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decort-ansible
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6 Commits
main ... rc-5.2.2

Author SHA1 Message Date
Aleksandr Malyavin 3797ed9814 Add decort_lb management. decort_disk: Change limitIO, rename disk.
2 years ago
Aleksandr Malyavin 4be8dc1c2e Fixed k8s: Deleting\adding a node in some cases applies to all cluster worker groups. ViNS: Mechanism for connecting several virtual network segments has been improved. Changed the mechanism for assigning an IP address for connecting via SSH. Add examples for usage Vault
2 years ago
Aleksandr Malyavin a4800cd041 add osimages, add ViNS management
3 years ago
Aleksandr Malyavin ba8165bcf9 k8s: add labels, taints, annotations. VNFDev: add set IP, enable ssh access, some VNFDev management. add BasicService management. Add examples
3 years ago
Aleksandr Malyavin d36ab8f36f k8s: manipulate with workers, get k8s config. kvmvm: affinity/anti-affinity, cloud-init userdata. Add examples.
3 years ago
Aleksandr Malyavin 587f0d9c0b Update README, add kubernetes support
3 years ago
30 changed files with 4956 additions and 813 deletions
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4
README.md
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@ -5,8 +5,8 @@ Note that this module may produce unreliable results when used with older DECORT
Requirements:
* Ansible 2.7 or higher
* Python 2.6 or higher
* PyJWT 1.7.1 Python module
* Python 3.7 or higher
* PyJWT 2.0.0 Python module or higher
* requests Python module
* netaddr Python module
* DECORT cloud platform version 3.5.0 or higher

40
examples/VINS.yaml
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---
#
# DECORT vins module example
#
- hosts: localhost
tasks:
- name: obtain JWT
decort_jwt:
oauth2_url: "https://sso.digitalenergy.online"
validity: 1200
register: my_jwt
delegate_to: localhost
- name: print out JWT
debug:
var: my_jwt.jwt
delegate_to: localhost
- name: Manage ViNS at resource group level
decort_vins:
authenticator: jwt
jwt: "{{ my_jwt.jwt }}"
controller_url: "https://ds1.digitalenergy.online"
vins_name: "vins_created_by_decort_VINS_module"
state: present
rg_id: 198
ext_net_id: -1
ipcidr: "10.20.30.0/24"
mgmtaddr: "10.20.30.1"
custom_config: false
config_save: false
verify_ssl: false
register: managed_vins
- name: print VINS facter
debug:
msg: "{{managed_vins.facts.password}}"
when: managed_vins.facts.password is defined

36
examples/affinity.yaml
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---
#
# DECORT kvmvm module example
#
- hosts: ansible_master
tasks:
- name: create a VM named cloud-init_example
decort_kvmvm:
name: affinity_example
annotation: "VM managed by decort_kvmvm module"
authenticator: oauth2
app_id: "" # Application id from SSO Digital Energy
app_secret: "" # API key from SSO Digital Energy
controller_url: "" #"https://mr4.digitalenergy.online"
rg_id: # Resource group id
cpu: 2
ram: 2048
boot_disk: 10
image_name: "DECS Ubuntu 18.04 v1.2.3" # Name of OS image
networks:
- type: VINS
id: # VINS id
tags: "Ansible cloud init example"
aff_lable: "Affinity lable"
tag:
- key: bd
value: main
aff_rule:
- key: app
value: main
topology: compute
policy: REQUIRED
mode: EQ
state: present
delegate_to: localhost
register: simple_vm

40
examples/annotations.yaml
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---
#
# DECORT k8s module labels, taints, annotations example
#
- hosts: localhost
tasks:
- name: obtain JWT
decort_jwt:
oauth2_url: "https://sso.digitalenergy.online"
validity: 1200
register: my_jwt
delegate_to: localhost
- name: print out JWT
debug:
var: my_jwt.jwt
delegate_to: localhost
- name: Create k8s cluster
decort_k8s:
authenticator: jwt
jwt: "{{ my_jwt.jwt }}"
controller_url: "https://mr4.digitalenergy.online"
name: "example_kubernetes"
rg_id: 199
k8ci_id: 4
state: present
workers:
- name: workgroup1
labels:
- disktype1=ssd1
- disktype2=ssd2
taints:
- key1=value1:NoSchedule
- key2=value2:NoSchedule
annotations:
- node.deckhouse.io/group1=g1
- node.deckhouse.io/group2=g2
register: kube

