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ansible-later/env_27/lib/python2.7/site-packages/ansible/modules/cloud/azure/azure_rm_loadbalancer.py
Robert Kaussow 04dec26a3a add missing dependencies and fix drone pipeline
2019-04-11 13:00:36 +02:00

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#!/usr/bin/python
# Copyright (c) 2016 Thomas Stringer, <tomstr@microsoft.com>
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import absolute_import, division, print_function
__metaclass__ = type
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'community'}
DOCUMENTATION = '''
---
module: azure_rm_loadbalancer
version_added: "2.4"
short_description: Manage Azure load balancers.
description:
- Create, update and delete Azure load balancers
options:
resource_group:
description:
- Name of a resource group where the load balancer exists or will be created.
required: true
name:
description:
- Name of the load balancer.
required: true
state:
description:
- Assert the state of the load balancer. Use C(present) to create/update a load balancer, or
C(absent) to delete one.
default: present
choices:
- absent
- present
location:
description:
- Valid azure location. Defaults to location of the resource group.
sku:
description:
The load balancer SKU.
choices:
- Basic
- Standard
version_added: 2.6
frontend_ip_configurations:
description: List of frontend IPs to be used
suboptions:
name:
description: Name of the frontend ip configuration.
required: True
public_ip_address:
description: Name of an existing public IP address object in the current resource group to associate with the security group.
private_ip_address:
description: The reference of the Public IP resource.
version_added: 2.6
private_ip_allocation_method:
description: The Private IP allocation method.
choices:
- Static
- Dynamic
version_added: 2.6
subnet:
description:
- The reference of the subnet resource.
- Should be an existing subnet's resource id.
version_added: 2.6
version_added: 2.5
backend_address_pools:
description: List of backend address pools
suboptions:
name:
description: Name of the backend address pool.
required: True
version_added: 2.5
probes:
description: List of probe definitions used to check endpoint health.
suboptions:
name:
description: Name of the probe.
required: True
port:
description: Probe port for communicating the probe. Possible values range from 1 to 65535, inclusive.
required: True
protocol:
description:
- The protocol of the end point to be probed.
- If 'Tcp' is specified, a received ACK is required for the probe to be successful.
- If 'Http' is specified, a 200 OK response from the specified URL is required for the probe to be successful.
choices:
- Tcp
- Http
default: Tcp
interval:
description:
- The interval, in seconds, for how frequently to probe the endpoint for health status.
- Slightly less than half the allocated timeout period, which allows two full probes before taking the instance out of rotation.
- The default value is 15, the minimum value is 5.
default: 15
fail_count:
description:
- The number of probes where if no response, will result in stopping further traffic from being delivered to the endpoint.
- This values allows endpoints to be taken out of rotation faster or slower than the typical times used in Azure.
default: 3
aliases:
- number_of_probes
request_path:
description:
- The URI used for requesting health status from the VM.
- Path is required if a protocol is set to http. Otherwise, it is not allowed.
version_added: 2.5
inbound_nat_pools:
description:
- Defines an external port range for inbound NAT to a single backend port on NICs associated with a load balancer.
- Inbound NAT rules are created automatically for each NIC associated with the Load Balancer using an external port from this range.
- Defining an Inbound NAT pool on your Load Balancer is mutually exclusive with defining inbound Nat rules.
- Inbound NAT pools are referenced from virtual machine scale sets.
- NICs that are associated with individual virtual machines cannot reference an inbound NAT pool.
- They have to reference individual inbound NAT rules.
suboptions:
name:
description: Name of the inbound NAT pool.
required: True
frontend_ip_configuration_name:
description: A reference to frontend IP addresses.
required: True
protocol:
description: IP protocol for the NAT pool
choices:
- Tcp
- Udp
- All
default: Tcp
frontend_port_range_start:
description:
- The first port in the range of external ports that will be used to provide inbound NAT to NICs associated with the load balancer.
