OwlCyberSecurity - MANAGER

Edit File: sqla_compat.py

# mypy: allow-untyped-defs, allow-incomplete-defs, allow-untyped-calls # mypy: no-warn-return-any, allow-any-generics from __future__ import annotations import contextlib import re from typing import Any from typing import Callable from typing import Dict from typing import Iterable from typing import Iterator from typing import Optional from typing import Protocol from typing import Set from typing import Type from typing import TYPE_CHECKING from typing import TypeVar from typing import Union from sqlalchemy import __version__ from sqlalchemy import schema from sqlalchemy import sql from sqlalchemy import types as sqltypes from sqlalchemy.schema import CheckConstraint from sqlalchemy.schema import Column from sqlalchemy.schema import ForeignKeyConstraint from sqlalchemy.sql import visitors from sqlalchemy.sql.base import DialectKWArgs from sqlalchemy.sql.elements import BindParameter from sqlalchemy.sql.elements import ColumnClause from sqlalchemy.sql.elements import TextClause from sqlalchemy.sql.elements import UnaryExpression from sqlalchemy.sql.visitors import traverse from typing_extensions import TypeGuard if True: from sqlalchemy.sql.naming import _NONE_NAME as _NONE_NAME # type: ignore[attr-defined] # noqa: E501 if TYPE_CHECKING: from sqlalchemy import ClauseElement from sqlalchemy import Identity from sqlalchemy import Index from sqlalchemy import Table from sqlalchemy.engine import Connection from sqlalchemy.engine import Dialect from sqlalchemy.engine import Transaction from sqlalchemy.sql.base import ColumnCollection from sqlalchemy.sql.compiler import SQLCompiler from sqlalchemy.sql.elements import ColumnElement from sqlalchemy.sql.schema import Constraint from sqlalchemy.sql.schema import SchemaItem _CE = TypeVar("_CE", bound=Union["ColumnElement[Any]", "SchemaItem"]) class _CompilerProtocol(Protocol): def __call__(self, element: Any, compiler: Any, **kw: Any) -> str: ... def _safe_int(value: str) -> Union[int, str]: try: return int(value) except: return value _vers = tuple( [_safe_int(x) for x in re.findall(r"(\d+|[abc]\d)", __version__)] ) # https://docs.sqlalchemy.org/en/latest/changelog/changelog_14.html#change-0c6e0cc67dfe6fac5164720e57ef307d sqla_14_18 = _vers >= (1, 4, 18) sqla_14_26 = _vers >= (1, 4, 26) sqla_2 = _vers >= (2,) sqlalchemy_version = __version__ if TYPE_CHECKING: def compiles( element: Type[ClauseElement], *dialects: str ) -> Callable[[_CompilerProtocol], _CompilerProtocol]: ... else: from sqlalchemy.ext.compiler import compiles identity_has_dialect_kwargs = issubclass(schema.Identity, DialectKWArgs) def _get_identity_options_dict( identity: Union[Identity, schema.Sequence, None], dialect_kwargs: bool = False, ) -> Dict[str, Any]: if identity is None: return {} elif identity_has_dialect_kwargs: assert hasattr(identity, "_as_dict") as_dict = identity._as_dict() if dialect_kwargs: assert isinstance(identity, DialectKWArgs) as_dict.update(identity.dialect_kwargs) else: as_dict = {} if isinstance(identity, schema.Identity): # always=None means something different than always=False as_dict["always"] = identity.always if identity.on_null is not None: as_dict["on_null"] = identity.on_null # attributes common to Identity and Sequence attrs = ( "start", "increment", "minvalue", "maxvalue", "nominvalue", "nomaxvalue", "cycle", "cache", "order", ) as_dict.update( { key: getattr(identity, key, None) for key in attrs if getattr(identity, key, None) is not None } ) return as_dict if sqla_2: from sqlalchemy.sql.base import _NoneName else: from sqlalchemy.util import symbol as _NoneName # type: ignore[assignment] _ConstraintName = Union[None, str, _NoneName] _ConstraintNameDefined = Union[str, _NoneName] def constraint_name_defined( name: _ConstraintName, ) -> TypeGuard[_ConstraintNameDefined]: return name is _NONE_NAME or isinstance(name, (str, _NoneName)) def constraint_name_string(name: _ConstraintName) -> TypeGuard[str]: return isinstance(name, str) def constraint_name_or_none(name: _ConstraintName) -> Optional[str]: return name if constraint_name_string(name) else None AUTOINCREMENT_DEFAULT = "auto" @contextlib.contextmanager def _ensure_scope_for_ddl( connection: Optional[Connection], ) -> Iterator[None]: try: in_transaction = connection.in_transaction # type: ignore[union-attr] except AttributeError: # catch for MockConnection, None in_transaction = None pass # yield outside the catch if in_transaction is None: yield else: if not in_transaction(): assert connection is not None with connection.begin(): yield else: yield def _safe_begin_connection_transaction( connection: Connection, ) -> Transaction: transaction = connection.get_transaction() if transaction: return transaction else: return connection.begin() def _safe_commit_connection_transaction( connection: Connection, ) -> None: transaction = connection.get_transaction() if transaction: transaction.commit() def _safe_rollback_connection_transaction( connection: Connection, ) -> None: transaction = connection.get_transaction() if transaction: transaction.rollback() def _get_connection_in_transaction(connection: Optional[Connection]) -> bool: try: in_transaction = connection.in_transaction # type: ignore except AttributeError: # catch for MockConnection return False else: return in_transaction() def _idx_table_bound_expressions(idx: Index) -> Iterable[ColumnElement[Any]]: return idx.expressions # type: ignore def _copy(schema_item: _CE, **kw) -> _CE: if hasattr(schema_item, "_copy"): return schema_item._copy(**kw) else: return schema_item.copy(**kw) # type: ignore[union-attr] def _connectable_has_table( connectable: Connection, tablename: str, schemaname: Union[str, None] ) -> bool: return connectable.dialect.has_table(connectable, tablename, schemaname) def _exec_on_inspector(inspector, statement, **params): with inspector._operation_context() as conn: return conn.execute(statement, params) def _nullability_might_be_unset(metadata_column): from sqlalchemy.sql import schema return metadata_column._user_defined_nullable is schema.NULL_UNSPECIFIED def _server_default_is_computed(*server_default) -> bool: return any(isinstance(sd, schema.Computed) for sd in server_default) def _server_default_is_identity(*server_default) -> bool: return any(isinstance(sd, schema.Identity) for sd in server_default) def _table_for_constraint(constraint: Constraint) -> Table: if isinstance(constraint, ForeignKeyConstraint): table = constraint.parent assert table is not None return table # type: ignore[return-value] else: return constraint.table def _columns_for_constraint(constraint): if isinstance(constraint, ForeignKeyConstraint): return [fk.parent for fk in constraint.elements] elif isinstance(constraint, CheckConstraint): return _find_columns(constraint.sqltext) else: return list(constraint.columns) def _resolve_for_variant(type_, dialect): if _type_has_variants(type_): base_type, mapping = _get_variant_mapping(type_) return mapping.get(dialect.name, base_type) else: return type_ if hasattr(sqltypes.TypeEngine, "_variant_mapping"): # 2.0 def _type_has_variants(type_): return bool(type_._variant_mapping) def _get_variant_mapping(type_): return type_, type_._variant_mapping else: def _type_has_variants(type_): return type(type_) is sqltypes.Variant def _get_variant_mapping(type_): return type_.impl, type_.mapping def _fk_spec(constraint: ForeignKeyConstraint) -> Any: if TYPE_CHECKING: assert constraint.columns is not None assert constraint.elements is not None assert isinstance(constraint.parent, Table) source_columns = [ constraint.columns[key].name for key in constraint.column_keys ] source_table = constraint.parent.name source_schema = constraint.parent.schema target_schema = constraint.elements[0].column.table.schema target_table = constraint.elements[0].column.table.name target_columns = [element.column.name for element in constraint.elements] ondelete = constraint.ondelete onupdate = constraint.onupdate deferrable = constraint.deferrable initially = constraint.initially return ( source_schema, source_table, source_columns, target_schema, target_table, target_columns, onupdate, ondelete, deferrable, initially, ) def _fk_is_self_referential(constraint: ForeignKeyConstraint) -> bool: spec = constraint.elements[0]._get_colspec() tokens = spec.split(".") tokens.pop(-1) # colname tablekey = ".".join(tokens) assert constraint.parent is not None return tablekey == constraint.parent.key def _is_type_bound(constraint: Constraint) -> bool: # this deals with SQLAlchemy #3260, don't copy CHECK constraints # that will be generated by the type. # new