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SickRage/lib/oauth2/__init__.py
echel0n 0d9fbc1ad7 Welcome to our SickBeard-TVRage Edition ...
This version of SickBeard uses both TVDB and TVRage to search and gather it's series data from allowing you to now have access to and download shows that you couldn't before because of being locked into only what TheTVDB had to offer.

Also this edition is based off the code we used in our XEM editon so it does come with scene numbering support as well as all the other features our XEM edition has to offer.

Please before using this with your existing database (sickbeard.db) please make a backup copy of it and delete any other database files such as cache.db and failed.db if present, we HIGHLY recommend starting out with no database files at all to make this a fresh start but the choice is at your own risk!

Enjoy!
2014-03-09 22:39:12 -07:00

705 lines
23 KiB
Python

"""
The MIT License
Copyright (c) 2007 Leah Culver, Joe Stump, Mark Paschal, Vic Fryzel
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
"""
import urllib
import time
import random
import urlparse
import hmac
import binascii
import lib.httplib2 as httplib2
try:
from urlparse import parse_qs, parse_qsl
except ImportError:
from cgi import parse_qs, parse_qsl
VERSION = '1.0' # Hi Blaine!
HTTP_METHOD = 'GET'
SIGNATURE_METHOD = 'PLAINTEXT'
class Error(RuntimeError):
"""Generic exception class."""
def __init__(self, message='OAuth error occured.'):
self._message = message
@property
def message(self):
"""A hack to get around the deprecation errors in 2.6."""
return self._message
def __str__(self):
return self._message
class MissingSignature(Error):
pass
def build_authenticate_header(realm=''):
"""Optional WWW-Authenticate header (401 error)"""
return {'WWW-Authenticate': 'OAuth realm="%s"' % realm}
def escape(s):
"""Escape a URL including any /."""
return urllib.quote(s, safe='~')
def generate_timestamp():
"""Get seconds since epoch (UTC)."""
return int(time.time())
def generate_nonce(length=8):
"""Generate pseudorandom number."""
return ''.join([str(random.randint(0, 9)) for i in range(length)])
def generate_verifier(length=8):
"""Generate pseudorandom number."""
return ''.join([str(random.randint(0, 9)) for i in range(length)])
class Consumer(object):
"""A consumer of OAuth-protected services.
The OAuth consumer is a "third-party" service that wants to access
protected resources from an OAuth service provider on behalf of an end
user. It's kind of the OAuth client.
Usually a consumer must be registered with the service provider by the
developer of the consumer software. As part of that process, the service
provider gives the consumer a *key* and a *secret* with which the consumer
software can identify itself to the service. The consumer will include its
key in each request to identify itself, but will use its secret only when
signing requests, to prove that the request is from that particular
registered consumer.
Once registered, the consumer can then use its consumer credentials to ask
the service provider for a request token, kicking off the OAuth
authorization process.
"""
key = None
secret = None
def __init__(self, key, secret):
self.key = key
self.secret = secret
if self.key is None or self.secret is None:
raise ValueError("Key and secret must be set.")
def __str__(self):
data = {
'oauth_consumer_key': self.key,
'oauth_consumer_secret': self.secret
}
return urllib.urlencode(data)
class Token(object):
"""An OAuth credential used to request authorization or a protected
resource.
Tokens in OAuth comprise a *key* and a *secret*. The key is included in
requests to identify the token being used, but the secret is used only in
the signature, to prove that the requester is who the server gave the
token to.
When first negotiating the authorization, the consumer asks for a *request
token* that the live user authorizes with the service provider. The
consumer then exchanges the request token for an *access token* that can
be used to access protected resources.
"""
key = None
secret = None
callback = None
callback_confirmed = None
verifier = None
def __init__(self, key, secret):
self.key = key
self.secret = secret
if self.key is None or self.secret is None:
raise ValueError("Key and secret must be set.")
def set_callback(self, callback):
self.callback = callback
self.callback_confirmed = 'true'
def set_verifier(self, verifier=None):
if verifier is not None:
self.verifier = verifier
else:
self.verifier = generate_verifier()
def get_callback_url(self):
if self.callback and self.verifier:
# Append the oauth_verifier.
parts = urlparse.urlparse(self.callback)
scheme, netloc, path, params, query, fragment = parts[:6]
if query:
query = '%s&oauth_verifier=%s' % (query, self.verifier)
else:
query = 'oauth_verifier=%s' % self.verifier
return urlparse.urlunparse((scheme, netloc, path, params,
query, fragment))
return self.callback
def to_string(self):
"""Returns this token as a plain string, suitable for storage.
The resulting string includes the token's secret, so you should never
send or store this string where a third party can read it.