- Acceptable values range between 1 and 65534.
required: True
frontend_port_range_end:
description:
- The last port in the range of external ports that will be used to provide inbound NAT to NICs associated with the load balancer.
- Acceptable values range between 1 and 65535.
required: True
backend_port:
description:
- The port used for internal connections on the endpoint.
- Acceptable values are between 1 and 65535.
version_added: 2.5
load_balancing_rules:
description:
- Object collection representing the load balancing rules Gets the provisioning.
suboptions:
name:
description: name of the load balancing rule.
required: True
frontend_ip_configuration:
description: A reference to frontend IP addresses.
required: True
backend_address_pool:
description: A reference to a pool of DIPs. Inbound traffic is randomly load balanced across IPs in the backend IPs.
required: True
probe:
description: The name of the load balancer probe this rule should use for health checks.
required: True
protocol:
description: IP protocol for the load balancing rule.
choices:
- Tcp
- Udp
- All
default: Tcp
load_distribution:
description:
- The session persistence policy for this rule; C(Default) is no persistence.
choices:
- Default
- SourceIP
- SourceIPProtocol
default: Default
frontend_port:
description:
- The port for the external endpoint.
- Frontend port numbers must be unique across all rules within the load balancer.
- Acceptable values are between 0 and 65534.
- Note that value 0 enables "Any Port"
backend_port:
description:
- The port used for internal connections on the endpoint.
- Acceptable values are between 0 and 65535.
- Note that value 0 enables "Any Port"
idle_timeout:
description:
- The timeout for the TCP idle connection.
- The value can be set between 4 and 30 minutes.
- The default value is 4 minutes.
- This element is only used when the protocol is set to TCP.
enable_floating_ip:
description:
- Configures SNAT for the VMs in the backend pool to use the publicIP address specified in the frontend of the load balancing rule.
version_added: 2.5
public_ip_address_name:
description:
- (deprecated) Name of an existing public IP address object to associate with the security group.
- This option has been deprecated, and will be removed in 2.9. Use I(frontend_ip_configurations) instead.
aliases:
- public_ip_address
- public_ip_name
- public_ip
required: false
probe_port:
description:
- (deprecated) The port that the health probe will use.
- This option has been deprecated, and will be removed in 2.9. Use I(probes) instead.
required: false
probe_protocol:
description:
- (deprecated) The protocol to use for the health probe.
- This option has been deprecated, and will be removed in 2.9. Use I(probes) instead.
required: false
choices:
- Tcp
- Http
probe_interval:
description:
- (deprecated) Time (in seconds) between endpoint health probes.
- This option has been deprecated, and will be removed in 2.9. Use I(probes) instead.
default: 15
required: false
probe_fail_count:
description:
- (deprecated) The amount of probe failures for the load balancer to make a health determination.
- This option has been deprecated, and will be removed in 2.9. Use I(probes) instead.
default: 3
required: false
probe_request_path:
description:
- (deprecated) The URL that an HTTP probe will use (only relevant if probe_protocol is set to Http).
- This option has been deprecated, and will be removed in 2.9. Use I(probes) instead.
required: false
protocol:
description:
- (deprecated) The protocol (TCP or UDP) that the load balancer will use.
- This option has been deprecated, and will be removed in 2.9. Use I(load_balancing_rules) instead.
required: false
choices:
- Tcp
- Udp
load_distribution:
description:
- (deprecated) The type of load distribution that the load balancer will employ.
- This option has been deprecated, and will be removed in 2.9. Use I(load_balancing_rules) instead.
required: false
choices:
- Default
- SourceIP
- SourceIPProtocol
frontend_port:
description:
- (deprecated) Frontend port that will be exposed for the load balancer.
- This option has been deprecated, and will be removed in 2.9. Use I(load_balancing_rules) instead.
required: false
backend_port:
description:
- (deprecated) Backend port that will be exposed for the load balancer.
