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""" Dual ParserNode implementation """ from typing import Any from typing import Generic from typing import Iterable from typing import List from typing import Optional from typing import Set from typing import Tuple from typing import Type from typing import TYPE_CHECKING from typing import TypeVar from certbot_apache._internal import apacheparser from certbot_apache._internal import assertions from certbot_apache._internal import augeasparser from certbot_apache._internal import interfaces if TYPE_CHECKING: from certbot_apache._internal.apacheparser import ApacheParserNode # pragma: no cover from certbot_apache._internal.augeasparser import AugeasParserNode # pragma: no cover GenericAugeasParserNode = TypeVar("GenericAugeasParserNode", bound="AugeasParserNode") GenericApacheParserNode = TypeVar("GenericApacheParserNode", bound="ApacheParserNode") GenericDualNode = TypeVar("GenericDualNode", bound="DualNodeBase") class DualNodeBase(Generic[GenericAugeasParserNode, GenericApacheParserNode]): """ Dual parser interface for in development testing. This is used as the base class for dual parser interface classes. This class handles runtime attribute value assertions.""" def __init__(self, primary: GenericAugeasParserNode, secondary: GenericApacheParserNode) -> None: self.primary = primary self.secondary = secondary def save(self, msg: str) -> None: # pragma: no cover """ Call save for both parsers """ self.primary.save(msg) self.secondary.save(msg) def __getattr__(self, aname: str) -> Any: """ Attribute value assertion """ firstval = getattr(self.primary, aname) secondval = getattr(self.secondary, aname) exclusions = [ # Metadata will inherently be different, as ApacheParserNode does # not have Augeas paths and so on. aname == "metadata", callable(firstval) ] if not any(exclusions): assertions.assertEqualSimple(firstval, secondval) return firstval def find_ancestors(self, name: str) -> List["DualNodeBase"]: """ Traverses the ancestor tree and returns ancestors matching name """ return self._find_helper(DualBlockNode, "find_ancestors", name) def _find_helper(self, nodeclass: Type[GenericDualNode], findfunc: str, search: str, **kwargs: Any) -> List[GenericDualNode]: """A helper for find_* functions. The function specific attributes should be passed as keyword arguments. :param interfaces.ParserNode nodeclass: The node class for results. :param str findfunc: Name of the find function to call :param str search: The search term """ primary_res = getattr(self.primary, findfunc)(search, **kwargs) secondary_res = getattr(self.secondary, findfunc)(search, **kwargs) # The order of search results for Augeas implementation cannot be # assured. pass_primary = assertions.isPassNodeList(primary_res) pass_secondary = assertions.isPassNodeList(secondary_res) new_nodes = [] if pass_primary and pass_secondary: # Both unimplemented new_nodes.append(nodeclass(primary=primary_res[0], secondary=secondary_res[0])) # pragma: no cover elif pass_primary: for c in secondary_res: new_nodes.append(nodeclass(primary=primary_res[0], secondary=c)) elif pass_secondary: for c in primary_res: new_nodes.append(nodeclass(primary=c, secondary=secondary_res[0])) else: assert len(primary_res) == len(secondary_res) matches = self._create_matching_list(primary_res, secondary_res) for p, s in matches: new_nodes.append(nodeclass(primary=p, secondary=s)) return new_nodes class DualCommentNode(DualNodeBase[augeasparser.AugeasCommentNode, apacheparser.ApacheCommentNode]): """ Dual parser implementation of CommentNode interface """ def __init__(self, **kwargs: Any) -> None: """ This initialization implementation allows ordinary initialization of CommentNode objects as well as creating a DualCommentNode object using precreated or fetched CommentNode objects if provided as optional arguments primary and secondary. Parameters other than the following are from interfaces.CommentNode: :param CommentNode primary: Primary pre-created CommentNode, mainly used when creating new DualParser nodes using add_* methods. :param CommentNode secondary: Secondary pre-created CommentNode """ kwargs.setdefault("primary", None) kwargs.setdefault("secondary", None) primary = kwargs.pop("primary") secondary = kwargs.pop("secondary") if primary or secondary: assert primary and secondary super().__init__(primary, secondary) else: super().__init__(augeasparser.AugeasCommentNode(**kwargs), apacheparser.ApacheCommentNode(**kwargs)) assertions.assertEqual(self.primary, self.secondary) class DualDirectiveNode(DualNodeBase[augeasparser.AugeasDirectiveNode, apacheparser.ApacheDirectiveNode]): """ Dual parser implementation of DirectiveNode interface """ parameters: str def __init__(self, **kwargs: Any) -> None: """ This initialization implementation allows ordinary initialization of DirectiveNode objects as well as creating a DualDirectiveNode object using precreated or fetched DirectiveNode objects if provided as optional arguments primary and secondary. Parameters other than the following are from interfaces.DirectiveNode: :param DirectiveNode primary: Primary pre-created DirectiveNode, mainly used when creating new DualParser nodes using add_* methods. :param DirectiveNode secondary: Secondary pre-created DirectiveNode """ kwargs.setdefault("primary", None) kwargs.setdefault("secondary", None) primary = kwargs.pop("primary") secondary = kwargs.pop("secondary") if primary or secondary: assert primary and secondary super().__init__(primary, secondary) else: super().