ClickHouse/src/Interpreters/InterpreterCreateQuery.cpp

784 lines
29 KiB
C++

#include <memory>
#include <Poco/File.h>
#include <Common/StringUtils/StringUtils.h>
#include <Common/escapeForFileName.h>
#include <Common/typeid_cast.h>
#include <Core/Defines.h>
#include <IO/WriteBufferFromFile.h>
#include <IO/WriteHelpers.h>
#include <Parsers/ASTColumnDeclaration.h>
#include <Parsers/ASTCreateQuery.h>
#include <Parsers/ASTIdentifier.h>
#include <Parsers/ASTIndexDeclaration.h>
#include <Parsers/ASTLiteral.h>
#include <Parsers/ASTNameTypePair.h>
#include <Parsers/ASTInsertQuery.h>
#include <Parsers/ParserCreateQuery.h>
#include <Parsers/formatAST.h>
#include <Parsers/parseQuery.h>
#include <Storages/StorageFactory.h>
#include <Interpreters/Context.h>
#include <Interpreters/DDLWorker.h>
#include <Interpreters/ExpressionAnalyzer.h>
#include <Interpreters/SyntaxAnalyzer.h>
#include <Interpreters/InterpreterCreateQuery.h>
#include <Interpreters/InterpreterSelectWithUnionQuery.h>
#include <Interpreters/InterpreterInsertQuery.h>
#include <Interpreters/ExpressionActions.h>
#include <Interpreters/AddDefaultDatabaseVisitor.h>
#include <Access/AccessRightsElement.h>
#include <DataTypes/DataTypeFactory.h>
#include <DataTypes/NestedUtils.h>
#include <DataTypes/DataTypesNumber.h>
#include <DataTypes/DataTypeLowCardinality.h>
#include <DataTypes/DataTypeNullable.h>
#include <Databases/DatabaseFactory.h>
#include <Databases/IDatabase.h>
#include <Compression/CompressionFactory.h>
#include <Interpreters/InterpreterDropQuery.h>
#include <Interpreters/addTypeConversionToAST.h>
#include <TableFunctions/TableFunctionFactory.h>
namespace DB
{
namespace ErrorCodes
{
extern const int TABLE_ALREADY_EXISTS;
extern const int EMPTY_LIST_OF_COLUMNS_PASSED;
extern const int INCORRECT_QUERY;
extern const int UNKNOWN_DATABASE_ENGINE;
extern const int DUPLICATE_COLUMN;
extern const int DATABASE_ALREADY_EXISTS;
extern const int BAD_DATABASE_FOR_TEMPORARY_TABLE;
extern const int SUSPICIOUS_TYPE_FOR_LOW_CARDINALITY;
extern const int DICTIONARY_ALREADY_EXISTS;
}
InterpreterCreateQuery::InterpreterCreateQuery(const ASTPtr & query_ptr_, Context & context_)
: query_ptr(query_ptr_), context(context_)
{
}
BlockIO InterpreterCreateQuery::createDatabase(ASTCreateQuery & create)
{
String database_name = create.database;
auto guard = DatabaseCatalog::instance().getDDLGuard(database_name, "");
/// Database can be created before or it can be created concurrently in another thread, while we were waiting in DDLGuard
if (DatabaseCatalog::instance().isDatabaseExist(database_name))
{
if (create.if_not_exists)
return {};
else
throw Exception("Database " + database_name + " already exists.", ErrorCodes::DATABASE_ALREADY_EXISTS);
}
if (!create.storage)
{
auto engine = std::make_shared<ASTFunction>();
auto storage = std::make_shared<ASTStorage>();
engine->name = "Ordinary";
storage->set(storage->engine, engine);
create.set(create.storage, storage);
}
else if ((create.columns_list && create.columns_list->indices && !create.columns_list->indices->children.empty()))
{
/// Currently, there are no database engines, that support any arguments.
std::stringstream ostr;
formatAST(*create.storage, ostr, false, false);
throw Exception("Unknown database engine: " + ostr.str(), ErrorCodes::UNKNOWN_DATABASE_ENGINE);
}
String database_name_escaped = escapeForFileName(database_name);
/// Create directories for tables metadata.
String path = context.getPath();
String metadata_path = path + "metadata/" + database_name_escaped + "/";
DatabasePtr database = DatabaseFactory::get(database_name, metadata_path, create.storage, context);
/// Will write file with database metadata, if needed.
