superset/sql_parse.py - superset - Git at Google

 # Licensed to the Apache Software Foundation (ASF) under one
 # or more contributor license agreements.  See the NOTICE file
 # distributed with this work for additional information
 # regarding copyright ownership.  The ASF licenses this file
 # to you under the Apache License, Version 2.0 (the
 # "License"); you may not use this file except in compliance
 # with the License.  You may obtain a copy of the License at
 #
 #   http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing,
 # software distributed under the License is distributed on an
 # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 # KIND, either express or implied.  See the License for the
 # specific language governing permissions and limitations
 # under the License.
 import logging
 from dataclasses import dataclass  # pylint: disable=wrong-import-order
 from enum import Enum
 from typing import List, Optional, Set
 from urllib import parse

 import sqlparse
 from sqlparse.sql import Identifier, IdentifierList, remove_quotes, Token, TokenList
 from sqlparse.tokens import Keyword, Name, Punctuation, String, Whitespace
 from sqlparse.utils import imt

 RESULT_OPERATIONS = {"UNION", "INTERSECT", "EXCEPT", "SELECT"}
 ON_KEYWORD = "ON"
 PRECEDES_TABLE_NAME = {"FROM", "JOIN", "DESCRIBE", "WITH", "LEFT JOIN", "RIGHT JOIN"}
 CTE_PREFIX = "CTE__"
 logger = logging.getLogger(__name__)


 class CtasMethod(str, Enum):
     TABLE = "TABLE"
     VIEW = "VIEW"


 def _extract_limit_from_query(statement: TokenList) -> Optional[int]:
     """
     Extract limit clause from SQL statement.

     :param statement: SQL statement
     :return: Limit extracted from query, None if no limit present in statement
     """
     idx, _ = statement.token_next_by(m=(Keyword, "LIMIT"))
     if idx is not None:
         _, token = statement.token_next(idx=idx)
         if token:
             if isinstance(token, IdentifierList):
                 # In case of "LIMIT <offset>, <limit>", find comma and extract
                 # first succeeding non-whitespace token
                 idx, _ = token.token_next_by(m=(sqlparse.tokens.Punctuation, ","))
                 _, token = token.token_next(idx=idx)
             if token and token.ttype == sqlparse.tokens.Literal.Number.Integer:
                 return int(token.value)
     return None


 @dataclass(eq=True, frozen=True)
 class Table:  # pylint: disable=too-few-public-methods
     """
     A fully qualified SQL table conforming to [[catalog.]schema.]table.
     """

     table: str
     schema: Optional[str] = None
     catalog: Optional[str] = None

     def __str__(self) -> str:
         """
         Return the fully qualified SQL table name.
         """

         return ".".join(
             parse.quote(part, safe="").replace(".", "%2E")
             for part in [self.catalog, self.schema, self.table]
             if part
         )


 class ParsedQuery:
     def __init__(self, sql_statement: str, strip_comments: bool = False):
         if strip_comments:
             sql_statement = sqlparse.format(sql_statement, strip_comments=True)

         self.sql: str = sql_statement
         self._tables: Set[Table] = set()
         self._alias_names: Set[str] = set()
         self._limit: Optional[int] = None

         logger.debug("Parsing with sqlparse statement: %s", self.sql)
         self._parsed = sqlparse.parse(self.stripped())
         for statement in self._parsed:
             self._limit = _extract_limit_from_query(statement)

     @property
     def tables(self) -> Set[Table]:
         if not self._tables:
             for statement in self._parsed:
                 self._extract_from_token(statement)

             self._tables = {
                 table for table in self._tables if str(table) not in self._alias_names
             }
         return self._tables

     @property
     def limit(self) -> Optional[int]:
         return self._limit

     def is_select(self) -> bool:
         return self._parsed[0].get_type() == "SELECT"

     def is_valid_ctas(self) -> bool:
         return self._parsed[-1].get_type() == "SELECT"

     def is_valid_cvas(self) -> bool:
         return len(self._parsed) == 1 and self._parsed[0].get_type() == "SELECT"

     def is_explain(self) -> bool:
         # Remove comments
         statements_without_comments = sqlparse.format(
             self.stripped(), strip_comments=True
         )

