# Copyright (C) 1998-2018 by the Free Software Foundation, Inc. # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public License # as published by the Free Software Foundation; either version 2 # of the License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, # USA. """Miscellaneous essential routines. This includes actual message transmission routines, address checking and message and address munging, a handy-dandy routine to map a function on all the mailing lists, and whatever else doesn't belong elsewhere. """ from __future__ import nested_scopes import os import sys import re import cgi import time import errno import base64 import random import urllib2 import urlparse import htmlentitydefs import email.Header import email.Iterators from email.Errors import HeaderParseError from types import UnicodeType from string import whitespace, digits try: # Python 2.2 from string import ascii_letters except ImportError: # Older Pythons _lower = 'abcdefghijklmnopqrstuvwxyz' ascii_letters = _lower + _lower.upper() from Mailman import mm_cfg from Mailman import Errors from Mailman import Site from Mailman.SafeDict import SafeDict from Mailman.Logging.Syslog import syslog try: import hashlib md5_new = hashlib.md5 sha_new = hashlib.sha1 except ImportError: import md5 import sha md5_new = md5.new sha_new = sha.new try: True, False except NameError: True = 1 False = 0 try: import dns.resolver from dns.exception import DNSException dns_resolver = True except ImportError: dns_resolver = False try: import ipaddress have_ipaddress = True except ImportError: have_ipaddress = False EMPTYSTRING = '' UEMPTYSTRING = u'' CR = '\r' NL = '\n' DOT = '.' IDENTCHARS = ascii_letters + digits + '_' # Search for $(identifier)s strings, except that the trailing s is optional, # since that's a common mistake cre = re.compile(r'%\(([_a-z]\w*?)\)s?', re.IGNORECASE) # Search for $$, $identifier, or ${identifier} dre = re.compile(r'(\${2})|\$([_a-z]\w*)|\${([_a-z]\w*)}', re.IGNORECASE) def list_exists(listname): """Return true iff list `listname' exists.""" # The existance of any of the following file proves the list exists # : config.pck, config.pck.last, config.db, config.db.last # # The former two are for 2.1alpha3 and beyond, while the latter two are # for all earlier versions. # # But first ensure the list name doesn't contain a path traversal # attack. if len(re.sub(mm_cfg.ACCEPTABLE_LISTNAME_CHARACTERS, '', listname)) > 0: syslog('mischief', 'Hostile listname: %s', listname) return False basepath = Site.get_listpath(listname) for ext in ('.pck', '.pck.last', '.db', '.db.last'): dbfile = os.path.join(basepath, 'config' + ext) if os.path.exists(dbfile): return True return False def list_names(): """Return the names of all lists in default list directory.""" # We don't currently support separate listings of virtual domains return Site.get_listnames() # a much more naive implementation than say, Emacs's fill-paragraph! def wrap(text, column=70, honor_leading_ws=True): """Wrap and fill the text to the specified column. Wrapping is always in effect, although if it is not possible to wrap a line (because some word is longer than `column' characters) the line is broken at the next available whitespace boundary. Paragraphs are also always filled, unless honor_leading_ws is true and the line begins with whitespace. This is the algorithm that the Python FAQ wizard uses, and seems like a good compromise. """ wrapped = '' # first split the text into paragraphs, defined as a blank line paras = re.split('\n\n', text) for para in paras: # fill lines = [] fillprev = False for line in para.split(NL): if not line: lines.append(line) continue if honor_leading_ws and line[0] in whitespace: fillthis = False else: fillthis = True if fillprev and fillthis: # if the previous line should be filled, then just append a # single space, and the rest of the current line lines[-1] = lines[-1].rstrip() + ' ' + line else: # no fill, i.e. retain newline lines.append(line) fillprev = fillthis # wrap each line for text in lines: while text: if len(text) <= column: line = text text = '' else: bol = column # find the last whitespace character while bol > 0 and text[bol] not in whitespace: bol -= 1 # now find the last non-whitespace character eol = bol while eol > 0 and text[eol] in whitespace: eol -= 1 # watch out for text that's longer than the column width if eol == 0: # break on whitespace after column eol = column while eol < len(text) and text[eol] not in whitespace: eol += 1 bol = eol while bol < len(text) and text[bol] in whitespace: bol += 1 bol -= 1 line = text[:eol+1] + '\n' # find the next non-whitespace character bol += 1 while bol < len(text) and text[bol] in whitespace: bol += 1 text = text[bol:] wrapped += line wrapped += '\n' # end while text wrapped += '\n' # end for text in lines # the last two newlines are bogus return wrapped[:-2] def QuotePeriods(text): JOINER = '\n .