Esempio n. 1
0
// populateExplain invokes explain() with a makeRow method
// which populates a valuesNode.
func (e *explainer) populateExplain(v *valuesNode, plan planNode) error {
	e.makeRow = func(level int, name, field, description string, plan planNode) {
		if e.err != nil {
			return
		}

		row := parser.DTuple{
			parser.NewDInt(parser.DInt(level)),
			parser.NewDString(name),
			parser.NewDString(field),
			parser.NewDString(description),
		}
		if e.showMetadata {
			if plan != nil {
				row = append(row, parser.NewDString(formatColumns(plan.Columns(), e.showTypes)))
				row = append(row, parser.NewDString(plan.Ordering().AsString(plan.Columns())))
			} else {
				row = append(row, emptyString, emptyString)
			}
		}
		if _, err := v.rows.AddRow(row); err != nil {
			e.err = err
		}
	}

	e.err = nil
	e.explain(plan)
	return e.err
}
Esempio n. 2
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// 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 := s.NewSessionForRPC(ctx, args)
	defer session.Finish(s.server.sqlExecutor)

	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)
		defer br.Close()
		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)
			defer r.Close()
			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)
			defer r.Close()
			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
}
Esempio n. 3
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// ShowGrants returns grant details for the specified objects and users.
// TODO(marc): implement no targets (meaning full scan).
// Privileges: None.
//   Notes: postgres does not have a SHOW GRANTS statement.
//          mysql only returns the user's privileges.
func (p *planner) ShowGrants(n *parser.ShowGrants) (planNode, error) {
	if n.Targets == nil {
		return nil, errors.Errorf("TODO(marc): implement SHOW GRANT with no targets")
	}
	descriptors, err := p.getDescriptorsFromTargetList(*n.Targets)
	if err != nil {
		return nil, err
	}

	objectType := "Database"
	if n.Targets.Tables != nil {
		objectType = "Table"
	}

	columns := ResultColumns{
		{Name: objectType, Typ: parser.TypeString},
		{Name: "User", Typ: parser.TypeString},
		{Name: "Privileges", Typ: parser.TypeString},
	}

	return &delayedNode{
		p:       p,
		name:    "SHOW GRANTS",
		columns: columns,
		constructor: func(p *planner) (planNode, error) {
			v := p.newContainerValuesNode(columns, 0)
			var wantedUsers map[string]struct{}
			if len(n.Grantees) != 0 {
				wantedUsers = make(map[string]struct{})
			}
			for _, u := range n.Grantees {
				wantedUsers[string(u)] = struct{}{}
			}

			for _, descriptor := range descriptors {
				userPrivileges := descriptor.GetPrivileges().Show()
				for _, userPriv := range userPrivileges {
					if wantedUsers != nil {
						if _, ok := wantedUsers[userPriv.User]; !ok {
							continue
						}
					}
					newRow := parser.DTuple{
						parser.NewDString(descriptor.GetName()),
						parser.NewDString(userPriv.User),
						parser.NewDString(userPriv.PrivilegeString()),
					}
					if err := v.rows.AddRow(newRow); err != nil {
						v.rows.Close()
						return nil, err
					}
				}
			}
			return v, nil
		},
	}, nil
}
Esempio n. 4
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// Show a session-local variable name.
func (p *planner) Show(n *parser.Show) (planNode, error) {
	name := strings.ToUpper(n.Name)

	var columns ResultColumns

	switch name {
	case `ALL`:
		columns = ResultColumns{
			{Name: "Variable", Typ: parser.TypeString},
			{Name: "Value", Typ: parser.TypeString},
		}
	default:
		if _, ok := varGen[name]; !ok {
			return nil, fmt.Errorf("unknown variable: %q", name)
		}
		columns = ResultColumns{{Name: name, Typ: parser.TypeString}}
	}

	return &delayedNode{
		p:       p,
		name:    "SHOW " + name,
		columns: columns,
		constructor: func(p *planner) (planNode, error) {
			v := p.newContainerValuesNode(columns, 0)

			switch name {
			case `ALL`:
				for _, vName := range varNames {
					gen := varGen[vName]
					value := gen(p)
					if _, err := v.rows.AddRow(
						parser.DTuple{parser.NewDString(vName), parser.NewDString(value)},
					); err != nil {
						v.rows.Close()
						return nil, err
					}
				}
			default:
				// The key in varGen is guaranteed to exist thanks to the
				// check above.
				gen := varGen[name]
				value := gen(p)
				if _, err := v.rows.AddRow(parser.DTuple{parser.NewDString(value)}); err != nil {
					v.rows.Close()
					return nil, err
				}
			}

			return v, nil
		},
	}, nil
}
Esempio n. 5
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func benchmarkWriteTuple(b *testing.B, format formatCode) {
	i := parser.NewDInt(1234)
	f := parser.NewDFloat(12.34)
	s := parser.NewDString("testing")
	t := &parser.DTuple{i, f, s}
	benchmarkWriteType(b, t, format)
}
Esempio n. 6
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// 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)
	defer r.Close()
	if err := s.checkQueryResults(r.ResultList, 1); err != nil {
		return 0, err
	}

	result := r.ResultList[0]
	if result.Rows.Len() == 0 {
		return 0, errors.Errorf("namespace %s with ParentID %d not found", name, parentID)
	}

	var id int64
	scanner := resultScanner{}
	err := scanner.ScanIndex(result.Rows.At(0), 0, &id)
	if err != nil {
		return 0, err
	}

	return sqlbase.ID(id), nil
}
Esempio n. 7
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// Events is an endpoint that returns the latest event log entries, with the following
// optional URL parameters:
//
// type=STRING  returns events with this type (e.g. "create_table")
// targetID=INT returns events for that have this targetID
func (s *adminServer) Events(
	ctx context.Context, req *serverpb.EventsRequest,
) (*serverpb.EventsResponse, error) {
	args := sql.SessionArgs{User: s.getUser(req)}
	session := s.NewSessionForRPC(ctx, args)
	defer session.Finish(s.server.sqlExecutor)

	// Execute the query.
	q := makeSQLQuery()
	q.Append("SELECT timestamp, eventType, targetID, reportingID, info, uniqueID ")
	q.Append("FROM system.eventlog ")
	q.Append("WHERE true ") // This simplifies the WHERE clause logic below.
	if len(req.Type) > 0 {
		q.Append("AND eventType = $ ", parser.NewDString(req.Type))
	}
	if req.TargetId > 0 {
		q.Append("AND targetID = $ ", parser.NewDInt(parser.DInt(req.TargetId)))
	}
	q.Append("ORDER BY timestamp DESC ")
	q.Append("LIMIT $", parser.NewDInt(parser.DInt(apiEventLimit)))
	if len(q.Errors()) > 0 {
		return nil, s.serverErrors(q.Errors())
	}
	r := s.server.sqlExecutor.ExecuteStatements(session, q.String(), q.QueryArguments())
	defer r.Close()
	if err := s.checkQueryResults(r.ResultList, 1); err != nil {
		return nil, s.serverError(err)
	}