String metadata_file_tmp_path = path + "metadata/" + database_name_escaped + ".sql.tmp";
String metadata_file_path = path + "metadata/" + database_name_escaped + ".sql";
bool need_write_metadata = !create.attach;
if (need_write_metadata)
{
create.attach = true;
create.if_not_exists = false;
std::ostringstream statement_stream;
formatAST(create, statement_stream, false);
statement_stream << '\n';
String statement = statement_stream.str();
/// Exclusive flag guarantees, that database is not created right now in another thread.
WriteBufferFromFile out(metadata_file_tmp_path, statement.size(), O_WRONLY | O_CREAT | O_EXCL);
writeString(statement, out);
out.next();
if (context.getSettingsRef().fsync_metadata)
out.sync();
out.close();
}
bool added = false;
bool renamed = false;
try
{
//FIXME is it possible to attach db only after it was loaded? (no, loadStoredObjects adds view dependencies)
DatabaseCatalog::instance().attachDatabase(database_name, database);
added = true;
if (need_write_metadata)
{
Poco::File(metadata_file_tmp_path).renameTo(metadata_file_path);
renamed = true;
}
database->loadStoredObjects(context, has_force_restore_data_flag);
}
catch (...)
{
if (renamed)
Poco::File(metadata_file_tmp_path).remove();
if (added)
DatabaseCatalog::instance().detachDatabase(database_name, false, false);
throw;
}
return {};
}
ASTPtr InterpreterCreateQuery::formatColumns(const NamesAndTypesList & columns)
{
auto columns_list = std::make_shared<ASTExpressionList>();
for (const auto & column : columns)
{
const auto column_declaration = std::make_shared<ASTColumnDeclaration>();
column_declaration->name = column.name;
ParserIdentifierWithOptionalParameters storage_p;
String type_name = column.type->getName();
auto pos = type_name.data();
const auto end = pos + type_name.size();
column_declaration->type = parseQuery(storage_p, pos, end, "data type", 0, DBMS_DEFAULT_MAX_PARSER_DEPTH);
columns_list->children.emplace_back(column_declaration);
}
return columns_list;
}
ASTPtr InterpreterCreateQuery::formatColumns(const ColumnsDescription & columns)
{
auto columns_list = std::make_shared<ASTExpressionList>();
for (const auto & column : columns)
{
/// Do not include virtual columns
if (column.is_virtual)
continue;
const auto column_declaration = std::make_shared<ASTColumnDeclaration>();
ASTPtr column_declaration_ptr{column_declaration};
column_declaration->name = column.name;
ParserIdentifierWithOptionalParameters storage_p;
String type_name = column.type->getName();
auto type_name_pos = type_name.data();
const auto type_name_end = type_name_pos + type_name.size();
column_declaration->type = parseQuery(storage_p, type_name_pos, type_name_end, "data type", 0, DBMS_DEFAULT_MAX_PARSER_DEPTH);
if (column.default_desc.expression)
{
column_declaration->default_specifier = toString(column.default_desc.kind);
column_declaration->default_expression = column.default_desc.expression->clone();
}
if (!column.comment.empty())
{
column_declaration->comment = std::make_shared<ASTLiteral>(Field(column.comment));
}
if (column.codec)
{
String codec_desc = column.codec->getCodecDesc();
codec_desc = "CODEC(" + codec_desc + ")";
auto codec_desc_pos = codec_desc.data();
const auto codec_desc_end = codec_desc_pos + codec_desc.size();
ParserIdentifierWithParameters codec_p;
column_declaration->codec = parseQuery(codec_p, codec_desc_pos, codec_desc_end, "column codec", 0, DBMS_DEFAULT_MAX_PARSER_DEPTH);
}
if (column.ttl)
column_declaration->ttl = column.ttl;
columns_list->children.push_back(column_declaration_ptr);
}
return columns_list;
}
ASTPtr InterpreterCreateQuery::formatIndices(const IndicesDescription & indices)
{
auto res = std::make_shared<ASTExpressionList>();
for (const auto & index : indices.indices)
res->children.push_back(index->clone());
return res;
}
ASTPtr InterpreterCreateQuery::formatConstraints(const ConstraintsDescription & constraints)
{
auto res = std::make_shared<ASTExpressionList>();
for (const auto & constraint : constraints.constraints)
res->children.push_back(constraint->clone());
return res;
}
ColumnsDescription InterpreterCreateQuery::getColumnsDescription(const ASTExpressionList & columns_ast, const Context & context)
{
/// First, deduce implicit types.
