Exemple #1
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    def _create_bootstrap_vm_secgroup(self):
        self.logging.info("Creating bootstrap VM security group")
        secgroup_rules = [
            net_models.SecurityRule(
                protocol="Tcp",
                priority="1000",
                source_port_range="*",
                source_address_prefix="0.0.0.0/0",
                destination_port_range="22",
                destination_address_prefix="0.0.0.0/0",
                destination_address_prefixes=[],
                destination_application_security_groups=[],
                access=net_models.SecurityRuleAccess.allow,
                direction=net_models.SecurityRuleDirection.inbound,
                name="Allow_SSH")
        ]
        secgroup_params = net_models.NetworkSecurityGroup(
            name=self.bootstrap_vm_secgroup_name,
            location=self.azure_location,
            security_rules=secgroup_rules)

        return utils.retry_on_error()(
            self.network_client.network_security_groups.create_or_update)(
                self.cluster_name, self.bootstrap_vm_secgroup_name,
                secgroup_params).result()
Exemple #2
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 def _create_node_secgroup(self):
     secgroup_name = "{}-node-nsg".format(self.cluster_name)
     secgroup_params = net_models.NetworkSecurityGroup(
         name=secgroup_name, location=self.azure_location)
     nsg_client = self.network_client.network_security_groups
     return nsg_client.begin_create_or_update(self.cluster_name,
                                              secgroup_name,
                                              secgroup_params).result()
    def create_network_security_group(self, network_security_group_name,
                                      resource_group_name, region, tags):
        """Create Network Security Group.

        :param str network_security_group_name:
        :param str resource_group_name:
        :param str region:
        :param dict[str, str] tags:
        :return:
        """
        nsg_model = network_models.NetworkSecurityGroup(location=region,
                                                        tags=tags)

        operation_poller = (
            self._network_client.network_security_groups.
            create_or_update(  # noqa: E501
                resource_group_name=resource_group_name,
                network_security_group_name=network_security_group_name,
                parameters=nsg_model,
            ))

        return operation_poller.result()
Exemple #4
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 def _create_control_plane_secgroup(self):
     secgroup_rules = [
         net_models.SecurityRule(
             protocol="Tcp",
             priority="1000",
             source_port_range="*",
             source_address_prefix="0.0.0.0/0",
             destination_port_range="22",
             destination_address_prefix="0.0.0.0/0",
             destination_address_prefixes=[],
             destination_application_security_groups=[],
             access=net_models.SecurityRuleAccess.allow,
             direction=net_models.SecurityRuleDirection.inbound,
             name="Allow_SSH"),
         net_models.SecurityRule(
             protocol="Tcp",
             priority="1001",
             source_port_range="*",
             source_address_prefix="0.0.0.0/0",
             destination_port_range="6443",
             destination_address_prefix="0.0.0.0/0",
             destination_address_prefixes=[],
             destination_application_security_groups=[],
             access=net_models.SecurityRuleAccess.allow,
             direction=net_models.SecurityRuleDirection.inbound,
             name="Allow_K8s_API")
     ]
     secgroup_name = "{}-controlplane-nsg".format(self.cluster_name)
     secgroup_params = net_models.NetworkSecurityGroup(
         name=secgroup_name,
         location=self.azure_location,
         security_rules=secgroup_rules)
     nsg_client = self.network_client.network_security_groups
     return nsg_client.begin_create_or_update(self.cluster_name,
                                              secgroup_name,
                                              secgroup_params).result()
Exemple #5
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def create_vnet(results_queue, creds, subscription, vv):
    settings = Settings()
    hub_1_public = None
    hub_1_private = None

    resource_client = ResourceManagementClient(creds, subscription)
    compute_client = ComputeManagementClient(creds, subscription)
    storage_client = StorageManagementClient(creds, subscription)
    network_client = NetworkManagementClient(creds, subscription)

    # 1 Create Resource Group
    resg = resource_client.resource_groups.create_or_update(
        vv['resource_group_name'], {'location': vv['region']})
    rg = resg.name