36
examples/anti_affinity.yaml
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---
#
# DECORT kvmvm module example
#
- hosts: ansible_master
tasks:
- name: create a VM named cloud-init_example
decort_kvmvm:
name: anti-affinity_example
annotation: "VM managed by decort_kvmvm module"
authenticator: oauth2
app_id: "" # Application id from SSO Digital Energy
app_secret: "" # API key from SSO Digital Energy
controller_url: "" #"https://mr4.digitalenergy.online"
rg_id: # Resource group id
cpu: 2
ram: 2048
boot_disk: 10
image_name: "DECS Ubuntu 18.04 v1.2.3" #Name of OS image
networks:
- type: VINS
id: #VINS id
tags: "Ansible cloud init example"
aff_lable: "Anti affinity lable"
tag:
- key: bd
value: main
aaff_rule:
- key: app
value: main
topology: compute
policy: REQUIRED
mode: ANY
state: present
delegate_to: localhost
register: simple_vm

31
examples/basicservices.yaml
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---
#
# DECORT bservice module example
#
- hosts: localhost
tasks:
- name: obtain JWT
decort_jwt:
oauth2_url: "https://sso.digitalenergy.online"
validity: 1200
register: my_jwt
delegate_to: localhost
- name: print out JWT
debug:
var: my_jwt.jwt
delegate_to: localhost
- name: Manage bservice at RG
decort_bservice:
account_id: 98
verify_ssl: false
authenticator: jwt
jwt: "{{ my_jwt.jwt }}"
controller_url: "https://ds1.digitalenergy.online"
rg_id: 1629
state: present
name: databases
started: True
register: db_bservice

38
examples/cloud-init.yaml
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#
# DECORT kvmvm module example
#
- hosts: ansible_master
tasks:
- name: create a VM named cloud-init_example
decort_kvmvm:
annotation: "VM managed by decort_kvmvm module"
authenticator: oauth2
app_id: "" # Application id from SSO Digital Energy
app_secret: "" # API key from SSO Digital Energy
controller_url: "" #"https://mr4.digitalenergy.online"
name: cloud-init_example
cpu: 2
ram: 2048
boot_disk: 10
image_name: "DECS Ubuntu 18.04 v1.2.3" #Name of OS image
networks:
- type: VINS
id: #VINS id
tags: "Ansible cloud init example"
state: present
rg_id: #Resource group id
ci_user_data:
- packages:
- apache2
- write_files:
- content: |
<div>
Hello World!
</div>
owner: user:user
path: /var/www/html/index.html
- hostname: test-apache
- ssh_keys:
- rsa_public: ssh-rsa AAAAOasDmLxnD= user@pc
delegate_to: localhost
register: simple_vm

27
examples/create-osimage.yaml
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---
#
# DECORT osimage module example
#
- hosts: localhost
tasks:
- name: create
decort_osimage:
authenticator: oauth2
verify_ssl: False
controller_url: "https://ds1.digitalenergy.online"
state: present
image_name: "alpine_linux3.14.0"
account_Id: 12345
url: "https://dl-cdn.alpinelinux.org/alpine/v3.14/releases/x86_64/alpine-virt-3.14.0-x86_64.iso"
boottype: "uefi"
imagetype: "linux"
hotresize: False
image_username: "test"
image_password: "p@ssword"
usernameDL: "testDL"
passwordDL: "p@sswordDL"
architecture: "X86_64"
drivers: "KVM_X86"
delegate_to: localhost
register: simple_vm

