#!/usr/bin/python
# -*- coding: utf-8 -*-
#
# Copyright (C) 2017 Google
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
# ----------------------------------------------------------------------------
#
# *** AUTO GENERATED CODE *** Type: MMv1 ***
#
# ----------------------------------------------------------------------------
#
# This file is automatically generated by Magic Modules and manual
# changes will be clobbered when the file is regenerated.
#
# Please read more about how to change this file at
# https://www.github.com/GoogleCloudPlatform/magic-modules
#
# ----------------------------------------------------------------------------
from __future__ import absolute_import, division, print_function
__metaclass__ = type
################################################################################
# Documentation
################################################################################
ANSIBLE_METADATA = {'metadata_version': '1.1', 'status': ["preview"], 'supported_by': 'community'}
DOCUMENTATION = '''
---
module: gcp_dns_managed_zone
description:
- A zone is a subtree of the DNS namespace under one administrative responsibility.
A ManagedZone is a resource that represents a DNS zone hosted by the Cloud DNS service.
short_description: Creates a GCP ManagedZone
author: Google Inc. (@googlecloudplatform)
requirements:
- python >= 2.6
- requests >= 2.18.4
- google-auth >= 1.3.0
options:
state:
description:
- Whether the given object should exist in GCP
choices:
- present
- absent
default: present
type: str
description:
description:
- A mutable string of at most 1024 characters associated with this resource for
the user's convenience. Has no effect on the managed zone's function.
required: true
type: str
dns_name:
description:
- The DNS name of this managed zone, for instance "example.com.".
required: true
type: str
dnssec_config:
description:
- DNSSEC configuration.
required: false
type: dict
suboptions:
kind:
description:
- Identifies what kind of resource this is.
required: false
default: dns#managedZoneDnsSecConfig
type: str
non_existence:
description:
- Specifies the mechanism used to provide authenticated denial-of-existence
responses.
- non_existence can only be updated when the state is `off`.
- 'Some valid choices include: "nsec", "nsec3"'
required: false
type: str
state:
description:
- Specifies whether DNSSEC is enabled, and what mode it is in.
- 'Some valid choices include: "off", "on", "transfer"'
required: false
type: str
default_key_specs:
description:
- Specifies parameters that will be used for generating initial DnsKeys for
this ManagedZone. If you provide a spec for keySigning or zoneSigning, you
must also provide one for the other.
- default_key_specs can only be updated when the state is `off`.
elements: dict
required: false
type: list
suboptions:
algorithm:
description:
- String mnemonic specifying the DNSSEC algorithm of this key.
- 'Some valid choices include: "ecdsap256sha256", "ecdsap384sha384", "rsasha1",
"rsasha256", "rsasha512"'
required: false
type: str
key_length:
description:
- Length of the keys in bits.
required: false
type: int
key_type:
description:
- Specifies whether this is a key signing key (KSK) or a zone signing
key (ZSK). Key signing keys have the Secure Entry Point flag set and,
when active, will only be used to sign resource record sets of type
DNSKEY. Zone signing keys do not have the Secure Entry Point flag set
and will be used to sign all other types of resource record sets.
- 'Some valid choices include: "keySigning", "zoneSigning"'
required: false
type: str
kind:
description:
- Identifies what kind of resource this is.
required: false
default: dns#dnsKeySpec
type: str
name:
description:
- User assigned name for this resource.
- Must be unique within the project.
required: true
type: str
name_server_set:
description:
- Optionally specifies the NameServerSet for this ManagedZone. A NameServerSet
is a set of DNS name servers that all host the same ManagedZones. Most users
will leave this field unset.
required: false
type: str
labels:
description:
- A set of key/value label pairs to assign to this ManagedZone.
required: false
type: dict
visibility:
description:
- 'The zone''s visibility: public zones are exposed to the Internet, while private
zones are visible only to Virtual Private Cloud resources.'
- 'Some valid choices include: "private", "public"'
required: false
default: public
type: str
private_visibility_config:
description:
- For privately visible zones, the set of Virtual Private Cloud resources that
the zone is visible from.
required: false
type: dict
suboptions:
networks:
description:
- The list of VPC networks that can see this zone.
elements: dict
required: true
type: list
suboptions:
network_url:
description:
- The fully qualified URL of the VPC network to bind to.
