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Adds oneconnect profile module (#44360)

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This module can be used to manage oneconnect profiles on a BIG-IP
pull/44361/head
Tim Rupp 6 years ago committed by GitHub
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lib/ansible/modules/network/f5/bigip_profile_oneconnect.py
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#!/usr/bin/python
# -*- coding: utf-8 -*-
#
# Copyright: (c) 2018, F5 Networks Inc.
# GNU General Public License v3.0 (see COPYING 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 = r'''
---
module: bigip_profile_oneconnect
short_description: Manage OneConnect profiles on a BIG-IP
description:
- Manage OneConnect profiles on a BIG-IP.
version_added: 2.7
options:
name:
description:
- Specifies the name of the OneConnect profile.
required: True
parent:
description:
- Specifies the profile from which this profile inherits settings.
- When creating a new profile, if this parameter is not specified, the default
is the system-supplied C(oneconnect) profile.
source_mask:
description:
- Specifies a value that the system applies to the source address to determine
its eligibility for reuse.
- When creating a new profile, if this parameter is not specified, the
default is provided by the parent profile.
- The system applies the value of this setting to the server-side source address to
determine its eligibility for reuse.
- A mask of C(0) causes the system to share reused connections across all source
addresses. A host mask of C(32) causes the system to share only those reused
connections originating from the same source address.
- When you are using a SNAT or SNAT pool, the server-side source address is
translated first and then the OneConnect mask is applied to the translated address.
description:
description:
- Description of the profile.
maximum_size:
description:
- Specifies the maximum number of connections that the system holds in the
connection reuse pool.
- If the pool is already full, then a server-side connection closes after the
response is completed.
- When creating a new profile, if this parameter is not specified, the
default is provided by the parent profile.
maximum_age:
description:
- Specifies the maximum number of seconds allowed for a connection in the connection
reuse pool.
- For any connection with an age higher than this value, the system removes that
connection from the re-use pool.
- When creating a new profile, if this parameter is not specified, the
default is provided by the parent profile.
maximum_reuse:
description:
- Specifies the maximum number of times that a server-side connection can be reused.
- When creating a new profile, if this parameter is not specified, the
default is provided by the parent profile.
idle_timeout_override:
description:
- Specifies the number of seconds that a connection is idle before the connection
flow is eligible for deletion.
- When creating a new profile, if this parameter is not specified, the default
is provided by the parent profile.
- You may specify a number of seconds for the timeout override.
- When C(disabled), specifies that there is no timeout override for the connection.
- When C(indefinite), Specifies that a connection may be idle with no timeout
override.
limit_type:
description:
- When C(none), simultaneous in-flight requests and responses over TCP connections
to a pool member are counted toward the limit. This is the historical behavior.
- When C(idle), idle connections will be dropped as the TCP connection limit is
reached. For short intervals, during the overlap of the idle connection being
dropped and the new connection being established, the TCP connection limit may
be exceeded.
- When C(strict), the TCP connection limit is honored with no exceptions. This means
that idle connections will prevent new TCP connections from being made until
they expire, even if they could otherwise be reused.
- C(strict) is not a recommended configuration except in very special cases with
short expiration timeouts.
- When creating a new profile, if this parameter is not specified, the default
is provided by the parent profile.
choices:
- none
- idle
- strict
share_pools:
description:
- Indicates that connections may be shared not only within a virtual server, but
also among similar virtual servers
- When C(yes), all virtual servers that use the same OneConnect and other internal
network profiles can share connections.
- When creating a new profile, if this parameter is not specified, the default
is provided by the parent profile.
type: bool
partition:
description:
- Device partition to manage resources on.
default: Common
state:
description:
- When C(present), ensures that the profile exists.
- When C(absent), ensures the profile is removed.
default: present
choices:
- present
- absent
extends_documentation_fragment: f5
author:
- Tim Rupp (@caphrim007)
'''
EXAMPLES = r'''
- name: Create a OneConnect profile
bigip_profile_oneconnect:
name: foo
password: secret
server: lb.mydomain.com
state: present
user: admin
delegate_to: localhost
'''
RETURN = r'''
source_mask:
description: Value that the system applies to the source address to determine its eligibility for reuse.
returned: changed
type: string
sample: 255.255.255.255
description:
description: Description of the profile.
returned: changed
type: string
sample: My profile
maximum_size:
description: Maximum number of connections that the system holds in the connection reuse pool.
