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# Copyright 2008 Canonical Ltd. # This file is part of launchpadlib. # # launchpadlib is free software: you can redistribute it and/or modify it # under the terms of the GNU Lesser General Public License as published by the # Free Software Foundation, version 3 of the License. # # launchpadlib is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or # FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License # for more details. # # You should have received a copy of the GNU Lesser General Public License # along with launchpadlib. If not, see <http://www.gnu.org/licenses/>. from __future__ import print_function """launchpadlib credentials and authentication support.""" __metaclass__ = type __all__ = [ "AccessToken", "AnonymousAccessToken", "AuthorizeRequestTokenWithBrowser", "CredentialStore", "RequestTokenAuthorizationEngine", "Consumer", "Credentials", ] try: from cStringIO import StringIO except ImportError: from io import StringIO import httplib2 import json import os from select import select import stat from sys import stdin import time try: from urllib.parse import urlencode except ImportError: from urllib import urlencode try: from urllib.parse import urljoin except ImportError: from urlparse import urljoin import webbrowser from base64 import ( b64decode, b64encode, ) from six.moves.urllib.parse import parse_qs if bytes is str: # Python 2 unicode_type = unicode # noqa: F821 else: unicode_type = str from lazr.restfulclient.errors import HTTPError from lazr.restfulclient.authorize.oauth import ( AccessToken as _AccessToken, Consumer, OAuthAuthorizer, SystemWideConsumer, # Not used directly, just re-imported into here. ) from launchpadlib import uris request_token_page = "+request-token" access_token_page = "+access-token" authorize_token_page = "+authorize-token" access_token_poll_time = 1 access_token_poll_timeout = 15 * 60 EXPLOSIVE_ERRORS = (MemoryError, KeyboardInterrupt, SystemExit) def _ssl_certificate_validation_disabled(): """Whether the user has disabled SSL certificate connection. Some testing servers have broken certificates. Rather than raising an error, we allow an environment variable, ``LP_DISABLE_SSL_CERTIFICATE_VALIDATION`` to disable the check. """ # XXX: Copied from lazr/restfulclient/_browser.py. Once it appears in a # released version of lazr.restfulclient, depend on that new version and # delete this copy. return bool(os.environ.get("LP_DISABLE_SSL_CERTIFICATE_VALIDATION", False)) def _http_post(url, headers, params): """POST to ``url`` with ``headers`` and a body of urlencoded ``params``. Wraps it up to make sure we avoid the SSL certificate validation if our environment tells us to. Also, raises an error on non-200 statuses. """ cert_disabled = _ssl_certificate_validation_disabled() response, content = httplib2.Http( disable_ssl_certificate_validation=cert_disabled ).request(url, method="POST", headers=headers, body=urlencode(params)) if response.status != 200: raise HTTPError(response, content) return response, content class Credentials(OAuthAuthorizer): """Standard credentials storage and usage class. :ivar consumer: The consumer (application) :type consumer: `Consumer` :ivar access_token: Access information on behalf of the user :type access_token: `AccessToken` """ _request_token = None URI_TOKEN_FORMAT = "uri" DICT_TOKEN_FORMAT = "dict" ITEM_SEPARATOR = "<BR>" NEWLINE = "\n" def serialize(self): """Turn this object into a string. This should probably be moved into OAuthAuthorizer. """ sio = StringIO() self.save(sio) serialized = sio.getvalue() if isinstance(serialized, unicode_type): serialized = serialized.encode("utf-8") return serialized @classmethod def from_string(cls, value): """Create a `Credentials` object from a serialized string. This should probably be moved into OAuthAuthorizer. """ credentials = cls() if not isinstance(value, unicode_type): value = value.decode("utf-8") credentials.load(StringIO(value)) return credentials def get_request_token( self, context=None, web_root=uris.STAGING_WEB_ROOT, token_format=URI_TOKEN_FORMAT, ): """Request an OAuth token to Launchpad. Also store the token in self._request_token. This method must not be called on an object with no consumer specified or if an access token has already been obtained. :param context: The context of this token, that is, its scope of validity within Launchpad. :param web_root: The URL of the website on which the token should be requested. :token_format: How the token should be presented. URI_TOKEN_FORMAT means just return the URL to the page that authorizes the token. DICT_TOKEN_FORMAT means return a dictionary describing the token and the site's authentication policy. :return: If token_format is URI_TOKEN_FORMAT, the URL for the user to authorize the `AccessToken` provided by Launchpad. If token_format is DICT_TOKEN_FORMAT, a dict of information about the new access token. """ assert self.consumer is not None, "Consumer not specified." assert self.access_token is None, "Access token already obtained." web_root = uris.lookup_web_root(web_root) params = dict( oauth_consumer_key=self.consumer.key, oauth_signature_method="PLAINTEXT", oauth_signature="&", ) url = web_root + request_token_page headers = {"Referer": web_root} if token_format == self.DICT_TOKEN_FORMAT: headers["Accept"] = "application/json" response, content = _http_post(url, headers, params) if isinstance(content, bytes): content = content.decode("utf-8") if token_format == self.DICT_TOKEN_FORMAT: params = json.loads(content) if context is not None: params["lp.context"] = context self._request_token = AccessToken.from_params(params) return params else: self._request_token = AccessToken.from_string(content) url = "%s%s?oauth_token=%s" % ( web_root, authorize_token_page, self._request_token.key, ) if context is not None: self._request_token.context = context url += "&lp.context=%s" % context return url def exchange_request_token_for_access_token( self, web_root=uris.STAGING_WEB_ROOT ): """Exchange the previously obtained request token for an access token. This method must not be called unless get_request_token() has been called and completed successfully. The access token will be stored as self.access_token. :param web_root: The base URL of the website that granted the request token. """ assert ( self._request_token is not None ), "get_request_token() doesn't seem to have been called." web_root = uris.lookup_web_root(web_root) params = dict( oauth_consumer_key=self.consumer.key, oauth_signature_method="PLAINTEXT", oauth_token=self._request_token.key, oauth_signature="&%s" % self._request_token.secret, ) url = web_root + access_token_page headers = {"Referer": web_root} response, content = _http_post(url, headers, params) self.access_token = AccessToken.from_string(content) class AccessToken(_AccessToken): """An OAuth access token.""" @classmethod def from_params(cls, params): """Create and return a new `AccessToken` from the given dict.""" key = params["oauth_token"] secret = params["oauth_token_secret"] context = params.get("lp.context") return cls(key, secret, context) @classmethod def from_string(cls, query_string): """Create and return a new `AccessToken` from the given string.""" if not isinstance(query_string, unicode_type): query_string = query_string.decode("utf-8") params = parse_qs(query_string, keep_blank_values=False) key = params["oauth_token"] assert len(key) == 1, "Query string must have exactly one oauth_token." key = key[0] secret = params["oauth_token_secret"] assert len(secret) == 1, "Query string must have exactly one secret." secret = secret[0] context = params.get("lp.context") if context is not None: assert ( len(context) == 1 ), "Query string must have exactly one context" context = context[0] return cls(key, secret, context) class AnonymousAccessToken(_AccessToken): """An OAuth access token that doesn't authenticate anybody. This token can be used for anonymous access. """ def __init__(self): super(AnonymousAccessToken, self).__init__("", "") class CredentialStore(object): """Store OAuth credentials locally. This is a generic superclass. To implement a specific way of storing credentials locally you'll need to subclass this class, and implement `do_save` and `do_load`. """ def __init__(self, credential_save_failed=None): """Constructor. :param credential_save_failed: A callback to be invoked if the save to local storage fails. You should never invoke this callback yourself! Instead, you should raise an exception from do_save(). """ self.credential_save_failed = credential_save_failed def save(self, credentials, unique_consumer_id): """Save the credentials and invoke the callback on failure. Do not override this method when subclassing. Override do_save() instead. """ try: self.do_save(credentials, unique_consumer_id) except EXPLOSIVE_ERRORS: raise except Exception as e: if self.credential_save_failed is None: raise e self.credential_save_failed() return credentials def do_save(self, credentials, unique_consumer_id): """Store newly-authorized credentials locally for later use. :param credentials: A Credentials object to save. :param unique_consumer_id: A string uniquely identifying an OAuth consumer on a Launchpad instance. """ raise NotImplementedError() def load(self, unique_key): """Retrieve credentials from a local store. This method is the inverse of `save`. There's no special behavior in this method--it just calls `do_load`. There _is_ special behavior in `save`, and this way, developers can remember to implement `do_save` and `do_load`, not `do_save` and `load`. :param unique_key: A string uniquely identifying an OAuth consumer on a Launchpad instance. :return: A `Credentials` object if one is found in the local store, and None otherise. """ return self.do_load(unique_key) def do_load(self, unique_key): """Retrieve credentials from a local store. This method is the inverse of `do_save`. :param unique_key: A string uniquely identifying an OAuth consumer on a Launchpad instance. :return: A `Credentials` object if one is found in the local store, and None otherise. """ raise NotImplementedError() class KeyringCredentialStore(CredentialStore): """Store credentials in the GNOME keyring or KDE wallet. This is a good solution for desktop applications and interactive scripts. It doesn't work for non-interactive scripts, or for integrating third-party websites into Launchpad. """ B64MARKER = b"<B64>" def __init__(self, credential_save_failed=None, fallback=False): super(KeyringCredentialStore, self).