\n' SEP = '\n.\n' return JOINER.join(text.split(SEP)) # This takes an email address, and returns a tuple containing (user,host) def ParseEmail(email): user = None domain = None email = email.lower() at_sign = email.find('@') if at_sign < 1: return email, None user = email[:at_sign] rest = email[at_sign+1:] domain = rest.split('.') return user, domain def LCDomain(addr): "returns the address with the domain part lowercased" atind = addr.find('@') if atind == -1: # no domain part return addr return addr[:atind] + '@' + addr[atind+1:].lower() # TBD: what other characters should be disallowed? _badchars = re.compile(r'[][()<>|:;^,\\"\000-\037\177-\377]') # Strictly speaking, some of the above are allowed in quoted local parts, but # this can open the door to certain web exploits so we don't allow them. # Only characters allowed in domain parts. _valid_domain = re.compile('[-a-z0-9]', re.IGNORECASE) def ValidateEmail(s): """Verify that an email address isn't grossly evil.""" # If a user submits a form or URL with post data or query fragments # with multiple occurrences of the same variable, we can get a list # here. Be as careful as possible. if isinstance(s, list) or isinstance(s, tuple): if len(s) == 0: s = '' else: s = s[-1] # Pretty minimal, cheesy check. We could do better... if not s or s.count(' ') > 0: raise Errors.MMBadEmailError if _badchars.search(s): raise Errors.MMHostileAddress, s user, domain_parts = ParseEmail(s) # This means local, unqualified addresses, are not allowed if not domain_parts: raise Errors.MMBadEmailError, s if len(domain_parts) < 2: raise Errors.MMBadEmailError, s # domain parts may only contain ascii letters, digits and hyphen # and must not begin with hyphen. for p in domain_parts: if len(p) == 0 or p[0] == '-' or len(_valid_domain.sub('', p)) > 0: raise Errors.MMHostileAddress, s # Patterns which may be used to form malicious path to inject a new # line in the mailman error log. (TK: advisory by Moritz Naumann) CRNLpat = re.compile(r'[^\x21-\x7e]') def GetPathPieces(envar='PATH_INFO'): path = os.environ.get(envar) if path: if CRNLpat.search(path): path = CRNLpat.split(path)[0] remote = os.environ.get('HTTP_FORWARDED_FOR', os.environ.get('HTTP_X_FORWARDED_FOR', os.environ.get('REMOTE_ADDR', 'unidentified origin'))) syslog('error', 'Warning: Possible malformed path attack domain=%s remote=%s', get_domain(), remote) return [p for p in path.split('/') if p] return None def GetRequestMethod(): return os.environ.get('REQUEST_METHOD') def ScriptURL(target, web_page_url=None, absolute=False): """target - scriptname only, nothing extra web_page_url - the list's configvar of the same name absolute - a flag which if set, generates an absolute url """ if web_page_url is None: web_page_url = mm_cfg.DEFAULT_URL_PATTERN % get_domain() if web_page_url[-1] <> '/': web_page_url = web_page_url + '/' fullpath = os.environ.get('REQUEST_URI') if fullpath is None: fullpath = os.environ.get('SCRIPT_NAME', '') + \ os.environ.get('PATH_INFO', '') baseurl = urlparse.urlparse(web_page_url)[2] if not absolute and fullpath.startswith(baseurl): # Use relative addressing fullpath = fullpath[len(baseurl):] i = fullpath.find('?') if i > 0: count = fullpath.count('/', 0, i) else: count = fullpath.count('/') path = ('../' * count) + target else: path = web_page_url + target return path + mm_cfg.CGIEXT def GetPossibleMatchingAddrs(name): """returns a sorted list of addresses that could possibly match a given name. For Example, given scott@pobox.com, return ['scott@pobox.com'], given scott@blackbox.pobox.com return ['scott@blackbox.pobox.com', 'scott@pobox.com']""" name = name.lower() user, domain = ParseEmail(name) res = [name] if domain: domain = domain[1:] while len(domain) >= 2: res.append("%s@%s" % (user, DOT.join(domain))) domain = domain[1:] return res def List2Dict(L, foldcase=False): """Return a dict keyed by the entries in the list passed to it.""" d = {} if foldcase: for i in L: d[i.lower()] = True else: for i in L: d[i] = True return d _vowels = ('a', 'e', 'i', 'o', 'u') _consonants = ('b', 'c', 