15
examples/create-virtual-osimage.yaml
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---
#
# DECORT osimage module example
#
- hosts: localhost
tasks:
- name: create_virtual_osimage
decort_osimage:
authenticator: oauth2
controller_url: "https://ds1.digitalenergy.online"
image_name: "alpine_linux_3.14.0"
virt_name: "alpine_last"
delegate_to: localhost
register: osimage

14
examples/get-osimage.yaml
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---
#
# DECORT osimage module example
#
- hosts: localhost
tasks:
- name: get_osimage
decort_osimage:
authenticator: oauth2
controller_url: "https://ds1.digitalenergy.online"
image_name: "alpine_linux_3.14.0"
account_Id: 79349
delegate_to: localhost
register: simple_vm

14
examples/hashivault_create_engine.yaml
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---
#
# This playbook create engine "test".
#
- hosts: localhost
tasks:
- hashivault_secret_engine:
url: "https://vault.domain.local"
authtype: ldap
username: "user"
password: "p@ssword"
state: present
name: test
backend: generic

17
examples/hashivault_create_secret.yaml
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---
#
# This playbook create secret "secret" with data foo:foe. If secret "secret" exists - add data foo:foe.
#
- hosts: localhost
tasks:
- hashivault_secret:
url: "https://vault.domain.local"
authtype: ldap
username: "user"
password: "p@ssword"
mount_point: "kv"
state: present
permanent: true
secret: secret
data:
foo: foe

35
examples/hashivault_example.yaml
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---
- hosts: localhost
tasks:
- hashivault_read:
url: "https://vault.domain.local"
authtype: ldap
username: "user"
password: "p@ssword"
mount_point: kv
secret: secrets/myaccount
key: app_secret
version: 2
register: key
- name: create a VM using app_secret from hashicorp vault
decort_kvmvm:
annotation: "VM managed by decort_kvmvm module"
authenticator: oauth2
app_id: "" # Application id from SSO Digital Energy
app_secret: "{{ key }}" # API key from SSO Digital Energy
controller_url: "https://cloud.digitalenergy.online"
name: hashivault_read_example
cpu: 2
ram: 2048
boot_disk: 10
image_name: "DECS Ubuntu 18.04 v1.2.3" #Name of OS image
networks:
- type: VINS
id: 99 #VINS id
tags: "Ansible hashivault_read example"
state: present
rg_id: 99 #Resource group id
delegate_to: localhost
register: simple_vm

31
examples/hashivault_plugin_example.yaml
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- hosts: localhost
tasks:
- name: Read a kv2 secret with kv mount point
vars:
ansible_hashi_vault_auth_method: ldap
ansible_hashi_vault_username: username
ansible_hashi_vault_password: pwd
ansible_hashi_vault_engine_mount_point: kv
ansible.builtin.set_fact:
response: "{{ lookup('community.hashi_vault.vault_kv2_get', 'secret', url='https://vault.domain.local') }}"
- name: create a VM using app_secret from hashicorp vault
decort_kvmvm:
annotation: "VM managed by decort_kvmvm module"
authenticator: oauth2
app_id: "" # Application id from SSO Digital Energy
app_secret: "{{ response.data.password }}" # API key from SSO Digital Energy
controller_url: "https://cloud.digitalenergy.online"
name: hashivault_read_example
cpu: 2
ram: 2048
boot_disk: 10
image_name: "DECS Ubuntu 18.04 v1.2.3" #Name of OS image
networks:
- type: VINS
id: 99 #VINS id
tags: "Ansible hashivault_read example"
state: present
rg_id: 99 #Resource group id
delegate_to: localhost
register: simple_vm

16
examples/hashivault_plugin_login.yaml
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- hosts: localhost
tasks:
- name: Get auth token from vault
set_fact:
login_data: "{{ lookup('community.hashi_vault.vault_login', url='https://vault.domain.local', auth_method='ldap', username='username', password='pwd') }}"
- name: Perform multiple kv2 reads with a single Vault login, showing the secrets
vars:
ansible_hashi_vault_auth_method: token
ansible_hashi_vault_token: '{{ login_data | community.hashi_vault.vault_login_token }}'
ansible_hashi_vault_engine_mount_point: kv
paths:
- secret
- secret2
ansible.builtin.debug:
msg: "{{ lookup('community.hashi_vault.vault_kv2_get', *paths, auth_method='token', url='https://vault.domain.local') }}"

