Beispiel #1
0
class SoftLayer(object):
    def __init__(self, config, client=None):
        self.config = config
        if client is None:
            client = Client(auth=self.config['auth'],
                            endpoint_url=self.config['endpoint_url'])
        self.client = client
        self.ssh = SshKeyManager(client)
        self.instances = CCIManager(client)

    @classmethod
    def get_config(cls):
        provider_conf = client_conf.get_client_settings()
        if 'SL_SSH_KEY' in os.environ:
            provider_conf['ssh_key'] = os.environ['SL_SSH_KEY']
        if not ('auth' in provider_conf and 'endpoint_url' in provider_conf):
            raise ConfigError("Missing digital ocean api credentials")
        return provider_conf

    def get_ssh_keys(self):
        keys = map(SSHKey, self.ssh.list_keys())
        if 'ssh_key' in self.config:
            keys = [k for k in keys if k.name == self.config['ssh_key']]
        log.debug("Using SoftLayer ssh keys: %s" % ", ".join(k.name
                                                             for k in keys))
        return keys

    def get_instances(self):
        return map(Instance, self.instances.list_instances())

    def get_instance(self, instance_id):
        return Instance(self.instances.get_instance(instance_id))

    def launch_instance(self, params):
        return Instance(self.instances.create_instance(**params))

    def terminate_instance(self, instance_id):
        self.instances.cancel_instance(instance_id)

    def wait_on(self, instance):
        # Wait up to 5 minutes, in 30 sec increments
        result = self._wait_on_instance(instance, 30, 10)
        if not result:
            raise ProviderError("Could not provision instance before timeout")
        return result

    def _wait_on_instance(self, instance, limit, delay=10):
        # Redo cci.wait to give user feedback in verbose mode.
        for count, new_instance in enumerate(itertools.repeat(instance.id)):
            instance = self.get_instance(new_instance)
            if not instance.get('activeTransaction', {}).get('id') and \
               instance.get('provisionDate'):
                return True
            if count >= limit:
                return False
            if count and count % 3 == 0:
                log.debug("Waiting for instance:%s ip:%s waited:%ds" %
                          (instance.name, instance.ip_address, count * delay))
            time.sleep(delay)
Beispiel #2
0
class SoftLayer(object):

    def __init__(self, config, client=None):
        self.config = config
        if client is None:
            client = Client(
                auth=self.config['auth'],
                endpoint_url=self.config['endpoint_url'])
        self.client = client
        self.ssh = SshKeyManager(client)
        self.instances = CCIManager(client)

    @classmethod
    def get_config(cls):
        provider_conf = client_conf.get_client_settings()
        if 'SL_SSH_KEY' in os.environ:
            provider_conf['ssh_key'] = os.environ['SL_SSH_KEY']
        if not ('auth' in provider_conf and 'endpoint_url' in provider_conf):
            raise ConfigError("Missing digital ocean api credentials")
        return provider_conf

    def get_ssh_keys(self):
        keys = map(SSHKey, self.ssh.list_keys())
        if 'ssh_key' in self.config:
            keys = [k for k in keys if k.name == self.config['ssh_key']]
        log.debug(
            "Using SoftLayer ssh keys: %s" % ", ".join(k.name for k in keys))
        return keys

    def get_instances(self):
        return map(Instance, self.instances.list_instances())

    def get_instance(self, instance_id):
        return Instance(self.instances.get_instance(instance_id))

    def launch_instance(self, params):
        return Instance(self.instances.create_instance(**params))

    def terminate_instance(self, instance_id):
        self.instances.cancel_instance(instance_id)

    def wait_on(self, instance):
        # Wait up to 5 minutes, in 30 sec increments
        result = self._wait_on_instance(instance, 30, 10)
        if not result:
            raise ProviderError("Could not provision instance before timeout")
        return result