- This option has been deprecated, and will be removed in 2.9. Use I(load_balancing_rules) instead.
required: false
idle_timeout:
description:
- (deprecated) Timeout for TCP idle connection in minutes.
- This option has been deprecated, and will be removed in 2.9. Use I(load_balancing_rules) instead.
default: 4
required: false
natpool_frontend_port_start:
description:
- (deprecated) Start of the port range for a NAT pool.
- This option has been deprecated, and will be removed in 2.9. Use I(inbound_nat_pools) instead.
required: false
natpool_frontend_port_end:
description:
- (deprecated) End of the port range for a NAT pool.
- This option has been deprecated, and will be removed in 2.9. Use I(inbound_nat_pools) instead.
required: false
natpool_backend_port:
description:
- (deprecated) Backend port used by the NAT pool.
- This option has been deprecated, and will be removed in 2.9. Use I(inbound_nat_pools) instead.
required: false
natpool_protocol:
description:
- (deprecated) The protocol for the NAT pool.
- This option has been deprecated, and will be removed in 2.9. Use I(inbound_nat_pools) instead.
required: false
extends_documentation_fragment:
- azure
- azure_tags
author:
- "Thomas Stringer (@tstringer)"
- "Yuwei Zhou (@yuwzho)"
'''
EXAMPLES = '''
- name: create load balancer
azure_rm_loadbalancer:
resource_group: testrg
name: testloadbalancer1
frontend_ip_configurations:
- name: frontendipconf0
public_ip_address: testpip
backend_address_pools:
- name: backendaddrpool0
probes:
- name: prob0
port: 80
inbound_nat_pools:
- name: inboundnatpool0
frontend_ip_configuration_name: frontendipconf0
protocol: Tcp
frontend_port_range_start: 80
frontend_port_range_end: 81
backend_port: 8080
load_balancing_rules:
- name: lbrbalancingrule0
frontend_ip_configuration: frontendipconf0
backend_address_pool: backendaddrpool0
frontend_port: 80
backend_port: 80
probe: prob0
'''
RETURN = '''
state:
description: Current state of the load balancer
returned: always
type: dict
changed:
description: Whether or not the resource has changed
returned: always
type: bool
'''
import random
from ansible.module_utils.azure_rm_common import AzureRMModuleBase, format_resource_id
try:
from msrestazure.tools import parse_resource_id
from msrestazure.azure_exceptions import CloudError
except ImportError:
# This is handled in azure_rm_common
pass
frontend_ip_configuration_spec = dict(
name=dict(
type='str',
required=True
),
public_ip_address=dict(
type='str'
),
private_ip_address=dict(
type='str'
),
private_ip_allocation_method=dict(
type='str'
),
subnet=dict(
type='str'
)
)
backend_address_pool_spec = dict(
name=dict(
type='str',
required=True
)
)
probes_spec = dict(
name=dict(
type='str',
required=True
),
port=dict(
type='int',
required=True
),
protocol=dict(
type='str',
choices=['Tcp', 'Http'],
default='Tcp'
),
interval=dict(
type='int',
default=15
),
fail_count=dict(
type='int',
default=3,
aliases=['number_of_probes']
),
request_path=dict(
type='str'
)
)
inbound_nat_pool_spec = dict(
name=dict(
type='str',
required=True
),
frontend_ip_configuration_name=dict(
type='str',
required=True
),
protocol=dict(
type='str',
choices=['Tcp', 'Udp', 'All'],
default='Tcp'
),
frontend_port_range_start=dict(
type='int',
required=True
),
frontend_port_range_end=dict(
type='int',
required=True
),
backend_port=dict(
type='int',
required=True
)
)
load_balancing_rule_spec = dict(
name=dict(
type='str',
required=True
),
frontend_ip_configuration=dict(
type='str',
required=True
),
backend_address_pool=dict(
