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Add decort_lb management. decort_disk: Change limitIO, rename disk.

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rc-5.2.2
Aleksandr Malyavin 2 years ago
parent 4be8dc1c2e
commit 3797ed9814
4 changed files with 1466 additions and 322 deletions
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library/decort_disk.py
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@ -157,6 +157,16 @@ options:
- `If specified for an existing disk, and it is greater than current disk size, platform will try to resize - `If specified for an existing disk, and it is greater than current disk size, platform will try to resize
the disk on the fly. Downsizing disk is not allowed.` the disk on the fly. Downsizing disk is not allowed.`
required: no required: no
limitIO:
description:
- Disk input / output limit, used to limit the speed of interaction with the disk.
required: no
type:
description:
- Type of the disk.
- `Disks can be of the following types: "D"-Data, "B"-Boot, "T"-Tmp.`
default: "D"
required: no
state: state:
description: description:
- Specify the desired state of the disk at the exit of the module. - Specify the desired state of the disk at the exit of the module.
@ -234,103 +244,277 @@ facts:
gid: 1001 gid: 1001
''' '''
from ansible.module_utils.basic import AnsibleModule from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.basic import env_fallback from ansible.module_utils.basic import env_fallback
from ansible.module_utils.decort_utils import * from ansible.module_utils.decort_utils import *
class decort_disk(DecortController):
def __init__(self,amodule):
super(decort_disk, self).__init__(amodule)
def decort_disk_package_facts(disk_facts, check_mode=False): self.validated_account_id = 0
"""Package a dictionary of disk facts according to the decort_disk module specification. self.validated_disk_id = 0
This dictionary will be returned to the upstream Ansible engine at the completion of self.disk_facts = None # will hold Disk facts
the module run. self.acc_facts = None # will hold Account facts
@param (dict) disk_facts: dictionary with Disk facts as returned by API call to .../disks/get # limitIO check for exclusive parameters
@param (bool) check_mode: boolean that tells if this Ansible module is run in check mode if amodule.params['limitIO']:
""" limit = amodule.params['limitIO']
if limit['total_bytes_sec'] > 0 and limit['read_bytes_sec'] > 0 or \
ret_dict = dict(id=0, limit['total_bytes_sec'] > 0 and limit['write_bytes_sec'] > 0:
name="none", self.result['failed'] = True
state="CHECK_MODE", self.result['msg'] = ("total and read/write of bytes_sec cannot be set at the same time.")
size=0, amodule.fail_json(**self.result)
account_id=0, elif limit['total_iops_sec'] > 0 and limit['read_iops_sec'] > 0 or \
sep_id=0, limit['total_iops_sec'] > 0 and limit['write_iops_sec'] > 0:
pool="none", self.result['failed'] = True
attached_to=0, self.result['msg'] = ("total and read/write of iops_sec cannot be set at the same time.")
gid=0 amodule.fail_json(**self.result)
) elif limit['total_bytes_sec_max'] > 0 and limit['read_bytes_sec_max'] > 0 or \
limit['total_bytes_sec_max'] > 0 and limit['write_bytes_sec_max'] > 0:
if check_mode: self.result['failed'] = True
# in check mode return immediately with the default values self.result['msg'] = ("total and read/write of bytes_sec_max cannot be set at the same time.")
return ret_dict amodule.fail_json(**self.result)
elif limit['total_iops_sec_max'] > 0 and limit['read_iops_sec_max'] > 0 or \
limit['total_iops_sec_max'] > 0 and limit['write_iops_sec_max'] > 0:
self.result['failed'] = True
self.result['msg'] = ("total and read/write of iops_sec_max cannot be set at the same time.")
amodule.fail_json(**self.result)
if amodule.params['account_id']:
self.validated_account_id = amodule.params['account_id']
elif amodule.params['account_name']:
self.validated_account_id, _ = self.account_find(amodule.params['account_name'])
elif not amodule.params['id'] and not amodule.params['account_name']:
self.result['failed'] = True
self.result['msg'] = ("Cannot found disk without account id or name.")
amodule.fail_json(**self.result)
if self.validated_account_id == 0 and not amodule.params['id']:
# we failed either to find or access the specified account - fail the module
self.result['failed'] = True
self.result['msg'] = ("Cannot find account '{}'").format(amodule.params['account_name'])
amodule.fail_json(**self.result)
if amodule.params['id'] or amodule.params['name']:
self.validated_disk_id, self.disk_facts = self.decort_disk_find(amodule)
else:
self.result['failed'] = True
self.result['msg'] = ("Cannot find or create disk without disk name or disk id")
amodule.fail_json(**self.result)
if amodule.params['place_with'] > 0:
image_id, image_facts = self.image_find(amodule.params['place_with'], "", 0)
amodule.params['sep_id']= image_facts['sepId']
def decort_disk_create(self, amodule):
if not self.disk_facts:
self.disk_id = self.disk_create(accountId=self.validated_account_id, gid=amodule.params['gid'],
name=amodule.params['name'], description=amodule.params['description'],
size=amodule.params['size'], type=amodule.params['type'],
iops=amodule.params['iops'],
sep_id=amodule.params['sep_id'], pool=amodule.params['pool'])
self.result['msg'] = ("Disk with id '{}' successfully created.").format(self.disk_id)
elif self.disk_facts['status'] in ["DESTROYED", "PURGED"]:
if not amodule.params['limitIO']:
amodule.params['limitIO'] = self.disk_facts['iotune']
if amodule.params['sep_id'] == 0:
validated_sep_id = self.disk_facts['sepId']
else:
validated_sep_id = amodule.params['sep_id']
if amodule.params['pool'] == 0:
validated_pool = self.disk_facts['pool']
else:
validated_pool = amodule.params['pool']
if amodule.params['size'] == 0:
validated_size = self.disk_facts['sizeMax']
else:
validated_size = amodule.params['size']
if amodule.params['gid'] == 0:
validated_gid = self.disk_facts['gid']
else:
validated_gid = amodule.params['gid']
self.disk_id = self.disk_create(accountId=self.validated_account_id, gid=validated_gid,
name=self.disk_facts['name'], description=amodule.params['description'],
size=validated_size, type=self.disk_facts['type'],
iops=self.disk_facts['iotune']['total_iops_sec'],
sep_id=validated_sep_id, pool=validated_pool)
if not amodule.params['limitIO']:
amodule.params['limitIO'] = self.disk_facts['iotune']
self.result['msg'] = ("Disk with id '{}' successfully recreated.").format(self.disk_id)
self.result['failed'] = False
self.result['changed'] = True
return self.disk_id
def decort_disk_delete(self, amodule):
self.disk_id = self.disk_delete(disk_id=self.validated_disk_id,
detach=amodule.params['force_detach'],
permanently=amodule.params['permanently'],
reason=amodule.params['reason'])
return
def decort_disk_find(self, amodule):
if amodule.params['name'] and not amodule.params['id']:
self.disk_id, self.disk_facts = self.disk_find(disk_id=self.validated_disk_id,
name=amodule.params['name'],
account_id=self.validated_account_id)
elif self.validated_disk_id > 0:
self.disk_id, self.disk_facts = self.disk_find(disk_id=self.validated_disk_id,
name=self.disk_facts['name'],
account_id=0)
elif amodule.params['id']:
self.disk_id, self.disk_facts = self.disk_find(disk_id=amodule.params['id'],
name=amodule.params['name'],
account_id=0)
if not self.disk_id and not amodule.params['name']:
self.result['failed'] = True
self.result['msg'] = "Specified Disk ID {} not found.".format(amodule.params['id'])
amodule.fail_json(**self.result)
self.result['facts'] = decort_disk.decort_disk_package_facts(self.disk_facts)
return self.disk_id, self.disk_facts
def decort_disk_limitIO(self, amodule):
self.limits = amodule.params['limitIO']
self.disk_limitIO(limits = self.limits,
diskId = self.validated_disk_id)
self.disk_facts['iotune'] = amodule.params['limitIO']
self.result['facts'] = decort_disk.decort_disk_package_facts(self.disk_facts)
return
def decort_disk_rename(self, amodule):
self.disk_rename(diskId = self.validated_disk_id,
name = amodule.params['name'])
self.disk_facts['name'] = amodule.params['name']
self.result['facts'] = decort_disk.decort_disk_package_facts(self.disk_facts)
self.result['msg'] = ("Disk with id '{}',successfully renamed to '{}'.").format(self.validated_disk_id, amodule.params['name'])
return
def decort_disk_package_facts(disk_facts, check_mode=False):
ret_dict = dict(id=0,
name="none",
state="CHECK_MODE",
size=0,
account_id=0,
sep_id=0,
pool="none",
attached_to=0,
gid=0
)
if check_mode:
# in check mode return immediately with the default values
return ret_dict
if disk_facts is None:
# if void facts provided - change state value to ABSENT and return
ret_dict['state'] = "ABSENT"
return ret_dict
ret_dict['id'] = disk_facts['id']
ret_dict['name'] = disk_facts['name']
ret_dict['size'] = disk_facts['sizeMax']
ret_dict['state'] = disk_facts['status']
ret_dict['account_id'] = disk_facts['accountId']
ret_dict['sep_id'] = disk_facts['sepId']
ret_dict['pool'] = disk_facts['pool']
ret_dict['attached_to'] = disk_facts['vmid']
ret_dict['gid'] = disk_facts['gid']
ret_dict['iotune'] = disk_facts['iotune']
if disk_facts is None:
# if void facts provided - change state value to ABSENT and return
ret_dict['state'] = "ABSENT"
return ret_dict return ret_dict
ret_dict['id'] = disk_facts['id'] def decort_disk_parameters():
ret_dict['name'] = disk_facts['name'] """Build and return a dictionary of parameters expected by decort_disk module in a form accepted
ret_dict['size'] = disk_facts['sizeMax'] by AnsibleModule utility class."""