'd', 'f', 'g', 'h', 'k', 'm', 'n', 'p', 'r', 's', 't', 'v', 'w', 'x', 'z') _syllables = [] for v in _vowels: for c in _consonants: _syllables.append(c+v) _syllables.append(v+c) del c, v def UserFriendly_MakeRandomPassword(length): syls = [] while len(syls) * 2 < length: syls.append(random.choice(_syllables)) return EMPTYSTRING.join(syls)[:length] def Secure_MakeRandomPassword(length): bytesread = 0 bytes = [] fd = None try: while bytesread < length: try: # Python 2.4 has this on available systems. newbytes = os.urandom(length - bytesread) except (AttributeError, NotImplementedError): if fd is None: try: fd = os.open('/dev/urandom', os.O_RDONLY) except OSError, e: if e.errno <> errno.ENOENT: raise # We have no available source of cryptographically # secure random characters. Log an error and fallback # to the user friendly passwords. syslog('error', 'urandom not available, passwords not secure') return UserFriendly_MakeRandomPassword(length) newbytes = os.read(fd, length - bytesread) bytes.append(newbytes) bytesread += len(newbytes) s = base64.encodestring(EMPTYSTRING.join(bytes)) # base64 will expand the string by 4/3rds return s.replace('\n', '')[:length] finally: if fd is not None: os.close(fd) def MakeRandomPassword(length=mm_cfg.MEMBER_PASSWORD_LENGTH): if mm_cfg.USER_FRIENDLY_PASSWORDS: return UserFriendly_MakeRandomPassword(length) return Secure_MakeRandomPassword(length) def GetRandomSeed(): chr1 = int(random.random() * 52) chr2 = int(random.random() * 52) def mkletter(c): if 0 <= c < 26: c += 65 if 26 <= c < 52: #c = c - 26 + 97 c += 71 return c return "%c%c" % tuple(map(mkletter, (chr1, chr2))) def set_global_password(pw, siteadmin=True): if siteadmin: filename = mm_cfg.SITE_PW_FILE else: filename = mm_cfg.LISTCREATOR_PW_FILE # rw-r----- omask = os.umask(026) try: fp = open(filename, 'w') fp.write(sha_new(pw).hexdigest() + '\n') fp.close() finally: os.umask(omask) def get_global_password(siteadmin=True): if siteadmin: filename = mm_cfg.SITE_PW_FILE else: filename = mm_cfg.LISTCREATOR_PW_FILE try: fp = open(filename) challenge = fp.read()[:-1] # strip off trailing nl fp.close() except IOError, e: if e.errno <> errno.ENOENT: raise # It's okay not to have a site admin password, just return false return None return challenge def check_global_password(response, siteadmin=True): challenge = get_global_password(siteadmin) if challenge is None: return None return challenge == sha_new(response).hexdigest() _ampre = re.compile('&((?:#[0-9]+|[a-z]+);)', re.IGNORECASE) def websafe(s): # If a user submits a form or URL with post data or query fragments # with multiple occurrences of the same variable, we can get a list # here. Be as careful as possible. if isinstance(s, list) or isinstance(s, tuple): if len(s) == 0: s = '' else: s = s[-1] if mm_cfg.BROKEN_BROWSER_WORKAROUND: # Archiver can pass unicode here. Just skip them as the # archiver escapes non-ascii anyway. if isinstance(s, str): for k in mm_cfg.BROKEN_BROWSER_REPLACEMENTS: s = s.replace(k, mm_cfg.BROKEN_BROWSER_REPLACEMENTS[k]) # Don't double escape html entities return _ampre.sub(r'&\1', cgi.escape(s, quote=True)) def nntpsplit(s): parts = s.split(':', 1) if len(parts) == 2: try: return parts[0], int(parts[1]) except ValueError: pass # Use the defaults return s, 119 # Just changing these two functions should be enough to control the way # that email address obscuring is handled. def ObscureEmail(addr, for_text=False): """Make email address unrecognizable to web spiders, but invertable. When for_text option is set (not default), make a sentence fragment instead of a token.""" if for_text: return addr.replace('@', ' at ') else: return addr.replace('@', '--at--') def UnobscureEmail(addr): """Invert ObscureEmail() conversion.""" # Contrived to act as an identity operation on already-unobscured # emails, so routines expecting obscured ones will accept both. return addr.replace('--at--', '@') class OuterExit(Exception): pass def findtext(templatefile, dict=None, raw=False, lang=None, mlist=None): # Make some text from a template file. The order of searches depends on # whether mlist and lang are provided. Once the templatefile is found, # string substitution is performed by interpolation in `dict'. If `raw' # is false, the resulting text is wrapped/filled by calling wrap(). # # When looking for a template in a specific language, there are 4 places # that are searched, in this order: # # 1. the list-specific language directory # lists// # # 2. the domain-specific