type='str',
required=True
),
probe=dict(
type='str',
required=True
),
protocol=dict(
type='str',
choices=['Tcp', 'Udp', 'All'],
default='Tcp'
),
load_distribution=dict(
type='str',
choices=['Default', 'SourceIP', 'SourceIPProtocol'],
default='Default'
),
frontend_port=dict(
type='int',
required=True
),
backend_port=dict(
type='int'
),
idle_timeout=dict(
type='int',
default=4
),
enable_floating_ip=dict(
type='bool'
)
)
class AzureRMLoadBalancer(AzureRMModuleBase):
"""Configuration class for an Azure RM load balancer resource"""
def __init__(self):
self.module_args = dict(
resource_group=dict(
type='str',
required=True
),
name=dict(
type='str',
required=True
),
state=dict(
type='str',
default='present',
choices=['present', 'absent']
),
location=dict(
type='str'
),
sku=dict(
type='str',
choices=['Basic', 'Standard']
),
frontend_ip_configurations=dict(
type='list',
elements='dict',
options=frontend_ip_configuration_spec
),
backend_address_pools=dict(
type='list',
elements='dict',
options=backend_address_pool_spec
),
probes=dict(
type='list',
elements='dict',
options=probes_spec
),
inbound_nat_pools=dict(
type='list',
elements='dict',
options=inbound_nat_pool_spec
),
load_balancing_rules=dict(
type='list',
elements='dict',
options=load_balancing_rule_spec
),
public_ip_address_name=dict(
type='str',
aliases=['public_ip_address', 'public_ip_name', 'public_ip']
),
probe_port=dict(
type='int'
),
probe_protocol=dict(
type='str',
choices=['Tcp', 'Http']
),
probe_interval=dict(
type='int',
default=15
),
probe_fail_count=dict(
type='int',
default=3
),
probe_request_path=dict(
type='str'
),
protocol=dict(
type='str',
choices=['Tcp', 'Udp']
),
load_distribution=dict(
type='str',
choices=['Default', 'SourceIP', 'SourceIPProtocol']
),
frontend_port=dict(
type='int'
),
backend_port=dict(
type='int'
),
idle_timeout=dict(
type='int',
default=4
),
natpool_frontend_port_start=dict(
type='int'
),
natpool_frontend_port_end=dict(
type='int'
),
natpool_backend_port=dict(
type='int'
),
natpool_protocol=dict(
type='str'
)
)
self.resource_group = None
self.name = None
self.location = None
self.sku = None
self.frontend_ip_configurations = None
self.backend_address_pools = None
self.probes = None
self.inbound_nat_pools = None
self.load_balancing_rules = None
self.public_ip_address_name = None
self.state = None
self.probe_port = None
self.probe_protocol = None
self.probe_interval = None
self.probe_fail_count = None
self.probe_request_path = None
self.protocol = None
self.load_distribution = None
self.frontend_port = None
self.backend_port = None
self.idle_timeout = None
self.natpool_frontend_port_start = None
self.natpool_frontend_port_end = None
self.natpool_backend_port = None
self.natpool_protocol = None
self.tags = None
self.results = dict(changed=False, state=dict())
super(AzureRMLoadBalancer, self).__init__(
derived_arg_spec=self.module_args,
supports_check_mode=True
)
def exec_module(self, **kwargs):
"""Main module execution method"""
for key in list(self.module_args.keys()) + ['tags']:
setattr(self, key, kwargs[key])
changed = False
resource_group = self.get_resource_group(self.resource_group)
if not self.location:
self.location = resource_group.location
load_balancer = self.get_load_balancer()
if self.state == 'present':
# compatible parameters
if not self.frontend_ip_configurations and not self.backend_address_pools and not self.probes and not self.inbound_nat_pools:
self.deprecate('Discrete load balancer config settings are deprecated and will be removed.'