ret_dict['state'] = disk_facts['status']
ret_dict['account_id'] = disk_facts['accountId'] return dict(
ret_dict['sep_id'] = disk_facts['sepId'] account_id=dict(type='int', required=False, default=0),
ret_dict['pool'] = disk_facts['pool'] account_name=dict(type='str', required=False, default=''),
ret_dict['attached_to'] = disk_facts['vmid'] annotation=dict(type='str', required=False, default='Disk by decort_disk'),
ret_dict['gid'] = disk_facts['gid'] app_id=dict(type='str',
return ret_dict
def decort_disk_parameters():
"""Build and return a dictionary of parameters expected by decort_disk module in a form accepted
by AnsibleModule utility class."""
return dict(
account_id=dict(type='int', required=False, default=0),
account_name=dict(type='str', required=False, default=''),
annotation=dict(type='str', required=False, default='Disk by decort_disk'),
app_id=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_APP_ID'])),
app_secret=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_APP_SECRET']),
no_log=True),
authenticator=dict(type='str',
required=True,
choices=['legacy', 'oauth2', 'jwt']),
controller_url=dict(type='str', required=True),
id=dict(type='int', required=False, default=0),
name=dict(type='str', required=False),
force_detach=dict(type='bool', required=False, default=False),
jwt=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_JWT']),
no_log=True),
oauth2_url=dict(type='str',
required=False, required=False,
fallback=(env_fallback, ['DECORT_OAUTH2_URL'])), fallback=(env_fallback, ['DECORT_APP_ID'])),
password=dict(type='str', app_secret=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_APP_SECRET']),
no_log=True),
authenticator=dict(type='str',
required=True,
choices=['legacy', 'oauth2', 'jwt']),
controller_url=dict(type='str', required=True),
id=dict(type='int', required=False, default=0),
name=dict(type='str', required=False),
force_detach=dict(type='bool', required=False, default=False),
jwt=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_JWT']),
no_log=True),
oauth2_url=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_OAUTH2_URL'])),
password=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_PASSWORD']),
no_log=True),
place_with=dict(type='int', default=0),
pool=dict(type='str', default=''),
sep_id=dict(type='int', default=0),
gid=dict(type='int', default=0),
size=dict(type='int', default=0),
type=dict(type='str',
required=False,
default="D",
choices=['B', 'D', 'T']),
iops=dict(type='int', default=2000),
limitIO=dict(type='dict',
options=dict(
total_bytes_sec=dict(default=0,type='int'),
read_bytes_sec=dict(default=0,type='int'),
write_bytes_sec=dict(default=0,type='int'),
total_iops_sec=dict(default=0,type='int'),
read_iops_sec=dict(default=0,type='int'),
write_iops_sec=dict(default=0,type='int'),
total_bytes_sec_max=dict(default=0,type='int'),
read_bytes_sec_max=dict(default=0,type='int'),
write_bytes_sec_max=dict(default=0,type='int'),
total_iops_sec_max=dict(default=0,type='int'),
read_iops_sec_max=dict(default=0,type='int'),
write_iops_sec_max=dict(default=0,type='int'),
size_iops_sec=dict(default=0,type='int'),)),
permanently=dict(type='bool', required=False, default=False),
reason=dict(type='int', required=False),
description=dict(type='str', required=False,
default="Disk created with Ansible Decort_disk module."),
state=dict(type='str',
default='present',
choices=['absent', 'present']),
user=dict(type='str',
required=False, required=False,
fallback=(env_fallback, ['DECORT_PASSWORD']), fallback=(env_fallback, ['DECORT_USER'])),
no_log=True), verify_ssl=dict(type='bool', required=False, default=True),
place_with=dict(type='int', required=False, default=0), workflow_callback=dict(type='str', required=False),
pool=dict(type='str', required=False, default=''), workflow_context=dict(type='str', required=False),
sep_id=dict(type='int', required=False, default=0), )
size=dict(type='int', required=False),
state=dict(type='str',
default='present',
choices=['absent', 'present']),
user=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_USER'])),
verify_ssl=dict(type='bool', required=False, default=True),
workflow_callback=dict(type='str', required=False),
workflow_context=dict(type='str', required=False),
)
def main(): def main():
module_parameters = decort_disk_parameters() module_parameters = decort_disk.decort_disk_parameters()
amodule = AnsibleModule(argument_spec=module_parameters, amodule = AnsibleModule(argument_spec=module_parameters,
supports_check_mode=True, supports_check_mode=True,
@ -345,197 +529,106 @@ def main():
], ],
) )
decon = DecortController(amodule) decon = decort_disk(amodule)
disk_id = 0 if decon.validated_disk_id == 0 and amodule.params['state'] == 'present':
disk_facts = None # will hold Disk facts # if sep_id or place_with not specified, then exit with error
validated_acc_id = 0 if amodule.params['sep_id'] == 0 and amodule.params['place_with'] == 0:
acc_facts = None # will hold Account facts decon.result['msg'] = ("To create a disk, you must specify sep_id or place_with.")\
.format(decon.validated_disk_id)
if amodule.params['id']:
# expect existing Disk with the specified ID
# This call to disk_find will abort the module if no Disk with such ID is present
disk_id, disk_facts = decon.disk_find(amodule.params['id'])
if not disk_id:
decon.result['failed'] = True
decon.result['msg'] = "Specified Disk ID {} not found.".format(amodule.params['id'])
amodule.fail_json(**decon.result)
validated_acc_id =disk_facts['accountId']
elif amodule.params['account_id'] > 0 or amodule.params['account_name'] != "":
# Make sure disk name is specified, if not - fail the module
if amodule.params['name'] == "":
decon.result['failed'] = True
decon.result['msg'] = ("Cannot manage disk if both ID is 0 and disk name is empty.")
amodule.fail_json(**decon.result) amodule.fail_json(**decon.result)
# Specified account must be present and accessible by the user, otherwise abort the module # if id cannot cannot be found and have a state 'present', then create a new disk
validated_acc_id, acc_facts = decon.account_find(amodule.params['account_name'], amodule.params['account_id']) decon.validated_disk_id = decon.decort_disk_create(amodule)
if not validated_acc_id: _, decon.disk_facts = decon.decort_disk_find(amodule)
decon.result['failed'] = True decon.result['changed'] = True
decon.result['msg'] = ("Current user does not have access to the requested account " decon.result['msg'] = ("Disk with id '{}' successfully created.").format(decon.validated_disk_id)
"or non-existent account specified.")
amodule.fail_json(**decon.result) elif decon.validated_disk_id == 0 and amodule.params['state'] == 'absent' and amodule.params['name']:
# This call to disk_find may return disk_id=0 if no Disk with this name found in # if disk with specified name cannot be found and have a state 'absent', then nothing to do,
disk_id, disk_facts = decon.disk_find(disk_id=0, disk_name=amodule.params['name'], # specified disk already deleted
account_id=validated_acc_id, decon.result['msg'] = ("Disk with name '{}' has already been deleted or your account does not have"
check_state=False) " access to it.")\
else: .format(amodule.params['name'])
# this is "invalid arguments combination" sink amodule.exit_json(**decon.result)
# if we end up here, it means that module was invoked with disk_id=0 and undefined account
decon.result['failed'] = True elif decon.validated_disk_id == 0 and amodule.params['state'] == 'absent' and amodule.params['id']:
if amodule.params['account_id'] == 0 and amodule.params['account_name'] == "": # if disk with specified id cannot be found and have a state 'absent', then nothing to do,
decon.result['msg'] = "Cannot find Disk by name when account name is empty and account ID is 0." # specified disk already deleted
if amodule.params['name'] == "": decon.result['msg'] = ("Disk with name '{}' has already been deleted or your account does not have"
decon.result['msg'] = "Cannot find Disk by empty name." " access to it.")\
.format(decon.validated_disk_id)
amodule.exit_json(**decon.result)
elif decon.disk_facts['status'] == "CREATED":
if amodule.params['state'] == 'present':
# if disk status in condition "CREATED" and state "present", nothing to do,
# specified disk already created
decon.result['msg'] = "Specified Disk ID {} already created.".format(decon.validated_disk_id)
if amodule.params['state'] == 'absent':
# if disk status in condition "CREATED" and state "absent", delete the disk
decon.validated_disk_id = decon.decort_disk_delete(amodule)
decon.disk_facts['status'] = "DESTROYED"
decon.result['msg'] = ("Disk with id '{}' successfully deleted.").format(decon.disk_facts['id'])
decon.result['facts'] = decon.decort_disk_package_facts(decon.disk_facts)
amodule.exit_json(**decon.result)
elif decon.disk_facts['status'] in ["MODELED", "CREATING" ]:
# if disk in status "MODELED" or "CREATING",
# then we cannot do anything, while disk in this status
decon.result['changed'] = False
decon.result['msg'] = ("Cannot do anything with disk id '{}',please wait until disk will be created.")\
.format(decon.validated_disk_id)
amodule.fail_json(**decon.result) amodule.fail_json(**decon.result)
# elif decon.disk_facts['status'] == "DELETED":
# Initial validation of module arguments is complete if amodule.params['state'] == 'present':
# # if disk in "DELETED" status and "present" state, restore
# At this point non-zero disk_id means that we will be managing pre-existing Disk decon.disk_restore(decon.validated_disk_id)
# Otherwise we are about to create a new disk _, decon.disk_facts = decon.decort_disk_find(amodule)
# decon.result['changed'] = True
# Valid Disk model statii are as follows: decon.result['msg'] = ("Disk with id '{}',restored successfully.").format(decon.validated_disk_id)
#
# "CREATED", "ASSIGNED", DELETED", "DESTROYED", "PURGED" elif amodule.params['state'] == 'absent':
# # if disk in "DELETED" status and "absent" state, nothing to do
decon.result['msg'] = "Specified Disk ID {} already destroyed.".format(decon.validated_disk_id)
disk_should_exist = False amodule.exit_json(**decon.result)
target_sep_id = 0
# target_pool = ""
if disk_id: elif decon.disk_facts['status'] in ["DESTROYED", "PURGED"]:
disk_should_exist = True if amodule.params['state'] == 'present':
if disk_facts['status'] in ["MODELED", "CREATING" ]: decon.validated_disk_id = decon.decort_disk_create(amodule)
# error: nothing can be done to existing Disk in the listed statii regardless of _, decon.disk_facts = decon.decort_disk_find(amodule)
# the requested state
decon.result['failed'] = True elif amodule.params['state'] == 'absent':
decon.result['changed'] = False decon.result['msg'] = "Specified Disk ID {} already destroyed.".format(decon.validated_disk_id)
decon.result['msg'] = ("No change can be done for existing Disk ID {} because of its current " amodule.exit_json(**decon.result)
"status '{}'").format(disk_id, disk_facts['status'])
elif disk_facts['status'] in ["CREATED", "ASSIGNED"]: if amodule.params['state'] == "present":
if amodule.params['state'] == 'absent': if decon.disk_facts['sizeMax'] != amodule.params['size']:
decon.disk_delete(disk_id, True, amodule.params['force_detach']) # delete permanently if decon.disk_facts['sizeMax'] > amodule.params['size'] and amodule.params['size'] != 0:
disk_facts['status'] = 'DESTROYED'
disk_should_exist = False
elif amodule.params['state'] == 'present':
# resize Disk as necessary & if possible
if decon.check_amodule_argument('size', False):
decon.disk_resize(disk_facts, amodule.params['size'])
elif disk_facts['status'] == "DELETED":
if amodule.params['state'] == 'present':
# restore
decon.disk_restore(disk_id)
_, disk_facts = decon.disk_find(disk_id)
decon.disk_resize(disk_facts, amodule.params['size'])
disk_should_exist = True
elif amodule.params['state'] == 'absent':
# destroy permanently
decon.disk_delete(disk_id, permanently=True)
disk_facts['status'] = 'DESTROYED'
disk_should_exist = False
elif disk_facts['status'] in ["DESTROYED", "PURGED"]:
if amodule.params['state'] == 'present':