    def _wait_on_instance(self, instance, limit, delay=10):
        # Redo cci.wait to give user feedback in verbose mode.
        for count, new_instance in enumerate(itertools.repeat(instance.id)):
            instance = self.get_instance(new_instance)
            if not instance.get('activeTransaction', {}).get('id') and \
               instance.get('provisionDate'):
                return True
            if count >= limit:
                return False
            if count and count % 3 == 0:
                log.debug("Waiting for instance:%s ip:%s waited:%ds" % (
                    instance.name, instance.ip_address, count*delay))
            time.sleep(delay)
class CCITests(unittest.TestCase):

    def setUp(self):
        self.client = FixtureClient()
        self.cci = CCIManager(self.client)

    def test_list_instances(self):
        mcall = call(mask=ANY, filter={})
        service = self.client['Account']

        list_expected_ids = [100, 104]
        hourly_expected_ids = [104]
        monthly_expected_ids = [100]

        results = self.cci.list_instances(hourly=True, monthly=True)
        service.getVirtualGuests.assert_has_calls(mcall)
        for result in results:
            self.assertIn(result['id'], list_expected_ids)

        result = self.cci.list_instances(hourly=False, monthly=False)
        service.getVirtualGuests.assert_has_calls(mcall)
        for result in results:
            self.assertIn(result['id'], list_expected_ids)

        results = self.cci.list_instances(hourly=False, monthly=True)
        service.getMonthlyVirtualGuests.assert_has_calls(mcall)
        for result in results:
            self.assertIn(result['id'], monthly_expected_ids)

        results = self.cci.list_instances(hourly=True, monthly=False)
        service.getHourlyVirtualGuests.assert_has_calls(mcall)
        for result in results:
            self.assertIn(result['id'], hourly_expected_ids)

    def test_list_instances_with_filters(self):
        self.cci.list_instances(
            hourly=True,
            monthly=True,
            tags=['tag1', 'tag2'],
            cpus=2,
            memory=1024,
            hostname='hostname',
            domain='example.com',
            local_disk=True,
            datacenter='dal05',
            nic_speed=100,
            public_ip='1.2.3.4',
            private_ip='4.3.2.1',
        )

        service = self.client['Account']
        service.getVirtualGuests.assert_has_calls(call(
            filter={
                'virtualGuests': {
                    'datacenter': {
                        'name': {'operation': '_= dal05'}},
                    'domain': {'operation': '_= example.com'},
                    'tagReferences': {
                        'tag': {'name': {
                            'operation': 'in',
                            'options': [{
                                'name': 'data', 'value': ['tag1', 'tag2']}]}}},
                    'maxCpu': {'operation': 2},
                    'localDiskFlag': {'operation': True},
                    'maxMemory': {'operation': 1024},
                    'hostname': {'operation': '_= hostname'},
                    'networkComponents': {'maxSpeed': {'operation': 100}},
                    'primaryIpAddress': {'operation': '_= 1.2.3.4'},
                    'primaryBackendIpAddress': {'operation': '_= 4.3.2.1'}
                }},
            mask=ANY,
        ))

    def test_resolve_ids_ip(self):
        service = self.client['Account']
        _id = self.cci._get_ids_from_ip('172.16.240.2')
        self.assertEqual(_id, [100, 104])

        _id = self.cci._get_ids_from_ip('nope')
        self.assertEqual(_id, [])

        # Now simulate a private IP test
        service.getVirtualGuests.side_effect = [[], [{'id': 99}]]
        _id = self.cci._get_ids_from_ip('10.0.1.87')
        self.assertEqual(_id, [99])

    def test_resolve_ids_hostname(self):
        _id = self.cci._get_ids_from_hostname('cci-test1')
        self.assertEqual(_id, [100, 104])

    def test_get_instance(self):
        result = self.cci.get_instance(100)
        self.client['Virtual_Guest'].getObject.assert_called_once_with(
            id=100, mask=ANY)
        self.assertEqual(Virtual_Guest.getObject, result)

    def test_get_create_options(self):
        results = self.cci.get_create_options()
        self.assertEqual(Virtual_Guest.getCreateObjectOptions, results)