         # Explain statements will only be the first statement
         return statements_without_comments.startswith("EXPLAIN")

     def is_show(self) -> bool:
         # Remove comments
         statements_without_comments = sqlparse.format(
             self.stripped(), strip_comments=True
         )
         # Show statements will only be the first statement
         return statements_without_comments.upper().startswith("SHOW")

     def is_set(self) -> bool:
         # Remove comments
         statements_without_comments = sqlparse.format(
             self.stripped(), strip_comments=True
         )
         # Set statements will only be the first statement
         return statements_without_comments.upper().startswith("SET")

     def is_unknown(self) -> bool:
         return self._parsed[0].get_type() == "UNKNOWN"

     def stripped(self) -> str:
         return self.sql.strip(" \t\n;")

     def get_statements(self) -> List[str]:
         """Returns a list of SQL statements as strings, stripped"""
         statements = []
         for statement in self._parsed:
             if statement:
                 sql = str(statement).strip(" \n;\t")
                 if sql:
                     statements.append(sql)
         return statements

     @staticmethod
     def _get_table(tlist: TokenList) -> Optional[Table]:
         """
         Return the table if valid, i.e., conforms to the [[catalog.]schema.]table
         construct.

         :param tlist: The SQL tokens
         :returns: The table if the name conforms
         """

         # Strip the alias if present.
         idx = len(tlist.tokens)

         if tlist.has_alias():
             ws_idx, _ = tlist.token_next_by(t=Whitespace)

             if ws_idx != -1:
                 idx = ws_idx

         tokens = tlist.tokens[:idx]

         if (
             len(tokens) in (1, 3, 5)
             and all(imt(token, t=[Name, String]) for token in tokens[::2])
             and all(imt(token, m=(Punctuation, ".")) for token in tokens[1::2])
         ):
             return Table(*[remove_quotes(token.value) for token in tokens[::-2]])

         return None

     @staticmethod
     def _is_identifier(token: Token) -> bool:
         return isinstance(token, (IdentifierList, Identifier))

     def _process_tokenlist(self, token_list: TokenList) -> None:
         """
         Add table names to table set

         :param token_list: TokenList to be processed
         """
         # exclude subselects
         if "(" not in str(token_list):
             table = self._get_table(token_list)
             if table and not table.table.startswith(CTE_PREFIX):
                 self._tables.add(table)
             return

         # store aliases
         if token_list.has_alias():
             self._alias_names.add(token_list.get_alias())

         # some aliases are not parsed properly
         if token_list.tokens[0].ttype == Name:
             self._alias_names.add(token_list.tokens[0].value)
         self._extract_from_token(token_list)

     def as_create_table(
         self,
         table_name: str,
         schema_name: Optional[str] = None,
         overwrite: bool = False,
         method: CtasMethod = CtasMethod.TABLE,
     ) -> str:
         """Reformats the query into the create table as query.

         Works only for the single select SQL statements, in all other cases
         the sql query is not modified.
         :param table_name: table that will contain the results of the query execution
         :param schema_name: schema name for the target table
         :param overwrite: table_name will be dropped if true
         :param method: method for the CTA query, currently view or table creation
         :return: Create table as query
         """
         exec_sql = ""
         sql = self.stripped()
         # TODO(bkyryliuk): quote full_table_name
         full_table_name = f"{schema_name}.{table_name}" if schema_name else table_name
         if overwrite:
             exec_sql = f"DROP {method} IF EXISTS {full_table_name};\n"
         exec_sql += f"CREATE {method} {full_table_name} AS \n{sql}"
         return exec_sql

     def _extract_from_token(  # pylint: disable=too-many-branches
         self, token: Token
     ) -> None:
         """
         <Identifier> store a list of subtokens and <IdentifierList> store lists of
         subtoken list.

         It extracts <IdentifierList> and <Identifier> from :param token: and loops
         through all subtokens recursively. It finds table_name_preceding_token and
         passes <IdentifierList> and <Identifier> to self._process_tokenlist to populate
         self._tables.

