"""Universal feed parser Handles RSS 0.9x, RSS 1.0, RSS 2.0, CDF, Atom 0.3, and Atom 1.0 feeds Visit https://code.google.com/p/feedparser/ for the latest version Visit http://packages.python.org/feedparser/ for the latest documentation Required: Python 2.4 or later Recommended: iconv_codec """ __version__ = "5.1.3" __license__ = """ Copyright (c) 2010-2012 Kurt McKee Copyright (c) 2002-2008 Mark Pilgrim All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 'AS IS' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.""" __author__ = "Mark Pilgrim " __contributors__ = ["Jason Diamond ", "John Beimler ", "Fazal Majid ", "Aaron Swartz ", "Kevin Marks ", "Sam Ruby ", "Ade Oshineye ", "Martin Pool ", "Kurt McKee ", "Bernd Schlapsi ",] # HTTP "User-Agent" header to send to servers when downloading feeds. # If you are embedding feedparser in a larger application, you should # change this to your application name and URL. USER_AGENT = "UniversalFeedParser/%s +https://code.google.com/p/feedparser/" % __version__ # HTTP "Accept" header to send to servers when downloading feeds. If you don't # want to send an Accept header, set this to None. ACCEPT_HEADER = "application/atom+xml,application/rdf+xml,application/rss+xml,application/x-netcdf,application/xml;q=0.9,text/xml;q=0.2,*/*;q=0.1" # List of preferred XML parsers, by SAX driver name. These will be tried first, # but if they're not installed, Python will keep searching through its own list # of pre-installed parsers until it finds one that supports everything we need. PREFERRED_XML_PARSERS = ["drv_libxml2"] # If you want feedparser to automatically run HTML markup through HTML Tidy, set # this to 1. Requires mxTidy # or utidylib . TIDY_MARKUP = 0 # List of Python interfaces for HTML Tidy, in order of preference. Only useful # if TIDY_MARKUP = 1 PREFERRED_TIDY_INTERFACES = ["uTidy", "mxTidy"] # If you want feedparser to automatically resolve all relative URIs, set this # to 1. RESOLVE_RELATIVE_URIS = 1 # If you want feedparser to automatically sanitize all potentially unsafe # HTML content, set this to 1. SANITIZE_HTML = 1 # If you want feedparser to automatically parse microformat content embedded # in entry contents, set this to 1 PARSE_MICROFORMATS = 1 # ---------- Python 3 modules (make it work if possible) ---------- try: import rfc822 except ImportError: from email import _parseaddr as rfc822 try: # Python 3.1 introduces bytes.maketrans and simultaneously # deprecates string.maketrans; use bytes.maketrans if possible _maketrans = bytes.maketrans except (NameError, AttributeError): import string _maketrans = string.maketrans # base64 support for Atom feeds that contain embedded binary data try: import base64, binascii except ImportError: base64 = binascii = None else: # Python 3.1 deprecates decodestring in favor of decodebytes _base64decode = getattr(base64, 'decodebytes', base64.decodestring) # _s2bytes: convert a UTF-8 str to bytes if the interpreter is Python 3 # _l2bytes: convert a list of ints to bytes if the interpreter is Python 3 try: if bytes is str: # In Python 2.5 and below, bytes doesn't exist (NameError) # In Python 2.6 and above, bytes and str are the same type raise NameError except NameError: # Python 2 def _s2bytes(s): return s def _l2bytes(l): return ''.join(map(chr, l)) else: # Python 3 def _s2bytes(s): return bytes(s, 'utf8') def _l2bytes(l): return bytes(l) # If you want feedparser to allow all URL schemes, set this to () # List culled from Python's urlparse documentation at: # http://docs.python.org/library/urlparse.html # as well as from "URI scheme" at Wikipedia: # https://secure.wikimedia.org/wikipedia/en/wiki/URI_scheme # Many more will likely need to be added! ACCEPTABLE_URI_SCHEMES = ( 'file', 'ftp', 'gopher', 'h323', 'hdl', 'http', 'https', 'imap', 'magnet', 'mailto', 'mms', 'news', 'nntp', 'prospero', 'rsync', 'rtsp', 'rtspu', 'sftp', 'shttp', 'sip', 'sips', 'snews', 'svn', 'svn+ssh', 'telnet', 'wais', # Additional common-but-unofficial schemes 'aim', 'callto', 'cvs', 'facetime', 'feed', 'git', 'gtalk', 'irc', 'ircs', 'irc6', 'itms', 'mms', 'msnim', 'skype', 'ssh', 'smb', 'svn', 'ymsg', ) #ACCEPTABLE_URI_SCHEMES = () # ---------- required modules (should come with any Python distribution) ---------- import cgi import codecs import copy import datetime import re import struct import time import types import urllib.request, urllib.parse, urllib.error import urllib.request, urllib.error, urllib.parse import urllib.parse import warnings from html.entities import name2codepoint, codepoint2name, entitydefs try: from io import BytesIO as _StringIO except ImportError: try: from io import StringIO as _StringIO except ImportError: from io import StringIO as _StringIO # ---------- optional modules (feedparser will work without these, but with reduced functionality) ---------- # gzip is included with most Python distributions, but may not be available if you compiled your own try: import gzip except ImportError: gzip = None try: import zlib except ImportError: zlib = None # If a real XML parser is available, feedparser will attempt to use it. feedparser has # been tested with the built-in SAX parser and libxml2. On platforms where the # Python distribution does not come with an XML parser (such as Mac OS X 10.2 and some # versions of FreeBSD), feedparser will quietly fall back on regex-based parsing. try: import xml.sax from xml.sax.saxutils import escape as _xmlescape except ImportError: _XML_AVAILABLE = 0 def _xmlescape(data,entities={}): data = data.replace('&', '&') data = data.replace('>', '>') data = data.replace('<', '<') for char, entity in entities: data = data.replace(char, entity) return data else: try: xml.sax.make_parser(PREFERRED_XML_PARSERS) # test for valid parsers except xml.sax.SAXReaderNotAvailable: _XML_AVAILABLE = 0 else: _XML_AVAILABLE = 1 # sgmllib is not available by default in Python 3; if the end user doesn't have # it available then we'll lose illformed XML parsing, content santizing, and # microformat support (at least while feedparser depends on BeautifulSoup). try: import sgmllib except ImportError: # This is probably Python 3, which doesn't include sgmllib anymore _SGML_AVAILABLE = 0 # Mock sgmllib enough to allow subclassing later on class sgmllib(object): class SGMLParser(object): def goahead(self, i): pass def parse_starttag(self, i): pass else: _SGML_AVAILABLE = 1 # sgmllib defines a number of module-level regular expressions that are # insufficient for the XML parsing feedparser needs. Rather than modify # the variables directly in sgmllib, they're defined here using the same # names, and the compiled code objects of several sgmllib.SGMLParser # methods are copied into _BaseHTMLProcessor so that they execute in # feedparser's scope instead of sgmllib's scope. charref = re.compile('&#(\d+|[xX][0-9a-fA-F]+);') tagfind = re.compile('[a-zA-Z][-_.:a-zA-Z0-9]*') attrfind = re.compile( r'\s*([a-zA-Z_][-:.a-zA-Z_0-9]*)[$]?(\s*=\s*' r'(\'[^\']*\'|"[^"]*"|[][\-a-zA-Z0-9./,:;+*%?!&$\(\)_#=~\'"@]*))?' ) # Unfortunately, these must be copied over to prevent NameError exceptions entityref = sgmllib.entityref incomplete = sgmllib.incomplete interesting = sgmllib.interesting shorttag = sgmllib.shorttag shorttagopen = sgmllib.shorttagopen starttagopen = sgmllib.starttagopen class _EndBracketRegEx: def __init__(self): # Overriding the built-in sgmllib.endbracket regex allows the # parser to find angle brackets embedded in element attributes. self.endbracket = re.compile('''([^'"<>]|"[^"]*"(?=>|/|\s|\w+=)|'[^']*'(?=>|/|\s|\w+=))*(?=[<>])|.*?(?=[<>])''') def search(self, target, index=0): match = self.endbracket.match(target, index) if match is not None: # Returning a new object in the calling thread's context # resolves a thread-safety. return EndBracketMatch(match) return None class EndBracketMatch: def __init__(self, match): self.match = match def start(self, n): return self.match.end(n) endbracket = _EndBracketRegEx() # iconv_codec provides support for more character encodings. # It's available from http://cjkpython.i18n.org/ try: import iconv_codec except ImportError: pass # chardet library auto-detects character encodings # Download from http://chardet.feedparser.org/ try: import chardet except ImportError: chardet = None # BeautifulSoup is used to extract microformat content from HTML # feedparser is tested using BeautifulSoup 3.2.0 # http://www.crummy.com/software/BeautifulSoup/ try: import BeautifulSoup except ImportError: BeautifulSoup = None PARSE_MICROFORMATS = False # ---------- don't touch these ---------- class ThingsNobodyCaresAboutButMe(Exception): pass class CharacterEncodingOverride(ThingsNobodyCaresAboutButMe): pass class CharacterEncodingUnknown(ThingsNobodyCaresAboutButMe): pass class NonXMLContentType(ThingsNobodyCaresAboutButMe): pass class UndeclaredNamespace(Exception): pass SUPPORTED_VERSIONS = {'': 'unknown', 'rss090': 'RSS 0.90', 'rss091n': 'RSS 0.91 (Netscape)', 'rss091u': 'RSS 0.91 (Userland)', 'rss092': 'RSS 0.92', 'rss093': 'RSS 0.93', 'rss094': 'RSS 0.94', 'rss20': 'RSS 2.0', 'rss10': 'RSS 1.0', 'rss': 'RSS (unknown version)', 'atom01': 'Atom 0.1', 'atom02': 'Atom 0.2', 'atom03': 'Atom 0.3', 'atom10': 'Atom 1.0', 'atom': 'Atom (unknown version)', 'cdf': 'CDF', } class FeedParserDict(dict): keymap = {'channel': 'feed', 'items': 'entries', 'guid': 'id', 'date': 'updated', 'date_parsed': 'updated_parsed', 'description': ['summary', 'subtitle'], 'description_detail': ['summary_detail', 'subtitle_detail'], 'url': ['href'], 'modified': 'updated', 'modified_parsed': 'updated_parsed', 'issued': 'published', 'issued_parsed': 'published_parsed', 'copyright': 'rights', 'copyright_detail': 'rights_detail', 'tagline': 'subtitle', 'tagline_detail': 'subtitle_detail'} def __getitem__(self, key): if key == 'category': try: return dict.__getitem__(self, 'tags')[0]['term'] except IndexError: raise KeyError("object doesn't have key 'category'") elif key == 'enclosures': norel = lambda link: FeedParserDict([(name,value) for (name,value) in list(link.items()) if name!='rel']) return [norel(link) for link in dict.__getitem__(self, 'links') if link['rel']=='enclosure'] elif key == 'license': for link in dict.__getitem__(self, 'links'): if link['rel']=='license' and 'href' in link: return link['href'] elif key == 'updated': # Temporarily help developers out by keeping the old # broken behavior that was reported in issue 310. # This fix was proposed in issue 328. if not dict.__contains__(self, 'updated') and \ dict.__contains__(self, 'published'): warnings.warn("To avoid breaking existing software while " "fixing issue 310, a temporary mapping has been created " "from `updated` to `published` if `updated` doesn't " "exist. This fallback will be removed in a future version " "of feedparser.", DeprecationWarning) return dict.__getitem__(self, 'published') return dict.__getitem__(self, 'updated') elif key == 'updated_parsed': if not dict.__contains__(self, 'updated_parsed') and \ dict.__contains__(self, 'published_parsed'): warnings.warn("To avoid breaking existing software while " "fixing issue 310, a temporary mapping has been created " "from `updated_parsed` to `published_parsed` if " "`updated_parsed` doesn't exist. This fallback will be " "removed in a future version of feedparser.", DeprecationWarning) return dict.__getitem__(self, 'published_parsed') return dict.__getitem__(self, 'updated_parsed') else: realkey = self.keymap.get(key, key) if isinstance(realkey, list): for k in realkey: if dict.__contains__(self, k): return dict.__getitem__(self, k) elif dict.__contains__(self, realkey): return dict.__getitem__(self, realkey) return dict.__getitem__(self, key) def __contains__(self, key): if key in ('updated', 'updated_parsed'): # Temporarily help developers out by keeping the old # broken behavior that was reported in issue 310. # This fix was proposed in issue 328. return dict.__contains__(self, key) try: self.__getitem__(key) except KeyError: return False else: return True has_key = __contains__ def get(self, key, default=None): try: return self.__getitem__(key) except KeyError: return default def __setitem__(self, key, value): key = self.keymap.get(key, key) if isinstance(key, list): key = key[0] return dict.__setitem__(self, key, value) def setdefault(self, key, value): if key not in self: self[key] = value return value return self[key] def __getattr__(self, key): # __getattribute__() is called first; this will be called # only if an attribute was not already found try: return self.__getitem__(key) except KeyError: raise AttributeError("object has no attribute '%s'" % key) def __hash__(self): return id(self) _cp1252 = { 128: chr(8364), # euro sign 130: chr(8218), # single low-9 quotation mark 131: chr( 402), # latin small letter f with hook 132: chr(8222), # double low-9 quotation mark 133: chr(8230), # horizontal ellipsis 134: chr(8224), # dagger 135: chr(8225), # double dagger 136: chr( 710), # modifier letter circumflex accent 137: chr(8240), # per mille sign 138: chr( 352), # latin capital letter s with caron 139: chr(8249), # single left-pointing angle quotation mark 140: chr( 338), # latin capital ligature oe 142: chr( 381), # latin capital letter z with caron 145: chr(8216), # left single quotation mark 146: chr(8217), # right single quotation mark 147: chr(8220), # left double quotation mark 148: chr(8221), # right double quotation mark 149: chr(8226), # bullet 150: chr(8211), # en dash 151: chr(8212), # em dash 152: chr( 732), # small tilde 153: chr(8482), # trade mark sign 154: chr( 353), # latin small letter s with caron 155: chr(8250), # single right-pointing angle quotation mark 156: chr( 339), # latin small ligature oe 158: chr( 382), # latin small letter z with caron 159: chr( 376), # latin capital letter y with diaeresis } _urifixer = re.compile('^([A-Za-z][A-Za-z0-9+-.]*://)(/*)(.