server.sqlExecutor, nil) for key, val := range req.KeyValues { // Do an upsert of the key. We update each key in a separate transaction to // avoid long-running transactions and possible deadlocks. br := s.server.sqlExecutor.ExecuteStatements(session, "BEGIN;", nil) if err := s.checkQueryResults(br.ResultList, 1); err != nil { return nil, s.serverError(err) } // See if the key already exists. resp, err := s.getUIData(session, s.getUser(req), []string{key}) if err != nil { return nil, s.serverError(err) } _, alreadyExists := resp.KeyValues[key] // INSERT or UPDATE as appropriate. if alreadyExists { query := "UPDATE system.ui SET value = $1, lastUpdated = NOW() WHERE key = $2; COMMIT;" qargs := parser.NewPlaceholderInfo() qargs.SetValue(`1`, parser.NewDString(string(val))) qargs.SetValue(`2`, parser.NewDString(key)) r := s.server.sqlExecutor.ExecuteStatements(session, query, qargs) if err := s.checkQueryResults(r.ResultList, 2); err != nil { return nil, s.serverError(err) } if a, e := r.ResultList[0].RowsAffected, 1; a != e { return nil, s.serverErrorf("rows affected %d != expected %d", a, e) } } else { query := "INSERT INTO system.ui (key, value, lastUpdated) VALUES ($1, $2, NOW()); COMMIT;" qargs := parser.NewPlaceholderInfo() qargs.SetValue(`1`, parser.NewDString(key)) qargs.SetValue(`2`, parser.NewDBytes(parser.DBytes(val))) r := s.server.sqlExecutor.ExecuteStatements(session, query, qargs) if err := s.checkQueryResults(r.ResultList, 2); err != nil { return nil, s.serverError(err) } if a, e := r.ResultList[0].RowsAffected, 1; a != e { return nil, s.serverErrorf("rows affected %d != expected %d", a, e) } } } return &serverpb.SetUIDataResponse{}, nil }
// queryNamespaceID queries for the ID of the namespace with the given name and // parent ID. func (s *adminServer) queryNamespaceID( session *sql.Session, parentID sqlbase.ID, name string, ) (sqlbase.ID, error) { const query = `SELECT id FROM system.namespace WHERE parentID = $1 AND name = $2` params := parser.NewPlaceholderInfo() params.SetValue(`1`, parser.NewDInt(parser.DInt(parentID))) params.SetValue(`2`, parser.NewDString(name)) r := s.server.sqlExecutor.ExecuteStatements(session, query, params) if err := s.checkQueryResults(r.ResultList, 1); err != nil { return 0, err } result := r.ResultList[0] if len(result.Rows) == 0 { return 0, errors.Errorf("namespace %s with ParentID %d not found", name, parentID) } var id int64 scanner := resultScanner{} err := scanner.ScanIndex(result.Rows[0], 0, &id) if err != nil { return 0, err } return sqlbase.ID(id), nil }
// queryZone retrieves the specific ZoneConfig associated with the supplied ID, // if it exists. func (s *adminServer) queryZone( session *sql.Session, id sqlbase.ID, ) (config.ZoneConfig, bool, error) { const query = `SELECT config FROM system.zones WHERE id = $1` params := parser.NewPlaceholderInfo() params.SetValue(`1`, parser.NewDInt(parser.DInt(id))) r := s.server.sqlExecutor.ExecuteStatements(session, query, params) if err := s.checkQueryResults(r.ResultList, 1); err != nil { return config.ZoneConfig{}, false, err } result := r.ResultList[0] if len(result.Rows) == 0 { return config.ZoneConfig{}, false, nil } var zoneBytes []byte scanner := resultScanner{} err := scanner.ScanIndex(result.Rows[0], 0, &zoneBytes) if err != nil { return config.ZoneConfig{}, false, err } var zone config.ZoneConfig if err := zone.Unmarshal(zoneBytes); err != nil { return config.ZoneConfig{}, false, err } return zone, true, nil }
func TestAdminAPITableDetailsZone(t *testing.T) { defer leaktest.AfterTest(t)() s, _, _ := serverutils.StartServer(t, base.TestServerArgs{}) defer s.Stopper().Stop() ts := s.(*TestServer) // Create database and table. session := sql.NewSession(sql.SessionArgs{User: security.RootUser}, ts.sqlExecutor, nil) setupQueries := []string{ "CREATE DATABASE test", "CREATE TABLE test.tbl (val STRING)", } for _, q := range setupQueries { res := ts.sqlExecutor.ExecuteStatements(context.Background(), session, q, nil) if res.ResultList[0].Err != nil { t.Fatalf("error executing '%s': %s", q, res.ResultList[0].Err) } } // Function to verify the zone for test.tbl as returned by the Admin API. verifyZone := func(expectedZone config.ZoneConfig, expectedLevel serverpb.ZoneConfigurationLevel) { var resp serverpb.TableDetailsResponse if err := apiGet(s, "databases/test/tables/tbl", &resp); err != nil { t.Fatal(err) } if a, e := &resp.ZoneConfig, &expectedZone; !proto.Equal(a, e) { t.Errorf("actual zone config %v did not match expected value %v", a, e) } if a, e := resp.ZoneConfigLevel, expectedLevel; a != e { t.Errorf("actual ZoneConfigurationLevel %s did not match expected value %s", a, e) } if t.Failed() { t.FailNow() } } // Function to store a zone config for a given object ID. setZone := func(zoneCfg config.ZoneConfig, id sqlbase.ID) { zoneBytes, err := zoneCfg.Marshal() if err != nil { t.Fatal(err) } const query = `INSERT INTO system.zones VALUES($1, $2)` params := parser.NewPlaceholderInfo() params.SetValue(`1`, parser.NewDInt(parser.DInt(id))) params.SetValue(`2`, parser.NewDBytes(parser.DBytes(zoneBytes))) res := ts.sqlExecutor.ExecuteStatements(context.Background(), session, query, params) if res.ResultList[0].Err != nil { t.Fatalf("error executing '%s': %s", query, res.ResultList[0].Err) } } // Verify zone matches cluster default. verifyZone(config.DefaultZoneConfig(), serverpb.ZoneConfigurationLevel_CLUSTER) // Get ID path for table. This will be an array of three IDs, containing the ID of the root namespace, // the database, and the table (in that order). idPath, err := ts.admin.queryDescriptorIDPath(context.Background(), session, []string{"test", "tbl"}) if err != nil { t.Fatal(err) } // Apply zone configuration to database and check again. dbZone := config.ZoneConfig{ RangeMinBytes: 456, } setZone(dbZone, idPath[1]) verifyZone(dbZone, serverpb.ZoneConfigurationLevel_DATABASE) // Apply zone configuration to table and check again. tblZone := config.ZoneConfig{ RangeMinBytes: 789, } setZone(tblZone, idPath[2]) verifyZone(tblZone, serverpb.ZoneConfigurationLevel_TABLE) }