#!/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_node_pool
description:
- NodePool contains the name and configuration for a cluster's node pool.
- Node pools are a set of nodes (i.e. VM's), with a common configuration and specification,
under the control of the cluster master. They may have a set of Kubernetes labels
applied to them, which may be used to reference them during pod scheduling. They
may also be resized up or down, to accommodate the workload.
short_description: Creates a GCP NodePool
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
name:
description:
- The name of the node pool.
required: false
type: str
config:
description:
- The node configuration of the pool.
required: false
type: dict
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
type: str
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
type: int
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.
elements: str
required: false
type: list
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
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" }.'
required: false
type: dict
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
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" }.'
required: false
type: dict
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
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.
elements: str
required: false
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 information about preemptible VM instances.'
required: false
type: bool
accelerators:
description:
- A list of hardware accelerators to be attached to each node.
elements: dict
required: false
type: list
version_added: '2.9'
suboptions:
accelerator_count:
description:
- The number of the accelerator cards exposed to an instance.
required: false
type: int
accelerator_type:
description:
- The accelerator type resource name.
required: false
type: str
disk_type:
description:
- Type of the disk attached to each node (e.g. 'pd-standard' or 'pd-ssd')
If unspecified, the default disk type is 'pd-standard' .
required: false
type: str
version_added: '2.9'
min_cpu_platform:
description:
- Minimum CPU platform to be used by this instance. The instance may be scheduled
on the specified or newer CPU platform .
required: false
type: str
version_added: '2.9'
taints:
description:
- List of kubernetes taints to be applied to each node.
elements: dict
required: false
type: list
version_added: '2.9'
suboptions:
key:
description:
- Key for taint.
required: false
type: str
value:
description:
- Value for taint.
required: false
type: str
effect:
description:
- Effect for taint.
required: false
type: str
shielded_instance_config:
description:
- Shielded Instance options.
required: false
type: dict
version_added: '2.10'
suboptions:
enable_secure_boot:
description:
- Defines whether the instance has Secure Boot enabled.
- Secure Boot helps ensure that the system only runs authentic software
by verifying the digital signature of all boot components, and halting
the boot process if signature verification fails.
required: false
type: bool
enable_integrity_monitoring:
description:
- Defines whether the instance has integrity monitoring enabled.
- Enables monitoring and attestation of the boot integrity of the instance.
- The attestation is performed against the integrity policy baseline.
This baseline is initially derived from the implicitly trusted boot
image when the instance is created.
required: false
type: bool
initial_node_count:
description:
- The initial node count for the pool. 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.
required: true
type: int
version:
description:
- The version of the Kubernetes of this node.
required: false
type: str
version_added: '2.8'
autoscaling:
description:
- Autoscaler configuration for this NodePool. Autoscaler is enabled only if a
valid configuration is present.
required: false
type: dict
suboptions:
enabled:
description:
- Is autoscaling enabled for this node pool.
required: false
type: bool
min_node_count:
description:
- Minimum number of nodes in the NodePool. Must be >= 1 and <= maxNodeCount.
required: false
type: int
max_node_count:
description:
- Maximum number of nodes in the NodePool. Must be >= minNodeCount.
- There has to enough quota to scale up the cluster.
required: false
type: int
management:
description:
- Management configuration for this NodePool.
required: false
type: dict
suboptions:
auto_upgrade:
description:
- A flag that specifies whether node auto-upgrade is enabled for the node
pool. If enabled, node auto-upgrade helps keep the nodes in your node pool
up to date with the latest release version of Kubernetes.
required: false
type: bool
auto_repair:
description:
- A flag that specifies whether the node auto-repair is enabled for the node
pool. If enabled, the nodes in this node pool will be monitored and, if
they fail health checks too many times, an automatic repair action will
be triggered.
required: false
type: bool
upgrade_options:
description:
- Specifies the Auto Upgrade knobs for the node pool.
required: false
type: dict
suboptions: {}
max_pods_constraint:
description:
- The constraint on the maximum number of pods that can be run simultaneously
on a node in the node pool.
required: false
type: dict
version_added: '2.9'
suboptions:
max_pods_per_node:
description:
- Constraint enforced on the max num of pods per node.
required: false
type: int
conditions:
description:
- Which conditions caused the current node pool state.
elements: dict
required: false
type: list
version_added: '2.9'
suboptions:
code:
description:
- Machine-friendly representation of the condition.
