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#!/usr/bin/env python # coding: utf-8 """ This module provides a simple but functional parser for the SIEVE language used to filter emails. This implementation is based on RFC 5228 (http://tools.ietf.org/html/rfc5228) """ from __future__ import print_function import re import sys from future.utils import python_2_unicode_compatible, text_type import six from sievelib.commands import ( get_command_instance, CommandError, RequireCommand) @python_2_unicode_compatible class ParseError(Exception): """Generic parsing error""" def __init__(self, msg): self.msg = msg def __str__(self): return "parsing error: %s" % self.msg class Lexer(object): """ The lexical analysis part. This class provides a simple way to define tokens (with patterns) to be detected. Patterns are provided into a list of 2-uple. Each 2-uple consists of a token name and an associated pattern, example: [(b"left_bracket", br'\['),] """ def __init__(self, definitions): self.definitions = definitions parts = [] for name, part in definitions: param = "(?P<%s>%s)" % (name.decode(), part.decode()) if six.PY3: param = bytes(param, "utf-8") parts.append(param) self.regexpString = b"|".join(parts) self.regexp = re.compile(self.regexpString, re.MULTILINE) self.wsregexp = re.compile(br'\s+', re.M) def curlineno(self): """Return the current line number""" return self.text[:self.pos].count(b'\n') + 1 def scan(self, text): """Analyse some data Analyse the passed content. Each time a token is recognized, a 2-uple containing its name and parsed value is raised (via yield). On error, a ParseError exception is raised. :param text: a binary string containing the data to parse """ self.pos = 0 self.text = text while self.pos < len(text): m = self.wsregexp.match(text, self.pos) if m is not None: self.pos = m.end() continue m = self.regexp.match(text, self.pos) if m is None: raise ParseError("unknown token %s" % text[self.pos:]) self.pos = m.end() yield (m.lastgroup, m.group(m.lastgroup)) class Parser(object): """The grammatical analysis part. Here we define the SIEVE language tokens and grammar. This class works with a Lexer object in order to check for grammar validity. """ lrules = [ (b"left_bracket", br'\['), (b"right_bracket", br'\]'), (b"left_parenthesis", br'\('), (b"right_parenthesis", br'\)'), (b"left_cbracket", br'{'), (b"right_cbracket", br'}'), (b"semicolon", br';'), (b"comma", br','), (b"hash_comment", br'#.*$'), (b"bracket_comment", br'/\*[\s\S]*?\*/'), (b"multiline", br'text:[^$]*?[\r\n]+\.$'), (b"string", br'"([^"\\]|\\.)*"'), (b"identifier", br'[a-zA-Z_][\w]*'), (b"tag", br':[a-zA-Z_][\w]*'), (b"number", br'[0-9]+[KMGkmg]?'), ] def __init__(self, debug=False): self.debug = debug self.lexer = Lexer(Parser.lrules) def __dprint(self, *msgs): if not self.debug: return for m in msgs: print(m) def __reset_parser(self): """Reset parser's internal variables Restore the parser to an initial state. Useful when creating a new parser or reusing an existing one. """ self.result = [] self.hash_comments = [] self.__cstate = None self.__curcommand = None self.__curstringlist = None self.__expected = None self.__opened_blocks = 0 RequireCommand.loaded_extensions = [] def __set_expected(self, *args, **kwargs): """Set the next expected token. One or more tokens can be provided. (they will represent the valid possibilities for the next token). """ self.__expected = args def __up(self, onlyrecord=False): """Return to the current command's parent This method should be called each time a command is complete. In case of a top level command (no parent), it is recorded into a specific list for further usage. :param onlyrecord: tell to only record the new command into its parent. """ if self.__curcommand.must_follow is not None: if not self.__curcommand.parent: prevcmd = self.result[-1] if len(self.result) else None else: prevcmd = self.__curcommand.parent.children[-2] \ if len(self.__curcommand.parent.children) >= 2 else None if prevcmd is None or prevcmd.name not in self.__curcommand.must_follow: raise ParseError("the %s command must follow an %s command" % (self.__curcommand.name, " or ".join(self.__curcommand.must_follow))) if not self.__curcommand.parent: # collect current amount of hash comments for later # parsing into names and desciptions self.__curcommand.hash_comments = self.hash_comments self.hash_comments = [] self.result += [self.__curcommand] if not onlyrecord: self.__curcommand = self.__curcommand.parent def __check_command_completion(self, testsemicolon=True): """Check for command(s) completion This function should be called each time a new argument is seen by the parser in order to check a command is complete. As not only one command can be ended when receiving a new argument (nested commands case), we apply the same work to parent commands. :param testsemicolon: if True, indicates that the next expected token must be a semicolon (for commands that need one) :return: True if command is considered as complete, False otherwise. """ if not self.__curcommand.iscomplete(): return True ctype = self.__curcommand.get_type() if ctype == "action" or \ (ctype == "control" and not self.__curcommand.accept_children): if testsemicolon: self.__set_expected("semicolon") return True while self.__curcommand.parent: cmd = self.__curcommand self.__curcommand = self.__curcommand.parent if self.__curcommand.get_type() in ["control", "test"]: if self.__curcommand.iscomplete(): if self.__curcommand.get_type() == "control": break continue if not self.__curcommand.check_next_arg("test", cmd, add=False): return False if not self.__curcommand.iscomplete(): if self.__curcommand.variable_args_nb: self.__set_expected("comma", "right_parenthesis") break return True def __stringlist(self, ttype, tvalue): """Specific method to parse the 'string-list' type Syntax: string-list = "[" string *("," string) "]" / string ; if there is only a single string, the brackets ; are optional """ if ttype == "string": self.__curstringlist += [tvalue.decode("utf-8")] self.