*?)') def _urljoin(base, uri): uri = _urifixer.sub(r'\1\3', uri) #try: if not isinstance(uri, str): uri = uri.decode('utf-8', 'ignore') uri = urllib.parse.urljoin(base, uri) if not isinstance(uri, str): return uri.decode('utf-8', 'ignore') return uri #except: # uri = urlparse.urlunparse([urllib.quote(part) for part in urlparse.urlparse(uri)]) # return urlparse.urljoin(base, uri) class _FeedParserMixin: namespaces = { '': '', 'http://backend.userland.com/rss': '', 'http://blogs.law.harvard.edu/tech/rss': '', 'http://purl.org/rss/1.0/': '', 'http://my.netscape.com/rdf/simple/0.9/': '', 'http://example.com/newformat#': '', 'http://example.com/necho': '', 'http://purl.org/echo/': '', 'uri/of/echo/namespace#': '', 'http://purl.org/pie/': '', 'http://purl.org/atom/ns#': '', 'http://www.w3.org/2005/Atom': '', 'http://purl.org/rss/1.0/modules/rss091#': '', 'http://webns.net/mvcb/': 'admin', 'http://purl.org/rss/1.0/modules/aggregation/': 'ag', 'http://purl.org/rss/1.0/modules/annotate/': 'annotate', 'http://media.tangent.org/rss/1.0/': 'audio', 'http://backend.userland.com/blogChannelModule': 'blogChannel', 'http://web.resource.org/cc/': 'cc', 'http://backend.userland.com/creativeCommonsRssModule': 'creativeCommons', 'http://purl.org/rss/1.0/modules/company': 'co', 'http://purl.org/rss/1.0/modules/content/': 'content', 'http://my.theinfo.org/changed/1.0/rss/': 'cp', 'http://purl.org/dc/elements/1.1/': 'dc', 'http://purl.org/dc/terms/': 'dcterms', 'http://purl.org/rss/1.0/modules/email/': 'email', 'http://purl.org/rss/1.0/modules/event/': 'ev', 'http://rssnamespace.org/feedburner/ext/1.0': 'feedburner', 'http://freshmeat.net/rss/fm/': 'fm', 'http://xmlns.com/foaf/0.1/': 'foaf', 'http://www.w3.org/2003/01/geo/wgs84_pos#': 'geo', 'http://postneo.com/icbm/': 'icbm', 'http://purl.org/rss/1.0/modules/image/': 'image', 'http://www.itunes.com/DTDs/PodCast-1.0.dtd': 'itunes', 'http://example.com/DTDs/PodCast-1.0.dtd': 'itunes', 'http://purl.org/rss/1.0/modules/link/': 'l', 'http://search.yahoo.com/mrss': 'media', # Version 1.1.2 of the Media RSS spec added the trailing slash on the namespace 'http://search.yahoo.com/mrss/': 'media', 'http://madskills.com/public/xml/rss/module/pingback/': 'pingback', 'http://prismstandard.org/namespaces/1.2/basic/': 'prism', 'http://www.w3.org/1999/02/22-rdf-syntax-ns#': 'rdf', 'http://www.w3.org/2000/01/rdf-schema#': 'rdfs', 'http://purl.org/rss/1.0/modules/reference/': 'ref', 'http://purl.org/rss/1.0/modules/richequiv/': 'reqv', 'http://purl.org/rss/1.0/modules/search/': 'search', 'http://purl.org/rss/1.0/modules/slash/': 'slash', 'http://schemas.xmlsoap.org/soap/envelope/': 'soap', 'http://purl.org/rss/1.0/modules/servicestatus/': 'ss', 'http://hacks.benhammersley.com/rss/streaming/': 'str', 'http://purl.org/rss/1.0/modules/subscription/': 'sub', 'http://purl.org/rss/1.0/modules/syndication/': 'sy', 'http://schemas.pocketsoap.com/rss/myDescModule/': 'szf', 'http://purl.org/rss/1.0/modules/taxonomy/': 'taxo', 'http://purl.org/rss/1.0/modules/threading/': 'thr', 'http://purl.org/rss/1.0/modules/textinput/': 'ti', 'http://madskills.com/public/xml/rss/module/trackback/': 'trackback', 'http://wellformedweb.org/commentAPI/': 'wfw', 'http://purl.org/rss/1.0/modules/wiki/': 'wiki', 'http://www.w3.org/1999/xhtml': 'xhtml', 'http://www.w3.org/1999/xlink': 'xlink', 'http://www.w3.org/XML/1998/namespace': 'xml', } _matchnamespaces = {} can_be_relative_uri = set(['link', 'id', 'wfw_comment', 'wfw_commentrss', 'docs', 'url', 'href', 'comments', 'icon', 'logo']) can_contain_relative_uris = set(['content', 'title', 'summary', 'info', 'tagline', 'subtitle', 'copyright', 'rights', 'description']) can_contain_dangerous_markup = set(['content', 'title', 'summary', 'info', 'tagline', 'subtitle', 'copyright', 'rights', 'description']) html_types = ['text/html', 'application/xhtml+xml'] def __init__(self, baseuri=None, baselang=None, encoding='utf-8'): if not self._matchnamespaces: for k, v in list(self.namespaces.items()): self._matchnamespaces[k.lower()] = v self.feeddata = FeedParserDict() # feed-level data self.encoding = encoding # character encoding self.entries = [] # list of entry-level data self.version = '' # feed type/version, see SUPPORTED_VERSIONS self.namespacesInUse = {} # dictionary of namespaces defined by the feed # the following are used internally to track state; # this is really out of control and should be refactored self.infeed = 0 self.inentry = 0 self.incontent = 0 self.intextinput = 0 self.inimage = 0 self.inauthor = 0 self.incontributor = 0 self.inpublisher = 0 self.insource = 0 self.sourcedata = FeedParserDict() self.contentparams = FeedParserDict() self._summaryKey = None self.namespacemap = {} self.elementstack = [] self.basestack = [] self.langstack = [] self.baseuri = baseuri or '' self.lang = baselang or None self.svgOK = 0 self.title_depth = -1 self.depth = 0 if baselang: self.feeddata['language'] = baselang.replace('_','-') # A map of the following form: # { # object_that_value_is_set_on: { # property_name: depth_of_node_property_was_extracted_from, # other_property: depth_of_node_property_was_extracted_from, # }, # } self.property_depth_map = {} def _normalize_attributes(self, kv): k = kv[0].lower() v = k in ('rel', 'type') and kv[1].lower() or kv[1] # the sgml parser doesn't handle entities in attributes, nor # does it pass the attribute values through as unicode, while # strict xml parsers do -- account for this difference if isinstance(self, _LooseFeedParser): v = v.replace('&', '&') if not isinstance(v, str): v = v.decode('utf-8') return (k, v) def unknown_starttag(self, tag, attrs): # increment depth counter self.depth += 1 # normalize attrs attrs = list(map(self._normalize_attributes, attrs)) # track xml:base and xml:lang attrsD = dict(attrs) baseuri = attrsD.get('xml:base', attrsD.get('base')) or self.baseuri if not isinstance(baseuri, str): baseuri = baseuri.decode(self.encoding, 'ignore') # ensure that self.baseuri is always an absolute URI that # uses a whitelisted URI scheme (e.g. not `javscript:`) if self.baseuri: self.baseuri = _makeSafeAbsoluteURI(self.baseuri, baseuri) or self.baseuri else: self.baseuri = _urljoin(self.baseuri, baseuri) lang = attrsD.get('xml:lang', attrsD.get('lang')) if lang == '': # xml:lang could be explicitly set to '', we need to capture that lang = None elif lang is None: # if no xml:lang is specified, use parent lang lang = self.lang if lang: if tag in ('feed', 'rss', 'rdf:RDF'): self.feeddata['language'] = lang.replace('_','-') self.lang = lang self.basestack.append(self.baseuri) self.langstack.append(lang) # track namespaces for prefix, uri in attrs: if prefix.startswith('xmlns:'): self.trackNamespace(prefix[6:], uri) elif prefix == 'xmlns': self.trackNamespace(None, uri) # track inline content if self.incontent and not self.contentparams.get('type', 'xml').endswith('xml'): if tag in ('xhtml:div', 'div'): return # typepad does this 10/2007 # element declared itself as escaped markup, but it isn't really self.contentparams['type'] = 'application/xhtml+xml' if self.incontent and self.contentparams.get('type') == 'application/xhtml+xml': if tag.find(':') != -1: prefix, tag = tag.split(':', 1) namespace = self.namespacesInUse.get(prefix, '') if tag=='math' and namespace=='http://www.w3.org/1998/Math/MathML': attrs.append(('xmlns',namespace)) if tag=='svg' and namespace=='http://www.w3.org/2000/svg': attrs.append(('xmlns',namespace)) if tag == 'svg': self.svgOK += 1 return self.handle_data('<%s%s>' % (tag, self.strattrs(attrs)), escape=0) # match namespaces if tag.find(':') != -1: prefix, suffix = tag.split(':', 1) else: prefix, suffix = '', tag prefix = self.namespacemap.get(prefix, prefix) if prefix: prefix = prefix + '_' # special hack for better tracking of empty textinput/image elements in illformed feeds if (not prefix) and tag not in ('title', 'link', 'description', 'name'): self.intextinput = 0 if (not prefix) and tag not in ('title', 'link', 'description', 'url', 'href', 'width', 'height'): self.inimage = 0 # call special handler (if defined) or default handler methodname = '_start_' + prefix + suffix try: method = getattr(self, methodname) return method(attrsD) except AttributeError: # Since there's no handler or something has gone wrong we explicitly add the element and its attributes unknown_tag = prefix + suffix if len(attrsD) == 0: # No attributes so merge it into the encosing dictionary return self.push(unknown_tag, 1) else: # Has attributes so create it in its own dictionary context = self._getContext() context[unknown_tag] = attrsD def unknown_endtag(self, tag): # match namespaces if tag.find(':') != -1: prefix, suffix = tag.split(':', 1) else: prefix, suffix = '', tag prefix = self.namespacemap.get(prefix, prefix) if prefix: prefix = prefix + '_' if suffix == 'svg' and self.svgOK: self.svgOK -= 1 # call special handler (if defined) or default handler methodname = '_end_' + prefix + suffix try: if self.svgOK: raise AttributeError() method = getattr(self, methodname) method() except AttributeError: self.pop(prefix + suffix) # track inline content if self.incontent and not self.contentparams.get('type', 'xml').endswith('xml'): # element declared itself as escaped markup, but it isn't really if tag in ('xhtml:div', 'div'): return # typepad does this 10/2007 self.contentparams['type'] = 'application/xhtml+xml' if self.incontent and self.contentparams.get('type') == 'application/xhtml+xml': tag = tag.split(':')[-1] self.handle_data('' % tag, escape=0) # track xml:base and xml:lang going out of scope if self.basestack: self.basestack.pop() if self.basestack and self.basestack[-1]: self.baseuri = self.basestack[-1] if self.langstack: self.langstack.pop() if self.langstack: # and (self.langstack[-1] is not None): self.lang = self.langstack[-1] self.depth -= 1 def handle_charref(self, ref): # called for each character reference, e.g. for ' ', ref will be '160' if not self.elementstack: return ref = ref.lower() if ref in ('34', '38', '39', '60', '62', 'x22', 'x26', 'x27', 'x3c', 'x3e'): text = '&#%s;' % ref else: if ref[0] == 'x': c = int(ref[1:], 16) else: c = int(ref) text = chr(c).encode('utf-8') self.elementstack[-1][2].append(text) def handle_entityref(self, ref): # called for each entity reference, e.g. for '©', ref will be 'copy' if not self.elementstack: return if ref in ('lt', 'gt', 'quot', 'amp', 'apos'): text = '&%s;' % ref elif ref in self.entities: text = self.entities[ref] if text.startswith('&#') and text.endswith(';'): return self.handle_entityref(text) else: try: name2codepoint[ref] except KeyError: text = '&%s;' % ref else: text = chr(name2codepoint[ref]).encode('utf-8') self.elementstack[-1][2].append(text) def handle_data(self, text, escape=1): # called for each block of plain text, i.e. outside of any tag and # not containing any character or entity references if not self.elementstack: return if escape and self.contentparams.get('type') == 'application/xhtml+xml': text = _xmlescape(text) self.elementstack[-1][2].append(text) def handle_comment(self, text): # called for each comment, e.g. pass def handle_pi(self, text): # called for each processing instruction, e.g. pass def handle_decl(self, text): pass def parse_declaration(self, i): # override internal declaration handler to handle CDATA blocks if self.rawdata[i:i+9] == '', i) if k == -1: # CDATA block began but didn't finish k = len(self.rawdata) return k self.handle_data(_xmlescape(self.rawdata[i+9:k]), 0) return k+3 else: k = self.rawdata.find('>', i) if k >= 0: return k+1 else: # We have an incomplete CDATA block. return k def mapContentType(self, contentType): contentType = contentType.lower() if contentType == 'text' or contentType == 'plain': contentType = 'text/plain' elif contentType == 'html': contentType = 'text/html' elif contentType == 'xhtml': contentType = 'application/xhtml+xml' return contentType def trackNamespace(self, prefix, uri): loweruri = uri.lower() if not self.version: if (prefix, loweruri) == (None, 'http://my.netscape.com/rdf/simple/0.9/'): self.version = 'rss090' elif loweruri == 'http://purl.org/rss/1.0/': self.version = 'rss10' elif loweruri == 'http://www.w3.org/2005/atom': self.version = 'atom10' if loweruri.find('backend.userland.com/rss') != -1: # match any backend.userland.com namespace uri = 'http://backend.userland.com/rss' loweruri = uri if loweruri in self._matchnamespaces: self.namespacemap[prefix] = self._matchnamespaces[loweruri] self.namespacesInUse[self._matchnamespaces[loweruri]] = uri else: self.namespacesInUse[prefix or ''] = uri def resolveURI(self, uri): return _urljoin(self.baseuri or '', uri) def decodeEntities(self, element, data): return data def strattrs(self, attrs): return ''.join([' %s="%s"' % (t[0],_xmlescape(t[1],{'"':'"'})) for t in attrs]) def push(self, element, expectingText): self.elementstack.append([element, expectingText, []]) def pop(self, element, stripWhitespace=1): if not self.elementstack: return if self.elementstack[-1][0] != element: return element, expectingText, pieces = self.elementstack.pop() if self.version == 'atom10' and self.contentparams.get('type', 'text') == 'application/xhtml+xml': # remove enclosing child element, but only if it is a
and # only if all the remaining content is nested underneath it. # This means that the divs would be retained in the following: #
foo
bar
while pieces and len(pieces)>1 and not pieces[-1].strip(): del pieces[-1] while pieces and len(pieces)>1 and not pieces[0].strip(): del pieces[0] if pieces and (pieces[0] == '
' or pieces[0].startswith('