	// Marshal response.
	var resp serverpb.EventsResponse
	scanner := makeResultScanner(r.ResultList[0].Columns)
	for i, nRows := 0, r.ResultList[0].Rows.Len(); i < nRows; i++ {
		row := r.ResultList[0].Rows.At(i)
		var event serverpb.EventsResponse_Event
		var ts time.Time
		if err := scanner.ScanIndex(row, 0, &ts); err != nil {
			return nil, err
		}
		event.Timestamp = serverpb.EventsResponse_Event_Timestamp{Sec: ts.Unix(), Nsec: uint32(ts.Nanosecond())}
		if err := scanner.ScanIndex(row, 1, &event.EventType); err != nil {
			return nil, err
		}
		if err := scanner.ScanIndex(row, 2, &event.TargetID); err != nil {
			return nil, err
		}
		if err := scanner.ScanIndex(row, 3, &event.ReportingID); err != nil {
			return nil, err
		}
		if err := scanner.ScanIndex(row, 4, &event.Info); err != nil {
			return nil, err
		}
		if err := scanner.ScanIndex(row, 5, &event.UniqueID); err != nil {
			return nil, err
		}

		resp.Events = append(resp.Events, event)
	}
	return &resp, nil
}
Esempio n. 8
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// 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 := s.NewSessionForRPC(ctx, args)
	defer session.Finish(s.server.sqlExecutor)

	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.
		query := "UPSERT INTO system.ui (key, value, lastUpdated) VALUES ($1, $2, NOW())"
		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)
		defer r.Close()
		if err := s.checkQueryResults(r.ResultList, 1); 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
}
Esempio n. 9
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// ShowColumns of a table.
// Privileges: Any privilege on table.
//   Notes: postgres does not have a SHOW COLUMNS statement.
//          mysql only returns columns you have privileges on.
func (p *planner) ShowColumns(n *parser.ShowColumns) (planNode, error) {
	tn, err := n.Table.NormalizeWithDatabaseName(p.session.Database)
	if err != nil {
		return nil, err
	}

	desc, err := p.mustGetTableDesc(tn)
	if err != nil {
		return nil, err
	}
	if err := p.anyPrivilege(desc); err != nil {
		return nil, err
	}

	columns := ResultColumns{
		{Name: "Field", Typ: parser.TypeString},
		{Name: "Type", Typ: parser.TypeString},
		{Name: "Null", Typ: parser.TypeBool},
		{Name: "Default", Typ: parser.TypeString},
	}
	return &delayedNode{
		p:       p,
		name:    "SHOW COLUMNS FROM " + tn.String(),
		columns: columns,
		constructor: func(p *planner) (planNode, error) {
			v := p.newContainerValuesNode(columns, 0)

			for i, col := range desc.Columns {
				defaultExpr := parser.DNull
				if e := desc.Columns[i].DefaultExpr; e != nil {
					defaultExpr = parser.NewDString(*e)
				}
				newRow := parser.DTuple{
					parser.NewDString(desc.Columns[i].Name),
					parser.NewDString(col.Type.SQLString()),
					parser.MakeDBool(parser.DBool(desc.Columns[i].Nullable)),
					defaultExpr,
				}
				if err := v.rows.AddRow(newRow); err != nil {
					v.rows.Close()
					return nil, err
				}
			}
			return v, nil
		},
	}, nil
}
Esempio n. 10
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// golangFillQueryArguments populates the placeholder map with
// types and values from an array of Go values.
// TODO: This does not support arguments of the SQL 'Date' type, as there is not
// an equivalent type in Go's standard library. It's not currently needed by any
// of our internal tables.
func golangFillQueryArguments(pinfo *parser.PlaceholderInfo, args []interface{}) {
	pinfo.Clear()

	for i, arg := range args {
		k := fmt.Sprint(i + 1)
		if arg == nil {
			pinfo.SetValue(k, parser.DNull)
			continue
		}

		// A type switch to handle a few explicit types with special semantics:
		// - Datums are passed along as is.
		// - Time datatypes get special representation in the database.
		var d parser.Datum
		switch t := arg.(type) {
		case parser.Datum:
			d = t
		case time.Time:
			d = parser.MakeDTimestamp(t, time.Microsecond)
		case time.Duration:
			d = &parser.DInterval{Duration: duration.Duration{Nanos: t.Nanoseconds()}}
		case *inf.Dec:
			dd := &parser.DDecimal{}
			dd.Set(t)
			d = dd
		}
		if d == nil {
			// Handle all types which have an underlying type that can be stored in the
			// database.
			// Note: if this reflection becomes a performance concern in the future,
			// commonly used types could be added explicitly into the type switch above
			// for a performance gain.
			val := reflect.ValueOf(arg)
			switch val.Kind() {
			case reflect.Bool:
				d = parser.MakeDBool(parser.DBool(val.Bool()))
			case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
				d = parser.NewDInt(parser.DInt(val.Int()))
			case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
				d = parser.NewDInt(parser.DInt(val.Uint()))
			case reflect.Float32, reflect.Float64:
				d = parser.NewDFloat(parser.DFloat(val.Float()))
			case reflect.String:
				d = parser.NewDString(val.String())
			case reflect.Slice:
				// Handle byte slices.
				if val.Type().Elem().Kind() == reflect.Uint8 {
					d = parser.NewDBytes(parser.DBytes(val.Bytes()))
				}
			}
			if d == nil {
				panic(fmt.Sprintf("unexpected type %T", arg))
			}
		}
		pinfo.SetValue(k, d)
	}
}
Esempio n. 11
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// ShowDatabases returns all the databases.
// Privileges: None.
//   Notes: postgres does not have a "show databases"
//          mysql has a "SHOW DATABASES" permission, but we have no system-level permissions.
func (p *planner) ShowDatabases(n *parser.ShowDatabases) (planNode, error) {
	// TODO(pmattis): This could be implemented as:
	//
	//   SELECT id FROM system.namespace WHERE parentID = 0

	columns := ResultColumns{{Name: "Database", Typ: parser.TypeString}}

	return &delayedNode{
		p:       p,
		name:    "SHOW DATABASES",
		columns: columns,
		constructor: func(p *planner) (planNode, error) {
			prefix := sqlbase.MakeNameMetadataKey(keys.RootNamespaceID, "")
			sr, err := p.txn.Scan(prefix, prefix.PrefixEnd(), 0)
			if err != nil {
				return nil, err
			}
			v := p.newContainerValuesNode(columns, 0)
			for _, db := range p.session.virtualSchemas.orderedNames {
				if err := v.rows.AddRow(parser.DTuple{parser.NewDString(db)}); err != nil {
					v.rows.Close()
					return nil, err
				}
			}
			for _, row := range sr {
				_, name, err := encoding.DecodeUnsafeStringAscending(
					bytes.TrimPrefix(row.Key, prefix), nil)
				if err != nil {
					v.rows.Close()
					return nil, err
				}
				if err := v.rows.AddRow(parser.DTuple{parser.NewDString(name)}); err != nil {
					v.rows.Close()
					return nil, err
				}
			}
			return v, nil
		},
	}, nil
}
Esempio n. 12
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// ShowTables returns all the tables.
// Privileges: None.
//   Notes: postgres does not have a SHOW TABLES statement.
//          mysql only returns tables you have privileges on.
func (p *planner) ShowTables(n *parser.ShowTables) (planNode, error) {
	// TODO(pmattis): This could be implemented as:
	//
	//   SELECT name FROM system.namespace
	//     WHERE parentID = (SELECT id FROM system.namespace
	//                       WHERE parentID = 0 AND name = <database>)
	name := p.session.Database
	if n.Database != "" {
		name = string(n.Database)
	}
	if name == "" {
		return nil, errNoDatabase
	}

