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# coding: utf-8 """ SIEVE commands representation This module contains classes that represent known commands. They all inherit from the Command class which provides generic method for command manipulation or parsing. There are three command types (each one represented by a class): * control (ControlCommand) : Control structures are needed to allow for multiple and conditional actions * action (ActionCommand) : Actions that can be applied on emails * test (TestCommand) : Tests are used in conditionals to decide which part(s) of the conditional to execute Finally, each known command is represented by its own class which provides extra information such as: * expected arguments, * completion callback, * etc. """ from __future__ import unicode_literals from collections import Iterable import sys from future.utils import python_2_unicode_compatible class CommandError(Exception): """Base command exception class.""" pass @python_2_unicode_compatible class UnknownCommand(CommandError): """Specific exception raised when an unknown command is encountered""" def __init__(self, name): self.name = name def __str__(self): return "unknown command %s" % self.name @python_2_unicode_compatible class BadArgument(CommandError): """Specific exception raised when a bad argument is encountered""" def __init__(self, command, seen, expected): self.command = command self.seen = seen self.expected = expected def __str__(self): return "bad argument %s for command %s (%s expected)" \ % (self.seen, self.command, self.expected) @python_2_unicode_compatible class BadValue(CommandError): """Specific exception raised when a bad argument value is encountered""" def __init__(self, argument, value): self.argument = argument self.value = value def __str__(self): return "bad value %s for argument %s" \ % (self.value, self.argument) @python_2_unicode_compatible class ExtensionNotLoaded(CommandError): """Raised when an extension is not loaded.""" def __init__(self, name): self.name = name def __str__(self): return "extension '{}' not loaded".format(self.name) # Statement elements (see RFC, section 8.3) # They are used in different commands. comparator = {"name": "comparator", "type": ["tag"], "values": [":comparator"], "extra_arg": {"type": "string", "values": ['"i;octet"', '"i;ascii-casemap"']}, "required": False} address_part = {"name": "address-part", "values": [":localpart", ":domain", ":all"], "type": ["tag"], "required": False} match_type = {"name": "match-type", "values": [":is", ":contains", ":matches"], "type": ["tag"], "required": False} class Command(object): """Generic command representation. A command is described as follow: * A name * A type * A description of supported arguments * Does it accept an unknown quantity of arguments? (ex: anyof, allof) * Does it accept children? (ie. subcommands) * Is it an extension? * Must follow only certain commands """ _type = None variable_args_nb = False accept_children = False must_follow = None is_extension = False def __init__(self, parent=None): self.parent = parent self.arguments = {} self.children = [] self.nextargpos = 0 self.required_args = -1 self.rargs_cnt = 0 self.curarg = None # for arguments that expect an argument :p (ex: :comparator) self.name = self.__class__.__name__.replace("Command", "") self.name = self.name.lower() self.hash_comments = [] def __repr__(self): return "%s (type: %s)" % (self.name, self._type) def tosieve(self, indentlevel=0, target=sys.stdout): """Generate the sieve syntax corresponding to this command Recursive method. :param indentlevel: current indentation level :param target: opened file pointer where the content will be printed """ self.__print(self.name, indentlevel, nocr=True, target=target) if self.has_arguments(): for arg in self.args_definition: if not arg["name"] in self.arguments: continue target.write(" ") value = self.arguments[arg["name"]] if "tag" in arg["type"] and arg.get("write_tag", False): target.write("%s " % arg["values"][0]) if type(value) == list: if self.