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

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#!/usr/bin/python
# -*- 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_instance
description:
- An instance is a virtual machine (VM) hosted on Google's infrastructure.
short_description: Creates a GCP Instance
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'
can_ip_forward:
description:
- Allows this instance to send and receive packets with non-matching destination or
source IPs. This is required if you plan to use this instance to forward routes.
required: false
type: bool
disks:
description:
- An array of disks that are associated with the instances that are created from this
template.
required: false
suboptions:
auto_delete:
description:
- Specifies whether the disk will be auto-deleted when the instance is deleted (but
not when the disk is detached from the instance).
- 'Tip: Disks should be set to autoDelete=true so that leftover disks are not left
behind on machine deletion.'
required: false
type: bool
boot:
description:
- Indicates that this is a boot disk. The virtual machine will use the first partition
of the disk for its root filesystem.
required: false
type: bool
device_name:
description:
- Specifies a unique device name of your choice that is reflected into the /dev/disk/by-id/google-*
tree of a Linux operating system running within the instance. This name can be used
to reference the device for mounting, resizing, and so on, from within the instance.
required: false
disk_encryption_key:
description:
- Encrypts or decrypts a disk using a customer-supplied encryption key.
required: false
suboptions:
raw_key:
description:
- Specifies a 256-bit customer-supplied encryption key, encoded in RFC 4648 base64
to either encrypt or decrypt this resource.
required: false
rsa_encrypted_key:
description:
- Specifies an RFC 4648 base64 encoded, RSA-wrapped 2048-bit customer-supplied encryption
key to either encrypt or decrypt this resource.
required: false
sha256:
description:
- The RFC 4648 base64 encoded SHA-256 hash of the customer-supplied encryption key
that protects this resource.
required: false
index:
description:
- Assigns a zero-based index to this disk, where 0 is reserved for the boot disk.
For example, if you have many disks attached to an instance, each disk would have
a unique index number. If not specified, the server will choose an appropriate value.
required: false
initialize_params:
description:
- Specifies the parameters for a new disk that will be created alongside the new instance.
Use initialization parameters to create boot disks or local SSDs attached to the
new instance.
required: false
suboptions:
disk_name:
description:
- Specifies the disk name. If not specified, the default is to use the name of the
instance.
required: false
disk_size_gb:
description:
- Specifies the size of the disk in base-2 GB.
required: false
disk_type:
description:
- Reference to a gcompute_disk_type resource.
- Specifies the disk type to use to create the instance.
- If not specified, the default is pd-standard.
required: false
source_image:
description:
- The source image to create this disk. When creating a new instance, one of initializeParams.sourceImage
or disks.source is required. To create a disk with one of the public operating
system images, specify the image by its family name.
required: false
source_image_encryption_key:
description:
- The customer-supplied encryption key of the source image. Required if the source
image is protected by a customer-supplied encryption key.
- Instance templates do not store customer-supplied encryption keys, so you cannot
create disks for instances in a managed instance group if the source images are
encrypted with your own keys.
required: false
suboptions:
raw_key:
description:
- Specifies a 256-bit customer-supplied encryption key, encoded in RFC 4648 base64
to either encrypt or decrypt this resource.
required: false
sha256:
description:
- The RFC 4648 base64 encoded SHA-256 hash of the customer-supplied encryption key
that protects this resource.
required: false
interface:
description:
- Specifies the disk interface to use for attaching this disk, which is either SCSI
or NVME. The default is SCSI.
- Persistent disks must always use SCSI and the request will fail if you attempt to
attach a persistent disk in any other format than SCSI.
required: false
choices: ['SCSI', 'NVME']
mode:
description:
- The mode in which to attach this disk, either READ_WRITE or READ_ONLY. If not specified,
the default is to attach the disk in READ_WRITE mode.
required: false
choices: ['READ_WRITE', 'READ_ONLY']
source:
description:
- Reference to a gcompute_disk resource. When creating a new instance, one of initializeParams.sourceImage
or disks.source is required.
- If desired, you can also attach existing non-root persistent disks using this property.