	columns := ResultColumns{{Name: "Table", Typ: parser.TypeString}}
	return &delayedNode{
		p:       p,
		name:    "SHOW TABLES FROM " + name,
		columns: columns,
		constructor: func(p *planner) (planNode, error) {
			dbDesc, err := p.mustGetDatabaseDesc(name)
			if err != nil {
				return nil, err
			}

			tableNames, err := p.getTableNames(dbDesc)
			if err != nil {
				return nil, err
			}

			v := p.newContainerValuesNode(columns, len(tableNames))
			for _, name := range tableNames {
				tableName := name.Table()
				// Check to see if the table has been dropped.
				if _, err := p.mustGetTableOrViewDesc(&name); err != nil {
					if err == errTableDropped {
						tableName += " (dropped)"
					} else {
						return nil, err
					}
				}

				if err := v.rows.AddRow(parser.DTuple{parser.NewDString(tableName)}); err != nil {
					v.rows.Close()
					return nil, err
				}
			}

			return v, nil
		},
	}, nil
}
Esempio n. 13
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// getUIData returns the values and timestamps for the given UI keys. Keys
// that are not found will not be returned.
func (s *adminServer) getUIData(
	session *sql.Session, user string, keys []string,
) (*serverpb.GetUIDataResponse, error) {
	if len(keys) == 0 {
		return &serverpb.GetUIDataResponse{}, nil
	}

	// Query database.
	query := makeSQLQuery()
	query.Append("SELECT key, value, lastUpdated FROM system.ui WHERE key IN (")
	for i, key := range keys {
		if i != 0 {
			query.Append(",")
		}
		query.Append("$", parser.NewDString(key))
	}
	query.Append(");")
	if err := query.Errors(); err != nil {
		return nil, s.serverErrorf("error constructing query: %v", err)
	}
	r := s.server.sqlExecutor.ExecuteStatements(session, query.String(), query.QueryArguments())
	defer r.Close()
	if err := s.checkQueryResults(r.ResultList, 1); err != nil {
		return nil, s.serverError(err)
	}

	// Marshal results.
	resp := serverpb.GetUIDataResponse{KeyValues: make(map[string]serverpb.GetUIDataResponse_Value)}
	for i, nRows := 0, r.ResultList[0].Rows.Len(); i < nRows; i++ {
		row := r.ResultList[0].Rows.At(i)
		dKey, ok := row[0].(*parser.DString)
		if !ok {
			return nil, s.serverErrorf("unexpected type for UI key: %T", row[0])
		}
		dValue, ok := row[1].(*parser.DBytes)
		if !ok {
			return nil, s.serverErrorf("unexpected type for UI value: %T", row[1])
		}
		dLastUpdated, ok := row[2].(*parser.DTimestamp)
		if !ok {
			return nil, s.serverErrorf("unexpected type for UI lastUpdated: %T", row[2])
		}

		resp.KeyValues[string(*dKey)] = serverpb.GetUIDataResponse_Value{
			Value:       []byte(*dValue),
			LastUpdated: serverpb.GetUIDataResponse_Timestamp{Sec: dLastUpdated.Unix(), Nsec: uint32(dLastUpdated.Nanosecond())},
		}
	}
	return &resp, nil
}
Esempio n. 14
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// Help returns usage information for the builtin functions
// Privileges: None
func (p *planner) Help(n *parser.Help) (planNode, error) {
	name := strings.ToLower(n.Name.String())
	columns := ResultColumns{
		{Name: "Function", Typ: parser.TypeString},
		{Name: "Signature", Typ: parser.TypeString},
		{Name: "Category", Typ: parser.TypeString},
		{Name: "Details", Typ: parser.TypeString},
	}
	return &delayedNode{
		p:       p,
		name:    "HELP " + name,
		columns: columns,
		constructor: func(p *planner) (planNode, error) {
			v := p.newContainerValuesNode(columns, 0)

			matches, ok := parser.Builtins[name]
			// TODO(dt): support fuzzy matching.
			if !ok {
				return v, nil
			}

			for _, f := range matches {
				row := parser.DTuple{
					parser.NewDString(name),
					parser.NewDString(f.Signature()),
					parser.NewDString(f.Category()),
					parser.NewDString(f.Info),
				}
				if _, err := v.rows.AddRow(row); err != nil {
					v.Close()
					return nil, err
				}
			}
			return v, nil
		},
	}, nil
}
Esempio n. 15
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// colIDArrayToDatum returns a mock int[] as a DString for a slice of ColumnIDs.
// TODO(nvanbenschoten) use real int arrays when they are supported.
func colIDArrayToDatum(arr []sqlbase.ColumnID) parser.Datum {
	if len(arr) == 0 {
		return parser.DNull
	}
	var buf bytes.Buffer
	buf.WriteByte('{')
	for i, val := range arr {
		if i > 0 {
			buf.WriteByte(',')
		}
		buf.WriteString(strconv.Itoa(int(val)))
	}
	buf.WriteByte('}')
	return parser.NewDString(buf.String())
}
Esempio n. 16
0
// runShowTransactionState returns the state of current transaction.
func (p *planner) runShowTransactionState(txnState *txnState, implicitTxn bool) (Result, error) {
	var result Result
	result.PGTag = (*parser.Show)(nil).StatementTag()
	result.Type = (*parser.Show)(nil).StatementType()
	result.Columns = ResultColumns{{Name: "TRANSACTION STATUS", Typ: parser.TypeString}}
	result.Rows = NewRowContainer(p.session.makeBoundAccount(), result.Columns, 0)
	state := txnState.State
	if implicitTxn {
		state = NoTxn
	}
	if _, err := result.Rows.AddRow(parser.DTuple{parser.NewDString(state.String())}); err != nil {
		result.Rows.Close()
		result.Err = err
		return result, err
	}
	return result, nil
}
Esempio n. 17
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// RandDatum generates a random Datum of the given type.
// If null is true, the datum can be DNull.
func RandDatum(rng *rand.Rand, typ ColumnType_Kind, null bool) parser.Datum {
	if null && rng.Intn(10) == 0 {
		return parser.DNull
	}
	switch typ {
	case ColumnType_BOOL:
		return parser.MakeDBool(rng.Intn(2) == 1)
	case ColumnType_INT:
		return parser.NewDInt(parser.DInt(rng.Int63()))
	case ColumnType_FLOAT:
		return parser.NewDFloat(parser.DFloat(rng.NormFloat64()))
	case ColumnType_DECIMAL:
		d := &parser.DDecimal{}
		d.Dec.SetScale(inf.Scale(rng.Intn(40) - 20))
		d.Dec.SetUnscaled(rng.Int63())
		return d
	case ColumnType_DATE:
		return parser.NewDDate(parser.DDate(rng.Intn(10000)))
	case ColumnType_TIMESTAMP:
		return &parser.DTimestamp{Time: time.Unix(rng.Int63n(1000000), rng.Int63n(1000000))}
	case ColumnType_INTERVAL:
		return &parser.DInterval{Duration: duration.Duration{Months: rng.Int63n(1000),
			Days:  rng.Int63n(1000),
			Nanos: rng.Int63n(1000000),
		}}
	case ColumnType_STRING:
		// Generate a random ASCII string.
		p := make([]byte, rng.Intn(10))
		for i := range p {
			p[i] = byte(1 + rng.Intn(127))
		}
		return parser.NewDString(string(p))
	case ColumnType_BYTES:
		p := make([]byte, rng.Intn(10))
		_, _ = rng.Read(p)
		return parser.NewDBytes(parser.DBytes(p))
	case ColumnType_TIMESTAMPTZ:
		return &parser.DTimestampTZ{Time: time.Unix(rng.Int63n(1000000), rng.Int63n(1000000))}
	case ColumnType_INT_ARRAY:
		// TODO(cuongdo): we don't support for persistence of arrays yet
		return parser.DNull
	default:
		panic(fmt.Sprintf("invalid type %s", typ))
	}
}
Esempio n. 18
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// MakePrimaryIndexKey creates a key prefix that corresponds to a table row
// (in the primary index); it is intended for tests.
//
// The value types must match the primary key columns (or a prefix of them);
// supported types are: - Datum
//  - bool (converts to DBool)
//  - int (converts to DInt)
//  - string (converts to DString)
func MakePrimaryIndexKey(desc *TableDescriptor, vals ...interface{}) (roachpb.Key, error) {
	index := &desc.PrimaryIndex
	if len(vals) > len(index.ColumnIDs) {
		return nil, errors.Errorf("got %d values, PK has %d columns", len(vals), len(index.ColumnIDs))
	}
	datums := make([]parser.Datum, len(vals))
	for i, v := range vals {
		switch v := v.(type) {
		case bool:
			datums[i] = parser.MakeDBool(parser.DBool(v))
		case int:
			datums[i] = parser.NewDInt(parser.DInt(v))
		case string:
			datums[i] = parser.NewDString(v)
		case parser.Datum:
			datums[i] = v
		default:
			return nil, errors.Errorf("unexpected value type %T", v)
		}
		// Check that the value type matches.
		colID := index.ColumnIDs[i]
		for _, c := range desc.Columns {
			if c.ID == colID {
				if t := DatumTypeToColumnKind(datums[i].ResolvedType()); t != c.Type.Kind {
					return nil, errors.Errorf("column %d of type %s, got value of type %s", i, c.Type.Kind, t)
				}
				break
			}
		}
	}
	// Create the ColumnID to index in datums slice map needed by
	// MakeIndexKeyPrefix.
	colIDToRowIndex := make(map[ColumnID]int)
	for i := range vals {
		colIDToRowIndex[index.ColumnIDs[i]] = i
	}