    def test_cancel_instance(self):
        self.cci.cancel_instance(1)
        self.client['Virtual_Guest'].deleteObject.assert_called_once_with(id=1)

    def test_reload_instance(self):
        post_uri = 'http://test.sftlyr.ws/test.sh'
        self.cci.reload_instance(1, post_uri=post_uri, ssh_keys=[1701])
        service = self.client['Virtual_Guest']
        f = service.reloadOperatingSystem
        f.assert_called_once_with('FORCE',
                                  {'customProvisionScriptUri': post_uri,
                                   'sshKeyIds': [1701]}, id=1)

    @patch('SoftLayer.managers.cci.CCIManager._generate_create_dict')
    def test_create_verify(self, create_dict):
        create_dict.return_value = {'test': 1, 'verify': 1}
        self.cci.verify_create_instance(test=1, verify=1)
        create_dict.assert_called_once_with(test=1, verify=1)
        f = self.client['Virtual_Guest'].generateOrderTemplate
        f.assert_called_once_with({'test': 1, 'verify': 1})

    @patch('SoftLayer.managers.cci.CCIManager._generate_create_dict')
    def test_create_instance(self, create_dict):
        create_dict.return_value = {'test': 1, 'verify': 1}
        self.cci.create_instance(test=1, verify=1)
        create_dict.assert_called_once_with(test=1, verify=1)
        self.client['Virtual_Guest'].createObject.assert_called_once_with(
            {'test': 1, 'verify': 1})

    def test_generate_os_and_image(self):
        self.assertRaises(
            ValueError,
            self.cci._generate_create_dict,
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code=1,
            image_id=1,
        )

    def test_generate_missing(self):
        self.assertRaises(ValueError, self.cci._generate_create_dict)
        self.assertRaises(ValueError, self.cci._generate_create_dict, cpus=1)

    def test_generate_basic(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
        )

        assert_data = {
            'startCpus': 1,
            'maxMemory': 1,
            'hostname': 'test',
            'domain': 'example.com',
            'localDiskFlag': True,
            'operatingSystemReferenceCode': "STRING",
            'hourlyBillingFlag': True,
        }

        self.assertEqual(data, assert_data)

    def test_generate_monthly(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
            hourly=False,
        )

        assert_data = {
            'hourlyBillingFlag': False,
            'startCpus': 1,
            'maxMemory': 1,
            'hostname': 'test',
            'domain': 'example.com',
            'localDiskFlag': True,
            'operatingSystemReferenceCode': "STRING",
        }

        self.assertEqual(data, assert_data)

    def test_generate_image_id(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            image_id="45",
        )

        assert_data = {
            'startCpus': 1,
            'maxMemory': 1,
            'hostname': 'test',
            'domain': 'example.com',
            'localDiskFlag': True,
            'blockDeviceTemplateGroup': {"globalIdentifier": "45"},
            'hourlyBillingFlag': True,
        }

        self.assertEqual(data, assert_data)

    def test_generate_dedicated(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
            dedicated=True,
        )

        assert_data = {
            'startCpus': 1,
            'maxMemory': 1,
            'hostname': 'test',
            'domain': 'example.com',
            'localDiskFlag': True,
            'operatingSystemReferenceCode': "STRING",
            'hourlyBillingFlag': True,
            'dedicatedAccountHostOnlyFlag': True,
        }

        self.assertEqual(data, assert_data)

    def test_generate_datacenter(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
            datacenter="sng01",
        )

        assert_data = {
            'startCpus': 1,
            'maxMemory': 1,
            'hostname': 'test',
            'domain': 'example.com',
            'localDiskFlag': True,
            'operatingSystemReferenceCode': "STRING",
            'hourlyBillingFlag': True,
            'datacenter': {"name": 'sng01'},
        }

        self.assertEqual(data, assert_data)

    def test_generate_public_vlan(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
            public_vlan=1,
        )

