#!/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_container_cluster description: - A Google Container Engine cluster. short_description: Creates a GCP Cluster 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 name: description: - The name of this cluster. The name must be unique within this project and zone, and can be up to 40 characters. Must be Lowercase letters, numbers, and hyphens only. Must start with a letter. Must end with a number or a letter. required: false description: description: - An optional description of this cluster. required: false initial_node_count: description: - The number of nodes to create in this cluster. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota. For requests, this field should only be used in lieu of a "nodePool" object, since this configuration (along with the "nodeConfig") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a nodePool at the same time. required: true node_config: description: - Parameters used in creating the cluster's nodes. - For requests, this field should only be used in lieu of a "nodePool" object, since this configuration (along with the "initialNodeCount") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a nodePool at the same time. For responses, this field will be populated with the node configuration of the first node pool. If unspecified, the defaults are used. required: false suboptions: machine_type: description: - The name of a Google Compute Engine machine type (e.g. - n1-standard-1). If unspecified, the default machine type is n1-standard-1. required: false disk_size_gb: description: - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB. required: false oauth_scopes: description: - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. - 'The following scopes are recommended, but not required, and by default are not included: U(https://www.googleapis.com/auth/compute) is required for mounting persistent storage on your nodes.' - U(https://www.googleapis.com/auth/devstorage.read_only) is required for communicating with gcr.io (the Google Container Registry). - If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. required: false service_account: description: - The Google Cloud Platform Service Account to be used by the node VMs. If no Service Account is specified, the "default" service account is used. required: false metadata: description: - The metadata key/value pairs assigned to instances in the cluster. - 'Keys must conform to the regexp [a-zA-Z0-9-_]+ and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the four reserved keys: "instance-template", "kube-env", "startup-script", and "user-data" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value''s size must be less than or equal to 32 KB.' - The total size of all keys and values must be less than 512 KB. - 'An object containing a list of "key": value pairs.' - 'Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.' required: false image_type: description: - The image type to use for this node. Note that for a given image type, the latest version of it will be used. required: false labels: description: - 'The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it''s best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: U(http://kubernetes.io/v1.1/docs/user-guide/labels.html) An object containing a list of "key": value pairs.' - 'Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.' required: false local_ssd_count: description: - The number of local SSD disks to be attached to the node. - 'The limit for this value is dependant upon the maximum number of disks available on a machine per zone. See: U(https://cloud.google.com/compute/docs/disks/local-ssd#local_ssd_limits) for more information.' required: false tags: description: - The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035. required: false preemptible: description: - 'Whether the nodes are created as preemptible VM instances. See: U(https://cloud.google.com/compute/docs/instances/preemptible) for more inforamtion about preemptible VM instances.' required: false type: bool master_auth: description: - The authentication information for accessing the master endpoint. required: false suboptions: username: description: - The username to use for HTTP basic authentication to the master endpoint. required: false password: description: - The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. required: false cluster_ca_certificate: description: - Base64-encoded public certificate that is the root of trust for the cluster. required: false client_certificate: description: - Base64-encoded public certificate used by clients to authenticate to the cluster endpoint. required: false client_key: description: - Base64-encoded private key used by clients to authenticate to the cluster endpoint. required: false logging_service: description: - 'The logging service the cluster should use to write logs. Currently available options: logging.googleapis.com - the Google Cloud Logging service.' - none - no logs will be exported from the cluster. - if left as an empty string,logging.googleapis.com will be used. required: false choices: - logging.googleapis.com - none monitoring_service: description: - The monitoring service the cluster should use to write metrics. - 'Currently available options: monitoring.googleapis.com - the Google Cloud Monitoring service.' - none - no metrics will be exported from the cluster. - if left as an empty string, monitoring.googleapis.com will be used. required: false choices: - monitoring.googleapis.com - none network: description: - The name of the Google Compute Engine network to which the cluster is connected. If left unspecified, the default network will be used. - To ensure it exists and it is operations, configure the network using 'gcompute_network' resource. required: false cluster_ipv4_cidr: description: - The IP address range of the container pods in this cluster, in CIDR notation (e.g. 10.96.0.0/14). Leave blank to have one automatically chosen or specify a /14 block in 10.0.0.0/8. required: false addons_config: description: - Configurations for the various addons available to run in the cluster. required: false suboptions: http_load_balancing: description: - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster. required: false suboptions: disabled: description: - Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers. required: false type: bool horizontal_pod_autoscaling: description: - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods. required: false suboptions: disabled: description: - Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that a Heapster pod is running in the cluster, which is also used by the Cloud Monitoring service. required: false type: bool subnetwork: description: - The name of the Google Compute Engine subnetwork to which the cluster is connected. required: false location: description: - The list of Google Compute Engine locations in which the cluster's nodes should be located. required: false zone: description: - The zone where the cluster is deployed. required: true extends_documentation_fragment: gcp ''' EXAMPLES = ''' - name: create a cluster gcp_container_cluster: name: my-cluster initial_node_count: 2 master_auth: username: cluster_admin password: my-secret-password node_config: machine_type: n1-standard-4 disk_size_gb: 500 zone: us-central1-a project: "test_project" auth_kind: "serviceaccount" service_account_file: "/tmp/auth.pem" state: present ''' RETURN = ''' name: description: - The name of this cluster. The name must be unique within this project and zone, and can be up to 40 characters. Must be Lowercase letters, numbers, and hyphens only. Must start with a letter. Must end with a number or a letter. returned: success type: str description: description: - An optional description of this cluster. returned: success type: str initialNodeCount: description: - The number of nodes to create in this cluster. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota. For requests, this field should only be used in lieu of a "nodePool" object, since this configuration (along with the "nodeConfig") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a nodePool at the same time. returned: success type: int nodeConfig: description: - Parameters used in creating the cluster's nodes. - For requests, this field should only be used in lieu of a "nodePool" object, since this configuration (along with the "initialNodeCount") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a nodePool at the same time. For responses, this field will be populated with the node configuration of the first node pool. If unspecified, the defaults are used. returned: success type: complex contains: machineType: description: - The name of a Google Compute Engine machine type (e.g. - n1-standard-1). If unspecified, the default machine type is n1-standard-1. returned: success type: str diskSizeGb: description: - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB. returned: success type: int oauthScopes: description: - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. - 'The following scopes are recommended, but not required, and by default are not included: U(https://www.googleapis.com/auth/compute) is required for mounting persistent storage on your nodes.' - U(https://www.googleapis.com/auth/devstorage.read_only) is required for communicating with gcr.io (the Google Container Registry). - If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. returned: success type: list serviceAccount: description: - The Google Cloud Platform Service Account to be used by the node VMs. If no Service Account is specified, the "default" service account is used. returned: success type: str metadata: description: - The metadata key/value pairs assigned to instances in the cluster. - 'Keys must conform to the regexp [a-zA-Z0-9-_]+ and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the four reserved keys: "instance-template", "kube-env", "startup-script", and "user-data" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value''s size must be less than or equal to 32 KB.' - The total size of all keys and values must be less than 512 KB. - 'An object containing a list of "key": value pairs.' - 'Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.' returned: success type: dict imageType: description: - The image type to use for this node. Note that for a given image type, the latest version of it will be used. returned: success type: str labels: description: - 'The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it''s best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: U(http://kubernetes.io/v1.1/docs/user-guide/labels.html) An object containing a list of "key": value pairs.' - 'Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.' returned: success type: dict localSsdCount: description: - The number of local SSD disks to be attached to the node. - 'The limit for this value is dependant upon the maximum number of disks available on a machine per zone. See: U(https://cloud.google.com/compute/docs/disks/local-ssd#local_ssd_limits) for more information.' returned: success type: int tags: description: - The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035. returned: success type: list preemptible: description: - 'Whether the nodes are created as preemptible VM instances. See: U(https://cloud.google.com/compute/docs/instances/preemptible) for more inforamtion about preemptible VM instances.' returned: success type: bool masterAuth: description: - The authentication information for accessing the master endpoint. returned: success type: complex contains: username: description: - The username to use for HTTP basic authentication to the master endpoint. returned: success type: str password: description: - The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. returned: success type: str clusterCaCertificate: description: - Base64-encoded public certificate that is the root of trust for the cluster. returned: success type: str clientCertificate: description: - Base64-encoded public certificate used by clients to authenticate to the cluster endpoint. returned: success type: str clientKey: description: - Base64-encoded private key used by clients to authenticate to the cluster endpoint. returned: success type: str loggingService: description: - 'The logging service the cluster should use to write logs. Currently available options: logging.googleapis.com - the Google Cloud Logging service.' - none - no logs will be exported from the cluster. - if left as an empty string,logging.googleapis.com will be used. returned: success type: str monitoringService: description: - The monitoring service the cluster should use to write metrics. - 'Currently available options: monitoring.googleapis.com - the Google Cloud Monitoring service.' - none - no metrics will be exported from the cluster. - if left as an empty string, monitoring.googleapis.com will be used. returned: success type: str network: description: - The name of the Google Compute Engine network to which the cluster is connected. If left unspecified, the default network will be used. - To ensure it exists and it is operations, configure the network using 'gcompute_network' resource. returned: success type: str clusterIpv4Cidr: description: - The IP address range of the container pods in this cluster, in CIDR notation (e.g. 10.96.0.0/14). Leave blank to have one automatically chosen or specify a /14 block in 10.0.0.0/8. returned: success type: str addonsConfig: description: - Configurations for the various addons available to run in the cluster. returned: success type: complex contains: httpLoadBalancing: description: - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster. returned: success type: complex contains: disabled: description: - Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers. returned: success type: bool horizontalPodAutoscaling: description: - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods. returned: success type: complex contains: disabled: description: - Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that a Heapster pod is running in the cluster, which is also used by the Cloud Monitoring service. returned: success type: bool subnetwork: description: - The name of the Google Compute Engine subnetwork to which the cluster is connected. returned: success type: str location: description: - The list of Google Compute Engine locations in which the cluster's nodes should be located. returned: success type: list endpoint: description: - The IP address of this cluster's master endpoint. - The endpoint can be accessed from the internet at https://username:password@endpoint/ See the masterAuth property of this resource for username and password information. returned: success type: str initialClusterVersion: description: - The software version of the master endpoint and kubelets used in the cluster when it was first created. The version can be upgraded over