	keyPrefix := MakeIndexKeyPrefix(desc, index.ID)
	key, _, err := EncodeIndexKey(desc, index, colIDToRowIndex, datums, keyPrefix)
	if err != nil {
		return nil, err
	}
	return roachpb.Key(key), nil
}
Esempio n. 19
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// Add a placeholder implementation to test the plan hook. It accepts statements
// of the form `SHOW planhook` and returns a single row with the string value
// 'planhook'.
func init() {
	testingPlanHook := func(
		ctx context.Context, stmt parser.Statement, cfg *sql.ExecutorConfig,
	) (func() ([]parser.DTuple, error), sql.ResultColumns, error) {
		show, ok := stmt.(*parser.Show)
		if !ok || show.Name != "planhook" {
			return nil, nil, nil
		}
		header := sql.ResultColumns{
			{Name: "value", Typ: parser.TypeString},
		}
		return func() ([]parser.DTuple, error) {
			return []parser.DTuple{
				{parser.NewDString(show.Name)},
			}, nil
		}, header, nil
	}
	sql.AddPlanHook(testingPlanHook)
}
Esempio n. 20
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func makePrefixRange(prefix parser.DString, datum parser.TypedExpr, complete bool) parser.TypedExpr {
	if complete {
		return parser.NewTypedComparisonExpr(
			parser.EQ,
			datum,
			&prefix,
		)
	}
	if len(prefix) == 0 {
		return parser.MakeDBool(true)
	}
	return parser.NewTypedAndExpr(
		parser.NewTypedComparisonExpr(
			parser.GE,
			datum,
			&prefix,
		),
		parser.NewTypedComparisonExpr(
			parser.LT,
			datum,
			parser.NewDString(string(roachpb.Key(prefix).PrefixEnd())),
		),
	)
}
Esempio n. 21
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// ShowConstraints returns all the constraints for a table.
// Privileges: Any privilege on table.
//   Notes: postgres does not have a SHOW CONSTRAINTS statement.
//          mysql requires some privilege for any column.
func (p *planner) ShowConstraints(n *parser.ShowConstraints) (planNode, error) {
	tn, err := n.Table.NormalizeWithDatabaseName(p.session.Database)
	if err != nil {
		return nil, err
	}

	desc, err := p.mustGetTableDesc(tn)
	if err != nil {
		return nil, err
	}
	if err := p.anyPrivilege(desc); err != nil {
		return nil, err
	}

	columns := ResultColumns{
		{Name: "Table", Typ: parser.TypeString},
		{Name: "Name", Typ: parser.TypeString},
		{Name: "Type", Typ: parser.TypeString},
		{Name: "Column(s)", Typ: parser.TypeString},
		{Name: "Details", Typ: parser.TypeString},
	}

	return &delayedNode{
		p:       p,
		name:    "SHOW CONSTRAINTS FROM " + tn.String(),
		columns: columns,
		constructor: func(p *planner) (planNode, error) {
			v := p.newContainerValuesNode(columns, 0)

			info, err := desc.GetConstraintInfo(p.txn)
			if err != nil {
				return nil, err
			}
			for name, c := range info {
				detailsDatum := parser.DNull
				if c.Details != "" {
					detailsDatum = parser.NewDString(c.Details)
				}
				columnsDatum := parser.DNull
				if c.Columns != nil {
					columnsDatum = parser.NewDString(strings.Join(c.Columns, ", "))
				}
				kind := string(c.Kind)
				if c.Unvalidated {
					kind += " (UNVALIDATED)"
				}
				newRow := []parser.Datum{
					parser.NewDString(tn.Table()),
					parser.NewDString(name),
					parser.NewDString(kind),
					columnsDatum,
					detailsDatum,
				}
				if _, err := v.rows.AddRow(newRow); err != nil {
					v.Close()
					return nil, err
				}
			}