        assert_data = {
            'startCpus': 1,
            'maxMemory': 1,
            'hostname': 'test',
            'domain': 'example.com',
            'localDiskFlag': True,
            'operatingSystemReferenceCode': "STRING",
            'hourlyBillingFlag': True,
            'primaryNetworkComponent': {"networkVlan": {"id": 1}},
        }

        self.assertEqual(data, assert_data)

    def test_generate_private_vlan(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
            private_vlan=1,
        )

        assert_data = {
            'startCpus': 1,
            'maxMemory': 1,
            'hostname': 'test',
            'domain': 'example.com',
            'localDiskFlag': True,
            'operatingSystemReferenceCode': "STRING",
            'hourlyBillingFlag': True,
            'primaryBackendNetworkComponent': {"networkVlan": {"id": 1}},
        }

        self.assertEqual(data, assert_data)

    def test_generate_userdata(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
            userdata="ICANHAZCCI",
        )

        assert_data = {
            'startCpus': 1,
            'maxMemory': 1,
            'hostname': 'test',
            'domain': 'example.com',
            'localDiskFlag': True,
            'operatingSystemReferenceCode': "STRING",
            'hourlyBillingFlag': True,
            'userData': [{'value': "ICANHAZCCI"}],
        }

        self.assertEqual(data, assert_data)

    def test_generate_network(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
            nic_speed=9001,
        )

        assert_data = {
            'startCpus': 1,
            'maxMemory': 1,
            'hostname': 'test',
            'domain': 'example.com',
            'localDiskFlag': True,
            'operatingSystemReferenceCode': "STRING",
            'hourlyBillingFlag': True,
            'networkComponents': [{'maxSpeed': 9001}],
        }

        self.assertEqual(data, assert_data)

    def test_generate_private_network_only(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
            nic_speed=9001,
            private=True
        )

        assert_data = {
            'startCpus': 1,
            'maxMemory': 1,
            'hostname': 'test',
            'domain': 'example.com',
            'localDiskFlag': True,
            'operatingSystemReferenceCode': "STRING",
            'privateNetworkOnlyFlag': True,
            'hourlyBillingFlag': True,
            'networkComponents': [{'maxSpeed': 9001}],
        }

        self.assertEqual(data, assert_data)

    def test_generate_post_uri(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
            post_uri='https://example.com/boostrap.sh',
        )

        assert_data = {
            'startCpus': 1,
            'maxMemory': 1,
            'hostname': 'test',
            'domain': 'example.com',
            'localDiskFlag': True,
            'operatingSystemReferenceCode': "STRING",
            'hourlyBillingFlag': True,
            'postInstallScriptUri': 'https://example.com/boostrap.sh',
        }

        self.assertEqual(data, assert_data)

    def test_generate_sshkey(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
            ssh_keys=[543],
        )

        assert_data = {
            'startCpus': 1,
            'maxMemory': 1,
            'hostname': 'test',
            'domain': 'example.com',
            'localDiskFlag': True,
            'operatingSystemReferenceCode': "STRING",
            'hourlyBillingFlag': True,
            'sshKeys': [{'id': 543}],
        }

        self.assertEqual(data, assert_data)

    def test_generate_no_disks(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING"
        )

        self.assertEqual(data.get('blockDevices'), None)

    def test_generate_single_disk(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
            disks=[50]
        )

        assert_data = {
            'blockDevices': [
                {"device": "0", "diskImage": {"capacity": 50}}]
        }

        self.assertTrue(data.get('blockDevices'))
        self.assertEqual(data['blockDevices'], assert_data['blockDevices'])

    def test_generate_multi_disk(self):
        data = self.cci._generate_create_dict(
            cpus=1,
            memory=1,
            hostname='test',
            domain='example.com',
            os_code="STRING",
            disks=[50, 70, 100]
        )

        assert_data = {
            'blockDevices': [
                {"device": "0", "diskImage": {"capacity": 50}},
                {"device": "2", "diskImage": {"capacity": 70}},
                {"device": "3", "diskImage": {"capacity": 100}}]
        }

