Cloud Services

1. Congress Works With All Services

Congress will work with any cloud service, as long as Congress can represent the service’s state in table format. A table is a collection of rows, where each row is a collection of columns, and each row-column entry contains a string or a number.

For example, Neutron contains a mapping between IP addresses and the ports they are assigned to; neutron represents this state as the following table.:

====================================== ==========
ID                                     IP
====================================== ==========
"66dafde0-a49c-11e3-be40-425861b86ab6" "10.0.0.1"
"66dafde0-a49c-11e3-be40-425861b86ab6" "10.0.0.2"
"73e31d4c-a49c-11e3-be40-425861b86ab6" "10.0.0.3"
====================================== ==========

2. Drivers

To plug a new service into Congress, you write a small piece of code, called a driver, that queries the new service (usually through API calls) and translates the service state into tables of data. Out of the box Congress includes drivers for a number of common services (see below).

For example, the driver for Neutron invokes the Neutron API calls that list networks, ports, security groups, and routers. The driver translates each of the JSON objects that the API calls return into tables (where in Python a table is a list of tuples). The Neutron driver is implemented here:

congress/datasources/neutronv2_driver.py

Once the driver is available, you install it into Congress, you configure it (such as with an IP address/port/username), and you write policy that references the tables populated by that driver.

2.1 Driver installation

To install a new driver, you must add its location to the Congress configuration file and restart the server. Congress has a single configuration parameter (called drivers) that is a list of all the installed drivers. To install a new driver, simply add to this list and restart.

For example, to install the Neutron driver, you add the following to the list of drivers in the configuration file:

congress.datasources.neutronv2_driver.NeutronV2Driver

If you have Nova and Neutron installed, you configure Congress as:

drivers = congress.datasources.neutronv2_driver.NeutronV2Driver,congress.datasources.nova_driver.NovaDriver

2.2 Driver configuration (DEPRECATED) and writing policy

Once the driver code is in place, you can use it to create a datasource whose data is available to Congress policies. To create a datasource, you use the API and provide a unique name (the name you will use in policy to refer to the service), the name of the datasource driver you want to use, and additional connection details needed by your service (such as an IP and a username/password).

For example, using the Congress CLI, you can create a datasource named ‘neutron_test’ using the ‘neutronv2’ driver:

$ openstack congress datasource create <driver_name> <datasource_name>
   --config username=<username>
   --config password=<password>
   --config tenant_name=<tenant>
   --config auth_url=<url_authentication>

$ openstack congress datasource create neutronv2 neutron_test
  --config username=neutron
  --config password=password
  --config tenant_name=cloudservices
  --config auth_url=http://10.10.10.10:5000/v2.0

And if you had a second instance of Neutron running to manage your production network, you could create a second datasource (named say ‘neutron_prod’) using the neutronv2 driver so that you could write policy over both instances of Neutron.

When you write policy, you would use the name ‘neutron_test:ports’ to reference the ‘ports’ table generated by the ‘neutron_test’ datasource, and you use ‘neutron_test:networks’ to reference the ‘networks’ table generated by the ‘neutron_test’ datasource. Similarly, you use ‘neutron_prod:ports’ and ‘neutron_prod:networks’ to reference the tables populated by the ‘neutron_prod’ datasource. (More details about writing policy can be found in the Policy section.)

The creation and deletion of datasources via the API are deprecated as of liberty. The upcoming distributed architecture replaces API-level datasource management with configuration-level datasource management.

3. Currently Supported Drivers

Congress currently has drivers for each of the following services. Each driver has a differing degree of coverage for the available API calls.

  • OpenStack Ceilometer
  • OpenStack Cinder
  • OpenStack Glance (v2)
  • OpenStack Heat
  • OpenStack Ironic
  • OpenStack Keystone
  • OpenStack Monasca
  • OpenStack Murano
  • OpenStack Neutron (v2)
  • OpenStack Nova
  • OpenStack Swift
  • Cloud Foundry
  • Plexxi
  • vCenter
  • OPNFV Doctor

Using the API or CLI, you can review the list of tables and columns that a driver supports. Roughly, you can think of each table as a collection of objects (like networks or servers), and the columns of that table as the attributes of those objects (like name, status, or ID). The value of each row-column entry is a (Python) string or number. If the attribute as returned by the API call is a complex object, that object is flattened into its own table (or tables).