': depth = 0 for piece in pieces[:-1]: if piece.startswith(''): depth += 1 else: pieces = pieces[1:-1] # Ensure each piece is a str for Python 3 for (i, v) in enumerate(pieces): if not isinstance(v, str): pieces[i] = v.decode('utf-8') output = ''.join(pieces) if stripWhitespace: output = output.strip() if not expectingText: return output # decode base64 content if base64 and self.contentparams.get('base64', 0): try: output = _base64decode(output) except binascii.Error: pass except binascii.Incomplete: pass except TypeError: # In Python 3, base64 takes and outputs bytes, not str # This may not be the most correct way to accomplish this output = _base64decode(output.encode('utf-8')).decode('utf-8') # resolve relative URIs if (element in self.can_be_relative_uri) and output: output = self.resolveURI(output) # decode entities within embedded markup if not self.contentparams.get('base64', 0): output = self.decodeEntities(element, output) # some feed formats require consumers to guess # whether the content is html or plain text if not self.version.startswith('atom') and self.contentparams.get('type') == 'text/plain': if self.lookslikehtml(output): self.contentparams['type'] = 'text/html' # remove temporary cruft from contentparams try: del self.contentparams['mode'] except KeyError: pass try: del self.contentparams['base64'] except KeyError: pass is_htmlish = self.mapContentType(self.contentparams.get('type', 'text/html')) in self.html_types # resolve relative URIs within embedded markup if is_htmlish and RESOLVE_RELATIVE_URIS: if element in self.can_contain_relative_uris: output = _resolveRelativeURIs(output, self.baseuri, self.encoding, self.contentparams.get('type', 'text/html')) # parse microformats # (must do this before sanitizing because some microformats # rely on elements that we sanitize) if PARSE_MICROFORMATS and is_htmlish and element in ['content', 'description', 'summary']: mfresults = _parseMicroformats(output, self.baseuri, self.encoding) if mfresults: for tag in mfresults.get('tags', []): self._addTag(tag['term'], tag['scheme'], tag['label']) for enclosure in mfresults.get('enclosures', []): self._start_enclosure(enclosure) for xfn in mfresults.get('xfn', []): self._addXFN(xfn['relationships'], xfn['href'], xfn['name']) vcard = mfresults.get('vcard') if vcard: self._getContext()['vcard'] = vcard # sanitize embedded markup if is_htmlish and SANITIZE_HTML: if element in self.can_contain_dangerous_markup: output = _sanitizeHTML(output, self.encoding, self.contentparams.get('type', 'text/html')) if self.encoding and not isinstance(output, str): output = output.decode(self.encoding, 'ignore') # address common error where people take data that is already # utf-8, presume that it is iso-8859-1, and re-encode it. if self.encoding in ('utf-8', 'utf-8_INVALID_PYTHON_3') and isinstance(output, str): try: output = output.encode('iso-8859-1').decode('utf-8') except (UnicodeEncodeError, UnicodeDecodeError): pass # map win-1252 extensions to the proper code points if isinstance(output, str): output = output.translate(_cp1252) # categories/tags/keywords/whatever are handled in _end_category if element == 'category': return output if element == 'title' and -1 < self.title_depth <= self.depth: return output # store output in appropriate place(s) if self.inentry and not self.insource: if element == 'content': self.entries[-1].setdefault(element, []) contentparams = copy.deepcopy(self.contentparams) contentparams['value'] = output self.entries[-1][element].append(contentparams) elif element == 'link': if not self.inimage: # query variables in urls in link elements are improperly # converted from `?a=1&b=2` to `?a=1&b;=2` as if they're # unhandled character references. fix this special case. output = re.sub("&([A-Za-z0-9_]+);", "&\g<1>", output) self.entries[-1][element] = output if output: self.entries[-1]['links'][-1]['href'] = output else: if element == 'description': element = 'summary' old_value_depth = self.property_depth_map.setdefault(self.entries[-1], {}).get(element) if old_value_depth is None or self.depth <= old_value_depth: self.property_depth_map[self.entries[-1]][element] = self.depth self.entries[-1][element] = output if self.incontent: contentparams = copy.deepcopy(self.contentparams) contentparams['value'] = output self.entries[-1][element + '_detail'] = contentparams elif (self.infeed or self.insource):# and (not self.intextinput) and (not self.inimage): context = self._getContext() if element == 'description': element = 'subtitle' context[element] = output if element == 'link': # fix query variables; see above for the explanation output = re.sub("&([A-Za-z0-9_]+);", "&\g<1>", output) context[element] = output context['links'][-1]['href'] = output elif self.incontent: contentparams = copy.deepcopy(self.contentparams) contentparams['value'] = output context[element + '_detail'] = contentparams return output def pushContent(self, tag, attrsD, defaultContentType, expectingText): self.incontent += 1 if self.lang: self.lang=self.lang.replace('_','-') self.contentparams = FeedParserDict({ 'type': self.mapContentType(attrsD.get('type', defaultContentType)), 'language': self.lang, 'base': self.baseuri}) self.contentparams['base64'] = self._isBase64(attrsD, self.contentparams) self.push(tag, expectingText) def popContent(self, tag): value = self.pop(tag) self.incontent -= 1 self.contentparams.clear() return value # a number of elements in a number of RSS variants are nominally plain # text, but this is routinely ignored. This is an attempt to detect # the most common cases. As false positives often result in silent # data loss, this function errs on the conservative side. @staticmethod def lookslikehtml(s): # must have a close tag or an entity reference to qualify if not (re.search(r'',s) or re.search("&#?\w+;",s)): return # all tags must be in a restricted subset of valid HTML tags if [t for t in re.findall(r'', '') author = author.replace('<>', '') author = author.strip() if author and (author[0] == '('): author = author[1:] if author and (author[-1] == ')'): author = author[:-1] author = author.strip() if author or email: context.setdefault('%s_detail' % key, FeedParserDict()) if author: context['%s_detail' % key]['name'] = author if email: context['%s_detail' % key]['email'] = email def _start_subtitle(self, attrsD): self.pushContent('subtitle', attrsD, 'text/plain', 1) _start_tagline = _start_subtitle _start_itunes_subtitle = _start_subtitle def _end_subtitle(self): self.popContent('subtitle') _end_tagline = _end_subtitle _end_itunes_subtitle = _end_subtitle def _start_rights(self, attrsD): self.pushContent('rights', attrsD, 'text/plain', 1) _start_dc_rights = _start_rights _start_copyright = _start_rights def _end_rights(self): self.popContent('rights') _end_dc_rights = _end_rights _end_copyright = _end_rights def _start_item(self, attrsD): self.entries.append(FeedParserDict()) self.push('item', 0) self.inentry = 1 self.guidislink = 0 self.title_depth = -1 id = self._getAttribute(attrsD, 'rdf:about') if id: context = self._getContext() context['id'] = id self._cdf_common(attrsD) _start_entry = _start_item def _end_item(self): self.pop('item') self.inentry = 0 _end_entry = _end_item def _start_dc_language(self, attrsD): self.push('language', 1) _start_language = _start_dc_language def _end_dc_language(self): self.lang = self.pop('language') _end_language = _end_dc_language def _start_dc_publisher(self, attrsD): self.push('publisher', 1) _start_webmaster = _start_dc_publisher def _end_dc_publisher(self): self.pop('publisher') self._sync_author_detail('publisher') _end_webmaster = _end_dc_publisher def _start_published(self, attrsD): self.push('published', 1) _start_dcterms_issued = _start_published _start_issued = _start_published _start_pubdate = _start_published def _end_published(self): value = self.pop('published') self._save('published_parsed', _parse_date(value), overwrite=True) _end_dcterms_issued = _end_published _end_issued = _end_published _end_pubdate = _end_published def _start_updated(self, attrsD): self.push('updated', 1) _start_modified = _start_updated _start_dcterms_modified = _start_updated _start_dc_date = _start_updated _start_lastbuilddate = _start_updated def _end_updated(self): value = self.pop('updated') parsed_value = _parse_date(value) self._save('updated_parsed', parsed_value, overwrite=True) _end_modified = _end_updated _end_dcterms_modified = _end_updated _end_dc_date = _end_updated _end_lastbuilddate = _end_updated def _start_created(self, attrsD): self.push('created', 1) _start_dcterms_created = _start_created def _end_created(self): value = self.pop('created') self._save('created_parsed', _parse_date(value), overwrite=True) _end_dcterms_created = _end_created def _start_expirationdate(self, attrsD): self.push('expired', 1) def _end_expirationdate(self): self._save('expired_parsed', _parse_date(self.pop('expired')), overwrite=True) def _start_cc_license(self, attrsD): context = self._getContext() value = self._getAttribute(attrsD, 'rdf:resource') attrsD = FeedParserDict() attrsD['rel'] = 'license' if value: attrsD['href']=value context.setdefault('links', []).append(attrsD) def _start_creativecommons_license(self, attrsD): self.push('license', 1) _start_creativeCommons_license = _start_creativecommons_license def _end_creativecommons_license(self): value = self.pop('license') context = self._getContext() attrsD = FeedParserDict() attrsD['rel'] = 'license' if value: attrsD['href'] = value context.setdefault('links', []).append(attrsD) del context['license'] _end_creativeCommons_license = _end_creativecommons_license def _addXFN(self, relationships, href, name): context = self._getContext() xfn = context.setdefault('xfn', []) value = FeedParserDict({'relationships': relationships, 'href': href, 'name': name}) if value not in xfn: xfn.append(value) def _addTag(self, term, scheme, label): context = self._getContext() tags = context.setdefault('tags', []) if (not term) and (not scheme) and (not label): return value = FeedParserDict({'term': term, 'scheme': scheme, 'label': label}) if value not in tags: tags.append(value) def _start_category(self, attrsD): term = attrsD.get('term') scheme = attrsD.get('scheme', attrsD.get('domain')) label = attrsD.get('label') self._addTag(term, scheme, label) self.push('category', 1) _start_dc_subject = _start_category _start_keywords = _start_category def _start_media_category(self, attrsD): attrsD.setdefault('scheme', 'http://search.yahoo.com/mrss/category_schema') self._start_category(attrsD) def _end_itunes_keywords(self): for term in self.pop('itunes_keywords').split(','): if term.strip(): self._addTag(term.strip(), 'http://www.itunes.com/', None) def _start_itunes_category(self, attrsD): self._addTag(attrsD.get('text'), 'http://www.itunes.com/', None) self.push('category', 1) def _end_category(self): value = self.pop('category') if not value: return context = self._getContext() tags = context['tags'] if value and len(tags) and not tags[-1]['term']: tags[-1]['term'] = value else: self._addTag(value, None, None) _end_dc_subject = _end_category _end_keywords = _end_category _end_itunes_category = _end_category _end_media_category = _end_category def _start_cloud(self, attrsD): self._getContext()['cloud'] = FeedParserDict(attrsD) def _start_link(self, attrsD): attrsD.setdefault('rel', 'alternate') if attrsD['rel'] == 'self': attrsD.setdefault('type', 'application/atom+xml') else: attrsD.setdefault('type', 'text/html') context = self._getContext() attrsD = self._itsAnHrefDamnIt(attrsD) if 'href' in attrsD: attrsD['href'] = self.resolveURI(attrsD['href']) expectingText = self.infeed or self.inentry or self.insource context.setdefault('links', []) if not (self.inentry and self.inimage): context['links'].append(FeedParserDict(attrsD)) if 'href' in attrsD: expectingText = 0 if (attrsD.get('rel') == 'alternate') and (self.mapContentType(attrsD.get('type')) in self.html_types): context['link'] = attrsD['href'] else: self.push('link', expectingText) def _end_link(self): value = self.pop('link') def _start_guid(self, attrsD): self.guidislink = (attrsD.get('ispermalink', 'true') == 'true') self.push('id', 1) _start_id = _start_guid def _end_guid(self): value = self.pop('id') self._save('guidislink', self.guidislink and 'link' not in self._getContext()) if self.guidislink: # guid acts as link, but only if 'ispermalink' is not present or is 'true', # and only if the item doesn't already have a link element self._save('link', value) _end_id = _end_guid def _start_title(self, attrsD): if self.svgOK: return self.unknown_starttag('title', list(attrsD.items())) self.pushContent('title', attrsD, 'text/plain', self.infeed or self.inentry or self.insource) _start_dc_title = _start_title _start_media_title = _start_title def _end_title(self): if self.svgOK: return value = self.popContent('title') if not value: return self.title_depth = self.depth _end_dc_title = _end_title def _end_media_title(self): title_depth = self.title_depth self._end_title() self.title_depth = title_depth def _start_description(self, attrsD): context = self._getContext() if 'summary' in context: self._summaryKey = 'content' self._start_content(attrsD) else: self.pushContent('description', attrsD, 'text/html', self.infeed or self.inentry or self.insource) _start_dc_description = _start_description def _start_abstract(self, attrsD): self.pushContent('description', attrsD, 'text/plain', self.infeed or self.inentry or self.insource) def _end_description(self): if self._summaryKey == 'content': self._end_content() else: value = self.popContent('description') self._summaryKey = None _end_abstract = _end_description _end_dc_description = _end_description def _start_info(self, attrsD): self.pushContent('info', attrsD, 'text/plain', 1) _start_feedburner_browserfriendly = _start_info def _end_info(self): self.popContent('info') _end_feedburner_browserfriendly = _end_info def _start_generator(self, attrsD): if attrsD: attrsD = self._itsAnHrefDamnIt(attrsD) if 'href' in attrsD: attrsD['href'] = self.resolveURI(attrsD['href']) self._getContext()['generator_detail'] = FeedParserDict(attrsD) self.push('generator', 1) def _end_generator(self): value = self.pop('generator') context = self._getContext() if 'generator_detail' in context: context['generator_detail']['name'] = value def _start_admin_generatoragent(self, attrsD): self.push('generator', 1) value = self._getAttribute(attrsD, 'rdf:resource') if value: self.elementstack[-1][2].append(value) self.pop('generator') self._getContext()['generator_detail'] = FeedParserDict({'href': value}) def _start_admin_errorreportsto(self, attrsD): self.push('errorreportsto', 1) value = self._getAttribute(attrsD, 'rdf:resource') if value: self.elementstack[-1][2].append(value) self.pop('errorreportsto') def _start_summary(self, attrsD): context = self._getContext() if 'summary' in context: self._summaryKey = 'content' self._start_content(attrsD) else: self._summaryKey = 'summary' self.pushContent(self._summaryKey, attrsD, 'text/plain', 1) _start_itunes_summary = _start_summary def _end_summary(self): if self._summaryKey == 'content': self._end_content() else: self.popContent(self._summaryKey or 'summary') self._summaryKey = None _end_itunes_summary = _end_summary def _start_enclosure(self, attrsD): attrsD = self._itsAnHrefDamnIt(attrsD) context = self._getContext() attrsD['rel'] = 'enclosure' context.setdefault('links', []).append(FeedParserDict(attrsD)) def _start_source(self, attrsD): if 'url' in attrsD: # This means that we're processing a source element from an RSS 2.0 feed self.sourcedata['href'] = attrsD['url'] self.push('source', 1) self.insource = 1 self.title_depth = -1 def _end_source(self): self.insource = 0 value = self.pop('source') if