- This should be formatted like `U(https://www.googleapis.com/compute/v1/projects/{project}/global/networks/{network}`)
.
required: true
type: str
forwarding_config:
description:
- The presence for this field indicates that outbound forwarding is enabled for
this zone. The value of this field contains the set of destinations to forward
to.
required: false
type: dict
suboptions:
target_name_servers:
description:
- List of target name servers to forward to. Cloud DNS will select the best
available name server if more than one target is given.
elements: dict
required: true
type: list
suboptions:
ipv4_address:
description:
- IPv4 address of a target name server.
required: true
type: str
forwarding_path:
description:
- Forwarding path for this TargetNameServer. If unset or `default` Cloud
DNS will make forwarding decision based on address ranges, i.e. RFC1918
addresses go to the VPC, Non-RFC1918 addresses go to the Internet. When
set to `private`, Cloud DNS will always send queries through VPC for
this target .
- 'Some valid choices include: "default", "private"'
required: false
type: str
peering_config:
description:
- The presence of this field indicates that DNS Peering is enabled for this zone.
The value of this field contains the network to peer with.
required: false
type: dict
suboptions:
target_network:
description:
- The network with which to peer.
required: true
type: dict
suboptions:
network_url:
description:
- The fully qualified URL of the VPC network to forward queries to.
- This should be formatted like `U(https://www.googleapis.com/compute/v1/projects/{project}/global/networks/{network}`)
.
required: true
type: str
project:
description:
- The Google Cloud Platform project to use.
type: str
auth_kind:
description:
- The type of credential used.
type: str
required: true
choices:
- application
- machineaccount
- serviceaccount
- accesstoken
service_account_contents:
description:
- The contents of a Service Account JSON file, either in a dictionary or as a
JSON string that represents it.
type: jsonarg
service_account_file:
description:
- The path of a Service Account JSON file if serviceaccount is selected as type.
type: path
service_account_email:
description:
- An optional service account email address if machineaccount is selected and
the user does not wish to use the default email.
type: str
access_token:
description:
- An OAuth2 access token if credential type is accesstoken.
type: str
scopes:
description:
- Array of scopes to be used
type: list
elements: str
env_type:
description:
- Specifies which Ansible environment you're running this module within.
- This should not be set unless you know what you're doing.
- This only alters the User Agent string for any API requests.
type: str
notes:
- 'API Reference: U(https://cloud.google.com/dns/api/v1/managedZones)'
- 'Managing Zones: U(https://cloud.google.com/dns/zones/)'
- for authentication, you can set service_account_file using the C(GCP_SERVICE_ACCOUNT_FILE)
env variable.
- for authentication, you can set service_account_contents using the C(GCP_SERVICE_ACCOUNT_CONTENTS)
env variable.
- For authentication, you can set service_account_email using the C(GCP_SERVICE_ACCOUNT_EMAIL)
env variable.
- For authentication, you can set access_token using the C(GCP_ACCESS_TOKEN)
env variable.
- For authentication, you can set auth_kind using the C(GCP_AUTH_KIND) env variable.
- For authentication, you can set scopes using the C(GCP_SCOPES) env variable.
- Environment variables values will only be used if the playbook values are not set.
- The I(service_account_email) and I(service_account_file) options are mutually exclusive.
'''
EXAMPLES = '''
- name: create a managed zone
google.cloud.gcp_dns_managed_zone:
name: test_object
dns_name: test.somewild2.example.com.
description: test zone
project: test_project
auth_kind: serviceaccount
service_account_file: "/tmp/auth.pem"
state: present
'''
RETURN = '''
description:
description:
- A mutable string of at most 1024 characters associated with this resource for
the user's convenience. Has no effect on the managed zone's function.
returned: success
type: str
dnsName:
description:
- The DNS name of this managed zone, for instance "example.com.".
returned: success
type: str
dnssecConfig:
description:
- DNSSEC configuration.
returned: success
type: complex
contains:
kind:
description:
- Identifies what kind of resource this is.
returned: success
type: str
nonExistence:
description:
- Specifies the mechanism used to provide authenticated denial-of-existence
responses.
- non_existence can only be updated when the state is `off`.
returned: success
type: str
state:
description:
- Specifies whether DNSSEC is enabled, and what mode it is in.
returned: success
type: str
defaultKeySpecs:
description:
- Specifies parameters that will be used for generating initial DnsKeys for
this ManagedZone. If you provide a spec for keySigning or zoneSigning, you
must also provide one for the other.
- default_key_specs can only be updated when the state is `off`.
returned: success
type: complex
contains:
algorithm:
description:
- String mnemonic specifying the DNSSEC algorithm of this key.
returned: success
type: str
keyLength:
description:
- Length of the keys in bits.
returned: success
type: int
keyType:
description:
- Specifies whether this is a key signing key (KSK) or a zone signing key
(ZSK). Key signing keys have the Secure Entry Point flag set and, when
active, will only be used to sign resource record sets of type DNSKEY.