__init__(credential_save_failed) self._fallback = None if fallback: self._fallback = MemoryCredentialStore(credential_save_failed) @staticmethod def _ensure_keyring_imported(): """Ensure the keyring module is imported (postponing side effects). The keyring module initializes the environment-dependent backend at import time (nasty). We want to avoid that initialization because it may do things like prompt the user to unlock their password store (e.g., KWallet). """ if "keyring" not in globals(): global keyring import keyring if "NoKeyringError" not in globals(): global NoKeyringError try: from keyring.errors import NoKeyringError except ImportError: NoKeyringError = RuntimeError def do_save(self, credentials, unique_key): """Store newly-authorized credentials in the keyring.""" self._ensure_keyring_imported() serialized = credentials.serialize() # Some users have reported problems with corrupted keyrings, both in # Gnome and KDE, when newlines are included in the password. Avoid # this problem by base 64 encoding the serialized value. serialized = self.B64MARKER + b64encode(serialized) try: keyring.set_password( "launchpadlib", unique_key, serialized.decode("utf-8") ) except NoKeyringError as e: # keyring < 21.2.0 raises RuntimeError rather than anything more # specific. Make sure it's the exception we're interested in. if ( NoKeyringError == RuntimeError and "No recommended backend was available" not in str(e) ): raise if self._fallback: self._fallback.save(credentials, unique_key) else: raise def do_load(self, unique_key): """Retrieve credentials from the keyring.""" self._ensure_keyring_imported() try: credential_string = keyring.get_password( "launchpadlib", unique_key ) except NoKeyringError as e: # keyring < 21.2.0 raises RuntimeError rather than anything more # specific. Make sure it's the exception we're interested in. if ( NoKeyringError == RuntimeError and "No recommended backend was available" not in str(e) ): raise if self._fallback: return self._fallback.load(unique_key) else: raise if credential_string is not None: if isinstance(credential_string, unicode_type): credential_string = credential_string.encode("utf8") if credential_string.startswith(self.B64MARKER): try: credential_string = b64decode( credential_string[len(self.B64MARKER) :] ) except TypeError: # The credential_string should be base 64 but cannot be # decoded. return None try: credentials = Credentials.from_string(credential_string) return credentials except Exception: # If any error occurs at this point the most reasonable thing # to do is return no credentials, which will require # re-authorization but the user will be able to proceed. return None return None class UnencryptedFileCredentialStore(CredentialStore): """Store credentials unencrypted in a file on disk. This is a good solution for scripts that need to run without any user interaction. """ def __init__(self, filename, credential_save_failed=None): super(UnencryptedFileCredentialStore, self).__init__( credential_save_failed ) self.filename = filename def do_save(self, credentials, unique_key): """Save the credentials to disk.""" credentials.save_to_path(self.filename) def do_load(self, unique_key): """Load the credentials from disk.""" if ( os.path.exists(self.filename) and not os.stat(self.filename)[stat.ST_SIZE] == 0 ): return Credentials.load_from_path(self.filename) return None class MemoryCredentialStore(CredentialStore): """CredentialStore that stores keys only in memory. This can be used to provide a CredentialStore instance without actually saving any key to persistent storage. """ def __init__(self, credential_save_failed=None): super(MemoryCredentialStore, self).__init__(credential_save_failed) self._credentials = {} def do_save(self, credentials, unique_key): """Store the credentials in our dict""" self._credentials[unique_key] = credentials def do_load(self, unique_key): """Retrieve the credentials from our dict""" return self._credentials.get(unique_key) class RequestTokenAuthorizationEngine(object): """The superclass of all request token authorizers. This base class does not implement request token authorization, since that varies depending on how you want the end-user to authorize a request token. You'll need to subclass this class and implement `make_end_user_authorize_token`. """ UNAUTHORIZED_ACCESS_LEVEL = "UNAUTHORIZED" def __init__( self, service_root, application_name=None, consumer_name=None, allow_access_levels=None, ): """Base class initialization. :param service_root: The root of the Launchpad instance being used. :param application_name: The name of the application that wants to use launchpadlib. This is