This field is only applicable for persistent disks.
required: false
type:
description:
- Specifies the type of the disk, either SCRATCH or PERSISTENT. If not specified,
the default is PERSISTENT.
required: false
choices: ['SCRATCH', 'PERSISTENT']
guest_accelerators:
description:
- List of the type and count of accelerator cards attached to the instance .
required: false
suboptions:
accelerator_count:
description:
- The number of the guest accelerator cards exposed to this instance.
required: false
accelerator_type:
description:
- Full or partial URL of the accelerator type resource to expose to this instance.
required: false
label_fingerprint:
description:
- A fingerprint for this request, which is essentially a hash of the metadata's contents
and used for optimistic locking. The fingerprint is initially generated by Compute
Engine and changes after every request to modify or update metadata. You must always
provide an up-to-date fingerprint hash in order to update or change metadata.
required: false
metadata:
description:
- The metadata key/value pairs to assign to instances that are created from this template.
These pairs can consist of custom metadata or predefined keys.
required: false
machine_type:
description:
- A reference to a machine type which defines VM kind.
required: false
min_cpu_platform:
description:
- Specifies a minimum CPU platform for the VM instance. Applicable values are the
friendly names of CPU platforms .
required: false
name:
description:
- The name of the resource, provided by the client when initially creating the resource.
The resource 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: false
network_interfaces:
description:
- An array of configurations for this interface. This specifies how this interface
is configured to interact with other network services, such as connecting to the
internet. Only one network interface is supported per instance.
required: false
suboptions:
access_configs:
description:
- An array of configurations for this interface. Currently, only one access config,
ONE_TO_ONE_NAT, is supported. If there are no accessConfigs specified, then this
instance will have no external internet access.
required: false
suboptions:
name:
description:
- The name of this access configuration. The default and recommended name is External
NAT but you can use any arbitrary string you would like. For example, My external
IP or Network Access.
required: true
nat_ip:
description:
- Specifies the title of a gcompute_address.
- An external IP address associated with this instance.
- Specify an unused static external IP address available to the project or leave this
field undefined to use an IP from a shared ephemeral IP address pool. If you specify
a static external IP address, it must live in the same region as the zone of the
instance.
required: false
type:
description:
- The type of configuration. The default and only option is ONE_TO_ONE_NAT.
required: true
choices: ['ONE_TO_ONE_NAT']
alias_ip_ranges:
description:
- An array of alias IP ranges for this network interface. Can only be specified for
network interfaces on subnet-mode networks.
required: false
suboptions:
ip_cidr_range:
description:
- The IP CIDR range represented by this alias IP range.
- This IP CIDR range must belong to the specified subnetwork and cannot contain IP
addresses reserved by system or used by other network interfaces. This range may
be a single IP address (e.g. 10.2.3.4), a netmask (e.g. /24) or a CIDR format string
(e.g. 10.1.2.0/24).
required: false
subnetwork_range_name:
description:
- Optional subnetwork secondary range name specifying the secondary range from which
to allocate the IP CIDR range for this alias IP range. If left unspecified, the
primary range of the subnetwork will be used.
required: false
name:
description:
- The name of the network interface, generated by the server. For network devices,
these are eth0, eth1, etc .
required: false
network:
description:
- Specifies the title of an existing gcompute_network. When creating an instance,
if neither the network nor the subnetwork is specified, the default network global/networks/default
is used; if the network is not specified but the subnetwork is specified, the network
is inferred.
required: false
network_ip:
description:
- An IPv4 internal network address to assign to the instance for this network interface.
If not specified by the user, an unused internal IP is assigned by the system.
required: false
subnetwork:
description:
- Reference to a gcompute_subnetwork resource.
- If the network resource is in legacy mode, do not provide this property. If the
network is in auto subnet mode, providing the subnetwork is optional. If the network
is in custom subnet mode, then this field should be specified.
required: false
scheduling:
description:
- Sets the scheduling options for this instance.
required: false
suboptions:
automatic_restart:
description:
- Specifies whether the instance should be automatically restarted if it is terminated
by Compute Engine (not terminated by a user).
- You can only set the automatic restart option for standard instances. Preemptible
instances cannot be automatically restarted.
required: false
type: bool
on_host_maintenance:
description:
- Defines the maintenance behavior for this instance. For standard instances, the
default behavior is MIGRATE. For preemptible instances, the default and only possible
behavior is TERMINATE.
- For more information, see Setting Instance Scheduling Options.
required: false
preemptible:
description:
- Defines whether the instance is preemptible. This can only be set during instance
creation, it cannot be set or changed after the instance has been created.
required: false
type: bool
service_accounts:
description:
- A list of service accounts, with their specified scopes, authorized for this instance.