- 'Some valid choices include: "UNKNOWN", "GCE_STOCKOUT", "GKE_SERVICE_ACCOUNT_DELETED",
"GCE_QUOTA_EXCEEDED", "SET_BY_OPERATOR"'
required: false
type: str
cluster:
description:
- The cluster this node pool belongs to.
- 'This field represents a link to a Cluster resource in GCP. It can be specified
in two ways. First, you can place a dictionary with key ''name'' and value of
your resource''s name Alternatively, you can add `register: name-of-resource`
to a gcp_container_cluster task and then set this cluster field to "{{ name-of-resource
}}"'
required: true
type: dict
location:
description:
- The location where the node pool is deployed.
required: true
type: str
aliases:
- region
- zone
version_added: '2.8'
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
'''
EXAMPLES = '''
- name: create a cluster
google.cloud.gcp_container_cluster:
name: cluster-nodepool
initial_node_count: 4
location: us-central1-a
project: "{{ gcp_project }}"
auth_kind: "{{ gcp_cred_kind }}"
service_account_file: "{{ gcp_cred_file }}"
state: present
register: cluster
- name: create a node pool
google.cloud.gcp_container_node_pool:
name: my-pool
initial_node_count: 4
cluster: "{{ cluster }}"
location: us-central1-a
project: test_project
auth_kind: serviceaccount
service_account_file: "/tmp/auth.pem"
state: present
'''
RETURN = '''
name:
description:
- The name of the node pool.
returned: success
type: str
config:
description:
- The node configuration of the pool.
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 information about preemptible VM instances.'
returned: success
type: bool
accelerators:
description:
- A list of hardware accelerators to be attached to each node.
returned: success
type: complex
contains:
acceleratorCount:
description:
- The number of the accelerator cards exposed to an instance.
returned: success
type: int
acceleratorType:
description:
- The accelerator type resource name.
returned: success
type: str
diskType:
description:
- Type of the disk attached to each node (e.g. 'pd-standard' or 'pd-ssd') If
unspecified, the default disk type is 'pd-standard' .
returned: success
type: str
minCpuPlatform:
description:
- Minimum CPU platform to be used by this instance. The instance may be scheduled
on the specified or newer CPU platform .
returned: success
type: str
taints:
description:
- List of kubernetes taints to be applied to each node.
returned: success
type: complex
contains:
key:
description:
- Key for taint.
returned: success
type: str
value:
description:
- Value for taint.
returned: success
type: str
effect:
description:
- Effect for taint.
returned: success
type: str
shieldedInstanceConfig:
description:
- Shielded Instance options.
returned: success
type: complex
contains:
enableSecureBoot:
description:
- Defines whether the instance has Secure Boot enabled.
- Secure Boot helps ensure that the system only runs authentic software
by verifying the digital signature of all boot components, and halting
the boot process if signature verification fails.
returned: success
type: bool
enableIntegrityMonitoring:
description:
- Defines whether the instance has integrity monitoring enabled.
- Enables monitoring and attestation of the boot integrity of the instance.
- The attestation is performed against the integrity policy baseline. This
baseline is initially derived from the implicitly trusted boot image when
the instance is created.
returned: success
type: bool
initialNodeCount:
description:
- The initial node count for the pool. 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.
returned: success
type: int
status:
description:
- Status of nodes in this pool instance.
returned: success
type: str
statusMessage:
description:
- Additional information about the current status of this node pool instance.
returned: success
type: str
version:
description:
- The version of the Kubernetes of this node.
returned: success
type: str
autoscaling:
description:
- Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid
configuration is present.
returned: success
type: complex
contains:
enabled:
description:
- Is autoscaling enabled for this node pool.
returned: success
type: bool
minNodeCount:
description:
- Minimum number of nodes in the NodePool. Must be >= 1 and <= maxNodeCount.
returned: success
type: int
maxNodeCount:
description:
- Maximum number of nodes in the NodePool. Must be >= minNodeCount.
- There has to enough quota to scale up the cluster.
returned: success
type: int
management:
description:
- Management configuration for this NodePool.
returned: success
type: complex
contains:
autoUpgrade:
description:
- A flag that specifies whether node auto-upgrade is enabled for the node pool.