    # 2 Create WAN Network Security Group
    rule_ssh_in = network_models.SecurityRule(
        description='allow ssh in',
        protocol='TCP',
        source_port_range='*',
        destination_port_range='22',
        source_address_prefix='*',
        destination_address_prefix='*',  # Or to local CIDR
        access='Allow',
        priority=100,
        direction='Inbound',
        name='ssh-inbound')
    rule_internet_key_exchange_in = network_models.SecurityRule(
        description='allow ike in',
        protocol='UDP',
        source_port_range='*',
        destination_port_range='500',
        source_address_prefix='*',
        destination_address_prefix='*',  # Or to local CIDR
        access='Allow',
        priority=110,
        direction='Inbound',
        name='ike-inbound')
    rule_nat_t_in = network_models.SecurityRule(
        description='allow nat-t in',
        protocol='UDP',
        source_port_range='*',
        destination_port_range='4500',
        source_address_prefix='*',
        destination_address_prefix='*',  # Or to local CIDR
        access='Allow',
        priority=120,
        direction='Inbound',
        name='nat-t-inbound')
    wan_ipsec_nsg_params = network_models.NetworkSecurityGroup(
        location=vv['region'],
        security_rules=[
            rule_ssh_in, rule_internet_key_exchange_in, rule_nat_t_in
        ])
    nsg_creation = network_client.network_security_groups.create_or_update(
        rg, vv['wan_security_group_name'], wan_ipsec_nsg_params)
    wan_ipsec_nsg = network_client.network_security_groups.get(
        vv['resource_group_name'], vv['wan_security_group_name'])

    # Create Private Network Security Group
    all_in = network_models.SecurityRule(description='allow all traffic',
                                         protocol='*',
                                         source_port_range='*',
                                         destination_port_range='*',
                                         source_address_prefix='*',
                                         destination_address_prefix='*',
                                         access='Allow',
                                         priority=100,
                                         direction='Inbound',
                                         name='All')
    open_nsg_params = network_models.NetworkSecurityGroup(
        location=vv['region'], security_rules=[all_in])
    open_nsg_creation = network_client.network_security_groups.create_or_update(
        rg, 'open_nsg', open_nsg_params)
    open_nsg = network_client.network_security_groups.get(
        vv['resource_group_name'], 'open_nsg')

    # 3 Create a VNET
    address_space_model = network_models.AddressSpace(
        address_prefixes=[vv['public_vnet_prefix'], vv['private_vnet_prefix']])
    if vv['type'] == 'silb':
        vnet_model = network_models.VirtualNetwork(
            location=vv['region'],
            tags={
                vv['tvpc_program_key']: vv['cluster'],
                'tvpc_silb_vnet': 'True'
            },
            address_space=address_space_model,
        )
    elif vv['type'] == 'vnet':
        vnet_model = network_models.VirtualNetwork(
            location=vv['region'],
            tags={vv['tvpc_program_key']: vv['cluster']},
            address_space=address_space_model,
        )
    else:
        vnet_model = network_models.VirtualNetwork(
            location=vv['region'],
            address_space=address_space_model,
        )

    result_object_vnet_creation = network_client.virtual_networks.create_or_update(
        resource_group_name=vv['resource_group_name'],
        virtual_network_name=vv['vnet_name'],
        parameters=vnet_model)

    result_object_vnet_creation.wait()

    # 4 Create Routes
    default_route = network_models.Route(address_prefix='0.0.0.0/0',
                                         next_hop_type='Internet',
                                         name='default_route')

    private_subnet_route = network_models.Route(
        address_prefix=vv['private_vnet_prefix'],
        next_hop_type='VnetLocal',
        name='private_subnet_route')