Only one service account per VM instance is supported.
required: false
suboptions:
email:
description:
- Email address of the service account.
required: false
scopes:
description:
- The list of scopes to be made available for this service account.
required: false
tags:
description:
- A list of tags to apply to this instance. Tags are used to identify valid sources
or targets for network firewalls and are specified by the client during instance
creation. The tags can be later modified by the setTags method. Each tag within
the list must comply with RFC1035.
required: false
suboptions:
fingerprint:
description:
- Specifies a fingerprint for this request, which is essentially a hash of the metadata's
contents and used for optimistic locking.
- The fingerprint is initially generated by Compute Engine and changes after every
request to modify or update metadata. You must always provide an up-to-date fingerprint
hash in order to update or change metadata.
required: false
items:
description:
- An array of tags. Each tag must be 1-63 characters long, and comply with RFC1035.
required: false
zone:
description:
- A reference to the zone where the machine resides.
required: true
extends_documentation_fragment: gcp
'''
EXAMPLES = '''
- name: create a disk
gcp_compute_disk:
name: "disk-instance"
size_gb: 50
source_image: projects/ubuntu-os-cloud/global/images/family/ubuntu-1604-lts
zone: us-central1-a
project: "{{ gcp_project }}"
auth_kind: "{{ gcp_cred_kind }}"
service_account_file: "{{ gcp_cred_file }}"
state: present
register: disk
- name: create a network
gcp_compute_network:
name: "network-instance"
project: "{{ gcp_project }}"
auth_kind: "{{ gcp_cred_kind }}"
service_account_file: "{{ gcp_cred_file }}"
state: present
register: network
- name: create a address
gcp_compute_address:
name: "address-instance"
region: us-central1
project: "{{ gcp_project }}"
auth_kind: "{{ gcp_cred_kind }}"
service_account_file: "{{ gcp_cred_file }}"
state: present
register: address
- name: create a instance
gcp_compute_instance:
name: "test_object"
machine_type: n1-standard-1
disks:
- auto_delete: true
boot: true
source: "{{ disk }}"
metadata:
startup-script-url: gs:://graphite-playground/bootstrap.sh
cost-center: '12345'
network_interfaces:
- network: "{{ network }}"
access_configs:
- name: External NAT
nat_ip: "{{ address }}"
type: ONE_TO_ONE_NAT
zone: us-central1-a
project: "test_project"
auth_kind: "service_account"
service_account_file: "/tmp/auth.pem"
state: present
'''
RETURN = '''
can_ip_forward:
description:
- Allows this instance to send and receive packets with non-matching destination or
source IPs. This is required if you plan to use this instance to forward routes.
returned: success
type: bool
cpu_platform:
description:
- The CPU platform used by this instance.
returned: success
type: str
creation_timestamp:
description:
- Creation timestamp in RFC3339 text format.
returned: success
type: str
disks:
description:
- An array of disks that are associated with the instances that are created from this
template.
returned: success
type: complex
contains:
auto_delete:
description:
- Specifies whether the disk will be auto-deleted when the instance is deleted (but
not when the disk is detached from the instance).
- 'Tip: Disks should be set to autoDelete=true so that leftover disks are not left
behind on machine deletion.'
returned: success
type: bool
boot:
description:
- Indicates that this is a boot disk. The virtual machine will use the first partition
of the disk for its root filesystem.
returned: success
type: bool
device_name:
description:
- Specifies a unique device name of your choice that is reflected into the /dev/disk/by-id/google-*
tree of a Linux operating system running within the instance. This name can be used
to reference the device for mounting, resizing, and so on, from within the instance.
returned: success
type: str
disk_encryption_key:
description:
- Encrypts or decrypts a disk using a customer-supplied encryption key.
returned: success
type: complex
contains:
raw_key:
description:
- Specifies a 256-bit customer-supplied encryption key, encoded in RFC 4648 base64
to either encrypt or decrypt this resource.
returned: success
type: str
rsa_encrypted_key:
description:
- Specifies an RFC 4648 base64 encoded, RSA-wrapped 2048-bit customer-supplied encryption
key to either encrypt or decrypt this resource.
returned: success
type: str
sha256:
description:
- The RFC 4648 base64 encoded SHA-256 hash of the customer-supplied encryption key
that protects this resource.
returned: success
type: str
index:
description:
- Assigns a zero-based index to this disk, where 0 is reserved for the boot disk.
For example, if you have many disks attached to an instance, each disk would have
a unique index number. If not specified, the server will choose an appropriate value.
returned: success
type: int
initialize_params:
description:
- Specifies the parameters for a new disk that will be created alongside the new instance.
