Refactors bigip_vlan (#33489)

This patch adds tests and refactors the code to be inline with current
f5 coding standards
This commit is contained in:
Tim Rupp 2017-12-02 18:58:51 -08:00 committed by GitHub
parent f9b138b0ab
commit 277d416b5b
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7 changed files with 1257 additions and 261 deletions

View file

@ -4,11 +4,15 @@
# 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
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'community'}
DOCUMENTATION = '''
DOCUMENTATION = r'''
---
module: bigip_vlan
short_description: Manage VLANs on a BIG-IP system
@ -24,27 +28,24 @@ options:
- Specifies a list of tagged interfaces and trunks that you want to
configure for the VLAN. Use tagged interfaces or trunks when
you want to assign a single interface or trunk to multiple VLANs.
required: false
aliases:
- tagged_interface
untagged_interfaces:
description:
- Specifies a list of untagged interfaces and trunks that you want to
configure for the VLAN.
required: false
aliases:
- untagged_interface
name:
description:
- The VLAN to manage. If the special VLAN C(ALL) is specified with
the C(state) value of C(absent) then all VLANs will be removed.
required: true
required: True
state:
description:
- The state of the VLAN on the system. When C(present), guarantees
that the VLAN exists with the provided attributes. When C(absent),
removes the VLAN from the system.
required: false
default: present
choices:
- absent
@ -63,9 +64,10 @@ requirements:
- f5-sdk
author:
- Tim Rupp (@caphrim007)
- Wojciech Wypior (@wojtek0806)
'''
EXAMPLES = '''
EXAMPLES = r'''
- name: Create VLAN
bigip_vlan:
name: "net1"
@ -110,7 +112,7 @@ EXAMPLES = '''
delegate_to: localhost
'''
RETURN = '''
RETURN = r'''
description:
description: The description set on the VLAN
returned: changed
@ -138,255 +140,141 @@ tag:
sample: 2345
'''
from ansible.module_utils.f5_utils import AnsibleF5Client
from ansible.module_utils.f5_utils import AnsibleF5Parameters
from ansible.module_utils.f5_utils import HAS_F5SDK
from ansible.module_utils.f5_utils import F5ModuleError
from ansible.module_utils.six import iteritems
from collections import defaultdict
try:
from f5.bigip import ManagementRoot
from icontrol.session import iControlUnexpectedHTTPError
HAS_F5SDK = True
from ansible.module_utils.f5_utils import iControlUnexpectedHTTPError
except ImportError:
HAS_F5SDK = False
class BigIpVlan(object):
def __init__(self, *args, **kwargs):
if not HAS_F5SDK:
raise F5ModuleError("The python f5-sdk module is required")
# The params that change in the module
self.cparams = dict()
# Stores the params that are sent to the module
self.params = kwargs
self.api = ManagementRoot(kwargs['server'],
kwargs['user'],
kwargs['password'],
port=kwargs['server_port'])
def present(self):
if self.exists():
return self.update()
else:
return self.create()
def absent(self):
changed = False
if self.exists():
changed = self.delete()
return changed
def read(self):
"""Read information and transform it
The values that are returned by BIG-IP in the f5-sdk can have encoding
attached to them as well as be completely missing in some cases.
Therefore, this method will transform the data from the BIG-IP into a
format that is more easily consumable by the rest of the class and the
parameters that are supported by the module.