returned: changed
type: int
sample: 3000
maximum_age:
description: Maximum number of seconds allowed for a connection in the connection reuse pool.
returned: changed
type: int
sample: 2000
maximum_reuse:
description: Maximum number of times that a server-side connection can be reused.
returned: changed
type: int
sample: 1000
idle_timeout_override:
description: The new idle timeout override.
returned: changed
type: string
sample: disabled
limit_type:
description: New limit type of the profile.
returned: changed
type: string
sample: idle
share_pools:
description: Share connections among similar virtual servers.
returned: changed
type: bool
sample: yes
'''
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.basic import env_fallback
try:
from library.module_utils.network.f5.bigip import HAS_F5SDK
from library.module_utils.network.f5.bigip import F5Client
from library.module_utils.network.f5.common import F5ModuleError
from library.module_utils.network.f5.common import AnsibleF5Parameters
from library.module_utils.network.f5.common import cleanup_tokens
from library.module_utils.network.f5.common import fq_name
from library.module_utils.network.f5.common import f5_argument_spec
from library.module_utils.network.f5.ipaddress import is_valid_ip
try:
from library.module_utils.network.f5.common import iControlUnexpectedHTTPError
except ImportError:
HAS_F5SDK = False
except ImportError:
from ansible.module_utils.network.f5.bigip import HAS_F5SDK
from ansible.module_utils.network.f5.bigip import F5Client
from ansible.module_utils.network.f5.common import F5ModuleError
from ansible.module_utils.network.f5.common import AnsibleF5Parameters
from ansible.module_utils.network.f5.common import cleanup_tokens
from ansible.module_utils.network.f5.common import fq_name
from ansible.module_utils.network.f5.common import f5_argument_spec
from ansible.module_utils.network.f5.ipaddress import is_valid_ip
try:
from ansible.module_utils.network.f5.common import iControlUnexpectedHTTPError
except ImportError:
HAS_F5SDK = False
class Parameters(AnsibleF5Parameters):
api_map = {
'sourceMask': 'source_mask',
'maxSize': 'maximum_size',
'maxReuse': 'maximum_reuse',
'maxAge': 'maximum_age',
'defaultsFrom': 'parent',
'limitType': 'limit_type',
'idleTimeoutOverride': 'idle_timeout_override',
'sharePools': 'share_pools'
}
api_attributes = [
'sourceMask',
'maxSize',
'defaultsFrom',
'description',
'limitType',
'idleTimeoutOverride',
'maxAge',
'maxReuse',
'sharePools'
]
returnables = [
'description',
'source_mask',
'maximum_size',
'maximum_age',
'maximum_reuse',
'limit_type',
'idle_timeout_override',
'share_pools'
]
updatables = [
'description',
'source_mask',
'maximum_size',
'maximum_age',
'maximum_reuse',
'limit_type',
'idle_timeout_override',
'share_pools'
]
class ApiParameters(Parameters):
@property
def source_mask(self):
if self._values['source_mask'] is None:
return None
elif self._values['source_mask'] == 'any':
return 0
return self._values['source_mask']
@property
def idle_timeout_override(self):
if self._values['idle_timeout_override'] is None:
return None
try:
return int(self._values['idle_timeout_override'])
except ValueError:
return self._values['idle_timeout_override']
class ModuleParameters(Parameters):
@property
def parent(self):
if self._values['parent'] is None:
return None
result = fq_name(self.partition, self._values['parent'])
return result
@property
def idle_timeout_override(self):
if self._values['idle_timeout_override'] is None:
return None
try:
return int(self._values['idle_timeout_override'])
except ValueError:
return self._values['idle_timeout_override']
@property
def source_mask(self):
if self._values['source_mask'] is None:
return None
elif self._values['source_mask'] == 'any':
return 0
try:
int(self._values['source_mask'])
raise F5ModuleError(
"'source_mask' must not be in CIDR format."