value: self.sourcedata['title'] = value self._getContext()['source'] = copy.deepcopy(self.sourcedata) self.sourcedata.clear() def _start_content(self, attrsD): self.pushContent('content', attrsD, 'text/plain', 1) src = attrsD.get('src') if src: self.contentparams['src'] = src self.push('content', 1) def _start_body(self, attrsD): self.pushContent('content', attrsD, 'application/xhtml+xml', 1) _start_xhtml_body = _start_body def _start_content_encoded(self, attrsD): self.pushContent('content', attrsD, 'text/html', 1) _start_fullitem = _start_content_encoded def _end_content(self): copyToSummary = self.mapContentType(self.contentparams.get('type')) in (['text/plain'] + self.html_types) value = self.popContent('content') if copyToSummary: self._save('summary', value) _end_body = _end_content _end_xhtml_body = _end_content _end_content_encoded = _end_content _end_fullitem = _end_content def _start_itunes_image(self, attrsD): self.push('itunes_image', 0) if attrsD.get('href'): self._getContext()['image'] = FeedParserDict({'href': attrsD.get('href')}) elif attrsD.get('url'): self._getContext()['image'] = FeedParserDict({'href': attrsD.get('url')}) _start_itunes_link = _start_itunes_image def _end_itunes_block(self): value = self.pop('itunes_block', 0) self._getContext()['itunes_block'] = (value == 'yes') and 1 or 0 def _end_itunes_explicit(self): value = self.pop('itunes_explicit', 0) # Convert 'yes' -> True, 'clean' to False, and any other value to None # False and None both evaluate as False, so the difference can be ignored # by applications that only need to know if the content is explicit. self._getContext()['itunes_explicit'] = (None, False, True)[(value == 'yes' and 2) or value == 'clean' or 0] def _start_media_content(self, attrsD): context = self._getContext() context.setdefault('media_content', []) context['media_content'].append(attrsD) def _start_media_thumbnail(self, attrsD): context = self._getContext() context.setdefault('media_thumbnail', []) self.push('url', 1) # new context['media_thumbnail'].append(attrsD) def _end_media_thumbnail(self): url = self.pop('url') context = self._getContext() if url != None and len(url.strip()) != 0: if 'url' not in context['media_thumbnail'][-1]: context['media_thumbnail'][-1]['url'] = url def _start_media_player(self, attrsD): self.push('media_player', 0) self._getContext()['media_player'] = FeedParserDict(attrsD) def _end_media_player(self): value = self.pop('media_player') context = self._getContext() context['media_player']['content'] = value def _start_newlocation(self, attrsD): self.push('newlocation', 1) def _end_newlocation(self): url = self.pop('newlocation') context = self._getContext() # don't set newlocation if the context isn't right if context is not self.feeddata: return context['newlocation'] = _makeSafeAbsoluteURI(self.baseuri, url.strip()) if _XML_AVAILABLE: class _StrictFeedParser(_FeedParserMixin, xml.sax.handler.ContentHandler): def __init__(self, baseuri, baselang, encoding): xml.sax.handler.ContentHandler.__init__(self) _FeedParserMixin.__init__(self, baseuri, baselang, encoding) self.bozo = 0 self.exc = None self.decls = {} def startPrefixMapping(self, prefix, uri): if not uri: return # Jython uses '' instead of None; standardize on None prefix = prefix or None self.trackNamespace(prefix, uri) if prefix and uri == 'http://www.w3.org/1999/xlink': self.decls['xmlns:' + prefix] = uri def startElementNS(self, name, qname, attrs): namespace, localname = name lowernamespace = str(namespace or '').lower() if lowernamespace.find('backend.userland.com/rss') != -1: # match any backend.userland.com namespace namespace = 'http://backend.userland.com/rss' lowernamespace = namespace if qname and qname.find(':') > 0: givenprefix = qname.split(':')[0] else: givenprefix = None prefix = self._matchnamespaces.get(lowernamespace, givenprefix) if givenprefix and (prefix == None or (prefix == '' and lowernamespace == '')) and givenprefix not in self.namespacesInUse: raise UndeclaredNamespace("'%s' is not associated with a namespace" % givenprefix) localname = str(localname).lower() # qname implementation is horribly broken in Python 2.1 (it # doesn't report any), and slightly broken in Python 2.2 (it # doesn't report the xml: namespace). So we match up namespaces # with a known list first, and then possibly override them with # the qnames the SAX parser gives us (if indeed it gives us any # at all). Thanks to MatejC for helping me test this and # tirelessly telling me that it didn't work yet. attrsD, self.decls = self.decls, {} if localname=='math' and namespace=='http://www.w3.org/1998/Math/MathML': attrsD['xmlns']=namespace if localname=='svg' and namespace=='http://www.w3.org/2000/svg': attrsD['xmlns']=namespace if prefix: localname = prefix.lower() + ':' + localname elif namespace and not qname: #Expat for name,value in list(self.namespacesInUse.items()): if name and value == namespace: localname = name + ':' + localname break for (namespace, attrlocalname), attrvalue in list(attrs.items()): lowernamespace = (namespace or '').lower() prefix = self._matchnamespaces.get(lowernamespace, '') if prefix: attrlocalname = prefix + ':' + attrlocalname attrsD[str(attrlocalname).lower()] = attrvalue for qname in attrs.getQNames(): attrsD[str(qname).lower()] = attrs.getValueByQName(qname) self.unknown_starttag(localname, list(attrsD.items())) def characters(self, text): self.handle_data(text) def endElementNS(self, name, qname): namespace, localname = name lowernamespace = str(namespace or '').lower() if qname and qname.find(':') > 0: givenprefix = qname.split(':')[0] else: givenprefix = '' prefix = self._matchnamespaces.get(lowernamespace, givenprefix) if prefix: localname = prefix + ':' + localname elif namespace and not qname: #Expat for name,value in list(self.namespacesInUse.items()): if name and value == namespace: localname = name + ':' + localname break localname = str(localname).lower() self.unknown_endtag(localname) def error(self, exc): self.bozo = 1 self.exc = exc # drv_libxml2 calls warning() in some cases warning = error def fatalError(self, exc): self.error(exc) raise exc class _BaseHTMLProcessor(sgmllib.SGMLParser): special = re.compile('''[<>'"]''') bare_ampersand = re.compile("&(?!#\d+;|#x[0-9a-fA-F]+;|\w+;)") elements_no_end_tag = set([ 'area', 'base', 'basefont', 'br', 'col', 'command', 'embed', 'frame', 'hr', 'img', 'input', 'isindex', 'keygen', 'link', 'meta', 'param', 'source', 'track', 'wbr' ]) def __init__(self, encoding, _type): self.encoding = encoding self._type = _type sgmllib.SGMLParser.__init__(self) def reset(self): self.pieces = [] sgmllib.SGMLParser.reset(self) def _shorttag_replace(self, match): tag = match.group(1) if tag in self.elements_no_end_tag: return '<' + tag + ' />' else: return '<' + tag + '>' # By declaring these methods and overriding their compiled code # with the code from sgmllib, the original code will execute in # feedparser's scope instead of sgmllib's. This means that the # `tagfind` and `charref` regular expressions will be found as # they're declared above, not as they're declared in sgmllib. def goahead(self, i): pass goahead.__code__ = sgmllib.SGMLParser.goahead.__code__ def __parse_starttag(self, i): pass __parse_starttag.__code__ = sgmllib.SGMLParser.parse_starttag.__code__ def parse_starttag(self,i): j = self.__parse_starttag(i) if self._type == 'application/xhtml+xml': if j>2 and self.rawdata[j-2:j]=='/>': self.unknown_endtag(self.lasttag) return j def feed(self, data): data = re.compile(r'\s]+?)\s*/>', self._shorttag_replace, data) data = data.replace(''', "'") data = data.replace('"', '"') try: bytes if bytes is str: raise NameError self.encoding = self.encoding + '_INVALID_PYTHON_3' except NameError: if self.encoding and isinstance(data, str): data = data.encode(self.encoding) sgmllib.SGMLParser.feed(self, data) sgmllib.SGMLParser.close(self) def normalize_attrs(self, attrs): if not attrs: return attrs # utility method to be called by descendants attrs = list(dict([(k.lower(), v) for k, v in attrs]).items()) attrs = [(k, k in ('rel', 'type') and v.lower() or v) for k, v in attrs] attrs.sort() return attrs def unknown_starttag(self, tag, attrs): # called for each start tag # attrs is a list of (attr, value) tuples # e.g. for
, tag='pre', attrs=[('class', 'screen')]
        uattrs = []
        strattrs=''
        if attrs:
            for key, value in attrs:
                value=value.replace('>','>').replace('<','<').replace('"','"')
                value = self.bare_ampersand.sub("&", value)
                # thanks to Kevin Marks for this breathtaking hack to deal with (valid) high-bit attribute values in UTF-8 feeds
                if not isinstance(value, str):
                    value = value.decode(self.encoding, 'ignore')
                try:
                    # Currently, in Python 3 the key is already a str, and cannot be decoded again
                    uattrs.append((str(key, self.encoding), value))
                except TypeError:
                    uattrs.append((key, value))
            strattrs = ''.join([' %s="%s"' % (key, value) for key, value in uattrs])
            if self.encoding:
                try:
                    strattrs = strattrs.encode(self.encoding)
                except (UnicodeEncodeError, LookupError):
                    pass
        if tag in self.elements_no_end_tag:
            self.pieces.append('<%s%s />' % (tag, strattrs))
        else:
            self.pieces.append('<%s%s>' % (tag, strattrs))

    def unknown_endtag(self, tag):
        # called for each end tag, e.g. for 
, tag will be 'pre' # Reconstruct the original end tag. if tag not in self.elements_no_end_tag: self.pieces.append("" % tag) def handle_charref(self, ref): # called for each character reference, e.g. for ' ', ref will be '160' # Reconstruct the original character reference. ref = ref.lower() if ref.startswith('x'): value = int(ref[1:], 16) else: value = int(ref) if value in _cp1252: self.pieces.append('&#%s;' % hex(ord(_cp1252[value]))[1:]) else: self.pieces.append('&#%s;' % ref) def handle_entityref(self, ref): # called for each entity reference, e.g. for '©', ref will be 'copy' # Reconstruct the original entity reference. if ref in name2codepoint or ref == 'apos': self.pieces.append('&%s;' % ref) else: self.pieces.append('&%s' % ref) def handle_data(self, text): # called for each block of plain text, i.e. outside of any tag and # not containing any character or entity references # Store the original text verbatim. self.pieces.append(text) def handle_comment(self, text): # called for each HTML comment, e.g. # Reconstruct the original comment. self.pieces.append('' % text) def handle_pi(self, text): # called for each processing instruction, e.g. # Reconstruct original processing instruction. self.pieces.append('' % text) def handle_decl(self, text): # called for the DOCTYPE, if present, e.g. # # Reconstruct original DOCTYPE self.pieces.append('' % text) _new_declname_match = re.compile(r'[a-zA-Z][-_.a-zA-Z0-9:]*\s*').match def _scan_name(self, i, declstartpos): rawdata = self.rawdata n = len(rawdata) if i == n: return None, -1 m = self._new_declname_match(rawdata, i) if m: s = m.group() name = s.strip() if (i + len(s)) == n: return None, -1 # end of buffer return name.lower(), m.end() else: self.handle_data(rawdata) # self.updatepos(declstartpos, i) return None, -1 def convert_charref(self, name): return '&#%s;' % name def convert_entityref(self, name): return '&%s;' % name def output(self): '''Return processed HTML as a single string''' return ''.join([str(p) for p in self.pieces]) def parse_declaration(self, i): try: return sgmllib.SGMLParser.parse_declaration(self, i) except sgmllib.SGMLParseError: # escape the doctype declaration and continue parsing self.handle_data('<') return i+1 class _LooseFeedParser(_FeedParserMixin, _BaseHTMLProcessor): def __init__(self, baseuri, baselang, encoding, entities): sgmllib.SGMLParser.__init__(self) _FeedParserMixin.__init__(self, baseuri, baselang, encoding) _BaseHTMLProcessor.__init__(self, encoding, 'application/xhtml+xml') self.entities=entities def decodeEntities(self, element, data): data = data.replace('<', '<') data = data.replace('<', '<') data = data.replace('<', '<') data = data.replace('>', '>') data = data.replace('>', '>') data = data.replace('>', '>') data = data.replace('&', '&') data = data.replace('&', '&') data = data.replace('"', '"') data = data.replace('"', '"') data = data.replace(''', ''') data = data.replace(''', ''') if not self.contentparams.get('type', 'xml').endswith('xml'): data = data.replace('<', '<') data = data.replace('>', '>') data = data.replace('&', '&') data = data.replace('"', '"') data = data.replace(''', "'") return data def strattrs(self, attrs): return ''.join([' %s="%s"' % (n,v.replace('"','"')) for n,v in attrs]) class _MicroformatsParser: STRING = 1 DATE = 2 URI = 3 NODE = 4 EMAIL = 5 known_xfn_relationships = set(['contact', 'acquaintance', 'friend', 'met', 'co-worker', 'coworker', 'colleague', 'co-resident', 'coresident', 'neighbor', 'child', 'parent', 'sibling', 'brother', 'sister', 'spouse', 'wife', 'husband', 'kin', 'relative', 'muse', 'crush', 'date', 'sweetheart', 'me']) known_binary_extensions = set(['zip','rar','exe','gz','tar','tgz','tbz2','bz2','z','7z','dmg','img','sit','sitx','hqx','deb','rpm','bz2','jar','rar','iso','bin','msi','mp2','mp3','ogg','ogm','mp4','m4v','m4a','avi','wma','wmv']) def __init__(self, data, baseuri, encoding): self.document = BeautifulSoup.BeautifulSoup(data) self.baseuri = baseuri self.encoding = encoding if isinstance(data, str): data = data.encode(encoding) self.tags = [] self.enclosures = [] self.xfn = [] self.vcard = None def vcardEscape(self, s): if isinstance(s, str): s = s.replace(',', '\\,').replace(';', '\\;').replace('\n', '\\n') return s def vcardFold(self, s): s = re.sub(';+$', '', s) sFolded = '' iMax = 75 sPrefix = '' while len(s) > iMax: sFolded += sPrefix + s[:iMax] + '\n' s = s[iMax:] sPrefix = ' ' iMax = 74 sFolded += sPrefix + s return sFolded def normalize(self, s): return re.sub(r'\s+', ' ', s).strip() def unique(self, aList): results = [] for element in aList: if element not in results: results.append(element) return results def toISO8601(self, dt): return time.strftime('%Y-%m-%dT%H:%M:%SZ', dt) def getPropertyValue(self, elmRoot, sProperty, iPropertyType=4, bAllowMultiple=0, bAutoEscape=0): all = lambda x: 1 sProperty = sProperty.lower() bFound = 0 bNormalize = 1 propertyMatch = {'class': re.compile(r'\b%s\b' % sProperty)} if bAllowMultiple and (iPropertyType != self.NODE): snapResults = [] containers = elmRoot(['ul', 'ol'], propertyMatch) for container in containers: snapResults.extend(container('li')) bFound = (len(snapResults) != 0) if not bFound: snapResults = elmRoot(all, propertyMatch) bFound = (len(snapResults) != 0) if (not bFound) and (sProperty == 'value'): snapResults = elmRoot('pre') bFound = (len(snapResults) != 0) bNormalize = not bFound if not bFound: snapResults = [elmRoot] bFound = (len(snapResults) != 0) arFilter = [] if sProperty == 'vcard': snapFilter = elmRoot(all, propertyMatch) for node in snapFilter: if node.findParent(all, propertyMatch): arFilter.append(node) arResults = [] for node in snapResults: if node not in arFilter: arResults.append(node) bFound = (len(arResults) != 0) if not bFound: if bAllowMultiple: return [] elif iPropertyType == self.STRING: return '' elif iPropertyType == self.DATE: return None elif iPropertyType == self.URI: return '' elif iPropertyType == self.NODE: return None else: return None arValues = [] for elmResult in arResults: sValue = None if iPropertyType == self.NODE: if bAllowMultiple: arValues.append(elmResult) continue else: return elmResult sNodeName = elmResult.name.lower() if (iPropertyType == self.EMAIL) and (sNodeName == 'a'): sValue = (elmResult.get('href') or '').split('mailto:').pop().split('?')