# Need to re-provision this Disk.
# Some attributes may change, some must stay the same:
# - disk name - stays, take from disk_facts
# - account ID - stays, take from validated account ID
# - size - may change, take from module arguments
# - SEP ID - may change, build based on module arguments
# - pool - may change, take from module arguments
# - annotation - may change, take from module arguments
#
# First validate required parameters:
decon.check_amodule_argument('size') # this will fail the module if size is not specified
target_sep_id = 0
if decon.check_amodule_argument('sep_id', False) and amodule.params['sep_id'] > 0:
# non-zero sep_id is explicitly passed in module arguments
target_sep_id = amodule.params['sep_id']
elif decon.check_amodule_argument('place_with', False) and amodule.params['place_with'] > 0:
# request to place this disk on the same SEP as the specified OS image
# validate specified OS image and assign SEP ID accordingly
image_id, image_facts = decon.image_find(amodule.params['place_with'], "", 0)
target_sep_id = image_facts['sepId']
else:
# no new SEP ID is explicitly specified, and no place_with option - use sepId from the disk_facts
target_sep_id = disk_facts['sepId']
disk_id = decon.disk_provision(disk_name=disk_facts['name'], # as this disk was found, its name is in the facts
size=amodule.params['size'],
account_id=validated_acc_id,
sep_id=target_sep_id,
pool=amodule.params['pool'],
desc=amodule.params['annotation'],
location="")
disk_should_exist = True
elif amodule.params['state'] == 'absent':
# nop
decon.result['failed'] = False
decon.result['changed'] = False
decon.result['msg'] = ("No state change required for Disk ID {} because of its "
"current status '{}'").format(disk_id,
disk_facts['status'])
disk_should_exist = False
else:
# disk_id =0 -> pre-existing Disk was not found.
disk_should_exist = False # we will change it back to True if Disk is created successfully
# If requested state is 'absent' - nothing to do
if amodule.params['state'] == 'absent':
decon.result['failed'] = False
decon.result['changed'] = False
decon.result['msg'] = ("Nothing to do as target state 'absent' was requested for "
"non-existent Disk name '{}'").format(amodule.params['name'])
elif amodule.params['state'] == 'present':
decon.check_amodule_argument('name') # if disk name not specified, fail the module
decon.check_amodule_argument('size') # if disk size not specified, fail the module
# as we already have account ID, we can create Disk and get disk id on success
if decon.check_amodule_argument('sep_id', False) and amodule.params['sep_id'] > 0:
# non-zero sep_id is explicitly passed in module arguments
target_sep_id = amodule.params['sep_id']
elif decon.check_amodule_argument('place_with', False) and amodule.params['place_with'] > 0:
# request to place this disk on the same SEP as the specified OS image
# validate specified OS image and assign SEP ID accordingly
image_id, image_facts = decon.image_find(amodule.params['place_with'], "", 0)
target_sep_id = image_facts['sepId']
else:
# no SEP ID is explicitly specified, and no place_with option - we do not know where
# to place the new disk - fail the module
decon.result['failed'] = True decon.result['failed'] = True
decon.result['msg'] = ("Cannot create new Disk name '{}': no SEP ID specified and " decon.result['msg'] = ("Disk id '{}', cannot reduce disk size.").format(decon.validated_disk_id)
"no 'place_with' option used.").format(amodule.params['name'])
amodule.fail_json(**decon.result) amodule.fail_json(**decon.result)
elif decon.disk_facts['sizeMax'] < amodule.params['size']:
disk_id = decon.disk_provision(disk_name=amodule.params['name'], decon.disk_resize(disk_facts=decon.disk_facts,
size=amodule.params['size'], new_size=amodule.params['size'])
account_id=validated_acc_id, decon.result['changed'] = True
sep_id=target_sep_id, decon.disk_facts['size'] = amodule.params['size']
pool_name=amodule.params['pool'], decon.result['msg'] = ("Disk with id '{}',resized successfully.").format(decon.validated_disk_id)
desc=amodule.params['annotation'],
location="") if amodule.params['limitIO'] and amodule.params['limitIO'] != decon.disk_facts['iotune']:
disk_should_exist = True decon.decort_disk_limitIO(amodule)
elif amodule.params['state'] == 'disabled': decon.result['changed'] = True
decon.result['failed'] = True decon.result['msg'] = ("Disk with id '{}',limited successfully.").format(decon.validated_disk_id)
decon.result['changed'] = False
decon.result['msg'] = ("Invalid target state '{}' requested for non-existent "
"Disk name '{}'").format(amodule.params['state'],
amodule.params['name'])
# if amodule.params['name'] and amodule.params['id']:
# conditional switch end - complete module run if amodule.params['name'] != decon.disk_facts['name']:
# decon.decort_disk_rename(amodule)
if decon.result['failed']: decon.result['changed'] = True
amodule.fail_json(**decon.result) decon.result['msg'] = ("Disk with id '{}',renamed successfully from '{}' to '{}'.")\
else: .format(decon.validated_disk_id, decon.disk_facts['name'], amodule.params['name'])
# prepare Disk facts to be returned as part of decon.result and then call exit_json(...)
if disk_should_exist:
if decon.result['changed']:
# If we arrive here, there is a good chance that the Disk is present - get fresh Disk
# facts by Disk ID.
# Otherwise, Disk facts from previous call (when the Disk was still in existence) will
# be returned.
_, disk_facts = decon.disk_find(disk_id)
decon.result['facts'] = decort_disk_package_facts(disk_facts, amodule.check_mode)
amodule.exit_json(**decon.result)
amodule.exit_json(**decon.result)
if __name__ == "__main__": if __name__ == "__main__":
main() main()

328
library/decort_lb.py
Unescape View File

@ -0,0 +1,328 @@
#!/usr/bin/python
#
# Digital Enegry Cloud Orchestration Technology (DECORT) modules for Ansible
# Copyright: (c) 2018-2022 Digital Energy Cloud Solutions LLC
#
# Apache License 2.0 (see http://www.apache.org/licenses/LICENSE-2.0.txt)
#
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'community'}
DOCUMENTATION = '''
TODO
'''
EXAMPLES = '''
TODO
'''
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.basic import env_fallback
from ansible.module_utils.decort_utils import *
class decort_lb(DecortController):
def __init__(self,arg_amodule) -> None:
super(decort_lb,self).__init__(arg_amodule)
self.lb_id = 0
self.lb_facts = None
self.vins_id = 0
self.vins_facts = None
self.rg_id = 0
self.rg_facts = None
self.acc_id = 0
self.acc_facts = None
self.default_server_check = "enabled"
self.default_alg = "roundrobin"
self.default_settings = {
"downinter": 10000,
"fall": 2,
"inter": 5000,
"maxconn": 250,
"maxqueue": 256,
"rise": 2,
"slowstart": 60000,
"weight": 100,
}
if arg_amodule.params['lb_id']:
self.lb_id, self.lb_facts = self.lb_find(arg_amodule.params['lb_id'])
if not self.lb_id:
self.result['failed'] = True
self.result['msg'] = "Specified LB ID {} not found."\
.format(arg_amodule.params['lb _id'])
self.fail_json(**self.result)
self.acc_id = self.lb_facts['accountId']
self.rg_id = self.lb_facts['rgId']
self.vins_id = self.lb_facts['vinsId']
return
if arg_amodule.params['rg_id']:
self.rg_id, self.rg_facts = self.rg_find(0,arg_amodule.params['rg_id'], arg_rg_name="")
if not self.rg_id:
self.result['failed'] = True
self.result['msg'] = "Specified RG ID {} not found.".format(arg_amodule.params['vins_id'])
self.fail_json(**self.result)
if arg_amodule.params['vins_id']:
self.vins_id, self.vins_facts = self.vins_find(arg_amodule.params['vins_id'])
if not self.vins_id:
self.result['failed'] = True
self.result['msg'] = "Specified ViNS ID {} not found.".format(arg_amodule.params['vins_id'])
self.fail_json(**self.result)
elif arg_amodule.params['account_id'] or arg_amodule.params['account_name'] != "":
if arg_amodule.params['rg_name']:
self.result['failed'] = True
self.result['msg'] = ("RG name must be specified with account present")
self.fail_json(**self.result)
self.acc_id, self.acc_facts = self.account_find(arg_amodule.params['account_name'],
arg_amodule.params['account_id'])
if not self.acc_id:
self.result['failed'] = True
self.result['msg'] = ("Current user does not have access to the requested account "
"or non-existent account specified.")