/** all default_expressions as a single expression list,
* mixed with conversion-columns for each explicitly specified type */
ASTPtr default_expr_list = std::make_shared<ASTExpressionList>();
NamesAndTypesList column_names_and_types;
for (const auto & ast : columns_ast.children)
{
const auto & col_decl = ast->as<ASTColumnDeclaration &>();
DataTypePtr column_type = nullptr;
if (col_decl.type)
{
column_type = DataTypeFactory::instance().get(col_decl.type);
column_names_and_types.emplace_back(col_decl.name, column_type);
}
else
{
/// we're creating dummy DataTypeUInt8 in order to prevent the NullPointerException in ExpressionActions
column_names_and_types.emplace_back(col_decl.name, std::make_shared<DataTypeUInt8>());
}
/// add column to postprocessing if there is a default_expression specified
if (col_decl.default_expression)
{
/** For columns with explicitly-specified type create two expressions:
* 1. default_expression aliased as column name with _tmp suffix
* 2. conversion of expression (1) to explicitly-specified type alias as column name
*/
if (col_decl.type)
{
const auto & final_column_name = col_decl.name;
const auto tmp_column_name = final_column_name + "_tmp";
const auto data_type_ptr = column_names_and_types.back().type.get();
default_expr_list->children.emplace_back(
setAlias(addTypeConversionToAST(std::make_shared<ASTIdentifier>(tmp_column_name), data_type_ptr->getName()),
final_column_name));
default_expr_list->children.emplace_back(
setAlias(
col_decl.default_expression->clone(),
tmp_column_name));
}
else
default_expr_list->children.emplace_back(setAlias(col_decl.default_expression->clone(), col_decl.name));
}
}
Block defaults_sample_block;
/// set missing types and wrap default_expression's in a conversion-function if necessary
if (!default_expr_list->children.empty())
defaults_sample_block = validateColumnsDefaultsAndGetSampleBlock(default_expr_list, column_names_and_types, context);
ColumnsDescription res;
auto name_type_it = column_names_and_types.begin();
for (auto ast_it = columns_ast.children.begin(); ast_it != columns_ast.children.end(); ++ast_it, ++name_type_it)
{
ColumnDescription column;
auto & col_decl = (*ast_it)->as<ASTColumnDeclaration &>();
column.name = col_decl.name;
if (col_decl.default_expression)
{
ASTPtr default_expr = col_decl.default_expression->clone();
if (col_decl.type)
{
const auto & deduced_type = defaults_sample_block.getByName(column.name + "_tmp").type;
column.type = name_type_it->type;
if (!column.type->equals(*deduced_type))
default_expr = addTypeConversionToAST(std::move(default_expr), column.type->getName());
}
else
column.type = defaults_sample_block.getByName(column.name).type;
column.default_desc.kind = columnDefaultKindFromString(col_decl.default_specifier);
column.default_desc.expression = default_expr;
}
else if (col_decl.type)
column.type = name_type_it->type;
else
throw Exception();
if (col_decl.comment)
column.comment = col_decl.comment->as<ASTLiteral &>().value.get<String>();
if (col_decl.codec)
column.codec = CompressionCodecFactory::instance().get(col_decl.codec, column.type);
if (col_decl.ttl)
column.ttl = col_decl.ttl;
res.add(std::move(column));
}
res.flattenNested();
if (res.getAllPhysical().empty())
throw Exception{"Cannot CREATE table without physical columns", ErrorCodes::EMPTY_LIST_OF_COLUMNS_PASSED};
return res;
}
ConstraintsDescription InterpreterCreateQuery::getConstraintsDescription(const ASTExpressionList * constraints)
{
ConstraintsDescription res;
if (constraints)
for (const auto & constraint : constraints->children)
res.constraints.push_back(std::dynamic_pointer_cast<ASTConstraintDeclaration>(constraint->clone()));
return res;
}
InterpreterCreateQuery::TableProperties InterpreterCreateQuery::setProperties(ASTCreateQuery & create) const
{
TableProperties properties;
TableStructureReadLockHolder as_storage_lock;
if (create.columns_list)
{
if (create.columns_list->columns)
properties.columns = getColumnsDescription(*create.columns_list->columns, context);
if (create.columns_list->indices)
for (const auto & index : create.columns_list->indices->children)
properties.indices.indices.push_back(
std::dynamic_pointer_cast<ASTIndexDeclaration>(index->clone()));
properties.constraints = getConstraintsDescription(create.columns_list->constraints);
}
else if (!create.as_table.empty())
{
String as_database_name = context.resolveDatabase(create.as_database);
StoragePtr as_storage = DatabaseCatalog::instance().getTable({as_database_name, create.as_table});
/// as_storage->getColumns() and setEngine(...) must be called under structure lock of other_table for CREATE ... AS other_table.
as_storage_lock = as_storage->lockStructureForShare(
false, context.getCurrentQueryId(), context.getSettingsRef().lock_acquire_timeout);
properties.columns = as_storage->getColumns();
/// Secondary indices make sense only for MergeTree family of storage engines.