__get_arg_type(arg["name"]) == ["testlist"]: target.write("(") for t in value: t.tosieve(target=target) if value.index(t) != len(value) - 1: target.write(", ") target.write(")") else: target.write( "[{}]".format(", ".join( ['"%s"' % v.strip('"') for v in value]) ) ) continue if isinstance(value, Command): value.tosieve(indentlevel, target=target) continue if "string" in arg["type"]: target.write(value) if not value.startswith('"'): target.write("\n") else: target.write(value) if not self.accept_children: if self.get_type() != "test": target.write(";\n") return if self.get_type() != "control": return target.write(" {\n") for ch in self.children: ch.tosieve(indentlevel + 4, target=target) self.__print("}", indentlevel, target=target) def __print(self, data, indentlevel, nocr=False, target=sys.stdout): text = "%s%s" % (" " * indentlevel, data) if nocr: target.write(text) else: target.write(text + "\n") def __get_arg_type(self, arg): """Return the type corresponding to the given name. :param arg: a defined argument name """ for a in self.args_definition: if a["name"] == arg: return a["type"] return None def complete_cb(self): """Completion callback Called when a command is considered as complete by the parser. """ pass def get_expected_first(self): """Return the first expected token for this command""" return None def has_arguments(self): return len(self.args_definition) != 0 def dump(self, indentlevel=0, target=sys.stdout): """Display the command Pretty printing of this command and its eventual arguments and children. (recursively) :param indentlevel: integer that indicates indentation level to apply """ self.__print(self, indentlevel, target=target) indentlevel += 4 if self.has_arguments(): for arg in self.args_definition: if not arg["name"] in self.arguments: continue value = self.arguments[arg["name"]] if type(value) == list: if self.__get_arg_type(arg["name"]) == ["testlist"]: for t in value: t.dump(indentlevel, target) else: self.__print("[" + (",".join(value)) + "]", indentlevel, target=target) continue if isinstance(value, Command): value.dump(indentlevel, target) continue self.__print(str(value), indentlevel, target=target) for ch in self.children: ch.dump(indentlevel, target) def addchild(self, child): """Add a new child to the command A child corresponds to a command located into a block (this command's block). It can be either an action or a control. :param child: the new child :return: True on succes, False otherwise """ if not self.accept_children: return False self.children += [child] return True def iscomplete(self): """Check if the command is complete Check if all required arguments have been encountered. For commands that allow an undefined number of arguments, this method always returns False. :return: True if command is complete, False otherwise """ if self.variable_args_nb: return False if self.required_args == -1: self.required_args = 0 for arg in self.args_definition: if arg["required"]: self.required_args += 1 return (not self.curarg or "extra_arg" not in self.curarg) \ and (self.rargs_cnt == self.required_args) def get_type(self): """Return the command's type""" if self._type is None: raise NotImplementedError return self._type def __is_valid_value_for_arg(self, arg, value): """Check if value is allowed for arg Some commands only allow a limited set of values. The method always returns True for methods that do not provide such a set. :param arg: the argument's name :param value: the value to check :return: True on succes, False otherwise """ if "values" not in arg: return True return value.lower() in arg["values"] def check_next_arg(self, atype, avalue, add=True, check_extension=True): """Argument validity checking This method is usually used by the parser to check if detected argument is allowed for this command. We make a distinction between required and optional arguments. Optional (or tagged) arguments can be provided unordered but not the required ones. A special handling is also done for arguments that require an argument (example: the :comparator argument expects a string argument). The "testlist" type is checked separately as we can't know in advance how many arguments will be provided. If the argument is incorrect, the method raises the appropriate exception, or return False to let the parser handle the exception. :param atype: the argument's type :param avalue: the argument's value :param add: indicates if this argument should be recorded on success :param check_extension: raise ExtensionNotLoaded if extension not loaded :return: True on success, False otherwise """ if not self.has_arguments(): return False if self.iscomplete(): return False if self.curarg is not None and "extra_arg" in self.curarg: if atype in self.curarg["extra_arg"]["type"]: if "values" not in self.curarg["extra_arg"] \ or avalue in self.curarg["extra_arg"]["values"]: if add: self.arguments[self.curarg["name"]] = avalue self.curarg = None return True raise BadValue(self.curarg["name"], avalue) failed = False pos = self.nextargpos while pos < len(self.args_definition): curarg = self.args_definition[pos] if curarg["required"]: if curarg["type"] == ["testlist"]: if atype != "test": failed = True elif add: if not curarg["name"] in self.arguments: self.arguments[curarg["name"]] = [] self.arguments[curarg["name"]] += [avalue] elif atype not in curarg["type"] or \ not self.