time. returned: success type: str currentMasterVersion: description: - The current software version of the master endpoint. returned: success type: str currentNodeVersion: description: - The current version of the node software components. If they are currently at multiple versions because they're in the process of being upgraded, this reflects the minimum version of all nodes. returned: success type: str createTime: description: - The time the cluster was created, in RFC3339 text format. returned: success type: str nodeIpv4CidrSize: description: - The size of the address space on each node for hosting containers. - This is provisioned from within the container_ipv4_cidr range. returned: success type: int servicesIpv4Cidr: description: - The IP address range of the Kubernetes services in this cluster, in CIDR notation (e.g. 1.2.3.4/29). Service addresses are typically put in the last /16 from the container CIDR. returned: success type: str currentNodeCount: description: - The number of nodes currently in the cluster. returned: success type: int expireTime: description: - The time the cluster will be automatically deleted in RFC3339 text format. returned: success type: str zone: description: - The zone where the cluster is deployed. 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'), name=dict(type='str'), description=dict(type='str'), initial_node_count=dict(required=True, type='int'), node_config=dict(type='dict', options=dict( machine_type=dict(type='str'), disk_size_gb=dict(type='int'), oauth_scopes=dict(type='list', elements='str'), service_account=dict(type='str'), metadata=dict(type='dict'), image_type=dict(type='str'), labels=dict(type='dict'), local_ssd_count=dict(type='int'), tags=dict(type='list', elements='str'), preemptible=dict(type='bool') )), master_auth=dict(type='dict', options=dict( username=dict(type='str'), password=dict(type='str'), cluster_ca_certificate=dict(type='str'), client_certificate=dict(type='str'), client_key=dict(type='str') )), logging_service=dict(type='str', choices=['logging.googleapis.com', 'none']), monitoring_service=dict(type='str', choices=['monitoring.googleapis.com', 'none']), network=dict(type='str'), cluster_ipv4_cidr=dict(type='str'), addons_config=dict(type='dict', options=dict( http_load_balancing=dict(type='dict', options=dict( disabled=dict(type='bool') )), horizontal_pod_autoscaling=dict(type='dict', options=dict( disabled=dict(type='bool') )) )), subnetwork=dict(type='str'), location=dict(type='list', elements='str'), zone=dict(required=True, type='str') ) ) if not module.params['scopes']: module.params['scopes'] = ['https://www.googleapis.com/auth/cloud-platform'] state = module.params['state'] fetch = fetch_resource(module, self_link(module)) changed = False if fetch: if state == 'present': if is_different(module, fetch): update(module, self_link(module)) fetch = fetch_resource(module, self_link(module)) changed = True else: delete(module, self_link(module)) fetch = {} changed = True else: if state == 'present': fetch = create(module, collection(module)) changed = True else: fetch = {} fetch.update({'changed': changed}) module.exit_json(**fetch) def create(module, link): auth = GcpSession(module, 'container') return wait_for_operation(module, auth.post(link, resource_to_request(module))) def update(module, link): auth = GcpSession(module, 'container') return wait_for_operation(module, auth.put(link, resource_to_request(module))) def delete(module, link): auth = GcpSession(module, 'container') return wait_for_operation(module, auth.delete(link)) def resource_to_request(module): request = { u'name': module.params.get('name'), u'description': module.params.get('description'), u'initialNodeCount': module.params.get('initial_node_count'), u'nodeConfig': ClusterNodeconfig(module.params.get('node_config', {}), module).to_request(), u'masterAuth': ClusterMasterauth(module.params.get('master_auth', {}), module).to_request(), u'loggingService': module.params.get('logging_service'), u'monitoringService': module.params.get('monitoring_service'), u'network': module.params.get('network'), u'clusterIpv4Cidr': module.params.get('cluster_ipv4_cidr'), u'addonsConfig': ClusterAddonsconfig(module.params.get('addons_config', {}), module).to_request(), u'subnetwork': module.params.get('subnetwork'), u'location': module.params.get('location') } request = encode_request(request, module) return_vals = {} for k, v in request.items(): if v: return_vals[k] = v return return_vals def fetch_resource(module, link, allow_not_found=True): auth = GcpSession(module, 'container') return return_if_object(module, auth.get(link), allow_not_found) def self_link(module): return "https://container.googleapis.com/v1/projects/{project}/zones/{zone}/clusters/{name}".format(**module.params) def collection(module): return "https://container.googleapis.com/v1/projects/{project}/zones/{zone}/clusters".format(**module.params) def return_if_object(module, response, 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) as