)
except ValueError:
pass
if is_valid_ip(self._values['source_mask']):
return self._values['source_mask']
@property
def share_pools(self):
if self._values['share_pools'] is None:
return None
elif self._values['share_pools'] is True:
return 'enabled'
return 'disabled'
class Changes(Parameters):
def to_return(self):
result = {}
try:
for returnable in self.returnables:
result[returnable] = getattr(self, returnable)
result = self._filter_params(result)
except Exception:
pass
return result
class UsableChanges(Changes):
pass
class ReportableChanges(Changes):
@property
def idle_timeout_override(self):
try:
return int(self._values['idle_timeout_override'])
except ValueError:
return self._values['idle_timeout_override']
@property
def share_pools(self):
if self._values['idle_timeout_override'] is None:
return None
elif self._values['idle_timeout_override'] == 'enabled':
return 'yes'
elif self._values['idle_timeout_override'] == 'disabled':
return 'no'
class Difference(object):
def __init__(self, want, have=None):
self.want = want
self.have = have
def compare(self, param):
try:
result = getattr(self, param)
return result
except AttributeError:
return self.__default(param)
def __default(self, param):
attr1 = getattr(self.want, param)
try:
attr2 = getattr(self.have, param)
if attr1 != attr2:
return attr1
except AttributeError:
return attr1
@property
def parent(self):
if self.want.parent != self.have.parent:
raise F5ModuleError(
"The parent profile cannot be changed"
)
class ModuleManager(object):
def __init__(self, *args, **kwargs):
self.module = kwargs.get('module', None)
self.client = kwargs.get('client', None)
self.want = ModuleParameters(params=self.module.params)
self.have = ApiParameters()
self.changes = UsableChanges()
def _set_changed_options(self):
changed = {}
for key in Parameters.returnables:
if getattr(self.want, key) is not None:
changed[key] = getattr(self.want, key)
if changed:
self.changes = UsableChanges(params=changed)
def _update_changed_options(self):
diff = Difference(self.want, self.have)
updatables = Parameters.updatables
changed = dict()
for k in updatables:
change = diff.compare(k)
if change is None:
continue
else:
if isinstance(change, dict):
changed.update(change)
else:
changed[k] = change
if changed:
self.changes = UsableChanges(params=changed)
return True
return False
def should_update(self):
result = self._update_changed_options()
if result:
return True
return False
def exec_module(self):
changed = False
result = dict()
state = self.want.state
try:
if state == "present":
changed = self.present()
elif state == "absent":
changed = self.absent()
except iControlUnexpectedHTTPError as e:
raise F5ModuleError(str(e))
reportable = ReportableChanges(params=self.changes.to_return())
changes = reportable.to_return()
result.update(**changes)
result.update(dict(changed=changed))
self._announce_deprecations(result)
return result
def _announce_deprecations(self, result):
warnings = result.pop('__warnings', [])
for warning in warnings:
self.client.module.deprecate(
msg=warning['msg'],
version=warning['version']
)
def present(self):
if self.exists():
return self.update()
else:
return self.create()
def exists(self):
result = self.client.api.tm.ltm.profile.one_connects.one_connect.exists(
name=self.want.name,
partition=self.want.partition
)
return result
def update(self):
self.have = self.read_current_from_device()
if not self.should_update():
return False
if self.module.check_mode:
return True
self.update_on_device()
return True
def remove(self):
if self.module.check_mode:
return True
self.remove_from_device()
if self.exists():
raise F5ModuleError("Failed to delete the resource.")
return True
def create(self):
self._set_changed_options()
if self.module.check_mode:
return True
self.create_on_device()
return True
def create_on_device(self):
params = self.changes.api_params()
self.client.api.tm.ltm.profile.one_connects.one_connect.create(
name=self.want.name,
partition=self.want.partition,
**params
)
def update_on_device(self):
params = self.changes.api_params()
resource = self.client.api.tm.ltm.profile.one_connects.one_connect.load(
name=self.want.name,
partition=self.want.partition
)
resource.modify(**params)
def absent(self):
if self.exists():
return self.remove()
return False
def remove_from_device(self):
resource = self.client.api.tm.ltm.profile.one_connects.one_connect.load(
name=self.want.name,
partition=self.want.partition
)
if resource:
resource.delete()
def read_current_from_device(self):
resource = self.client.api.tm.ltm.profile.one_connects.one_connect.load(
name=self.want.name,
partition=self.want.partition
)
result = resource.attrs
return ApiParameters(params=result)
class ArgumentSpec(object):
def __init__(self):
self.supports_check_mode = True
argument_spec = dict(
name=dict(required=True),
description=dict(),
parent=dict(),
source_mask=dict(),
maximum_size=dict(type='int'),
maximum_reuse=dict(type='int'),
maximum_age=dict(type='int'),
limit_type=dict(
choices=['none', 'idle', 'strict']
),
idle_timeout_override=dict(),
share_pools=dict(type='bool'),
state=dict(
default='present',
choices=['present', 'absent']
),
partition=dict(
default='Common',
fallback=(env_fallback, ['F5_PARTITION'])
)
)
self.argument_spec = {}
self.argument_spec.update(f5_argument_spec)
self.argument_spec.update(argument_spec)
def main():
spec = ArgumentSpec()
module = AnsibleModule(
argument_spec=spec.argument_spec,
supports_check_mode=spec.supports_check_mode
)
if not HAS_F5SDK:
module.fail_json(msg="The python f5-sdk module is required")
try:
client = F5Client(**module.params)
mm = ModuleManager(module=module, client=client)
results = mm.exec_module()
cleanup_tokens(client)
module.exit_json(**results)
except F5ModuleError as ex:
cleanup_tokens(client)
module.fail_json(msg=str(ex))
if __name__ == '__main__':
main()

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test/units/modules/network/f5/test_bigip_profile_oneconnect.py