For example:

$ openstack congress datasource schema show nova
+--------------+------------------------------------------------+
| table        | columns                                        |
+--------------+------------------------------------------------+
| flavors      | {'name': 'id', 'description': 'None'},         |
|              | {'name': 'name', 'description': 'None'},       |
|              | {'name': 'vcpus', 'description': 'None'},      |
|              | {'name': 'ram', 'description': 'None'},        |
|              | {'name': 'disk', 'description': 'None'},       |
|              | {'name': 'ephemeral', 'description': 'None'},  |
|              | {'name': 'rxtx_factor', 'description': 'None'} |
|              |                                                |
| hosts        | {'name': 'host_name', 'description': 'None'},  |
|              | {'name': 'service', 'description': 'None'},    |
|              | {'name': 'zone', 'description': 'None'}        |
|              |                                                |
| floating_IPs | {'name': 'fixed_ip', 'description': 'None'},   |
|              | {'name': 'id', 'description': 'None'},         |
|              | {'name': 'ip', 'description': 'None'},         |
|              | {'name': 'host_id', 'description': 'None'},    |
|              | {'name': 'pool', 'description': 'None'}        |
|              |                                                |
| servers      | {'name': 'id', 'description': 'None'},         |
|              | {'name': 'name', 'description': 'None'},       |
|              | {'name': 'host_id', 'description': 'None'},    |
|              | {'name': 'status', 'description': 'None'},     |
|              | {'name': 'tenant_id', 'description': 'None'},  |
|              | {'name': 'user_id', 'description': 'None'},    |
|              | {'name': 'image_id', 'description': 'None'},   |
|              | {'name': 'flavor_id', 'description': 'None'}   |
|              |                                                |
+--------------+------------------------------------------------+

4. Writing a Datasource Driver

This section is a tutorial for those of you interested in writing your own datasource driver. It can be safely skipped otherwise.

4.1 Implementing a Datasource Driver

All the Datasource drivers extend the code found in:

congress/datasources/datasource_driver.py

Typically, you will create a subclass of DataSourceDriver; each instance of that class will correspond to a different service using that driver.

The following steps detail how to implement a datasource driver.

  1. Create a new Python module and include 1 static method

d6service(name, keys, inbox, datapath, args)

When a service is created, Congress calls d6service on the appropriate driver module to construct an instance of DataSourceDriver tailored for that service.

name, keys, inbox, and datapath are all arguments that should be passed unaltered to the constructor of the DataSourceDriver subclass.

  1. Create a subclass of :code`DataSourceDriver`.

from congress.datasources.datasource_driver import DataSourceDriver

class MyDriver(DataSourceDriver)

  1. Implement the constructor MyDriver.__init__()

def __init__(name, keys, inbox, datapath, args)

You must call the DataSourceDriver’s constructor.

super(NeutronDriver, self).__init__(name, keys, inbox=inbox, datapath=datapath, poll_time=poll_time, creds

  1. Implement the function MyDriver.update_from_datasource()

def update_from_datasource(self)

This function is called to update self.state to reflect the new state of the service. self.state is a dictionary that maps a tablename (as a string) to a set of tuples (to a collection of tables). Each tuple element must be either a number or string. This function implements the polling logic for the service.

5. By convention, it is useful for debugging purposes to include a main that calls update_from_datasource, and prints out the raw API results along with the tables that were generated.

4.2 Converting API results into Tables

Since Congress requires the state of each dataservice to be represented as tables, we must convert the results of each API call (which may be comprised of dictionaries, lists, dictionaries embedded within lists, etc.) into tables.

4.2.1 Convenience translators

Congress provides a translation method to make the translation from API results into tables convenient. The translation method takes a description of the API data structure, and converts objects of that structure into rows of one or more tables (depending on the data structure). For example, this is a partial snippet from the Neutron driver:

networks_translator = {
    'translation-type': 'HDICT',
    'table-name': 'networks',
    'selector-type': 'DICT_SELECTOR',
    'field-translators':
        ({'fieldname': 'id', 'translator': value_trans},
         {'fieldname': 'name', 'translator': value_trans},
         {'fieldname': 'tenant_id', 'translator': value_trans},
         {'fieldname': 'subnets', 'col': 'subnet_group_id',
          'translator': {'translation-type': 'LIST',
                         'table-name': 'networks.subnets',
                         'id-col': 'subnet_group_id',
                         'val-col': 'subnet',
                         'translator': value_trans}})}

This networks_translator describes a python dictionary data structure that contains four keys: id, name, tenant_id, and subnets. The value for the subnets key is a list of subnet_group_ids each of which is a number. For example:

{ “id”: 1234,
“name”: “Network Foo”, “tenant_id”: 5678, “subnets”: [ 100, 101 ] }

Given the networks_translator description, the translator creates two tables. The first table is named “networks” with a column for name, subnets, tenant_id, and id. The second table will be named “networks.subnet” and will contain two columns, one containing the subnet_group_id, and the second containing an ID that associates the row in the network to the rows in the networks.subnets table.