language directory # templates// # # 3. the site-wide language directory # templates/site/ # # 4. the global default language directory # templates/ # # The first match found stops the search. In this way, you can specialize # templates at the desired level, or, if you use only the default # templates, you don't need to change anything. You should never modify # files in the templates/ subdirectory, since Mailman will # overwrite these when you upgrade. That's what the templates/site # language directories are for. # # A further complication is that the language to search for is determined # by both the `lang' and `mlist' arguments. The search order there is # that if lang is given, then the 4 locations above are searched, # substituting lang for . If no match is found, and mlist is # given, then the 4 locations are searched using the list's preferred # language. After that, the server default language is used for # . If that still doesn't yield a template, then the standard # distribution's English language template is used as an ultimate # fallback. If that's missing you've got big problems. ;) # # A word on backwards compatibility: Mailman versions prior to 2.1 stored # templates in templates/*.{html,txt} and lists//*.{html,txt}. # Those directories are no longer searched so if you've got customizations # in those files, you should move them to the appropriate directory based # on the above description. Mailman's upgrade script cannot do this for # you. # # The function has been revised and renamed as it now returns both the # template text and the path from which it retrieved the template. The # original function is now a wrapper which just returns the template text # as before, by calling this renamed function and discarding the second # item returned. # # Calculate the languages to scan languages = [] if lang is not None: languages.append(lang) if mlist is not None: languages.append(mlist.preferred_language) languages.append(mm_cfg.DEFAULT_SERVER_LANGUAGE) # Calculate the locations to scan searchdirs = [] if mlist is not None: searchdirs.append(mlist.fullpath()) searchdirs.append(os.path.join(mm_cfg.TEMPLATE_DIR, mlist.host_name)) searchdirs.append(os.path.join(mm_cfg.TEMPLATE_DIR, 'site')) searchdirs.append(mm_cfg.TEMPLATE_DIR) # Start scanning fp = None try: for lang in languages: for dir in searchdirs: filename = os.path.join(dir, lang, templatefile) try: fp = open(filename) raise OuterExit except IOError, e: if e.errno <> errno.ENOENT: raise # Okay, it doesn't exist, keep looping fp = None except OuterExit: pass if fp is None: # Try one last time with the distro English template, which, unless # you've got a really broken installation, must be there. try: filename = os.path.join(mm_cfg.TEMPLATE_DIR, 'en', templatefile) fp = open(filename) except IOError, e: if e.errno <> errno.ENOENT: raise # We never found the template. BAD! raise IOError(errno.ENOENT, 'No template file found', templatefile) template = fp.read() fp.close() text = template if dict is not None: try: sdict = SafeDict(dict) try: text = sdict.interpolate(template) except UnicodeError: # Try again after coercing the template to unicode utemplate = unicode(template, GetCharSet(lang), 'replace') text = sdict.interpolate(utemplate) except (TypeError, ValueError), e: # The template is really screwed up syslog('error', 'broken template: %s\n%s', filename, e) pass if raw: return text, filename return wrap(text), filename def maketext(templatefile, dict=None, raw=False, lang=None, mlist=None): return findtext(templatefile, dict, raw, lang, mlist)[0] ADMINDATA = { # admin keyword: (minimum #args, maximum #args) 'confirm': (1, 1), 'help': (0, 0), 'info': (0, 0), 'lists': (0, 0), 'options': (0, 0), 'password': (2, 2), 'remove': (0, 0), 'set': (3, 3), 'subscribe': (0, 3), 'unsubscribe': (0, 1), 'who': (0, 1), } # Given a Message.Message object, test for administrivia (eg subscribe, # unsubscribe, etc). The test must be a good guess -- messages that return # true get sent to the list admin instead of the entire list. def is_administrivia(msg): linecnt = 0 lines = [] for line in email.Iterators.body_line_iterator(msg): # Strip out any signatures if line == '-- ': break if line.strip(): linecnt += 1 if linecnt > mm_cfg.DEFAULT_MAIL_COMMANDS_MAX_LINES: return False lines.append(line) bodytext = NL.join(lines) # See if the body text has only one word, and that word is administrivia if ADMINDATA.has_key(bodytext.strip().lower()): return True # Look at the first