        self.assertTrue(data.get('blockDevices'))
        self.assertEqual(data['blockDevices'], assert_data['blockDevices'])

    def test_change_port_speed_public(self):
        cci_id = 1
        speed = 100
        self.cci.change_port_speed(cci_id, True, speed)

        service = self.client['Virtual_Guest']
        f = service.setPublicNetworkInterfaceSpeed
        f.assert_called_once_with(speed, id=cci_id)

    def test_change_port_speed_private(self):
        cci_id = 2
        speed = 10
        self.cci.change_port_speed(cci_id, False, speed)

        service = self.client['Virtual_Guest']
        f = service.setPrivateNetworkInterfaceSpeed
        f.assert_called_once_with(speed, id=cci_id)

    def test_edit(self):
        # Test editing user data
        service = self.client['Virtual_Guest']

        self.cci.edit(100, userdata='my data')

        service.setUserMetadata.assert_called_once_with(['my data'], id=100)

        # Now test a blank edit
        self.assertTrue(self.cci.edit, 100)

        # Finally, test a full edit
        args = {
            'hostname': 'new-host',
            'domain': 'new.sftlyr.ws',
            'notes': 'random notes',
        }

        self.cci.edit(100, **args)
        service.editObject.assert_called_once_with(args, id=100)
    def execute(self, args):
        update_with_template_args(args)
        cci = CCIManager(self.client)
        self._update_with_like_args(args)

        # Disks will be a comma-separated list. Let's make it a real list.
        if isinstance(args.get('--disk'), str):
            args['--disk'] = args.get('--disk').split(',')

        # SSH keys may be a comma-separated list. Let's make it a real list.
        if isinstance(args.get('--key'), str):
            args['--key'] = args.get('--key').split(',')

        self._validate_args(args)

        # Do not create CCI with --test or --export
        do_create = not (args['--export'] or args['--test'])

        table = Table(['Item', 'cost'])
        table.align['Item'] = 'r'
        table.align['cost'] = 'r'
        data = self._parse_create_args(args)

        output = []
        if args.get('--test'):
            result = cci.verify_create_instance(**data)
            total_monthly = 0.0
            total_hourly = 0.0

            table = Table(['Item', 'cost'])
            table.align['Item'] = 'r'
            table.align['cost'] = 'r'

            for price in result['prices']:
                total_monthly += float(price.get('recurringFee', 0.0))
                total_hourly += float(price.get('hourlyRecurringFee', 0.0))
                if args.get('--hourly'):
                    rate = "%.2f" % float(price['hourlyRecurringFee'])
                else:
                    rate = "%.2f" % float(price['recurringFee'])

                table.add_row([price['item']['description'], rate])

            if args.get('--hourly'):
                total = total_hourly
            else:
                total = total_monthly

            billing_rate = 'monthly'
            if args.get('--hourly'):
                billing_rate = 'hourly'
            table.add_row(['Total %s cost' % billing_rate, "%.2f" % total])
            output.append(table)
            output.append(FormattedItem(
                None,
                ' -- ! Prices reflected here are retail and do not '
                'take account level discounts and are not guaranteed.')
            )

        if args['--export']:
            export_file = args.pop('--export')
            export_to_template(export_file, args, exclude=['--wait', '--test'])
            return 'Successfully exported options to a template file.'

        if do_create:
            if args['--really'] or confirm(
                    "This action will incur charges on your account. "
                    "Continue?"):
                result = cci.create_instance(**data)

                table = KeyValueTable(['name', 'value'])
                table.align['name'] = 'r'
                table.align['value'] = 'l'
                table.add_row(['id', result['id']])
                table.add_row(['created', result['createDate']])
                table.add_row(['guid', result['globalIdentifier']])
                output.append(table)

                if args.get('--wait'):
                    ready = cci.wait_for_ready(
                        result['id'], int(args.get('--wait') or 1))
                    table.add_row(['ready', ready])
            else:
                raise CLIAbort('Aborting CCI order.')