To use the translation methods, the driver defines a translator such as networks_translator and then passes the API response objects to translate_objs() which is defined in congress/datasources/datasource_driver.py See congress/datasources/neutron_driver.py as an example.

4.2.2 Custom data conversion

The convenience translators may be insufficient in some cases, for example, the data source may provide data in an unusual format, the convenience translators may be inefficient, or the fixed translation method may result in an unsuitable table schema. In such cases, a driver may need to implement its own translation. In those cases, we have a few recommendations.

Recommendation 1: Row = object. Typically an API call will return a collection of objects (e.g. networks, virtual machines, disks). Conceptually it is convenient to represent each object with a row in a table. The columns of that row are the attributes of each object. For example, a table of all virtual machines will have columns for memory, disk, flavor, and image.

Table: virtual_machine

ID Memory Disk Flavor Image
66dafde0-a49c-11e3-be40-425861b86ab6 256GB 1TB 1 83e31d4c-a49c-11e3-be40-425861b86ab6
73e31d4c-a49c-11e3-be40-425861b86ab6 10GB 2TB 2 93e31d4c-a49c-11e3-be40-425861b86ab6

Recommendation 2. Avoid wide tables. Wide tables (i.e. tables with many columns) are hard to use for a policy-writer. Breaking such tables up into smaller ones is often a good idea. In the above example, we could create 4 tables with 2 columns instead of 1 table with 5 columns.

Table: virtual_machine.memory

ID Memory
66dafde0-a49c-11e3-be40-425861b86ab6 256GB
73e31d4c-a49c-11e3-be40-425861b86ab6 10GB

Table: virtual_machine.disk

ID Disk
66dafde0-a49c-11e3-be40-425861b86ab6 1TB
73e31d4c-a49c-11e3-be40-425861b86ab6 2TB

Table: virtual_machine.flavor

ID Flavor
66dafde0-a49c-11e3-be40-425861b86ab6 1
73e31d4c-a49c-11e3-be40-425861b86ab6 2

Table: virtual_machine.image

ID Image
66dafde0-a49c-11e3-be40-425861b86ab6 83e31d4c-a49c-11e3-be40-425861b86ab6
73e31d4c-a49c-11e3-be40-425861b86ab6 93e31d4c-a49c-11e3-be40-425861b86ab6

Recommendation 3. Try these design patterns. Below we give a few design patterns. Notice that when an object has an attribute whose value is a structured object itself (e.g. a list of dictionaries), we must recursively flatten that subobject into tables.

  • A List of dictionary converted to tuples

    Original data:

    [{'key1':'value1','key2':'value2'},
     {'key1':'value3','key2':'value4'}
    ]
    

    Tuple:

    [('value1', 'value2'),
     ('value3', 'value4')
    ]
    
  • List of Dictionary with a nested List

    Original data:

    [{'key1':'value1','key2':['v1','v2']},
     {'key1':'value2','key2':['v3','v4']}
    ]
    

    Tuple:

    [('value1', 'uuid1'),
     ('value1', 'uuid2'),
     ('value2', 'uuid3'),
     ('value2', 'uuid4')
    ]
    
    [('uuid1', 'v1'),
     ('uuid2', 'v2'),
     ('uuid3', 'v3'),
     ('uuid4', 'v4')
    ]
    

    Note : uuid* are congress generated uuids

  • List of Dictionary with a nested dictionary

    Original data:

    [{'key1':'value1','key2':{'k1':'v1'}},
     {'key1':'value2','key2':{'k1':'v2'}}
    ]
    

    Tuple:

    [('value1', 'uuid1'),
     ('value2', 'uuid2')
    ]
    
    [('uuid1', 'k1', 'v1'),
     ('uuid2', 'k1', 'v2'),
    ]
    

    Note : uuid* are congress generated uuids

4.3 Writing a Datasource driver test

Once you’ve written a driver, you’ll want to add a unit test for it. To help, this section describes how the unit test for the Glance driver works. Here are the relevant files.

