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# Licensed to the Apache Software Foundation (ASF) under one or more # contributor license agreements. See the NOTICE file distributed with # this work for additional information regarding copyright ownership. # The ASF licenses this file to You under the Apache License, Version 2.0 # (the "License"); you may not use this file except in compliance with # the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from typing import Union from typing import Type from typing import Optional import json import os import ssl import socket import copy import binascii import time from libcloud.utils.py3 import ET import libcloud from libcloud.utils.py3 import httplib from libcloud.utils.py3 import urlparse from libcloud.utils.py3 import urlencode from libcloud.utils.misc import lowercase_keys from libcloud.utils.retry import Retry from libcloud.common.exceptions import exception_from_message from libcloud.common.types import LibcloudError, MalformedResponseError from libcloud.http import LibcloudConnection, HttpLibResponseProxy __all__ = [ 'RETRY_FAILED_HTTP_REQUESTS', 'BaseDriver', 'Connection', 'PollingConnection', 'ConnectionKey', 'ConnectionUserAndKey', 'CertificateConnection', 'Response', 'HTTPResponse', 'JsonResponse', 'XmlResponse', 'RawResponse' ] # Module level variable indicates if the failed HTTP requests should be retried RETRY_FAILED_HTTP_REQUESTS = False # Set to True to allow double slashes in the URL path. This way # morph_action_hook() won't strip potentially double slashes in the URLs. # This is to support scenarios such as this one - # https://github.com/apache/libcloud/issues/1529. # We default it to False for backward compatibility reasons. ALLOW_PATH_DOUBLE_SLASHES = False class LazyObject(object): """An object that doesn't get initialized until accessed.""" @classmethod def _proxy(cls, *lazy_init_args, **lazy_init_kwargs): class Proxy(cls, object): _lazy_obj = None def __init__(self): # Must override the lazy_cls __init__ pass def __getattribute__(self, attr): lazy_obj = object.__getattribute__(self, '_get_lazy_obj')() return getattr(lazy_obj, attr) def __setattr__(self, attr, value): lazy_obj = object.__getattribute__(self, '_get_lazy_obj')() setattr(lazy_obj, attr, value) def _get_lazy_obj(self): lazy_obj = object.__getattribute__(self, '_lazy_obj') if lazy_obj is None: lazy_obj = cls(*lazy_init_args, **lazy_init_kwargs) object.__setattr__(self, '_lazy_obj', lazy_obj) return lazy_obj return Proxy() @classmethod def lazy(cls, *lazy_init_args, **lazy_init_kwargs): """Create a lazily instantiated instance of the subclass, cls.""" return cls._proxy(*lazy_init_args, **lazy_init_kwargs) class HTTPResponse(httplib.HTTPResponse): # On python 2.6 some calls can hang because HEAD isn't quite properly # supported. # In particular this happens on S3 when calls are made to get_object to # objects that don't exist. # This applies the behaviour from 2.7, fixing the hangs. def read(self, amt=None): if self.fp is None: return '' if self._method == 'HEAD': self.close() return '' return httplib.HTTPResponse.read(self, amt) class Response(object): """ A base Response class to derive from. """ # Response status code status = httplib.OK # type: int # Response headers headers = {} # type: dict # Raw response body body = None # Parsed response body object = None error = None # Reason returned by the server. connection = None # Parent connection class parse_zero_length_body = False def __init__(self, response, connection): """ :param response: HTTP response object. (optional) :type response: :class:`httplib.HTTPResponse` :param connection: Parent connection object. :type connection: :class:`.Connection` """ self.connection = connection # http.client In Python 3 doesn't automatically lowercase the header # names self.headers = lowercase_keys(dict(response.headers)) self.error = response.reason self.status = response.status_code self.request = response.request self.iter_content = response.iter_content self.body = response.text.strip() \ if response.text is not None and hasattr(response.text, 'strip') \ else '' if not self.success(): raise exception_from_message(code=self.status, message=self.parse_error(), headers=self.headers) self.object = self.parse_body() def parse_body(self): """ Parse response body. Override in a provider's subclass. :return: Parsed body. :rtype: ``str`` """ return self.body if self.body is not None else '' def parse_error(self): """ Parse the error messages. Override in a provider's subclass. :return: Parsed error. :rtype: ``str`` """ return self.body def success(self): """ Determine if our request was successful. The meaning of this can be arbitrary; did we receive OK status? Did the node get created? Were we authenticated? :rtype: ``bool`` :return: ``True`` or ``False`` """ # pylint: disable=E1101 import requests return self.status in [requests.codes.ok, requests.codes.created, httplib.OK, httplib.CREATED, httplib.ACCEPTED] class JsonResponse(Response): """ A Base JSON Response class to derive from. """ def parse_body(self): if len(self.body) == 0 and not self.parse_zero_length_body: return self.body try: body = json.loads(self.body) except Exception: raise MalformedResponseError( 'Failed to parse JSON', body=self.body, driver=self.connection.driver) return body parse_error = parse_body class XmlResponse(Response): """ A Base XML Response class to derive from. """ def parse_body(self): if len(self.body) == 0 and not self.parse_zero_length_body: return self.body try: try: body = ET.XML(self.body) except ValueError: # lxml wants a bytes and tests are basically hard-coded to str body = ET.XML(self.body.encode('utf-8')) except Exception: raise MalformedResponseError('Failed to parse XML', body=self.body, driver=self.connection.driver) return body parse_error = parse_body class RawResponse(Response): def __init__(self, connection, response=None): """ :param connection: Parent connection object. :type connection: :class:`.Connection` """ self._status = None self._response = None self._headers = {} self._error = None self._reason = None self.connection = connection if response is not None: self.headers = lowercase_keys(dict(response.headers)) self.error = response.reason self.status = response.status_code self.request = response.request self.iter_content = response.iter_content def success(self): """ Determine if our request was successful. The meaning of this can be arbitrary; did we receive OK status? Did the node get created? Were we authenticated? :rtype: ``bool`` :return: ``True`` or ``False`` """ # pylint: disable=E1101 import requests return self.status in [requests.codes.ok, requests.codes.created, httplib.OK, httplib.CREATED, httplib.ACCEPTED] @property def response(self): if not self._response: response = self.connection.connection.getresponse() self._response = HttpLibResponseProxy(response) if not self.success(): self.parse_error() return self._response @property def body(self): # Note: We use property to avoid saving whole response body into RAM # See https://github.com/apache/libcloud/pull/1132 for details return self.response.body @property def reason(self): if not self._reason: self._reason = self.response.reason return self._reason class Connection(object): """ A Base Connection class to derive from. """ conn_class = LibcloudConnection responseCls = Response rawResponseCls = RawResponse retryCls = Retry connection = None host = '127.0.0.1' # type: str port = 443 timeout = None # type: Optional[Union[int, float]] secure = 1 driver = None # type: Type[BaseDriver] action = None cache_busting = False backoff = None retry_delay = None allow_insecure = True def __init__(self, secure=True, host=None, port=None, url=None, timeout=None, proxy_url=None, retry_delay=None, backoff=None): self.secure = secure and 1 or 0 self.ua = [] self.context = {} if not self.allow_insecure and not secure: # TODO: We should eventually switch to whitelist instead of # blacklist approach raise ValueError('Non https connections are not allowed (use ' 'secure=True)') self.request_path = '' if host: self.host = host if port is not None: self.port = port else: if self.secure == 1: self.port = 443 else: self.port = 80 if url: (self.host, self.port, self.secure, self.request_path) = self._tuple_from_url(url) self.timeout = timeout or self.timeout self.retry_delay = retry_delay self.backoff = backoff self.proxy_url = proxy_url def set_http_proxy(self, proxy_url): """ Set a HTTP / HTTPS proxy which