Use initialization parameters to create boot disks or local SSDs attached to the
new instance.
returned: success
type: complex
contains:
disk_name:
description:
- Specifies the disk name. If not specified, the default is to use the name of the
instance.
returned: success
type: str
disk_size_gb:
description:
- Specifies the size of the disk in base-2 GB.
returned: success
type: int
disk_type:
description:
- Reference to a gcompute_disk_type resource.
- Specifies the disk type to use to create the instance.
- If not specified, the default is pd-standard.
returned: success
type: str
source_image:
description:
- The source image to create this disk. When creating a new instance, one of initializeParams.sourceImage
or disks.source is required. To create a disk with one of the public operating
system images, specify the image by its family name.
returned: success
type: str
source_image_encryption_key:
description:
- The customer-supplied encryption key of the source image. Required if the source
image is protected by a customer-supplied encryption key.
- Instance templates do not store customer-supplied encryption keys, so you cannot
create disks for instances in a managed instance group if the source images are
encrypted with your own keys.
returned: success
type: complex
contains:
raw_key:
description:
- Specifies a 256-bit customer-supplied encryption key, encoded in RFC 4648 base64
to either encrypt or decrypt this resource.
returned: success
type: str
sha256:
description:
- The RFC 4648 base64 encoded SHA-256 hash of the customer-supplied encryption key
that protects this resource.
returned: success
type: str
interface:
description:
- Specifies the disk interface to use for attaching this disk, which is either SCSI
or NVME. The default is SCSI.
- Persistent disks must always use SCSI and the request will fail if you attempt to
attach a persistent disk in any other format than SCSI.
returned: success
type: str
mode:
description:
- The mode in which to attach this disk, either READ_WRITE or READ_ONLY. If not specified,
the default is to attach the disk in READ_WRITE mode.
returned: success
type: str
source:
description:
- Reference to a gcompute_disk resource. When creating a new instance, one of initializeParams.sourceImage
or disks.source is required.
- If desired, you can also attach existing non-root persistent disks using this property.
This field is only applicable for persistent disks.
returned: success
type: dict
type:
description:
- Specifies the type of the disk, either SCRATCH or PERSISTENT. If not specified,
the default is PERSISTENT.
returned: success
type: str
guest_accelerators:
description:
- List of the type and count of accelerator cards attached to the instance .
returned: success
type: complex
contains:
accelerator_count:
description:
- The number of the guest accelerator cards exposed to this instance.
returned: success
type: int
accelerator_type:
description:
- Full or partial URL of the accelerator type resource to expose to this instance.
returned: success
type: str
id:
description:
- The unique identifier for the resource. This identifier is defined by the server.
returned: success
type: int
label_fingerprint:
description:
- A fingerprint for this request, which is essentially a hash of the metadata's contents
and used for optimistic locking. The fingerprint is initially generated by Compute
Engine and changes after every request to modify or update metadata. You must always
provide an up-to-date fingerprint hash in order to update or change metadata.
returned: success
type: str
metadata:
description:
- The metadata key/value pairs to assign to instances that are created from this template.
These pairs can consist of custom metadata or predefined keys.
returned: success
type: dict
machine_type:
description:
- A reference to a machine type which defines VM kind.
returned: success
type: str
min_cpu_platform:
description:
- Specifies a minimum CPU platform for the VM instance. Applicable values are the
friendly names of CPU platforms .
returned: success
type: str
name:
description:
- The name of the resource, provided by the client when initially creating the resource.
The resource 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_interfaces:
description:
- An array of configurations for this interface. This specifies how this interface
is configured to interact with other network services, such as connecting to the
internet. Only one network interface is supported per instance.
returned: success
type: complex
contains:
access_configs:
description:
- An array of configurations for this interface. Currently, only one access config,
ONE_TO_ONE_NAT, is supported. If there are no accessConfigs specified, then this
instance will have no external internet access.
returned: success
type: complex
contains:
name:
description:
- The name of this access configuration. The default and recommended name is External
NAT but you can use any arbitrary string you would like. For example, My external
IP or Network Access.
returned: success
type: str
nat_ip:
description:
- Specifies the title of a gcompute_address.
- An external IP address associated with this instance.