18
examples/hashivault_plugin_read_secret.yaml
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- hosts: localhost
tasks:
- name: Read a kv2 secret with the default mount point
vars:
ansible_hashi_vault_auth_method: ldap
ansible_hashi_vault_username: username
ansible_hashi_vault_password: pwd
ansible_hashi_vault_engine_mount_point: kv
ansible.builtin.set_fact:
response: "{{ lookup('community.hashi_vault.vault_kv2_get', 'secret', url='https://vault.domain.local') }}"
- name: Display the results
ansible.builtin.debug:
msg:
- "Secret: {{ response.secret }}"
- "Data: {{ response.data }} (contains secret data & metadata in kv2)"
- "Metadata: {{ response.metadata }}"
- "Full response: {{ response.raw }}"

13
examples/hashivault_read_secret.yaml
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@ -0,0 +1,13 @@
---
- hosts: localhost
tasks:
- hashivault_read:
url: "https://vault.domain.local"
authtype: ldap
username: "uset"
password: "p@ssword"
mount_point: kv
secret: secret
key: foo
version: 2
register: key

39
examples/kubernetes.yaml
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---
#
# DECORT k8s module example
#
- hosts: ansible_master
tasks:
- name: obtain JWT
decort_jwt:
oauth2_url: "https://sso.digitalenergy.online"
validity: 1200
verify_ssl: false
register: token
delegate_to: localhost
- name: create a VM named cluster-test
decort_k8s:
state: present
started: True
getConfig: True
authenticator: jwt
jwt: "{{ token.jwt }}"
controller_url: "https://ds1.digitalenergy.online"
name: "cluster-test"
rg_id: 125
k8ci_id: 18
workers:
- name: wg1
ram: 1024
cpu: 10
disk: 10
num: 1
- name: wg2
ram: 1024
cpu: 10
disk: 10
num: 2
verify_ssl: false
delegate_to: localhost
register: kube

133
examples/main.yaml
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@ -188,3 +188,136 @@
var: my_pfw.facts
delegate_to: localhost
- name: Create k8s cluster with params
decort_k8s:
authenticator: jwt
jwt: "{{ token.jwt }}"
controller_url: "{{ decort_ctrl }}"
k8s_name: "k8s_cluster_name"
wg_name: "k8s_wg_name"
k8ci_id: "{{ k8ci_id }}"
rg_id: "{{ my_rg.facts.id }}"
master_count: 1
master_cpu: 2
master_ram_mb: 2048
master_disk_gb: 20
worker_count: 3
worker_cpu: 1
worker_ram_mb: 1024
worker_disk_gb: 20
extnet_id: "{{ target_ext_net_id }}"
with_lb: True
state: present
register: k8s
delegate_to: localhost
- name: print out the result
debug:
var: k8s
delegate_to: localhost
- name: Disable k8s cluster
decort_k8s:
authenticator: jwt
jwt: "{{ token.jwt }}"
controller_url: "{{ decort_ctrl }}"
k8s_name: "k8s_cluster_name"
wg_name: "k8s_wg_name"
k8ci_id: "{{ k8ci_id }}"
rg_id: "{{ my_rg.facts.id }}"
state: disabled
register: k8s
delegate_to: localhost
- name: print out the result
debug:
var: k8s
delegate_to: localhost
- name: Delete in trash k8s cluster
decort_k8s:
authenticator: jwt
jwt: "{{ token.jwt }}"
controller_url: "{{ decort_ctrl }}"
k8s_name: "k8s_cluster_name"
wg_name: "k8s_wg_name"
k8ci_id: "{{ k8ci_id }}"
rg_id: "{{ my_rg.facts.id }}"
state: absent
permanent: False
register: k8s
delegate_to: localhost
- name: print out the result
debug:
var: k8s
delegate_to: localhost
- name: Restore from trash deleted k8s cluster
decort_k8s:
authenticator: jwt
jwt: "{{ token.jwt }}"
controller_url: "{{ decort_ctrl }}"
k8s_name: "k8s_cluster_name"
wg_name: "k8s_wg_name"
k8ci_id: "{{ k8ci_id }}"
rg_id: "{{ my_rg.facts.id }}"
state: enabled
register: k8s
delegate_to: localhost
- name: print out the result
debug:
var: k8s
delegate_to: localhost
- name: Enable k8s cluster
decort_k8s:
authenticator: jwt
jwt: "{{ token.jwt }}"
controller_url: "{{ decort_ctrl }}"
k8s_name: "k8s_cluster_name"
wg_name: "k8s_wg_name"
k8ci_id: "{{ k8ci_id }}"
rg_id: "{{ my_rg.facts.id }}"
state: enabled
register: k8s
delegate_to: localhost
- name: Enable k8s cluster
decort_k8s:
authenticator: jwt
jwt: "{{ token.jwt }}"
controller_url: "{{ decort_ctrl }}"
k8s_name: "k8s_cluster_name"
wg_name: "k8s_wg_name"
k8ci_id: "{{ k8ci_id }}"
rg_id: "{{ my_rg.facts.id }}"
state: enabled
started: True
register: k8s
delegate_to: localhost
- name: print out the result
debug:
var: k8s
delegate_to: localhost
- name: Destroy k8s cluster
decort_k8s:
authenticator: jwt
jwt: "{{ token.jwt }}"
controller_url: "{{ decort_ctrl }}"
k8s_name: "k8s_cluster_name"
wg_name: "k8s_wg_name"
k8ci_id: "{{ k8ci_id }}"
rg_id: "{{ my_rg.facts.id }}"
state: absent
permanent: True
register: k8s
delegate_to: localhost
- name: print out the result
debug:
var: k8s
delegate_to: localhost