    # 5 Create Route Tables
    wan_route_table_params = network_models.RouteTable(
        location=vv['region'], routes=[default_route, private_subnet_route])
    result_object_route_table_wan_creation = network_client.route_tables.create_or_update(
        vv['resource_group_name'], 'wan_route_table', wan_route_table_params)
    result_object_route_table_wan_creation.wait()
    wan_route_table = result_object_route_table_wan_creation.result()

    private_route_table_params = network_models.RouteTable(
        location=vv['region'], routes=[private_subnet_route])
    result_object_route_table_private_creation = network_client.route_tables.create_or_update(
        vv['resource_group_name'], 'private_route_table',
        private_route_table_params)
    result_object_route_table_private_creation.wait()
    private_route_table = result_object_route_table_private_creation.result()

    # 6 Create Subnets
    result_object_subnet_creation = network_client.subnets.create_or_update(
        resource_group_name=vv['resource_group_name'],
        virtual_network_name=vv['vnet_name'],
        subnet_name='TVPC_WAN_Subnet',
        subnet_parameters=network_models.Subnet(
            address_prefix=vv['public_vnet_prefix'],
            network_security_group=wan_ipsec_nsg,
            route_table=wan_route_table))
    subnet_wan = result_object_subnet_creation.result()

    result_object_subnet_creation = network_client.subnets.create_or_update(
        resource_group_name=vv['resource_group_name'],
        virtual_network_name=vv['vnet_name'],
        subnet_name='TVPC_Private_Subnet',
        subnet_parameters=network_models.Subnet(
            address_prefix=vv['private_vnet_prefix'],
            route_table=private_route_table))
    subnet_private = result_object_subnet_creation.result()

    # 7 Create Storage Account
    storage_result_object_operation = storage_client.storage_accounts.create(
        vv['resource_group_name'], vv['storage_account_name'], {
            'sku': {
                'name': 'standard_lrs'
            },
            'kind': 'storage',
            'location': vv['region']
        })
    storage_result_object_operation.wait()

    # 8 Create an Availability Set
    if vv['type'] == 'silb':
        av_sku_params = compute_models.Sku(name='Aligned')
        availability_set_parameters = compute_models.AvailabilitySet(
            location=vv['region'],
            platform_update_domain_count=5,
            platform_fault_domain_count=2,
            sku=av_sku_params)

        avset = compute_client.availability_sets.create_or_update(
            rg, vv['availability_set_name'], availability_set_parameters)
        avset_return = compute_client.availability_sets.get(
            vv['resource_group_name'], vv['availability_set_name'])

    # 9 Create Load Balancer
    if vv['type'] == 'silb':
        load_balancer_name = 'SILB'
        fip_name = 'FIPdmvpn'
        bap_name = 'BAPdmvpn'
        probe_name = 'SSHhealthcheck'
        silb_rule_name = 'slball'

        def construct_fip_id(subscription_id):
            return ('/subscriptions/{}'
                    '/resourceGroups/{}'
                    '/providers/Microsoft.Network'
                    '/loadBalancers/{}'
                    '/frontendIPConfigurations/{}').format(
                        subscription_id, vv['resource_group_name'],
                        load_balancer_name, fip_name)

        def construct_bap_id(subscription_id):
            return ('/subscriptions/{}'
                    '/resourceGroups/{}'
                    '/providers/Microsoft.Network'
                    '/loadBalancers/{}'
                    '/backendAddressPools/{}').format(
                        subscription_id, vv['resource_group_name'],
                        load_balancer_name, bap_name)

        def construct_probe_id(subscription_id):
            return ('/subscriptions/{}'
                    '/resourceGroups/{}'
                    '/providers/Microsoft.Network'
                    '/loadBalancers/{}'
                    '/probes/{}').format(subscription_id,
                                         vv['resource_group_name'],
                                         load_balancer_name, probe_name)

        subnet_silb = network_client.subnets.get(vv['resource_group_name'],
                                                 vv['vnet_name'],
                                                 'TVPC_Private_Subnet')

        front_ip_config = network_models.FrontendIPConfiguration(
            private_ip_allocation_method='Dynamic',
            subnet={'id': subnet_silb.id},
            name=fip_name,
        )

        back_pool = network_models.BackendAddressPool(name=bap_name)