         :param token: instance of Token or child class, e.g. TokenList, to be processed
         """
         if not hasattr(token, "tokens"):
             return

         table_name_preceding_token = False

         for item in token.tokens:
             if item.is_group and not self._is_identifier(item):
                 self._extract_from_token(item)

             if item.ttype in Keyword and (
                 item.normalized in PRECEDES_TABLE_NAME
                 or item.normalized.endswith(" JOIN")
             ):
                 table_name_preceding_token = True
                 continue

             if item.ttype in Keyword:
                 table_name_preceding_token = False
                 continue

             if table_name_preceding_token:
                 if isinstance(item, Identifier):
                     self._process_tokenlist(item)
                 elif isinstance(item, IdentifierList):
                     for token2 in item.get_identifiers():
                         if isinstance(token2, TokenList):
                             self._process_tokenlist(token2)
             elif isinstance(item, IdentifierList):
                 if any(not self._is_identifier(token2) for token2 in item.tokens):
                     self._extract_from_token(item)

     def set_or_update_query_limit(self, new_limit: int) -> str:
         """Returns the query with the specified limit.

         Does not change the underlying query if user did not apply the limit,
         otherwise replaces the limit with the lower value between existing limit
         in the query and new_limit.

         :param new_limit: Limit to be incorporated into returned query
         :return: The original query with new limit
         """
         if not self._limit:
             return f"{self.stripped()}\nLIMIT {new_limit}"
         limit_pos = None
         statement = self._parsed[0]
         # Add all items to before_str until there is a limit
         for pos, item in enumerate(statement.tokens):
             if item.ttype in Keyword and item.value.lower() == "limit":
                 limit_pos = pos
                 break
         _, limit = statement.token_next(idx=limit_pos)
         # Override the limit only when it exceeds the configured value.
         if limit.ttype == sqlparse.tokens.Literal.Number.Integer and new_limit < int(
             limit.value
         ):
             limit.value = new_limit
         elif limit.is_group:
             limit.value = f"{next(limit.get_identifiers())}, {new_limit}"

         str_res = ""
         for i in statement.tokens:
             str_res += str(i.value)
         return str_res
	# Licensed to the Apache Software Foundation (ASF) under one
	# or more contributor license agreements. See the NOTICE file
	# distributed with this work for additional information
	# regarding copyright ownership. The ASF licenses this file
	# to you under the Apache License, Version 2.0 (the
	# "License"); you may not use this file except in compliance
	# with the License. You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing,
	# software distributed under the License is distributed on an
	# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	# KIND, either express or implied. See the License for the
	# specific language governing permissions and limitations
	# under the License.
	import logging
	from dataclasses import dataclass # pylint: disable=wrong-import-order
	from enum import Enum
	from typing import List, Optional, Set
	from urllib import parse

	import sqlparse
	from sqlparse.sql import Identifier, IdentifierList, remove_quotes, Token, TokenList
	from sqlparse.tokens import Keyword, Name, Punctuation, String, Whitespace
	from sqlparse.utils import imt

	RESULT_OPERATIONS = {"UNION", "INTERSECT", "EXCEPT", "SELECT"}
	ON_KEYWORD = "ON"
	PRECEDES_TABLE_NAME = {"FROM", "JOIN", "DESCRIBE", "WITH", "LEFT JOIN", "RIGHT JOIN"}
	CTE_PREFIX = "CTE__"
	logger = logging.getLogger(__name__)


	class CtasMethod(str, Enum):
	TABLE = "TABLE"
	VIEW = "VIEW"


	def _extract_limit_from_query(statement: TokenList) -> Optional[int]:
	"""
	Extract limit clause from SQL statement.