15
examples/rename-osimage.yaml
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---
#
# DECORT osimage module example
#
- hosts: localhost
tasks:
- name: rename_osimage
decort_osimage:
authenticator: oauth2
controller_url: "https://ds1.digitalenergy.online"
image_name: "alpine_linux_3.14.0v2.0"
image_id: 54321
delegate_to: localhost
register: osimage

42
examples/vins_connect.yaml
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---
#
# DECORT vins module example
#
- hosts: localhost
tasks:
- name: obtain JWT
decort_jwt:
oauth2_url: "https://sso.digitalenergy.online"
validity: 1200
register: my_jwt
delegate_to: localhost
- name: print out JWT
debug:
var: my_jwt.jwt
delegate_to: localhost
- name: Manage ViNS at resource group level
decort_vins:
authenticator: jwt
jwt: "{{ my_jwt.jwt }}"
controller_url: "https://cloud.digitalenergy.online"
vins_name: "vins_connected_by_decort_vins_module"
state: present
rg_id: 98
connect_to:
- type: VINS
id: 864
ipaddr: 192.168.5.66
netmask: 24
- type: VINS
id: 196
ipaddr: 192.168.9.133
netmask: 24
register: managed_vins
- name: print VINS facter
debug:
msg: "{{managed_vins.facts.password}}"
when: managed_vins.facts.password is defined