Zone signing keys do not have the Secure Entry Point flag set and will
be used to sign all other types of resource record sets.
returned: success
type: str
kind:
description:
- Identifies what kind of resource this is.
returned: success
type: str
id:
description:
- Unique identifier for the resource; defined by the server.
returned: success
type: int
name:
description:
- User assigned name for this resource.
- Must be unique within the project.
returned: success
type: str
nameServers:
description:
- Delegate your managed_zone to these virtual name servers; defined by the server
.
returned: success
type: list
nameServerSet:
description:
- Optionally specifies the NameServerSet for this ManagedZone. A NameServerSet is
a set of DNS name servers that all host the same ManagedZones. Most users will
leave this field unset.
returned: success
type: str
creationTime:
description:
- The time that this resource was created on the server.
- This is in RFC3339 text format.
returned: success
type: str
labels:
description:
- A set of key/value label pairs to assign to this ManagedZone.
returned: success
type: dict
visibility:
description:
- 'The zone''s visibility: public zones are exposed to the Internet, while private
zones are visible only to Virtual Private Cloud resources.'
returned: success
type: str
privateVisibilityConfig:
description:
- For privately visible zones, the set of Virtual Private Cloud resources that the
zone is visible from.
returned: success
type: complex
contains:
networks:
description:
- The list of VPC networks that can see this zone.
returned: success
type: complex
contains:
networkUrl:
description:
- The fully qualified URL of the VPC network to bind to.
- This should be formatted like `U(https://www.googleapis.com/compute/v1/projects/{project}/global/networks/{network}`)
.
returned: success
type: str
forwardingConfig:
description:
- The presence for this field indicates that outbound forwarding is enabled for
this zone. The value of this field contains the set of destinations to forward
to.
returned: success
type: complex
contains:
targetNameServers:
description:
- List of target name servers to forward to. Cloud DNS will select the best
available name server if more than one target is given.
returned: success
type: complex
contains:
ipv4Address:
description:
- IPv4 address of a target name server.
returned: success
type: str
forwardingPath:
description:
- Forwarding path for this TargetNameServer. If unset or `default` Cloud
DNS will make forwarding decision based on address ranges, i.e. RFC1918
addresses go to the VPC, Non-RFC1918 addresses go to the Internet. When
set to `private`, Cloud DNS will always send queries through VPC for this
target .
returned: success
type: str
peeringConfig:
description:
- The presence of this field indicates that DNS Peering is enabled for this zone.
The value of this field contains the network to peer with.
returned: success
type: complex
contains:
targetNetwork:
description:
- The network with which to peer.
returned: success
type: complex
contains:
networkUrl:
description:
- The fully qualified URL of the VPC network to forward queries to.
- This should be formatted like `U(https://www.googleapis.com/compute/v1/projects/{project}/global/networks/{network}`)
.
returned: success
type: str
'''
################################################################################
# Imports
################################################################################
from ansible_collections.google.cloud.plugins.module_utils.gcp_utils import (
navigate_hash,
GcpSession,
GcpModule,
GcpRequest,
remove_nones_from_dict,
)
import json
################################################################################
# Main
################################################################################
def main():
"""Main function"""
module = GcpModule(
argument_spec=dict(
state=dict(default='present', choices=['present', 'absent'], type='str'),
description=dict(required=True, type='str'),
dns_name=dict(required=True, type='str'),
dnssec_config=dict(
type='dict',
options=dict(
kind=dict(default='dns#managedZoneDnsSecConfig', type='str'),
non_existence=dict(type='str'),
state=dict(type='str'),
default_key_specs=dict(
type='list',
elements='dict',
no_log=False,
