vmware-nsx/quantum/quantum_plugin_base.py
Maru Newby c552626664 Update codebase for HACKING compliance.
* This is a massive patch that aims to clean up the codebase
   and bring it into compliance with HACKING.rst and PEP8 in one
   fell swoop.
 * Cleaned up use of gettext.
 * Updated log usage for consistency.
 * The tests run successfully against all plugins except
   cisco and nicira (due to dependency issues with these plugins).
 * Addresses bug 981208

Change-Id: I4d8c7ab138d8f7bb906d18dc34f88f8bd0581c19
2012-05-01 11:46:24 -07:00

271 lines
10 KiB
Python

# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright 2011 Nicira Networks, Inc.
# 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.
# @author: Somik Behera, Nicira Networks, Inc.
"""
Quantum Plug-in API specification.
QuantumPluginBase provides the definition of minimum set of
methods that needs to be implemented by a Quantum Plug-in.
"""
import inspect
from abc import ABCMeta, abstractmethod
class QuantumPluginBase(object):
__metaclass__ = ABCMeta
@abstractmethod
def get_all_networks(self, tenant_id, **kwargs):
"""
Returns a dictionary containing all
<network_uuid, network_name> for
the specified tenant.
:param tenant_id: unique identifier for the tenant whose networks
are being retrieved by this method
:param **kwargs: options to be passed to the plugin. The following
keywork based-options can be specified:
filter_opts - options for filtering network list
:returns: a list of mapping sequences with the following signature:
[ {'net-id': uuid that uniquely identifies
the particular quantum network,
'net-name': a human-readable name associated
with network referenced by net-id
},
....
{'net-id': uuid that uniquely identifies the
particular quantum network,
'net-name': a human-readable name associated
with network referenced by net-id
}
]
:raises: None
"""
pass
@abstractmethod
def create_network(self, tenant_id, net_name, **kwargs):
"""
Creates a new Virtual Network, and assigns it
a symbolic name.
:returns: a sequence of mappings with the following signature:
{'net-id': uuid that uniquely identifies the
particular quantum network,
'net-name': a human-readable name associated
with network referenced by net-id
}
:raises:
"""
pass
@abstractmethod
def delete_network(self, tenant_id, net_id):
"""
Deletes the network with the specified network identifier
belonging to the specified tenant.
:returns: a sequence of mappings with the following signature:
{'net-id': uuid that uniquely identifies the
particular quantum network
}
:raises: exception.NetworkInUse
:raises: exception.NetworkNotFound
"""
pass
@abstractmethod
def get_network_details(self, tenant_id, net_id):
"""
Retrieves a list of all the remote vifs that
are attached to the network.
:returns: a sequence of mappings with the following signature:
{'net-id': uuid that uniquely identifies the
particular quantum network
'net-name': a human-readable name associated
with network referenced by net-id
'net-ifaces': ['vif1_on_network_uuid',
'vif2_on_network_uuid',...,'vifn_uuid']
}
:raises: exception.NetworkNotFound
"""
pass
@abstractmethod
def update_network(self, tenant_id, net_id, **kwargs):
"""
Updates the attributes of a particular Virtual Network.
:returns: a sequence of mappings representing the new network
attributes, with the following signature:
{'net-id': uuid that uniquely identifies the
particular quantum network
'net-name': the new human-readable name
associated with network referenced by net-id
}
:raises: exception.NetworkNotFound
"""
pass
@abstractmethod
def get_all_ports(self, tenant_id, net_id, **kwargs):
"""
Retrieves all port identifiers belonging to the
specified Virtual Network.
:param tenant_id: unique identifier for the tenant for which this
method is going to retrieve ports
:param net_id: unique identifiers for the network whose ports are
about to be retrieved
:param **kwargs: options to be passed to the plugin. The following
keywork based-options can be specified:
filter_opts - options for filtering network list
:returns: a list of mapping sequences with the following signature:
[ {'port-id': uuid representing a particular port
on the specified quantum network
},
....
{'port-id': uuid representing a particular port
on the specified quantum network
}
]
:raises: exception.NetworkNotFound
"""
pass
@abstractmethod
def create_port(self, tenant_id, net_id, port_state=None, **kwargs):
"""
Creates a port on the specified Virtual Network.
:returns: a mapping sequence with the following signature:
{'port-id': uuid representing the created port
on specified quantum network
}
:raises: exception.NetworkNotFound
:raises: exception.StateInvalid
"""
pass
@abstractmethod
def update_port(self, tenant_id, net_id, port_id, **kwargs):
"""
Updates the attributes of a specific port on the
specified Virtual Network.
:returns: a mapping sequence with the following signature:
{'port-id': uuid representing the
updated port on specified quantum network
'port-state': update port state( UP or DOWN)
}
:raises: exception.StateInvalid
:raises: exception.PortNotFound
"""
pass
@abstractmethod
def delete_port(self, tenant_id, net_id, port_id):
"""
Deletes a port on a specified Virtual Network,
if the port contains a remote interface attachment,
the remote interface is first un-plugged and then the port
is deleted.
:returns: a mapping sequence with the following signature:
{'port-id': uuid representing the deleted port
on specified quantum network
}
:raises: exception.PortInUse
:raises: exception.PortNotFound
:raises: exception.NetworkNotFound
"""
pass
@abstractmethod
def get_port_details(self, tenant_id, net_id, port_id):
"""
This method allows the user to retrieve a remote interface
that is attached to this particular port.
:returns: a mapping sequence with the following signature:
{'port-id': uuid representing the port on
specified quantum network
'net-id': uuid representing the particular
quantum network
'attachment': uuid of the virtual interface
bound to the port, None otherwise
}
:raises: exception.PortNotFound
:raises: exception.NetworkNotFound
"""
pass
@abstractmethod
def plug_interface(self, tenant_id, net_id, port_id, remote_interface_id):
"""
Attaches a remote interface to the specified port on the
specified Virtual Network.
:returns: None
:raises: exception.NetworkNotFound
:raises: exception.PortNotFound
:raises: exception.AlreadyAttached
(? should the network automatically unplug/replug)
"""
pass
@abstractmethod
def unplug_interface(self, tenant_id, net_id, port_id):
"""
Detaches a remote interface from the specified port on the
specified Virtual Network.
:returns: None
:raises: exception.NetworkNotFound
:raises: exception.PortNotFound
"""
pass
@classmethod
def __subclasshook__(cls, klass):
"""
The __subclasshook__ method is a class method
that will be called everytime a class is tested
using issubclass(klass, Plugin).
In that case, it will check that every method
marked with the abstractmethod decorator is
provided by the plugin class.
"""
if cls is QuantumPluginBase:
for method in cls.__abstractmethods__:
method_ok = False
for base in klass.__mro__:
if method in base.__dict__:
fn_obj = base.__dict__[method]
if inspect.isfunction(fn_obj):
abstract_fn_obj = cls.__dict__[method]
arg_count = fn_obj.func_code.co_argcount
expected_arg_count = (
abstract_fn_obj.func_code.co_argcount)
method_ok = arg_count == expected_arg_count
if method_ok:
continue
return NotImplemented
return True
return NotImplemented