/// We should not copy them for other storages.
if (create.storage && endsWith(create.storage->engine->name, "MergeTree"))
properties.indices = as_storage->getIndices();
properties.constraints = as_storage->getConstraints();
}
else if (create.select)
{
Block as_select_sample = InterpreterSelectWithUnionQuery::getSampleBlock(create.select->clone(), context);
properties.columns = ColumnsDescription(as_select_sample.getNamesAndTypesList());
}
else if (create.as_table_function)
return {};
else
throw Exception("Incorrect CREATE query: required list of column descriptions or AS section or SELECT.", ErrorCodes::INCORRECT_QUERY);
/// Even if query has list of columns, canonicalize it (unfold Nested columns).
if (!create.columns_list)
create.set(create.columns_list, std::make_shared<ASTColumns>());
ASTPtr new_columns = formatColumns(properties.columns);
ASTPtr new_indices = formatIndices(properties.indices);
ASTPtr new_constraints = formatConstraints(properties.constraints);
create.columns_list->setOrReplace(create.columns_list->columns, new_columns);
create.columns_list->setOrReplace(create.columns_list->indices, new_indices);
create.columns_list->setOrReplace(create.columns_list->constraints, new_constraints);
validateTableStructure(create, properties);
/// Set the table engine if it was not specified explicitly.
setEngine(create);
return properties;
}
void InterpreterCreateQuery::validateTableStructure(const ASTCreateQuery & create,
const InterpreterCreateQuery::TableProperties & properties) const
{
/// Check for duplicates
std::set<String> all_columns;
for (const auto & column : properties.columns)
{
if (!all_columns.emplace(column.name).second)
throw Exception("Column " + backQuoteIfNeed(column.name) + " already exists", ErrorCodes::DUPLICATE_COLUMN);
}
/// Check low cardinality types in creating table if it was not allowed in setting
if (!create.attach && !context.getSettingsRef().allow_suspicious_low_cardinality_types && !create.is_materialized_view)
{
for (const auto & name_and_type_pair : properties.columns.getAllPhysical())
{
if (const auto * current_type_ptr = typeid_cast<const DataTypeLowCardinality *>(name_and_type_pair.type.get()))
{
if (!isStringOrFixedString(*removeNullable(current_type_ptr->getDictionaryType())))
throw Exception("Creating columns of type " + current_type_ptr->getName() + " is prohibited by default "
"due to expected negative impact on performance. "
"It can be enabled with the \"allow_suspicious_low_cardinality_types\" setting.",
ErrorCodes::SUSPICIOUS_TYPE_FOR_LOW_CARDINALITY);
}
}
}
}
void InterpreterCreateQuery::setEngine(ASTCreateQuery & create) const
{
if (create.storage || create.is_view || create.is_materialized_view || create.is_live_view || create.is_dictionary)
{
if (create.temporary && create.storage->engine->name != "Memory")
throw Exception(
"Temporary tables can only be created with ENGINE = Memory, not " + create.storage->engine->name,
ErrorCodes::INCORRECT_QUERY);
return;
}
if (create.temporary)
{
auto engine_ast = std::make_shared<ASTFunction>();
engine_ast->name = "Memory";
auto storage_ast = std::make_shared<ASTStorage>();
storage_ast->set(storage_ast->engine, engine_ast);
create.set(create.storage, storage_ast);
}
else if (!create.as_table.empty())
{
/// NOTE Getting the structure from the table specified in the AS is done not atomically with the creation of the table.
