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metadata_cassandra.go
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metadata_cassandra.go
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//go:build cassandra && !scylla
// +build cassandra,!scylla
// Copyright (c) 2015 The gocql Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package gocql
import (
"encoding/hex"
"encoding/json"
"fmt"
"strconv"
"strings"
"sync"
)
// schema metadata for a keyspace
type KeyspaceMetadata struct {
Name string
DurableWrites bool
StrategyClass string
StrategyOptions map[string]interface{}
Tables map[string]*TableMetadata
Functions map[string]*FunctionMetadata
Aggregates map[string]*AggregateMetadata
// Deprecated: use the MaterializedViews field for views and UserTypes field for udts instead.
Views map[string]*ViewMetadata
MaterializedViews map[string]*MaterializedViewMetadata
UserTypes map[string]*UserTypeMetadata
}
// schema metadata for a table (a.k.a. column family)
type TableMetadata struct {
Keyspace string
Name string
KeyValidator string
Comparator string
DefaultValidator string
KeyAliases []string
ColumnAliases []string
ValueAlias string
PartitionKey []*ColumnMetadata
ClusteringColumns []*ColumnMetadata
Columns map[string]*ColumnMetadata
OrderedColumns []string
}
// schema metadata for a column
type ColumnMetadata struct {
Keyspace string
Table string
Name string
ComponentIndex int
Kind ColumnKind
Validator string
Type TypeInfo
ClusteringOrder string
Order ColumnOrder
Index ColumnIndexMetadata
}
// FunctionMetadata holds metadata for function constructs
type FunctionMetadata struct {
Keyspace string
Name string
ArgumentTypes []TypeInfo
ArgumentNames []string
Body string
CalledOnNullInput bool
Language string
ReturnType TypeInfo
}
// AggregateMetadata holds metadata for aggregate constructs
type AggregateMetadata struct {
Keyspace string
Name string
ArgumentTypes []TypeInfo
FinalFunc FunctionMetadata
InitCond string
ReturnType TypeInfo
StateFunc FunctionMetadata
StateType TypeInfo
stateFunc string
finalFunc string
}
// ViewMetadata holds the metadata for views.
// Deprecated: this is kept for backwards compatibility issues. Use MaterializedViewMetadata.
type ViewMetadata struct {
Keyspace string
Name string
FieldNames []string
FieldTypes []TypeInfo
}
// MaterializedViewMetadata holds the metadata for materialized views.
type MaterializedViewMetadata struct {
Keyspace string
Name string
BaseTableId UUID
BaseTable *TableMetadata
BloomFilterFpChance float64
Caching map[string]string
Comment string
Compaction map[string]string
Compression map[string]string
CrcCheckChance float64
DcLocalReadRepairChance float64
DefaultTimeToLive int
Extensions map[string]string
GcGraceSeconds int
Id UUID
IncludeAllColumns bool
MaxIndexInterval int
MemtableFlushPeriodInMs int
MinIndexInterval int
ReadRepairChance float64
SpeculativeRetry string
baseTableName string
}
type UserTypeMetadata struct {
Keyspace string
Name string
FieldNames []string
FieldTypes []TypeInfo
}
// the ordering of the column with regard to its comparator
type ColumnOrder bool
const (
ASC ColumnOrder = false
DESC ColumnOrder = true
)
type ColumnIndexMetadata struct {
Name string
Type string
Options map[string]interface{}
}
type ColumnKind int
const (
ColumnUnkownKind ColumnKind = iota
ColumnPartitionKey
ColumnClusteringKey
ColumnRegular
ColumnCompact
ColumnStatic
)
func (c ColumnKind) String() string {
switch c {
case ColumnPartitionKey:
return "partition_key"
case ColumnClusteringKey:
return "clustering_key"
case ColumnRegular:
return "regular"
case ColumnCompact:
return "compact"
case ColumnStatic:
return "static"
default:
return fmt.Sprintf("unknown_column_%d", c)
}
}
func (c *ColumnKind) UnmarshalCQL(typ TypeInfo, p []byte) error {
if typ.Type() != TypeVarchar {
return unmarshalErrorf("unable to marshall %s into ColumnKind, expected Varchar", typ)
}
kind, err := columnKindFromSchema(string(p))
if err != nil {
return err
}
*c = kind
return nil
}
func columnKindFromSchema(kind string) (ColumnKind, error) {
switch kind {
case "partition_key":
return ColumnPartitionKey, nil
case "clustering_key", "clustering":
return ColumnClusteringKey, nil
case "regular":
return ColumnRegular, nil
case "compact_value":
return ColumnCompact, nil
case "static":
return ColumnStatic, nil
default:
return -1, fmt.Errorf("unknown column kind: %q", kind)
}
}
// default alias values
const (
DEFAULT_KEY_ALIAS = "key"
DEFAULT_COLUMN_ALIAS = "column"
DEFAULT_VALUE_ALIAS = "value"
)
// queries the cluster for schema information for a specific keyspace
type schemaDescriber struct {
session *Session
mu sync.Mutex
cache map[string]*KeyspaceMetadata
}
// creates a session bound schema describer which will query and cache
// keyspace metadata
func newSchemaDescriber(session *Session) *schemaDescriber {
return &schemaDescriber{
session: session,
cache: map[string]*KeyspaceMetadata{},
}
}
// returns the cached KeyspaceMetadata held by the describer for the named
// keyspace.