			// Sort the results by constraint name.
			sort := &sortNode{
				ctx: p.ctx(),
				p:   p,
				ordering: sqlbase.ColumnOrdering{
					{ColIdx: 0, Direction: encoding.Ascending},
					{ColIdx: 1, Direction: encoding.Ascending},
				},
				columns: v.columns,
			}
			return &selectTopNode{source: v, sort: sort}, nil
		},
	}, nil
}
Esempio n. 22
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// ShowIndex returns all the indexes for a table.
// Privileges: Any privilege on table.
//   Notes: postgres does not have a SHOW INDEXES statement.
//          mysql requires some privilege for any column.
func (p *planner) ShowIndex(n *parser.ShowIndex) (planNode, error) {
	tn, err := n.Table.NormalizeWithDatabaseName(p.session.Database)
	if err != nil {
		return nil, err
	}

	desc, err := p.mustGetTableDesc(tn)
	if err != nil {
		return nil, err
	}
	if err := p.anyPrivilege(desc); err != nil {
		return nil, err
	}

	columns := ResultColumns{
		{Name: "Table", Typ: parser.TypeString},
		{Name: "Name", Typ: parser.TypeString},
		{Name: "Unique", Typ: parser.TypeBool},
		{Name: "Seq", Typ: parser.TypeInt},
		{Name: "Column", Typ: parser.TypeString},
		{Name: "Direction", Typ: parser.TypeString},
		{Name: "Storing", Typ: parser.TypeBool},
	}

	return &delayedNode{
		p:       p,
		name:    "SHOW INDEX FROM " + tn.String(),
		columns: columns,
		constructor: func(p *planner) (planNode, error) {
			v := p.newContainerValuesNode(columns, 0)

			appendRow := func(index sqlbase.IndexDescriptor, colName string, sequence int,
				direction string, isStored bool) error {
				newRow := parser.DTuple{
					parser.NewDString(tn.Table()),
					parser.NewDString(index.Name),
					parser.MakeDBool(parser.DBool(index.Unique)),
					parser.NewDInt(parser.DInt(sequence)),
					parser.NewDString(colName),
					parser.NewDString(direction),
					parser.MakeDBool(parser.DBool(isStored)),
				}
				_, err := v.rows.AddRow(newRow)
				return err
			}

			for _, index := range append([]sqlbase.IndexDescriptor{desc.PrimaryIndex}, desc.Indexes...) {
				sequence := 1
				for i, col := range index.ColumnNames {
					if err := appendRow(index, col, sequence, index.ColumnDirections[i].String(), false); err != nil {
						v.rows.Close()
						return nil, err
					}
					sequence++
				}
				for _, col := range index.StoreColumnNames {
					if err := appendRow(index, col, sequence, "N/A", true); err != nil {
						v.rows.Close()
						return nil, err
					}
					sequence++
				}
			}
			return v, nil
		},
	}, nil
}
Esempio n. 23
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// ShowCreateView returns a CREATE VIEW statement for the specified view in
// Traditional syntax.
// Privileges: Any privilege on view.
func (p *planner) ShowCreateView(n *parser.ShowCreateView) (planNode, error) {
	tn, err := n.View.NormalizeWithDatabaseName(p.session.Database)
	if err != nil {
		return nil, err
	}

	desc, err := p.mustGetViewDesc(tn)
	if err != nil {
		return nil, err
	}
	if err := p.anyPrivilege(desc); err != nil {
		return nil, err
	}

	columns := ResultColumns{
		{Name: "View", Typ: parser.TypeString},
		{Name: "CreateView", Typ: parser.TypeString},
	}
	return &delayedNode{
		p:       p,
		name:    "SHOW CREATE VIEW " + tn.String(),
		columns: columns,
		constructor: func(p *planner) (planNode, error) {
			v := p.newContainerValuesNode(columns, 0)

			var buf bytes.Buffer
			fmt.Fprintf(&buf, "CREATE VIEW %s ", quoteNames(n.View.String()))

			// Determine whether custom column names were specified when the view
			// was created, and include them if so.
			customColNames := false
			stmt, err := parser.ParseOneTraditional(desc.ViewQuery)
			if err != nil {
				return nil, errors.Wrapf(err, "failed to parse underlying query from view %q", tn)
			}
			sel, ok := stmt.(*parser.Select)
			if !ok {
				return nil, errors.Errorf("failed to parse underlying query from view %q as a select", tn)
			}

			// When constructing the Select plan, make sure we don't require any
			// privileges on the underlying tables.
			p.skipSelectPrivilegeChecks = true
			defer func() { p.skipSelectPrivilegeChecks = false }()

			sourcePlan, err := p.Select(sel, []parser.Type{}, false)
			if err != nil {
				return nil, err
			}
			for i, col := range sourcePlan.Columns() {
				if col.Name != desc.Columns[i].Name {
					customColNames = true
					break
				}
			}
			if customColNames {
				colNames := make([]string, 0, len(desc.Columns))
				for _, col := range desc.Columns {
					colNames = append(colNames, col.Name)
				}
				fmt.Fprintf(&buf, "(%s) ", strings.Join(colNames, ", "))
			}

			fmt.Fprintf(&buf, "AS %s", desc.ViewQuery)
			if _, err := v.rows.AddRow(parser.DTuple{
				parser.NewDString(n.View.String()),
				parser.NewDString(buf.String()),
			}); err != nil {
				v.rows.Close()
				return nil, err
			}
			return v, nil
		},
	}, nil
}
Esempio n. 24
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// ShowCreateTable returns a CREATE TABLE statement for the specified table in
// Traditional syntax.
// Privileges: Any privilege on table.
func (p *planner) ShowCreateTable(n *parser.ShowCreateTable) (planNode, error) {
	tn, err := n.Table.NormalizeWithDatabaseName(p.session.Database)
	if err != nil {
		return nil, err
	}

	desc, err := p.mustGetTableDesc(tn)
	if err != nil {
		return nil, err
	}
	if err := p.anyPrivilege(desc); err != nil {
		return nil, err
	}

	columns := ResultColumns{
		{Name: "Table", Typ: parser.TypeString},
		{Name: "CreateTable", Typ: parser.TypeString},
	}

	return &delayedNode{
		p:       p,
		name:    "SHOW CREATE TABLE " + tn.String(),
		columns: columns,
		constructor: func(p *planner) (planNode, error) {
			v := p.newContainerValuesNode(columns, 0)

			var buf bytes.Buffer
			fmt.Fprintf(&buf, "CREATE TABLE %s (", quoteNames(n.Table.String()))
			var primary string
			for i, col := range desc.VisibleColumns() {
				if i != 0 {
					buf.WriteString(",")
				}
				buf.WriteString("\n\t")
				fmt.Fprintf(&buf, "%s %s", quoteNames(col.Name), col.Type.SQLString())
				if col.Nullable {
					buf.WriteString(" NULL")
				} else {
					buf.WriteString(" NOT NULL")
				}
				if col.DefaultExpr != nil {
					fmt.Fprintf(&buf, " DEFAULT %s", *col.DefaultExpr)
				}
				if desc.IsPhysicalTable() && desc.PrimaryIndex.ColumnIDs[0] == col.ID {
					// Only set primary if the primary key is on a visible column (not rowid).
					primary = fmt.Sprintf(",\n\tCONSTRAINT %s PRIMARY KEY (%s)",
						quoteNames(desc.PrimaryIndex.Name),
						quoteNames(desc.PrimaryIndex.ColumnNames...),
					)
				}
			}
			buf.WriteString(primary)
			for _, idx := range desc.Indexes {
				var storing string
				if len(idx.StoreColumnNames) > 0 {
					storing = fmt.Sprintf(" STORING (%s)", quoteNames(idx.StoreColumnNames...))
				}
				interleave, err := p.showCreateInterleave(&idx)
				if err != nil {
					v.rows.Close()
					return nil, err
				}
				fmt.Fprintf(&buf, ",\n\t%sINDEX %s (%s)%s%s",
					isUnique[idx.Unique],
					quoteNames(idx.Name),
					quoteNames(idx.ColumnNames...),
					storing,
					interleave,
				)
			}
			for _, fam := range desc.Families {
				activeColumnNames := make([]string, 0, len(fam.ColumnNames))
				for i, colID := range fam.ColumnIDs {
					if _, err := desc.FindActiveColumnByID(colID); err == nil {
						activeColumnNames = append(activeColumnNames, fam.ColumnNames[i])
					}
				}
				fmt.Fprintf(&buf, ",\n\tFAMILY %s (%s)",
					quoteNames(fam.Name),
					quoteNames(activeColumnNames...),
				)
			}