options=dict(
algorithm=dict(type='str'),
key_length=dict(type='int', no_log=False),
key_type=dict(type='str'),
kind=dict(default='dns#dnsKeySpec', type='str')
),
),
),
),
name=dict(required=True, type='str'),
name_server_set=dict(type='str'),
labels=dict(type='dict'),
visibility=dict(default='public', type='str'),
private_visibility_config=dict(
type='dict', options=dict(networks=dict(required=True, type='list', elements='dict', options=dict(network_url=dict(required=True, type='str'))))
),
forwarding_config=dict(
type='dict',
options=dict(
target_name_servers=dict(
required=True,
type='list',
elements='dict',
options=dict(ipv4_address=dict(required=True, type='str'), forwarding_path=dict(type='str')),
)
),
),
peering_config=dict(
type='dict', options=dict(target_network=dict(required=True, type='dict', options=dict(network_url=dict(required=True, type='str'))))
),
)
)
if not module.params['scopes']:
module.params['scopes'] = ['https://www.googleapis.com/auth/ndev.clouddns.readwrite']
state = module.params['state']
kind = 'dns#managedZone'
fetch = fetch_resource(module, self_link(module), kind)
changed = False
if fetch:
if state == 'present':
if is_different(module, fetch):
update(module, self_link(module), kind)
fetch = fetch_resource(module, self_link(module), kind)
changed = True
else:
delete(module, self_link(module), kind)
fetch = {}
changed = True
else:
if state == 'present':
fetch = create(module, collection(module), kind)
changed = True
else:
fetch = {}
fetch.update({'changed': changed})
module.exit_json(**fetch)
def create(module, link, kind):
auth = GcpSession(module, 'dns')
return return_if_object(module, auth.post(link, resource_to_request(module)), kind)
def update(module, link, kind):
auth = GcpSession(module, 'dns')
return return_if_object(module, auth.patch(link, resource_to_request(module)), kind)
def delete(module, link, kind):
auth = GcpSession(module, 'dns')
return return_if_object(module, auth.delete(link), kind)
def resource_to_request(module):
request = {
u'kind': 'dns#managedZone',
u'description': module.params.get('description'),
u'dnsName': module.params.get('dns_name'),
u'dnssecConfig': ManagedZoneDnssecconfig(module.params.get('dnssec_config', {}), module).to_request(),
u'name': module.params.get('name'),
u'nameServerSet': module.params.get('name_server_set'),
u'labels': module.params.get('labels'),
u'visibility': module.params.get('visibility'),
u'privateVisibilityConfig': ManagedZonePrivatevisibilityconfig(module.params.get('private_visibility_config', {}), module).to_request(),
u'forwardingConfig': ManagedZoneForwardingconfig(module.params.get('forwarding_config', {}), module).to_request(),
u'peeringConfig': ManagedZonePeeringconfig(module.params.get('peering_config', {}), module).to_request(),
}
return_vals = {}
for k, v in request.items():
if v or v is False:
return_vals[k] = v
return return_vals
def fetch_resource(module, link, kind, allow_not_found=True):
auth = GcpSession(module, 'dns')
return return_if_object(module, auth.get(link), kind, allow_not_found)
def self_link(module):
return "https://dns.googleapis.com/dns/v1/projects/{project}/managedZones/{name}".format(**module.params)
def collection(module):
return "https://dns.googleapis.com/dns/v1/projects/{project}/managedZones".format(**module.params)
def return_if_object(module, response, kind, allow_not_found=False):
# If not found, return nothing.
if allow_not_found and response.status_code == 404:
return None
# If no content, return nothing.
if response.status_code == 204:
return None
try:
module.raise_for_status(response)
result = response.json()
except getattr(json.decoder, 'JSONDecodeError', ValueError):
module.fail_json(msg="Invalid JSON response with error: %s" % response.text)
if navigate_hash(result, ['error', 'errors']):
module.fail_json(msg=navigate_hash(result, ['error', 'errors']))
return result
def is_different(module, response):
request = resource_to_request(module)
response = response_to_hash(module, response)
# Remove all output-only from response.
response_vals = {}
for k, v in response.items():
if k in request:
response_vals[k] = v
request_vals = {}
for k, v in request.items():
if k in response:
request_vals[k] = v
return GcpRequest(request_vals) != GcpRequest(response_vals)