will be used with this connection. :param proxy_url: Proxy URL (e.g. http://<hostname>:<port> without authentication and <scheme>://<username>:<password>@<hostname>:<port> for basic auth authentication information. :type proxy_url: ``str`` """ self.proxy_url = proxy_url # NOTE: Because of the way connection instantion works, we need to call # self.connection.set_http_proxy() here. Just setting "self.proxy_url" # won't work. self.connection.set_http_proxy(proxy_url=proxy_url) def set_context(self, context): if not isinstance(context, dict): raise TypeError('context needs to be a dictionary') self.context = context def reset_context(self): self.context = {} def _tuple_from_url(self, url): secure = 1 port = None (scheme, netloc, request_path, param, query, fragment) = urlparse.urlparse(url) if scheme not in ['http', 'https']: raise LibcloudError('Invalid scheme: %s in url %s' % (scheme, url)) if scheme == "http": secure = 0 if ":" in netloc: netloc, port = netloc.rsplit(":") port = int(port) if not port: if scheme == "http": port = 80 else: port = 443 host = netloc port = int(port) return (host, port, secure, request_path) def connect(self, host=None, port=None, base_url=None, **kwargs): """ Establish a connection with the API server. :type host: ``str`` :param host: Optional host to override our default :type port: ``int`` :param port: Optional port to override our default :returns: A connection """ # prefer the attribute base_url if its set or sent connection = None secure = self.secure if getattr(self, 'base_url', None) and base_url is None: (host, port, secure, request_path) = \ self._tuple_from_url(getattr(self, 'base_url')) elif base_url is not None: (host, port, secure, request_path) = self._tuple_from_url(base_url) else: host = host or self.host port = port or self.port # Make sure port is an int port = int(port) if not hasattr(kwargs, 'host'): kwargs.update({'host': host}) if not hasattr(kwargs, 'port'): kwargs.update({'port': port}) if not hasattr(kwargs, 'secure'): kwargs.update({'secure': self.secure}) if not hasattr(kwargs, 'key_file') and hasattr(self, 'key_file'): kwargs.update({'key_file': getattr(self, 'key_file')}) if not hasattr(kwargs, 'cert_file') and hasattr(self, 'cert_file'): kwargs.update({'cert_file': getattr(self, 'cert_file')}) if self.timeout: kwargs.update({'timeout': self.timeout}) if self.proxy_url: kwargs.update({'proxy_url': self.proxy_url}) connection = self.conn_class(**kwargs) # You can uncoment this line, if you setup a reverse proxy server # which proxies to your endpoint, and lets you easily capture # connections in cleartext when you setup the proxy to do SSL # for you # connection = self.conn_class("127.0.0.1", 8080) self.connection = connection def _user_agent(self): user_agent_suffix = ' '.join(['(%s)' % x for x in self.ua]) if self.driver: user_agent = 'libcloud/%s (%s) %s' % ( libcloud.__version__, self.driver.name, user_agent_suffix) else: user_agent = 'libcloud/%s %s' % ( libcloud.__version__, user_agent_suffix) return user_agent def user_agent_append(self, token): """ Append a token to a user agent string. Users of the library should call this to uniquely identify their requests to a provider. :type token: ``str`` :param token: Token to add to the user agent. """ self.ua.append(token) def request(self, action, params=None, data=None, headers=None, method='GET', raw=False, stream=False, json=None, retry_failed=None): """ Request a given `action`. Basically a wrapper around the connection object's `request` that does some helpful pre-processing. :type action: ``str`` :param action: A path. This can include arguments. If included, any extra parameters are appended to the existing ones. :type params: ``dict`` :param params: Optional mapping of additional parameters to send. If None, leave as an empty ``dict``. :type data: ``unicode`` :param data: A body of data to send with the request. :type headers: ``dict`` :param headers: Extra headers to add to the request None, leave as an empty ``dict``. :type method: ``str`` :param method: An HTTP method such as "GET" or "POST". :type raw: ``bool`` :param raw: True to perform a "raw" request aka only send the headers and use the rawResponseCls class. This is used with storage API when