			for _, e := range desc.Checks {
				fmt.Fprintf(&buf, ",\n\t")
				if len(e.Name) > 0 {
					fmt.Fprintf(&buf, "CONSTRAINT %s ", quoteNames(e.Name))
				}
				fmt.Fprintf(&buf, "CHECK (%s)", e.Expr)
			}

			buf.WriteString("\n)")

			interleave, err := p.showCreateInterleave(&desc.PrimaryIndex)
			if err != nil {
				v.rows.Close()
				return nil, err
			}
			buf.WriteString(interleave)

			if _, err := v.rows.AddRow(parser.DTuple{
				parser.NewDString(n.Table.String()),
				parser.NewDString(buf.String()),
			}); err != nil {
				v.rows.Close()
				return nil, err
			}
			return v, nil
		},
	}, nil
}
Esempio n. 25
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// See: https://www.postgresql.org/docs/current/static/catalog-pg-am.html.
var pgCatalogAmTable = virtualSchemaTable{
	schema: `
CREATE TABLE pg_catalog.pg_am (
	oid INT,
	amname STRING,
	amhandler INT,
	amtype CHAR
);
`,
	populate: func(p *planner, addRow func(...parser.Datum) error) error {
		h := makeOidHasher()
		h.writeStr(cockroachIndexEncoding)
		return addRow(
			h.getOid(),
			parser.NewDString(cockroachIndexEncoding),
			parser.DNull,
			parser.NewDString("i"),
		)
	},
}

// See: https://www.postgresql.org/docs/9.6/static/catalog-pg-attrdef.html.
var pgCatalogAttrDefTable = virtualSchemaTable{
	schema: `
CREATE TABLE pg_catalog.pg_attrdef (
	oid INT,
	adrelid INT,
	adnum INT,
	adbin STRING,
	adsrc STRING
Esempio n. 26
0
// decodeOidDatum decodes bytes with specified Oid and format code into
// a datum.
func decodeOidDatum(id oid.Oid, code formatCode, b []byte) (parser.Datum, error) {
	var d parser.Datum
	switch id {
	case oid.T_bool:
		switch code {
		case formatText:
			v, err := strconv.ParseBool(string(b))
			if err != nil {
				return d, err
			}
			d = parser.MakeDBool(parser.DBool(v))
		case formatBinary:
			switch b[0] {
			case 0:
				d = parser.MakeDBool(false)
			case 1:
				d = parser.MakeDBool(true)
			default:
				return d, errors.Errorf("unsupported binary bool: %q", b)
			}
		default:
			return d, errors.Errorf("unsupported bool format code: %d", code)
		}
	case oid.T_int2:
		switch code {
		case formatText:
			i, err := strconv.ParseInt(string(b), 10, 64)
			if err != nil {
				return d, err
			}
			d = parser.NewDInt(parser.DInt(i))
		case formatBinary:
			if len(b) < 2 {
				return d, errors.Errorf("int2 requires 2 bytes for binary format")
			}
			i := int16(binary.BigEndian.Uint16(b))
			d = parser.NewDInt(parser.DInt(i))
		default:
			return d, errors.Errorf("unsupported int2 format code: %d", code)
		}
	case oid.T_int4:
		switch code {
		case formatText:
			i, err := strconv.ParseInt(string(b), 10, 64)
			if err != nil {
				return d, err
			}
			d = parser.NewDInt(parser.DInt(i))
		case formatBinary:
			if len(b) < 4 {
				return d, errors.Errorf("int4 requires 4 bytes for binary format")
			}
			i := int32(binary.BigEndian.Uint32(b))
			d = parser.NewDInt(parser.DInt(i))
		default:
			return d, errors.Errorf("unsupported int4 format code: %d", code)
		}
	case oid.T_int8:
		switch code {
		case formatText:
			i, err := strconv.ParseInt(string(b), 10, 64)
			if err != nil {
				return d, err
			}
			d = parser.NewDInt(parser.DInt(i))
		case formatBinary:
			if len(b) < 8 {
				return d, errors.Errorf("int8 requires 8 bytes for binary format")
			}
			i := int64(binary.BigEndian.Uint64(b))
			d = parser.NewDInt(parser.DInt(i))
		default:
			return d, errors.Errorf("unsupported int8 format code: %d", code)
		}
	case oid.T_float4:
		switch code {
		case formatText:
			f, err := strconv.ParseFloat(string(b), 64)
			if err != nil {
				return d, err
			}
			d = parser.NewDFloat(parser.DFloat(f))
		case formatBinary:
			if len(b) < 4 {
				return d, errors.Errorf("float4 requires 4 bytes for binary format")
			}
			f := math.Float32frombits(binary.BigEndian.Uint32(b))
			d = parser.NewDFloat(parser.DFloat(f))
		default:
			return d, errors.Errorf("unsupported float4 format code: %d", code)
		}
	case oid.T_float8:
		switch code {
		case formatText:
			f, err := strconv.ParseFloat(string(b), 64)
			if err != nil {
				return d, err
			}
			d = parser.NewDFloat(parser.DFloat(f))
		case formatBinary:
			if len(b) < 8 {
				return d, errors.Errorf("float8 requires 8 bytes for binary format")
			}
			f := math.Float64frombits(binary.BigEndian.Uint64(b))
			d = parser.NewDFloat(parser.DFloat(f))
		default:
			return d, errors.Errorf("unsupported float8 format code: %d", code)
		}
	case oid.T_numeric:
		switch code {
		case formatText:
			dd := &parser.DDecimal{}
			if _, ok := dd.SetString(string(b)); !ok {
				return nil, errors.Errorf("could not parse string %q as decimal", b)
			}
			d = dd
		case formatBinary:
			r := bytes.NewReader(b)

			alloc := struct {
				pgNum pgNumeric
				i16   int16

				dd parser.DDecimal
			}{}

			for _, ptr := range []interface{}{
				&alloc.pgNum.ndigits,
				&alloc.pgNum.weight,
				&alloc.pgNum.sign,
				&alloc.pgNum.dscale,
			} {
				if err := binary.Read(r, binary.BigEndian, ptr); err != nil {
					return d, err
				}
			}

			if alloc.pgNum.ndigits > 0 {
				decDigits := make([]byte, 0, alloc.pgNum.ndigits*pgDecDigits)
				nextDigit := func() error {
					if err := binary.Read(r, binary.BigEndian, &alloc.i16); err != nil {
						return err
					}
					numZeroes := pgDecDigits
					for i16 := alloc.i16; i16 > 0; i16 /= 10 {
						numZeroes--
					}
					for ; numZeroes > 0; numZeroes-- {
						decDigits = append(decDigits, '0')
					}
					return nil
				}

				for i := int16(0); i < alloc.pgNum.ndigits-1; i++ {
					if err := nextDigit(); err != nil {
						return d, err
					}
					if alloc.i16 > 0 {
						decDigits = strconv.AppendUint(decDigits, uint64(alloc.i16), 10)
					}
				}