' Use frontend_ip_configurations, backend_address_pools, probes, inbound_nat_pools lists instead.', version='2.9')
frontend_ip_name = 'frontendip0'
backend_address_pool_name = 'backendaddrp0'
prob_name = 'prob0'
inbound_nat_pool_name = 'inboundnatp0'
lb_rule_name = 'lbr'
self.frontend_ip_configurations = [dict(
name=frontend_ip_name,
public_ip_address=self.public_ip_address_name
)]
self.backend_address_pools = [dict(
name=backend_address_pool_name
)]
self.probes = [dict(
name=prob_name,
port=self.probe_port,
protocol=self.probe_protocol,
interval=self.probe_interval,
fail_count=self.probe_fail_count,
request_path=self.probe_request_path
)] if self.probe_protocol else None
self.inbound_nat_pools = [dict(
name=inbound_nat_pool_name,
frontend_ip_configuration_name=frontend_ip_name,
protocol=self.natpool_protocol,
frontend_port_range_start=self.natpool_frontend_port_start,
frontend_port_range_end=self.natpool_frontend_port_end,
backend_port=self.natpool_backend_port
)] if self.natpool_protocol else None
self.load_balancing_rules = [dict(
name=lb_rule_name,
frontend_ip_configuration=frontend_ip_name,
backend_address_pool=backend_address_pool_name,
probe=prob_name,
protocol=self.protocol,
load_distribution=self.load_distribution,
frontend_port=self.frontend_port,
backend_port=self.backend_port,
idle_timeout=self.idle_timeout,
enable_floating_ip=False
)] if self.protocol else None
if load_balancer:
# check update, NIE
changed = False
else:
changed = True
elif self.state == 'absent' and load_balancer:
changed = True
self.results['state'] = load_balancer_to_dict(load_balancer)
if 'tags' in self.results['state']:
update_tags, self.results['state']['tags'] = self.update_tags(self.results['state']['tags'])
if update_tags:
changed = True
else:
if self.tags:
changed = True
self.results['changed'] = changed
if self.state == 'present' and changed:
# create or update
frontend_ip_configurations_param = [self.network_models.FrontendIPConfiguration(
name=item.get('name'),
public_ip_address=self.get_public_ip_address_instance(item.get('public_ip_address')) if item.get('public_ip_address') else None,
private_ip_address=item.get('private_ip_address'),
private_ip_allocation_method=item.get('private_ip_allocation_method'),
subnet=self.network_models.Subnet(id=item.get('subnet')) if item.get('subnet') else None
) for item in self.frontend_ip_configurations] if self.frontend_ip_configurations else None
backend_address_pools_param = [self.network_models.BackendAddressPool(
name=item.get('name')
) for item in self.backend_address_pools] if self.backend_address_pools else None
probes_param = [self.network_models.Probe(
name=item.get('name'),
port=item.get('port'),
protocol=item.get('protocol'),
interval_in_seconds=item.get('interval'),
request_path=item.get('request_path'),
number_of_probes=item.get('fail_count')
) for item in self.probes] if self.probes else None
inbound_nat_pools_param = [self.network_models.InboundNatPool(
name=item.get('name'),
frontend_ip_configuration=self.network_models.SubResource(
frontend_ip_configuration_id(
self.subscription_id,
self.resource_group,
self.name,
item.get('frontend_ip_configuration_name'))),
protocol=item.get('protocol'),
frontend_port_range_start=item.get('frontend_port_range_start'),
frontend_port_range_end=item.get('frontend_port_range_end'),
backend_port=item.get('backend_port')
) for item in self.inbound_nat_pools] if self.inbound_nat_pools else None
load_balancing_rules_param = [self.network_models.LoadBalancingRule(
name=item.get('name'),
frontend_ip_configuration=self.network_models.SubResource(