If enabled, node auto-upgrade helps keep the nodes in your node pool up to
date with the latest release version of Kubernetes.
returned: success
type: bool
autoRepair:
description:
- A flag that specifies whether the node auto-repair is enabled for the node
pool. If enabled, the nodes in this node pool will be monitored and, if they
fail health checks too many times, an automatic repair action will be triggered.
returned: success
type: bool
upgradeOptions:
description:
- Specifies the Auto Upgrade knobs for the node pool.
returned: success
type: complex
contains:
autoUpgradeStartTime:
description:
- This field is set when upgrades are about to commence with the approximate
start time for the upgrades, in RFC3339 text format.
returned: success
type: str
description:
description:
- This field is set when upgrades are about to commence with the description
of the upgrade.
returned: success
type: str
maxPodsConstraint:
description:
- The constraint on the maximum number of pods that can be run simultaneously on
a node in the node pool.
returned: success
type: complex
contains:
maxPodsPerNode:
description:
- Constraint enforced on the max num of pods per node.
returned: success
type: int
conditions:
description:
- Which conditions caused the current node pool state.
returned: success
type: complex
contains:
code:
description:
- Machine-friendly representation of the condition.
returned: success
type: str
podIpv4CidrSize:
description:
- The pod CIDR block size per node in this node pool.
returned: success
type: int
cluster:
description:
- The cluster this node pool belongs to.
returned: success
type: dict
location:
description:
- The location where the node pool is deployed.
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,
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'),
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'),
accelerators=dict(type='list', elements='dict', options=dict(accelerator_count=dict(type='int'), accelerator_type=dict(type='str'))),
disk_type=dict(type='str'),
min_cpu_platform=dict(type='str'),
taints=dict(type='list', elements='dict', options=dict(key=dict(type='str'), value=dict(type='str'), effect=dict(type='str'))),
shielded_instance_config=dict(
type='dict', options=dict(enable_secure_boot=dict(type='bool'), enable_integrity_monitoring=dict(type='bool'))
),
),
),
initial_node_count=dict(required=True, type='int'),
version=dict(type='str'),
autoscaling=dict(type='dict', options=dict(enabled=dict(type='bool'), min_node_count=dict(type='int'), max_node_count=dict(type='int'))),
management=dict(
type='dict', options=dict(auto_upgrade=dict(type='bool'), auto_repair=dict(type='bool'), upgrade_options=dict(type='dict', options=dict()))
),
max_pods_constraint=dict(type='dict', options=dict(max_pods_per_node=dict(type='int'))),
conditions=dict(type='list', elements='dict', options=dict(code=dict(type='str'))),
cluster=dict(required=True, type='dict'),
location=dict(required=True, type='str', aliases=['region', 'zone']),
)
)
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'config': NodePoolConfig(module.params.get('config', {}), module).to_request(),
u'initialNodeCount': module.params.get('initial_node_count'),
u'version': module.params.get('version'),
u'autoscaling': NodePoolAutoscaling(module.params.get('autoscaling', {}), module).to_request(),
u'management': NodePoolManagement(module.params.get('management', {}), module).to_request(),
u'maxPodsConstraint': NodePoolMaxpodsconstraint(module.params.get('max_pods_constraint', {}), module).to_request(),
u'conditions': NodePoolConditionsArray(module.params.get('conditions', []), module).to_request(),
}
request = encode_request(request, module)
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, allow_not_found=True):
auth = GcpSession(module, 'container')
return return_if_object(module, auth.get(link), allow_not_found)
def self_link(module):
res = {
'project': module.params['project'],
'location': module.params['location'],
'cluster': replace_resource_dict(module.params['cluster'], 'name'),
'name': module.params['name'],
}
return "https://container.googleapis.com/v1/projects/{project}/locations/{location}/clusters/{cluster}/nodePools/{name}".format(**res)
def collection(module):
res = {'project': module.params['project'], 'location': module.params['location'], 'cluster': replace_resource_dict(module.params['cluster'], 'name')}
return "https://container.googleapis.com/v1/projects/{project}/locations/{location}/clusters/{cluster}/nodePools".format(**res)
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):
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'name': response.get(u'name'),
u'config': NodePoolConfig(response.get(u'config', {}), module).from_response(),
u'initialNodeCount': module.params.get('initial_node_count'),
u'status': response.get(u'status'),
u'statusMessage': response.get(u'statusMessage'),