"""
data = {
'oauth_token': self.key,
'oauth_token_secret': self.secret,
}
if self.callback_confirmed is not None:
data['oauth_callback_confirmed'] = self.callback_confirmed
return urllib.urlencode(data)
@staticmethod
def from_string(s):
"""Deserializes a token from a string like one returned by
`to_string()`."""
if not len(s):
raise ValueError("Invalid parameter string.")
params = parse_qs(s, keep_blank_values=False)
if not len(params):
raise ValueError("Invalid parameter string.")
try:
key = params['oauth_token'][0]
except Exception:
raise ValueError("'oauth_token' not found in OAuth request.")
try:
secret = params['oauth_token_secret'][0]
except Exception:
raise ValueError("'oauth_token_secret' not found in "
"OAuth request.")
token = Token(key, secret)
try:
token.callback_confirmed = params['oauth_callback_confirmed'][0]
except KeyError:
pass # 1.0, no callback confirmed.
return token
def __str__(self):
return self.to_string()
def setter(attr):
name = attr.__name__
def getter(self):
try:
return self.__dict__[name]
except KeyError:
raise AttributeError(name)
def deleter(self):
del self.__dict__[name]
return property(getter, attr, deleter)
class Request(dict):
"""The parameters and information for an HTTP request, suitable for
authorizing with OAuth credentials.
When a consumer wants to access a service's protected resources, it does
so using a signed HTTP request identifying itself (the consumer) with its
key, and providing an access token authorized by the end user to access
those resources.
"""
http_method = HTTP_METHOD
http_url = None
version = VERSION
def __init__(self, method=HTTP_METHOD, url=None, parameters=None):
if method is not None:
self.method = method
if url is not None:
self.url = url
if parameters is not None:
self.update(parameters)
@setter
def url(self, value):
parts = urlparse.urlparse(value)
scheme, netloc, path = parts[:3]
# Exclude default port numbers.
if scheme == 'http' and netloc[-3:] == ':80':
netloc = netloc[:-3]
elif scheme == 'https' and netloc[-4:] == ':443':
netloc = netloc[:-4]
if scheme != 'http' and scheme != 'https':
raise ValueError("Unsupported URL %s (%s)." % (value, scheme))
value = '%s://%s%s' % (scheme, netloc, path)
self.__dict__['url'] = value
@setter
def method(self, value):
self.__dict__['method'] = value.upper()
def _get_timestamp_nonce(self):
return self['oauth_timestamp'], self['oauth_nonce']
def get_nonoauth_parameters(self):
"""Get any non-OAuth parameters."""
return dict([(k, v) for k, v in self.iteritems()
if not k.startswith('oauth_')])
def to_header(self, realm=''):
"""Serialize as a header for an HTTPAuth request."""
oauth_params = ((k, v) for k, v in self.items()
if k.startswith('oauth_'))
stringy_params = ((k, escape(str(v))) for k, v in oauth_params)
header_params = ('%s="%s"' % (k, v) for k, v in stringy_params)
params_header = ', '.join(header_params)
auth_header = 'OAuth realm="%s"' % realm
if params_header:
auth_header = "%s, %s" % (auth_header, params_header)
return {'Authorization': auth_header}
def to_postdata(self):
"""Serialize as post data for a POST request."""
return self.encode_postdata(self)
def encode_postdata(self, data):
# tell urlencode to deal with sequence values and map them correctly
# to resulting querystring. for example self["k"] = ["v1", "v2"] will
# result in 'k=v1&k=v2' and not k=%5B%27v1%27%2C+%27v2%27%5D
return urllib.urlencode(data, True)
def to_url(self):
"""Serialize as a URL for a GET request."""
return '%s?%s' % (self.url, self.to_postdata())
def get_parameter(self, parameter):
ret = self.get(parameter)
if ret is None:
raise Error('Parameter not found: %s' % parameter)
return ret
def get_normalized_parameters(self):
"""Return a string that contains the parameters that must be signed."""
items = [(k, v) for k, v in self.items() if k != 'oauth_signature']
encoded_str = urllib.urlencode(sorted(items), True)
# Encode signature parameters per Oauth Core 1.0 protocol
# spec draft 7, section 3.6
# (http://tools.ietf.org/html/draft-hammer-oauth-07#section-3.6)
# Spaces must be encoded with "%20" instead of "+"
return encoded_str.replace('+', '%20')
def sign_request(self, signature_method, consumer, token):
"""Set the signature parameter to the result of sign."""
if 'oauth_consumer_key' not in self:
self['oauth_consumer_key'] = consumer.key
if token and 'oauth_token' not in self:
self['oauth_token'] = token.key
self['oauth_signature_method'] = signature_method.name
self['oauth_signature'] = signature_method.sign(self, consumer, token)
@classmethod
def make_timestamp(cls):
"""Get seconds since epoch (UTC)."""