        fipn = construct_fip_id(subscription_id)
        bapn = construct_bap_id(subscription_id)
        proben = construct_probe_id(subscription_id)
        silb_rules = network_models.LoadBalancingRule(
            frontend_ip_configuration={'id': fipn},
            backend_address_pool={'id': bapn},
            probe={'id': proben},
            protocol='All',
            load_distribution='Default',
            frontend_port=0,
            backend_port=0,
            idle_timeout_in_minutes=4,
            enable_floating_ip=True,
            enable_tcp_reset=False,
            disable_outbound_snat=True,
            name=silb_rule_name)

        silb_probes = network_models.Probe(protocol='Tcp',
                                           port=22,
                                           interval_in_seconds=5,
                                           number_of_probes=2,
                                           name=probe_name)

        silb_sku = network_models.LoadBalancerSku(name='Standard')
        silb_model = network_models.LoadBalancer(
            location=vv['region'],
            frontend_ip_configurations=[front_ip_config],
            backend_address_pools=[back_pool],
            load_balancing_rules=[silb_rules],
            probes=[silb_probes],
            sku=silb_sku,
            tags={vv['tvpc_program_key']: vv['cluster']},
        )

        lb_result_object_creation = network_client.load_balancers.create_or_update(
            resource_group_name=vv['resource_group_name'],
            load_balancer_name=load_balancer_name,
            parameters=silb_model)

        lb_info = lb_result_object_creation.result()
        bap_info = network_client.load_balancer_backend_address_pools.get(
            vv['resource_group_name'], load_balancer_name, bap_name)
    router_counter = 0
    for r in vv['dmvpn_address']:
        vv['router_counter'] = str(router_counter)
        vv['dmvpn_address_router'] = vv['dmvpn_address'][router_counter]
        # 9 Create PublicIP
        address_sku = network_models.PublicIPAddressSku(name='Standard')
        public_ip_address_parameters = network_models.PublicIPAddress(
            location=vv['region'],
            public_ip_allocation_method='Static',
            sku=address_sku)
        pip_name = 'pip_' + str(router_counter)
        result_object_public_ip_creation = network_client.public_ip_addresses.create_or_update(
            vv['resource_group_name'], pip_name, public_ip_address_parameters)
        result_object_public_ip_creation.wait()
        public_ip_info = result_object_public_ip_creation.result()

        # 10 Create NICs
        nic_0_name = 'CSR_' + str(router_counter) + '_nic_0'
        nic_0_config = network_models.IPConfiguration(
            subnet=subnet_wan,
            name=nic_0_name,
            private_ip_allocation_method=network_models.IPAllocationMethod.
            dynamic,
            public_ip_address=public_ip_info)
        nic_0_parameters = network_models.NetworkInterface(
            location=vv['region'],
            network_security_group=wan_ipsec_nsg,
            enable_accelerated_networking=True,
            ip_configurations=[nic_0_config],
            primary=True,
            enable_ip_forwarding=False  # False
        )
        result_object_nic_0_create = network_client.network_interfaces.create_or_update(
            vv['resource_group_name'], nic_0_name, nic_0_parameters)
        result_object_nic_0_create.wait()
        nic_0 = result_object_nic_0_create.result()
        nic_0.primary = True  # This is a bug. The primary key is always None after interface create or update
        if vv['type'] == 'silb':
            nic_1_name = 'CSR_' + str(router_counter) + '_nic_1'
            result_object_nic_1_create = network_client.network_interfaces.create_or_update(
                vv['resource_group_name'], nic_1_name, {
                    'location':
                    vv['region'],
                    'network_security_group':
                    open_nsg,
                    'enable_accelerated_networking':
                    True,
                    'enable_ip_forwarding':
                    True,
                    'primary':
                    False,
                    'ip_configurations': [{
                        'name':
                        'some_config_name',
                        'subnet': {
                            'id': subnet_silb.id
                        },
                        'private_ip_allocation_method':
                        network_models.IPAllocationMethod.dynamic,
                        'load_balancer_backend_address_pools': [{
                            'id':
                            bap_info.id
                        }]
                    }]
                })
            result_object_nic_1_create.wait()
            nic_1 = result_object_nic_1_create.result()
            nic_1.primary = False  # This is a bug. The primary key is always None after interface create or update