__set_expected("comma", "right_bracket") return True if ttype == "comma": self.__set_expected("string") return True if ttype == "right_bracket": self.__curcommand.check_next_arg("stringlist", self.__curstringlist) self.__cstate = self.__arguments return self.__check_command_completion() return False def __argument(self, ttype, tvalue): """Argument parsing method This method acts as an entry point for 'argument' parsing. Syntax: string-list / number / tag :param ttype: current token type :param tvalue: current token value :return: False if an error is encountered, True otherwise """ if ttype in ["multiline", "string"]: return self.__curcommand.check_next_arg("string", tvalue.decode("utf-8")) if ttype in ["number", "tag"]: return self.__curcommand.check_next_arg(ttype, tvalue.decode("ascii")) if ttype == "left_bracket": self.__cstate = self.__stringlist self.__curstringlist = [] self.__set_expected("string") return True return False def __arguments(self, ttype, tvalue): """Arguments parsing method Entry point for command arguments parsing. The parser must call this method for each parsed command (either a control, action or test). Syntax: *argument [ test / test-list ] :param ttype: current token type :param tvalue: current token value :return: False if an error is encountered, True otherwise """ if ttype == "identifier": test = get_command_instance(tvalue.decode("ascii"), self.__curcommand) self.__curcommand.check_next_arg("test", test) self.__expected = test.get_expected_first() self.__curcommand = test return self.__check_command_completion(testsemicolon=False) if ttype == "left_parenthesis": self.__set_expected("identifier") return True if ttype == "comma": self.__set_expected("identifier") return True if ttype == "right_parenthesis": self.__up() return True if self.__argument(ttype, tvalue): return self.__check_command_completion(testsemicolon=False) return False def __command(self, ttype, tvalue): """Command parsing method Entry point for command parsing. Here is expected behaviour: * Handle command beginning if detected, * Call the appropriate sub-method (specified by __cstate) to handle the body, * Handle command ending or block opening if detected. Syntax: identifier arguments (";" / block) :param ttype: current token type :param tvalue: current token value :return: False if an error is encountered, True otherwise """ if self.__cstate is None: if ttype == "right_cbracket": self.__up() self.__opened_blocks -= 1 self.__cstate = None return True if ttype != "identifier": return False command = get_command_instance( tvalue.decode("ascii"), self.__curcommand) if command.get_type() == "test": raise ParseError( "%s may not appear as a first command" % command.name) if command.get_type() == "control" and command.accept_children \ and command.has_arguments(): self.__set_expected("identifier") if self.__curcommand is not None: if not self.__curcommand.addchild(command): raise ParseError("%s unexpected after a %s" % (tvalue, self.__curcommand.name)) self.__curcommand = command self.__cstate = self.__arguments return True if self.__cstate(ttype, tvalue): return True if ttype == "left_cbracket": self.__opened_blocks += 1 self.__cstate = None return True if ttype == "semicolon": self.__cstate = None if not self.__check_command_completion(testsemicolon=False): return False self.__curcommand.complete_cb() self.__up() return True return False def parse(self, text): """The parser entry point. Parse the provided text to check for its validity. On success, the parsing tree is available into the result attribute. It is a list of sievecommands.Command objects (see the module documentation for specific information). On error, an string containing the explicit reason is available into the error attribute. :param text: a string containing the data to parse :return: True on success (no error detected), False otherwise """ if isinstance(text, text_type): text = text.encode("utf-8") self.__reset_parser() try: for ttype, tvalue in self.lexer.scan(text): if ttype == "hash_comment": self.hash_comments += [tvalue.strip()] continue if ttype == "bracket_comment": continue if self.__expected is not None: if ttype not in self.__expected: if self.lexer.pos < len(text): msg = "%s found while %s expected near '%s'" \ % (ttype, "|".join(self.__expected), text[self.lexer.pos]) else: msg = "%s found while %s expected at end of file" \ % (ttype, "|".join(self.__expected)) raise ParseError(msg) self.__expected = None if not self.__command(ttype, tvalue): msg = "unexpected token '%s' found near '%s'" \ % (tvalue, text[self.lexer.pos]) raise ParseError(msg) if self.__opened_blocks: self.__set_expected("right_cbracket") if self.__expected is not None: raise ParseError("end of script reached while %s expected" % "|".join(self.__expected)) except (ParseError, CommandError) as e: self.error = "line %d: %s" % (self.lexer.curlineno(), str(e)) return False return True def parse_file(self, name): """Parse the content of a file. See 'parse' method for information. :param name: the pathname of the file to parse :return: True on success (no error detected), False otherwise """ with open(name, "rb") as fp: return self.parse(fp.read()) def dump(self, target=sys.stdout): """Dump the parsing tree. This method displays the parsing tree on the standard output. """ for r in self.result: r.dump(target=target) if __name__ == "__main__": from optparse import OptionParser op = OptionParser() op.usage = "%prog: [options] files" op.add_option("-v", "--verbose", action="store_true", default=False, help="Activate verbose mode") op.add_option("-d", "--debug", action="store_true", default=False, help="Activate debug traces") op.add_option("--tosieve", action="store_true", help="Print parser results using sieve") options, args = op.parse_args() if not len(args): print("Nothing to parse, exiting.") sys.exit(0) for a in args: p = Parser(debug=options.debug) print("Parsing file %s... " % a, end=' ') if p.parse_file(a): print("OK") if options.verbose: p.dump() if options.tosieve: for r in p.result: r.tosieve() continue print("ERROR") print(p.error)