[0] if sValue: sValue = bNormalize and self.normalize(sValue) or sValue.strip() if (not sValue) and (sNodeName == 'abbr'): sValue = elmResult.get('title') if sValue: sValue = bNormalize and self.normalize(sValue) or sValue.strip() if (not sValue) and (iPropertyType == self.URI): if sNodeName == 'a': sValue = elmResult.get('href') elif sNodeName == 'img': sValue = elmResult.get('src') elif sNodeName == 'object': sValue = elmResult.get('data') if sValue: sValue = bNormalize and self.normalize(sValue) or sValue.strip() if (not sValue) and (sNodeName == 'img'): sValue = elmResult.get('alt') if sValue: sValue = bNormalize and self.normalize(sValue) or sValue.strip() if not sValue: sValue = elmResult.renderContents() sValue = re.sub(r'<\S[^>]*>', '', sValue) sValue = sValue.replace('\r\n', '\n') sValue = sValue.replace('\r', '\n') if sValue: sValue = bNormalize and self.normalize(sValue) or sValue.strip() if not sValue: continue if iPropertyType == self.DATE: sValue = _parse_date_iso8601(sValue) if bAllowMultiple: arValues.append(bAutoEscape and self.vcardEscape(sValue) or sValue) else: return bAutoEscape and self.vcardEscape(sValue) or sValue return arValues def findVCards(self, elmRoot, bAgentParsing=0): sVCards = '' if not bAgentParsing: arCards = self.getPropertyValue(elmRoot, 'vcard', bAllowMultiple=1) else: arCards = [elmRoot] for elmCard in arCards: arLines = [] def processSingleString(sProperty): sValue = self.getPropertyValue(elmCard, sProperty, self.STRING, bAutoEscape=1).decode(self.encoding) if sValue: arLines.append(self.vcardFold(sProperty.upper() + ':' + sValue)) return sValue or '' def processSingleURI(sProperty): sValue = self.getPropertyValue(elmCard, sProperty, self.URI) if sValue: sContentType = '' sEncoding = '' sValueKey = '' if sValue.startswith('data:'): sEncoding = ';ENCODING=b' sContentType = sValue.split(';')[0].split('/').pop() sValue = sValue.split(',', 1).pop() else: elmValue = self.getPropertyValue(elmCard, sProperty) if elmValue: if sProperty != 'url': sValueKey = ';VALUE=uri' sContentType = elmValue.get('type', '').strip().split('/').pop().strip() sContentType = sContentType.upper() if sContentType == 'OCTET-STREAM': sContentType = '' if sContentType: sContentType = ';TYPE=' + sContentType.upper() arLines.append(self.vcardFold(sProperty.upper() + sEncoding + sContentType + sValueKey + ':' + sValue)) def processTypeValue(sProperty, arDefaultType, arForceType=None): arResults = self.getPropertyValue(elmCard, sProperty, bAllowMultiple=1) for elmResult in arResults: arType = self.getPropertyValue(elmResult, 'type', self.STRING, 1, 1) if arForceType: arType = self.unique(arForceType + arType) if not arType: arType = arDefaultType sValue = self.getPropertyValue(elmResult, 'value', self.EMAIL, 0) if sValue: arLines.append(self.vcardFold(sProperty.upper() + ';TYPE=' + ','.join(arType) + ':' + sValue)) # AGENT # must do this before all other properties because it is destructive # (removes nested class="vcard" nodes so they don't interfere with # this vcard's other properties) arAgent = self.getPropertyValue(elmCard, 'agent', bAllowMultiple=1) for elmAgent in arAgent: if re.compile(r'\bvcard\b').search(elmAgent.get('class')): sAgentValue = self.findVCards(elmAgent, 1) + '\n' sAgentValue = sAgentValue.replace('\n', '\\n') sAgentValue = sAgentValue.replace(';', '\\;') if sAgentValue: arLines.append(self.vcardFold('AGENT:' + sAgentValue)) # Completely remove the agent element from the parse tree elmAgent.extract() else: sAgentValue = self.getPropertyValue(elmAgent, 'value', self.URI, bAutoEscape=1); if sAgentValue: arLines.append(self.vcardFold('AGENT;VALUE=uri:' + sAgentValue)) # FN (full name) sFN = processSingleString('fn') # N (name) elmName = self.getPropertyValue(elmCard, 'n') if elmName: sFamilyName = self.getPropertyValue(elmName, 'family-name', self.STRING, bAutoEscape=1) sGivenName = self.getPropertyValue(elmName, 'given-name', self.STRING, bAutoEscape=1) arAdditionalNames = self.getPropertyValue(elmName, 'additional-name', self.STRING, 1, 1) + self.getPropertyValue(elmName, 'additional-names', self.STRING, 1, 1) arHonorificPrefixes = self.getPropertyValue(elmName, 'honorific-prefix', self.STRING, 1, 1) + self.getPropertyValue(elmName, 'honorific-prefixes', self.STRING, 1, 1) arHonorificSuffixes = self.getPropertyValue(elmName, 'honorific-suffix', self.STRING, 1, 1) + self.getPropertyValue(elmName, 'honorific-suffixes', self.STRING, 1, 1) arLines.append(self.vcardFold('N:' + sFamilyName + ';' + sGivenName + ';' + ','.join(arAdditionalNames) + ';' + ','.join(arHonorificPrefixes) + ';' + ','.join(arHonorificSuffixes))) elif sFN: # implied "N" optimization # http://microformats.org/wiki/hcard#Implied_.22N.22_Optimization arNames = self.normalize(sFN).split() if len(arNames) == 2: bFamilyNameFirst = (arNames[0].endswith(',') or len(arNames[1]) == 1 or ((len(arNames[1]) == 2) and (arNames[1].endswith('.')))) if bFamilyNameFirst: arLines.append(self.vcardFold('N:' + arNames[0] + ';' + arNames[1])) else: arLines.append(self.vcardFold('N:' + arNames[1] + ';' + arNames[0])) # SORT-STRING sSortString = self.getPropertyValue(elmCard, 'sort-string', self.STRING, bAutoEscape=1) if sSortString: arLines.append(self.vcardFold('SORT-STRING:' + sSortString)) # NICKNAME arNickname = self.getPropertyValue(elmCard, 'nickname', self.STRING, 1, 1) if arNickname: arLines.append(self.vcardFold('NICKNAME:' + ','.join(arNickname))) # PHOTO processSingleURI('photo') # BDAY dtBday = self.getPropertyValue(elmCard, 'bday', self.DATE) if dtBday: arLines.append(self.vcardFold('BDAY:' + self.toISO8601(dtBday))) # ADR (address) arAdr = self.getPropertyValue(elmCard, 'adr', bAllowMultiple=1) for elmAdr in arAdr: arType = self.getPropertyValue(elmAdr, 'type', self.STRING, 1, 1) if not arType: arType = ['intl','postal','parcel','work'] # default adr types, see RFC 2426 section 3.2.1 sPostOfficeBox = self.getPropertyValue(elmAdr, 'post-office-box', self.STRING, 0, 1) sExtendedAddress = self.getPropertyValue(elmAdr, 'extended-address', self.STRING, 0, 1) sStreetAddress = self.getPropertyValue(elmAdr, 'street-address', self.STRING, 0, 1) sLocality = self.getPropertyValue(elmAdr, 'locality', self.STRING, 0, 1) sRegion = self.getPropertyValue(elmAdr, 'region', self.STRING, 0, 1) sPostalCode = self.getPropertyValue(elmAdr, 'postal-code', self.STRING, 0, 1) sCountryName = self.getPropertyValue(elmAdr, 'country-name', self.STRING, 0, 1) arLines.append(self.vcardFold('ADR;TYPE=' + ','.join(arType) + ':' + sPostOfficeBox + ';' + sExtendedAddress + ';' + sStreetAddress + ';' + sLocality + ';' + sRegion + ';' + sPostalCode + ';' + sCountryName)) # LABEL processTypeValue('label', ['intl','postal','parcel','work']) # TEL (phone number) processTypeValue('tel', ['voice']) # EMAIL processTypeValue('email', ['internet'], ['internet']) # MAILER processSingleString('mailer') # TZ (timezone) processSingleString('tz') # GEO (geographical information) elmGeo = self.getPropertyValue(elmCard, 'geo') if elmGeo: sLatitude = self.getPropertyValue(elmGeo, 'latitude', self.STRING, 0, 1) sLongitude = self.getPropertyValue(elmGeo, 'longitude', self.STRING, 0, 1) arLines.append(self.vcardFold('GEO:' + sLatitude + ';' + sLongitude)) # TITLE processSingleString('title') # ROLE processSingleString('role') # LOGO processSingleURI('logo') # ORG (organization) elmOrg = self.getPropertyValue(elmCard, 'org') if elmOrg: sOrganizationName = self.getPropertyValue(elmOrg, 'organization-name', self.STRING, 0, 1) if not sOrganizationName: # implied "organization-name" optimization # http://microformats.org/wiki/hcard#Implied_.22organization-name.22_Optimization sOrganizationName = self.getPropertyValue(elmCard, 'org', self.STRING, 0, 1) if sOrganizationName: arLines.append(self.vcardFold('ORG:' + sOrganizationName)) else: arOrganizationUnit = self.getPropertyValue(elmOrg, 'organization-unit', self.STRING, 1, 1) arLines.append(self.vcardFold('ORG:' + sOrganizationName + ';' + ';'.join(arOrganizationUnit))) # CATEGORY arCategory = self.getPropertyValue(elmCard, 'category', self.STRING, 1, 1) + self.getPropertyValue(elmCard, 'categories', self.STRING, 1, 1) if arCategory: arLines.append(self.vcardFold('CATEGORIES:' + ','.join(arCategory))) # NOTE processSingleString('note') # REV processSingleString('rev') # SOUND processSingleURI('sound') # UID processSingleString('uid') # URL processSingleURI('url') # CLASS processSingleString('class') # KEY processSingleURI('key') if arLines: arLines = ['BEGIN:vCard','VERSION:3.0'] + arLines + ['END:vCard'] # XXX - this is super ugly; properly fix this with issue 148 for i, s in enumerate(arLines): if not isinstance(s, str): arLines[i] = s.decode('utf-8', 'ignore') sVCards += '\n'.join(arLines) + '\n' return sVCards.strip() def isProbablyDownloadable(self, elm): attrsD = elm.attrMap if 'href' not in attrsD: return 0 linktype = attrsD.get('type', '').strip() if linktype.startswith('audio/') or \ linktype.startswith('video/') or \ (linktype.startswith('application/') and not linktype.endswith('xml')): return 1 try: path = urllib.parse.urlparse(attrsD['href'])[2] except ValueError: return 0 if path.find('.') == -1: return 0 fileext = path.split('.').pop().lower() return fileext in self.known_binary_extensions def findTags(self): all = lambda x: 1 for elm in self.document(all, {'rel': re.compile(r'\btag\b')}): href = elm.get('href') if not href: continue urlscheme, domain, path, params, query, fragment = \ urllib.parse.urlparse(_urljoin(self.baseuri, href)) segments = path.split('/') tag = segments.pop() if not tag: if segments: tag = segments.pop() else: # there are no tags continue tagscheme = urllib.parse.urlunparse((urlscheme, domain, '/'.join(segments), '', '', '')) if not tagscheme.endswith('/'): tagscheme += '/' self.tags.append(FeedParserDict({"term": tag, "scheme": tagscheme, "label": elm.string or ''})) def findEnclosures(self): all = lambda x: 1 enclosure_match = re.compile(r'\benclosure\b') for elm in self.document(all, {'href': re.compile(r'.+')}): if not enclosure_match.search(elm.get('rel', '')) and not self.isProbablyDownloadable(elm): continue if elm.attrMap not in self.enclosures: self.enclosures.append(elm.attrMap) if elm.string and not elm.get('title'): self.enclosures[-1]['title'] = elm.string def findXFN(self): all = lambda x: 1 for elm in self.document(all, {'rel': re.compile('.+'), 'href': re.compile('.+')}): rels = elm.get('rel', '').split() xfn_rels = [r for r in rels if r in self.known_xfn_relationships] if xfn_rels: self.xfn.append({"relationships": xfn_rels, "href": elm.get('href', ''), "name": elm.string}) def _parseMicroformats(htmlSource, baseURI, encoding): if not BeautifulSoup: return try: p = _MicroformatsParser(htmlSource, baseURI, encoding) except UnicodeEncodeError: # sgmllib throws this exception when performing lookups of tags # with non-ASCII characters in them. return p.vcard = p.findVCards(p.document) p.findTags() p.findEnclosures() p.findXFN() return {"tags": p.tags, "enclosures": p.enclosures, "xfn": p.xfn, "vcard": p.vcard} class _RelativeURIResolver(_BaseHTMLProcessor): relative_uris = set([('a', 'href'), ('applet', 'codebase'), ('area', 'href'), ('blockquote', 'cite'), ('body', 'background'), ('del', 'cite'), ('form', 'action'), ('frame', 'longdesc'), ('frame', 'src'), ('iframe', 'longdesc'), ('iframe', 'src'), ('head', 'profile'), ('img', 'longdesc'), ('img', 'src'), ('img', 'usemap'), ('input', 'src'), ('input', 'usemap'), ('ins', 'cite'), ('link', 'href'), ('object', 'classid'), ('object', 'codebase'), ('object', 'data'), ('object', 'usemap'), ('q', 'cite'), ('script', 'src'), ('video', 'poster')]) def __init__(self, baseuri, encoding, _type): _BaseHTMLProcessor.