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# -*- coding: utf-8 -*-
#
# Copyright: (c) 2017, F5 Networks Inc.
# GNU General Public License v3.0 (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
import os
import json
import pytest
import sys
from nose.plugins.skip import SkipTest
if sys.version_info < (2, 7):
raise SkipTest("F5 Ansible modules require Python >= 2.7")
from ansible.compat.tests import unittest
from ansible.compat.tests.mock import Mock
from ansible.compat.tests.mock import patch
from ansible.module_utils.basic import AnsibleModule
try:
from library.modules.bigip_profile_oneconnect import ApiParameters
from library.modules.bigip_profile_oneconnect import ModuleParameters
from library.modules.bigip_profile_oneconnect import ModuleManager
from library.modules.bigip_profile_oneconnect import ArgumentSpec
from library.module_utils.network.f5.common import F5ModuleError
from library.module_utils.network.f5.common import iControlUnexpectedHTTPError
from test.unit.modules.utils import set_module_args
except ImportError:
try:
from ansible.modules.network.f5.bigip_profile_oneconnect import ApiParameters
from ansible.modules.network.f5.bigip_profile_oneconnect import ModuleParameters
from ansible.modules.network.f5.bigip_profile_oneconnect import ModuleManager
from ansible.modules.network.f5.bigip_profile_oneconnect import ArgumentSpec
from ansible.module_utils.network.f5.common import F5ModuleError
from ansible.module_utils.network.f5.common import iControlUnexpectedHTTPError
from units.modules.utils import set_module_args
except ImportError:
raise SkipTest("F5 Ansible modules require the f5-sdk Python library")
fixture_path = os.path.join(os.path.dirname(__file__), 'fixtures')
fixture_data = {}
def load_fixture(name):
path = os.path.join(fixture_path, name)
if path in fixture_data:
return fixture_data[path]
with open(path) as f:
data = f.read()
try:
data = json.loads(data)
except Exception:
pass
fixture_data[path] = data
return data
class TestParameters(unittest.TestCase):
def test_module_parameters(self):
args = dict(
name='foo',
parent='bar',
maximum_size=100,
maximum_age=200,
maximum_reuse=300,
idle_timeout_override=20,
limit_type='strict'
)
p = ModuleParameters(params=args)
assert p.name == 'foo'
assert p.parent == '/Common/bar'
assert p.maximum_size == 100
assert p.maximum_age == 200
assert p.maximum_reuse == 300
assert p.idle_timeout_override == 20
assert p.limit_type == 'strict'
def test_api_parameters(self):
args = load_fixture('load_ltm_profile_oneconnect_1.json')
p = ApiParameters(params=args)
assert p.name == 'oneconnect'
assert p.maximum_reuse == 1000
class TestManager(unittest.TestCase):
def setUp(self):
self.spec = ArgumentSpec()
def test_create(self, *args):
# Configure the arguments that would be sent to the Ansible module
set_module_args(dict(
name='foo',
parent='bar',
maximum_reuse=1000,
password='password',
server='localhost',
user='admin'
))
module = AnsibleModule(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode
)
mm = ModuleManager(module=module)
# Override methods to force specific logic in the module to happen
mm.exists = Mock(return_value=False)
mm.create_on_device = Mock(return_value=True)
results = mm.exec_module()
assert results['changed'] is True
assert results['maximum_reuse'] == 1000
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