"""
p = dict()
name = self.params['name']
partition = self.params['partition']
r = self.api.tm.net.vlans.vlan.load(
name=name,
partition=partition
)
ifcs = r.interfaces_s.get_collection()
if hasattr(r, 'tag'):
p['tag'] = int(r.tag)
if hasattr(r, 'description'):
p['description'] = str(r.description)
if len(ifcs) is not 0:
untagged = []
tagged = []
for x in ifcs:
if hasattr(x, 'tagged'):
tagged.append(str(x.name))
elif hasattr(x, 'untagged'):
untagged.append(str(x.name))
if untagged:
p['untagged_interfaces'] = list(set(untagged))
if tagged:
p['tagged_interfaces'] = list(set(tagged))
p['name'] = name
return p
def create(self):
params = dict()
check_mode = self.params['check_mode']
description = self.params['description']
name = self.params['name']
untagged_interfaces = self.params['untagged_interfaces']
tagged_interfaces = self.params['tagged_interfaces']
partition = self.params['partition']
tag = self.params['tag']
if tag is not None:
params['tag'] = tag
if untagged_interfaces is not None or tagged_interfaces is not None:
tmp = []
ifcs = self.api.tm.net.interfaces.get_collection()
ifcs = [str(x.name) for x in ifcs]
if len(ifcs) is 0:
raise F5ModuleError(
'No interfaces were found'
)
pinterfaces = []
if untagged_interfaces:
interfaces = untagged_interfaces
elif tagged_interfaces:
interfaces = tagged_interfaces
for ifc in interfaces:
ifc = str(ifc)
if ifc in ifcs:
pinterfaces.append(ifc)
if tagged_interfaces:
tmp = [dict(name=x, tagged=True) for x in pinterfaces]
elif untagged_interfaces:
tmp = [dict(name=x, untagged=True) for x in pinterfaces]
if tmp:
params['interfaces'] = tmp
if description is not None:
params['description'] = self.params['description']
params['name'] = name
params['partition'] = partition
self.cparams = camel_dict_to_snake_dict(params)
if check_mode:
return True
d = self.api.tm.net.vlans.vlan
d.create(**params)
if self.exists():
return True
else:
raise F5ModuleError("Failed to create the VLAN")
def update(self):
changed = False
params = dict()
current = self.read()
check_mode = self.params['check_mode']
description = self.params['description']
name = self.params['name']
tag = self.params['tag']
partition = self.params['partition']
tagged_interfaces = self.params['tagged_interfaces']
untagged_interfaces = self.params['untagged_interfaces']
if untagged_interfaces is not None or tagged_interfaces is not None:
ifcs = self.api.tm.net.interfaces.get_collection()
ifcs = [str(x.name) for x in ifcs]
if len(ifcs) is 0:
raise F5ModuleError(
'No interfaces were found'
)
pinterfaces = []
if untagged_interfaces:
interfaces = untagged_interfaces
elif tagged_interfaces:
interfaces = tagged_interfaces
for ifc in interfaces:
ifc = str(ifc)
if ifc in ifcs:
pinterfaces.append(ifc)
else:
raise F5ModuleError(
'The specified interface "%s" was not found' % (ifc)
)
if tagged_interfaces:
tmp = [dict(name=x, tagged=True) for x in pinterfaces]
if 'tagged_interfaces' in current:
if pinterfaces != current['tagged_interfaces']:
params['interfaces'] = tmp
else:
params['interfaces'] = tmp
elif untagged_interfaces:
tmp = [dict(name=x, untagged=True) for x in pinterfaces]
if 'untagged_interfaces' in current:
if pinterfaces != current['untagged_interfaces']:
params['interfaces'] = tmp
else:
params['interfaces'] = tmp
if description is not None:
if 'description' in current:
if description != current['description']:
params['description'] = description
else:
params['description'] = description
if tag is not None:
if 'tag' in current:
if tag != current['tag']:
params['tag'] = tag
else:
params['tag'] = tag
class Parameters(AnsibleF5Parameters):
def __init__(self, params=None):
self._values = defaultdict(lambda: None)
if params:
changed = True
params['name'] = name
params['partition'] = partition
if check_mode:
return changed
self.cparams = camel_dict_to_snake_dict(params)
self.update(params=params)
def update(self, params=None):
if params:
for k, v in iteritems(params):
if self.api_map is not None and k in self.api_map:
map_key = self.api_map[k]
else:
return changed
map_key = k
r = self.api.tm.net.vlans.vlan.load(
name=name,
partition=partition
)
r.update(**params)
r.refresh()
# Handle weird API parameters like `dns.proxy.__iter__` by
# using a map provided by the module developer
class_attr = getattr(type(self), map_key, None)
if isinstance(class_attr, property):
# There is a mapped value for the api_map key
if class_attr.fset is None:
# If the mapped value does not have
# an associated setter
self._values[map_key] = v
else:
# The mapped value has a setter
setattr(self, map_key, v)
else:
# If the mapped value is not a @property
self._values[map_key] = v
return True
updatables = [
'tagged_interfaces', 'untagged_interfaces', 'tag',
'description'
]
def delete(self):
params = dict()
check_mode = self.params['check_mode']
returnables = [
'description', 'partition', 'name', 'tag', 'interfaces',
'tagged_interfaces', 'untagged_interfaces'
]
params['name'] = self.params['name']
params['partition'] = self.params['partition']
api_attributes = [
'description', 'interfaces', 'partition', 'name', 'tag'
]
api_map = {}
self.cparams = camel_dict_to_snake_dict(params)
if check_mode:
return True
@property
def interfaces(self):
tagged = self._values['tagged_interfaces']
untagged = self._values['untagged_interfaces']
if tagged:
return [dict(name=x, tagged=True) for x in tagged]
if untagged:
return [dict(name=x, untagged=True) for x in untagged]
dc = self.api.tm.net.vlans.vlan.load(**params)
dc.delete()
@property
def tagged_interfaces(self):
value = self._values['tagged_interfaces']
if value is None:
return None
ifcs = self._parse_return_ifcs()
for ifc in value:
if ifc not in ifcs:
err = 'The specified interface "%s" was not found' % ifc
raise F5ModuleError(err)
return value
if self.exists():
raise F5ModuleError("Failed to delete the VLAN")
return True
@property
def untagged_interfaces(self):
value = self._values['untagged_interfaces']
if value is None:
return None
ifcs = self._parse_return_ifcs()
for ifc in value:
if ifc not in ifcs:
err = 'The specified interface "%s" was not found' % ifc
raise F5ModuleError(err)
return value
def exists(self):
name = self.params['name']
partition = self.params['partition']
return self.api.tm.net.vlans.vlan.exists(
name=name,
partition=partition
)
def _get_interfaces_from_device(self):
lst = self.client.api.tm.net.interfaces.get_collection()
return lst
def flush(self):
def _parse_return_ifcs(self):
ifclst = self._get_interfaces_from_device()
ifcs = [str(x.name) for x in ifclst]
if not ifcs:
err = 'No interfaces were found'
raise F5ModuleError(err)
return ifcs
def to_return(self):
result = {}
for returnable in self.returnables:
result[returnable] = getattr(self, returnable)
result = self._filter_params(result)
return result
def api_params(self):
result = {}
for api_attribute in self.api_attributes:
if api_attribute in self.api_map:
result[api_attribute] = getattr(
self, self.api_map[api_attribute])
else:
result[api_attribute] = getattr(self, api_attribute)
result = self._filter_params(result)
return result
class ModuleManager(object):
def __init__(self, client):
self.client = client
self.have = None
self.want = Parameters()
self.want.client = self.client
self.want.update(self.client.module.params)
self.changes = Parameters()
def exec_module(self):
changed = False
result = dict()
state = self.params['state']
state = self.want.state
try:
if state == "present":
@ -396,42 +284,161 @@ class BigIpVlan(object):
except iControlUnexpectedHTTPError as e:
raise F5ModuleError(str(e))
result.update(**self.cparams)
changes = self.changes.to_return()
result.update(**changes)
result.update(dict(changed=changed))
return result
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 = Parameters(changed)
def _update_changed_options(self):
changed = {}
for key in Parameters.updatables:
if getattr(self.want, key) is not None:
attr1 = getattr(self.want, key)
attr2 = getattr(self.have, key)
if attr1 != attr2:
changed[key] = attr1
if changed:
self.changes = Parameters(changed)
return True
return False
def _have_interfaces(self, ifcs):
untagged = [str(x.name) for x in ifcs if hasattr(x, 'untagged')]
tagged = [str(x.name) for x in ifcs if hasattr(x, 'tagged')]
if untagged:
self.have.update({'untagged_interfaces': untagged})
if tagged:
self.have.update({'tagged_interfaces': tagged})
def present(self):
if self.exists():
return self.update()
else:
return self.create()
def absent(self):
if self.exists():
return self.remove()
return False
def should_update(self):
result = self._update_changed_options()
if result:
return True
return False
def update(self):
self.have, ifcs = self.read_current_from_device()
if ifcs:
self._have_interfaces(ifcs)
if not self.should_update():
return False
if self.client.check_mode:
return True
self.update_on_device()
return True
def remove(self):
