#!/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 *** AUTO GENERATED CODE *** # # ---------------------------------------------------------------------------- # # 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_compute_subnetwork description: - A VPC network is a virtual version of the traditional physical networks that exist within and between physical data centers. A VPC network provides connectivity for your Compute Engine virtual machine (VM) instances, Container Engine containers, App Engine Flex services, and other network-related resources. - Each GCP project contains one or more VPC networks. Each VPC network is a global entity spanning all GCP regions. This global VPC network allows VM instances and other resources to communicate with each other via internal, private IP addresses. - Each VPC network is subdivided into subnets, and each subnet is contained within a single region. You can have more than one subnet in a region for a given VPC network. Each subnet has a contiguous private RFC1918 IP space. You create instances, containers, and the like in these subnets. - When you create an instance, you must create it in a subnet, and the instance draws its internal IP address from that subnet. - Virtual machine (VM) instances in a VPC network can communicate with instances in all other subnets of the same VPC network, regardless of region, using their RFC1918 private IP addresses. You can isolate portions of the network, even entire subnets, using firewall rules. short_description: Creates a GCP Subnetwork version_added: '2.6' 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: - An optional description of this resource. Provide this property when you create the resource. This field can be set only at resource creation time. required: false type: str ip_cidr_range: description: - The range of internal addresses that are owned by this subnetwork. - Provide this property when you create the subnetwork. For example, 10.0.0.0/8 or 192.168.0.0/16. Ranges must be unique and non-overlapping within a network. Only IPv4 is supported. required: true type: str name: description: - The name of the resource, provided by the client when initially creating the resource. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression `[a-z]([-a-z0-9]*[a-z0-9])?` which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash. required: true type: str network: description: - The network this subnet belongs to. - Only networks that are in the distributed mode can have subnetworks. - 'This field represents a link to a Network resource in GCP. It can be specified in two ways. First, you can place a dictionary with key ''selfLink'' and value of your resource''s selfLink Alternatively, you can add `register: name-of-resource` to a gcp_compute_network task and then set this network field to "{{ name-of-resource }}"' required: true type: dict secondary_ip_ranges: description: - An array of configurations for secondary IP ranges for VM instances contained in this subnetwork. The primary IP of such VM must belong to the primary ipCidrRange of the subnetwork. The alias IPs may belong to either primary or secondary ranges. required: false type: list version_added: '2.8' suboptions: range_name: description: - The name associated with this subnetwork secondary range, used when adding an alias IP range to a VM instance. The name must be 1-63 characters long, and comply with RFC1035. The name must be unique within the subnetwork. required: true type: str ip_cidr_range: description: - The range of IP addresses belonging to this subnetwork secondary range. Provide this property when you create the subnetwork. - Ranges must be unique and non-overlapping with all primary and secondary IP ranges within a network. Only IPv4 is supported. required: true type: str private_ip_google_access: description: - When enabled, VMs in this subnetwork without external IP addresses can access Google APIs and services by using Private Google Access. required: false type: bool region: description: - URL of the GCP region for this subnetwork. 