__is_valid_value_for_arg(curarg, avalue): failed = True else: self.curarg = curarg self.rargs_cnt += 1 self.nextargpos = pos + 1 if add: self.arguments[curarg["name"]] = avalue break if atype in curarg["type"]: ext = curarg.get("extension") condition = ( check_extension and ext and ext not in RequireCommand.loaded_extensions) if condition: raise ExtensionNotLoaded(ext) if self.__is_valid_value_for_arg(curarg, avalue): if "extra_arg" in curarg: self.curarg = curarg break if add: self.arguments[curarg["name"]] = avalue break pos += 1 if failed: raise BadArgument(self.name, avalue, self.args_definition[pos]["type"]) return True def __contains__(self, name): """Check if argument is provided with command.""" return name in self.arguments def __getitem__(self, name): """Shorcut to access a command argument :param name: the argument's name """ found = False for ad in self.args_definition: if ad["name"] == name: found = True break if not found: raise KeyError(name) if name not in self.arguments: raise KeyError(name) return self.arguments[name] class ControlCommand(Command): """Indermediate class to represent "control" commands""" _type = "control" class RequireCommand(ControlCommand): """The 'require' command This class has one big difference with others as it is used to store loaded extension names. (The result is we can check for unloaded extensions during the parsing) """ args_definition = [ {"name": "capabilities", "type": ["string", "stringlist"], "required": True} ] loaded_extensions = [] def complete_cb(self): if type(self.arguments["capabilities"]) != list: exts = [self.arguments["capabilities"]] else: exts = self.arguments["capabilities"] for ext in exts: ext = ext.strip('"') if ext not in RequireCommand.loaded_extensions: RequireCommand.loaded_extensions += [ext] class StopCommand(ControlCommand): args_definition = [] class IfCommand(ControlCommand): accept_children = True args_definition = [ {"name": "test", "type": ["test"], "required": True} ] def get_expected_first(self): return ["identifier"] class ElsifCommand(ControlCommand): accept_children = True must_follow = ["if", "elsif"] args_definition = [ {"name": "test", "type": ["test"], "required": True} ] def get_expected_first(self): return ["identifier"] class ElseCommand(ControlCommand): accept_children = True must_follow = ["if", "elsif"] args_definition = [] class ActionCommand(Command): """Indermediate class to represent "action" commands""" _type = "action" class FileintoCommand(ActionCommand): is_extension = True args_definition = [ {"name": "copy", "type": ["tag"], "values": [":copy"], "required": False, "extension": "copy"}, {"name": "mailbox", "type": ["string"], "required": True} ] class RedirectCommand(ActionCommand): args_definition = [ {"name": "copy", "type": ["tag"], "values": [":copy"], "required": False, "extension": "copy"}, {"name": "address", "type": ["string"], "required": True} ] class RejectCommand(ActionCommand): is_extension = True args_definition = [ {"name": "text", "type": ["string"], "required": True} ] class KeepCommand(ActionCommand): args_definition = [] class DiscardCommand(ActionCommand): args_definition = [] class TestCommand(Command): """Indermediate class to represent "test" commands""" _type = "test" class AddressCommand(TestCommand): args_definition = [ comparator, address_part, match_type, {"name": "header-list", "type": ["string", "stringlist"], "required": True}, {"name": "key-list", "type": ["string", "stringlist"], "required": True} ] class AllofCommand(TestCommand): accept_children = True variable_args_nb = True args_definition = [ {"name": "tests", "type": ["testlist"], "required": True} ] def get_expected_first(self): return ["left_parenthesis"] class AnyofCommand(TestCommand): accept_children = True variable_args_nb = True args_definition = [ {"name": "tests", "type": ["testlist"], "required": True} ] def get_expected_first(self): return ["left_parenthesis"] class EnvelopeCommand(TestCommand): args_definition = [ comparator, address_part, match_type, {"name": "header-list", "type": ["string", "stringlist"], "required": True}, {"name": "key-list", "type": ["string", "stringlist"], "required": True} ] class ExistsCommand(TestCommand): args_definition = [ {"name": "header-names", "type": ["stringlist"], "required": True} ] class TrueCommand(TestCommand): args_definition = [] class FalseCommand(TestCommand): args_definition = [] class HeaderCommand(TestCommand): args_definition = [ comparator, match_type, {"name": "header-names", "type": ["string", "stringlist"], "required": True}, {"name": "key-list", "type": ["string", "stringlist"], "required": True} ] class NotCommand(TestCommand): accept_children = True args_definition = [ {"name": "test", "type": ["test"], "required": True} ] def get_expected_first(self): return ["identifier"] class SizeCommand(TestCommand): args_definition = [ {"name": "comparator", "type": ["tag"], "values": [":over", ":under"], "required": True}, {"name": "limit", "type": ["number"], "required": True}, ] class VacationCommand(ActionCommand): args_definition = [ {"name": "subject", "type": ["tag"], "write_tag": True, "values": [":subject"], "extra_arg": {"type": "string"}, "required": False}, {"name": "days", "type": ["tag"], "write_tag": True, "values": [":days"], "extra_arg": {"type": "number"}, "required": False}, {"name": "from", "type": ["tag"], "write_tag": True, "values": [":from"], "extra_arg": {"type": "string"}, "required": False}, {"name": "addresses", "type": ["tag"], "write_tag": True, "values": [":addresses"], "extra_arg": {"type": ["string", "stringlist"]}, "required": False}, {"name": "handle", "type": ["tag"], "write_tag": True, "values": [":handle"], "extra_arg": {"type": "string"}, "required": False}, {"name": "mime", "type": ["tag"], "write_tag": True, "values": [":mime"], "required": False}, {"name": "reason", "type": ["string"], "required": True}, ] class SetCommand(ControlCommand): """currentdate command, part of the variables extension http://tools.ietf.org/html/rfc5229 """ is_extension = True args_definition = [ {"name": "startend", "type": ["string"], "required": True}, {"name": "date", "type": ["string"], "required": True} ] class CurrentdateCommand(ControlCommand): """currentdate command, part of the date extension http://tools.ietf.org/html/rfc5260#section-5 """ is_extension = True accept_children = True args_definition = [ {"name": "zone", "type": ["tag"], "write_tag": True, "values": [":zone"], "extra_arg": {"type": "string"}, "required": False}, {"name": "match-value", "type": ["tag"], "required": True}, {"name": "comparison", "type": ["string"], "required": True}, {"name": "match-against", "type": ["string"], "required": True}, {"name": "match-against-field", "type": ["string"], "required": True} ] def add_commands(cmds): """ Adds one or more commands to the module namespace. Commands must end in "Command" to be added. Example (see tests/parser.py): sievelib.commands.add_commands(MytestCommand) :param cmds: a single Command Object or list of Command Objects """ if not isinstance(cmds, Iterable): cmds = [cmds] for command in cmds: if command.__name__.endswith("Command"): globals()[command.__name__] = command def get_command_instance(name, parent=None, checkexists=True): """Try to guess and create the appropriate command instance Given a command name (encountered by the parser), construct the associated class name and, if known, return a new instance. If the command is not known or has not been loaded using require, an UnknownCommand exception is raised. :param name: the command's name :param parent: the eventual parent command :return: a new class instance """ # Mapping between extension names and command names extension_map = { 'date': set(['currentdate']), 'variables': set(['set']) } extname = name for extension in extension_map: if name in extension_map[extension]: extname = extension break cname = "%sCommand" % name.lower().capitalize() if cname not in globals() or \ (checkexists and globals()[cname].is_extension and extname not in RequireCommand.loaded_extensions): raise UnknownCommand(name) return globals()[cname](parent)