if self.client.check_mode:
return True
self.remove_from_device()
if self.exists():
raise F5ModuleError("Failed to delete the VLAN")
return True
def create(self):
self._set_changed_options()
if self.client.check_mode:
return True
self.create_on_device()
return True
def create_on_device(self):
params = self.want.api_params()
self.client.api.tm.net.vlans.vlan.create(**params)
def update_on_device(self):
params = self.want.api_params()
result = self.client.api.tm.net.vlans.vlan.load(
name=self.want.name, partition=self.want.partition
)
result.modify(**params)
def exists(self):
return self.client.api.tm.net.vlans.vlan.exists(
name=self.want.name, partition=self.want.partition
)
def remove_from_device(self):
result = self.client.api.tm.net.vlans.vlan.load(
name=self.want.name, partition=self.want.partition
)
if result:
result.delete()
def read_current_from_device(self):
tmp_res = self.client.api.tm.net.vlans.vlan.load(
name=self.want.name, partition=self.want.partition
)
ifcs = tmp_res.interfaces_s.get_collection()
result = tmp_res.attrs
return Parameters(result), ifcs
class ArgumentSpec(object):
def __init__(self):
self.supports_check_mode = True
self.argument_spec = dict(
name=dict(
required=True,
),
tagged_interfaces=dict(
type='list',
aliases=['tagged_interface']
),
untagged_interfaces=dict(
type='list',
aliases=['untagged_interface']
),
description=dict(),
tag=dict(
type='int'
)
)
self.f5_product_name = 'bigip'
def main():
argument_spec = f5_argument_spec()
if not HAS_F5SDK:
raise F5ModuleError("The python f5-sdk module is required")
meta_args = dict(
description=dict(required=False, default=None),
tagged_interfaces=dict(required=False, default=None, type='list', aliases=['tagged_interface']),
untagged_interfaces=dict(required=False, default=None, type='list', aliases=['untagged_interface']),
name=dict(required=True),
tag=dict(required=False, default=None, type='int')
)
argument_spec.update(meta_args)
spec = ArgumentSpec()
module = AnsibleModule(
argument_spec=argument_spec,
supports_check_mode=True,
client = AnsibleF5Client(
argument_spec=spec.argument_spec,
supports_check_mode=spec.supports_check_mode,
f5_product_name=spec.f5_product_name,
mutually_exclusive=[
['tagged_interfaces', 'untagged_interfaces']
]
)
try:
obj = BigIpVlan(check_mode=module.check_mode, **module.params)
result = obj.flush()
module.exit_json(**result)
mm = ModuleManager(client)
results = mm.exec_module()
client.module.exit_json(**results)
except F5ModuleError as e:
module.fail_json(msg=str(e))
client.module.fail_json(msg=str(e))
from ansible.module_utils.basic import *
from ansible.module_utils.ec2 import camel_dict_to_snake_dict
from ansible.module_utils.f5_utils import *
if __name__ == '__main__':
main()

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@ -0,0 +1,424 @@
[
{
"kind": "tm:net:interface:interfacestate",
"name": "1.1",
"fullPath": "1.1",
"generation": 7767,
"selfLink": "https://localhost/mgmt/tm/net/interface/1.1?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 176,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:02",
"mediaActive": "none",
"mediaFixed": "auto",
"mediaMax": "1000T-FD",
"mediaSfp": "auto",
"mtu": 9198,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto"
},
{
"kind": "tm:net:interface:interfacestate",
"name": "1.2",
"fullPath": "1.2",
"generation": 7770,
"selfLink": "https://localhost/mgmt/tm/net/interface/1.2?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 192,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:03",
"mediaActive": "none",
"mediaFixed": "auto",
"mediaMax": "1000T-FD",
"mediaSfp": "auto",
"mtu": 9198,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto"
},
{
"kind": "tm:net:interface:interfacestate",
"name": "1.3",
"fullPath": "1.3",
"generation": 7773,
"selfLink": "https://localhost/mgmt/tm/net/interface/1.3?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 208,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:04",
"mediaActive": "none",
"mediaFixed": "auto",
"mediaMax": "1000T-FD",
"mediaSfp": "auto",
"mtu": 9198,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto"
},
{
"kind": "tm:net:interface:interfacestate",
"name": "1.4",
"fullPath": "1.4",
"generation": 7776,
"selfLink": "https://localhost/mgmt/tm/net/interface/1.4?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 224,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:05",
"mediaActive": "none",
"mediaFixed": "auto",