- Specify an unused static external IP address available to the project or leave this
field undefined to use an IP from a shared ephemeral IP address pool. If you specify
a static external IP address, it must live in the same region as the zone of the
instance.
returned: success
type: dict
type:
description:
- The type of configuration. The default and only option is ONE_TO_ONE_NAT.
returned: success
type: str
alias_ip_ranges:
description:
- An array of alias IP ranges for this network interface. Can only be specified for
network interfaces on subnet-mode networks.
returned: success
type: complex
contains:
ip_cidr_range:
description:
- The IP CIDR range represented by this alias IP range.
- This IP CIDR range must belong to the specified subnetwork and cannot contain IP
addresses reserved by system or used by other network interfaces. This range may
be a single IP address (e.g. 10.2.3.4), a netmask (e.g. /24) or a CIDR format string
(e.g. 10.1.2.0/24).
returned: success
type: str
subnetwork_range_name:
description:
- Optional subnetwork secondary range name specifying the secondary range from which
to allocate the IP CIDR range for this alias IP range. If left unspecified, the
primary range of the subnetwork will be used.
returned: success
type: str
name:
description:
- The name of the network interface, generated by the server. For network devices,
these are eth0, eth1, etc .
returned: success
type: str
network:
description:
- Specifies the title of an existing gcompute_network. When creating an instance,
if neither the network nor the subnetwork is specified, the default network global/networks/default
is used; if the network is not specified but the subnetwork is specified, the network
is inferred.
returned: success
type: dict
network_ip:
description:
- An IPv4 internal network address to assign to the instance for this network interface.
If not specified by the user, an unused internal IP is assigned by the system.
returned: success
type: str
subnetwork:
description:
- Reference to a gcompute_subnetwork resource.
- If the network resource is in legacy mode, do not provide this property. If the
network is in auto subnet mode, providing the subnetwork is optional. If the network
is in custom subnet mode, then this field should be specified.
returned: success
type: dict
scheduling:
description:
- Sets the scheduling options for this instance.
returned: success
type: complex
contains:
automatic_restart:
description:
- Specifies whether the instance should be automatically restarted if it is terminated
by Compute Engine (not terminated by a user).
- You can only set the automatic restart option for standard instances. Preemptible
instances cannot be automatically restarted.
returned: success
type: bool
on_host_maintenance:
description:
- Defines the maintenance behavior for this instance. For standard instances, the
default behavior is MIGRATE. For preemptible instances, the default and only possible
behavior is TERMINATE.
- For more information, see Setting Instance Scheduling Options.
returned: success
type: str
preemptible:
description:
- Defines whether the instance is preemptible. This can only be set during instance
creation, it cannot be set or changed after the instance has been created.
returned: success
type: bool
service_accounts:
description:
- A list of service accounts, with their specified scopes, authorized for this instance.
Only one service account per VM instance is supported.
returned: success
type: complex
contains:
email:
description:
- Email address of the service account.
returned: success
type: str
scopes:
description:
- The list of scopes to be made available for this service account.
returned: success
type: list
status:
description:
- 'The status of the instance. One of the following values: PROVISIONING, STAGING,
RUNNING, STOPPING, SUSPENDING, SUSPENDED, and TERMINATED.'
returned: success
type: str
status_message:
description:
- An optional, human-readable explanation of the status.
returned: success
type: str
tags:
description:
- A list of tags to apply to this instance. Tags are used to identify valid sources
or targets for network firewalls and are specified by the client during instance
creation. The tags can be later modified by the setTags method. Each tag within
the list must comply with RFC1035.
returned: success
type: complex
contains:
fingerprint:
description:
- Specifies a fingerprint for this request, which is essentially a hash of the metadata's
contents and used for optimistic locking.
- The fingerprint is initially generated by Compute Engine and changes after every
request to modify or update metadata. You must always provide an up-to-date fingerprint
hash in order to update or change metadata.
returned: success
type: str
items:
description:
- An array of tags. Each tag must be 1-63 characters long, and comply with RFC1035.
returned: success
type: list
zone:
description:
- A reference to the zone where the machine resides.
