# Copyright 2012 OpenStack LLC. # All Rights Reserved # # Licensed 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. # # vim: tabstop=4 shiftwidth=4 softtabstop=4 import httplib import logging import time import urllib from quantumclient.client import HTTPClient from quantumclient.common import exceptions from quantumclient.common.serializer import Serializer _logger = logging.getLogger(__name__) def exception_handler_v20(status_code, error_content): """ Exception handler for API v2.0 client This routine generates the appropriate Quantum exception according to the contents of the response body :param status_code: HTTP error status code :param error_content: deserialized body of error response """ quantum_errors = { 'NetworkNotFound': exceptions.NetworkNotFoundClient, 'NetworkInUse': exceptions.NetworkInUseClient, 'PortNotFound': exceptions.PortNotFoundClient, 'RequestedStateInvalid': exceptions.StateInvalidClient, 'PortInUse': exceptions.PortInUseClient, 'AlreadyAttached': exceptions.AlreadyAttachedClient, } error_dict = None if isinstance(error_content, dict): error_dict = error_content.get('QuantumError') # Find real error type bad_quantum_error_flag = False if error_dict: # If QuantumError key is found, it will definitely contain # a 'message' and 'type' keys? try: error_type = error_dict['type'] error_message = (error_dict['message'] + "\n" + error_dict['detail']) except Exception: bad_quantum_error_flag = True if not bad_quantum_error_flag: ex = None try: # raise the appropriate error! ex = quantum_errors[error_type](message=error_message) ex.args = ([dict(status_code=status_code, message=error_message)], ) except Exception: pass if ex: raise ex else: raise exceptions.QuantumClientException(message=error_dict) else: message = None if isinstance(error_content, dict): message = error_content.get('message', None) if message: raise exceptions.QuantumClientException(message=message) # If we end up here the exception was not a quantum error msg = "%s-%s" % (status_code, error_content) raise exceptions.QuantumClientException(message=msg) class APIParamsCall(object): """A Decorator to add support for format and tenant overriding and filters """ def __init__(self, function): self.function = function def __get__(self, instance, owner): def with_params(*args, **kwargs): _format = instance.format if 'format' in kwargs: instance.format = kwargs['format'] ret = self.function(instance, *args, **kwargs) instance.forma = _format return ret return with_params class Client(object): """Client for the OpenStack Quantum v2.0 API. :param string username: Username for authentication. (optional) :param string password: Password for authentication. (optional) :param string token: Token for authentication. (optional) :param string tenant_name: Tenant name. (optional) :param string auth_url: Keystone service endpoint for authorization. :param string region_name: Name of a region to select when choosing an endpoint from the service catalog. :param string endpoint_url: A user-supplied endpoint URL for the quantum service. Lazy-authentication is possible for API service calls if endpoint is set at instantiation.(optional) :param integer timeout: Allows customization of the timeout for client http requests. (optional) :param insecure: ssl certificate validation. (optional) Example:: >>> from quantumclient.v2_0 import client >>> quantum = client.Client(username=USER, password=PASS, tenant_name=TENANT_NAME, auth_url=KEYSTONE_URL) >>> nets = quantum.list_nets() ... """ #Metadata for deserializing xml _serialization_metadata = { "application/xml": { "attributes": { "network": ["id", "name"], "port": ["id", "mac_address"], "subnet": ["id", "prefix"]}, "plurals": { "networks": "network", "ports": "port", "subnets": "subnet", }, }, } networks_path = "/networks" network_path = "/networks/%s" ports_path = "/ports" port_path = "/ports/%s" subnets_path = "/subnets" subnet_path = "/subnets/%s" @APIParamsCall def list_ports(self, **_params): """ Fetches a list of all networks for a tenant """ # Pass filters in "params" argument to do_request return self.get(self.ports_path, params=_params) @APIParamsCall def show_port(self, port, **_params): """ Fetches information of a certain network """ return self.get(self.port_path % (port), params=_params) @APIParamsCall def create_port(self, body=None): """ Creates a new port """ return self.post(self.ports_path, body=body) @APIParamsCall def update_port(self, port, body=None): """ Updates a port """ return self.put(self.port_path % (port), body=body) @APIParamsCall def delete_port(self, port): """ Deletes the specified port """ return self.delete(self.port_path % (port)) @APIParamsCall def list_networks(self, **_params): """ Fetches a list of all networks for a tenant """ # Pass filters in "params" argument to do_request return self.get(self.networks_path, params=_params) @APIParamsCall def show_network(self, network, **_params): """ Fetches information of a certain network """ return self.get(self.network_path % (network), params=_params) @APIParamsCall def create_network(self, body=None): """ Creates a new network """ return self.post(self.networks_path, body=body) @APIParamsCall