				// The last digit may contain padding, which we need to deal with.
				if err := nextDigit(); err != nil {
					return d, err
				}
				dscale := (alloc.pgNum.ndigits - (alloc.pgNum.weight + 1)) * pgDecDigits
				if overScale := dscale - alloc.pgNum.dscale; overScale > 0 {
					dscale -= overScale
					for i := int16(0); i < overScale; i++ {
						alloc.i16 /= 10
					}
				}
				decDigits = strconv.AppendUint(decDigits, uint64(alloc.i16), 10)
				decString := string(decDigits)
				if _, ok := alloc.dd.UnscaledBig().SetString(decString, 10); !ok {
					return nil, errors.Errorf("could not parse string %q as decimal", decString)
				}
				alloc.dd.SetScale(inf.Scale(dscale))
			}

			switch alloc.pgNum.sign {
			case pgNumericPos:
			case pgNumericNeg:
				alloc.dd.Neg(&alloc.dd.Dec)
			default:
				return d, errors.Errorf("unsupported numeric sign: %d", alloc.pgNum.sign)
			}

			d = &alloc.dd
		default:
			return d, errors.Errorf("unsupported numeric format code: %d", code)
		}
	case oid.T_text, oid.T_varchar:
		switch code {
		case formatText, formatBinary:
			d = parser.NewDString(string(b))
		default:
			return d, errors.Errorf("unsupported text format code: %d", code)
		}
	case oid.T_bytea:
		switch code {
		case formatText:
			// http://www.postgresql.org/docs/current/static/datatype-binary.html#AEN5667
			// Code cribbed from github.com/lib/pq.

			// We only support hex encoding.
			if len(b) >= 2 && bytes.Equal(b[:2], []byte("\\x")) {
				b = b[2:] // trim off leading "\\x"
				result := make([]byte, hex.DecodedLen(len(b)))
				_, err := hex.Decode(result, b)
				if err != nil {
					return d, err
				}
				d = parser.NewDBytes(parser.DBytes(result))
			} else {
				return d, errors.Errorf("unsupported bytea encoding: %q", b)
			}
		case formatBinary:
			d = parser.NewDBytes(parser.DBytes(b))
		default:
			return d, errors.Errorf("unsupported bytea format code: %d", code)
		}
	case oid.T_timestamp:
		switch code {
		case formatText:
			ts, err := parseTs(string(b))
			if err != nil {
				return d, errors.Errorf("could not parse string %q as timestamp", b)
			}
			d = parser.MakeDTimestamp(ts, time.Microsecond)
		case formatBinary:
			if len(b) < 8 {
				return d, errors.Errorf("timestamp requires 8 bytes for binary format")
			}
			i := int64(binary.BigEndian.Uint64(b))
			d = parser.MakeDTimestamp(pgBinaryToTime(i), time.Microsecond)
		default:
			return d, errors.Errorf("unsupported timestamp format code: %d", code)
		}
	case oid.T_timestamptz:
		switch code {
		case formatText:
			ts, err := parseTs(string(b))
			if err != nil {
				return d, errors.Errorf("could not parse string %q as timestamp", b)
			}
			d = parser.MakeDTimestampTZ(ts, time.Microsecond)
		case formatBinary:
			if len(b) < 8 {
				return d, errors.Errorf("timestamptz requires 8 bytes for binary format")
			}
			i := int64(binary.BigEndian.Uint64(b))
			d = parser.MakeDTimestampTZ(pgBinaryToTime(i), time.Microsecond)
		default:
			return d, errors.Errorf("unsupported timestamptz format code: %d", code)
		}
	case oid.T_date:
		switch code {
		case formatText:
			ts, err := parseTs(string(b))
			if err != nil {
				res, err := parser.ParseDDate(string(b), time.UTC)
				if err != nil {
					return d, errors.Errorf("could not parse string %q as date", b)
				}
				d = res
			} else {
				daysSinceEpoch := ts.Unix() / secondsInDay
				d = parser.NewDDate(parser.DDate(daysSinceEpoch))
			}
		case formatBinary:
			if len(b) < 4 {
				return d, errors.Errorf("date requires 4 bytes for binary format")
			}
			i := int32(binary.BigEndian.Uint32(b))
			d = pgBinaryToDate(i)
		default:
			return d, errors.Errorf("unsupported date format code: %d", code)
		}
	case oid.T_interval:
		switch code {
		case formatText:
			d, err := parser.ParseDInterval(string(b))
			if err != nil {
				return d, errors.Errorf("could not parse string %q as interval", b)
			}
			return d, nil
		default:
			return d, errors.Errorf("unsupported interval format code: %d", code)
		}
	default:
		return d, errors.Errorf("unsupported OID: %v", id)
	}
	return d, nil
}
Esempio n. 27
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// RowEnglishFn is a GenValueFn which returns an English representation of the
// row number, as a DString
func RowEnglishFn(row int) parser.Datum {
	return parser.NewDString(IntToEnglish(row))
}
Esempio n. 28
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func benchmarkWriteString(b *testing.B, format formatCode) {
	benchmarkWriteType(b, parser.NewDString("testing"), format)
}
Esempio n. 29
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func dumpTable(w io.Writer, conn *sqlConn, origDBName, origTableName string) error {
	const limit = 100

	// Escape names since they can't be used in placeholders.
	dbname := parser.Name(origDBName).String()
	tablename := parser.Name(origTableName).String()

	if err := conn.Exec(fmt.Sprintf("SET DATABASE = %s", dbname), nil); err != nil {
		return err
	}

	// Fetch all table metadata in a transaction and its time to guarantee it
	// doesn't change between the various SHOW statements.
	if err := conn.Exec("BEGIN", nil); err != nil {
		return err
	}

	vals, err := conn.QueryRow("SELECT cluster_logical_timestamp()", nil)
	if err != nil {
		return err
	}
	clusterTS := string(vals[0].([]byte))

	// A previous version of the code did a SELECT on system.descriptor. This
	// required the SELECT privilege to the descriptor table, which only root
	// has. Allowing non-root to do this would let users see other users' table
	// descriptors which is a problem in multi-tenancy.

