File: //lib/python3.9/site-packages/ansible_collections/cisco/aci/plugins/modules/aci_firmware_group.py
# GNU General Public License v3.0+ (see LICENSE or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import absolute_import, division, print_function
__metaclass__ = type
ANSIBLE_METADATA = {"metadata_version": "1.1", "status": ["preview"], "supported_by": "community"}
DOCUMENTATION = """
---
module: aci_firmware_group
short_description: This module creates a firmware group
description:
- This module creates a firmware group, so that you can apply firmware policy to nodes.
options:
group:
description:
- This the name of the firmware group
type: str
firmwarepol:
description:
- This is the name of the firmware policy, which was create by aci_firmware_policy. It is important that
- you use the same name as the policy created with aci_firmware_policy
type: str
state:
description:
- Use C(present) or C(absent) for adding or removing.
- Use C(query) for listing an object or multiple objects.
type: str
default: present
choices: [ absent, present, query ]
name_alias:
description:
- The alias for the current object. This relates to the nameAlias field in ACI.
type: str
extends_documentation_fragment:
- cisco.aci.aci
- cisco.aci.annotation
- cisco.aci.owner
author:
- Steven Gerhart (@sgerhart)
"""
EXAMPLES = r"""
- name: Create a firmware group
cisco.aci.aci_firmware_group:
host: apic
username: admin
password: SomeSecretPassword
group: fmgroup
firmwarepol: fmpolicy1
state: present
delegate_to: localhost
- name: Delete a firmware group
cisco.aci.aci_firmware_group:
host: apic
username: admin
password: SomeSecretPassword
group: fmgroup
state: absent
delegate_to: localhost
- name: Query all firmware groups
cisco.aci.aci_firmware_group:
host: apic
username: admin
password: SomeSecretPassword
state: query
delegate_to: localhost
register: query_result
- name: Query a specific firmware group
cisco.aci.aci_firmware_group:
host: apic
username: admin
password: SomeSecretPassword
group: fmgroup
state: query
delegate_to: localhost
register: query_result
"""
RETURN = """
current:
description: The existing configuration from the APIC after the module has finished
returned: success
type: list
sample:
[
{
"fvTenant": {
"attributes": {
"descr": "Production environment",
"dn": "uni/tn-production",
"name": "production",
"nameAlias": "",
"ownerKey": "",
"ownerTag": ""
}
}
}
]
error:
description: The error information as returned from the APIC
returned: failure
type: dict
sample:
{
"code": "122",
"text": "unknown managed object class foo"
}
raw:
description: The raw output returned by the APIC REST API (xml or json)
returned: parse error
type: str
sample: '<?xml version="1.0" encoding="UTF-8"?><imdata totalCount="1"><error code="122" text="unknown managed object class foo"/></imdata>'
sent:
description: The actual/minimal configuration pushed to the APIC
returned: info
type: list
sample:
{
"fvTenant": {
"attributes": {
"descr": "Production environment"
}
}
}
previous:
description: The original configuration from the APIC before the module has started
returned: info
type: list
sample:
[
{
"fvTenant": {
"attributes": {
"descr": "Production",
"dn": "uni/tn-production",
"name": "production",
"nameAlias": "",
"ownerKey": "",
"ownerTag": ""
}
}
}
]
proposed:
description: The assembled configuration from the user-provided parameters
returned: info
type: dict
sample:
{
"fvTenant": {
"attributes": {
"descr": "Production environment",
"name": "production"
}
}
}
filter_string:
description: The filter string used for the request
returned: failure or debug
type: str
sample: ?rsp-prop-include=config-only
method:
description: The HTTP method used for the request to the APIC
returned: failure or debug
type: str
sample: POST
response:
description: The HTTP response from the APIC
returned: failure or debug
type: str
sample: OK (30 bytes)
status:
description: The HTTP status from the APIC
returned: failure or debug
type: int
sample: 200
url:
description: The HTTP url used for the request to the APIC
returned: failure or debug
type: str
sample: https://10.11.12.13/api/mo/uni/tn-production.json
"""
from ansible_collections.cisco.aci.plugins.module_utils.aci import ACIModule, aci_argument_spec, aci_annotation_spec, aci_owner_spec
from ansible.module_utils.basic import AnsibleModule
def main():
argument_spec = aci_argument_spec()
argument_spec.update(aci_annotation_spec())
argument_spec.update(aci_owner_spec())
argument_spec.update(
group=dict(type="str"), # Not required for querying all objects
firmwarepol=dict(type="str"), # Not required for querying all objects
state=dict(type="str", default="present", choices=["absent", "present", "query"]),
name_alias=dict(type="str"),
)
module = AnsibleModule(
argument_spec=argument_spec,
supports_check_mode=True,
required_if=[
["state", "absent", ["group"]],
["state", "present", ["group", "firmwarepol"]],
],
)
state = module.params.get("state")
group = module.params.get("group")
firmwarepol = module.params.get("firmwarepol")
name_alias = module.params.get("name_alias")
aci = ACIModule(module)
aci.construct_url(
root_class=dict(
aci_class="firmwareFwGrp",
aci_rn="fabric/fwgrp-{0}".format(group),
target_filter={"name": group},
module_object=group,
),
child_classes=["firmwareRsFwgrpp"],
)
aci.get_existing()
if state == "present":
aci.payload(
aci_class="firmwareFwGrp",
class_config=dict(
name=group,
nameAlias=name_alias,
),
child_configs=[
dict(
firmwareRsFwgrpp=dict(
attributes=dict(
tnFirmwareFwPName=firmwarepol,
),
),
),
],
)
aci.get_diff(aci_class="firmwareFwGrp")
aci.post_config()
elif state == "absent":
aci.delete_config()
aci.exit_json()
if __name__ == "__main__":
main()