  • Driver code: congress/datasources/glance_v2driver.py
  • Test code: congress/tests/datasources/test_glancev2_driver.py (appearing in full at the end of this section)

The test code has two methods: setUp() and test_update_from_datasource().

4.3.1 Glance setup

We begin our description with the setUp() method of the test.

def setUp(self):

First the test creates a fake (actually a mock) Keystone. Most clients talk to Keystone, so having a fake one seems to be necessary to make the Glance client work properly.

self.keystone_client_p = mock.patch(
    "keystoneclient.v2_0.client.Client")
self.keystone_client_p.start()

Next the test creates a fake Glance client. Glance is an OpenStack service that stores (among other things) operating system Images that you can use to create a new VM. The Glance datasource driver makes a call to <glance-client>.images.list() to retrieve the list of those images, and then turns that list of images into tables. The test creates a fake Glance client so it can control the return value of <glance-client>.images.list().

self.glance_client_p = mock.patch("glanceclient.v2.client.Client")
self.glance_client_p.start()

Next the test instantiates the GlanceV2Driver class, which contains the code for the Glance driver. Passing ‘poll_time’ as 0 is probably unnecessary here, but it tells the driver not to poll automatically. Passing ‘client’ is important because it tells the GlanceV2Driver class to use a mocked version of the Glance client instead of creating its own.

args = helper.datasource_openstack_args()
args['poll_time'] = 0
args['client'] = mock.MagicMock()
self.driver = glancev2_driver.GlanceV2Driver(args=args)

Next the test defines which value it wants <glance-client>.images.list() to return. The test itself will check if the Glance driver code properly translates this return value into tables. So this is the actual input to the test. Either you can write this by hand, or you can run the heat-client and print out the results.

self.mock_images = {'images': [
    {u'checksum': u'9e486c3bf76219a6a37add392e425b36',
     u'container_format': u'bare',
     u'created_at': u'2014-10-01T20:28:08Z’,
     ...

4.3.2 Glance test

test_update_from_datasource() is the actual test, where we have the datasource driver grab the list of Glance images and translate them to tables. The test runs the update_from_datasource() method like normal except it ensures the return value of <glance-client>.images.list() is self.mock_images.

def test_update_from_datasource(self):

The first thing the method does is set the return value of self.driver.glance.images.list() to self.mock_images[‘images’]. Then it calls update_from_datasource() in the usual way, which translates self.mock_images[‘images’] into tables and stores the result into the driver’s self.state dictionary.

with mock.patch.object(self.driver.glance.images, "list") as img_list:
    img_list.return_value = self.mock_images['images']
    self.driver.update_from_datasource()

Next the test defines the tables that update_from_datasource() should construct. Actually, the test defines the expected value of Glance’s self.state when update_from_datasource() finishes. Remember that self.state is a dictionary mapping a table name to the set of tuples that belong to the table. For Glance, there’s just one table: ‘images’, and so the expected self.state is a dictionary with one key ‘images’ and one value: a set of tuples.

expected = {'images': set([
    (u'6934941f-3eef-43f7-9198-9b3c188e4aab',
     u'active',
     u'cirros-0.3.2-x86_64-uec',
     u'ami',
     u'2014-10-01T20:28:06Z',
     u'2014-10-01T20:28:07Z',
     u'ami',
     u'4dfdcf14a20940799d89c7a5e7345978',
     'False',
     0,
     0,
     u'4eada48c2843d2a262c814ddc92ecf2c',
     25165824,
     u'/v2/images/6934941f-3eef-43f7-9198-9b3c188e4aab/file',
     u'15ed89b8-588d-47ad-8ee0-207ed8010569',
     u'c244d5c7-1c83-414c-a90d-af7cea1dd3b5',
     u'/v2/schemas/image',
     u'public'),
     ...