	:param statement: SQL statement
	:return: Limit extracted from query, None if no limit present in statement
	"""
	idx, _ = statement.token_next_by(m=(Keyword, "LIMIT"))
	if idx is not None:
	_, token = statement.token_next(idx=idx)
	if token:
	if isinstance(token, IdentifierList):
	# In case of "LIMIT <offset>, <limit>", find comma and extract
	# first succeeding non-whitespace token
	idx, _ = token.token_next_by(m=(sqlparse.tokens.Punctuation, ","))
	_, token = token.token_next(idx=idx)
	if token and token.ttype == sqlparse.tokens.Literal.Number.Integer:
	return int(token.value)
	return None


	@dataclass(eq=True, frozen=True)
	class Table: # pylint: disable=too-few-public-methods
	"""
	A fully qualified SQL table conforming to [[catalog.]schema.]table.
	"""

	table: str
	schema: Optional[str] = None
	catalog: Optional[str] = None

	def __str__(self) -> str:
	"""
	Return the fully qualified SQL table name.
	"""

	return ".".join(
	parse.quote(part, safe="").replace(".", "%2E")
	for part in [self.catalog, self.schema, self.table]
	if part
	)


	class ParsedQuery:
	def __init__(self, sql_statement: str, strip_comments: bool = False):
	if strip_comments:
	sql_statement = sqlparse.format(sql_statement, strip_comments=True)

	self.sql: str = sql_statement
	self._tables: Set[Table] = set()
	self._alias_names: Set[str] = set()
	self._limit: Optional[int] = None

	logger.debug("Parsing with sqlparse statement: %s", self.sql)
	self._parsed = sqlparse.parse(self.stripped())
	for statement in self._parsed:
	self._limit = _extract_limit_from_query(statement)

	@property
	def tables(self) -> Set[Table]:
	if not self._tables:
	for statement in self._parsed:
	self._extract_from_token(statement)

	self._tables = {
	table for table in self._tables if str(table) not in self._alias_names
	}
	return self._tables

	@property
	def limit(self) -> Optional[int]:
	return self._limit

	def is_select(self) -> bool:
	return self._parsed[0].get_type() == "SELECT"

	def is_valid_ctas(self) -> bool:
	return self._parsed[-1].get_type() == "SELECT"

	def is_valid_cvas(self) -> bool:
	return len(self._parsed) == 1 and self._parsed[0].get_type() == "SELECT"

	def is_explain(self) -> bool:
	# Remove comments
	statements_without_comments = sqlparse.format(
	self.stripped(), strip_comments=True
	)

	# Explain statements will only be the first statement
	return statements_without_comments.startswith("EXPLAIN")

	def is_show(self) -> bool:
	# Remove comments
	statements_without_comments = sqlparse.format(
	self.stripped(), strip_comments=True
	)
	# Show statements will only be the first statement
	return statements_without_comments.upper().startswith("SHOW")

	def is_set(self) -> bool:
	# Remove comments
	statements_without_comments = sqlparse.format(
	self.stripped(), strip_comments=True
	)
	# Set statements will only be the first statement
	return statements_without_comments.upper().startswith("SET")

	def is_unknown(self) -> bool:
	return self._parsed[0].get_type() == "UNKNOWN"

	def stripped(self) -> str:
	return self.sql.strip(" \t\n;")

	def get_statements(self) -> List[str]:
	"""Returns a list of SQL statements as strings, stripped"""
	statements = []
	for statement in self._parsed:
	if statement:
	sql = str(statement).strip(" \n;\t")
	if sql:
	statements.append(sql)
	return statements

	@staticmethod
	def _get_table(tlist: TokenList) -> Optional[Table]:
	"""
	Return the table if valid, i.e., conforms to the [[catalog.]schema.]table
	construct.

	:param tlist: The SQL tokens
	:returns: The table if the name conforms
	"""

	# Strip the alias if present.
	idx = len(tlist.tokens)

	if tlist.has_alias():
	ws_idx, _ = tlist.token_next_by(t=Whitespace)

	if ws_idx != -1:
	idx = ws_idx

	tokens = tlist.tokens[:idx]

	if (
	len(tokens) in (1, 3, 5)
	and all(imt(token, t=[Name, String]) for token in tokens[::2])
	and all(imt(token, m=(Punctuation, ".")) for token in tokens[1::2])
	):
	return Table(*[remove_quotes(token.value) for token in tokens[::-2]])

	return None

	@staticmethod
	def _is_identifier(token: Token) -> bool:
	return isinstance(token, (IdentifierList, Identifier))

	def _process_tokenlist(self, token_list: TokenList) -> None:
	"""
	Add table names to table set