self.fail_json(**self.result)
self.rg_id, self.rg_facts = self.rg_find(self._acc_id,0, arg_rg_name=arg_amodule.params['rg_name'])
if self.rg_id and self.vins_id:
self.lb_id, self.lb_facts = self.lb_find(0,arg_amodule.params['lb_name'],self.rg_id)
return
def create(self):
self.lb_id = self.lb_provision(self.amodule.params['lb_name'],
self.rg_id,self.vins_id,
self.amodule.params['ext_net_id'],
self.amodule.params['annotation'])
if self.amodule.params['backends'] or self.amodule.params['frontends']:
self.lb_id, self.lb_facts = self.lb_find(0,self.amodule.params['lb_name'],self.rg_id)
self.lb_update(
self.lb_facts['backends'],
self.lb_facts['frontends'],
self.amodule.params['backends'],
self.amodule.params['servers'],
self.amodule.params['frontends']
)
return
def action(self,d_state='',restore=False):
if restore == True:
self.lb_restore(arg_vins_id=self.lb_id)
self.lb_state(self.vins_facts, 'enabled')
self.lb_facts['status'] = "ENABLED"
self.lb_facts['techStatus'] = "STARTED"
self.lb_update(
self.lb_facts['backends'],
self.lb_facts['frontends'],
self.amodule.params['backends'],
self.amodule.params['servers'],
self.amodule.params['frontends']
)
if d_state != '':
self.lb_state(self.lb_facts, d_state)
return
def delete(self):
self.lb_delete(self.lb_id, self.amodule.params['permanently'])
self.lb_facts['status'] = 'DESTROYED'
return
def nop(self):
"""No operation (NOP) handler for LB management by decort_lb module.
This function is intended to be called from the main switch construct of the module
when current state -> desired state change logic does not require any changes to
the actual LB state.
"""
self.result['failed'] = False
self.result['changed'] = False
if self.lb_id:
self.result['msg'] = ("No state change required for LB ID {} because of its "
"current status '{}'.").format(self.lb_id, self.vins_facts['status'])
else:
self.result['msg'] = ("No state change to '{}' can be done for "
"non-existent LB instance.").format(self.amodule.params['state'])
return
def error(self):
self.result['failed'] = True
self.result['changed'] = False
if self.vins_id:
self.result['failed'] = True
self.result['changed'] = False
self.result['msg'] = ("Invalid target state '{}' requested for LB ID {} in the "
"current status '{}'").format(self.lb_id,
self.amodule.params['state'],
self.lb_facts['status'])
else:
self.result['failed'] = True
self.result['changed'] = False
self.result['msg'] = ("Invalid target state '{}' requested for non-existent "
"LB name '{}'").format(self.amodule.params['state'],
self.amodule.params['lb_name'])
return
def package_facts(self, arg_check_mode=False):
"""Package a dictionary of LB facts according to the decort_lb module specification.
This dictionary will be returned to the upstream Ansible engine at the completion of
the module run.
@param arg_check_mode: boolean that tells if this Ansible module is run in check mode
"""
ret_dict = dict(id=0,
name="none",
state="CHECK_MODE",
)
if arg_check_mode:
# in check mode return immediately with the default values
return ret_dict
if self.vins_facts is None:
# if void facts provided - change state value to ABSENT and return
ret_dict['state'] = "ABSENT"
return ret_dict
ret_dict['id'] = self.lb_facts['id']
ret_dict['name'] = self.lb_facts['name']
ret_dict['state'] = self.lb_facts['status']
#ret_dict['account_id'] = self.lb_facts['accountId']
ret_dict['rg_id'] = self.lb_facts['rgId']
ret_dict['gid'] = self.lb_facts['gid']
if self.amodule.params['state']!="absent":
ret_dict['backends'] = self.lb_facts['backends']
ret_dict['frontends'] = self.lb_facts['frontends']
return ret_dict
@staticmethod
def build_parameters():
"""Build and return a dictionary of parameters expected by decort_vins module in a form accepted
by AnsibleModule utility class."""
return dict(
account_id=dict(type='int', required=False),
account_name=dict(type='str', required=False, default=''),
annotation=dict(type='str', required=False, default='Managed by Ansible module decort_lb'),
app_id=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_APP_ID'])),
app_secret=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_APP_SECRET']),
no_log=True),
authenticator=dict(type='str',
required=True,
choices=['legacy', 'oauth2', 'jwt']),
controller_url=dict(type='str', required=True),
# datacenter=dict(type='str', required=False, default=''),
ext_net_id=dict(type='int', required=False, default=-1),
ext_ip_addr=dict(type='str', required=False, default=''),
jwt=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_JWT']),
no_log=True),
oauth2_url=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_OAUTH2_URL'])),
password=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_PASSWORD']),
no_log=True),
state=dict(type='str',
default='present',
choices=['absent', 'disabled', 'enabled', 'present','restart']),
user=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_USER'])),
rg_id=dict(type='int', required=False, default=0),
rg_name=dict(type='str', required=False, default=''),
vins_name=dict(type='str', required=False, default=''),
vins_id=dict(type='int', required=False, default=0),
verify_ssl=dict(type='bool', required=False, default=True),
lb_id=dict(type='int', required=False, default=0),
lb_name=dict(type='str', required=True),
backends=dict(type='list',required=False,default=[]),
frontends=dict(type='list',required=False,default=[]),
servers=dict(type='list',required=False,default=[]),
permanently=dict(type='bool', required=False, default=False),
workflow_callback=dict(type='str', required=False),
workflow_context=dict(type='str', required=False),
)
def main():
module_parameters = decort_lb.build_parameters()
amodule = AnsibleModule(argument_spec=module_parameters,
supports_check_mode=True,
mutually_exclusive=[
['oauth2', 'password'],
['password', 'jwt'],
['jwt', 'oauth2'],
],
required_together=[
['app_id', 'app_secret'],
['user', 'password']
],
required_one_of=[
['rg_id','rg_name'],
['lb_id','lb_name'],
['vins_id','vins_name']
]
)
decon = decort_lb(amodule)
if decon.lb_id:
if decon.lb_facts['status'] in ["MODELED", "DISABLING", "ENABLING", "DELETING","DESTROYING","RESTORING"]:
decon.result['failed'] = True
decon.result['changed'] = False
decon.result['msg'] = ("No change can be done for existing LB ID {} because of its current "
"status '{}'").format(decon.lb_id, decon.lb_facts['status'])
elif decon.lb_facts['status'] == "DISABLED":
if amodule.params['state'] == 'absent':
decon.delete()
elif amodule.params['state'] in ('present', 'disabled'):
decon.action()
elif amodule.params['state'] == 'enabled':
decon.action('enabled')
elif decon.lb_facts['status'] in ["CREATED", "ENABLED"]:
if amodule.params['state'] == 'absent':
decon.delete()
elif amodule.params['state'] in ('present', 'enabled'):
decon.action()
elif amodule.params['state'] == 'disabled':
decon.action('disabled')
elif amodule.params['state'] in ('stopped', 'started','restart'):
decon.action(amodule.params['state'])
elif decon.lb_facts['status'] == "DELETED":
if amodule.params['state'] in ['present', 'enabled']:
decon.action(restore=True)
elif amodule.params['state'] == 'absent':
decon.delete()
elif amodule.params['state'] == 'disabled':
decon.error()
elif decon.lb_facts['status'] == "DESTROYED":
if amodule.params['state'] in ('present', 'enabled'):
decon.create()
elif amodule.params['state'] == 'absent':
decon.nop()
elif amodule.params['state'] == 'disabled':
decon.error()
else:
if amodule.params['state'] == 'absent':
decon.nop()
elif amodule.params['state'] in ('present', 'enabled'):
decon.create()
elif amodule.params['state'] == 'disabled':
decon.error()
if decon.result['failed']:
amodule.fail_json(**decon.result)
else:
if decon.result['changed'] and amodule.params['state'] != 'absent':
_, decon.lb_facts = decon.lb_find(decon.lb_id)
if decon.lb_id:
decon.result['facts'] = decon.package_facts(amodule.check_mode)
amodule.exit_json(**decon.result)
if __name__ == "__main__":
main()

14
library/decort_vins.py
Unescape View File

@ -249,8 +249,8 @@ class decort_vins(DecortController):
def __init__(self,arg_amodule): def __init__(self,arg_amodule):
super(decort_vins, self).__init__(arg_amodule) super(decort_vins, self).__init__(arg_amodule)
vins_id = 0 self.vins_id = 0
vins_level = "" # "ID" if specified by ID, "RG" - at resource group, "ACC" - at account level self.vins_level = "" # "ID" if specified by ID, "RG" - at resource group, "ACC" - at account level
vins_facts = None # will hold ViNS facts vins_facts = None # will hold ViNS facts
validated_rg_id = 0 validated_rg_id = 0
rg_facts = None # will hold RG facts rg_facts = None # will hold RG facts
@ -261,17 +261,17 @@ class decort_vins(DecortController):
# expect existing ViNS with the specified ID # expect existing ViNS with the specified ID
# This call to vins_find will abort the module if no ViNS with such ID is present # This call to vins_find will abort the module if no ViNS with such ID is present
self.vins_id, self.vins_facts = self.vins_find(arg_amodule.params['vins_id']) self.vins_id, self.vins_facts = self.vins_find(arg_amodule.params['vins_id'])