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 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 scopes: description: - Array of scopes to be used type: list 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/compute/docs/reference/rest/beta/subnetworks)' - 'Private Google Access: U(https://cloud.google.com/vpc/docs/configure-private-google-access)' - 'Cloud Networking: U(https://cloud.google.com/vpc/docs/using-vpc)' - 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 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 network gcp_compute_network: name: network-subnetwork auto_create_subnetworks: 'true' project: "{{ gcp_project }}" auth_kind: "{{ gcp_cred_kind }}" service_account_file: "{{ gcp_cred_file }}" state: present register: network - name: create a subnetwork gcp_compute_subnetwork: name: ansiblenet region: us-west1 network: "{{ network }}" ip_cidr_range: 172.16.0.0/16 project: test_project auth_kind: serviceaccount service_account_file: "/tmp/auth.pem" state: present ''' RETURN = ''' creationTimestamp: description: - Creation timestamp in RFC3339 text format. returned: success type: str description: description: - An optional description of this resource. Provide this property when you create the resource. This field can be set only at resource creation time. returned: success type: str gatewayAddress: description: - The gateway address for default routes to reach destination addresses outside this subnetwork. returned: success type: str id: description: - The unique identifier for the resource. returned: success type: int ipCidrRange: description: - The range of internal addresses that are owned by this subnetwork. - Provide this property when you create the subnetwork. For example, 10.0.0.0/8 or 192.168.0.0/16. Ranges must be unique and non-overlapping within a network. Only IPv4 is supported. returned: success type: str name: description: - The name of the resource, provided by the client when initially creating the resource. The name must be 1-63 characters long, and comply with RFC1035. Specifically, the name must be 1-63 characters long and match the regular expression `[a-z]([-a-z0-9]*[a-z0-9])?` which means the first character must be a lowercase letter, and all following characters must be a dash, lowercase letter, or digit, except the last character, which cannot be a dash. returned: success type: str network: description: - The network this subnet belongs to. - Only networks that are in the distributed mode can have subnetworks. returned: success type: dict secondaryIpRanges: description: - An array of configurations for secondary IP ranges for VM instances contained in this subnetwork. The primary IP of such VM must belong to the primary ipCidrRange of the subnetwork. The alias IPs may belong to either primary or secondary ranges. returned: success type: complex contains: rangeName: description: - The name associated with this subnetwork secondary range, used when adding an alias IP range to a VM instance. The name must be 1-63 characters long, and comply with RFC1035. The name must be unique within the subnetwork. returned: success type: str ipCidrRange: description: - The range of IP addresses belonging to this subnetwork secondary range. Provide this property when you create the subnetwork. - Ranges must be unique and non-overlapping with all primary and secondary IP ranges within a network. Only IPv4 is supported. returned: success type: str privateIpGoogleAccess: description: - When enabled, VMs in this subnetwork without external IP addresses can access Google APIs and services by using Private Google Access. returned: success type: bool region: description: - URL of the GCP region for this subnetwork. returned: success type: str ''' ################################################################################ # Imports ################################################################################ from ansible.module_utils.gcp_utils import navigate_hash, GcpSession, GcpModule, GcpRequest, remove_nones_from_dict, replace_resource_dict import json import time ################################################################################ # Main ################################################################################ def main(): """Main function""" module = GcpModule( argument_spec=dict( state=dict(default='present', choices=['present', 'absent'], type='str'), description=dict(type='str'), ip_cidr_range=dict(required=True, type='str'), name=dict(required=True, type='str'), network=dict(required=True, type='dict'), secondary_ip_ranges=dict( type='list', elements='dict', options=dict(range_name=dict(required=True, type='str'), ip_cidr_range=dict(required=True, type='str')) ), private_ip_google_access=dict(type='bool'), region=dict(required=True, type='str'), ) ) if not module.params['scopes']: module.params['scopes'] = ['https://www.googleapis.com/auth/compute'] state = module.params['state'] kind = 'compute#subnetwork' 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 = 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, 'compute') return wait_for_operation(module, auth.post(link, resource_to_request(module))) def update(module, link, kind, fetch): update_fields(module, resource_to_request(module), response_to_hash(module, fetch)) return