inst: module.fail_json(msg="Invalid JSON response with error: %s" % inst) 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'name': response.get(u'name'), u'description': response.get(u'description'), u'initialNodeCount': module.params.get('initial_node_count'), u'nodeConfig': ClusterNodeconfig(module.params.get('node_config', {}), module).to_request(), u'masterAuth': ClusterMasterauth(response.get(u'masterAuth', {}), module).from_response(), u'loggingService': response.get(u'loggingService'), u'monitoringService': response.get(u'monitoringService'), u'network': response.get(u'network'), u'clusterIpv4Cidr': response.get(u'clusterIpv4Cidr'), u'addonsConfig': ClusterAddonsconfig(response.get(u'addonsConfig', {}), module).from_response(), u'subnetwork': response.get(u'subnetwork'), u'location': response.get(u'location'), u'endpoint': response.get(u'endpoint'), u'initialClusterVersion': response.get(u'initialClusterVersion'), u'currentMasterVersion': response.get(u'currentMasterVersion'), u'currentNodeVersion': response.get(u'currentNodeVersion'), u'createTime': response.get(u'createTime'), u'nodeIpv4CidrSize': response.get(u'nodeIpv4CidrSize'), u'servicesIpv4Cidr': response.get(u'servicesIpv4Cidr'), u'currentNodeCount': response.get(u'currentNodeCount'), u'expireTime': response.get(u'expireTime') } def async_op_url(module, extra_data=None): if extra_data is None: extra_data = {} url = "https://container.googleapis.com/v1/projects/{project}/zones/{zone}/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) 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'])) 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'], 'message') time.sleep(1.0) op_result = fetch_resource(module, op_uri) 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) # Google Container Engine API has its own layout for the create method, # defined like this: # # { # 'cluster': { # ... cluster data # } # } # # Format the request to match the expected input by the API def encode_request(resource_request, module): return { 'cluster': resource_request } class ClusterNodeconfig(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'machineType': self.request.get('machine_type'), u'diskSizeGb': self.request.get('disk_size_gb'), u'oauthScopes': self.request.get('oauth_scopes'), u'serviceAccount': self.request.get('service_account'), u'metadata': self.request.get('metadata'), u'imageType': self.request.get('image_type'), u'labels': self.request.get('labels'), u'localSsdCount': self.request.get('local_ssd_count'), u'tags': self.request.get('tags'), u'preemptible': self.request.get('preemptible') }) def from_response(self): return remove_nones_from_dict({ u'machineType': self.request.get(u'machineType'), u'diskSizeGb': self.request.get(u'diskSizeGb'), u'oauthScopes': self.request.get(u'oauthScopes'), u'serviceAccount': self.request.get(u'serviceAccount'), u'metadata': self.request.get(u'metadata'), u'imageType': self.request.get(u'imageType'), u'labels': self.request.get(u'labels'), u'localSsdCount': self.request.get(u'localSsdCount'), u'tags': self.request.get(u'tags'), u'preemptible': self.request.get(u'preemptible') }) class ClusterMasterauth(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'username': self.request.get('username'), u'password': self.request.get('password'), u'clusterCaCertificate': self.request.get('cluster_ca_certificate'), u'clientCertificate': self.request.get('client_certificate'), u'clientKey': self.request.get('client_key') }) def from_response(self): return remove_nones_from_dict({ u'username': self.request.get(u'username'), u'password': self.request.get(u'password'), u'clusterCaCertificate': self.request.get(u'clusterCaCertificate'), u'clientCertificate': self.request.get(u'clientCertificate'), u'clientKey': self.request.get(u'clientKey') }) class ClusterAddonsconfig(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'httpLoadBalancing': ClusterHttploadbalancing(self.request.get('http_load_balancing', {}), self.module).to_request(), u'horizontalPodAutoscaling': ClusterHorizontalpodautoscaling(self.request.get('horizontal_pod_autoscaling', {}), self.module).to_request() }) def from_response(self): return remove_nones_from_dict({ u'httpLoadBalancing': ClusterHttploadbalancing(self.request.get(u'httpLoadBalancing', {}), self.module).from_response(), u'horizontalPodAutoscaling': ClusterHorizontalpodautoscaling(self.request.get(u'horizontalPodAutoscaling', {}), self.module).from_response() }) class ClusterHttploadbalancing(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'disabled': self.request.get('disabled') }) def from_response(self): return remove_nones_from_dict({ u'disabled': self.request.get(u'disabled') }) class ClusterHorizontalpodautoscaling(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'disabled': self.request.get('disabled') }) def from_response(self): return remove_nones_from_dict({ u'disabled': self.request.get(u'disabled') }) if __name__ == '__main__': main()