return str(int(time.time()))
@classmethod
def make_nonce(cls):
"""Generate pseudorandom number."""
return str(random.randint(0, 100000000))
@classmethod
def from_request(cls, http_method, http_url, headers=None, parameters=None,
query_string=None):
"""Combines multiple parameter sources."""
if parameters is None:
parameters = {}
# Headers
if headers and 'Authorization' in headers:
auth_header = headers['Authorization']
# Check that the authorization header is OAuth.
if auth_header[:6] == 'OAuth ':
auth_header = auth_header[6:]
try:
# Get the parameters from the header.
header_params = cls._split_header(auth_header)
parameters.update(header_params)
except:
raise Error('Unable to parse OAuth parameters from '
'Authorization header.')
# GET or POST query string.
if query_string:
query_params = cls._split_url_string(query_string)
parameters.update(query_params)
# URL parameters.
param_str = urlparse.urlparse(http_url)[4] # query
url_params = cls._split_url_string(param_str)
parameters.update(url_params)
if parameters:
return cls(http_method, http_url, parameters)
return None
@classmethod
def from_consumer_and_token(cls, consumer, token=None,
http_method=HTTP_METHOD, http_url=None, parameters=None):
if not parameters:
parameters = {}
defaults = {
'oauth_consumer_key': consumer.key,
'oauth_timestamp': cls.make_timestamp(),
'oauth_nonce': cls.make_nonce(),
'oauth_version': cls.version,
}
defaults.update(parameters)
parameters = defaults
if token:
parameters['oauth_token'] = token.key
return Request(http_method, http_url, parameters)
@classmethod
def from_token_and_callback(cls, token, callback=None,
http_method=HTTP_METHOD, http_url=None, parameters=None):
if not parameters:
parameters = {}
parameters['oauth_token'] = token.key
if callback:
parameters['oauth_callback'] = callback
return cls(http_method, http_url, parameters)
@staticmethod
def _split_header(header):
"""Turn Authorization: header into parameters."""
params = {}
parts = header.split(',')
for param in parts:
# Ignore realm parameter.
if param.find('realm') > -1:
continue
# Remove whitespace.
param = param.strip()
# Split key-value.
param_parts = param.split('=', 1)
# Remove quotes and unescape the value.
params[param_parts[0]] = urllib.unquote(param_parts[1].strip('\"'))
return params
@staticmethod
def _split_url_string(param_str):
"""Turn URL string into parameters."""
parameters = parse_qs(param_str, keep_blank_values=False)
for k, v in parameters.iteritems():
parameters[k] = urllib.unquote(v[0])
return parameters
class Server(object):
"""A skeletal implementation of a service provider, providing protected
resources to requests from authorized consumers.
This class implements the logic to check requests for authorization. You
can use it with your web server or web framework to protect certain
resources with OAuth.
"""
timestamp_threshold = 300 # In seconds, five minutes.
version = VERSION
signature_methods = None
def __init__(self, signature_methods=None):
self.signature_methods = signature_methods or {}
def add_signature_method(self, signature_method):
self.signature_methods[signature_method.name] = signature_method
return self.signature_methods
def verify_request(self, request, consumer, token):
"""Verifies an api call and checks all the parameters."""
version = self._get_version(request)
self._check_signature(request, consumer, token)
parameters = request.get_nonoauth_parameters()
return parameters
def build_authenticate_header(self, realm=''):
"""Optional support for the authenticate header."""
return {'WWW-Authenticate': 'OAuth realm="%s"' % realm}
def _get_version(self, request):
"""Verify the correct version request for this server."""
try:
version = request.get_parameter('oauth_version')
except:
version = VERSION
if version and version != self.version:
raise Error('OAuth version %s not supported.' % str(version))
return version
def _get_signature_method(self, request):
"""Figure out the signature with some defaults."""
try:
signature_method = request.get_parameter('oauth_signature_method')
except:
signature_method = SIGNATURE_METHOD
try:
# Get the signature method object.
signature_method = self.signature_methods[signature_method]
except:
signature_method_names = ', '.join(self.signature_methods.keys())
raise Error('Signature method %s not supported try one of the following: %s' % (signature_method, signature_method_names))
return signature_method
def _get_verifier(self, request):
return request.get_parameter('oauth_verifier')
def _check_signature(self, request, consumer, token):
timestamp, nonce = request._get_timestamp_nonce()
self._check_timestamp(timestamp)
signature_method = self._get_signature_method(request)
try:
signature = request.get_parameter('oauth_signature')
except:
raise MissingSignature('Missing oauth_signature.')