func (s *schemaDescriber) getSchema(keyspaceName string) (*KeyspaceMetadata, error) {
s.mu.Lock()
defer s.mu.Unlock()
metadata, found := s.cache[keyspaceName]
if !found {
// refresh the cache for this keyspace
err := s.refreshSchema(keyspaceName)
if err != nil {
return nil, err
}
metadata = s.cache[keyspaceName]
}
return metadata, nil
}
// clears the already cached keyspace metadata
func (s *schemaDescriber) clearSchema(keyspaceName string) {
s.mu.Lock()
defer s.mu.Unlock()
delete(s.cache, keyspaceName)
}
// forcibly updates the current KeyspaceMetadata held by the schema describer
// for a given named keyspace.
func (s *schemaDescriber) refreshSchema(keyspaceName string) error {
var err error
// query the system keyspace for schema data
// TODO retrieve concurrently
keyspace, err := getKeyspaceMetadata(s.session, keyspaceName)
if err != nil {
return err
}
tables, err := getTableMetadata(s.session, keyspaceName)
if err != nil {
return err
}
columns, err := getColumnMetadata(s.session, keyspaceName)
if err != nil {
return err
}
functions, err := getFunctionsMetadata(s.session, keyspaceName)
if err != nil {
return err
}
aggregates, err := getAggregatesMetadata(s.session, keyspaceName)
if err != nil {
return err
}
views, err := getViewsMetadata(s.session, keyspaceName)
if err != nil {
return err
}
materializedViews, err := getMaterializedViewsMetadata(s.session, keyspaceName)
if err != nil {
return err
}
// organize the schema data
compileMetadata(s.session.cfg.ProtoVersion, keyspace, tables, columns, functions, aggregates, views,
materializedViews, s.session.logger)
// update the cache
s.cache[keyspaceName] = keyspace
return nil
}
// "compiles" derived information about keyspace, table, and column metadata
// for a keyspace from the basic queried metadata objects returned by
// getKeyspaceMetadata, getTableMetadata, and getColumnMetadata respectively;
// Links the metadata objects together and derives the column composition of
// the partition key and clustering key for a table.
func compileMetadata(
protoVersion int,
keyspace *KeyspaceMetadata,
tables []TableMetadata,
columns []ColumnMetadata,
functions []FunctionMetadata,
aggregates []AggregateMetadata,
views []ViewMetadata,
materializedViews []MaterializedViewMetadata,
logger StdLogger,
) {
keyspace.Tables = make(map[string]*TableMetadata)
for i := range tables {
tables[i].Columns = make(map[string]*ColumnMetadata)
keyspace.Tables[tables[i].Name] = &tables[i]
}
keyspace.Functions = make(map[string]*FunctionMetadata, len(functions))
for i := range functions {
keyspace.Functions[functions[i].Name] = &functions[i]
}
keyspace.Aggregates = make(map[string]*AggregateMetadata, len(aggregates))
for i, _ := range aggregates {
aggregates[i].FinalFunc = *keyspace.Functions[aggregates[i].finalFunc]
aggregates[i].StateFunc = *keyspace.Functions[aggregates[i].stateFunc]
keyspace.Aggregates[aggregates[i].Name] = &aggregates[i]
}
keyspace.Views = make(map[string]*ViewMetadata, len(views))
for i := range views {
keyspace.Views[views[i].Name] = &views[i]
}
// Views currently holds the types and hasn't been deleted for backward compatibility issues.