uploading a file. :type stream: ``bool`` :param stream: True to return an iterator in Response.iter_content and allow streaming of the response data (for downloading large files) :param retry_failed: True if failed requests should be retried. This argument can override module level constant and environment variable value on per-request basis. :return: An :class:`Response` instance. :rtype: :class:`Response` instance """ if params is None: params = {} else: params = copy.copy(params) if headers is None: headers = {} else: headers = copy.copy(headers) retry_enabled = os.environ.get('LIBCLOUD_RETRY_FAILED_HTTP_REQUESTS', False) or RETRY_FAILED_HTTP_REQUESTS # Method level argument has precedence over module level constant and # environment variable if retry_failed is not None: retry_enabled = retry_failed action = self.morph_action_hook(action) self.action = action self.method = method self.data = data # Extend default parameters params = self.add_default_params(params) # Add cache busting parameters (if enabled) if self.cache_busting and method == 'GET': params = self._add_cache_busting_to_params(params=params) # Extend default headers headers = self.add_default_headers(headers) # We always send a user-agent header headers.update({'User-Agent': self._user_agent()}) # Indicate that we support gzip and deflate compression headers.update({'Accept-Encoding': 'gzip,deflate'}) port = int(self.port) if port not in (80, 443): headers.update({'Host': "%s:%d" % (self.host, port)}) else: headers.update({'Host': self.host}) if data: data = self.encode_data(data) params, headers = self.pre_connect_hook(params, headers) if params: if '?' in action: url = '&'.join((action, urlencode(params, doseq=True))) else: url = '?'.join((action, urlencode(params, doseq=True))) else: url = action # IF connection has not yet been established if self.connection is None: self.connect() try: # @TODO: Should we just pass File object as body to request method # instead of dealing with splitting and sending the file ourselves? if raw: self.connection.prepared_request( method=method, url=url, body=data, headers=headers, raw=raw, stream=stream) else: if retry_enabled: retry_request = self.retryCls(retry_delay=self.retry_delay, timeout=self.timeout, backoff=self.backoff) retry_request(self.connection.request)(method=method, url=url, body=data, headers=headers, stream=stream) else: self.connection.request(method=method, url=url, body=data, headers=headers, stream=stream) except socket.gaierror as e: message = str(e) errno = getattr(e, 'errno', None) if errno == -5: # Throw a more-friendly exception on "no address associated # with hostname" error. This error could simply indicate that # "host" Connection class attribute is set to an incorrect # value class_name = self.__class__.__name__ msg = ('%s. Perhaps "host" Connection class attribute ' '(%s.connection) is set to an invalid, non-hostname ' 'value (%s)?' % (message, class_name, self.host)) raise socket.gaierror(msg) self.reset_context() raise e except ssl.SSLError as e: self.reset_context() raise ssl.SSLError(str(e)) if raw: responseCls = self.rawResponseCls kwargs = {'connection': self, 'response': self.connection.getresponse()} else: responseCls = self.responseCls kwargs = {'connection': self, 'response': self.connection.getresponse()} try: response = responseCls(**kwargs) finally: # Always reset the context after the request has completed self.reset_context() return response def morph_action_hook(self, action): """ Here we strip any duplicated leading or traling slashes to prevent typos and other issues where some APIs don't correctly handle double slashes. Keep in mind that in some situations, "/" is a vallid path name so we have a module flag which disables this behavior (https://github.com/apache/libcloud/issues/1529). """ if ALLOW_PATH_DOUBLE_SLASHES: # Special case to support scenarios where double slashes are # valid - e.g. for S3 paths - /bucket//path1/path2.txt return self.request_path + action url = urlparse.urljoin(self.request_path.lstrip('/').rstrip('/') + '/', action.lstrip('/')) if not url.startswith('/'): return '/' + url else: return url def add_default_params(self, params): """ Adds default parameters (such as API key, version, etc.) to