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Direktori : /lib/python3/dist-packages/oauthlib/ |
Current File : //lib/python3/dist-packages/oauthlib/common.py |
""" oauthlib.common ~~~~~~~~~~~~~~ This module provides data structures and utilities common to all implementations of OAuth. """ import collections import datetime import logging import re import time import urllib.parse as urlparse from urllib.parse import ( quote as _quote, unquote as _unquote, urlencode as _urlencode, ) from . import get_debug try: from secrets import SystemRandom, randbits except ImportError: from random import SystemRandom, getrandbits as randbits UNICODE_ASCII_CHARACTER_SET = ('abcdefghijklmnopqrstuvwxyz' 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' '0123456789') CLIENT_ID_CHARACTER_SET = (r' !"#$%&\'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMN' 'OPQRSTUVWXYZ[\\]^_`abcdefghijklmnopqrstuvwxyz{|}') SANITIZE_PATTERN = re.compile(r'([^&;]*(?:password|token)[^=]*=)[^&;]+', re.IGNORECASE) INVALID_HEX_PATTERN = re.compile(r'%[^0-9A-Fa-f]|%[0-9A-Fa-f][^0-9A-Fa-f]') always_safe = ('ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' '0123456789' '_.-') log = logging.getLogger('oauthlib') # 'safe' must be bytes (Python 2.6 requires bytes, other versions allow either) def quote(s, safe=b'/'): s = s.encode('utf-8') if isinstance(s, str) else s s = _quote(s, safe) # PY3 always returns unicode. PY2 may return either, depending on whether # it had to modify the string. if isinstance(s, bytes): s = s.decode('utf-8') return s def unquote(s): s = _unquote(s) # PY3 always returns unicode. PY2 seems to always return what you give it, # which differs from quote's behavior. Just to be safe, make sure it is # unicode before we return. if isinstance(s, bytes): s = s.decode('utf-8') return s def urlencode(params): utf8_params = encode_params_utf8(params) urlencoded = _urlencode(utf8_params) if isinstance(urlencoded, str): return urlencoded else: return urlencoded.decode("utf-8") def encode_params_utf8(params): """Ensures that all parameters in a list of 2-element tuples are encoded to bytestrings using UTF-8 """ encoded = [] for k, v in params: encoded.append(( k.encode('utf-8') if isinstance(k, str) else k, v.encode('utf-8') if isinstance(v, str) else v)) return encoded def decode_params_utf8(params): """Ensures that all parameters in a list of 2-element tuples are decoded to unicode using UTF-8. """ decoded = [] for k, v in params: decoded.append(( k.decode('utf-8') if isinstance(k, bytes) else k, v.decode('utf-8') if isinstance(v, bytes) else v)) return decoded urlencoded = set(always_safe) | set('=&;:%+~,*@!()/?\'$') def urldecode(query): """Decode a query string in x-www-form-urlencoded format into a sequence of two-element tuples. Unlike urlparse.parse_qsl(..., strict_parsing=True) urldecode will enforce correct formatting of the query string by validation. If validation fails a ValueError will be raised. urllib.parse_qsl will only raise errors if any of name-value pairs omits the equals sign. """ # Check if query contains invalid characters if query and not set(query) <= urlencoded: error = ("Error trying to decode a non urlencoded string. " "Found invalid characters: %s " "in the string: '%s'. " "Please ensure the request/response body is " "x-www-form-urlencoded.") raise ValueError(error % (set(query) - urlencoded, query)) # Check for correctly hex encoded values using a regular expression # All encoded values begin with % followed by two hex characters # correct = %00, %A0, %0A, %FF # invalid = %G0, %5H, %PO if INVALID_HEX_PATTERN.search(query): raise ValueError('Invalid hex encoding in query string.') # We want to allow queries such as "c2" whereas urlparse.parse_qsl # with the strict_parsing flag will not. params = urlparse.parse_qsl(query, keep_blank_values=True) # unicode all the things return decode_params_utf8(params) def extract_params(raw): """Extract parameters and return them as a list of 2-tuples. Will successfully extract parameters from urlencoded query strings, dicts, or lists of 2-tuples. Empty strings/dicts/lists will return an empty list of parameters. Any other input will result in a return value of None. """ if isinstance(raw, (bytes, str)): try: params = urldecode(raw) except ValueError: params = None elif hasattr(raw, '__iter__'): try: dict(raw) except ValueError: params = None except TypeError: params = None else: params = list(raw.items() if isinstance(raw, dict) else raw) params = decode_params_utf8(params) else: params = None return params def generate_nonce(): """Generate pseudorandom nonce that is unlikely to repeat. Per `section 3.3`_ of the OAuth 1 RFC 5849 spec. Per `section 3.2.1`_ of the MAC Access Authentication spec. A random 64-bit number is appended to the epoch timestamp for both randomness and to decrease the likelihood of collisions. .. _`section 3.2.1`: https://tools.ietf.org/html/draft-ietf-oauth-v2-http-mac-01#section-3.2.1 .. _`section 3.3`: https://tools.ietf.org/html/rfc5849#section-3.3 """ return str(str(randbits(64)) + generate_timestamp()) def generate_timestamp(): """Get seconds since epoch (UTC). Per `section 3.3`_ of the OAuth 1 RFC 5849 spec. Per `section 3.2.1`_ of the MAC Access Authentication spec. .. _`section 3.2.1`: https://tools.ietf.org/html/draft-ietf-oauth-v2-http-mac-01#section-3.2.1 .. _`section 3.3`: https://tools.ietf.org/html/rfc5849#section-3.3 """ return str(int(time.time())) def generate_token(length=30, chars=UNICODE_ASCII_CHARACTER_SET): """Generates a non-guessable OAuth token OAuth (1 and 2) does not specify the format of tokens except that they should be strings of random characters. Tokens