if not vins_id: if not self.vins_id:
self.result['failed'] = True self.result['failed'] = True
self.result['msg'] = "Specified ViNS ID {} not found.".format(arg_amodule.params['vins_id']) self.result['msg'] = "Specified ViNS ID {} not found.".format(arg_amodule.params['vins_id'])
self.fail_json(**self.result) self.fail_json(**self.result)
vins_level = "ID" self.vins_level = "ID"
validated_acc_id = vins_facts['accountId'] validated_acc_id = vins_facts['accountId']
validated_rg_id = vins_facts['rgId'] validated_rg_id = vins_facts['rgId']
elif arg_amodule.params['rg_id']: elif arg_amodule.params['rg_id']:
# expect ViNS @ RG level in the RG with specified ID # expect ViNS @ RG level in the RG with specified ID
vins_level = "RG" self.vins_level = "RG"
# This call to rg_find will abort the module if no RG with such ID is present # This call to rg_find will abort the module if no RG with such ID is present
validated_rg_id, rg_facts = self.rg_find(0, # account ID set to 0 as we search for RG by RG ID validated_rg_id, rg_facts = self.rg_find(0, # account ID set to 0 as we search for RG by RG ID
arg_amodule.params['rg_id'], arg_rg_name="") arg_amodule.params['rg_id'], arg_rg_name="")
@ -307,7 +307,7 @@ class decort_vins(DecortController):
rg_id=validated_rg_id, rg_id=validated_rg_id,
rg_facts=rg_facts, rg_facts=rg_facts,
check_state=False) check_state=False)
vins_level = "RG" self.vins_level = "RG"
# TODO: add checks and setup ViNS presence flags accordingly # TODO: add checks and setup ViNS presence flags accordingly
else: # At this point we know for sure that rg_name="" and rg_id=0 else: # At this point we know for sure that rg_name="" and rg_id=0
# So we expect ViNS @ account level # So we expect ViNS @ account level
@ -317,7 +317,7 @@ class decort_vins(DecortController):
rg_id=0, rg_id=0,
rg_facts=rg_facts, rg_facts=rg_facts,
check_state=False) check_state=False)
vins_level = "ACC" self.vins_level = "ACC"
# TODO: add checks and setup ViNS presence flags accordingly # TODO: add checks and setup ViNS presence flags accordingly
else: else:
# this is "invalid arguments combination" sink # this is "invalid arguments combination" sink

821
module_utils/decort_utils.py
Unescape View File

@ -31,7 +31,6 @@ Requirements:
- DECORT cloud platform version 3.6.1 or higher - DECORT cloud platform version 3.6.1 or higher
""" """
import copy
import json import json
import jwt import jwt
import netaddr import netaddr
@ -785,7 +784,7 @@ class DecortController(object):
Note: when Ansible is run in check mode method will return 0. Note: when Ansible is run in check mode method will return 0.
""" """
self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "kvmvm_provision") self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "kvmvm_provision2")
if self.amodule.check_mode: if self.amodule.check_mode:
self.result['failed'] = False self.result['failed'] = False
@ -1207,7 +1206,7 @@ class DecortController(object):
affinityLabel=label,) affinityLabel=label,)
self.decort_api_call(requests.post, "/restmachine/cloudapi/compute/affinityLabelSet", api_params) self.decort_api_call(requests.post, "/restmachine/cloudapi/compute/affinityLabelSet", api_params)
if aff: if aff:
if len(aff[0])>0: if len(aff)>0:
for rule in aff: for rule in aff:
api_params = dict(computeId=comp_dict['id'], api_params = dict(computeId=comp_dict['id'],
key=rule['key'], key=rule['key'],
@ -1217,7 +1216,7 @@ class DecortController(object):
policy=rule['policy'],) policy=rule['policy'],)
self.decort_api_call(requests.post, "/restmachine/cloudapi/compute/affinityRuleAdd", api_params) self.decort_api_call(requests.post, "/restmachine/cloudapi/compute/affinityRuleAdd", api_params)
if aaff: if aaff:
if len(aaff[0])>0: if len(aaff)>0:
for rule in aaff: for rule in aaff:
api_params = dict(computeId=comp_dict['id'], api_params = dict(computeId=comp_dict['id'],
key=rule['key'], key=rule['key'],
@ -1975,7 +1974,7 @@ class DecortController(object):
if api_resp.status_code == 200: if api_resp.status_code == 200:
locations = json.loads(api_resp.content.decode('utf8')) locations = json.loads(api_resp.content.decode('utf8'))
if location_code == "" and locations: if location_code == "" and locations:
ret_gid = locations[0]['gid'] ret_gid = locations['gid']
else: else:
for runner in locations: for runner in locations:
if runner['locationCode'] == location_code: if runner['locationCode'] == location_code:
@ -2569,7 +2568,7 @@ class DecortController(object):
# #
############################## ##############################
def disk_delete(self, disk_id, permanently=False, force_detach=False): def disk_delete(self, disk_id, permanently, detach, reason):
"""Deletes specified Disk. """Deletes specified Disk.
@param (int) disk_id: ID of the Disk to be deleted. @param (int) disk_id: ID of the Disk to be deleted.
@ -2586,8 +2585,9 @@ class DecortController(object):
return return
api_params = dict(diskId=disk_id, api_params = dict(diskId=disk_id,
detach=force_detach, detach=detach,
permanently=permanently, ) permanently=permanently,
reason=reason)
self.decort_api_call(requests.post, "/restmachine/cloudapi/disks/delete", api_params) self.decort_api_call(requests.post, "/restmachine/cloudapi/disks/delete", api_params)
# On success the above call will return here. On error it will abort execution by calling fail_json. # On success the above call will return here. On error it will abort execution by calling fail_json.
self.result['failed'] = False self.result['failed'] = False
@ -2626,7 +2626,7 @@ class DecortController(object):
return ret_disk_id, ret_disk_dict return ret_disk_id, ret_disk_dict
def disk_find(self, disk_id, disk_name="", account_id=0, check_state=False): def disk_find(self, disk_id, name, account_id, check_state=False):
"""Find specified Disk. """Find specified Disk.
@param (int) disk_id: ID of the Disk. If non-zero disk_id is specified, all other arguments @param (int) disk_id: ID of the Disk. If non-zero disk_id is specified, all other arguments
@ -2662,11 +2662,11 @@ class DecortController(object):
self.result['failed'] = True self.result['failed'] = True
self.result['msg'] = "disk_find(): cannot find Disk by ID {}.".format(disk_id) self.result['msg'] = "disk_find(): cannot find Disk by ID {}.".format(disk_id)
self.amodule.fail_json(**self.result) self.amodule.fail_json(**self.result)
if not check_state or ret_disk_facts['status'] not in DISK_INVALID_STATES: if not check_state or ret_disk_facts['status']:
return ret_disk_id, ret_disk_facts return ret_disk_id, ret_disk_facts
else: else:
return 0, None return 0, None
elif disk_name != "": elif name != "":
if account_id > 0: if account_id > 0:
api_params = dict(accountId=account_id) api_params = dict(accountId=account_id)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/disks/list", api_params) api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/disks/list", api_params)
@ -2674,15 +2674,15 @@ class DecortController(object):
disks_list = json.loads(api_resp.content.decode('utf8')) disks_list = json.loads(api_resp.content.decode('utf8'))
for runner in disks_list: for runner in disks_list:
# return the first disk of the specified name that fulfills status matching rule # return the first disk of the specified name that fulfills status matching rule
if runner['name'] == disk_name: if runner['name'] == name:
if not check_state or runner['status'] not in DISK_INVALID_STATES: if not check_state or runner['status']:
return runner['id'], runner return runner['id'], runner
else: else:
return 0, None return 0, None
else: # we are missing meaningful account_id - fail the module else: # we are missing meaningful account_id - fail the module
self.result['failed'] = True self.result['failed'] = True
self.result['msg'] = ("disk_find(): cannot find Disk by name '{}' " self.result['msg'] = ("disk_find(): cannot find Disk by name '{}' "
"when no account ID specified.").format(disk_name) "when no account ID specified.").format(name)
self.amodule.fail_json(**self.result) self.amodule.fail_json(**self.result)
else: # Disk ID is 0 and Disk name is emtpy - fail the module else: # Disk ID is 0 and Disk name is emtpy - fail the module
self.result['failed'] = True self.result['failed'] = True
@ -2691,55 +2691,40 @@ class DecortController(object):
return 0, None return 0, None
def disk_provision(self, disk_name, size, account_id, sep_id, pool_name="", desc="", location=""): def disk_create(self, accountId, gid, name, description, size, type, iops, sep_id, pool):
"""Provision Disk according to the specified arguments. """Provision Disk according to the specified arguments.
Note that disks created by this method will be of type 'D' (data disks). Note that disks created by this method will be of type 'D' (data disks).
If critical error occurs the embedded call to API function will abort further execution If critical error occurs the embedded call to API function will abort further execution
of the script and relay error to Ansible. of the script and relay error to Ansible.