"mediaMax": "1000T-FD",
"mediaSfp": "auto",
"mtu": 9198,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto"
},
{
"kind": "tm:net:interface:interfacestate",
"name": "2.1",
"fullPath": "2.1",
"generation": 7859,
"selfLink": "https://localhost/mgmt/tm/net/interface/2.1?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 240,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:06",
"mediaActive": "10000SR-FD",
"mediaFixed": "auto",
"mediaMax": "10000T-FD",
"mediaSfp": "auto",
"moduleDescription": "F5 compatible optics",
"mtu": 9198,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"serial": "ARP2LGU",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto",
"vendor": "F5 NETWORKS INC.",
"vendorOui": "009065",
"vendorPartnum": "OPT-0016",
"vendorRevision": "A0"
},
{
"kind": "tm:net:interface:interfacestate",
"name": "2.2",
"fullPath": "2.2",
"generation": 7746,
"selfLink": "https://localhost/mgmt/tm/net/interface/2.2?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 256,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:07",
"mediaActive": "none",
"mediaFixed": "auto",
"mediaMax": "10000T-FD",
"mediaSfp": "auto",
"mtu": 9198,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto"
},
{
"kind": "tm:net:interface:interfacestate",
"name": "2.3",
"fullPath": "2.3",
"generation": 7749,
"selfLink": "https://localhost/mgmt/tm/net/interface/2.3?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 272,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:08",
"mediaActive": "none",
"mediaFixed": "auto",
"mediaMax": "10000T-FD",
"mediaSfp": "auto",
"mtu": 9198,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto"
},
{
"kind": "tm:net:interface:interfacestate",
"name": "2.4",
"fullPath": "2.4",
"generation": 7752,
"selfLink": "https://localhost/mgmt/tm/net/interface/2.4?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 288,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:09",
"mediaActive": "none",
"mediaFixed": "auto",
"mediaMax": "10000T-FD",
"mediaSfp": "auto",
"mtu": 9198,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto"
},
{
"kind": "tm:net:interface:interfacestate",
"name": "2.5",
"fullPath": "2.5",
"generation": 7755,
"selfLink": "https://localhost/mgmt/tm/net/interface/2.5?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 304,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:0a",
"mediaActive": "none",
"mediaFixed": "auto",
"mediaMax": "10000T-FD",
"mediaSfp": "auto",
"mtu": 9198,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto"
},
{
"kind": "tm:net:interface:interfacestate",
"name": "2.6",
"fullPath": "2.6",
"generation": 7758,
"selfLink": "https://localhost/mgmt/tm/net/interface/2.6?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 320,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:0b",
"mediaActive": "none",
"mediaFixed": "auto",
"mediaMax": "10000T-FD",
"mediaSfp": "auto",
"mtu": 9198,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto"
},
{
"kind": "tm:net:interface:interfacestate",
"name": "2.7",
"fullPath": "2.7",
"generation": 7761,
"selfLink": "https://localhost/mgmt/tm/net/interface/2.7?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 336,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:0c",
"mediaActive": "none",
"mediaFixed": "auto",
"mediaMax": "10000T-FD",
"mediaSfp": "auto",
"mtu": 9198,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto"
},
{
"kind": "tm:net:interface:interfacestate",
"name": "2.8",
"fullPath": "2.8",
"generation": 7764,
"selfLink": "https://localhost/mgmt/tm/net/interface/2.8?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 352,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:0d",
"mediaActive": "none",
"mediaFixed": "auto",
"mediaMax": "10000T-FD",
"mediaSfp": "auto",
"mtu": 9198,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto"
},
{
"kind": "tm:net:interface:interfacestate",
"name": "mgmt",
"fullPath": "mgmt",
"generation": 7651,
"selfLink": "https://localhost/mgmt/tm/net/interface/mgmt?ver=12.1.0",
"bundle": "not-supported",
"bundleSpeed": "not-supported",
"enabled": true,
"flowControl": "tx-rx",
"forceGigabitFiber": "disabled",
"forwardErrorCorrection": "not-supported",
"ifIndex": 96,
"lldpAdmin": "txonly",
"lldpTlvmap": 130943,
"macAddress": "00:23:e9:f1:e4:01",
"mediaActive": "1000T-FD",
"mediaFixed": "auto",
"mediaMax": "1000T-FD",
"mediaSfp": "auto",
"mtu": 1500,
"preferPort": "sfp",