# Remove unnecessary properties from the response.
# This is for doing comparisons with Ansible's current parameters.
def response_to_hash(module, response):
return {
u'description': response.get(u'description'),
u'dnsName': module.params.get('dns_name'),
u'dnssecConfig': ManagedZoneDnssecconfig(response.get(u'dnssecConfig', {}), module).from_response(),
u'id': response.get(u'id'),
u'name': module.params.get('name'),
u'nameServers': response.get(u'nameServers'),
u'nameServerSet': module.params.get('name_server_set'),
u'creationTime': response.get(u'creationTime'),
u'labels': response.get(u'labels'),
u'visibility': module.params.get('visibility'),
u'privateVisibilityConfig': ManagedZonePrivatevisibilityconfig(response.get(u'privateVisibilityConfig', {}), module).from_response(),
u'forwardingConfig': ManagedZoneForwardingconfig(response.get(u'forwardingConfig', {}), module).from_response(),
u'peeringConfig': ManagedZonePeeringconfig(response.get(u'peeringConfig', {}), module).from_response(),
}
class ManagedZoneDnssecconfig(object):
def __init__(self, request, module):
self.module = module
if request:
self.request = request
else:
self.request = {}
def to_request(self):
return remove_nones_from_dict(
{
u'kind': self.request.get('kind'),
u'nonExistence': self.request.get('non_existence'),
u'state': self.request.get('state'),
u'defaultKeySpecs': ManagedZoneDefaultkeyspecsArray(self.request.get('default_key_specs', []), self.module).to_request(),
}
)
def from_response(self):
return remove_nones_from_dict(
{
u'kind': self.request.get(u'kind'),
u'nonExistence': self.request.get(u'nonExistence'),
u'state': self.request.get(u'state'),
u'defaultKeySpecs': ManagedZoneDefaultkeyspecsArray(self.request.get(u'defaultKeySpecs', []), self.module).from_response(),
}
)
class ManagedZoneDefaultkeyspecsArray(object):
def __init__(self, request, module):
self.module = module
if request:
self.request = request
else:
self.request = []
def to_request(self):
items = []
for item in self.request:
items.append(self._request_for_item(item))
return items
def from_response(self):
items = []
for item in self.request:
items.append(self._response_from_item(item))
return items
def _request_for_item(self, item):
return remove_nones_from_dict(
{u'algorithm': item.get('algorithm'), u'keyLength': item.get('key_length'), u'keyType': item.get('key_type'), u'kind': item.get('kind')}
)
def _response_from_item(self, item):
return remove_nones_from_dict(
{u'algorithm': item.get(u'algorithm'), u'keyLength': item.get(u'keyLength'), u'keyType': item.get(u'keyType'), u'kind': item.get(u'kind')}
)
class ManagedZonePrivatevisibilityconfig(object):
def __init__(self, request, module):
self.module = module
if request:
self.request = request
else:
self.request = {}
def to_request(self):
return remove_nones_from_dict({u'networks': ManagedZoneNetworksArray(self.request.get('networks', []), self.module).to_request()})
def from_response(self):
return remove_nones_from_dict({u'networks': ManagedZoneNetworksArray(self.request.get(u'networks', []), self.module).from_response()})
class ManagedZoneNetworksArray(object):
def __init__(self, request, module):
self.module = module
if request:
self.request = request
else:
self.request = []
def to_request(self):
items = []
for item in self.request:
items.append(self._request_for_item(item))
return items
def from_response(self):
items = []
for item in self.request:
items.append(self._response_from_item(item))
return items
def _request_for_item(self, item):
return remove_nones_from_dict({u'networkUrl': item.get('network_url')})
def _response_from_item(self, item):
return remove_nones_from_dict({u'networkUrl': item.get(u'networkUrl')})
class ManagedZoneForwardingconfig(object):
def __init__(self, request, module):
self.module = module
if request:
self.request = request
else:
self.request = {}
def to_request(self):
return remove_nones_from_dict(
{u'targetNameServers': ManagedZoneTargetnameserversArray(self.request.get('target_name_servers', []), self.module).to_request()}
)
def from_response(self):
return remove_nones_from_dict(
{u'targetNameServers': ManagedZoneTargetnameserversArray(self.request.get(u'targetNameServers', []), self.module).from_response()}
)
class ManagedZoneTargetnameserversArray(object):
def __init__(self, request, module):
self.module = module
if request:
self.request = request
else:
self.request = []
def to_request(self):
items = []
for item in self.request:
items.append(self._request_for_item(item))
return items
def from_response(self):
items = []
for item in self.request:
items.append(self._response_from_item(item))
return items
def _request_for_item(self, item):
return remove_nones_from_dict({u'ipv4Address': item.get('ipv4_address'), u'forwardingPath': item.get('forwarding_path')})
def _response_from_item(self, item):
return remove_nones_from_dict({u'ipv4Address': item.get(u'ipv4Address'), u'forwardingPath': item.get(u'forwardingPath')})
class ManagedZonePeeringconfig(object):
def __init__(self, request, module):
self.module = module
if request:
self.request = request
else:
self.request = {}
def to_request(self):
return remove_nones_from_dict({u'targetNetwork': ManagedZoneTargetnetwork(self.request.get('target_network', {}), self.module).to_request()})
def from_response(self):
return remove_nones_from_dict({u'targetNetwork': ManagedZoneTargetnetwork(self.request.get(u'targetNetwork', {}), self.module).from_response()})
class ManagedZoneTargetnetwork(object):
def __init__(self, request, module):
self.module = module
if request:
self.request = request
else:
self.request = {}
def to_request(self):
return remove_nones_from_dict({u'networkUrl': self.request.get('network_url')})
def from_response(self):
return remove_nones_from_dict({u'networkUrl': self.request.get(u'networkUrl')})
if __name__ == '__main__':
main()