frontend_ip_configuration_id(
self.subscription_id,
self.resource_group,
self.name,
item.get('frontend_ip_configuration')
)
),
backend_address_pool=self.network_models.SubResource(
backend_address_pool_id(
self.subscription_id,
self.resource_group,
self.name,
item.get('backend_address_pool')
)
),
probe=self.network_models.SubResource(
probe_id(
self.subscription_id,
self.resource_group,
self.name,
item.get('probe')
)
),
protocol=item.get('protocol'),
load_distribution=item.get('load_distribution'),
frontend_port=item.get('frontend_port'),
backend_port=item.get('backend_port'),
idle_timeout_in_minutes=item.get('idle_timeout'),
enable_floating_ip=item.get('enable_floating_ip')
) for item in self.load_balancing_rules] if self.load_balancing_rules else None
param = self.network_models.LoadBalancer(
sku=self.network_models.LoadBalancerSku(self.sku) if self.sku else None,
location=self.location,
tags=self.tags,
frontend_ip_configurations=frontend_ip_configurations_param,
backend_address_pools=backend_address_pools_param,
probes=probes_param,
inbound_nat_pools=inbound_nat_pools_param,
load_balancing_rules=load_balancing_rules_param
)
self.results['state'] = self.create_or_update_load_balancer(param)
elif self.state == 'absent' and changed:
self.delete_load_balancer()
self.results['state'] = None
return self.results
def get_public_ip_address_instance(self, id):
"""Get a reference to the public ip address resource"""
self.log('Fetching public ip address {}'.format(id))
resource_id = format_resource_id(id, self.subscription_id, 'Microsoft.Network', 'publicIPAddresses', self.resource_group)
return self.network_models.PublicIPAddress(id=resource_id)
def get_load_balancer(self):
"""Get a load balancer"""
self.log('Fetching loadbalancer {0}'.format(self.name))
try:
return self.network_client.load_balancers.get(self.resource_group, self.name)
except CloudError:
return None
def delete_load_balancer(self):
"""Delete a load balancer"""
self.log('Deleting loadbalancer {0}'.format(self.name))
try:
poller = self.network_client.load_balancers.delete(self.resource_group, self.name)
return self.get_poller_result(poller)
except CloudError as exc:
self.fail("Error deleting loadbalancer {0} - {1}".format(self.name, str(exc)))
def create_or_update_load_balancer(self, param):
try:
poller = self.network_client.load_balancers.create_or_update(self.resource_group, self.name, param)
new_lb = self.get_poller_result(poller)
return load_balancer_to_dict(new_lb)
except CloudError as exc:
self.fail("Error creating or updating load balancer {0} - {1}".format(self.name, str(exc)))
def load_balancer_to_dict(load_balancer):
"""Seralialize a LoadBalancer object to a dict"""
if not load_balancer:
return dict()
result = dict(
id=load_balancer.id,
name=load_balancer.name,
location=load_balancer.location,
sku=load_balancer.sku.name,
tags=load_balancer.tags,
provisioning_state=load_balancer.provisioning_state,
etag=load_balancer.etag,
frontend_ip_configurations=[],
backend_address_pools=[],
load_balancing_rules=[],
probes=[],
inbound_nat_rules=[],
inbound_nat_pools=[],
outbound_nat_rules=[]
)
if load_balancer.frontend_ip_configurations:
result['frontend_ip_configurations'] = [dict(
id=_.id,
name=_.name,
etag=_.etag,
provisioning_state=_.provisioning_state,
private_ip_address=_.private_ip_address,
private_ip_allocation_method=_.private_ip_allocation_method,
subnet=dict(
id=_.subnet.id,
name=_.subnet.name,
address_prefix=_.subnet.address_prefix
) if _.subnet else None,
public_ip_address=dict(
id=_.public_ip_address.id,
location=_.public_ip_address.location,