// That's why it's ok to copy Views into Types in this case. For the real Views use MaterializedViews.
types := make([]UserTypeMetadata, len(views))
for i := range views {
types[i].Keyspace = views[i].Keyspace
types[i].Name = views[i].Name
types[i].FieldNames = views[i].FieldNames
types[i].FieldTypes = views[i].FieldTypes
}
keyspace.UserTypes = make(map[string]*UserTypeMetadata, len(views))
for i := range types {
keyspace.UserTypes[types[i].Name] = &types[i]
}
keyspace.MaterializedViews = make(map[string]*MaterializedViewMetadata, len(materializedViews))
for i, _ := range materializedViews {
materializedViews[i].BaseTable = keyspace.Tables[materializedViews[i].baseTableName]
keyspace.MaterializedViews[materializedViews[i].Name] = &materializedViews[i]
}
// add columns from the schema data
for i := range columns {
col := &columns[i]
// decode the validator for TypeInfo and order
if col.ClusteringOrder != "" { // Cassandra 3.x+
col.Type = getCassandraType(col.Validator, logger)
col.Order = ASC
if col.ClusteringOrder == "desc" {
col.Order = DESC
}
} else {
validatorParsed := parseType(col.Validator, logger)
col.Type = validatorParsed.types[0]
col.Order = ASC
if validatorParsed.reversed[0] {
col.Order = DESC
}
}
table, ok := keyspace.Tables[col.Table]
if !ok {
// if the schema is being updated we will race between seeing
// the metadata be complete. Potentially we should check for
// schema versions before and after reading the metadata and
// if they dont match try again.
continue
}
table.Columns[col.Name] = col
table.OrderedColumns = append(table.OrderedColumns, col.Name)
}
if protoVersion == protoVersion1 {
compileV1Metadata(tables, logger)
} else {
compileV2Metadata(tables, logger)
}
}
// Compiles derived information from TableMetadata which have had
// ColumnMetadata added already. V1 protocol does not return as much
// column metadata as V2+ (because V1 doesn't support the "type" column in the
// system.schema_columns table) so determining PartitionKey and ClusterColumns
// is more complex.
func compileV1Metadata(tables []TableMetadata, logger StdLogger) {
for i := range tables {
table := &tables[i]
// decode the key validator
keyValidatorParsed := parseType(table.KeyValidator, logger)
// decode the comparator
comparatorParsed := parseType(table.Comparator, logger)
// the partition key length is the same as the number of types in the
// key validator
table.PartitionKey = make([]*ColumnMetadata, len(keyValidatorParsed.types))
// V1 protocol only returns "regular" columns from
// system.schema_columns (there is no type field for columns)
// so the alias information is used to
// create the partition key and clustering columns
// construct the partition key from the alias
for i := range table.PartitionKey {
var alias string
if len(table.KeyAliases) > i {
alias = table.KeyAliases[i]
} else if i == 0 {
alias = DEFAULT_KEY_ALIAS
} else {
alias = DEFAULT_KEY_ALIAS + strconv.Itoa(i+1)
}
column := &ColumnMetadata{
Keyspace: table.Keyspace,
Table: table.Name,
Name: alias,
Type: keyValidatorParsed.types[i],
Kind: ColumnPartitionKey,
ComponentIndex: i,
}
table.PartitionKey[i] = column
table.Columns[alias] = column
}
// determine the number of clustering columns
size := len(comparatorParsed.types)
if comparatorParsed.isComposite {
if len(comparatorParsed.collections) != 0 ||
(len(table.ColumnAliases) == size-1 &&
comparatorParsed.types[size-1].Type() == TypeVarchar) {
size = size - 1
}
} else {
if !(len(table.ColumnAliases) != 0 || len(table.Columns) == 0) {
size = 0
}
}
table.ClusteringColumns = make([]*ColumnMetadata, size)
for i := range table.ClusteringColumns {
var alias string
if len(table.ColumnAliases) > i {
alias = table.ColumnAliases[i]
} else if i == 0 {
alias = DEFAULT_COLUMN_ALIAS
} else {
alias = DEFAULT_COLUMN_ALIAS + strconv.Itoa(i+1)
}
order := ASC