	// Fetch column types.
	rows, err := conn.Query(fmt.Sprintf("SHOW COLUMNS FROM %s", tablename), nil)
	if err != nil {
		return err
	}
	vals = make([]driver.Value, 2)
	coltypes := make(map[string]string)
	for {
		if err := rows.Next(vals); err == io.EOF {
			break
		} else if err != nil {
			return err
		}
		nameI, typI := vals[0], vals[1]
		name, ok := nameI.(string)
		if !ok {
			return fmt.Errorf("unexpected value: %T", nameI)
		}
		typ, ok := typI.(string)
		if !ok {
			return fmt.Errorf("unexpected value: %T", typI)
		}
		coltypes[name] = typ
	}
	if err := rows.Close(); err != nil {
		return err
	}

	// index holds the names, in order, of the primary key columns.
	var index []string
	// Primary index is always the first index returned by SHOW INDEX.
	rows, err = conn.Query(fmt.Sprintf("SHOW INDEX FROM %s", tablename), nil)
	if err != nil {
		return err
	}
	vals = make([]driver.Value, 5)
	var primaryIndex string
	// Find the primary index columns.
	for {
		if err := rows.Next(vals); err == io.EOF {
			break
		} else if err != nil {
			return err
		}
		b, ok := vals[1].(string)
		if !ok {
			return fmt.Errorf("unexpected value: %T", vals[1])
		}
		if primaryIndex == "" {
			primaryIndex = b
		} else if primaryIndex != b {
			break
		}
		b, ok = vals[4].(string)
		if !ok {
			return fmt.Errorf("unexpected value: %T", vals[4])
		}
		index = append(index, parser.Name(b).String())
	}
	if err := rows.Close(); err != nil {
		return err
	}
	if len(index) == 0 {
		return fmt.Errorf("no primary key index found")
	}
	indexes := strings.Join(index, ", ")

	// Build the SELECT query.
	var sbuf bytes.Buffer
	fmt.Fprintf(&sbuf, "SELECT %s, * FROM %s@%s AS OF SYSTEM TIME %s", indexes, tablename, primaryIndex, clusterTS)

	var wbuf bytes.Buffer
	fmt.Fprintf(&wbuf, " WHERE ROW (%s) > ROW (", indexes)
	for i := range index {
		if i > 0 {
			wbuf.WriteString(", ")
		}
		fmt.Fprintf(&wbuf, "$%d", i+1)
	}
	wbuf.WriteString(")")
	// No WHERE clause first time, so add a place to inject it.
	fmt.Fprintf(&sbuf, "%%s ORDER BY %s LIMIT %d", indexes, limit)
	bs := sbuf.String()

	vals, err = conn.QueryRow(fmt.Sprintf("SHOW CREATE TABLE %s", tablename), nil)
	if err != nil {
		return err
	}
	create := vals[1].(string)
	if _, err := w.Write([]byte(create)); err != nil {
		return err
	}
	if _, err := w.Write([]byte(";\n")); err != nil {
		return err
	}

	if err := conn.Exec("COMMIT", nil); err != nil {
		return err
	}

	// pk holds the last values of the fetched primary keys
	var pk []driver.Value
	q := fmt.Sprintf(bs, "")
	for {
		rows, err := conn.Query(q, pk)
		if err != nil {
			return err
		}
		cols := rows.Columns()
		pkcols := cols[:len(index)]
		cols = cols[len(index):]
		inserts := make([][]string, 0, limit)
		i := 0
		for i < limit {
			vals := make([]driver.Value, len(cols)+len(pkcols))
			if err := rows.Next(vals); err == io.EOF {
				break
			} else if err != nil {
				return err
			}
			if pk == nil {
				q = fmt.Sprintf(bs, wbuf.String())
			}
			pk = vals[:len(index)]
			vals = vals[len(index):]
			ivals := make([]string, len(vals))
			// Values need to be correctly encoded for INSERT statements in a text file.
			for si, sv := range vals {
				switch t := sv.(type) {
				case nil:
					ivals[si] = "NULL"
				case bool:
					ivals[si] = parser.MakeDBool(parser.DBool(t)).String()
				case int64:
					ivals[si] = parser.NewDInt(parser.DInt(t)).String()
				case float64:
					ivals[si] = parser.NewDFloat(parser.DFloat(t)).String()
				case string:
					ivals[si] = parser.NewDString(t).String()
				case []byte:
					switch ct := coltypes[cols[si]]; ct {
					case "INTERVAL":
						ivals[si] = fmt.Sprintf("'%s'", t)
					case "BYTES":
						ivals[si] = parser.NewDBytes(parser.DBytes(t)).String()
					default:
						// STRING and DECIMAL types can have optional length
						// suffixes, so only examine the prefix of the type.
						if strings.HasPrefix(coltypes[cols[si]], "STRING") {
							ivals[si] = parser.NewDString(string(t)).String()
						} else if strings.HasPrefix(coltypes[cols[si]], "DECIMAL") {
							ivals[si] = string(t)
						} else {
							panic(errors.Errorf("unknown []byte type: %s, %v: %s", t, cols[si], coltypes[cols[si]]))
						}
					}
				case time.Time:
					var d parser.Datum
					ct := coltypes[cols[si]]
					switch ct {
					case "DATE":
						d = parser.NewDDateFromTime(t, time.UTC)
					case "TIMESTAMP":
						d = parser.MakeDTimestamp(t, time.Nanosecond)
					case "TIMESTAMP WITH TIME ZONE":
						d = parser.MakeDTimestampTZ(t, time.Nanosecond)
					default:
						panic(errors.Errorf("unknown timestamp type: %s, %v: %s", t, cols[si], coltypes[cols[si]]))
					}
					ivals[si] = fmt.Sprintf("'%s'", d)
				default:
					panic(errors.Errorf("unknown field type: %T (%s)", t, cols[si]))
				}
			}
			inserts = append(inserts, ivals)
			i++
		}
		for si, sv := range pk {
			b, ok := sv.([]byte)
			if ok && strings.HasPrefix(coltypes[pkcols[si]], "STRING") {
				// Primary key strings need to be converted to a go string, but not SQL
				// encoded since they aren't being written to a text file.
				pk[si] = string(b)
			}
		}
		if err := rows.Close(); err != nil {
			return err
		}
		if i == 0 {
			break
		}
		fmt.Fprintf(w, "\nINSERT INTO %s VALUES", tablename)
		for idx, values := range inserts {
			if idx > 0 {
				fmt.Fprint(w, ",")
			}
			fmt.Fprint(w, "\n\t(")
			for vi, v := range values {
				if vi > 0 {
					fmt.Fprint(w, ", ")
				}
				fmt.Fprint(w, v)
			}
			fmt.Fprint(w, ")")
		}
		fmt.Fprintln(w, ";")
		if i < limit {
			break
		}
	}
	return nil
}
Esempio n. 30
0
	// clarify the hierarchical structure of the plans when doIndent is
	// true.
	prefix string

	// doIndent indicates whether the output should be clarified
	// with leading white spaces.
	doIndent bool

	// makeRow produces one row of EXPLAIN output.
	makeRow func(level int, typ, field, desc string, plan planNode)

	// err remembers whether any error was encountered by makeRow.
	err error
}

var emptyString = parser.NewDString("")

// populateExplain invokes explain() with a makeRow method
// which populates a valuesNode.
func (e *explainer) populateExplain(v *valuesNode, plan planNode) error {
	e.makeRow = func(level int, name, field, description string, plan planNode) {
		if e.err != nil {
			return
		}

		row := parser.DTuple{
			parser.NewDInt(parser.DInt(level)),
			parser.NewDString(name),
			parser.NewDString(field),
			parser.NewDString(description),
		}