"qinqEthertype": "0x8100",
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes"
},
"stp": "enabled",
"stpAutoEdgePort": "enabled",
"stpEdgePort": "true",
"stpLinkType": "auto"
}
]

View file

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{
"kind": "tm:net:vlan:vlanstate",
"name": "somevlan",
"partition": "Common",
"fullPath": "/Common/somevlan",
"generation": 1,
"selfLink": "https://localhost/mgmt/tm/net/vlan/~Common~somevlan?ver=12.1.0",
"autoLasthop": "default",
"cmpHash": "default",
"dagRoundRobin": "disabled",
"dagTunnel": "outer",
"failsafe": "disabled",
"failsafeAction": "failover-restart-tm",
"failsafeTimeout": 90,
"ifIndex": 480,
"learning": "enable-forward",
"mtu": 1500,
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes",
"samplingRate": 0,
"samplingRateGlobal": "yes"
},
"sourceChecking": "disabled",
"tag": 4094,
"interfacesReference": {
"link": "https://localhost/mgmt/tm/net/vlan/~Common~somevlan/interfaces?ver=12.1.0",
"isSubcollection": true
}
}

View file

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[
{
"kind": "tm:net:vlan:interfaces:interfacesstate",
"name": "1.2",
"fullPath": "1.2",
"generation": 2,
"selfLink": "https://localhost/mgmt/tm/net/vlan/~Common~internal/interfaces/1.2?ver=12.1.0",
"tagMode": "none",
"tagged": true
}
]

View file

@ -0,0 +1,11 @@
[
{
"kind": "tm:net:vlan:interfaces:interfacesstate",
"name": "1.1",
"fullPath": "1.1",
"generation": 1,
"selfLink": "https://localhost/mgmt/tm/net/vlan/~Common~internal/interfaces/1.1?ver=12.1.0",
"tagMode": "none",
"untagged": true
}
]

View file

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{
"kind": "tm:net:vlan:vlanstate",
"name": "somevlan",
"partition": "Common",
"fullPath": "/Common/somevlan",
"description": "changed_this",
"generation": 1,
"selfLink": "https://localhost/mgmt/tm/net/vlan/~Common~somevlan?ver=12.1.0",
"autoLasthop": "default",
"cmpHash": "default",
"dagRoundRobin": "disabled",
"dagTunnel": "outer",
"failsafe": "disabled",
"failsafeAction": "failover-restart-tm",
"failsafeTimeout": 90,
"ifIndex": 480,
"learning": "enable-forward",
"mtu": 1500,
"sflow": {
"pollInterval": 0,
"pollIntervalGlobal": "yes",
"samplingRate": 0,
"samplingRateGlobal": "yes"
},
"sourceChecking": "disabled",
"tag": 4094,
"interfacesReference": {
"link": "https://localhost/mgmt/tm/net/vlan/~Common~somevlan/interfaces?ver=12.1.0",
"isSubcollection": true
}
}

View file

@ -0,0 +1,481 @@
# -*- 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.f5_utils import AnsibleF5Client
from ansible.module_utils.f5_utils import F5ModuleError
try:
from library.bigip_vlan import Parameters
from library.bigip_vlan import ModuleManager
from library.bigip_vlan import ArgumentSpec
from ansible.module_utils.f5_utils import iControlUnexpectedHTTPError
from test.unit.modules.utils import set_module_args
except ImportError:
try:
from ansible.modules.network.f5.bigip_vlan import Parameters
from ansible.modules.network.f5.bigip_vlan import ModuleManager
from ansible.modules.network.f5.bigip_vlan import ArgumentSpec
from ansible.module_utils.f5_utils 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 BigIpObj(object):
def __init__(self, **kwargs):
self.__dict__.update(kwargs)
class TestParameters(unittest.TestCase):
def setUp(self):
self.loaded_ifcs = []
ifcs_json = load_fixture('load_net_interfaces.json')
for item in ifcs_json:
self.loaded_ifcs.append(BigIpObj(**item))
def test_module_parameters(self):
args = dict(
name='somevlan',
tag=213,
description='fakevlan',
untagged_interfaces=['1.1'],
)
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = self.loaded_ifcs
p = Parameters(args)
assert p.name == 'somevlan'
assert p.tag == 213
assert p.description == 'fakevlan'
assert p.untagged_interfaces == ['1.1']
def test_api_parameters(self):
args = dict(
name='somevlan',
description='fakevlan',
tag=213,
tagged_interfaces=['1.2']
)
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = self.loaded_ifcs
p = Parameters(args)
assert p.name == 'somevlan'
assert p.tag == 213
assert p.interfaces == [{'tagged': True, 'name': '1.2'}]
assert p.description == 'fakevlan'
@patch('ansible.module_utils.f5_utils.AnsibleF5Client._get_mgmt_root',
return_value=True)
class TestManager(unittest.TestCase):
def setUp(self):
self.spec = ArgumentSpec()
self.loaded_ifcs = []
self.loaded_vlan_ifc_tag = []
self.loaded_vlan_ifc_untag = []
ifcs_tag = load_fixture('load_vlan_tagged_ifcs.json')