the passed `params` Should return a dictionary. """ return params def add_default_headers(self, headers): """ Adds default headers (such as Authorization, X-Foo-Bar) to the passed `headers` Should return a dictionary. """ return headers def pre_connect_hook(self, params, headers): """ A hook which is called before connecting to the remote server. This hook can perform a final manipulation on the params, headers and url parameters. :type params: ``dict`` :param params: Request parameters. :type headers: ``dict`` :param headers: Request headers. """ return params, headers def encode_data(self, data): """ Encode body data. Override in a provider's subclass. """ return data def _add_cache_busting_to_params(self, params): """ Add cache busting parameter to the query parameters of a GET request. Parameters are only added if "cache_busting" class attribute is set to True. Note: This should only be used with *naughty* providers which use excessive caching of responses. """ cache_busting_value = binascii.hexlify(os.urandom(8)).decode('ascii') if isinstance(params, dict): params['cache-busting'] = cache_busting_value else: params.append(('cache-busting', cache_busting_value)) return params class PollingConnection(Connection): """ Connection class which can also work with the async APIs. After initial requests, this class periodically polls for jobs status and waits until the job has finished. If job doesn't finish in timeout seconds, an Exception thrown. """ poll_interval = 0.5 timeout = 200 request_method = 'request' def async_request(self, action, params=None, data=None, headers=None, method='GET', context=None): """ Perform an 'async' request to the specified path. Keep in mind that this function is *blocking* and 'async' in this case means that the hit URL only returns a job ID which is the periodically polled until the job has completed. This function works like this: - Perform a request to the specified path. Response should contain a 'job_id'. - Returned 'job_id' is then used to construct a URL which is used for retrieving job status. Constructed URL is then periodically polled until the response indicates that the job has completed or the timeout of 'self.timeout' seconds has been reached. :type action: ``str`` :param action: A path :type params: ``dict`` :param params: Optional mapping of additional parameters to send. If None, leave as an empty ``dict``. :type data: ``unicode`` :param data: A body of data to send with the request. :type headers: ``dict`` :param headers: Extra headers to add to the request None, leave as an empty ``dict``. :type method: ``str`` :param method: An HTTP method such as "GET" or "POST". :type context: ``dict`` :param context: Context dictionary which is passed to the functions which construct initial and poll URL. :return: An :class:`Response` instance. :rtype: :class:`Response` instance """ request = getattr(self, self.request_method) kwargs = self.get_request_kwargs(action=action, params=params, data=data, headers=headers, method=method, context=context) response = request(**kwargs) kwargs = self.get_poll_request_kwargs(response=response, context=context, request_kwargs=kwargs) end = time.time() + self.timeout completed = False while time.time() < end and not completed: response = request(**kwargs) completed = self.has_completed(response=response) if not completed: time.sleep(self.poll_interval) if not completed: raise LibcloudError('Job did not complete in %s seconds' % (self.timeout)) return response def get_request_kwargs(self, action, params=None, data=None, headers=None, method='GET', context=None): """ Arguments which are passed to the initial request() call inside async_request. """ kwargs = {'action': action, 'params': params, 'data': data, 'headers': headers, 'method': method} return kwargs def get_poll_request_kwargs(self, response, context, request_kwargs): """ Return keyword arguments which are passed to the request() method when polling for the job status. :param response: Response object returned by poll request. :type response: :class:`HTTPResponse` :param request_kwargs: Kwargs previously used to initiate the poll request. :type response: ``dict`` :return ``dict`` Keyword arguments """ raise NotImplementedError('get_poll_request_kwargs