At this point in the test, update_from_datasource() has already been run, so all it does is check that the driver’s self.state has the expected value.

self.assertEqual(self.driver.state, expected)

4.3.3 Glance test code in full

import mock

from congress.datasources import glancev2_driver
from congress.tests import base
from congress.tests import helper


class TestGlanceV2Driver(base.TestCase):

    def setUp(self):
        super(TestGlanceV2Driver, self).setUp()
        self.keystone_client_p = mock.patch(
            "keystoneclient.v2_0.client.Client")
        self.keystone_client_p.start()
        self.glance_client_p = mock.patch("glanceclient.v2.client.Client")
        self.glance_client_p.start()

        args = helper.datasource_openstack_args()
        args['poll_time'] = 0
        args['client'] = mock.MagicMock()
        self.driver = glancev2_driver.GlanceV2Driver(args=args)

        self.mock_images = {'images': [
            {u'checksum': u'9e486c3bf76219a6a37add392e425b36',
             u'container_format': u'bare',
             u'created_at': u'2014-10-01T20:28:08Z',
             u'disk_format': u'qcow2',
             u'file': u'/v2/images/c42736e7-8b09-4906-abd2-d6dc8673c297/file',
             u'id': u'c42736e7-8b09-4906-abd2-d6dc8673c297',
             u'min_disk': 0,
             u'min_ram': 0,
             u'name': u'Fedora-x86_64-20-20140618-sda',
             u'owner': u'4dfdcf14a20940799d89c7a5e7345978',
             u'protected': False,
             u'schema': u'/v2/schemas/image',
             u'size': 209649664,
             u'status': u'active',
             u'tags': ['type=xen2', 'type=xen'],
             u'updated_at': u'2014-10-01T20:28:09Z',
             u'visibility': u'public'},
            {u'checksum': u'4eada48c2843d2a262c814ddc92ecf2c',
             u'container_format': u'ami',
             u'created_at': u'2014-10-01T20:28:06Z',
             u'disk_format': u'ami',
             u'file': u'/v2/images/6934941f-3eef-43f7-9198-9b3c188e4aab/file',
             u'id': u'6934941f-3eef-43f7-9198-9b3c188e4aab',
             u'kernel_id': u'15ed89b8-588d-47ad-8ee0-207ed8010569',
             u'min_disk': 0,
             u'min_ram': 0,
             u'name': u'cirros-0.3.2-x86_64-uec',
             u'owner': u'4dfdcf14a20940799d89c7a5e7345978',
             u'protected': False,
             u'ramdisk_id': u'c244d5c7-1c83-414c-a90d-af7cea1dd3b5',
             u'schema': u'/v2/schemas/image',
             u'size': 25165824,
             u'status': u'active',
             u'tags': [],
             u'updated_at': u'2014-10-01T20:28:07Z',
             u'visibility': u'public'}]}

    def test_update_from_datasource(self):
        with mock.patch.object(self.driver.glance.images, "list") as img_list:
            img_list.return_value = self.mock_images['images']
            self.driver.update_from_datasource()
        expected = {'images': set([
            (u'6934941f-3eef-43f7-9198-9b3c188e4aab',
             u'active',
             u'cirros-0.3.2-x86_64-uec',
             u'ami',
             u'2014-10-01T20:28:06Z',
             u'2014-10-01T20:28:07Z',
             u'ami',
             u'4dfdcf14a20940799d89c7a5e7345978',
             'False',
             0,
             0,
             u'4eada48c2843d2a262c814ddc92ecf2c',
             25165824,
             u'/v2/images/6934941f-3eef-43f7-9198-9b3c188e4aab/file',
             u'15ed89b8-588d-47ad-8ee0-207ed8010569',
             u'c244d5c7-1c83-414c-a90d-af7cea1dd3b5',
             u'/v2/schemas/image',
             u'public'),
            (u'c42736e7-8b09-4906-abd2-d6dc8673c297',
             u'active',
             u'Fedora-x86_64-20-20140618-sda',
             u'bare',
             u'2014-10-01T20:28:08Z',
             u'2014-10-01T20:28:09Z',
             u'qcow2',
             u'4dfdcf14a20940799d89c7a5e7345978',
             'False',
             0,
             0,
             u'9e486c3bf76219a6a37add392e425b36',
             209649664,
             u'/v2/images/c42736e7-8b09-4906-abd2-d6dc8673c297/file',
             'None',
             'None',
             u'/v2/schemas/image',
             u'public')]),
            'tags': set([
                (u'c42736e7-8b09-4906-abd2-d6dc8673c297', 'type=xen'),
                (u'c42736e7-8b09-4906-abd2-d6dc8673c297', 'type=xen2')])}
        self.assertEqual(self.driver.state, expected)