# Validate the signature.
valid = signature_method.check(request, consumer, token, signature)
if not valid:
key, base = signature_method.signing_base(request, consumer, token)
raise Error('Invalid signature. Expected signature base '
'string: %s' % base)
built = signature_method.sign(request, consumer, token)
def _check_timestamp(self, timestamp):
"""Verify that timestamp is recentish."""
timestamp = int(timestamp)
now = int(time.time())
lapsed = now - timestamp
if lapsed > self.timestamp_threshold:
raise Error('Expired timestamp: given %d and now %s has a '
'greater difference than threshold %d' % (timestamp, now, self.timestamp_threshold))
class Client(httplib2.Http):
"""OAuthClient is a worker to attempt to execute a request."""
def __init__(self, consumer, token=None, cache=None, timeout=None,
proxy_info=None):
if consumer is not None and not isinstance(consumer, Consumer):
raise ValueError("Invalid consumer.")
if token is not None and not isinstance(token, Token):
raise ValueError("Invalid token.")
self.consumer = consumer
self.token = token
self.method = SignatureMethod_HMAC_SHA1()
httplib2.Http.__init__(self, cache=cache, timeout=timeout,
proxy_info=proxy_info)
def set_signature_method(self, method):
if not isinstance(method, SignatureMethod):
raise ValueError("Invalid signature method.")
self.method = method
def request(self, uri, method="GET", body=None, headers=None,
redirections=httplib2.DEFAULT_MAX_REDIRECTS, connection_type=None,
force_auth_header=False):
if not isinstance(headers, dict):
headers = {}
if body and method == "POST":
parameters = dict(parse_qsl(body))
elif method == "GET":
parsed = urlparse.urlparse(uri)
parameters = parse_qs(parsed.query)
else:
parameters = None
req = Request.from_consumer_and_token(self.consumer, token=self.token,
http_method=method, http_url=uri, parameters=parameters)
req.sign_request(self.method, self.consumer, self.token)
if force_auth_header:
# ensure we always send Authorization
headers.update(req.to_header())
if method == "POST":
if not force_auth_header:
body = req.to_postdata()
else:
body = req.encode_postdata(req.get_nonoauth_parameters())
headers['Content-Type'] = 'application/x-www-form-urlencoded'
elif method == "GET":
if not force_auth_header:
uri = req.to_url()
else:
if not force_auth_header:
# don't call update twice.
headers.update(req.to_header())
return httplib2.Http.request(self, uri, method=method, body=body,
headers=headers, redirections=redirections,
connection_type=connection_type)
class SignatureMethod(object):
"""A way of signing requests.
The OAuth protocol lets consumers and service providers pick a way to sign
requests. This interface shows the methods expected by the other `oauth`
modules for signing requests. Subclass it and implement its methods to
provide a new way to sign requests.
"""
def signing_base(self, request, consumer, token):
"""Calculates the string that needs to be signed.
This method returns a 2-tuple containing the starting key for the
signing and the message to be signed. The latter may be used in error
messages to help clients debug their software.
"""
raise NotImplementedError
def sign(self, request, consumer, token):
"""Returns the signature for the given request, based on the consumer
and token also provided.
You should use your implementation of `signing_base()` to build the
message to sign. Otherwise it may be less useful for debugging.
"""
raise NotImplementedError
def check(self, request, consumer, token, signature):
"""Returns whether the given signature is the correct signature for
the given consumer and token signing the given request."""
built = self.sign(request, consumer, token)
return built == signature
class SignatureMethod_HMAC_SHA1(SignatureMethod):
name = 'HMAC-SHA1'
def signing_base(self, request, consumer, token):
sig = (
escape(request.method),
escape(request.url),
escape(request.get_normalized_parameters()),
)
key = '%s&' % escape(consumer.secret)
if token:
key += escape(token.secret)
raw = '&'.join(sig)
return key, raw
def sign(self, request, consumer, token):
"""Builds the base signature string."""
key, raw = self.signing_base(request, consumer, token)
# HMAC object.
try:
import hashlib # 2.5
hashed = hmac.new(key, raw, hashlib.sha1)
except ImportError:
import sha # Deprecated
hashed = hmac.new(key, raw, sha)
# Calculate the digest base 64.
return binascii.b2a_base64(hashed.digest())[:-1]
class SignatureMethod_PLAINTEXT(SignatureMethod):
name = 'PLAINTEXT'
def signing_base(self, request, consumer, token):
"""Concatenates the consumer key and secret with the token's
secret."""
sig = '%s&' % escape(consumer.secret)
if token:
sig = sig + escape(token.secret)
return sig, sig
def sign(self, request, consumer, token):
key, raw = self.signing_base(request, consumer, token)
return raw