@param (string) disk_name: name to assign to the Disk. @param (string) name: name to assign to the Disk.
@param (int) size: size of the disk in GB. @param (int) size: size of the disk in GB.
@param (int) account_id: ID of the account where disk will belong. @param (int) accountId: ID of the account where disk will belong.
@param (int) sep_id: ID of the SEP (Storage Endpoint Provider), where disk will be created. @param (int) sep_id: ID of the SEP (Storage Endpoint Provider), where disk will be created.
@param (string) pool: optional name of the pool, where this disk will be created. @param (string) pool: optional name of the pool, where this disk will be created.
@param (string) desc: optional text description of this disk. @param (string) description: optional text description of this disk.
@param (string) location: optional location, where disk resources will be provided. If empty @param (int) gid: optional Grid id, if specified the disk will be created in selected
string is specified the disk will be created in the default location under DECORT controller. location.
@return: ID of the newly created Disk (in Ansible check mode 0 is returned). @return: ID of the newly created Disk (in Ansible check mode 0 is returned).
""" """
self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "disk_provision") self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "disk_creation")
api_params = dict(accountId=accountId,
if self.amodule.check_mode: gid=gid,
self.result['failed'] = False name=name,
self.result['msg'] = "disk_provision() in check mode: create Disk name '{}' was requested.".format( description=description,
disk_name)
return 0
target_gid = self.gid_get(location)
if not target_gid:
self.result['failed'] = True
self.result['msg'] = "disk_provision() failed to obtain Grid ID for default location."
self.amodule.fail_json(**self.result)
ret_disk_id = 0
api_params = dict(accountId=account_id,
gid=target_gid,
name=disk_name,
desc=desc,
size=size, size=size,
type='D', type=type,
sepId=sep_id, ) iops=iops,
if pool_name != "": sepId=sep_id,
api_params['pool'] = pool_name pool=pool )
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/disks/create", api_params) api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/disks/create", api_params)
if api_resp.status_code == 200: if api_resp.status_code == 200:
ret_disk_id = json.loads(api_resp.content.decode('utf8')) ret_disk_id = json.loads(api_resp.content.decode('utf8'))
self.result['failed'] = False self.result['failed'] = False
self.result['changed'] = True self.result['changed'] = True
return ret_disk_id return ret_disk_id
def disk_resize(self, disk_facts, new_size): def disk_resize(self, disk_facts, new_size):
@ -2794,6 +2779,48 @@ class DecortController(object):
return return
def disk_limitIO(self, limits, diskId):
"""Limits already created Disk identified by its ID.
@param (dict) limits: Dictionary with limits.
@param (int) diskId: ID of the Disk to limit.
@returns: nothing on success. On error this method will abort module execution.
"""
self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "disk_limitIO")
api_params = dict(diskId=diskId,
total_bytes_sec=limits['total_bytes_sec'],
read_bytes_sec=limits['read_bytes_sec'],
write_bytes_sec=limits['write_bytes_sec'],
total_iops_sec=limits['total_iops_sec'],
read_iops_sec=limits['read_iops_sec'],
write_iops_sec=limits['write_iops_sec'],
total_bytes_sec_max=limits['total_bytes_sec_max'],
read_bytes_sec_max=limits['read_bytes_sec_max'],
write_bytes_sec_max=limits['write_bytes_sec_max'],
total_iops_sec_max=limits['total_iops_sec_max'],
read_iops_sec_max=limits['read_iops_sec_max'],
write_iops_sec_max=limits['write_iops_sec_max'],
size_iops_sec=limits['size_iops_sec'])
self.decort_api_call(requests.post, "/restmachine/cloudapi/disks/limitIO", api_params)
self.result['msg'] = "Specified Disk ID {} limited successfully.".format(self.validated_disk_id)
return
def disk_rename(self, diskId, name):
"""Renames disk to the specified new name.
@param disk_id: ID of the Disk to rename.
@param name: New name.
@returns: nothing on success. On error this method will abort module execution.
"""
self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "disk_rename")
api_params = dict(diskId=diskId,
name=name)
self.decort_api_call(requests.post, "/restmachine/cloudapi/disks/rename", api_params)
# On success the above call will return here. On error it will abort execution by calling fail_json.
self.result['failed'] = False
self.result['changed'] = True
return
def disk_restore(self, disk_id): def disk_restore(self, disk_id):
"""Restores previously deleted Disk identified by its ID. For restore to succeed """Restores previously deleted Disk identified by its ID. For restore to succeed
the Disk must be in 'DELETED' state. the Disk must be in 'DELETED' state.
@ -3270,7 +3297,7 @@ class DecortController(object):
self.result['failed'] = True self.result['failed'] = True
return return
elif ret_info['status'] == "OK": elif ret_info['status'] == "OK":
k8s_id = ret_info['result'][0] k8s_id = ret_info['result']
self.result['changed'] = True self.result['changed'] = True
return k8s_id return k8s_id
else: else:
@ -3373,10 +3400,10 @@ class DecortController(object):
k8ci_id_present = True k8ci_id_present = True
break break
if k8ci_id_present == False: else:
self.result['failed'] = True self.result['failed'] = True
self.result['msg'] = ("Cannot find k8ci id: {}.").format(arg_k8ci_id) self.result['msg'] = ("Cannot find k8ci id: {}.").format(arg_k8ci_id)
self.amodule.fail_json(**self.result) self.amodule.fail_json(**self.result)
else: else:
self.result['failed'] = True self.result['failed'] = True
self.result['msg'] = ("Failed to get k8ci list HTTP code {}.").format(api_resp.status_code) self.result['msg'] = ("Failed to get k8ci list HTTP code {}.").format(api_resp.status_code)
@ -3736,3 +3763,699 @@ class DecortController(object):
self.result['msg'] = "group_delete() Group ID {} was deleted.".format(gr_id) self.result['msg'] = "group_delete() Group ID {} was deleted.".format(gr_id)
self.result['changed'] = True self.result['changed'] = True
return return
####################
### LB MANAGMENT ###
####################
def _lb_get_by_id(self,lb_id):
"""Helper function that locates LB by ID and returns LB facts. This function
expects that the ViNS exists (albeit in DELETED or DESTROYED state) and will return
0 LB ID if not found.
@param (int) vins_id: ID of the LB to find and return facts for.
@return: LB ID and a dictionary of LB facts as provided by LB/get API call.
"""
ret_lb_id = 0
ret_lb_dict = dict()
if not lb_id:
self.result['failed'] = True
self.result['msg'] = "lb_get_by_id(): zero LB ID specified."
self.amodule.fail_json(**self.result)
api_params = dict(lbId=lb_id)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/get", api_params)
if api_resp.status_code == 200:
ret_lb_id = lb_id
ret_lb_dict = json.loads(api_resp.content.decode('utf8'))
else:
self.result['warning'] = ("lb_get_by_id(): failed to get LB by ID {}. HTTP code {}, "
"response {}.").format(lb_id, api_resp.status_code, api_resp.reason)
return ret_lb_id, ret_lb_dict
def _rg_listlb(self,rg_id):
"""List all LB in the resource group
@param (int) rg_id: id onr resource group
"""
if not rg_id:
self.result['failed'] = True
self.result['msg'] = "_rg_listlb(): zero RG ID specified."
self.amodule.fail_json(**self.result)
api_params = dict(rgId=rg_id)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/rg/listLb", api_params)
if api_resp.status_code == 200:
ret_rg_vins_list = json.loads(api_resp.content.decode('utf8'))
else:
self.result['warning'] = ("rg_listlb(): failed to get RG by ID {}. HTTP code {}, "
"response {}.").format(rg_id, api_resp.status_code, api_resp.reason)
return []
return ret_rg_vins_list
def lb_find(self,lb_id=0,lb_name="",rg_id=0):
"""Find specified LB.
@returns: LB ID and dictionary with LB facts.
"""
LB_INVALID_STATES = ["ENABLING", "DISABLING", "DELETING", "DELETED", "DESTROYING", "DESTROYED"]
ret_lb_id = 0
ret_lb_facts = None
self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "lb_find")
if lb_id > 0:
ret_lb_id, ret_lb_facts = self._lb_get_by_id(lb_id)
if not ret_lb_id:
self.result['failed'] = True
self.result['msg'] = "lb_find(): cannot find LB by ID {}.".format(lb_id)
self.amodule.fail_json(**self.result)
if not self.amodule.check_mode or ret_lb_facts['status'] not in LB_INVALID_STATES:
return ret_lb_id, ret_lb_facts
else:
return 0, None
elif lb_name != "":
if rg_id > 0:
list_lb = self._rg_listlb(rg_id)
for lb in list_lb:
if lb['name'] == lb_name:
ret_lb_id, ret_lb_facts = self._lb_get_by_id(lb['id'])
if not self.amodule.check_mode or ret_lb_facts['status'] not in LB_INVALID_STATES:
return ret_lb_id, ret_lb_facts
else:
return 0, None
else:
self.result['failed'] = True
self.result['msg'] = ("vins_lb(): cannot find LB by name '{}' "
"when no account ID or RG ID is specified.").format(lb_name)
self.amodule.fail_json(**self.result)
else:
self.result['failed'] = True
self.result['msg'] = "vins_find(): cannot find LB by zero ID and empty name."
self.amodule.fail_json(**self.result)
return 0, None
def lb_provision(self,lb_name,rg_id,vins_id,ext_net_id,annotation,start=True):
"""Provision LB according to the specified arguments.
If critical error occurs the embedded call to API function will abort further execution of
the script and relay error to Ansible.
Note, that when creating ViNS at account level, default location under DECORT controller
will be selected automatically.