ifcs_untag = load_fixture('load_vlan_untag_ifcs.json')
ifcs_json = load_fixture('load_net_interfaces.json')
for item in ifcs_json:
self.loaded_ifcs.append(BigIpObj(**item))
for item in ifcs_tag:
self.loaded_vlan_ifc_tag.append(BigIpObj(**item))
for item in ifcs_untag:
self.loaded_vlan_ifc_untag.append(BigIpObj(**item))
def test_create_vlan(self, *args):
set_module_args(dict(
name='somevlan',
description='fakevlan',
server='localhost',
password='password',
user='admin',
partition='Common'
))
client = AnsibleF5Client(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode,
f5_product_name=self.spec.f5_product_name
)
# Override methods to force specific logic in the module to happen
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = self.loaded_ifcs
mm = ModuleManager(client)
mm.create_on_device = Mock(return_value=True)
mm.exists = Mock(return_value=False)
results = mm.exec_module()
assert results['changed'] is True
assert results['name'] == 'somevlan'
assert results['description'] == 'fakevlan'
def test_create_vlan_tagged_interface(self, *args):
set_module_args(dict(
name='somevlan',
tagged_interface=['2.1'],
tag=213,
server='localhost',
password='password',
user='admin',
partition='Common'
))
client = AnsibleF5Client(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode,
f5_product_name=self.spec.f5_product_name
)
# Override methods to force specific logic in the module to happen
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = self.loaded_ifcs
mm = ModuleManager(client)
mm.create_on_device = Mock(return_value=True)
mm.exists = Mock(return_value=False)
results = mm.exec_module()
assert results['changed'] is True
assert results['interfaces'] == [{'tagged': True, 'name': '2.1'}]
assert results['tag'] == 213
assert results['name'] == 'somevlan'
def test_create_vlan_untagged_interface(self, *args):
set_module_args(dict(
name='somevlan',
untagged_interface=['2.1'],
server='localhost',
password='password',
user='admin',
partition='Common'
))
client = AnsibleF5Client(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode,
f5_product_name=self.spec.f5_product_name
)
# Override methods to force specific logic in the module to happen
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = self.loaded_ifcs
mm = ModuleManager(client)
mm.create_on_device = Mock(return_value=True)
mm.exists = Mock(return_value=False)
results = mm.exec_module()
assert results['changed'] is True
assert results['interfaces'] == [{'untagged': True, 'name': '2.1'}]
assert results['name'] == 'somevlan'
def test_create_vlan_tagged_interfaces(self, *args):
set_module_args(dict(
name='somevlan',
tagged_interface=['2.1', '1.1'],
tag=213,
server='localhost',
password='password',
user='admin',
partition='Common'
))
client = AnsibleF5Client(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode,
f5_product_name=self.spec.f5_product_name
)
# Override methods to force specific logic in the module to happen
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = self.loaded_ifcs
mm = ModuleManager(client)
mm.create_on_device = Mock(return_value=True)
mm.exists = Mock(return_value=False)
results = mm.exec_module()
assert results['changed'] is True
assert results['interfaces'] == [{'tagged': True, 'name': '2.1'},
{'tagged': True, 'name': '1.1'}]
assert results['tag'] == 213
assert results['name'] == 'somevlan'
def test_create_vlan_untagged_interfaces(self, *args):
set_module_args(dict(
name='somevlan',
untagged_interface=['2.1', '1.1'],
server='localhost',
password='password',
user='admin',
partition='Common',
))
client = AnsibleF5Client(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode,
f5_product_name=self.spec.f5_product_name
)
# Override methods to force specific logic in the module to happen
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = self.loaded_ifcs
mm = ModuleManager(client)
mm.create_on_device = Mock(return_value=True)
mm.exists = Mock(return_value=False)
results = mm.exec_module()
assert results['changed'] is True
assert results['interfaces'] == [{'untagged': True, 'name': '2.1'},
{'untagged': True, 'name': '1.1'}]
assert results['name'] == 'somevlan'
def test_update_vlan_untag_interface(self, *args):
set_module_args(dict(
name='somevlan',
untagged_interface=['2.1'],
server='localhost',
password='password',
user='admin',
partition='Common',
))
client = AnsibleF5Client(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode,