289
library/decort_bservice.py
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#!/usr/bin/python
#
# Digital Enegry Cloud Orchestration Technology (DECORT) modules for Ansible
# Copyright: (c) 2018-2021 Digital Energy Cloud Solutions LLC
#
# Apache License 2.0 (see http://www.apache.org/licenses/LICENSE-2.0.txt)
#
#
# Author: Alexey Dankov (alexey Dankov@digitalenergy.online)
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'community'}
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.basic import env_fallback
from ansible.module_utils.decort_utils import *
class decort_bservice(DecortController):
def __init__(self,arg_amodule):
super(decort_bservice, self).__init__(arg_amodule)
validated_acc_id = 0
validated_rg_id = 0
validated_rg_facts = None
self.bservice_info = None
if arg_amodule.params['name'] == "" and arg_amodule.params['id'] == 0:
self.result['failed'] = True
self.result['changed'] = False
self.result['msg'] = "Cannot manage Basic Services when its ID is 0 and name is empty."
self.fail_json(**self.result)
if not arg_amodule.params['id']:
if not arg_amodule.params['rg_id']: # RG ID is not set -> locate RG by name -> need account ID
validated_acc_id, _ = self.account_find(arg_amodule.params['account_name'],
arg_amodule.params['account_id'])
if not validated_acc_id:
self.result['failed'] = True
self.result['changed'] = False
self.result['msg'] = ("Current user does not have access to the account ID {} / "
"name '{}' or non-existent account specified.").format(arg_amodule.params['account_id'],
arg_amodule.params['account_name'])
self.fail_json(**self.result)
# fail the module -> exit
# now validate RG
validated_rg_id, validated_rg_facts = self.rg_find(validated_acc_id,
arg_amodule.params['rg_id'],)
if not validated_rg_id:
self.result['failed'] = True
self.result['changed'] = False
self.result['msg'] = "Cannot find RG ID {} / name '{}'.".format(arg_amodule.params['rg_id'],
arg_amodule.params['rg_name'])
self.fail_json(**self.result)
arg_amodule.params['rg_id'] = validated_rg_id
arg_amodule.params['rg_name'] = validated_rg_facts['name']
self.acc_id = validated_rg_facts['accountId']
self.bservice_id,self.bservice_info = self.bservice_find(
self.acc_id,
validated_rg_id,
arg_amodule.params['name'],
arg_amodule.params['id']
)
if self.bservice_id == 0:
self.bservice_should_exist = False
else:
self.bservice_should_exist = True
def nop(self):
"""No operation (NOP) handler for B-service.
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 Compute state.
"""
self.result['failed'] = False
self.result['changed'] = False
if self.k8s_id:
self.result['msg'] = ("No state change required for B-service ID {} because of its "
"current status '{}'.").format(self.bservice_id, self.bservice_info['status'])
else:
self.result['msg'] = ("No state change to '{}' can be done for "
"non-existent B-service instance.").format(self.amodule.params['state'])
return
def error(self):
self.result['failed'] = True
self.result['changed'] = False
if self.bservice_id:
self.result['msg'] = ("Invalid target state '{}' requested for B-service ID {} in the "
"current status '{}'.").format(self.bservice_id,
self.amodule.params['state'],
self.bservice_info['status'])
else:
self.result['msg'] = ("Invalid target state '{}' requested for non-existent B-service name '{}' "
"in RG ID {} / name '{}'").format(self.amodule.params['state'],
self.amodule.params['name'],
self.amodule.params['rg_id'],
self.amodule.params['rg_name'])
return
def create(self):
self.bservice_id = self.bservice_id = self.bservice_provision(
self.amodule.params['name'],
self.amodule.params['rg_id'],
self.amodule.params['sshuser'],
self.amodule.params['sshkey']
)
if self.bservice_id:
_, self.bservice_info = self.bservice_get_by_id(self.bservice_id)
self.bservice_state(self.bservice_info,'enabled',self.amodule.params['started'])
return
def action(self,d_state,started=False):
self.bservice_state(self.bservice_info,d_state,started)
return
def restore(self):
self.result['failed'] = True
self.result['msg'] = "Restore B-Service ID {} manualy.".format(self.bservice_id)
pass
def destroy(self):
self.bservice_delete(self.bservice_id)
self.bservice_info['status'] = 'DELETED'
self.bservice_should_exist = False
return
def package_facts(self,check_mode=False):
ret_dict = dict(
name="",
state="CHECK_MODE",
account_id=0,
rg_id=0,
config=None,
)
if check_mode:
# in check mode return immediately with the default values
return ret_dict