N lines and see if there is any administrivia on the # line. BAW: N is currently hardcoded to 5. str-ify the Subject: header # because it may be an email.Header.Header instance rather than a string. bodylines = lines[:5] subject = str(msg.get('subject', '')) bodylines.append(subject) for line in bodylines: if not line.strip(): continue words = [word.lower() for word in line.split()] minargs, maxargs = ADMINDATA.get(words[0], (None, None)) if minargs is None and maxargs is None: continue if minargs <= len(words[1:]) <= maxargs: # Special case the `set' keyword. BAW: I don't know why this is # here. if words[0] == 'set' and words[2] not in ('on', 'off'): continue return True return False def GetRequestURI(fallback=None, escape=True): """Return the full virtual path this CGI script was invoked with. Newer web servers seems to supply this info in the REQUEST_URI environment variable -- which isn't part of the CGI/1.1 spec. Thus, if REQUEST_URI isn't available, we concatenate SCRIPT_NAME and PATH_INFO, both of which are part of CGI/1.1. Optional argument `fallback' (default `None') is returned if both of the above methods fail. The url will be cgi escaped to prevent cross-site scripting attacks, unless `escape' is set to 0. """ url = fallback if os.environ.has_key('REQUEST_URI'): url = os.environ['REQUEST_URI'] elif os.environ.has_key('SCRIPT_NAME') and os.environ.has_key('PATH_INFO'): url = os.environ['SCRIPT_NAME'] + os.environ['PATH_INFO'] if escape: return websafe(url) return url # Wait on a dictionary of child pids def reap(kids, func=None, once=False): while kids: if func: func() try: pid, status = os.waitpid(-1, os.WNOHANG) except OSError, e: # If the child procs had a bug we might have no children if e.errno <> errno.ECHILD: raise kids.clear() break if pid <> 0: try: del kids[pid] except KeyError: # Huh? How can this happen? pass if once: break def GetLanguageDescr(lang): return mm_cfg.LC_DESCRIPTIONS[lang][0] def GetCharSet(lang): return mm_cfg.LC_DESCRIPTIONS[lang][1] def GetDirection(lang): return mm_cfg.LC_DESCRIPTIONS[lang][2] def IsLanguage(lang): return mm_cfg.LC_DESCRIPTIONS.has_key(lang) def get_domain(): host = os.environ.get('HTTP_HOST', os.environ.get('SERVER_NAME')) port = os.environ.get('SERVER_PORT') # Strip off the port if there is one if port and host.endswith(':' + port): host = host[:-len(port)-1] if mm_cfg.VIRTUAL_HOST_OVERVIEW and host: return websafe(host.lower()) else: # See the note in Defaults.py concerning DEFAULT_URL # vs. DEFAULT_URL_HOST. hostname = ((mm_cfg.DEFAULT_URL and urlparse.urlparse(mm_cfg.DEFAULT_URL)[1]) or mm_cfg.DEFAULT_URL_HOST) return hostname.lower() def get_site_email(hostname=None, extra=None): if hostname is None: hostname = mm_cfg.VIRTUAL_HOSTS.get(get_domain(), get_domain()) if extra is None: return '%s@%s' % (mm_cfg.MAILMAN_SITE_LIST, hostname) return '%s-%s@%s' % (mm_cfg.MAILMAN_SITE_LIST, extra, hostname) # This algorithm crafts a guaranteed unique message-id. The theory here is # that pid+listname+host will distinguish the message-id for every process on # the system, except when process ids wrap around. To further distinguish # message-ids, we prepend the integral time in seconds since the epoch. It's # still possible that we'll vend out more than one such message-id per second, # so we prepend a monotonically incrementing serial number. It's highly # unlikely that within a single second, there'll be a pid wraparound. _serial = 0 def unique_message_id(mlist): global _serial msgid = '' % ( _serial, time.time(), os.getpid(), mlist.internal_name(), mlist.host_name) _serial += 1 return msgid # Figure out epoch seconds of midnight at the start of today (or the given # 3-tuple date of (year, month, day). def midnight(date=None): if date is None: date = time.localtime()[:3] # -1 for dst flag tells the library to figure it out return time.mktime(date + (0,)*5 + (-1,)) # Utilities to convert from simplified $identifier substitutions to/from # standard Python $(identifier)s substititions. The "Guido rules" for the # former are: # $$ -> $ # $identifier -> $(identifier)s # ${identifier} -> $(identifier)s def to_dollar(s): """Convert from %-strings to $-strings.""" s = s.replace('$', '$$').replace('%%', '%') parts = cre.split(s) for i in range(1, len(parts), 2): if parts[i+1] and parts[i+1][0] in IDENTCHARS: parts[i] = '${' + parts[i] + '}' else: parts[i] = '$' + parts[i] return EMPTYSTRING.join(parts) def to_percent(s): """Convert from $-strings to %-strings.""" s = s.replace('%', '%%').replace('$$', '$') parts = dre.split(s) for i in range(1, len(parts), 4): if parts[i] is not None: parts[i] = '$' elif parts[i+1] is not None: parts[i+1] = '%(' + parts[i+1] + ')s' else: parts[i+2] = '%(' + parts[i+2] + ')s' return EMPTYSTRING.join(filter(None, parts)) def dollar_identifiers(s): """Return the set (dictionary) of identifiers found in a $-string.""" d = {} for name in filter(None, [b or c or None for a, b, c in dre.findall(s)]): d[name] = True return d def percent_identifiers(s): """Return the set (dictionary) of identifiers found in a %-string.""" d = {} for name in cre.findall(s): d[name] = True return d # Utilities to canonicalize a string, which means un-HTML-ifying the string to # produce a Unicode string or an 8-bit string if all the characters are ASCII. def canonstr(s, lang=None): newparts = [] parts = re.split(r'&(?P[^;]+);', s) def appchr(i): # do everything in unicode newparts.append(unichr(i)) def tounicode(s): # We want the default fallback to be iso-8859-1 even if the language # is English (us-ascii). This seems like a practical compromise so # that non-ASCII characters in names can be used in English lists w/o # having to change the global charset for English from us-ascii (which # I superstitiously think may have unintended consequences). if isinstance(s, unicode): return s if lang is None: charset = 'iso-8859-1' else: charset = GetCharSet(lang) if charset == 'us-ascii': charset = 'iso-8859-1' return unicode(s, charset, 'replace') while True: newparts.append(tounicode(parts.pop(0))) if not parts: break ref = parts.pop(0) if ref.startswith('#'): try: appchr(int(ref[1:])) except ValueError: # Non-convertable, stick with what we got newparts.append(tounicode('&'+ref+';')) else: c = htmlentitydefs.entitydefs.get(ref, '?') if c.startswith('#') and c.endswith(';'): appchr(int(ref[1:-1])) else: newparts.append(tounicode(c)) newstr = EMPTYSTRING.join(newparts) # newstr is unicode return newstr # The opposite of canonstr() -- sorta. I.e. it attempts to encode s in the # charset of the given language, which is the character set that the page will # be rendered in, and failing that, replaces non-ASCII characters with their # html references. It always returns a byte string. def uncanonstr(s, lang=None): if s is None: s = u'' if lang is None: charset = 'us-ascii' else: charset = GetCharSet(lang) # See if the string contains characters only in the desired character # set. If so, return it unchanged, except for coercing it to a byte # string. try: if isinstance(s, UnicodeType): return s.encode(charset) else: u = unicode(s, charset) return s except UnicodeError: # Nope, it contains funny characters, so html-ref it return uquote(s) def uquote(s): a = [] for c in s: o = ord(c) if o > 127: a.append('&#%3d;' % o) else: a.append(c) # Join characters together and coerce to byte string return str(EMPTYSTRING.join(a)) def oneline(s, cset): # Decode header string in one line and convert into specified charset try: h = email.Header.make_header(email.Header.decode_header(s)) ustr = h.__unicode__() line = UEMPTYSTRING.join(ustr.splitlines()) return line.encode(cset, 'replace') except (LookupError, UnicodeError, ValueError, HeaderParseError): # possibly charset problem. return with undecoded string in one line. return EMPTYSTRING.join(s.splitlines()) def strip_verbose_pattern(pattern): # Remove white space and comments from a verbose pattern and return a # non-verbose, equivalent pattern. Replace CR and NL in the result # with '\\r' and '\\n' respectively to avoid multi-line results. if not isinstance(pattern, str): return pattern newpattern = '' i = 0 inclass = False skiptoeol = False copynext = False while i < len(pattern): c = pattern[i] if copynext: if c == NL: newpattern += '\\n' elif c == CR: newpattern += '\\r' else: newpattern += c copynext = False elif skiptoeol: if c == NL: skiptoeol = False elif c == '#' and not inclass: skiptoeol = True elif c == '[' and not inclass: inclass = True newpattern += c copynext = True elif c == ']' and inclass: inclass = False newpattern += c elif re.search('\s', c): if inclass: if c == NL: newpattern += '\\n' elif c == CR: newpattern += '\\r' else: newpattern += c elif c == '\\' and not inclass: newpattern += c copynext = True else: if c == NL: newpattern += '\\n' elif c == CR: newpattern += '\\r' else: newpattern += c i += 1 return newpattern # Patterns and functions to flag possible XSS attacks in HTML. # This list is compiled from information at