__init__(self, encoding, _type) self.baseuri = baseuri def resolveURI(self, uri): return _makeSafeAbsoluteURI(self.baseuri, uri.strip()) def unknown_starttag(self, tag, attrs): attrs = self.normalize_attrs(attrs) attrs = [(key, ((tag, key) in self.relative_uris) and self.resolveURI(value) or value) for key, value in attrs] _BaseHTMLProcessor.unknown_starttag(self, tag, attrs) def _resolveRelativeURIs(htmlSource, baseURI, encoding, _type): if not _SGML_AVAILABLE: return htmlSource p = _RelativeURIResolver(baseURI, encoding, _type) p.feed(htmlSource) return p.output() def _makeSafeAbsoluteURI(base, rel=None): # bail if ACCEPTABLE_URI_SCHEMES is empty if not ACCEPTABLE_URI_SCHEMES: try: return _urljoin(base, rel or '') except ValueError: return '' if not base: return rel or '' if not rel: try: scheme = urllib.parse.urlparse(base)[0] except ValueError: return '' if not scheme or scheme in ACCEPTABLE_URI_SCHEMES: return base return '' try: uri = _urljoin(base, rel) except ValueError: return '' if uri.strip().split(':', 1)[0] not in ACCEPTABLE_URI_SCHEMES: return '' return uri class _HTMLSanitizer(_BaseHTMLProcessor): acceptable_elements = set(['a', 'abbr', 'acronym', 'address', 'area', 'article', 'aside', 'audio', 'b', 'big', 'blockquote', 'br', 'button', 'canvas', 'caption', 'center', 'cite', 'code', 'col', 'colgroup', 'command', 'datagrid', 'datalist', 'dd', 'del', 'details', 'dfn', 'dialog', 'dir', 'div', 'dl', 'dt', 'em', 'event-source', 'fieldset', 'figcaption', 'figure', 'footer', 'font', 'form', 'header', 'h1', 'h2', 'h3', 'h4', 'h5', 'h6', 'hr', 'i', 'img', 'input', 'ins', 'keygen', 'kbd', 'label', 'legend', 'li', 'm', 'map', 'menu', 'meter', 'multicol', 'nav', 'nextid', 'ol', 'output', 'optgroup', 'option', 'p', 'pre', 'progress', 'q', 's', 'samp', 'section', 'select', 'small', 'sound', 'source', 'spacer', 'span', 'strike', 'strong', 'sub', 'sup', 'table', 'tbody', 'td', 'textarea', 'time', 'tfoot', 'th', 'thead', 'tr', 'tt', 'u', 'ul', 'var', 'video', 'noscript']) acceptable_attributes = set(['abbr', 'accept', 'accept-charset', 'accesskey', 'action', 'align', 'alt', 'autocomplete', 'autofocus', 'axis', 'background', 'balance', 'bgcolor', 'bgproperties', 'border', 'bordercolor', 'bordercolordark', 'bordercolorlight', 'bottompadding', 'cellpadding', 'cellspacing', 'ch', 'challenge', 'char', 'charoff', 'choff', 'charset', 'checked', 'cite', 'class', 'clear', 'color', 'cols', 'colspan', 'compact', 'contenteditable', 'controls', 'coords', 'data', 'datafld', 'datapagesize', 'datasrc', 'datetime', 'default', 'delay', 'dir', 'disabled', 'draggable', 'dynsrc', 'enctype', 'end', 'face', 'for', 'form', 'frame', 'galleryimg', 'gutter', 'headers', 'height', 'hidefocus', 'hidden', 'high', 'href', 'hreflang', 'hspace', 'icon', 'id', 'inputmode', 'ismap', 'keytype', 'label', 'leftspacing', 'lang', 'list', 'longdesc', 'loop', 'loopcount', 'loopend', 'loopstart', 'low', 'lowsrc', 'max', 'maxlength', 'media', 'method', 'min', 'multiple', 'name', 'nohref', 'noshade', 'nowrap', 'open', 'optimum', 'pattern', 'ping', 'point-size', 'poster', 'pqg', 'preload', 'prompt', 'radiogroup', 'readonly', 'rel', 'repeat-max', 'repeat-min', 'replace', 'required', 'rev', 'rightspacing', 'rows', 'rowspan', 'rules', 'scope', 'selected', 'shape', 'size', 'span', 'src', 'start', 'step', 'summary', 'suppress', 'tabindex', 'target', 'template', 'title', 'toppadding', 'type', 'unselectable', 'usemap', 'urn', 'valign', 'value', 'variable', 'volume', 'vspace', 'vrml', 'width', 'wrap', 'xml:lang']) unacceptable_elements_with_end_tag = set(['script', 'applet', 'style']) acceptable_css_properties = set(['azimuth', 'background-color', 'border-bottom-color', 'border-collapse', 'border-color', 'border-left-color', 'border-right-color', 'border-top-color', 'clear', 'color', 'cursor', 'direction', 'display', 'elevation', 'float', 'font', 'font-family', 'font-size', 'font-style', 'font-variant', 'font-weight', 'height', 'letter-spacing', 'line-height', 'overflow', 'pause', 'pause-after', 'pause-before', 'pitch', 'pitch-range', 'richness', 'speak', 'speak-header', 'speak-numeral', 'speak-punctuation', 'speech-rate', 'stress', 'text-align', 'text-decoration', 'text-indent', 'unicode-bidi', 'vertical-align', 'voice-family', 'volume', 'white-space', 'width']) # survey of common keywords found in feeds acceptable_css_keywords = set(['auto', 'aqua', 'black', 'block', 'blue', 'bold', 'both', 'bottom', 'brown', 'center', 'collapse', 'dashed', 'dotted', 'fuchsia', 'gray', 'green', '!important', 'italic', 'left', 'lime', 'maroon', 'medium', 'none', 'navy', 'normal', 'nowrap', 'olive', 'pointer', 'purple', 'red', 'right', 'solid', 'silver', 'teal', 'top', 'transparent', 'underline', 'white', 'yellow']) valid_css_values = re.compile('^(#[0-9a-f]+|rgb\(\d+%?,\d*%?,?\d*%?\)?|' + '\d{0,2}\.?\d{0,2}(cm|em|ex|in|mm|pc|pt|px|%|,|\))?)$') mathml_elements = set(['annotation', 'annotation-xml', 'maction', 'math', 'merror', 'mfenced', 'mfrac', 'mi', 'mmultiscripts', 'mn', 'mo', 'mover', 'mpadded', 'mphantom', 'mprescripts', 'mroot', 'mrow', 'mspace', 'msqrt', 'mstyle', 'msub', 'msubsup', 'msup', 'mtable', 'mtd', 'mtext', 'mtr', 'munder', 'munderover', 'none', 'semantics']) mathml_attributes = set(['actiontype', 'align', 'columnalign', 'columnalign', 'columnalign', 'close', 'columnlines', 'columnspacing', 'columnspan', 'depth', 'display', 'displaystyle', 'encoding', 'equalcolumns', 'equalrows', 'fence', 'fontstyle', 'fontweight', 'frame', 'height', 'linethickness', 'lspace', 'mathbackground', 'mathcolor', 'mathvariant', 'mathvariant', 'maxsize', 'minsize', 'open', 'other', 'rowalign', 'rowalign', 'rowalign', 'rowlines', 'rowspacing', 'rowspan', 'rspace', 'scriptlevel', 'selection', 'separator', 'separators', 'stretchy', 'width', 'width', 'xlink:href', 'xlink:show', 'xlink:type', 'xmlns', 'xmlns:xlink']) # svgtiny - foreignObject + linearGradient + radialGradient + stop svg_elements = set(['a', 'animate', 'animateColor', 'animateMotion', 'animateTransform', 'circle', 'defs', 'desc', 'ellipse', 'foreignObject', 'font-face', 'font-face-name', 'font-face-src', 'g', 'glyph', 'hkern', 'linearGradient', 'line', 'marker', 'metadata', 'missing-glyph', 'mpath', 'path', 'polygon', 'polyline', 'radialGradient', 'rect', 'set', 'stop', 'svg', 'switch', 'text', 'title', 'tspan', 'use']) # svgtiny + class + opacity + offset + xmlns + xmlns:xlink svg_attributes = set(['accent-height', 'accumulate', 'additive', 'alphabetic', 'arabic-form', 'ascent', 'attributeName', 'attributeType', 'baseProfile', 'bbox', 'begin', 'by', 'calcMode', 'cap-height', 'class', 'color', 'color-rendering', 'content', 'cx', 'cy', 'd', 'dx', 'dy', 'descent', 'display', 'dur', 'end', 'fill', 'fill-opacity', 'fill-rule', 'font-family', 'font-size', 'font-stretch', 'font-style', 'font-variant', 'font-weight', 'from', 'fx', 'fy', 'g1', 'g2', 'glyph-name', 'gradientUnits', 'hanging', 'height', 'horiz-adv-x', 'horiz-origin-x', 'id', 'ideographic', 'k', 'keyPoints', 'keySplines', 'keyTimes', 'lang', 'mathematical', 'marker-end', 'marker-mid', 'marker-start', 'markerHeight', 'markerUnits', 'markerWidth', 'max', 'min', 'name', 'offset', 'opacity', 'orient', 'origin', 'overline-position', 'overline-thickness', 'panose-1', 'path', 'pathLength', 'points', 'preserveAspectRatio', 'r', 'refX', 'refY', 'repeatCount', 'repeatDur', 'requiredExtensions', 'requiredFeatures', 'restart', 'rotate', 'rx', 'ry', 'slope', 'stemh', 'stemv', 'stop-color', 'stop-opacity', 'strikethrough-position', 'strikethrough-thickness', 'stroke', 'stroke-dasharray', 'stroke-dashoffset', 'stroke-linecap', 'stroke-linejoin', 'stroke-miterlimit', 'stroke-opacity', 'stroke-width', 'systemLanguage', 'target', 'text-anchor', 'to', 'transform', 'type', 'u1', 'u2', 'underline-position', 'underline-thickness', 'unicode', 'unicode-range', 'units-per-em', 'values', 'version', 'viewBox', 'visibility', 'width', 'widths', 'x', 'x-height', 'x1', 'x2', 'xlink:actuate', 'xlink:arcrole', 'xlink:href', 'xlink:role', 'xlink:show', 'xlink:title', 'xlink:type', 'xml:base', 'xml:lang', 'xml:space', 'xmlns', 'xmlns:xlink', 'y', 'y1', 'y2', 'zoomAndPan']) svg_attr_map = None svg_elem_map = None acceptable_svg_properties = set([ 'fill', 'fill-opacity', 'fill-rule', 'stroke', 'stroke-width', 'stroke-linecap', 'stroke-linejoin', 'stroke-opacity']) def reset(self): _BaseHTMLProcessor.reset(self) self.unacceptablestack = 0 self.mathmlOK = 0 self.svgOK = 0 def unknown_starttag(self, tag, attrs): acceptable_attributes = self.acceptable_attributes keymap = {} if not tag in self.acceptable_elements or self.svgOK: if tag in self.unacceptable_elements_with_end_tag: self.unacceptablestack += 1 # add implicit namespaces to html5 inline svg/mathml if self._type.endswith('html'): if not dict(attrs).get('xmlns'): if tag=='svg': attrs.append( ('xmlns','http://www.w3.org/2000/svg') ) if tag=='math': attrs.append( ('xmlns','http://www.w3.org/1998/Math/MathML') ) # not otherwise acceptable, perhaps it is MathML or SVG? if tag=='math' and ('xmlns','http://www.w3.org/1998/Math/MathML') in attrs: self.mathmlOK += 1 if tag=='svg' and ('xmlns','http://www.w3.org/2000/svg') in attrs: self.svgOK += 1 # chose acceptable attributes based on tag class, else bail if self.mathmlOK and tag in self.mathml_elements: acceptable_attributes = self.mathml_attributes elif self.svgOK and tag in self.svg_elements: # for most vocabularies, lowercasing is a good idea. Many # svg elements, however, are camel case if not self.svg_attr_map: lower=[attr.lower() for attr in self.svg_attributes] mix=[a for a in self.svg_attributes if a not in lower] self.svg_attributes = lower self.svg_attr_map = dict([(a.lower(),a) for a in mix]) lower=[attr.lower() for attr in self.svg_elements] mix=[a for a in self.svg_elements if a not in lower] self.svg_elements = lower self.svg_elem_map = dict([(a.lower(),a) for a in mix]) acceptable_attributes = self.svg_attributes tag = self.svg_elem_map.get(tag,tag) keymap = self.svg_attr_map elif not tag in self.acceptable_elements: return # declare xlink namespace, if needed if self.mathmlOK or self.svgOK: if [n_v for n_v in attrs if n_v[0].startswith('xlink:')]: if not ('xmlns:xlink','http://www.w3.org/1999/xlink') in attrs: attrs.append(('xmlns:xlink','http://www.w3.org/1999/xlink')) clean_attrs = [] for key, value in self.normalize_attrs(attrs): if key in acceptable_attributes: key=keymap.get(key,key) # make sure the uri uses an acceptable uri scheme if key == 'href': value = _makeSafeAbsoluteURI(value) clean_attrs.append((key,value)) elif key=='style': clean_value = self.sanitize_style(value) if clean_value: clean_attrs.append((key,clean_value)) _BaseHTMLProcessor.unknown_starttag(self, tag, clean_attrs) def unknown_endtag(self, tag): if not tag in self.acceptable_elements: if tag in self.unacceptable_elements_with_end_tag: self.unacceptablestack -= 1 if self.mathmlOK and tag in self.mathml_elements: if tag == 'math' and self.mathmlOK: self.mathmlOK -= 1 elif self.svgOK and tag in self.svg_elements: tag = self.svg_elem_map.get(tag,tag) if tag == 'svg' and self.svgOK: self.svgOK -= 1 else: return _BaseHTMLProcessor.unknown_endtag(self, tag) def handle_pi(self, text): pass def handle_decl(self, text): pass def handle_data(self, text): if not self.unacceptablestack: _BaseHTMLProcessor.handle_data(self, text) def sanitize_style(self, style): # disallow urls style=re.compile('url\s*\(\s*[^\s)]+?\s*\)\s*').sub(' ',style) # gauntlet if not re.match("""^([:,;#%.\sa-zA-Z0-9!]|\w-\w|'[\s\w]+'|"[\s\w]+"|\([\d,\s]+\))*$""", style): return '' # This replaced a regexp that used re.match and was prone to pathological back-tracking. if re.sub("\s*[-\w]+\s*:\s*[^:;]*;?", '', style).strip(): return '' clean = [] for prop,value in re.findall("([-\w]+)\s*:\s*([^:;]*)",style): if not value: continue if prop.lower() in self.acceptable_css_properties: clean.append(prop + ': ' + value + ';') elif prop.split('-')[0].lower() in ['background','border','margin','padding']: for keyword in value.split(): if not keyword in self.acceptable_css_keywords and \ not self.valid_css_values.match(keyword): break else: clean.append(prop + ': ' + value + ';') elif self.svgOK and prop.lower() in self.acceptable_svg_properties: clean.append(prop + ': ' + value + ';') return ' '.join(clean) def parse_comment(self, i, report=1): ret = _BaseHTMLProcessor.parse_comment(self, i, report) if ret >= 0: return ret # if ret == -1, this may be a malicious attempt to circumvent # sanitization, or a page-destroying unclosed comment match = re.compile(r'--[^>]*>').search(self.rawdata, i+4) if match: return match.end() # unclosed comment; deliberately fail to handle_data() return len(self.rawdata) def _sanitizeHTML(htmlSource, encoding, _type): if not _SGML_AVAILABLE: return htmlSource p = _HTMLSanitizer(encoding, _type) htmlSource = htmlSource.replace(''): data = data.split('>', 1)[1] if data.count(' stream This function lets you define parsers that take any input source (URL, pathname to local or network file, or actual data as a string) and deal with it in a uniform manner. Returned object is guaranteed to have all the basic stdio read methods (read, readline, readlines). Just .close() the object when you're done with it. If the etag argument is supplied, it will be used as the value of an If-None-Match request header. If the modified argument is supplied, it can be a tuple of 9 integers (as returned by gmtime() in the standard Python time module) or a date string in any format supported by feedparser. Regardless, it MUST be in GMT (Greenwich Mean Time). It will be reformatted into an RFC 1123-compliant date and used as the value of an If-Modified-Since request header. If the agent argument is supplied, it will be used as the value of a User-Agent request header. If the referrer argument is supplied, it will be used as the value of a Referer[sic] request header. If handlers is supplied, it is a list of handlers used to build a urllib2 opener. if request_headers is supplied it is a dictionary of HTTP request headers that will override the values generated by FeedParser. """ if hasattr(url_file_stream_or_string, 'read'): return url_file_stream_or_string if isinstance(url_file_stream_or_string, str) \ and urllib.parse.urlparse(url_file_stream_or_string)[0] in ('http', 'https', 'ftp', 'file', 'feed'): # Deal with the feed URI scheme if url_file_stream_or_string.startswith('feed:http'): url_file_stream_or_string = url_file_stream_or_string[5:] elif url_file_stream_or_string.startswith('feed:'): url_file_stream_or_string = 'http:' + url_file_stream_or_string[5:] if not agent: agent = USER_AGENT # Test for inline user:password credentials for HTTP basic auth auth = None if base64 and not url_file_stream_or_string.startswith('ftp:'): urltype, rest = urllib.parse.splittype(url_file_stream_or_string) realhost, rest = urllib.parse.splithost(rest) if realhost: user_passwd, realhost = urllib.parse.splituser(realhost) if user_passwd: url_file_stream_or_string = '%s://%s%s' % (urltype, realhost, rest) auth = base64.standard_b64encode(user_passwd).strip() # iri support if isinstance(url_file_stream_or_string, str): url_file_stream_or_string = _convert_to_idn(url_file_stream_or_string) # try to open with urllib2 (to use optional headers) request = _build_urllib2_request(url_file_stream_or_string, agent, etag, modified, referrer, auth, request_headers) opener = urllib.request.build_opener(*tuple(handlers + [_FeedURLHandler()])) opener.addheaders = [] # RMK - must clear so we only send our custom User-Agent try: return opener.open(request) finally: opener.close() # JohnD # try to open with native open function (if url_file_stream_or_string is a filename) try: return open(url_file_stream_or_string, 'rb') except (IOError, UnicodeEncodeError, TypeError): # if url_file_stream_or_string is a unicode object that # cannot be converted to the encoding returned by # sys.getfilesystemencoding(), a UnicodeEncodeError # will be thrown # If url_file_stream_or_string is a string that contains NULL # (such as an XML document encoded in UTF-32), TypeError will # be thrown. pass # treat url_file_stream_or_string as string if isinstance(url_file_stream_or_string, str): return _StringIO(url_file_stream_or_string.encode('utf-8')) return _StringIO(url_file_stream_or_string) def _convert_to_idn(url): """Convert a URL to IDN notation""" # this function should only be called with a unicode string # strategy: if the host cannot be encoded in ascii, then # it'll be necessary to encode it in idn form parts = list(urllib.parse.urlsplit(url)) try: parts[1].encode('ascii') except UnicodeEncodeError: # the url needs to be converted to idn notation host = parts[1].rsplit(':', 1) newhost = [] port = '' if len(host) == 2: port = host.pop() for h in host[0].split('.'): newhost.append(h.encode('idna').decode('utf-8')) parts[1] = '.'