if comparatorParsed.reversed[i] {
order = DESC
}
column := &ColumnMetadata{
Keyspace: table.Keyspace,
Table: table.Name,
Name: alias,
Type: comparatorParsed.types[i],
Order: order,
Kind: ColumnClusteringKey,
ComponentIndex: i,
}
table.ClusteringColumns[i] = column
table.Columns[alias] = column
}
if size != len(comparatorParsed.types)-1 {
alias := DEFAULT_VALUE_ALIAS
if len(table.ValueAlias) > 0 {
alias = table.ValueAlias
}
// decode the default validator
defaultValidatorParsed := parseType(table.DefaultValidator, logger)
column := &ColumnMetadata{
Keyspace: table.Keyspace,
Table: table.Name,
Name: alias,
Type: defaultValidatorParsed.types[0],
Kind: ColumnRegular,
}
table.Columns[alias] = column
}
}
}
// The simpler compile case for V2+ protocol
func compileV2Metadata(tables []TableMetadata, logger StdLogger) {
for i := range tables {
table := &tables[i]
clusteringColumnCount := componentColumnCountOfType(table.Columns, ColumnClusteringKey)
table.ClusteringColumns = make([]*ColumnMetadata, clusteringColumnCount)
if table.KeyValidator != "" {
keyValidatorParsed := parseType(table.KeyValidator, logger)
table.PartitionKey = make([]*ColumnMetadata, len(keyValidatorParsed.types))
} else { // Cassandra 3.x+
partitionKeyCount := componentColumnCountOfType(table.Columns, ColumnPartitionKey)
table.PartitionKey = make([]*ColumnMetadata, partitionKeyCount)
}
for _, columnName := range table.OrderedColumns {
column := table.Columns[columnName]
if column.Kind == ColumnPartitionKey {
table.PartitionKey[column.ComponentIndex] = column
} else if column.Kind == ColumnClusteringKey {
table.ClusteringColumns[column.ComponentIndex] = column
}
}
}
}
// returns the count of coluns with the given "kind" value.
func componentColumnCountOfType(columns map[string]*ColumnMetadata, kind ColumnKind) int {
maxComponentIndex := -1
for _, column := range columns {
if column.Kind == kind && column.ComponentIndex > maxComponentIndex {
maxComponentIndex = column.ComponentIndex
}
}
return maxComponentIndex + 1
}
// query only for the keyspace metadata for the specified keyspace from system.schema_keyspace
func getKeyspaceMetadata(session *Session, keyspaceName string) (*KeyspaceMetadata, error) {
keyspace := &KeyspaceMetadata{Name: keyspaceName}
if session.useSystemSchema { // Cassandra 3.x+
const stmt = `
SELECT durable_writes, replication
FROM system_schema.keyspaces
WHERE keyspace_name = ?`
var replication map[string]string
iter := session.control.query(stmt+session.usingTimeoutClause, keyspaceName)
if iter.NumRows() == 0 {
return nil, ErrKeyspaceDoesNotExist
}
iter.Scan(&keyspace.DurableWrites, &replication)
err := iter.Close()
if err != nil {
return nil, fmt.Errorf("error querying keyspace schema: %v", err)
}
keyspace.StrategyClass = replication["class"]
delete(replication, "class")
keyspace.StrategyOptions = make(map[string]interface{}, len(replication))
for k, v := range replication {
keyspace.StrategyOptions[k] = v
}
} else {
const stmt = `
SELECT durable_writes, strategy_class, strategy_options
FROM system.schema_keyspaces
WHERE keyspace_name = ?`
var strategyOptionsJSON []byte
iter := session.control.query(stmt+session.usingTimeoutClause, keyspaceName)
if iter.NumRows() == 0 {
return nil, ErrKeyspaceDoesNotExist
}
iter.Scan(&keyspace.DurableWrites, &keyspace.StrategyClass, &strategyOptionsJSON)
err := iter.Close()
if err != nil {
return nil, fmt.Errorf("error querying keyspace schema: %v", err)
}
err = json.Unmarshal(strategyOptionsJSON, &keyspace.StrategyOptions)
if err != nil {
return nil, fmt.Errorf(
"invalid JSON value '%s' as strategy_options for in keyspace '%s': %v",
strategyOptionsJSON, keyspace.Name, err,
)
}
}
return keyspace, nil
}
// query for only the table metadata in the specified keyspace from system.schema_columnfamilies
func getTableMetadata(session *Session, keyspaceName string) ([]TableMetadata, error) {