http://ha.ckers.org/xss.html, # http://www.quirksmode.org/js/events_compinfo.html, # http://www.htmlref.com/reference/appa/events1.htm, # http://lxr.mozilla.org/mozilla/source/content/events/src/nsDOMEvent.cpp#59, # http://www.w3.org/TR/DOM-Level-2-Events/events.html and # http://www.xulplanet.com/references/elemref/ref_EventHandlers.html # Many thanks are due to Moritz Naumann for his assistance with this. _badwords = [ ')', '= len(ks): for i in range(len(ks)-1): if d[i] != ks[i] and ks[i] != '*': break else: if d[len(ks)-1] == ks[-1] or ks[-1] == '*': hits.append(k) if not hits: return _get_dom(d, 1) l = 0 for k in hits: if s_dict[k]: # It's an exception return _get_dom(d, len(k.split('.'))-1) if len(k.split('.')) > l: l = len(k.split('.')) return _get_dom(d, l) # This takes an email address, and returns True if DMARC policy is p=reject # or possibly quarantine. def IsDMARCProhibited(mlist, email): if not dns_resolver: # This is a problem; log it. syslog('error', 'DNS lookup for dmarc_moderation_action for list %s not available', mlist.real_name) return False email = email.lower() # Scan from the right in case quoted local part has an '@'. at_sign = email.rfind('@') if at_sign < 1: return False f_dom = email[at_sign+1:] x = _DMARCProhibited(mlist, email, '_dmarc.' + f_dom) if x != 'continue': return x o_dom = get_org_dom(f_dom) if o_dom != f_dom: x = _DMARCProhibited(mlist, email, '_dmarc.' + o_dom, org=True) if x != 'continue': return x return False def _DMARCProhibited(mlist, email, dmarc_domain, org=False): try: resolver = dns.resolver.Resolver() resolver.timeout = float(mm_cfg.DMARC_RESOLVER_TIMEOUT) resolver.lifetime = float(mm_cfg.DMARC_RESOLVER_LIFETIME) txt_recs = resolver.query(dmarc_domain, dns.rdatatype.TXT) except (dns.resolver.NXDOMAIN, dns.resolver.NoAnswer): return 'continue' except (dns.resolver.NoNameservers): syslog('error', 'DNSException: No Nameservers available for %s (%s)', email, dmarc_domain) # Typically this means a dnssec validation error. Clients that don't # perform validation *may* successfully see a _dmarc RR whereas a # validating mailman server won't see the _dmarc RR. We should # mitigate this email to be safe. return True except DNSException, e: syslog('error', 'DNSException: Unable to query DMARC policy for %s (%s). %s', email, dmarc_domain, e.__doc__) # While we can't be sure what caused the error, there is potentially # a DMARC policy record that we missed and that a receiver of the mail # might see. Thus, we should err on the side of caution and mitigate. return True else: # Be as robust as possible in parsing the result. results_by_name = {} cnames = {} want_names = set([dmarc_domain + '.']) for txt_rec in txt_recs.response.answer: if txt_rec.rdtype == dns.rdatatype.CNAME: cnames[txt_rec.name.to_text()] = ( txt_rec.items[0].target.to_text()) if txt_rec.rdtype != dns.rdatatype.TXT: continue results_by_name.setdefault(txt_rec.name.to_text(), []).append( "".join(txt_rec.items[0].strings)) expands = list(want_names) seen = set(expands) while expands: item = expands.pop(0) if item in cnames: if cnames[item] in seen: continue # cname loop expands.append(cnames[item]) seen.add(cnames[item]) want_names.add(cnames[item]) want_names.discard(item) if len(want_names) != 1: syslog('error', """multiple DMARC entries in results for %s, processing each to be strict""", dmarc_domain) for name in want_names: if name not in results_by_name: continue dmarcs = filter(lambda n: n.startswith('v=DMARC1;'), results_by_name[name]) if len(dmarcs) == 0: return 'continue' if len(dmarcs) > 1: syslog('error', """RRset of TXT records for %s has %d v=DMARC1 entries; testing them all""", dmarc_domain, len(dmarcs)) for entry in dmarcs: mo = re.search(r'\bsp=(\w*)\b', entry, re.IGNORECASE) if org and mo: policy = mo.group(1).lower() else: mo = re.search(r'\bp=(\w*)\b', entry, re.IGNORECASE) if mo: policy = mo.group(1).lower() else: continue if policy == 'reject': syslog('vette', '%s: DMARC lookup for %s (%s) found p=reject in %s = %s', mlist.real_name, email, dmarc_domain, name, entry) return True if (mlist.dmarc_quarantine_moderation_action and policy == 'quarantine'): syslog('vette', '%s: DMARC lookup for %s (%s) found p=quarantine in %s = %s', mlist.real_name, email, dmarc_domain, name, entry) return True if (mlist.dmarc_none_moderation_action and mlist.dmarc_quarantine_moderation_action and mlist.dmarc_moderation_action in (1, 2) and policy == 'none'): syslog('vette', '%s: DMARC lookup for %s (%s) found p=none