.join(newhost) if port: parts[1] += ':' + port return urllib.parse.urlunsplit(parts) else: return url def _build_urllib2_request(url, agent, etag, modified, referrer, auth, request_headers): request = urllib.request.Request(url) request.add_header('User-Agent', agent) if etag: request.add_header('If-None-Match', etag) if isinstance(modified, str): modified = _parse_date(modified) elif isinstance(modified, datetime.datetime): modified = modified.utctimetuple() if modified: # format into an RFC 1123-compliant timestamp. We can't use # time.strftime() since the %a and %b directives can be affected # by the current locale, but RFC 2616 states that dates must be # in English. short_weekdays = ['Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun'] months = ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'] request.add_header('If-Modified-Since', '%s, %02d %s %04d %02d:%02d:%02d GMT' % (short_weekdays[modified[6]], modified[2], months[modified[1] - 1], modified[0], modified[3], modified[4], modified[5])) if referrer: request.add_header('Referer', referrer) if gzip and zlib: request.add_header('Accept-encoding', 'gzip, deflate') elif gzip: request.add_header('Accept-encoding', 'gzip') elif zlib: request.add_header('Accept-encoding', 'deflate') else: request.add_header('Accept-encoding', '') if auth: request.add_header('Authorization', 'Basic %s' % auth) if ACCEPT_HEADER: request.add_header('Accept', ACCEPT_HEADER) # use this for whatever -- cookies, special headers, etc # [('Cookie','Something'),('x-special-header','Another Value')] for header_name, header_value in list(request_headers.items()): request.add_header(header_name, header_value) request.add_header('A-IM', 'feed') # RFC 3229 support return request _date_handlers = [] def registerDateHandler(func): '''Register a date handler function (takes string, returns 9-tuple date in GMT)''' _date_handlers.insert(0, func) # ISO-8601 date parsing routines written by Fazal Majid. # The ISO 8601 standard is very convoluted and irregular - a full ISO 8601 # parser is beyond the scope of feedparser and would be a worthwhile addition # to the Python library. # A single regular expression cannot parse ISO 8601 date formats into groups # as the standard is highly irregular (for instance is 030104 2003-01-04 or # 0301-04-01), so we use templates instead. # Please note the order in templates is significant because we need a # greedy match. _iso8601_tmpl = ['YYYY-?MM-?DD', 'YYYY-0MM?-?DD', 'YYYY-MM', 'YYYY-?OOO', 'YY-?MM-?DD', 'YY-?OOO', 'YYYY', '-YY-?MM', '-OOO', '-YY', '--MM-?DD', '--MM', '---DD', 'CC', ''] _iso8601_re = [ tmpl.replace( 'YYYY', r'(?P\d{4})').replace( 'YY', r'(?P\d\d)').replace( 'MM', r'(?P[01]\d)').replace( 'DD', r'(?P[0123]\d)').replace( 'OOO', r'(?P[0123]\d\d)').replace( 'CC', r'(?P\d\d$)') + r'(T?(?P\d{2}):(?P\d{2})' + r'(:(?P\d{2}))?' + r'(\.(?P\d+))?' + r'(?P[+-](?P\d{2})(:(?P\d{2}))?|Z)?)?' for tmpl in _iso8601_tmpl] try: del tmpl except NameError: pass _iso8601_matches = [re.compile(regex).match for regex in _iso8601_re] try: del regex except NameError: pass def _parse_date_iso8601(dateString): '''Parse a variety of ISO-8601-compatible formats like 20040105''' m = None for _iso8601_match in _iso8601_matches: m = _iso8601_match(dateString) if m: break if not m: return if m.span() == (0, 0): return params = m.groupdict() ordinal = params.get('ordinal', 0) if ordinal: ordinal = int(ordinal) else: ordinal = 0 year = params.get('year', '--') if not year or year == '--': year = time.gmtime()[0] elif len(year) == 2: # ISO 8601 assumes current century, i.e. 93 -> 2093, NOT 1993 year = 100 * int(time.gmtime()[0] / 100) + int(year) else: year = int(year) month = params.get('month', '-') if not month or month == '-': # ordinals are NOT normalized by mktime, we simulate them # by setting month=1, day=ordinal if ordinal: month = 1 else: month = time.gmtime()[1] month = int(month) day = params.get('day', 0) if not day: # see above if ordinal: day = ordinal elif params.get('century', 0) or \ params.get('year', 0) or params.get('month', 0): day = 1 else: day = time.gmtime()[2] else: day = int(day) # special case of the century - is the first year of the 21st century # 2000 or 2001 ? The debate goes on... if 'century' in params: year = (int(params['century']) - 1) * 100 + 1 # in ISO 8601 most fields are optional for field in ['hour', 'minute', 'second', 'tzhour', 'tzmin']: if not params.get(field, None): params[field] = 0 hour = int(params.get('hour', 0)) minute = int(params.get('minute', 0)) second = int(float(params.get('second', 0))) # weekday is normalized by mktime(), we can ignore it weekday = 0 daylight_savings_flag = -1 tm = [year, month, day, hour, minute, second, weekday, ordinal, daylight_savings_flag] # ISO 8601 time zone adjustments tz = params.get('tz') if tz and tz != 'Z': if tz[0] == '-': tm[3] += int(params.get('tzhour', 0)) tm[4] += int(params.get('tzmin', 0)) elif tz[0] == '+': tm[3] -= int(params.get('tzhour', 0)) tm[4] -= int(params.get('tzmin', 0)) else: return None # Python's time.mktime() is a wrapper around the ANSI C mktime(3c) # which is guaranteed to normalize d/m/y/h/m/s. # Many implementations have bugs, but we'll pretend they don't. return time.localtime(time.mktime(tuple(tm))) registerDateHandler(_parse_date_iso8601) # 8-bit date handling routines written by ytrewq1. _korean_year = '\ub144' # b3e2 in euc-kr _korean_month = '\uc6d4' # bff9 in euc-kr _korean_day = '\uc77c' # c0cf in euc-kr _korean_am = '\uc624\uc804' # bfc0 c0fc in euc-kr _korean_pm = '\uc624\ud6c4' # bfc0 c8c4 in euc-kr _korean_onblog_date_re = \ re.compile('(\d{4})%s\s+(\d{2})%s\s+(\d{2})%s\s+(\d{2}):(\d{2}):(\d{2})' % \ (_korean_year, _korean_month, _korean_day)) _korean_nate_date_re = \ re.compile('(\d{4})-(\d{2})-(\d{2})\s+(%s|%s)\s+(\d{,2}):(\d{,2}):(\d{,2})' % \ (_korean_am, _korean_pm)) def _parse_date_onblog(dateString): '''Parse a string according to the OnBlog 8-bit date format''' m = _korean_onblog_date_re.match(dateString) if not m: return w3dtfdate = '%(year)s-%(month)s-%(day)sT%(hour)s:%(minute)s:%(second)s%(zonediff)s' % \ {'year': m.group(1), 'month': m.group(2), 'day': m.group(3),\ 'hour': m.group(4), 'minute': m.group(5), 'second': m.group(6),\ 'zonediff': '+09:00'} return _parse_date_w3dtf(w3dtfdate) registerDateHandler(_parse_date_onblog) def _parse_date_nate(dateString): '''Parse a string according to the Nate 8-bit date format''' m = _korean_nate_date_re.match(dateString) if not m: return hour = int(m.group(5)) ampm = m.group(4) if (ampm == _korean_pm): hour += 12 hour = str(hour) if len(hour) == 1: hour = '0' + hour w3dtfdate = '%(year)s-%(month)s-%(day)sT%(hour)s:%(minute)s:%(second)s%(zonediff)s' % \ {'year': m.group(1), 'month': m.group(2), 'day': m.group(3),\ 'hour': hour, 'minute': m.group(6), 'second': m.group(7),\ 'zonediff': '+09:00'} return _parse_date_w3dtf(w3dtfdate) registerDateHandler(_parse_date_nate) # Unicode strings for Greek date strings _greek_months = \ { \ '\u0399\u03b1\u03bd': 'Jan', # c9e1ed in iso-8859-7 '\u03a6\u03b5\u03b2': 'Feb', # d6e5e2 in iso-8859-7 '\u039c\u03ac\u03ce': 'Mar', # ccdcfe in iso-8859-7 '\u039c\u03b1\u03ce': 'Mar', # cce1fe in iso-8859-7 '\u0391\u03c0\u03c1': 'Apr', # c1f0f1 in iso-8859-7 '\u039c\u03ac\u03b9': 'May', # ccdce9 in iso-8859-7 '\u039c\u03b1\u03ca': 'May', # cce1fa in iso-8859-7 '\u039c\u03b1\u03b9': 'May', # cce1e9 in iso-8859-7 '\u0399\u03bf\u03cd\u03bd': 'Jun', # c9effded in iso-8859-7 '\u0399\u03bf\u03bd': 'Jun', # c9efed in iso-8859-7 '\u0399\u03bf\u03cd\u03bb': 'Jul', # c9effdeb in iso-8859-7 '\u0399\u03bf\u03bb': 'Jul', # c9f9eb in iso-8859-7 '\u0391\u03cd\u03b3': 'Aug', # c1fde3 in iso-8859-7 '\u0391\u03c5\u03b3': 'Aug', # c1f5e3 in iso-8859-7 '\u03a3\u03b5\u03c0': 'Sep', # d3e5f0 in iso-8859-7 '\u039f\u03ba\u03c4': 'Oct', # cfeaf4 in iso-8859-7 '\u039d\u03bf\u03ad': 'Nov', # cdefdd in iso-8859-7 '\u039d\u03bf\u03b5': 'Nov', # cdefe5 in iso-8859-7 '\u0394\u03b5\u03ba': 'Dec', # c4e5ea in iso-8859-7 } _greek_wdays = \ { \ '\u039a\u03c5\u03c1': 'Sun', # caf5f1 in iso-8859-7 '\u0394\u03b5\u03c5': 'Mon', # c4e5f5 in iso-8859-7 '\u03a4\u03c1\u03b9': 'Tue', # d4f1e9 in iso-8859-7 '\u03a4\u03b5\u03c4': 'Wed', # d4e5f4 in iso-8859-7 '\u03a0\u03b5\u03bc': 'Thu', # d0e5ec in iso-8859-7 '\u03a0\u03b1\u03c1': 'Fri', # d0e1f1 in iso-8859-7 '\u03a3\u03b1\u03b2': 'Sat', # d3e1e2 in iso-8859-7 } _greek_date_format_re = \ re.compile('([^,]+),\s+(\d{2})\s+([^\s]+)\s+(\d{4})\s+(\d{2}):(\d{2}):(\d{2})\s+([^\s]+)') def _parse_date_greek(dateString): '''Parse a string according to a Greek 8-bit date format.''' m = _greek_date_format_re.match(dateString) if not m: return wday = _greek_wdays[m.group(1)] month = _greek_months[m.group(3)] rfc822date = '%(wday)s, %(day)s %(month)s %(year)s %(hour)s:%(minute)s:%(second)s %(zonediff)s' % \ {'wday': wday, 'day': m.group(2), 'month': month, 'year': m.group(4),\ 'hour': m.group(5), 'minute': m.group(6), 'second': m.group(7),\ 'zonediff': m.group(8)} return _parse_date_rfc822(rfc822date) registerDateHandler(_parse_date_greek) # Unicode strings for Hungarian date strings _hungarian_months = \ { \ 'janu\u00e1r': '01', # e1 in iso-8859-2 'febru\u00e1ri': '02', # e1 in iso-8859-2 'm\u00e1rcius': '03', # e1 in iso-8859-2 '\u00e1prilis': '04', # e1 in iso-8859-2 'm\u00e1ujus': '05', # e1 in iso-8859-2 'j\u00fanius': '06', # fa in iso-8859-2 'j\u00falius': '07', # fa in iso-8859-2 'augusztus': '08', 'szeptember': '09', 'okt\u00f3ber': '10', # f3 in iso-8859-2 'november': '11', 'december': '12', } _hungarian_date_format_re = \ re.compile('(\d{4})-([^-]+)-(\d{,2})T(\d{,2}):(\d{2})((\+|-)(\d{,2}:\d{2}))') def _parse_date_hungarian(dateString): '''Parse a string according to a Hungarian 8-bit date format.''' m = _hungarian_date_format_re.match(dateString) if not m or m.group(2) not in _hungarian_months: return None month = _hungarian_months[m.group(2)] day = m.group(3) if len(day) == 1: day = '0' + day hour = m.group(4) if len(hour) == 1: hour = '0' + hour w3dtfdate = '%(year)s-%(month)s-%(day)sT%(hour)s:%(minute)s%(zonediff)s' % \ {'year': m.group(1), 'month': month, 'day': day,\ 'hour': hour, 'minute': m.group(5),\ 'zonediff': m.group(6)} return _parse_date_w3dtf(w3dtfdate) registerDateHandler(_parse_date_hungarian) # W3DTF-style date parsing adapted from PyXML xml.utils.iso8601, written by # Drake and licensed under the Python license. Removed all range checking # for month, day, hour, minute, and second, since mktime will normalize # these later # Modified to also support MSSQL-style datetimes as defined at: # http://msdn.microsoft.com/en-us/library/ms186724.aspx # (which basically means allowing a space as a date/time/timezone separator) def _parse_date_w3dtf(dateString): def __extract_date(m): year = int(m.group('year')) if year < 100: year = 100 * int(time.gmtime()[0] / 100) + int(year) if year < 1000: return 0, 0, 0 julian = m.group('julian') if julian: julian = int(julian) month = julian / 30 + 1 day = julian % 30 + 1 jday = None while jday != julian: t = time.mktime((year, month, day, 0, 0, 0, 0, 0, 0)) jday = time.gmtime(t)[-2] diff = abs(jday - julian) if jday > julian: if diff < day: day = day - diff else: month = month - 1 day = 31 elif jday < julian: if day + diff < 28: day = day + diff else: month = month + 1 return year, month, day month = m.group('month') day = 1 if month is None: month = 1 else: month = int(month) day = m.group('day') if day: day = int(day) else: day = 1 return year, month, day def __extract_time(m): if not m: return 0, 0, 0 hours = m.group('hours') if not hours: return 0, 0, 0 hours = int(hours) minutes = int(m.group('minutes')) seconds = m.group('seconds') if seconds: seconds = int(seconds) else: seconds = 0 return hours, minutes, seconds def __extract_tzd(m): '''Return the Time Zone Designator as an offset in seconds from UTC.''' if not m: return 0 tzd = m.group('tzd') if not tzd: return 0 if tzd == 'Z': return 0 hours = int(m.group('tzdhours')) minutes = m.group('tzdminutes') if minutes: minutes = int(minutes) else: minutes = 0 offset = (hours*60 + minutes) * 60 if tzd[0] == '+': return -offset return offset __date_re = ('(?P\d\d\d\d)' '(?:(?P-|)' '(?:(?P\d\d)(?:(?P=dsep)(?P\d\d))?' '|(?P\d\d\d)))?') __tzd_re = ' ?(?P[-+](?P\d\d)(?::?(?P\d\d))|Z)?' __time_re = ('(?P\d\d)(?P:|)(?P\d\d)' '(?:(?P=tsep)(?P\d\d)(?:[.,]\d+)?)?' + __tzd_re) __datetime_re = '%s(?:[T ]%s)?' % (__date_re, __time_re) __datetime_rx = re.compile(__datetime_re) m = __datetime_rx.match(dateString) if (m is None) or (m.group() != dateString): return gmt = __extract_date(m) + __extract_time(m) + (0, 0, 0) if gmt[0] == 0: return return time.gmtime(time.mktime(gmt) + __extract_tzd(m) - time.timezone) registerDateHandler(_parse_date_w3dtf) # Define the strings used by the RFC822 datetime parser _rfc822_months = ['jan', 'feb', 'mar', 'apr', 'may', 'jun', 'jul', 'aug', 'sep', 'oct', 'nov', 'dec'] _rfc822_daynames = ['mon', 'tue', 'wed', 'thu', 'fri', 'sat', 'sun'] # Only the first three letters of the month name matter _rfc822_month = "(?P%s)(?:[a-z]*,?)" % ('|'.join(_rfc822_months)) # The year may be 2 or 4 digits; capture the century if it exists _rfc822_year = "(?P(?:\d{2})?