"""
self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "lb_provision")
if self.amodule.check_mode:
self.result['failed'] = False
self.result['msg'] = ("vins_lb() in check mode: provision LB name '{}' was "
"requested in RG with id: {}.").format(lb_name,rg_id)
return 0
if lb_name == "":
self.result['failed'] = True
self.result['msg'] = "lb_provision(): LB name cannot be empty."
self.amodule.fail_json(**self.result)
api_url = "/restmachine/cloudapi/lb/create"
api_params = dict(
name=lb_name,
rgId=rg_id,
extnetId=ext_net_id,
vinsId=vins_id,
start=start,
decs=annotation
)
api_resp = self.decort_api_call(requests.post, api_url, api_params)
# On success the above call will return here. On error it will abort execution by calling fail_json.
self.result['failed'] = False
self.result['changed'] = True
ret_lb_id = int(api_resp.content.decode('utf8'))
return ret_lb_id
def lb_delete(self,lb_id,permanently=False):
"""Deletes specified LB.
@param (int) lb_id: integer value that identifies the ViNS to be deleted.
@param (bool) permanently: a bool that tells if deletion should be permanent. If False, the LB will be
marked as DELETED and placed into a trash bin for predefined period of time (usually, a few days). Until
this period passes this LB can be restored by calling the corresponding 'restore' method.
"""
self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "lb_delete")
if self.amodule.check_mode:
self.result['failed'] = False
self.result['msg'] = "lb_delete() in check mode: delete ViNS ID {} was requested.".format(lb_id)
return
api_params = dict(lbId=lb_id,
permanently=permanently)
self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/delete", api_params)
# On success the above call will return here. On error it will abort execution by calling fail_json.
self.result['failed'] = False
self.result['changed'] = True
return
def lb_state(self, lb_dict, desired_state):
"""Change state for LB.
"""
self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "lb_state")
NOP_STATES_FOR_LB_CHANGE = ["MODELED", "DISABLING", "ENABLING", "DELETING", "DELETED", "DESTROYING",
"DESTROYED"]
VALID_TARGET_STATES = ["enabled", "disabled","restart"]
VALID_TARGET_TSTATES = ["STARTED","STOPPED"]
if lb_dict['status'] in NOP_STATES_FOR_LB_CHANGE:
self.result['failed'] = False
self.result['msg'] = ("lb_state(): no state change possible for LB ID {} "
"in its current state '{}'.").format(lb_dict['id'], lb_dict['status'])
return
if desired_state not in VALID_TARGET_STATES:
self.result['failed'] = False
self.result['warning'] = ("lb_state(): unrecognized desired state '{}' requested "
"for LB ID {}. No LB state change will be done.").format(desired_state,
lb_dict['id'])
return
if self.amodule.check_mode:
self.result['failed'] = False
self.result['msg'] = ("lb_state() in check mode: setting state of LB ID {}, name '{}' to "
"'{}' was requested.").format(lb_dict['id'], lb_dict['name'],
desired_state)
return
state_api = ""
api_params = dict(lbId=lb_dict['id'])
expected_state = ""
if lb_dict['status'] in ["CREATED", "ENABLED"]:
if desired_state == 'disabled':
state_api = "/restmachine/cloudapi/lb/disable"
expected_state = "DISABLED"
if lb_dict['techStatus'] == "STARTED":
if desired_state == 'stopped':
state_api = "/restmachine/cloudapi/lb/stop"
if desired_state == 'restart':
state_api = "/restmachine/cloudapi/lb/restart"
elif lb_dict['techStatus'] == "STOPPED":
if desired_state == 'started':
state_api = "/restmachine/cloudapi/lb/start"
elif lb_dict['status'] == "DISABLED" and desired_state == 'enabled':
state_api = "/restmachine/cloudapi/lb/enable"
expected_state = "ENABLED"
if state_api != "":
self.decort_api_call(requests.post, state_api, api_params)
# On success the above call will return here. On error it will abort execution by calling fail_json.
self.result['failed'] = False
self.result['changed'] = True
lb_dict['status'] = expected_state
else:
self.result['failed'] = False
self.result['msg'] = ("lb_state(): no state change required for LB ID {} from current "
"state '{}' to desired state '{}'.").format(lb_dict['id'],
lb_dict['status'],
desired_state)
return
def lb_restore(self, lb_id):
"""Restores previously deleted LB identified by its ID.
@param lb_id: ID of the LB to restore.
@returns: nothing on success. On error this method will abort module execution.
"""
self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "lb_restore")
if self.amodule.check_mode:
self.result['failed'] = False
self.result['msg'] = "lb_restore() in check mode: restore LB ID {} was requested.".format(lb_id)
return
api_params = dict(lbId=lb_id)
self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/restore", api_params)
# On success the above call will return here. On error it will abort execution by calling fail_json.
self.result['failed'] = False
self.result['changed'] = True
return
def lb_update_backends(self,lb_backends,mod_backends,mod_servers):
"""
backends
"""
self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "lb_update_backends")
if mod_backends:
backs_out = [rec['name'] for rec in mod_backends]
else:
backs_out=""
backs_in = [rec['name'] for rec in lb_backends]
del_backs = set(backs_in).difference(backs_out)
add_becks = set(backs_out).difference(backs_in)
upd_becks = set(backs_in).intersection(backs_out)
for item in del_backs:
#need delete frontend
api_params = dict(lbId=self.lb_id,backendName = item)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendDelete", api_params)
self.result['changed'] = True
for item in add_becks:
backend, = list(filter(lambda i: i['name'] == item,mod_backends))
api_params = dict(
lbId=self.lb_id,
backendName = backend['name'],
algorithm = backend['algorithm'] if "algorithm" in backend else None,
**backend['default_settings'] if "default_settings" in backend else {},
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendCreate", api_params)
self.result['changed'] = True
for item in upd_becks.union(add_becks):
backend, = list(filter(lambda i: i['name'] == item,lb_backends))
mod_backend, = list(filter(lambda i: i['name'] == item,mod_backends))
servers_in = [rec['name'] for rec in backend['servers']]
servers_out = []
#oO rework
if mod_servers:
for serv in mod_servers:
for bend in serv['backends']:
if bend['name'] == item:
servers_out.append(serv['name'])
del_srv = set(servers_in).difference(servers_out)
add_srv = set(servers_out).difference(servers_in)
upd_srv = set(servers_in).intersection(servers_out)
del backend['serverDefaultSettings']['guid']
if "default_settings" not in mod_backend:
mod_backend["default_settings"] = self.default_settings
if "algorithm" not in mod_backend:
mod_backend["algorithm"] = self.default_alg
if backend['serverDefaultSettings'] != mod_backend["default_settings"] or\
mod_backend["algorithm"] != backend['algorithm']:
api_params = dict(
lbId=self.lb_id,
backendName = item,
algorithm = mod_backend['algorithm'],
**mod_backend['default_settings'] if "default_settings" in mod_backend else {},
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendUpdate", api_params)
self.result['changed'] = True
for srv in del_srv:
api_params = dict(lbId=self.lb_id,backendName = item,serverName=srv)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendServerDelete", api_params)
self.result['changed'] = True
for srv in add_srv:
server, = list(filter(lambda i: i['name'] == srv,mod_servers))
back, = list(filter(lambda i: i['name'] == item,server['backends']))
api_params = dict(
lbId=self.lb_id,
backendName = item,
serverName = server['name'],
address = server['address'],
port = back['port'],
check = server['check'] if "check" in server else None,
**server['server_settings'] if "server_settings" in server else {},
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendServerAdd", api_params)
self.result['changed'] = True
for srv in upd_srv:
mod_server, = list(filter(lambda i: i['name'] == srv,mod_servers))
mod_server_back, = list(filter(lambda i: i['name'] == item,mod_server['backends']))
server, = list(filter(lambda i: i['name'] == srv, backend['servers']))
del server['serverSettings']['guid']
if "server_settings" not in mod_server_back:
mod_server_back['server_settings'] = self.default_settings
if "check" not in mod_server:
mod_server['check'] = self.default_server_check
if (mod_server['address'] != server['address'] or\
server['check']!=mod_server["check"]) or\
mod_server_back['server_settings'] != server['serverSettings']:
api_params = dict(
lbId=self.lb_id,
backendName = item,
serverName = mod_server['name'],
address = mod_server['address'],
port = mod_server_back['port'],
check = mod_server_back['check'] if "check" in mod_server_back else None,
**mod_server_back['server_settings'] if "server_settings" in mod_server_back else {},
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendServerUpdate", api_params)
self.result['changed'] = True
return
def lb_update_frontends(self,lb_frontends,mod_frontends):
"""
frontends
"""
self.result['waypoints'] = "{} -> {}".format(self.result['waypoints'], "lb_update_frontends")
if mod_frontends:
front_out = [rec['name'] for rec in mod_frontends]
else:
front_out=""
front_in = [rec['name'] for rec in lb_frontends]
del_front = set(front_in).difference(front_out)
add_front = set(front_out).difference(front_in)
upd_front = set(front_in).intersection(front_out)
for front in del_front:
delete_front, = list(filter(lambda i: i['name'] == front,lb_frontends))
api_params = dict(
lbId=self.lb_id,
frontendName=delete_front['name'],
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/frontendDelete", api_params)
self.result['changed'] = True
for front in add_front:
create_front, = list(filter(lambda i: i['name'] == front,mod_frontends))
api_params = dict(
lbId=self.lb_id,
frontendName=create_front['name'],
backendName=create_front['backend'],
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/frontendCreate", api_params)