used in conjunction with a desktop-wide integration. If you specify this argument, your values for consumer_name and allow_access_levels are ignored. :param consumer_name: The OAuth consumer name, for an application that wants its own point of integration into Launchpad. In almost all cases, you want to specify application_name instead and do a desktop-wide integration. The exception is when you're integrating a third-party website into Launchpad. :param allow_access_levels: A list of the Launchpad access levels to present to the user. ('READ_PUBLIC' and so on.) Your value for this argument will be ignored during a desktop-wide integration. :type allow_access_levels: A list of strings. """ self.service_root = uris.lookup_service_root(service_root) self.web_root = uris.web_root_for_service_root(service_root) if application_name is None and consumer_name is None: raise ValueError( "You must provide either application_name or consumer_name." ) if application_name is not None and consumer_name is not None: raise ValueError( "You must provide only one of application_name and " "consumer_name. (You provided %r and %r.)" % (application_name, consumer_name) ) if consumer_name is None: # System-wide integration. Create a system-wide consumer # and identify the application using a separate # application name. allow_access_levels = ["DESKTOP_INTEGRATION"] consumer = SystemWideConsumer(application_name) else: # Application-specific integration. Use the provided # consumer name to create a consumer automatically. consumer = Consumer(consumer_name) application_name = consumer_name self.consumer = consumer self.application_name = application_name self.allow_access_levels = allow_access_levels or [] @property def unique_consumer_id(self): """Return a string identifying this consumer on this host.""" return self.consumer.key + "@" + self.service_root def authorization_url(self, request_token): """Return the authorization URL for a request token. This is the URL the end-user must visit to authorize the token. How exactly does this happen? That depends on the subclass implementation. """ page = "%s?oauth_token=%s" % (authorize_token_page, request_token) allow_permission = "&allow_permission=" if len(self.allow_access_levels) > 0: page += allow_permission + allow_permission.join( self.allow_access_levels ) return urljoin(self.web_root, page) def __call__(self, credentials, credential_store): """Authorize a token and associate it with the given credentials. If the credential store runs into a problem storing the credential locally, the `credential_save_failed` callback will be invoked. The callback will not be invoked if there's a problem authorizing the credentials. :param credentials: A `Credentials` object. If the end-user authorizes these credentials, this object will have its .access_token property set. :param credential_store: A `CredentialStore` object. If the end-user authorizes the credentials, they will be persisted locally using this object. :return: If the credentials are successfully authorized, the return value is the `Credentials` object originally passed in. Otherwise the return value is None. """ request_token_string = self.get_request_token(credentials) # Hand off control to the end-user. self.make_end_user_authorize_token(credentials, request_token_string) if credentials.access_token is None: # The end-user refused to authorize the application. return None # save() invokes the callback on failure. credential_store.save(credentials, self.unique_consumer_id) return credentials def get_request_token(self, credentials): """Get a new request token from the server. :param return: The request token. """ authorization_json = credentials.get_request_token( web_root=self.web_root, token_format=Credentials.DICT_TOKEN_FORMAT ) return authorization_json["oauth_token"] def make_end_user_authorize_token(self, credentials, request_token): """Authorize the given request token using the given credentials. Your subclass must implement this method: it has no default implementation. Because an access token may expire or be revoked in the middle of a session, this method may be called at arbitrary points in a launchpadlib session, or even multiple times during a single session (with a different request token each time). In most cases, however, this method will be called at the beginning of a launchpadlib session, or not at all. """ raise NotImplementedError() class AuthorizeRequestTokenWithURL(RequestTokenAuthorizationEngine): """Authorize using a URL. This authorizer simply shows the URL for the user to open for authorization, and waits until the server responds. """ WAITING_FOR_USER = ( "Please open this authorization page:\n" " (%s)\n" "in your browser. Use your browser to authorize\n" "this program to access Launchpad on your behalf." ) WAITING_FOR_LAUNCHPAD = "Press Enter after authorizing in your browser." def output(self, message): """Display a message. By default, prints the message to standard output. The message does not require any user interaction--it's solely informative. """ print(message) def notify_end_user_authorization_url(self, authorization_url): """Notify the end-user of the URL.""" self.output(self.WAITING_FOR_USER % authorization_url) def check_end_user_authorization(self, credentials): """Check if the end-user authorized""" try: credentials.exchange_request_token_for_access_token(self.web_root) except HTTPError as e: if e.response.status == 403: # The user decided not to authorize this # application. raise EndUserDeclinedAuthorization(e.content) else: if e.response.status != 401: # There was an error accessing the server. print("Unexpected response from Launchpad:") print(e) # The user has not made a decision yet. raise EndUserNoAuthorization(e.content) return credentials.access_token is not None def wait_for_end_user_authorization(self, credentials): """Wait for the end-user to authorize""" self.output(self.WAITING_FOR_LAUNCHPAD) stdin.readline() self.check_end_user_authorization(credentials) def make_end_user_authorize_token(self, credentials, request_token): """Have the end-user authorize the token using a URL.""" authorization_url = self.authorization_url(request_token) self.notify_end_user_authorization_url(authorization_url) self.wait_for_end_user_authorization(credentials) class AuthorizeRequestTokenWithBrowser(AuthorizeRequestTokenWithURL): """Authorize using a URL that pops-up automatically in a browser. This authorizer simply opens up the end-user's web browser to a Launchpad URL and lets the end-user authorize the request token themselves. This is the same as its superclass, except this class also performs the browser automatic opening of the URL. """ WAITING_FOR_USER = ( "The authorization page:\n" " (%s)\n" "should be opening in your browser. Use your browser to authorize\n" "this program to access Launchpad on your behalf." ) TIMEOUT_MESSAGE = "Press Enter to continue or wait (%d) seconds..." TIMEOUT = 5 TERMINAL_BROWSERS = ( "www-browser", "links", "links2", "lynx", "elinks", "elinks-lite", "netrik", "w3m", ) WAITING_FOR_LAUNCHPAD = ( "Waiting to hear from Launchpad about your decision..." ) def __init__( self, service_root, application_name, consumer_name=None, credential_save_failed=None, allow_access_levels=None, ): """Constructor. :param service_root: See `RequestTokenAuthorizationEngine`. :param application_name: See `RequestTokenAuthorizationEngine`. :param consumer_name: The value of this argument is ignored. If we have the capability to open the end-user's web browser, we must be running on the end-user's computer, so we should do a full desktop integration. :param credential_save_failed: See `RequestTokenAuthorizationEngine`. :param allow_access_levels: The value of this argument is ignored, for the same reason as consumer_name. """ # It doesn't look like we're doing anything here, but we # are discarding the passed-in values for consumer_name and # allow_access_levels. super(AuthorizeRequestTokenWithBrowser, self).__init__( service_root, application_name, None, credential_save_failed ) def notify_end_user_authorization_url(self, authorization_url): """Notify the end-user of the URL.""" super( AuthorizeRequestTokenWithBrowser, self ).notify_end_user_authorization_url(authorization_url) try: browser_obj = webbrowser.get() browser = getattr(browser_obj, "basename", None) console_browser = browser in self.TERMINAL_BROWSERS except webbrowser.Error: browser_obj = None console_browser = False if console_browser: self.output(self.TIMEOUT_MESSAGE % self.TIMEOUT) # Wait a little time before attempting to launch browser, # give users the chance to press a key to skip it anyway. rlist, _, _ = select([stdin], [], [], self.TIMEOUT) if rlist: stdin.readline() if browser_obj is not None: webbrowser.open(authorization_url) def wait_for_end_user_authorization(self, credentials): """Wait for the end-user to authorize""" self.output(self.WAITING_FOR_LAUNCHPAD) start_time = time.time() while credentials.access_token is None: time.sleep(access_token_poll_time) try: if self.check_end_user_authorization(credentials): break except EndUserNoAuthorization: pass if time.time() >= start_time + access_token_poll_timeout: raise TokenAuthorizationTimedOut( "Timed out after %d seconds." % access_token_poll_timeout ) class TokenAuthorizationException(Exception): pass class RequestTokenAlreadyAuthorized(TokenAuthorizationException): pass class EndUserAuthorizationFailed(TokenAuthorizationException): """Superclass exception for all failures of end-user authorization""" pass class EndUserDeclinedAuthorization(EndUserAuthorizationFailed): """End-user declined authorization""" pass class EndUserNoAuthorization(EndUserAuthorizationFailed): """End-user did not perform any authorization""" pass class TokenAuthorizationTimedOut(EndUserNoAuthorization): """End-user did not perform any authorization in timeout period""" pass class ClientError(TokenAuthorizationException): pass class ServerError(TokenAuthorizationException): pass class NoLaunchpadAccount(TokenAuthorizationException): pass class TooManyAuthenticationFailures(TokenAuthorizationException): pass