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 re
import time
################################################################################
# Main
################################################################################
def main():
"""Main function"""
module = GcpModule(
argument_spec=dict(
state=dict(default='present', choices=['present', 'absent'], type='str'),
can_ip_forward=dict(type='bool'),
disks=dict(type='list', elements='dict', options=dict(
auto_delete=dict(type='bool'),
boot=dict(type='bool'),
device_name=dict(type='str'),
disk_encryption_key=dict(type='dict', options=dict(
raw_key=dict(type='str'),
rsa_encrypted_key=dict(type='str'),
sha256=dict(type='str')
)),
index=dict(type='int'),
initialize_params=dict(type='dict', options=dict(
disk_name=dict(type='str'),
disk_size_gb=dict(type='int'),
disk_type=dict(type='str'),
source_image=dict(type='str'),
source_image_encryption_key=dict(type='dict', options=dict(
raw_key=dict(type='str'),
sha256=dict(type='str')
))
)),
interface=dict(type='str', choices=['SCSI', 'NVME']),
mode=dict(type='str', choices=['READ_WRITE', 'READ_ONLY']),
source=dict(type='dict'),
type=dict(type='str', choices=['SCRATCH', 'PERSISTENT'])
)),
guest_accelerators=dict(type='list', elements='dict', options=dict(
accelerator_count=dict(type='int'),
accelerator_type=dict(type='str')
)),
label_fingerprint=dict(type='str'),
metadata=dict(type='dict'),
machine_type=dict(type='str'),
min_cpu_platform=dict(type='str'),
name=dict(type='str'),
network_interfaces=dict(type='list', elements='dict', options=dict(
access_configs=dict(type='list', elements='dict', options=dict(
name=dict(required=True, type='str'),
nat_ip=dict(type='dict'),
type=dict(required=True, type='str', choices=['ONE_TO_ONE_NAT'])
)),
alias_ip_ranges=dict(type='list', elements='dict', options=dict(
ip_cidr_range=dict(type='str'),
subnetwork_range_name=dict(type='str')
)),
name=dict(type='str'),
network=dict(type='dict'),
network_ip=dict(type='str'),
subnetwork=dict(type='dict')
)),
scheduling=dict(type='dict', options=dict(
automatic_restart=dict(type='bool'),
on_host_maintenance=dict(type='str'),
preemptible=dict(type='bool')
)),
service_accounts=dict(type='list', elements='dict', options=dict(
email=dict(type='str'),
scopes=dict(type='list', elements='str')
)),
tags=dict(type='dict', options=dict(
fingerprint=dict(type='str'),
items=dict(type='list', elements='str')
)),
zone=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#instance'
fetch = fetch_resource(module, self_link(module), kind)
changed = False
if fetch:
if state == 'present':
if is_different(module, fetch):
fetch = update(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):
auth = GcpSession(module, 'compute')
return wait_for_operation(module, auth.put(link, resource_to_request(module)))
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#instance',
u'canIpForward': module.params.get('can_ip_forward'),
u'disks': InstanceDisksArray(module.params.get('disks', []), module).to_request(),
u'guestAccelerators': InstanceGuestAcceleratorsArray(module.params.get('guest_accelerators', []), module).to_request(),
u'labelFingerprint': module.params.get('label_fingerprint'),
u'metadata': module.params.get('metadata'),
u'machineType': machine_type_selflink(module.params.get('machine_type'), module.params),
u'minCpuPlatform': module.params.get('min_cpu_platform'),
u'name': module.params.get('name'),
u'networkInterfaces': InstanceNetworkInterfacesArray(module.params.get('network_interfaces', []), module).to_request(),
u'scheduling': InstanceScheduling(module.params.get('scheduling', {}), module).to_request(),
u'serviceAccounts': InstanceServiceAccountsArray(module.params.get('service_accounts', []), module).to_request(),
u'tags': InstanceTags(module.params.get('tags', {}), module).to_request()
}
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, kind):
auth = GcpSession(module, 'compute')
return return_if_object(module, auth.get(link), kind)
def self_link(module):
return "https://www.googleapis.com/compute/v1/projects/{project}/zones/{zone}/instances/{name}".format(**module.params)
def collection(module):
return "https://www.googleapis.com/compute/v1/projects/{project}/zones/{zone}/instances".format(**module.params)
def return_if_object(module, response, kind):