u'version': module.params.get('version'),
u'autoscaling': NodePoolAutoscaling(response.get(u'autoscaling', {}), module).from_response(),
u'management': NodePoolManagement(response.get(u'management', {}), module).from_response(),
u'maxPodsConstraint': NodePoolMaxpodsconstraint(response.get(u'maxPodsConstraint', {}), module).from_response(),
u'conditions': NodePoolConditionsArray(response.get(u'conditions', []), module).from_response(),
u'podIpv4CidrSize': response.get(u'podIpv4CidrSize'),
}
def async_op_url(module, extra_data=None):
if extra_data is None:
extra_data = {}
url = "https://container.googleapis.com/v1/projects/{project}/locations/{location}/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'], module)
time.sleep(1.0)
op_result = fetch_resource(module, op_uri, 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)
# Google Container Engine API has its own layout for the create method,
# defined like this:
#
# {
# 'nodePool': {
# ... node pool data
# }
# }
#
# Format the request to match the expected input by the API
def encode_request(resource_request, module):
return {'nodePool': resource_request}
class NodePoolConfig(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'),
u'accelerators': NodePoolAcceleratorsArray(self.request.get('accelerators', []), self.module).to_request(),
u'diskType': self.request.get('disk_type'),
u'minCpuPlatform': self.request.get('min_cpu_platform'),
u'taints': NodePoolTaintsArray(self.request.get('taints', []), self.module).to_request(),
u'shieldedInstanceConfig': NodePoolShieldedinstanceconfig(self.request.get('shielded_instance_config', {}), self.module).to_request(),
}
)
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'),
u'accelerators': NodePoolAcceleratorsArray(self.request.get(u'accelerators', []), self.module).from_response(),
u'diskType': self.request.get(u'diskType'),
u'minCpuPlatform': self.request.get(u'minCpuPlatform'),
u'taints': NodePoolTaintsArray(self.request.get(u'taints', []), self.module).from_response(),
u'shieldedInstanceConfig': NodePoolShieldedinstanceconfig(self.request.get(u'shieldedInstanceConfig', {}), self.module).from_response(),
}
)
class NodePoolAcceleratorsArray(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'acceleratorCount': item.get('accelerator_count'), u'acceleratorType': item.get('accelerator_type')})
def _response_from_item(self, item):
return remove_nones_from_dict({u'acceleratorCount': item.get(u'acceleratorCount'), u'acceleratorType': item.get(u'acceleratorType')})
class NodePoolTaintsArray(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'key': item.get('key'), u'value': item.get('value'), u'effect': item.get('effect')})
def _response_from_item(self, item):
return remove_nones_from_dict({u'key': item.get(u'key'), u'value': item.get(u'value'), u'effect': item.get(u'effect')})
class NodePoolShieldedinstanceconfig(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'enableSecureBoot': self.request.get('enable_secure_boot'), u'enableIntegrityMonitoring': self.request.get('enable_integrity_monitoring')}
)
def from_response(self):
return remove_nones_from_dict(
{u'enableSecureBoot': self.request.get(u'enableSecureBoot'), u'enableIntegrityMonitoring': self.request.get(u'enableIntegrityMonitoring')}
)
class NodePoolAutoscaling(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'enabled': self.request.get('enabled'), u'minNodeCount': self.request.get('min_node_count'), u'maxNodeCount': self.request.get('max_node_count')}
)
def from_response(self):
return remove_nones_from_dict(
{u'enabled': self.request.get(u'enabled'), u'minNodeCount': self.request.get(u'minNodeCount'), u'maxNodeCount': self.request.get(u'maxNodeCount')}
)
class NodePoolManagement(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'autoUpgrade': self.request.get('auto_upgrade'),
u'autoRepair': self.request.get('auto_repair'),
u'upgradeOptions': NodePoolUpgradeoptions(self.request.get('upgrade_options', {}), self.module).to_request(),
}
)
def from_response(self):
return remove_nones_from_dict(
{
u'autoUpgrade': self.request.get(u'autoUpgrade'),
u'autoRepair': self.request.get(u'autoRepair'),
u'upgradeOptions': NodePoolUpgradeoptions(self.request.get(u'upgradeOptions', {}), self.module).from_response(),
}
)
class NodePoolUpgradeoptions(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({})
def from_response(self):
return remove_nones_from_dict({})
class NodePoolMaxpodsconstraint(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'maxPodsPerNode': self.request.get('max_pods_per_node')})
def from_response(self):
return remove_nones_from_dict({u'maxPodsPerNode': self.request.get(u'maxPodsPerNode')})
class NodePoolConditionsArray(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'code': item.get('code')})
def _response_from_item(self, item):
return remove_nones_from_dict({u'code': item.get(u'code')})
if __name__ == '__main__':
main()