var (
iter *Iter
scan func(iter *Iter, table *TableMetadata) bool
stmt string
keyAliasesJSON []byte
columnAliasesJSON []byte
)
if session.useSystemSchema { // Cassandra 3.x+
stmt = `
SELECT
table_name
FROM system_schema.tables
WHERE keyspace_name = ?`
switchIter := func() *Iter {
iter.Close()
stmt = `
SELECT
view_name
FROM system_schema.views
WHERE keyspace_name = ?`
iter = session.control.query(stmt+session.usingTimeoutClause, keyspaceName)
return iter
}
scan = func(iter *Iter, table *TableMetadata) bool {
r := iter.Scan(
&table.Name,
)
if !r {
iter = switchIter()
if iter != nil {
switchIter = func() *Iter { return nil }
r = iter.Scan(&table.Name)
}
}
return r
}
} else if session.cfg.ProtoVersion == protoVersion1 {
// we have key aliases
stmt = `
SELECT
columnfamily_name,
key_validator,
comparator,
default_validator,
key_aliases,
column_aliases,
value_alias
FROM system.schema_columnfamilies
WHERE keyspace_name = ?`
scan = func(iter *Iter, table *TableMetadata) bool {
return iter.Scan(
&table.Name,
&table.KeyValidator,
&table.Comparator,
&table.DefaultValidator,
&keyAliasesJSON,
&columnAliasesJSON,
&table.ValueAlias,
)
}
} else {
stmt = `
SELECT
columnfamily_name,
key_validator,
comparator,
default_validator
FROM system.schema_columnfamilies
WHERE keyspace_name = ?`
scan = func(iter *Iter, table *TableMetadata) bool {
return iter.Scan(
&table.Name,
&table.KeyValidator,
&table.Comparator,
&table.DefaultValidator,
)
}
}
iter = session.control.query(stmt+session.usingTimeoutClause, keyspaceName)
tables := []TableMetadata{}
table := TableMetadata{Keyspace: keyspaceName}
for scan(iter, &table) {
var err error
// decode the key aliases
if keyAliasesJSON != nil {
table.KeyAliases = []string{}
err = json.Unmarshal(keyAliasesJSON, &table.KeyAliases)
if err != nil {
iter.Close()
return nil, fmt.Errorf(
"invalid JSON value '%s' as key_aliases for in table '%s': %v",
keyAliasesJSON, table.Name, err,
)
}
}
// decode the column aliases
if columnAliasesJSON != nil {
table.ColumnAliases = []string{}
err = json.Unmarshal(columnAliasesJSON, &table.ColumnAliases)
if err != nil {
iter.Close()
return nil, fmt.Errorf(
"invalid JSON value '%s' as column_aliases for in table '%s': %v",
columnAliasesJSON, table.Name, err,
)
}
}
tables = append(tables, table)
table = TableMetadata{Keyspace: keyspaceName}
}
err := iter.Close()
if err != nil && err != ErrNotFound {
return nil, fmt.Errorf("error querying table schema: %v", err)
}
return tables, nil
}
func (s *Session) scanColumnMetadataV1(keyspace string) ([]ColumnMetadata, error) {
// V1 does not support the type column, and all returned rows are
// of kind "regular".
const stmt = `
SELECT
columnfamily_name,
column_name,
component_index,
validator,
index_name,
index_type,
index_options
FROM system.schema_columns
WHERE keyspace_name = ?`
var columns []ColumnMetadata
rows := s.control.query(stmt+s.usingTimeoutClause, keyspace).Scanner()
for rows.Next() {
var (
column = ColumnMetadata{Keyspace: keyspace}
indexOptionsJSON []byte
)
// all columns returned by V1 are regular
column.Kind = ColumnRegular
err := rows.Scan(&column.Table,
&column.Name,
&column.ComponentIndex,
&column.Validator,
&column.Index.Name,
&column.Index.Type,
&indexOptionsJSON)
if err != nil {
return nil, err
}
if len(indexOptionsJSON) > 0 {
err := json.Unmarshal(indexOptionsJSON, &column.Index.Options)
if err != nil {
return nil, fmt.Errorf(
"invalid JSON value '%s' as index_options for column '%s' in table '%s': %v",
indexOptionsJSON,
column.Name,
column.Table,
err)
}
}
columns = append(columns, column)
}
if err := rows.Err(); err != nil {
return nil, err
}
return columns, nil
}
func (s *Session) scanColumnMetadataV2(keyspace string) ([]ColumnMetadata, error) {
// V2+ supports the type column
const stmt = `
SELECT
columnfamily_name,