String as_database_name = context.resolveDatabase(create.as_database);
String as_table_name = create.as_table;
ASTPtr as_create_ptr = DatabaseCatalog::instance().getDatabase(as_database_name)->getCreateTableQuery(context, as_table_name);
const auto & as_create = as_create_ptr->as<ASTCreateQuery &>();
const String qualified_name = backQuoteIfNeed(as_database_name) + "." + backQuoteIfNeed(as_table_name);
if (as_create.is_view)
throw Exception(
"Cannot CREATE a table AS " + qualified_name + ", it is a View",
ErrorCodes::INCORRECT_QUERY);
if (as_create.is_live_view)
throw Exception(
"Cannot CREATE a table AS " + qualified_name + ", it is a Live View",
ErrorCodes::INCORRECT_QUERY);
if (as_create.is_dictionary)
throw Exception(
"Cannot CREATE a table AS " + qualified_name + ", it is a Dictionary",
ErrorCodes::INCORRECT_QUERY);
create.set(create.storage, as_create.storage->ptr());
}
}
BlockIO InterpreterCreateQuery::createTable(ASTCreateQuery & create)
{
/// Temporary tables are created out of databases.
if (create.temporary && !create.database.empty())
throw Exception("Temporary tables cannot be inside a database. You should not specify a database for a temporary table.",
ErrorCodes::BAD_DATABASE_FOR_TEMPORARY_TABLE);
String current_database = context.getCurrentDatabase();
// If this is a stub ATTACH query, read the query definition from the database
if (create.attach && !create.storage && !create.columns_list)
{
bool if_not_exists = create.if_not_exists;
// Table SQL definition is available even if the table is detached
auto database_name = create.database.empty() ? current_database : create.database;
auto query = DatabaseCatalog::instance().getDatabase(database_name)->getCreateTableQuery(context, create.table);
create = query->as<ASTCreateQuery &>(); // Copy the saved create query, but use ATTACH instead of CREATE
create.attach = true;
create.if_not_exists = if_not_exists;
}
if (!create.temporary && create.database.empty())
create.database = current_database;
if (!create.to_table.empty() && create.to_database.empty())
create.to_database = current_database;
if (create.select && (create.is_view || create.is_materialized_view || create.is_live_view))
{
AddDefaultDatabaseVisitor visitor(current_database);
visitor.visit(*create.select);
}
/// Set and retrieve list of columns, indices and constraints. Set table engine if needed. Rewrite query in canonical way.
TableProperties properties = setProperties(create);
/// Actually creates table
bool created = doCreateTable(create, properties);
if (!created) /// Table already exists
return {};
return fillTableIfNeeded(create);
}
bool InterpreterCreateQuery::doCreateTable(const ASTCreateQuery & create,
const InterpreterCreateQuery::TableProperties & properties)
{
std::unique_ptr<DDLGuard> guard;
DatabasePtr database;
String table_name = create.table;
bool need_add_to_database = !create.temporary;
if (need_add_to_database)
{
database = DatabaseCatalog::instance().getDatabase(create.database);
/** If the request specifies IF NOT EXISTS, we allow concurrent CREATE queries (which do nothing).
* If table doesnt exist, one thread is creating table, while others wait in DDLGuard.
*/
guard = DatabaseCatalog::instance().getDDLGuard(create.database, table_name);
/// Table can be created before or it can be created concurrently in another thread, while we were waiting in DDLGuard.
if (database->isTableExist(context, table_name))
{
/// TODO Check structure of table
if (create.if_not_exists)
return false;
else if (create.replace_view)
{
/// when executing CREATE OR REPLACE VIEW, drop current existing view
auto drop_ast = std::make_shared<ASTDropQuery>();
drop_ast->database = create.database;
drop_ast->table = table_name;
drop_ast->no_ddl_lock = true;
InterpreterDropQuery interpreter(drop_ast, context);
interpreter.execute();
}
else
throw Exception("Table " + create.database + "." + table_name + " already exists.", ErrorCodes::TABLE_ALREADY_EXISTS);
}
}
else
{
if (context.tryResolveStorageID({"", table_name}, Context::ResolveExternal) && create.if_not_exists)
return false;
auto temporary_table = TemporaryTableHolder(context, properties.columns, query_ptr);
context.getSessionContext().addExternalTable(table_name, std::move(temporary_table));
return true;
}
StoragePtr res;
/// NOTE: CREATE query may be rewritten by Storage creator or table function
if (create.as_table_function)
{
const auto & table_function = create.as_table_function->as<ASTFunction &>();
const auto & factory = TableFunctionFactory::instance();
//FIXME storage will have wrong database name
res = factory.get(table_function.name, context)->execute(create.as_table_function, context, create.table);
}
else
{
res = StorageFactory::instance().get(create,
database ? database->getTableDataPath(create) : "",
context,
context.getGlobalContext(),
properties.columns,
properties.constraints,
false);
}
database->createTable(context, table_name, res, query_ptr);
/// We must call "startup" and "shutdown" while holding DDLGuard.