feature added for #3260 return constraint._type_bound def _find_columns(clause): """locate Column objects within the given expression.""" cols: Set[ColumnElement[Any]] = set() traverse(clause, {}, {"column": cols.add}) return cols def _remove_column_from_collection( collection: ColumnCollection, column: Union[Column[Any], ColumnClause[Any]] ) -> None: """remove a column from a ColumnCollection.""" # workaround for older SQLAlchemy, remove the # same object that's present assert column.key is not None to_remove = collection[column.key] # SQLAlchemy 2.0 will use more ReadOnlyColumnCollection # (renamed from ImmutableColumnCollection) if hasattr(collection, "_immutable") or hasattr(collection, "_readonly"): collection._parent.remove(to_remove) else: collection.remove(to_remove) def _textual_index_column( table: Table, text_: Union[str, TextClause, ColumnElement[Any]] ) -> Union[ColumnElement[Any], Column[Any]]: """a workaround for the Index construct's severe lack of flexibility""" if isinstance(text_, str): c = Column(text_, sqltypes.NULLTYPE) table.append_column(c) return c elif isinstance(text_, TextClause): return _textual_index_element(table, text_) elif isinstance(text_, _textual_index_element): return _textual_index_column(table, text_.text) elif isinstance(text_, sql.ColumnElement): return _copy_expression(text_, table) else: raise ValueError("String or text() construct expected") def _copy_expression(expression: _CE, target_table: Table) -> _CE: def replace(col): if ( isinstance(col, Column) and col.table is not None and col.table is not target_table ): if col.name in target_table.c: return target_table.c[col.name] else: c = _copy(col) target_table.append_column(c) return c else: return None return visitors.replacement_traverse( # type: ignore[call-overload] expression, {}, replace ) class _textual_index_element(sql.ColumnElement): """Wrap around a sqlalchemy text() construct in such a way that we appear like a column-oriented SQL expression to an Index construct. The issue here is that currently the Postgresql dialect, the biggest recipient of functional indexes, keys all the index expressions to the corresponding column expressions when rendering CREATE INDEX, so the Index we create here needs to have a .columns collection that is the same length as the .expressions collection. Ultimately SQLAlchemy should support text() expressions in indexes. See SQLAlchemy issue 3174. """ __visit_name__ = "_textual_idx_element" def __init__(self, table: Table, text: TextClause) -> None: self.table = table self.text = text self.key = text.text self.fake_column = schema.Column(self.text.text, sqltypes.NULLTYPE) table.append_column(self.fake_column) def get_children(self, **kw): return [self.fake_column] @compiles(_textual_index_element) def _render_textual_index_column( element: _textual_index_element, compiler: SQLCompiler, **kw ) -> str: return compiler.process(element.text, **kw) class _literal_bindparam(BindParameter): pass @compiles(_literal_bindparam) def _render_literal_bindparam( element: _literal_bindparam, compiler: SQLCompiler, **kw ) -> str: return compiler.render_literal_bindparam(element, **kw) def _get_constraint_final_name( constraint: Union[Index, Constraint], dialect: Optional[Dialect] ) -> Optional[str]: if constraint.name is None: return None assert dialect is not None # for SQLAlchemy 1.4 we would like to have the option to expand # the use of "deferred" names for constraints as well as to have # some flexibility with "None" name and similar; make use of new # SQLAlchemy API to return what would be the final compiled form of # the name for this dialect. return dialect.identifier_preparer.format_constraint( constraint, _alembic_quote=False ) def _constraint_is_named( constraint: Union[Constraint, Index], dialect: Optional[Dialect] ) -> bool: if constraint.name is None: return False assert dialect is not None name = dialect.identifier_preparer.format_constraint( constraint, _alembic_quote=False ) return name is not None def is_expression_index(index: Index) -> bool: for expr in index.expressions: if is_expression(expr): return True return False def is_expression(expr: Any) -> bool: while isinstance(expr, UnaryExpression): expr = expr.element if not isinstance(expr, ColumnClause) or expr.is_literal: return True return False