        else:
            nic_1_name = 'CSR_' + str(router_counter) + '_nic_1'
            nic_1_config = network_models.IPConfiguration(
                subnet=subnet_private,
                name=nic_1_name,
                private_ip_allocation_method=network_models.IPAllocationMethod.
                dynamic)
            nic_1_parameters = network_models.NetworkInterface(
                location=vv['region'],
                network_security_group=wan_ipsec_nsg,
                enable_accelerated_networking=True,
                ip_configurations=[nic_1_config],
                primary=False,
                enable_ip_forwarding=True)
            result_object_nic_1_create = network_client.network_interfaces.create_or_update(
                vv['resource_group_name'], nic_1_name, nic_1_parameters)
            result_object_nic_1_create.wait()
            nic_1 = result_object_nic_1_create.result()
            nic_1.primary = False  # This is a bug. The primary key is always None after interface create or update

        # 11 Create VM
        computer_name = vv['hostname'] + str(router_counter)
        os_profile = compute_models.OSProfile(computer_name=computer_name,
                                              admin_username=vv['username'],
                                              admin_password=vv['password'])

        hardware_profile = compute_models.HardwareProfile(
            vm_size=vv['instance_type'])

        storage_profile = compute_models.StorageProfile(
            image_reference=compute_models.ImageReference(
                publisher=vv['azure_vm_publisher'],
                offer=vv['azure_vm_offer'],
                sku=vv['azure_vm_sku'],
                version='latest'))
        network_profile = compute_models.NetworkProfile(
            network_interfaces=[nic_0, nic_1])
        image_plan = compute_models.Plan(name=vv['azure_vm_sku'],
                                         publisher=vv['azure_vm_publisher'],
                                         product=vv['azure_vm_offer'])
        if vv['type'] == 'silb':
            vm_profile = compute_models.VirtualMachine(
                location=vv['region'],
                os_profile=os_profile,
                plan=image_plan,
                hardware_profile=hardware_profile,
                storage_profile=storage_profile,
                network_profile=network_profile,
                availability_set={'id': avset_return.id})
        else:
            vm_profile = compute_models.VirtualMachine(
                location=vv['region'],
                os_profile=os_profile,
                plan=image_plan,
                hardware_profile=hardware_profile,
                storage_profile=storage_profile,
                network_profile=network_profile)

        result_object_vm_creation = compute_client.virtual_machines.create_or_update(
            vv['resource_group_name'], computer_name, vm_profile)
        result_object_vm_creation.wait()
        vm_result = result_object_vm_creation.result()

        # Get IP address
        result = network_client.public_ip_addresses.get(
            rg, public_ip_info.name)
        public_ip = result.ip_address
        vv['public_ip'] = public_ip
        # If DMVPN hub, save info
        if vv['type'] == 'hub':
            hub_1_public = public_ip
            hub_1_private = vv['dmvpn_address_router']

        router = Router(vv['public_ip'], vv['username'], vv['password'],
                        vv['region'], vv['instance_type'],
                        settings.instance_types[vv['instance_type']])
        if not router.initial_check_responsive():
            print('router unresponsive')
        if settings.regions[vv['region']]['smart_licensing'] == 'True':
            if not router.register():
                print('router unable to register with smart licensing')

        config = router.render_config_from_template(
            template_name='templates/baseline.j2', variables_dict=vv)