__init__(augeasparser.AugeasDirectiveNode(**kwargs), apacheparser.ApacheDirectiveNode(**kwargs)) assertions.assertEqual(self.primary, self.secondary) def set_parameters(self, parameters: Iterable[str]) -> None: """ Sets parameters and asserts that both implementation successfully set the parameter sequence """ self.primary.set_parameters(parameters) self.secondary.set_parameters(parameters) assertions.assertEqual(self.primary, self.secondary) class DualBlockNode(DualNodeBase[augeasparser.AugeasBlockNode, apacheparser.ApacheBlockNode]): """ Dual parser implementation of BlockNode interface """ def __init__(self, **kwargs: Any) -> None: """ This initialization implementation allows ordinary initialization of BlockNode objects as well as creating a DualBlockNode object using precreated or fetched BlockNode objects if provided as optional arguments primary and secondary. Parameters other than the following are from interfaces.BlockNode: :param BlockNode primary: Primary pre-created BlockNode, mainly used when creating new DualParser nodes using add_* methods. :param BlockNode secondary: Secondary pre-created BlockNode """ kwargs.setdefault("primary", None) kwargs.setdefault("secondary", None) primary: Optional[augeasparser.AugeasBlockNode] = kwargs.pop("primary") secondary: Optional[apacheparser.ApacheBlockNode] = kwargs.pop("secondary") if primary or secondary: assert primary and secondary super().__init__(primary, secondary) else: super().__init__(augeasparser.AugeasBlockNode(**kwargs), apacheparser.ApacheBlockNode(**kwargs)) assertions.assertEqual(self.primary, self.secondary) def add_child_block(self, name: str, parameters: Optional[List[str]] = None, position: Optional[int] = None) -> "DualBlockNode": """ Creates a new child BlockNode, asserts that both implementations did it in a similar way, and returns a newly created DualBlockNode object encapsulating both of the newly created objects """ primary_new = self.primary.add_child_block(name, parameters, position) secondary_new = self.secondary.add_child_block(name, parameters, position) assertions.assertEqual(primary_new, secondary_new) return DualBlockNode(primary=primary_new, secondary=secondary_new) def add_child_directive(self, name: str, parameters: Optional[List[str]] = None, position: Optional[int] = None) -> DualDirectiveNode: """ Creates a new child DirectiveNode, asserts that both implementations did it in a similar way, and returns a newly created DualDirectiveNode object encapsulating both of the newly created objects """ primary_new = self.primary.add_child_directive(name, parameters, position) secondary_new = self.secondary.add_child_directive(name, parameters, position) assertions.assertEqual(primary_new, secondary_new) return DualDirectiveNode(primary=primary_new, secondary=secondary_new) def add_child_comment(self, comment: str = "", position: Optional[int] = None) -> DualCommentNode: """ Creates a new child CommentNode, asserts that both implementations did it in a similar way, and returns a newly created DualCommentNode object encapsulating both of the newly created objects """ primary_new = self.primary.add_child_comment(comment=comment, position=position) secondary_new = self.secondary.add_child_comment(name=comment, position=position) assertions.assertEqual(primary_new, secondary_new) return DualCommentNode(primary=primary_new, secondary=secondary_new) def _create_matching_list(self, primary_list: Iterable[interfaces.ParserNode], secondary_list: Iterable[interfaces.ParserNode] ) -> List[Tuple[interfaces.ParserNode, interfaces.ParserNode]]: """ Matches the list of primary_list to a list of secondary_list and returns a list of tuples. This is used to create results for find_ methods. This helper function exists, because we cannot ensure that the list of search results returned by primary.find_* and secondary.find_* are ordered in a same way. The function pairs the same search results from both implementations to a list of tuples. """ matched = [] for p in primary_list: match = None for s in secondary_list: try: assertions.assertEqual(p, s) match = s break except AssertionError: continue if match: matched.append((p, match)) else: raise AssertionError("Could not find a matching node.") return matched def find_blocks(self, name: str, exclude: bool = True) -> List["DualBlockNode"]: """ Performs a search for BlockNodes using both implementations and does simple checks for results. This is built upon the assumption that unimplemented find_* methods return a list with a single assertion passing object. After the assertion, it creates a list of newly created DualBlockNode instances that encapsulate the pairs of returned BlockNode objects. """ return self._find_helper(DualBlockNode, "find_blocks", name, exclude=exclude) def find_directives(self, name: str, exclude: bool = True) -> List[DualDirectiveNode]: """ Performs a search for DirectiveNodes using both implementations and checks the results. This is built upon the assumption that unimplemented find_* methods return a list with a single assertion passing object. After the assertion, it creates a list of newly created DualDirectiveNode instances that encapsulate the pairs of returned DirectiveNode objects. """ return self._find_helper(DualDirectiveNode, "find_directives", name, exclude=exclude) def find_comments(self, comment: str) -> List[DualCommentNode]: """ Performs a search for CommentNodes using both implementations and checks the results. This is built upon the assumption that unimplemented find_* methods return a list with a single assertion passing object. After the assertion, it creates a list of newly created DualCommentNode instances that encapsulate the pairs of returned CommentNode objects. """ return self._find_helper(DualCommentNode, "find_comments", comment) def delete_child(self, child: "DualBlockNode") -> None: """Deletes a child from the ParserNode implementations. The actual ParserNode implementations are used here directly in order to be able to match a child to the list of children.""" self.primary.delete_child(child.primary) self.secondary.delete_child(child.secondary) def unsaved_files(self) -> Set[str]: """ Fetches the list of unsaved file paths and asserts that the lists match """ primary_files = self.primary.unsaved_files() secondary_files = self.secondary.unsaved_files() assertions.assertEqualSimple(primary_files, secondary_files) return primary_files def parsed_paths(self) -> List[str]: """ Returns a list of file paths that have currently been parsed into the parser tree. The returned list may include paths with wildcard characters, for example: ['/etc/apache2/conf.d/*.load'] This is typically called on the root node of the ParserNode tree. :returns: list of file paths of files that have been parsed """ primary_paths = self.primary.parsed_paths() secondary_paths = self.secondary.parsed_paths() assertions.assertEqualPathsList(primary_paths, secondary_paths) return primary_paths