self.result['changed'] = True
if "bindings" in create_front:
for bind in create_front['bindings']:
self._lb_bind_frontend(
create_front['name'],
bind['name'],
bind['address'] if "address" in bind else None,
bind['port'] if "port" in bind else None
)
for front in upd_front:
update_front, = list(filter(lambda i: i['name'] == front,mod_frontends))
lb_front, = list(filter(lambda i: i['name'] == front,lb_frontends))
mod_bind = [rec['name'] for rec in update_front['bindings']]
lb_bind = [rec['name'] for rec in lb_front['bindings']]
del_bind_list = set(lb_bind).difference(mod_bind)
add_bind_list = set(mod_bind).difference(lb_bind)
upd_bind_list = set(lb_bind).intersection(mod_bind)
for bind_name in del_bind_list:
del_bind, = list(filter(lambda i: i['name'] == bind_name,lb_front['bindings']))
api_params = dict(
lbId=self.lb_id,
frontendName=update_front['name'],
bindingName=del_bind['name'],
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/frontendBindDelete", api_params)
self.result['changed'] = True
for bind_name in add_bind_list:
add_bind, = list(filter(lambda i: i['name'] == bind_name,update_front['bindings']))
self._lb_bind_frontend(
update_front['name'],
add_bind['name'],
add_bind['address'] if "address" in add_bind else None,
add_bind['port'] if "port" in add_bind else None
)
for bind_name in upd_bind_list:
lb_act_bind, = list(filter(lambda i: i['name'] == bind_name,lb_front['bindings']))
mod_act_bind, = list(filter(lambda i: i['name'] == bind_name,update_front['bindings']))
del lb_act_bind['guid']
if lb_act_bind != mod_act_bind:
self._lb_bind_frontend(
update_front['name'],
mod_act_bind['name'],
mod_act_bind['address'] if "address" in mod_act_bind else None,
mod_act_bind['port'] if "port" in mod_act_bind else None,
update=True
)
return
def _lb_bind_frontend(self,front_name,bind_name,bind_addr=None,bind_port=None,update=False):
api_params = dict(
lbId=self.lb_id,
frontendName=front_name,
bindingName=bind_name,
bindingAddress=bind_addr,
bindingPort=bind_port,
)
if update == True:
api_url = "/restmachine/cloudapi/lb/frontendBindingUpdate"
else:
api_url = "/restmachine/cloudapi/lb/frontendBind"
api_resp = self.decort_api_call(requests.post, api_url, api_params)
self.result['changed'] = True
def lb_update(self,lb_backends=[],lb_frontends=[],mod_backends=[],mod_servers=[],mod_frontends=[]):
#lists from module and cloud
mod_backs_list = [back['name'] for back in mod_backends]
lb_backs_list = [back['name'] for back in lb_backends]
#ADD\DEL\UPDATE LISTS OF BACKENDS
del_list_backs = set(lb_backs_list).difference(mod_backs_list)
add_back_list = set(mod_backs_list).difference(lb_backs_list)
upd_back_list = set(lb_backs_list).intersection(mod_backs_list)
#FE
mod_front_list = [front['name'] for front in mod_frontends]
lb_front_list = [front['name'] for front in lb_frontends]
if del_list_backs:
self._lb_delete_backends(
del_list_backs,
lb_frontends
)
if add_back_list:
self._lb_create_backends(
add_back_list,
mod_backends,
mod_servers
)
if upd_back_list:
self._lb_update_backends(
upd_back_list,
lb_backends,
mod_backends,
mod_servers
)
del_list_fronts = set(lb_front_list).difference(mod_front_list)
add_list_fronts = set(mod_front_list).difference(lb_front_list)
upd_front_list = set(lb_front_list).intersection(mod_front_list)
if del_list_fronts:
self._lb_delete_fronts(del_list_fronts)
if add_list_fronts:
self._lb_add_fronts(add_list_fronts,mod_frontends)
if upd_front_list:
self._lb_update_fronts(upd_front_list,lb_frontends,mod_frontends)
return
def _lb_delete_backends(self,back_list,lb_fronts):
#delete frontends with that backend
for back in back_list:
fronts = list(filter(lambda i: i['backend'] == back,lb_fronts))
if fronts:
self._lb_delete_fronts(fronts)
api_params = dict(
lbId=self.lb_id,
backendName = back
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendDelete", api_params)
self.result['changed'] = True
return
def _lb_delete_fronts(self,d_fronts):
for front in d_fronts:
api_params = dict(
lbId=self.lb_id,
frontendName=front['name'] if "name" in front else front,
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/frontendDelete", api_params)
#del from cloud dict
if type(front)==dict:
del self.lb_facts['frontends'][front['name']]
self.result['changed'] = True
return
def _lb_add_fronts(self,front_list,mod_fronts):
for front in front_list:
add_front, = list(filter(lambda i: i['name'] == front,mod_fronts))
api_params = dict(
lbId=self.lb_id,
frontendName=add_front['name'],
backendName=add_front['backend'],
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/frontendCreate", api_params)
for bind in add_front['bindings']:
self._lb_bind_frontend(
add_front['name'],
bind['name'],
bind['address']if "address" in bind else None,
bind['port'] if "port" in bind else None,
)
return
def _lb_create_backends(self,back_list,mod_backs,mod_serv):
'''
Create backends and add servers to them
'''
for back in back_list:
backend, = list(filter(lambda i: i['name'] == back,mod_backs))
api_params = dict(
lbId=self.lb_id,
backendName = back,
algorithm = backend['algorithm'] if "algorithm" in backend else None,
**backend['default_settings'] if "default_settings" in backend else {},
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendCreate", api_params)
for server in mod_serv:
try:
srv_back, = list(filter(lambda i: i['name'] == back,server['backends']))
except:
continue
api_params = dict(
lbId=self.lb_id,
backendName = back,
serverName = server['name'],
address = server['address'],
port = srv_back['port'],
check = srv_back['check'] if "check" in srv_back else None,
**srv_back['server_settings'] if "server_settings" in srv_back else {},
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendServerAdd", api_params)
self.result['changed'] = True
return
def _lb_update_backends(self,back_list,lb_backs,mod_backs,mod_serv):
lb_backs = list(filter(lambda i: i['name'] in back_list,lb_backs))
#mod_back = list(filter(lambda i: i['name'] in back_list,mod_backs))
for back in lb_backs:
del back['serverDefaultSettings']['guid']
mod_back, = list(filter(lambda i: i['name']==back['name'],mod_backs))
#mod_servers = list(filter(lambda i: i['name']==back['name'],mod_serv))
#raise Exception(mod_servers)
if "default_settings" not in mod_back:
mod_back["default_settings"] = self.default_settings
else:
for param,value in self.default_settings.items():
if param not in mod_back["default_settings"]:
mod_back["default_settings"].update(param,value)
if "algorithm" not in mod_back:
mod_back["algorithm"] = self.default_alg
if back['serverDefaultSettings'] != mod_back["default_settings"] or\
mod_back["algorithm"] != back['algorithm']:
api_params = dict(
lbId=self.lb_id,
backendName = back['name'],
algorithm = mod_back['algorithm'],
**mod_back['default_settings'],
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendUpdate", api_params)
self.result['changed'] = True
lb_servers_list = [srv['name'] for srv in back['servers']]
for server in mod_serv:
try:
mod_back, = list(filter(lambda i: i['name'] == back['name'],server['backends']))
except:
continue
if server['name'] not in lb_servers_list:
api_params = dict(
lbId=self.lb_id,
backendName = mod_back['name'],
serverName = server['name'],
address = server['address'],
port = mod_back['port'],
check = server['check'] if "check" in server else None,
**server['server_settings'] if "server_settings" in server else {},
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendServerAdd", api_params)
self.result['changed'] = True
else:
lb_server, = list(filter(lambda i: i['name'] == server['name'],back['servers']))
del lb_server['serverSettings']['guid']
if "server_settings" not in mod_back:
mod_back['server_settings'] = self.default_settings
else:
for param,value in self.default_settings.items():
if param not in mod_back["server_settings"]:
mod_back["server_settings"].update(param,value)
if "check" not in mod_back:
mod_back['check'] = self.default_server_check
if (server['address'] != lb_server['address'] or\
lb_server['check']!=mod_back['check']) or\
mod_back['server_settings'] != lb_server['serverSettings']:
api_params = dict(
lbId=self.lb_id,
backendName = mod_back['name'],
serverName = server['name'],
address = server['address'],
port = mod_back['port'],
check = mod_back['check'],
**mod_back['server_settings'],
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendServerUpdate", api_params)
self.result['changed'] = True
lb_servers_list.remove(server['name'])
for server in lb_servers_list:
api_params = dict(lbId=self.lb_id,backendName = back['name'],serverName=server)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/backendServerDelete", api_params)
self.result['changed'] = True
return
def _lb_update_fronts(self,upd_front_list,lb_frontends,mod_frontends):
for front in upd_front_list:
mod_front, = list(filter(lambda i: i['name'] == front,mod_frontends))
lb_front, = list(filter(lambda i: i['name'] == front,lb_frontends))
lb_binds_list = [bind['name'] for bind in lb_front['bindings']]
for bind in mod_front['bindings']:
if bind['name'] not in lb_binds_list:
pass
self._lb_bind_frontend(
front,
bind['name'],
bind['address']if "address" in bind else None,
bind['port'] if "port" in bind else None,
)
else:
lb_bind, = list(filter(lambda i: i['name'] == bind['name'],lb_front['bindings']))
del lb_bind['guid']
if dict(sorted(bind.items())) != dict(sorted(lb_bind.items())):
self._lb_bind_frontend(
front,
bind['name'],
bind['address']if "address" in bind else None,
bind['port'] if "port" in bind else None,
update=True,
)
lb_binds_list.remove(bind['name'])
for lb_bind in lb_binds_list:
api_params = dict(
lbId=self.lb_id,
frontendName=front,
bindingName=lb_bind,
)
api_resp = self.decort_api_call(requests.post, "/restmachine/cloudapi/lb/frontendBindDelete", api_params)
self.result['changed'] = True
return

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