f5_product_name=self.spec.f5_product_name
)
ifcs = self.loaded_vlan_ifc_untag
# Override methods to force specific logic in the module to happen
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = self.loaded_ifcs
mm = ModuleManager(client)
current = (
Parameters(
load_fixture('load_vlan.json')
),
ifcs
)
mm.update_on_device = Mock(return_value=True)
mm.exists = Mock(return_value=True)
mm.read_current_from_device = Mock(return_value=current)
results = mm.exec_module()
assert results['changed'] is True
assert results['interfaces'] == [{'untagged': True, 'name': '2.1'}]
def test_update_vlan_tag_interface(self, *args):
set_module_args(dict(
name='somevlan',
tagged_interface=['2.1'],
server='localhost',
password='password',
user='admin',
partition='Common',
))
client = AnsibleF5Client(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode,
f5_product_name=self.spec.f5_product_name
)
ifcs = self.loaded_vlan_ifc_tag
# Override methods to force specific logic in the module to happen
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = self.loaded_ifcs
mm = ModuleManager(client)
current = (
Parameters(
load_fixture('load_vlan.json')
),
ifcs
)
mm.update_on_device = Mock(return_value=True)
mm.exists = Mock(return_value=True)
mm.read_current_from_device = Mock(return_value=current)
results = mm.exec_module()
assert results['changed'] is True
assert results['interfaces'] == [{'tagged': True, 'name': '2.1'}]
def test_update_vlan_description(self, *args):
set_module_args(dict(
name='somevlan',
description='changed_that',
server='localhost',
password='password',
user='admin',
partition='Common',
))
client = AnsibleF5Client(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode,
f5_product_name=self.spec.f5_product_name
)
ifcs = self.loaded_vlan_ifc_tag
# Override methods to force specific logic in the module to happen
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = self.loaded_ifcs
mm = ModuleManager(client)
current = (
Parameters(
load_fixture('update_vlan_description.json')
),
ifcs
)
mm.update_on_device = Mock(return_value=True)
mm.exists = Mock(return_value=True)
mm.read_current_from_device = Mock(return_value=current)
results = mm.exec_module()
assert results['changed'] is True
assert results['description'] == 'changed_that'
def test_untagged_ifc_raises(self, *args):
set_module_args(dict(
name='somevlan',
untagged_interface=['10.2'],
server='localhost',
password='password',
user='admin',
partition='Common'
))
client = AnsibleF5Client(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode,
f5_product_name=self.spec.f5_product_name
)
msg = 'The specified interface "10.2" was not found'
# Override methods to force specific logic in the module to happen
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = self.loaded_ifcs
mm = ModuleManager(client)
mm.create_on_device = Mock(return_value=True)
mm.exists = Mock(return_value=False)
with pytest.raises(F5ModuleError) as err:
mm.exec_module()
assert str(err.value) == msg
def test_tagged_ifc_raises(self, *args):
set_module_args(dict(
name='somevlan',
tagged_interface=['10.2'],
tag=213,
server='localhost',
password='password',
user='admin',
partition='Common'
))
client = AnsibleF5Client(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode,
f5_product_name=self.spec.f5_product_name
)
msg = 'The specified interface "10.2" was not found'
# Override methods to force specific logic in the module to happen
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = self.loaded_ifcs
mm = ModuleManager(client)
mm.create_on_device = Mock(return_value=True)
mm.exists = Mock(return_value=False)
with pytest.raises(F5ModuleError) as err:
mm.exec_module()
assert str(err.value) == msg
def test_parse_return_ifcs_raises(self, *args):
set_module_args(dict(
name='somevlan',
untagged_interface=['1.2'],
server='localhost',
password='password',
user='admin',
partition='Common'
))
client = AnsibleF5Client(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode,
f5_product_name=self.spec.f5_product_name
)
msg = 'No interfaces were found'
# Override methods to force specific logic in the module to happen
with patch.object(Parameters, '_get_interfaces_from_device') as obj:
obj.return_value = []
mm = ModuleManager(client)
mm.create_on_device = Mock(return_value=True)
mm.exists = Mock(return_value=False)
with pytest.raises(F5ModuleError) as err:
mm.exec_module()
assert str(err.value) == msg