        return output
Beispiel #5
0
    def on_post(self, req, resp, tenant_id):
        client = req.env['sl_client']
        body = json.loads(req.stream.read().decode())
        flavor_id = int(body['server'].get('flavorRef'))
        if flavor_id not in FLAVORS:
            return bad_request(resp, 'Flavor could not be found')

        flavor = FLAVORS[flavor_id]

        ssh_keys = []
        key_name = body['server'].get('key_name')
        if key_name:
            sshkey_mgr = SshKeyManager(client)
            keys = sshkey_mgr.list_keys(label=key_name)
            if len(keys) == 0:
                return bad_request(resp, 'KeyPair could not be found')
            ssh_keys.append(keys[0]['id'])

        private_network_only = False
        networks = lookup(body, 'server', 'networks')
        if networks:
            # Make sure they're valid networks
            if not all([network['uuid'] in ['public', 'private']
                        in network for network in networks]):
                return bad_request(resp, message='Invalid network')

            # Find out if it's private only
            if not any([network['uuid'] == 'public'
                        in network for network in networks]):
                private_network_only = True

        user_data = {}
        if lookup(body, 'server', 'metadata'):
            user_data['metadata'] = lookup(body, 'server', 'metadata')
        if lookup(body, 'server', 'user_data'):
            user_data['user_data'] = lookup(body, 'server', 'user_data')
        if lookup(body, 'server', 'personality'):
            user_data['personality'] = lookup(body, 'server', 'personality')

        datacenter = None
        if lookup(body, 'server', 'availability_zone'):
            datacenter = lookup(body, 'server', 'availability_zone')

        cci = CCIManager(client)

        payload = {
            'hostname': body['server']['name'],
            'domain': CONF['default_domain'] or 'jumpgate.com',
            'cpus': flavor['cpus'],
            'memory': flavor['ram'],
            'local_disk': False if flavor['disk-type'] == 'SAN' else True,
            'hourly': True,  # TODO - How do we set this accurately?
            'datacenter': datacenter,
            'image_id': body['server']['imageRef'],
            'ssh_keys': ssh_keys,
            'private': private_network_only,
            'userdata': json.dumps(user_data),
        }

        try:
            new_instance = cci.create_instance(**payload)
        except ValueError as e:
            return bad_request(resp, message=str(e))

        resp.set_header('x-compute-request-id', 'create')
        resp.status = 202
        resp.body = {'server': {
            'id': new_instance['id'],
            'links': [{
                'href': self.app.get_endpoint_url(
                    'compute', req, 'v2_server',
                    instance_id=new_instance['id']),
                'rel': 'self'}],
            'adminPass': '',
        }}
Beispiel #6
0
    def on_post(self, req, resp, tenant_id):
        client = req.env['sl_client']
        body = json.loads(req.stream.read().decode())
        flavor_id = int(body['server'].get('flavorRef'))
        if flavor_id not in FLAVORS:
            return bad_request(resp, 'Flavor could not be found')

        flavor = FLAVORS[flavor_id]

        ssh_keys = []
        key_name = body['server'].get('key_name')
        if key_name:
            sshkey_mgr = SshKeyManager(client)
            keys = sshkey_mgr.list_keys(label=key_name)
            if len(keys) == 0:
                return bad_request(resp, 'KeyPair could not be found')
            ssh_keys.append(keys[0]['id'])

        private_network_only = False
        networks = lookup(body, 'server', 'networks')
        if networks:
            # Make sure they're valid networks
            if not all([
                    network['uuid'] in ['public', 'private'] in network
                    for network in networks
            ]):
                return bad_request(resp, message='Invalid network')