fetch_resource(module, self_link(module), kind) def update_fields(module, request, response): if response.get('ipCidrRange') != request.get('ipCidrRange'): ip_cidr_range_update(module, request, response) if response.get('secondaryIpRanges') != request.get('secondaryIpRanges'): secondary_ip_ranges_update(module, request, response) if response.get('privateIpGoogleAccess') != request.get('privateIpGoogleAccess'): private_ip_google_access_update(module, request, response) def ip_cidr_range_update(module, request, response): auth = GcpSession(module, 'compute') auth.post( ''.join(["https://www.googleapis.com/compute/v1/", "projects/{project}/regions/{region}/subnetworks/{name}/expandIpCidrRange"]).format(**module.params), {u'ipCidrRange': module.params.get('ip_cidr_range')}, ) def secondary_ip_ranges_update(module, request, response): auth = GcpSession(module, 'compute') auth.patch( ''.join(["https://www.googleapis.com/compute/v1/", "projects/{project}/regions/{region}/subnetworks/{name}"]).format(**module.params), {u'secondaryIpRanges': SubnetworkSecondaryiprangesArray(module.params.get('secondary_ip_ranges', []), module).to_request()}, ) def private_ip_google_access_update(module, request, response): auth = GcpSession(module, 'compute') auth.post( ''.join(["https://www.googleapis.com/compute/v1/", "projects/{project}/regions/{region}/subnetworks/{name}/setPrivateIpGoogleAccess"]).format( **module.params ), {u'privateIpGoogleAccess': module.params.get('private_ip_google_access')}, ) def delete(module, link, kind): auth = GcpSession(module, 'compute') return wait_for_operation(module, auth.delete(link)) def resource_to_request(module): request = { u'kind': 'compute#subnetwork', u'description': module.params.get('description'), u'ipCidrRange': module.params.get('ip_cidr_range'), u'name': module.params.get('name'), u'network': replace_resource_dict(module.params.get(u'network', {}), 'selfLink'), u'secondaryIpRanges': SubnetworkSecondaryiprangesArray(module.params.get('secondary_ip_ranges', []), module).to_request(), u'privateIpGoogleAccess': module.params.get('private_ip_google_access'), u'region': module.params.get('region'), } 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, 'compute') return return_if_object(module, auth.get(link), kind, allow_not_found) def self_link(module): return "https://www.googleapis.com/compute/v1/projects/{project}/regions/{region}/subnetworks/{name}".format(**module.params) def collection(module): return "https://www.googleapis.com/compute/v1/projects/{project}/regions/{region}/subnetworks".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'creationTimestamp': response.get(u'creationTimestamp'), u'description': response.get(u'description'), u'gatewayAddress': response.get(u'gatewayAddress'), u'id': response.get(u'id'), u'ipCidrRange': response.get(u'ipCidrRange'), u'name': response.get(u'name'), u'network': replace_resource_dict(module.params.get(u'network', {}), 'selfLink'), u'secondaryIpRanges': SubnetworkSecondaryiprangesArray(response.get(u'secondaryIpRanges', []), module).from_response(), u'privateIpGoogleAccess': response.get(u'privateIpGoogleAccess'), u'region': module.params.get('region'), } def async_op_url(module, extra_data=None): if extra_data is None: extra_data = {} url = "https://www.googleapis.com/compute/v1/projects/{project}/regions/{region}/operations/{op_id}" combined = extra_data.copy() combined.update(module.params) return url.format(**combined) def wait_for_operation(module, response): op_result = return_if_object(module, response, 'compute#operation') if op_result is None: return {} status = navigate_hash(op_result, ['status']) wait_done = wait_for_completion(status, op_result, module) return fetch_resource(module, navigate_hash(wait_done, ['targetLink']), 'compute#subnetwork') def wait_for_completion(status, op_result, module): op_id = navigate_hash(op_result, ['name']) op_uri = async_op_url(module, {'op_id': op_id}) while status != 'DONE': raise_if_errors(op_result, ['error', 'errors'], module) time.sleep(1.0) op_result = fetch_resource(module, op_uri, 'compute#operation', False) status = navigate_hash(op_result, ['status']) return op_result def raise_if_errors(response, err_path, module): errors = navigate_hash(response, err_path) if errors is not None: module.fail_json(msg=errors) class SubnetworkSecondaryiprangesArray(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'rangeName': item.get('range_name'), u'ipCidrRange': item.get('ip_cidr_range')}) def _response_from_item(self, item): return remove_nones_from_dict({u'rangeName': item.get(u'rangeName'), u'ipCidrRange': item.get(u'ipCidrRange')}) if __name__ == '__main__': main()