	:param token_list: TokenList to be processed
	"""
	# exclude subselects
	if "(" not in str(token_list):
	table = self._get_table(token_list)
	if table and not table.table.startswith(CTE_PREFIX):
	self._tables.add(table)
	return

	# store aliases
	if token_list.has_alias():
	self._alias_names.add(token_list.get_alias())

	# some aliases are not parsed properly
	if token_list.tokens[0].ttype == Name:
	self._alias_names.add(token_list.tokens[0].value)
	self._extract_from_token(token_list)

	def as_create_table(
	self,
	table_name: str,
	schema_name: Optional[str] = None,
	overwrite: bool = False,
	method: CtasMethod = CtasMethod.TABLE,
	) -> str:
	"""Reformats the query into the create table as query.

	Works only for the single select SQL statements, in all other cases
	the sql query is not modified.
	:param table_name: table that will contain the results of the query execution
	:param schema_name: schema name for the target table
	:param overwrite: table_name will be dropped if true
	:param method: method for the CTA query, currently view or table creation
	:return: Create table as query
	"""
	exec_sql = ""
	sql = self.stripped()
	# TODO(bkyryliuk): quote full_table_name
	full_table_name = f"{schema_name}.{table_name}" if schema_name else table_name
	if overwrite:
	exec_sql = f"DROP {method} IF EXISTS {full_table_name};\n"
	exec_sql += f"CREATE {method} {full_table_name} AS \n{sql}"
	return exec_sql

	def _extract_from_token( # pylint: disable=too-many-branches
	self, token: Token
	) -> None:
	"""
	<Identifier> store a list of subtokens and <IdentifierList> store lists of
	subtoken list.

	It extracts <IdentifierList> and <Identifier> from :param token: and loops
	through all subtokens recursively. It finds table_name_preceding_token and
	passes <IdentifierList> and <Identifier> to self._process_tokenlist to populate
	self._tables.

	:param token: instance of Token or child class, e.g. TokenList, to be processed
	"""
	if not hasattr(token, "tokens"):
	return

	table_name_preceding_token = False

	for item in token.tokens:
	if item.is_group and not self._is_identifier(item):
	self._extract_from_token(item)

	if item.ttype in Keyword and (
	item.normalized in PRECEDES_TABLE_NAME
	or item.normalized.endswith(" JOIN")
	):
	table_name_preceding_token = True
	continue

	if item.ttype in Keyword:
	table_name_preceding_token = False
	continue

	if table_name_preceding_token:
	if isinstance(item, Identifier):
	self._process_tokenlist(item)
	elif isinstance(item, IdentifierList):
	for token2 in item.get_identifiers():
	if isinstance(token2, TokenList):
	self._process_tokenlist(token2)
	elif isinstance(item, IdentifierList):
	if any(not self._is_identifier(token2) for token2 in item.tokens):
	self._extract_from_token(item)

	def set_or_update_query_limit(self, new_limit: int) -> str:
	"""Returns the query with the specified limit.

	Does not change the underlying query if user did not apply the limit,
	otherwise replaces the limit with the lower value between existing limit
	in the query and new_limit.

	:param new_limit: Limit to be incorporated into returned query
	:return: The original query with new limit
	"""
	if not self._limit:
	return f"{self.stripped()}\nLIMIT {new_limit}"
	limit_pos = None
	statement = self._parsed[0]
	# Add all items to before_str until there is a limit
	for pos, item in enumerate(statement.tokens):
	if item.ttype in Keyword and item.value.lower() == "limit":
	limit_pos = pos
	break
	_, limit = statement.token_next(idx=limit_pos)
	# Override the limit only when it exceeds the configured value.
	if limit.ttype == sqlparse.tokens.Literal.Number.Integer and new_limit < int(
	limit.value
	):
	limit.value = new_limit
	elif limit.is_group:
	limit.value = f"{next(limit.get_identifiers())}, {new_limit}"

	str_res = ""
	for i in statement.tokens:
	str_res += str(i.value)
	return str_res