column_name,
component_index,
validator,
index_name,
index_type,
index_options,
type
FROM system.schema_columns
WHERE keyspace_name = ?`
var columns []ColumnMetadata
rows := s.control.query(stmt+s.usingTimeoutClause, keyspace).Scanner()
for rows.Next() {
var (
column = ColumnMetadata{Keyspace: keyspace}
indexOptionsJSON []byte
)
err := rows.Scan(&column.Table,
&column.Name,
&column.ComponentIndex,
&column.Validator,
&column.Index.Name,
&column.Index.Type,
&indexOptionsJSON,
&column.Kind,
)
if err != nil {
return nil, err
}
if len(indexOptionsJSON) > 0 {
err := json.Unmarshal(indexOptionsJSON, &column.Index.Options)
if err != nil {
return nil, fmt.Errorf(
"invalid JSON value '%s' as index_options for column '%s' in table '%s': %v",
indexOptionsJSON,
column.Name,
column.Table,
err)
}
}
columns = append(columns, column)
}
if err := rows.Err(); err != nil {
return nil, err
}
return columns, nil
}
func (s *Session) scanColumnMetadataSystem(keyspace string) ([]ColumnMetadata, error) {
const stmt = `
SELECT
table_name,
column_name,
clustering_order,
type,
kind,
position
FROM system_schema.columns
WHERE keyspace_name = ?`
var columns []ColumnMetadata
rows := s.control.query(stmt+s.usingTimeoutClause, keyspace).Scanner()
for rows.Next() {
column := ColumnMetadata{Keyspace: keyspace}
err := rows.Scan(&column.Table,
&column.Name,
&column.ClusteringOrder,
&column.Validator,
&column.Kind,
&column.ComponentIndex,
)
if err != nil {
return nil, err
}
columns = append(columns, column)
}
if err := rows.Err(); err != nil {
return nil, err
}
// TODO(zariel): get column index info from system_schema.indexes
return columns, nil
}
// query for only the column metadata in the specified keyspace from system.schema_columns
func getColumnMetadata(session *Session, keyspaceName string) ([]ColumnMetadata, error) {
var (
columns []ColumnMetadata
err error
)
// Deal with differences in protocol versions
if session.cfg.ProtoVersion == 1 {
columns, err = session.scanColumnMetadataV1(keyspaceName)
} else if session.useSystemSchema { // Cassandra 3.x+
columns, err = session.scanColumnMetadataSystem(keyspaceName)
} else {
columns, err = session.scanColumnMetadataV2(keyspaceName)
}
if err != nil && err != ErrNotFound {
return nil, fmt.Errorf("error querying column schema: %v", err)
}
return columns, nil
}
func getTypeInfo(t string, logger StdLogger) TypeInfo {
if strings.HasPrefix(t, apacheCassandraTypePrefix) {
t = apacheToCassandraType(t)
}
return getCassandraType(t, logger)
}
func getViewsMetadata(session *Session, keyspaceName string) ([]ViewMetadata, error) {
if session.cfg.ProtoVersion == protoVersion1 {
return nil, nil
}
var tableName string
if session.useSystemSchema {
tableName = "system_schema.types"
} else {
tableName = "system.schema_usertypes"
}
stmt := fmt.Sprintf(`
SELECT
type_name,
field_names,
field_types
FROM %s
WHERE keyspace_name = ?`, tableName)
var views []ViewMetadata
rows := session.control.query(stmt, keyspaceName).Scanner()
for rows.Next() {
view := ViewMetadata{Keyspace: keyspaceName}
var argumentTypes []string
err := rows.Scan(&view.Name,
&view.FieldNames,
&argumentTypes,
)
if err != nil {
return nil, err
}
view.FieldTypes = make([]TypeInfo, len(argumentTypes))
for i, argumentType := range argumentTypes {
view.FieldTypes[i] = getTypeInfo(argumentType, session.logger)
}
views = append(views, view)
}
if err := rows.Err(); err != nil {
return nil, err
}
return views, nil
}
func getMaterializedViewsMetadata(session *Session, keyspaceName string) ([]MaterializedViewMetadata, error) {
if !session.useSystemSchema {
return nil, nil
}
var tableName = "system_schema.views"
stmt := fmt.Sprintf(`
SELECT
view_name,
base_table_id,
base_table_name,
bloom_filter_fp_chance,
caching,
comment,
compaction,
compression,
crc_check_chance,
default_time_to_live,
extensions,
gc_grace_seconds,
id,