not implemented') def has_completed(self, response): """ Return job completion status. :param response: Response object returned by poll request. :type response: :class:`HTTPResponse` :return ``bool`` True if the job has completed, False otherwise. """ raise NotImplementedError('has_completed not implemented') class ConnectionKey(Connection): """ Base connection class which accepts a single ``key`` argument. """ def __init__(self, key, secure=True, host=None, port=None, url=None, timeout=None, proxy_url=None, backoff=None, retry_delay=None): """ Initialize `user_id` and `key`; set `secure` to an ``int`` based on passed value. """ super(ConnectionKey, self).__init__(secure=secure, host=host, port=port, url=url, timeout=timeout, proxy_url=proxy_url, backoff=backoff, retry_delay=retry_delay) self.key = key class CertificateConnection(Connection): """ Base connection class which accepts a single ``cert_file`` argument. """ def __init__(self, cert_file, secure=True, host=None, port=None, url=None, proxy_url=None, timeout=None, backoff=None, retry_delay=None): """ Initialize `cert_file`; set `secure` to an ``int`` based on passed value. """ super(CertificateConnection, self).__init__(secure=secure, host=host, port=port, url=url, timeout=timeout, backoff=backoff, retry_delay=retry_delay, proxy_url=proxy_url) self.cert_file = cert_file class KeyCertificateConnection(CertificateConnection): """ Base connection class which accepts both ``key_file`` and ``cert_file`` argument. """ key_file = None def __init__(self, key_file, cert_file, secure=True, host=None, port=None, url=None, proxy_url=None, timeout=None, backoff=None, retry_delay=None, ca_cert=None): """ Initialize `cert_file`; set `secure` to an ``int`` based on passed value. """ super(KeyCertificateConnection, self).__init__(cert_file, secure=secure, host=host, port=port, url=url, timeout=timeout, backoff=backoff, retry_delay=retry_delay, proxy_url=proxy_url) self.key_file = key_file class ConnectionUserAndKey(ConnectionKey): """ Base connection class which accepts a ``user_id`` and ``key`` argument. """ user_id = None # type: int def __init__(self, user_id, key, secure=True, host=None, port=None, url=None, timeout=None, proxy_url=None, backoff=None, retry_delay=None): super(ConnectionUserAndKey, self).__init__(key, secure=secure, host=host, port=port, url=url, timeout=timeout, backoff=backoff, retry_delay=retry_delay, proxy_url=proxy_url) self.user_id = user_id class BaseDriver(object): """ Base driver class from which other classes can inherit from. """ connectionCls = ConnectionKey # type: Type[Connection] def __init__(self, key, secret=None, secure=True, host=None, port=None, api_version=None, region=None, **kwargs): """ :param key: API key or username to be used (required) :type key: ``str`` :param secret: Secret password to be used (required) :type secret: ``str`` :param secure: Whether to use HTTPS or HTTP. Note: Some providers only support HTTPS, and it is on by default. :type secure: ``bool`` :param host: Override hostname used for connections. :type host: ``str`` :param port: Override port used for connections. :type port: ``int`` :param api_version: Optional API version. Only used by drivers which support multiple API versions. :type api_version: ``str`` :param region: Optional driver region. Only used by drivers which support multiple regions. :type region: ``str`` :rtype: ``None`` """ self.key = key self.secret = secret self.secure = secure self.api_version = api_version self.region = region conn_kwargs = self._ex_connection_class_kwargs() conn_kwargs.update({'timeout': kwargs.pop('timeout', None), 'retry_delay': kwargs.pop('retry_delay', None), 'backoff': kwargs.pop('backoff', None), 'proxy_url': kwargs.pop('proxy_url', None)}) args = [self.key] if self.secret is not None: args.append(self.secret) args.append(secure) host = conn_kwargs.pop('host', None) or host if host is not None: args.append(host) if port is not None: args.append(port) self.connection = self.connectionCls(*args, **conn_kwargs) self.connection.driver = self self.connection.connect() def _ex_connection_class_kwargs(self): """ Return extra connection keyword arguments which are passed to the Connection class constructor. """ return {}