/// Because otherwise method "shutdown" (from InterpreterDropQuery) can be called before startup
/// (in case when table was created and instantly dropped before started up)
///
/// Method "startup" may create background tasks and method "shutdown" will wait for them.
/// But if "shutdown" is called before "startup", it will exit early, because there are no background tasks to wait.
/// Then background task is created by "startup" method. And when destructor of a table object is called, background task is still active,
/// and the task will use references to freed data.
res->startup();
return true;
}
BlockIO InterpreterCreateQuery::fillTableIfNeeded(const ASTCreateQuery & create)
{
/// If the query is a CREATE SELECT, insert the data into the table.
if (create.select && !create.attach
&& !create.is_view && !create.is_live_view && (!create.is_materialized_view || create.is_populate))
{
auto insert = std::make_shared<ASTInsertQuery>();
insert->table_id = {create.database, create.table, create.uuid};
insert->select = create.select->clone();
if (create.temporary && !context.getSessionContext().hasQueryContext())
context.getSessionContext().makeQueryContext();
return InterpreterInsertQuery(insert,
create.temporary ? context.getSessionContext() : context,
context.getSettingsRef().insert_allow_materialized_columns).execute();
}
return {};
}
BlockIO InterpreterCreateQuery::createDictionary(ASTCreateQuery & create)
{
String dictionary_name = create.table;
create.database = context.resolveDatabase(create.database);
const String & database_name = create.database;
auto guard = DatabaseCatalog::instance().getDDLGuard(database_name, dictionary_name);
DatabasePtr database = DatabaseCatalog::instance().getDatabase(database_name);
if (database->isDictionaryExist(context, dictionary_name))
{
/// TODO Check structure of dictionary
if (create.if_not_exists)
return {};
else
throw Exception(
"Dictionary " + database_name + "." + dictionary_name + " already exists.", ErrorCodes::DICTIONARY_ALREADY_EXISTS);
}
if (create.attach)
{
auto query = DatabaseCatalog::instance().getDatabase(database_name)->getCreateDictionaryQuery(context, dictionary_name);
create = query->as<ASTCreateQuery &>();
create.attach = true;
}
if (create.attach)
database->attachDictionary(dictionary_name, context);
else
database->createDictionary(context, dictionary_name, query_ptr);
return {};
}
BlockIO InterpreterCreateQuery::execute()
{
auto & create = query_ptr->as<ASTCreateQuery &>();
if (!create.cluster.empty())
return executeDDLQueryOnCluster(query_ptr, context, getRequiredAccess());
context.checkAccess(getRequiredAccess());
ASTQueryWithOutput::resetOutputASTIfExist(create);
/// CREATE|ATTACH DATABASE
if (!create.database.empty() && create.table.empty())
return createDatabase(create);
else if (!create.is_dictionary)
return createTable(create);
else
return createDictionary(create);
}
AccessRightsElements InterpreterCreateQuery::getRequiredAccess() const
{
/// Internal queries (initiated by the server itself) always have access to everything.
if (internal)
return {};
AccessRightsElements required_access;
const auto & create = query_ptr->as<const ASTCreateQuery &>();
if (create.table.empty())
{
required_access.emplace_back(AccessType::CREATE_DATABASE, create.database);
}
else if (create.is_dictionary)
{
required_access.emplace_back(AccessType::CREATE_DICTIONARY, create.database, create.table);
}
else if (create.is_view || create.is_materialized_view || create.is_live_view)
{
if (create.temporary)
required_access.emplace_back(AccessType::CREATE_TEMPORARY_TABLE);
else
{
if (create.replace_view)
required_access.emplace_back(AccessType::DROP_VIEW | AccessType::CREATE_VIEW, create.database, create.table);
else
required_access.emplace_back(AccessType::CREATE_VIEW, create.database, create.table);
}
}
else
{
if (create.temporary)
required_access.emplace_back(AccessType::CREATE_TEMPORARY_TABLE);
else
required_access.emplace_back(AccessType::CREATE_TABLE, create.database, create.table);
}
if (!create.to_table.empty())
required_access.emplace_back(AccessType::SELECT | AccessType::INSERT, create.to_database, create.to_table);
if (create.storage && create.storage->engine)
{
auto source_access_type = StorageFactory::instance().getSourceAccessType(create.storage->engine->name);
if (source_access_type != AccessType::NONE)
required_access.emplace_back(source_access_type);
}
return required_access;
}
}