# If not found, return nothing.
if 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)
result = decode_response(result, module)
if navigate_hash(result, ['error', 'errors']):
module.fail_json(msg=navigate_hash(result, ['error', 'errors']))
if result['kind'] != kind:
module.fail_json(msg="Incorrect result: {kind}".format(**result))
return result
def is_different(module, response):
request = resource_to_request(module)
response = response_to_hash(module, response)
request = decode_response(request, module)
# 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'canIpForward': response.get(u'canIpForward'),
u'cpuPlatform': response.get(u'cpuPlatform'),
u'creationTimestamp': response.get(u'creationTimestamp'),
u'disks': InstanceDisksArray(module.params.get('disks', []), module).to_request(),
u'guestAccelerators': InstanceGuestAcceleratorsArray(response.get(u'guestAccelerators', []), module).from_response(),
u'id': response.get(u'id'),
u'labelFingerprint': response.get(u'labelFingerprint'),
u'metadata': response.get(u'metadata'),
u'machineType': response.get(u'machineType'),
u'minCpuPlatform': response.get(u'minCpuPlatform'),
u'name': response.get(u'name'),
u'networkInterfaces': InstanceNetworkInterfacesArray(response.get(u'networkInterfaces', []), module).from_response(),
u'scheduling': InstanceScheduling(response.get(u'scheduling', {}), module).from_response(),
u'serviceAccounts': InstanceServiceAccountsArray(response.get(u'serviceAccounts', []), module).from_response(),
u'status': response.get(u'status'),
u'statusMessage': response.get(u'statusMessage'),
u'tags': InstanceTags(response.get(u'tags', {}), module).from_response()
}
def disk_type_selflink(name, params):
if name is None:
return
url = r"https://www.googleapis.com/compute/v1/projects/.*/zones/{zone}/diskTypes/[a-z1-9\-]*"
if not re.match(url, name):
name = "https://www.googleapis.com/compute/v1/projects/{project}/zones/{zone}/diskTypes/%s".format(**params) % name
return name
def machine_type_selflink(name, params):
if name is None:
return
url = r"https://www.googleapis.com/compute/v1/projects/.*/zones/{zone}/machineTypes/[a-z1-9\-]*"
if not re.match(url, name):
name = "https://www.googleapis.com/compute/v1/projects/{project}/zones/{zone}/machineTypes/%s".format(**params) % name
return name
def async_op_url(module, extra_data=None):
if extra_data is None:
extra_data = {}
url = "https://www.googleapis.com/compute/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, '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#instance')
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)
if status not in ['PENDING', 'RUNNING', 'DONE']:
module.fail_json(msg="Invalid result %s" % status)
op_result = fetch_resource(module, op_uri, 'compute#operation')
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)
def encode_request(request, module):
if 'metadata' in request and request['metadata'] is not None:
request['metadata'] = metadata_encoder(request['metadata'])
return request
def decode_response(response, module):
if 'metadata' in response:
response['metadata'] = metadata_decoder(response['metadata'])
return response
# TODO(alexstephen): Implement updating metadata on exsiting resources.
# Expose instance 'metadata' as a simple name/value pair hash. However the API
# defines metadata as a NestedObject with the following layout:
#
# metadata {
# fingerprint: 'hash-of-last-metadata'
# items: [
# {
# key: 'metadata1-key'
# value: 'metadata1-value'
# },
# ...
# ]
# }
#
def metadata_encoder(metadata):
metadata_new = []
for key in metadata:
value = metadata[key]
metadata_new.append({
"key": key,
"value": value
})
return {
'items': metadata_new
}
# Map metadata.items[]{key:,value:} => metadata[key]=value
def metadata_decoder(metadata):
items = {}
if 'items' in metadata:
metadata_items = metadata['items']
for item in metadata_items:
items[item['key']] = item['value']
return items
class InstanceDisksArray(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'autoDelete': item.get('auto_delete'),
u'boot': item.get('boot'),
u'deviceName': item.get('device_name'),
u'diskEncryptionKey': InstanceDiskEncryptionKey(item.get('disk_encryption_key', {}), self.module).to_request(),
u'index': item.get('index'),
u'initializeParams': InstanceInitializeParams(item.get('initialize_params', {}), self.module).to_request(),
u'interface': item.get('interface'),
u'mode': item.get('mode'),
u'source': replace_resource_dict(item.get(u'source', {}), 'selfLink'),
u'type': item.get('type')
})
def _response_from_item(self, item):
return remove_nones_from_dict({
u'autoDelete': item.get(u'autoDelete'),
u'boot': item.get(u'boot'),
u'deviceName': item.get(u'deviceName'),
u'diskEncryptionKey': InstanceDiskEncryptionKey(item.get(u'diskEncryptionKey', {}), self.module).from_response(),