        # want an exception if configuration result is not true
        if not router.configure_router(config):
            print('unable to configure router')
        if vv['type'] == 'hub':
            config = router.render_config_from_template(
                template_name='templates/dmvpn_hub.j2', variables_dict=vv)
            if not router.configure_router(config):
                print('unable to configure router')
        elif vv['type'] == 'spoke':
            config = router.render_config_from_template(
                template_name='templates/dmvpn_spoke.j2', variables_dict=vv)
            if not router.configure_router(config):
                print('unable to configure router')
        elif vv['type'] == 'silb':
            config = router.render_config_from_template(
                template_name='templates/dmvpn_spoke_silb.j2',
                variables_dict=vv)
            if not router.configure_router(config):
                print('unable to configure router')
        elif vv['type'] == 'vnet':
            config = router.render_config_from_template(
                template_name='templates/app_vnet.j2', variables_dict=vv)
            if not router.configure_router(config):
                print('unable to configure router')
        if not router.configure_router(
            ['end', 'event  manager run 10interface']):
            print('unable to configure 10 gigabitethernet interface')
        router_counter += 1

    # Tag SILB VNET with SILB private IP
    if vv['type'] == 'silb':
        lb_info = network_client.load_balancers.get(vv['resource_group_name'],
                                                    load_balancer_name)
        silb_private_ip = lb_info.frontend_ip_configurations[
            0].private_ip_address

        vnet = network_client.virtual_networks.get(vv['resource_group_name'],
                                                   vv['vnet_name'])
        vnet.tags.update({'tvpc_silb_private_address': silb_private_ip})
        network_client.virtual_networks.create_or_update(
            vv['resource_group_name'], vv['vnet_name'], vnet)

    results_queue.put({
        'hub_1_public': hub_1_public,
        'hub_1_private': hub_1_private
    })
Exemple #6
0
def create_network_security_group(network_client, vm_resource):
    # type: (azure.mgmt.network.NetworkManagementClient,
    #        settings.VmResource) ->
    #        msrestazure.azure_operation.AzureOperationPoller
    """Create a network security group
    :param azure.mgmt.network.NetworkManagementClient network_client:
        network client
    :param settings.VmResource vm_resource: VM Resource
    :rtype: msrestazure.azure_operation.AzureOperationPoller
    :return: async op poller
    """
    nsg_name = settings.generate_network_security_group_name(vm_resource)
    # check and fail if nsg exists
    try:
        network_client.network_security_groups.get(
            resource_group_name=vm_resource.resource_group,
            network_security_group_name=nsg_name,
        )
        raise RuntimeError('network security group {} exists'.format(nsg_name))
    except msrestazure.azure_exceptions.CloudError as e:
        if e.status_code == 404:
            pass
        else:
            raise
    # create security rules as found in settings
    priority = 100
    security_rules = []
    for nsi in vm_resource.network_security.inbound:
        i = 0
        ir = vm_resource.network_security.inbound[nsi]
        for sap in ir.source_address_prefix:
            proto = ir.protocol.lower()
            if proto == 'tcp':
                proto = networkmodels.SecurityRuleProtocol.tcp
            elif proto == 'udp':
                proto = networkmodels.SecurityRuleProtocol.udp
            elif proto == '*':
                proto = networkmodels.SecurityRuleProtocol.asterisk
            else:
                raise ValueError('Unknown protocol {} for rule {}'.format(
                    proto, nsi))
            security_rules.append(
                networkmodels.SecurityRule(
                    name=settings.generate_network_security_inbound_rule_name(
                        nsi, i),
                    description=settings.
                    generate_network_security_inbound_rule_description(nsi, i),
                    protocol=proto,
                    source_port_range='*',
                    destination_port_range=str(ir.destination_port_range),
                    source_address_prefix=sap,
                    destination_address_prefix='*',
                    access=networkmodels.SecurityRuleAccess.allow,
                    priority=priority,
                    direction=networkmodels.SecurityRuleDirection.inbound))
            priority += 1
            i += 1
    if len(security_rules) == 0:
        logger.warning('no security rules to apply, not creating a network '
                       'security group')
        return None
    logger.debug('creating network security group: {}'.format(nsg_name))
    return network_client.network_security_groups.create_or_update(
        resource_group_name=vm_resource.resource_group,
        network_security_group_name=nsg_name,
        parameters=networkmodels.NetworkSecurityGroup(
            location=vm_resource.location,
            security_rules=security_rules,
        ),
    )