should not be guessable and entropy when generating the random characters is important. Which is why SystemRandom is used instead of the default random.choice method. """ rand = SystemRandom() return ''.join(rand.choice(chars) for x in range(length)) def generate_signed_token(private_pem, request): import jwt now = datetime.datetime.utcnow() claims = { 'scope': request.scope, 'exp': now + datetime.timedelta(seconds=request.expires_in) } claims.update(request.claims) token = jwt.encode(claims, private_pem, 'RS256') token = to_unicode(token, "UTF-8") return token def verify_signed_token(public_pem, token): import jwt return jwt.decode(token, public_pem, algorithms=['RS256']) def generate_client_id(length=30, chars=CLIENT_ID_CHARACTER_SET): """Generates an OAuth client_id OAuth 2 specify the format of client_id in https://tools.ietf.org/html/rfc6749#appendix-A. """ return generate_token(length, chars) def add_params_to_qs(query, params): """Extend a query with a list of two-tuples.""" if isinstance(params, dict): params = params.items() queryparams = urlparse.parse_qsl(query, keep_blank_values=True) queryparams.extend(params) return urlencode(queryparams) def add_params_to_uri(uri, params, fragment=False): """Add a list of two-tuples to the uri query components.""" sch, net, path, par, query, fra = urlparse.urlparse(uri) if fragment: fra = add_params_to_qs(fra, params) else: query = add_params_to_qs(query, params) return urlparse.urlunparse((sch, net, path, par, query, fra)) def safe_string_equals(a, b): """ Near-constant time string comparison. Used in order to avoid timing attacks on sensitive information such as secret keys during request verification (`rootLabs`_). .. _`rootLabs`: http://rdist.root.org/2010/01/07/timing-independent-array-comparison/ """ if len(a) != len(b): return False result = 0 for x, y in zip(a, b): result |= ord(x) ^ ord(y) return result == 0 def to_unicode(data, encoding='UTF-8'): """Convert a number of different types of objects to unicode.""" if isinstance(data, str): return data if isinstance(data, bytes): return str(data, encoding=encoding) if hasattr(data, '__iter__'): try: dict(data) except TypeError: pass except ValueError: # Assume it's a one dimensional data structure return (to_unicode(i, encoding) for i in data) else: # We support 2.6 which lacks dict comprehensions if hasattr(data, 'items'): data = data.items() return {to_unicode(k, encoding): to_unicode(v, encoding) for k, v in data} return data class CaseInsensitiveDict(dict): """Basic case insensitive dict with strings only keys.""" proxy = {} def __init__(self, data): self.proxy = {k.lower(): k for k in data} for k in data: self[k] = data[k] def __contains__(self, k): return k.lower() in self.proxy def __delitem__(self, k): key = self.proxy[k.lower()] super().__delitem__(key) del self.proxy[k.lower()] def __getitem__(self, k): key = self.proxy[k.lower()] return super().__getitem__(key) def get(self, k, default=None): return self[k] if k in self else default def __setitem__(self, k, v): super().__setitem__(k, v) self.proxy[k.lower()] = k def update(self, *args, **kwargs): super().update(*args, **kwargs) for k in dict(*args, **kwargs): self.proxy[k.lower()] = k class Request: """A malleable representation of a signable HTTP request. Body argument may contain any data, but parameters will only be decoded if they are one of: * urlencoded query string * dict * list of 2-tuples Anything else will be treated as raw body data to be passed through unmolested. """ def __init__(self, uri, http_method='GET', body=None, headers=None, encoding='utf-8'): # Convert to unicode using encoding if given, else assume unicode encode = lambda x: to_unicode(x, encoding) if encoding else x self.uri = encode(uri) self.http_method = encode(http_method) self.headers = CaseInsensitiveDict(encode(headers or {})) self.body = encode(body) self.decoded_body = extract_params(self.body) self.oauth_params = [] self.validator_log = {} self._params = { "access_token": None, "client": None, "client_id": None, "client_secret": None, "code": None, "code_challenge": None, "code_challenge_method": None, "code_verifier": None, "extra_credentials": None, "grant_type": None, "redirect_uri": None, "refresh_token": None, "request_token": None, "response_type": None, "scope": None, "scopes": None, "state": None, "token": None, "user": None, "token_type_hint": None, # OpenID Connect "response_mode": None, "nonce": None, "display": None, "prompt": None, "claims": None, "max_age": None, "ui_locales": None, "id_token_hint": None, "login_hint": None, "acr_values": None } self._params.update(dict(urldecode(self.uri_query))) self._params.update(dict(self.decoded_body or [])) def __getattr__(self, name): if name in self._params: return self._params[name] else: raise AttributeError(name) def __repr__(self): if not get_debug(): return "<oauthlib.Request SANITIZED>" body = self.body headers = self.headers.copy() if body: body = SANITIZE_PATTERN.sub('\1<SANITIZED>', str(body)) if 'Authorization' in headers: headers['Authorization'] = '<SANITIZED>' return '<oauthlib.Request url="{}", http_method="{}", headers="{}", body="{}">'.format( self.uri, self.http_method, headers, body) @property def uri_query(self): return urlparse.urlparse(self.uri).query @property def uri_query_params(self): if not self.uri_query: return [] return urlparse.parse_qsl(self.uri_query, keep_blank_values=True, strict_parsing=True) @property def duplicate_params(self): seen_keys = collections.defaultdict(int) all_keys = (p[0] for p in (self.decoded_body or []) + self.uri_query_params) for k in all_keys: seen_keys[k] += 1 return [k for k, c in seen_keys.items() if c > 1]