def update_network(self, network, body=None): """ Updates a network """ return self.put(self.network_path % (network), body=body) @APIParamsCall def delete_network(self, network): """ Deletes the specified network """ return self.delete(self.network_path % (network)) @APIParamsCall def list_subnets(self, **_params): """ Fetches a list of all networks for a tenant """ return self.get(self.subnets_path, params=_params) @APIParamsCall def show_subnet(self, subnet, **_params): """ Fetches information of a certain subnet """ return self.get(self.subnet_path % (subnet), params=_params) @APIParamsCall def create_subnet(self, body=None): """ Creates a new subnet """ return self.post(self.subnets_path, body=body) @APIParamsCall def update_subnet(self, subnet, body=None): """ Updates a subnet """ return self.put(self.subnet_path % (subnet), body=body) @APIParamsCall def delete_subnet(self, subnet): """ Deletes the specified subnet """ return self.delete(self.subnet_path % (subnet)) def __init__(self, **kwargs): """ Initialize a new client for the Quantum v2.0 API. """ super(Client, self).__init__() self.httpclient = HTTPClient(**kwargs) self.version = '2.0' self.format = 'json' self.action_prefix = "/v%s" % (self.version) self.retries = 0 self.retry_interval = 1 def _handle_fault_response(self, status_code, response_body): # Create exception with HTTP status code and message error_message = response_body _logger.debug("Error message: %s", error_message) # Add deserialized error message to exception arguments try: des_error_body = Serializer().deserialize(error_message, self.content_type()) except: # If unable to deserialized body it is probably not a # Quantum error des_error_body = {'message': error_message} # Raise the appropriate exception exception_handler_v20(status_code, des_error_body) def do_request(self, method, action, body=None, headers=None, params=None): # Add format and tenant_id action += ".%s" % self.format action = self.action_prefix + action if type(params) is dict: action += '?' + urllib.urlencode(params, doseq=1) if body: body = self.serialize(body) self.httpclient.content_type = self.content_type() resp, replybody = self.httpclient.do_request(action, method, body=body) status_code = self.get_status_code(resp) if status_code in (httplib.OK, httplib.CREATED, httplib.ACCEPTED, httplib.NO_CONTENT): return self.deserialize(replybody, status_code) else: self._handle_fault_response(status_code, replybody) def get_status_code(self, response): """ Returns the integer status code from the response, which can be either a Webob.Response (used in testing) or httplib.Response """ if hasattr(response, 'status_int'): return response.status_int else: return response.status def serialize(self, data): """ Serializes a dictionary with a single key (which can contain any structure) into either xml or json """ if data is None: return None elif type(data) is dict: return Serializer().serialize(data, self.content_type()) else: raise Exception("unable to serialize object of type = '%s'" % type(data)) def deserialize(self, data, status_code): """ Deserializes a an xml or json string into a dictionary """ if status_code == 204: return data return Serializer(self._serialization_metadata).deserialize( data, self.content_type()) def content_type(self, format=None): """ Returns the mime-type for either 'xml' or 'json'. Defaults to the currently set format """ if not format: format = self.format return "application/%s" % (format) def retry_request(self, method, action, body=None, headers=None, params=None): """ Call do_request with the default retry configuration. Only idempotent requests should retry failed connection attempts. :raises: ConnectionFailed if the maximum # of retries is exceeded """ max_attempts = self.retries + 1 for i in xrange(max_attempts): try: return self.do_request(method, action, body=body, headers=headers, params=params) except exceptions.ConnectionFailed: # Exception has already been logged by do_request() if i < self.retries: _logger.debug(_('Retrying connection to quantum service')) time.sleep(self.retry_interval) raise exceptions.ConnectionFailed(reason=_("Maximum attempts reached")) def delete(self, action, body=None, headers=None, params=None): return self.retry_request("DELETE", action, body=body, headers=headers, params=params) def get(self, action, body=None, headers=None, params=None): return self.retry_request("GET", action, body=body, headers=headers, params=params) def post(self, action, body=None, headers=None, params=None): # Do not retry POST requests to avoid the orphan objects problem. return self.do_request("POST", action, body=body, headers=headers, params=params) def put(self, action, body=None, headers=None, params=None): return self.retry_request("PUT", action, body=body, headers=headers, params=params) #if __name__ == '__main__': # # client20 = Client(username='admin', # password='password', # auth_url='http://localhost:5000/v2.0', # tenant_name='admin') # client20 = Client(token='ec796583fcad4aa690b723bc0b25270e', # endpoint_url='http://localhost:9696') # # client20.tenant = 'default' # client20.format = 'json' # nets = client20.list_networks() # print nets