\d{2})" _rfc822_day = "(?P *\d{1,2})" _rfc822_date = "%s %s %s" % (_rfc822_day, _rfc822_month, _rfc822_year) _rfc822_hour = "(?P\d{2}):(?P\d{2})(?::(?P\d{2}))?" _rfc822_tz = "(?Put|gmt(?:[+-]\d{2}:\d{2})?|[aecmp][sd]?t|[zamny]|[+-]\d{4})" _rfc822_tznames = { 'ut': 0, 'gmt': 0, 'z': 0, 'adt': -3, 'ast': -4, 'at': -4, 'edt': -4, 'est': -5, 'et': -5, 'cdt': -5, 'cst': -6, 'ct': -6, 'mdt': -6, 'mst': -7, 'mt': -7, 'pdt': -7, 'pst': -8, 'pt': -8, 'a': -1, 'n': 1, 'm': -12, 'y': 12, } # The timezone may be prefixed by 'Etc/' _rfc822_time = "%s (?:etc/)?%s" % (_rfc822_hour, _rfc822_tz) _rfc822_dayname = "(?P%s)" % ('|'.join(_rfc822_daynames)) _rfc822_match = re.compile( "(?:%s, )?%s(?: %s)?" % (_rfc822_dayname, _rfc822_date, _rfc822_time) ).match def _parse_date_group_rfc822(m): # Calculate a date and timestamp for k in ('year', 'day', 'hour', 'minute', 'second'): m[k] = int(m[k]) m['month'] = _rfc822_months.index(m['month']) + 1 # If the year is 2 digits, assume everything in the 90's is the 1990's if m['year'] < 100: m['year'] += (1900, 2000)[m['year'] < 90] stamp = datetime.datetime(*[m[i] for i in ('year', 'month', 'day', 'hour', 'minute', 'second')]) # Use the timezone information to calculate the difference between # the given date and timestamp and Universal Coordinated Time tzhour = 0 tzmin = 0 if m['tz'] and m['tz'].startswith('gmt'): # Handle GMT and GMT+hh:mm timezone syntax (the trailing # timezone info will be handled by the next `if` block) m['tz'] = ''.join(m['tz'][3:].split(':')) or 'gmt' if not m['tz']: pass elif m['tz'].startswith('+'): tzhour = int(m['tz'][1:3]) tzmin = int(m['tz'][3:]) elif m['tz'].startswith('-'): tzhour = int(m['tz'][1:3]) * -1 tzmin = int(m['tz'][3:]) * -1 else: tzhour = _rfc822_tznames[m['tz']] delta = datetime.timedelta(0, 0, 0, 0, tzmin, tzhour) # Return the date and timestamp in UTC return (stamp - delta).utctimetuple() def _parse_date_rfc822(dt): """Parse RFC 822 dates and times, with one minor difference: years may be 4DIGIT or 2DIGIT. http://tools.ietf.org/html/rfc822#section-5""" try: m = _rfc822_match(dt.lower()).groupdict(0) except AttributeError: return None return _parse_date_group_rfc822(m) registerDateHandler(_parse_date_rfc822) def _parse_date_rfc822_grubby(dt): """Parse date format similar to RFC 822, but the comma after the dayname is optional and month/day are inverted""" _rfc822_date_grubby = "%s %s %s" % (_rfc822_month, _rfc822_day, _rfc822_year) _rfc822_match_grubby = re.compile( "(?:%s[,]? )?%s(?: %s)?" % (_rfc822_dayname, _rfc822_date_grubby, _rfc822_time) ).match try: m = _rfc822_match_grubby(dt.lower()).groupdict(0) except AttributeError: return None return _parse_date_group_rfc822(m) registerDateHandler(_parse_date_rfc822_grubby) def _parse_date_asctime(dt): """Parse asctime-style dates""" dayname, month, day, remainder = dt.split(None, 3) # Convert month and day into zero-padded integers month = '%02i ' % (_rfc822_months.index(month.lower()) + 1) day = '%02i ' % (int(day),) dt = month + day + remainder return time.strptime(dt, '%m %d %H:%M:%S %Y')[:-1] + (0, ) registerDateHandler(_parse_date_asctime) def _parse_date_perforce(aDateString): """parse a date in yyyy/mm/dd hh:mm:ss TTT format""" # Fri, 2006/09/15 08:19:53 EDT _my_date_pattern = re.compile( \ r'(\w{,3}), (\d{,4})/(\d{,2})/(\d{2}) (\d{,2}):(\d{2}):(\d{2}) (\w{,3})') m = _my_date_pattern.search(aDateString) if m is None: return None dow, year, month, day, hour, minute, second, tz = m.groups() months = ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'] dateString = "%s, %s %s %s %s:%s:%s %s" % (dow, day, months[int(month) - 1], year, hour, minute, second, tz) tm = rfc822.parsedate_tz(dateString) if tm: return time.gmtime(rfc822.mktime_tz(tm)) registerDateHandler(_parse_date_perforce) def _parse_date(dateString): '''Parses a variety of date formats into a 9-tuple in GMT''' if not dateString: return None for handler in _date_handlers: try: date9tuple = handler(dateString) except (KeyError, OverflowError, ValueError): continue if not date9tuple: continue if len(date9tuple) != 9: continue return date9tuple return None # Each marker represents some of the characters of the opening XML # processing instruction (' RE_XML_DECLARATION = re.compile('^<\?xml[^>]*?>') # Capture the value of the XML processing instruction's encoding attribute. # Example: RE_XML_PI_ENCODING = re.compile(_s2bytes('^<\?.*encoding=[\'"](.*?)[\'"].*\?>')) def convert_to_utf8(http_headers, data): '''Detect and convert the character encoding to UTF-8. http_headers is a dictionary data is a raw string (not Unicode)''' # This is so much trickier than it sounds, it's not even funny. # According to RFC 3023 ('XML Media Types'), if the HTTP Content-Type # is application/xml, application/*+xml, # application/xml-external-parsed-entity, or application/xml-dtd, # the encoding given in the charset parameter of the HTTP Content-Type # takes precedence over the encoding given in the XML prefix within the # document, and defaults to 'utf-8' if neither are specified. But, if # the HTTP Content-Type is text/xml, text/*+xml, or # text/xml-external-parsed-entity, the encoding given in the XML prefix # within the document is ALWAYS IGNORED and only the encoding given in # the charset parameter of the HTTP Content-Type header should be # respected, and it defaults to 'us-ascii' if not specified. # Furthermore, discussion on the atom-syntax mailing list with the # author of RFC 3023 leads me to the conclusion that any document # served with a Content-Type of text/* and no charset parameter # must be treated as us-ascii. (We now do this.) And also that it # must always be flagged as non-well-formed. (We now do this too.) # If Content-Type is unspecified (input was local file or non-HTTP source) # or unrecognized (server just got it totally wrong), then go by the # encoding given in the XML prefix of the document and default to # 'iso-8859-1' as per the HTTP specification (RFC 2616). # Then, assuming we didn't find a character encoding in the HTTP headers # (and the HTTP Content-type allowed us to look in the body), we need # to sniff the first few bytes of the XML data and try to determine # whether the encoding is ASCII-compatible. Section F of the XML # specification shows the way here: # http://www.w3.org/TR/REC-xml/#sec-guessing-no-ext-info # If the sniffed encoding is not ASCII-compatible, we need to make it # ASCII compatible so that we can sniff further into the XML declaration # to find the encoding attribute, which will tell us the true encoding. # Of course, none of this guarantees that we will be able to parse the # feed in the declared character encoding (assuming it was declared # correctly, which many are not). iconv_codec can help a lot; # you should definitely install it if you can. # http://cjkpython.i18n.org/ bom_encoding = '' xml_encoding = '' rfc3023_encoding = '' # Look at the first few bytes of the document to guess what # its encoding may be. We only need to decode enough of the # document that we can use an ASCII-compatible regular # expression to search for an XML encoding declaration. # The heuristic follows the XML specification, section F: # http://www.w3.org/TR/REC-xml/#sec-guessing-no-ext-info # Check for BOMs first. if data[:4] == codecs.BOM_UTF32_BE: bom_encoding = 'utf-32be' data = data[4:] elif data[:4] == codecs.BOM_UTF32_LE: bom_encoding = 'utf-32le' data = data[4:] elif data[:2] == codecs.BOM_UTF16_BE and data[2:4] != ZERO_BYTES: bom_encoding = 'utf-16be' data = data[2:] elif data[:2] == codecs.BOM_UTF16_LE and data[2:4] != ZERO_BYTES: bom_encoding = 'utf-16le' data = data[2:] elif data[:3] == codecs.BOM_UTF8: bom_encoding = 'utf-8' data = data[3:] # Check for the characters '''' if RE_XML_DECLARATION.search(data): data = RE_XML_DECLARATION.sub(new_declaration, data) else: data = new_declaration + '\n' + data data = data.encode('utf-8') break # if still no luck, give up if not known_encoding: error = CharacterEncodingUnknown( 'document encoding unknown, I tried ' + '%s, %s, utf-8, windows-1252, and iso-8859-2 but nothing worked' % (rfc3023_encoding, xml_encoding)) rfc3023_encoding = '' elif proposed_encoding != rfc3023_encoding: error = CharacterEncodingOverride( 'document declared as %s, but parsed as %s' % (rfc3023_encoding, proposed_encoding)) rfc3023_encoding = proposed_encoding return data, rfc3023_encoding, error # Match XML entity declarations. # Example: RE_ENTITY_PATTERN = re.compile(_s2bytes(r'^\s*]*?)>'), re.MULTILINE) # Match XML DOCTYPE declarations. # Example: RE_DOCTYPE_PATTERN = re.compile(_s2bytes(r'^\s*]*?)>'), re.MULTILINE) # Match safe entity declarations. # This will allow hexadecimal character references through, # as well as text, but not arbitrary nested entities. # Example: cubed "³" # Example: copyright "(C)" # Forbidden: explode1 "&explode2;&explode2;" RE_SAFE_ENTITY_PATTERN = re.compile(_s2bytes('\s+(\w+)\s+"(&#\w+;|[^&"]*)"')) def replace_doctype(data): '''Strips and replaces the DOCTYPE, returns (rss_version, stripped_data) rss_version may be 'rss091n' or None stripped_data is the same XML document with a replaced DOCTYPE ''' # Divide the document into two groups by finding the location # of the first element that doesn't begin with '\n\n]>') data = RE_DOCTYPE_PATTERN.sub(replacement, head) + data # Precompute the safe entities for the loose parser. safe_entities = dict((k.decode('utf-8'), v.decode('utf-8')) for k, v in RE_SAFE_ENTITY_PATTERN.findall(replacement)) return version, data, safe_entities def parse(url_file_stream_or_string, etag=None, modified=None, agent=None, referrer=None, handlers=None, request_headers=None, response_headers=None): '''Parse a feed from a URL, file, stream, or string. request_headers, if given, is a dict from http header name to value to add to the request; this overrides internally generated values. ''' if handlers is None: handlers = [] if request_headers is None: request_headers = {} if response_headers is None: response_headers = {} result = FeedParserDict() result['feed'] = FeedParserDict() result['entries'] = [] result['bozo'] = 0 if not isinstance(handlers, list): handlers = [handlers] try: f = _open_resource(url_file_stream_or_string, etag, modified, agent, referrer, handlers, request_headers) data = f.read() except Exception as e: result['bozo'] = 1 result['bozo_exception'] = e data = None f = None if hasattr(f, 'headers'): result['headers'] = dict(f.headers) # overwrite existing headers using response_headers if 'headers' in result: result['headers'].update(response_headers) elif response_headers: result['headers'] = copy.deepcopy(response_headers) # lowercase all of the HTTP headers for comparisons per RFC 2616 if 'headers' in result: http_headers = dict((k.lower(), v) for k, v in list(result['headers'].items())) else: http_headers = {} # if feed is gzip-compressed, decompress it if f and data and http_headers: if gzip and 'gzip' in http_headers.get('content-encoding', ''): try: data = gzip.GzipFile(fileobj=_StringIO(data)).read() except (IOError, struct.error) as e: # IOError can occur if the gzip header is bad. # struct.error can occur if the data is damaged. result['bozo'] = 1 result['bozo_exception'] = e if isinstance(e, struct.error): # A gzip header was found but the data is corrupt. # Ideally, we should re-request the feed without the # 'Accept-encoding: gzip' header, but we don't. data = None elif zlib and 'deflate' in http_headers.get('content-encoding', ''): try: data = zlib.decompress(data) except zlib.error as e: try: # The data may have no headers and no checksum. data = zlib.decompress(data, -15) except zlib.error as e: result['bozo'] = 1 result['bozo_exception'] = e # save HTTP headers if http_headers: if 'etag' in http_headers: etag = http_headers.get('etag', '') if not isinstance(etag, str): etag = etag.decode('utf-8', 'ignore') if etag: result['etag'] = etag if 'last-modified' in http_headers: modified = http_headers.get('last-modified', '') if modified: result['modified'] = modified result['modified_parsed'] = _parse_date(modified) if hasattr(f, 'url'): if not isinstance(f.url, str): result['href'] = f.url.decode('utf-8', 'ignore') else: result['href'] = f.url result['status'] = 200 if hasattr(f, 'status'): result['status'] = f.status if hasattr(f, 'close'): f.close() if data is None: return result # Stop processing if the server sent HTTP 304 Not Modified. if getattr(f, 'code', 0) == 304: result['version'] = '' result['debug_message'] = 'The feed has not changed since you last checked, ' + \ 'so the server sent no data. This is a feature, not a bug!' return result data, result['encoding'], error = convert_to_utf8(http_headers, data) use_strict_parser = result['encoding'] and True or False if error is not None: result['bozo'] = 1 result['bozo_exception'] = error result['version'], data, entities = replace_doctype(data) # Ensure that baseuri is an absolute URI using an acceptable URI scheme. contentloc = http_headers.get('content-location', '') href = result.get('href', '') baseuri = _makeSafeAbsoluteURI(href, contentloc) or _makeSafeAbsoluteURI(contentloc) or href baselang = http_headers.get('content-language', None) if not isinstance(baselang, str) and baselang is not None: baselang = baselang.decode('utf-8', 'ignore') if not _XML_AVAILABLE: use_strict_parser = 0 if use_strict_parser: # initialize the SAX parser feedparser = _StrictFeedParser(baseuri, baselang, 'utf-8') saxparser = xml.sax.make_parser(PREFERRED_XML_PARSERS) saxparser.setFeature(xml.sax.handler.feature_namespaces, 1) try: # disable downloading external doctype references, if possible saxparser.setFeature(xml.sax.handler.feature_external_ges, 0) except xml.sax.SAXNotSupportedException: pass saxparser.setContentHandler(feedparser) saxparser.setErrorHandler(feedparser) source = xml.sax.xmlreader.InputSource() source.setByteStream(_StringIO(data)) try: saxparser.parse(source) except xml.sax.SAXException as e: result['bozo'] = 1 result['bozo_exception'] = feedparser.exc or e use_strict_parser = 0 if not use_strict_parser and _SGML_AVAILABLE: feedparser = _LooseFeedParser(baseuri, baselang, 'utf-8', entities) feedparser.feed(data.decode('utf-8', 'replace')) result['feed'] = feedparser.feeddata result['entries'] = feedparser.entries result['version'] = result['version'] or feedparser.version result['namespaces'] = feedparser.namespacesInUse return result