u'index': item.get(u'index'),
u'initializeParams': InstanceInitializeParams(self.module.params.get('initialize_params', {}), self.module).to_request(),
u'interface': item.get(u'interface'),
u'mode': item.get(u'mode'),
u'source': item.get(u'source'),
u'type': item.get(u'type')
})
class InstanceDiskEncryptionKey(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'rawKey': self.request.get('raw_key'),
u'rsaEncryptedKey': self.request.get('rsa_encrypted_key'),
u'sha256': self.request.get('sha256')
})
def from_response(self):
return remove_nones_from_dict({
u'rawKey': self.request.get(u'rawKey'),
u'rsaEncryptedKey': self.request.get(u'rsaEncryptedKey'),
u'sha256': self.request.get(u'sha256')
})
class InstanceInitializeParams(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'diskName': self.request.get('disk_name'),
u'diskSizeGb': self.request.get('disk_size_gb'),
u'diskType': disk_type_selflink(self.request.get('disk_type'), self.module.params),
u'sourceImage': self.request.get('source_image'),
u'sourceImageEncryptionKey': InstanceSourceImageEncryptionKey(self.request.get('source_image_encryption_key', {}), self.module).to_request()
})
def from_response(self):
return remove_nones_from_dict({
u'diskName': self.request.get(u'diskName'),
u'diskSizeGb': self.request.get(u'diskSizeGb'),
u'diskType': self.request.get(u'diskType'),
u'sourceImage': self.request.get(u'sourceImage'),
u'sourceImageEncryptionKey': InstanceSourceImageEncryptionKey(self.request.get(u'sourceImageEncryptionKey', {}), self.module).from_response()
})
class InstanceSourceImageEncryptionKey(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'rawKey': self.request.get('raw_key'),
u'sha256': self.request.get('sha256')
})
def from_response(self):
return remove_nones_from_dict({
u'rawKey': self.request.get(u'rawKey'),
u'sha256': self.request.get(u'sha256')
})
class InstanceGuestAcceleratorsArray(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 InstanceNetworkInterfacesArray(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'accessConfigs': InstanceAccessConfigsArray(item.get('access_configs', []), self.module).to_request(),
u'aliasIpRanges': InstanceAliasIpRangesArray(item.get('alias_ip_ranges', []), self.module).to_request(),
u'name': item.get('name'),
u'network': replace_resource_dict(item.get(u'network', {}), 'selfLink'),
u'networkIP': item.get('network_ip'),
u'subnetwork': replace_resource_dict(item.get(u'subnetwork', {}), 'selfLink')
})
def _response_from_item(self, item):
return remove_nones_from_dict({
u'accessConfigs': InstanceAccessConfigsArray(item.get(u'accessConfigs', []), self.module).from_response(),
u'aliasIpRanges': InstanceAliasIpRangesArray(item.get(u'aliasIpRanges', []), self.module).from_response(),
u'name': item.get(u'name'),
u'network': item.get(u'network'),
u'networkIP': item.get(u'networkIP'),
u'subnetwork': item.get(u'subnetwork')
})
class InstanceAccessConfigsArray(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'name': item.get('name'),
u'natIP': replace_resource_dict(item.get(u'nat_ip', {}), 'address'),
u'type': item.get('type')
})
def _response_from_item(self, item):
return remove_nones_from_dict({
u'name': item.get(u'name'),
u'natIP': item.get(u'natIP'),
u'type': item.get(u'type')
})
class InstanceAliasIpRangesArray(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'ipCidrRange': item.get('ip_cidr_range'),
u'subnetworkRangeName': item.get('subnetwork_range_name')
})
def _response_from_item(self, item):
return remove_nones_from_dict({
u'ipCidrRange': item.get(u'ipCidrRange'),
u'subnetworkRangeName': item.get(u'subnetworkRangeName')
})
class InstanceScheduling(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'automaticRestart': self.request.get('automatic_restart'),
u'onHostMaintenance': self.request.get('on_host_maintenance'),
u'preemptible': self.request.get('preemptible')
})
def from_response(self):
return remove_nones_from_dict({
u'automaticRestart': self.request.get(u'automaticRestart'),
u'onHostMaintenance': self.request.get(u'onHostMaintenance'),
u'preemptible': self.request.get(u'preemptible')
})
class InstanceServiceAccountsArray(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'email': item.get('email'),
u'scopes': item.get('scopes')
})
def _response_from_item(self, item):
return remove_nones_from_dict({
u'email': item.get(u'email'),
u'scopes': item.get(u'scopes')
})
class InstanceTags(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'fingerprint': self.request.get('fingerprint'),
u'items': self.request.get('items')
})
def from_response(self):
return remove_nones_from_dict({
u'fingerprint': self.request.get(u'fingerprint'),
u'items': self.request.get(u'items')
})
if __name__ == '__main__':
main()
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