in %s = %s', mlist.real_name, email, dmarc_domain, name, entry) return True return False # Check a known list in order to auto-moderate verbose members # dictionary to remember recent posts. recentMemberPostings = {} # counter of times through clean_count = 0 def IsVerboseMember(mlist, email): """For lists that request it, we keep track of recent posts by address. A message from an address to a list, if the list requests it, is remembered for a specified time whether or not the address is a list member, and if the address is a member and the member is over the threshold for the list, that fact is returned.""" global clean_count if mlist.member_verbosity_threshold == 0: return False email = email.lower() now = time.time() recentMemberPostings.setdefault(email,[]).append(now + float(mlist.member_verbosity_interval) ) x = range(len(recentMemberPostings[email])) x.reverse() for i in x: if recentMemberPostings[email][i] < now: del recentMemberPostings[email][i] clean_count += 1 if clean_count >= mm_cfg.VERBOSE_CLEAN_LIMIT: clean_count = 0 for addr in recentMemberPostings.keys(): x = range(len(recentMemberPostings[addr])) x.reverse() for i in x: if recentMemberPostings[addr][i] < now: del recentMemberPostings[addr][i] if not recentMemberPostings[addr]: del recentMemberPostings[addr] if not mlist.isMember(email): return False return (len(recentMemberPostings.get(email, [])) > mlist.member_verbosity_threshold ) def check_eq_domains(email, domains_list): """The arguments are an email address and a string representing a list of lists in a form like 'a,b,c;1,2' representing [['a', 'b', 'c'],['1', '2']]. The inner lists are domains which are equivalent in some sense. The return is an empty list or a list of email addresses equivalent to the first argument. For example, given email = 'user@me.com' domains_list = '''domain1, domain2; mac.com, me.com, icloud.com; domaina, domainb ''' check_eq_domains(email, domains_list) will return ['user@mac.com', 'user@icloud.com'] """ if not domains_list: return [] try: local, domain = email.rsplit('@', 1) except ValueError: return [] domain = domain.lower() domains_list = re.sub('\s', '', domains_list).lower() domains = domains_list.split(';') domains_list = [] for d in domains: domains_list.append(d.split(',')) for domains in domains_list: if domain in domains: return [local + '@' + x for x in domains if x != domain] return [] def _invert_xml(mo): # This is used with re.sub below to convert XML char refs and textual \u # escapes to unicodes. try: if mo.group(1)[:1] == '#': return unichr(int(mo.group(1)[1:])) elif mo.group(1)[:1].lower() == 'u': return unichr(int(mo.group(1)[1:], 16)) else: return(u'\ufffd') except ValueError: # Value is out of range. Return the unicode replace character. return(u'\ufffd') def xml_to_unicode(s, cset): """This converts a string s, encoded in cset to a unicode with translation of XML character references and textual \uxxxx escapes. It is more or less the inverse of unicode.decode(cset, errors='xmlcharrefreplace'). It is similar to canonstr above except for replacing invalid refs with the unicode replace character and recognizing \u escapes. """ if isinstance(s, str): us = s.decode(cset, 'replace') us = re.sub(u'&(#[0-9]+);', _invert_xml, us) us = re.sub(u'(?i)\\\\(u[a-f0-9]{4})', _invert_xml, us) return us else: return s def banned_ip(ip): if not dns_resolver: return False if have_ipaddress: try: uip = unicode(ip, encoding='us-ascii', errors='replace') ptr = ipaddress.ip_address(uip).reverse_pointer except ValueError: return False lookup = '{0}.zen.spamhaus.org'.format('.'.join(ptr.split('.')[:-2])) else: parts = ip.split('.') if len(parts) != 4: return False lookup = '{0}.{1}.{2}.{3}.zen.spamhaus.org'.format(parts[3], parts[2], parts[1], parts[0]) resolver = dns.resolver.Resolver() try: ans = resolver.query(lookup, dns.rdatatype.A) except DNSException: return False if not ans: return False text = ans.rrset.to_text() if re.search(r'127\.0\.0\.[2-7]$', text, re.MULTILINE): return True return False def banned_domain(email): if not dns_resolver: return False email = email.lower() user, domain = ParseEmail(email) lookup = '%s.zen.spamhaus.org' % (domain) resolver = dns.resolver.Resolver() try: ans = resolver.query(lookup, dns.rdatatype.A) except DNSException: return False if not ans: return False text = ans.rrset.to_text() if re.search(r'127\.0\.1\.\d{1,3}$', text, re.MULTILINE): if not re.search(r'127\.0\.1\.255$', text, re.MULTILINE): return True return False