            # Find out if it's private only
            if not any([
                    network['uuid'] == 'public' in network
                    for network in networks
            ]):
                private_network_only = True

        user_data = {}
        if lookup(body, 'server', 'metadata'):
            user_data['metadata'] = lookup(body, 'server', 'metadata')
        if lookup(body, 'server', 'user_data'):
            user_data['user_data'] = lookup(body, 'server', 'user_data')
        if lookup(body, 'server', 'personality'):
            user_data['personality'] = lookup(body, 'server', 'personality')

        datacenter = None
        if lookup(body, 'server', 'availability_zone'):
            datacenter = lookup(body, 'server', 'availability_zone')

        cci = CCIManager(client)

        payload = {
            'hostname': body['server']['name'],
            'domain': 'jumpgate.com',  # TODO - Don't hardcode this
            'cpus': flavor['cpus'],
            'memory': flavor['ram'],
            'hourly': True,  # TODO - How do we set this accurately?
            'datacenter': datacenter,
            'image_id': body['server']['imageRef'],
            'ssh_keys': ssh_keys,
            'private': private_network_only,
            'userdata': json.dumps(user_data),
        }

        try:
            new_instance = cci.create_instance(**payload)
        except ValueError as e:
            return bad_request(resp, message=str(e))

        resp.set_header('x-compute-request-id', 'create')
        resp.status = 202
        resp.body = {
            'server': {
                'id':
                new_instance['id'],
                'links': [{
                    'href':
                    self.app.get_endpoint_url('compute',
                                              req,
                                              'v2_server',
                                              instance_id=new_instance['id']),
                    'rel':
                    'self'
                }],
                'adminPass':
                '',
            }
        }
Beispiel #7
0
    def on_post(self, req, resp, tenant_id):
        client = req.env["sl_client"]
        body = json.loads(req.stream.read().decode())
        flavor_id = int(body["server"].get("flavorRef"))
        if flavor_id not in FLAVORS:
            return bad_request(resp, "Flavor could not be found")

        flavor = FLAVORS[flavor_id]

        ssh_keys = []
        key_name = body["server"].get("key_name")
        if key_name:
            sshkey_mgr = SshKeyManager(client)
            keys = sshkey_mgr.list_keys(label=key_name)
            if len(keys) == 0:
                return bad_request(resp, "KeyPair could not be found")
            ssh_keys.append(keys[0]["id"])

        private_network_only = False
        networks = lookup(body, "server", "networks")
        if networks:
            # Make sure they're valid networks
            if not all([network["uuid"] in ["public", "private"] in network for network in networks]):
                return bad_request(resp, message="Invalid network")

            # Find out if it's private only
            if not any([network["uuid"] == "public" in network for network in networks]):
                private_network_only = True

        user_data = {}
        if lookup(body, "server", "metadata"):
            user_data["metadata"] = lookup(body, "server", "metadata")
        if lookup(body, "server", "user_data"):
            user_data["user_data"] = lookup(body, "server", "user_data")
        if lookup(body, "server", "personality"):
            user_data["personality"] = lookup(body, "server", "personality")

        datacenter = None
        if lookup(body, "server", "availability_zone"):
            datacenter = lookup(body, "server", "availability_zone")

        cci = CCIManager(client)

        payload = {
            "hostname": body["server"]["name"],
            "domain": CONF["default_domain"] or "jumpgate.com",
            "cpus": flavor["cpus"],
            "memory": flavor["ram"],
            "local_disk": False if flavor["disk-type"] == "SAN" else True,
            "hourly": True,  # TODO - How do we set this accurately?
            "datacenter": datacenter,
            "image_id": body["server"]["imageRef"],
            "ssh_keys": ssh_keys,
            "private": private_network_only,
            "userdata": json.dumps(user_data),
        }

        try:
            new_instance = cci.create_instance(**payload)
        except ValueError as e:
            return bad_request(resp, message=str(e))

        resp.set_header("x-compute-request-id", "create")
        resp.status = 202
        resp.body = {
            "server": {
                "id": new_instance["id"],
                "links": [
                    {
                        "href": self.app.get_endpoint_url("compute", req, "v2_server", instance_id=new_instance["id"]),
                        "rel": "self",
                    }
                ],
                "adminPass": "",
            }
        }