public_ip_allocation_method=_.public_ip_address.public_ip_allocation_method,
ip_address=_.public_ip_address.ip_address
) if _.public_ip_address else None
) for _ in load_balancer.frontend_ip_configurations]
if load_balancer.backend_address_pools:
result['backend_address_pools'] = [dict(
id=_.id,
name=_.name,
provisioning_state=_.provisioning_state,
etag=_.etag
) for _ in load_balancer.backend_address_pools]
if load_balancer.load_balancing_rules:
result['load_balancing_rules'] = [dict(
id=_.id,
name=_.name,
protocol=_.protocol,
frontend_ip_configuration_id=_.frontend_ip_configuration.id,
backend_address_pool_id=_.backend_address_pool.id,
probe_id=_.probe.id,
load_distribution=_.load_distribution,
frontend_port=_.frontend_port,
backend_port=_.backend_port,
idle_timeout_in_minutes=_.idle_timeout_in_minutes,
enable_floating_ip=_.enable_floating_ip,
provisioning_state=_.provisioning_state,
etag=_.etag
) for _ in load_balancer.load_balancing_rules]
if load_balancer.probes:
result['probes'] = [dict(
id=_.id,
name=_.name,
protocol=_.protocol,
port=_.port,
interval_in_seconds=_.interval_in_seconds,
number_of_probes=_.number_of_probes,
request_path=_.request_path,
provisioning_state=_.provisioning_state
) for _ in load_balancer.probes]
if load_balancer.inbound_nat_rules:
result['inbound_nat_rules'] = [dict(
id=_.id,
name=_.name,
frontend_ip_configuration_id=_.frontend_ip_configuration.id,
protocol=_.protocol,
frontend_port=_.frontend_port,
backend_port=_.backend_port,
idle_timeout_in_minutes=_.idle_timeout_in_minutes,
enable_floating_point_ip=_.enable_floating_point_ip,
provisioning_state=_.provisioning_state,
etag=_.etag
) for _ in load_balancer.inbound_nat_rules]
if load_balancer.inbound_nat_pools:
result['inbound_nat_pools'] = [dict(
id=_.id,
name=_.name,
frontend_ip_configuration_id=_.frontend_ip_configuration.id,
protocol=_.protocol,
frontend_port_range_start=_.frontend_port_range_start,
frontend_port_range_end=_.frontend_port_range_end,
backend_port=_.backend_port,
provisioning_state=_.provisioning_state,
etag=_.etag
) for _ in load_balancer.inbound_nat_pools]
if load_balancer.outbound_nat_rules:
result['outbound_nat_rules'] = [dict(
id=_.id,
name=_.name,
allocated_outbound_ports=_.allocated_outbound_ports,
frontend_ip_configuration_id=_.frontend_ip_configuration.id,
backend_address_pool=_.backend_address_pool.id,
provisioning_state=_.provisioning_state,
etag=_.etag
) for _ in load_balancer.outbound_nat_rules]
return result
def frontend_ip_configuration_id(subscription_id, resource_group_name, load_balancer_name, name):
"""Generate the id for a frontend ip configuration"""
return '/subscriptions/{}/resourceGroups/{}/providers/Microsoft.Network/loadBalancers/{}/frontendIPConfigurations/{}'.format(
subscription_id,
resource_group_name,
load_balancer_name,
name
)
def backend_address_pool_id(subscription_id, resource_group_name, load_balancer_name, name):
"""Generate the id for a backend address pool"""
return '/subscriptions/{}/resourceGroups/{}/providers/Microsoft.Network/loadBalancers/{}/backendAddressPools/{}'.format(
subscription_id,
resource_group_name,
load_balancer_name,
name
)
def probe_id(subscription_id, resource_group_name, load_balancer_name, name):
"""Generate the id for a probe"""
return '/subscriptions/{}/resourceGroups/{}/providers/Microsoft.Network/loadBalancers/{}/probes/{}'.format(
subscription_id,
resource_group_name,
load_balancer_name,
name
)
def main():
"""Main execution"""
AzureRMLoadBalancer()
if __name__ == '__main__':
main()
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