ret_dict['id'] = self.bservice_info['id']
ret_dict['name'] = self.bservice_info['name']
ret_dict['techStatus'] = self.bservice_info['techStatus']
ret_dict['state'] = self.bservice_info['status']
ret_dict['rg_id'] = self.bservice_info['rgId']
ret_dict['account_id'] = self.acc_id
ret_dict['groupsName'] = self.bservice_info['groupsName']
ret_dict['groupsIds'] = self.bservice_info['groups']
return ret_dict
@staticmethod
def build_parameters():
return dict(
account_id=dict(type='int', required=False),
account_name=dict(type='str', required=False, default=''),
annotation=dict(type='str', required=False, default=''),
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),
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','check']),
started=dict(type='bool', required=False, default=True),
user=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_USER'])),
name=dict(type='str', required=True),
sshuser=dict(type='str', required=False,default=None),
sshkey=dict(type='str', required=False,default=None),
id=dict(type='int', required=False, default=0),
rg_id=dict(type='int', default=0),
rg_name=dict(type='str',default=""),
description=dict(type='str', default="Created by decort ansible module"),
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():
module_parameters = decort_bservice.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=[
['id', 'name'],
['rg_id','rg_name']
],
)
subj = decort_bservice(amodule)
if amodule.params['state'] == 'check':
subj.result['changed'] = False
if subj.bservice_id:
subj.result['failed'] = False
subj.result['facts'] = subj.package_facts(amodule.check_mode)
amodule.exit_json(**subj.result)
# we exit the module at this point
else:
subj.result['failed'] = True
subj.result['msg'] = ("Cannot locate B-service name '{}'. Other arguments are: B-service ID {}, "
"RG name '{}', RG ID {}, Account '{}'.").format(amodule.params['name'],
amodule.params['id'],
amodule.params['rg_name'],
amodule.params['rg_id'],
amodule.params['account_name'])
amodule.fail_json(**subj.result)
pass
#MAIN MANAGE PART
if subj.bservice_id:
if subj.bservice_info['status'] in ("DELETING","DESTROYNG","RECONFIGURING","DESTROYING",
"ENABLING","DISABLING","RESTORING","MODELED"):
subj.error()
elif subj.bservice_info['status'] == "DELETED":
if amodule.params['state'] in ('disabled', 'enabled', 'present'):
subj.restore(subj.bservice_id)
subj.action(amodule.params['state'],amodule.params['started'])
if amodule.params['state'] == 'absent':
subj.nop()
elif subj.bservice_info['techStatus'] in ("STARTED","STOPPED"):
if amodule.params['state'] == 'disabled':
subj.action(amodule.params['state'],amodule.params['started'])
elif amodule.params['state'] == 'absent':
subj.destroy()
else:
subj.action(amodule.params['state'],amodule.params['started'])
elif subj.bservice_info['status'] == "DISABLED":
if amodule.params['state'] == 'absent':
subj.destroy()
elif amodule.params['state'] in ('present','enabled'):
subj.action(amodule.params['state'],amodule.params['started'])
else:
subj.nop()
elif subj.bservice_info['status'] == "DESTROED":
if amodule.params['state'] in ('present','enabled'):
subj.create()
subj.action(amodule.params['state'],amodule.params['started'])
if amodule.params['state'] == 'absent':
subj.nop()
else:
if amodule.params['state'] == 'absent':
subj.nop()
if amodule.params['state'] in ('present','started'):
subj.create()
elif amodule.params['state'] in ('stopped', 'disabled','enabled'):
subj.error()
if subj.result['failed']:
amodule.fail_json(**subj.result)
else:
if subj.bservice_should_exist:
subj.result['facts'] = subj.package_facts(amodule.check_mode)
amodule.exit_json(**subj.result)
else:
amodule.exit_json(**subj.result)
if __name__ == "__main__":
main()

627
library/decort_disk.py
Unescape View File

@ -157,6 +157,16 @@ options:
- `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.`
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:
description:
- Specify the desired state of the disk at the exit of the module.
@ -234,103 +244,277 @@ facts:
gid: 1001
'''
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.basic import env_fallback
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):
"""Package a dictionary of disk facts according to the decort_disk module specification.
This dictionary will be returned to the upstream Ansible engine at the completion of
the module run.
@param (dict) disk_facts: dictionary with Disk facts as returned by API call to .../disks/get
@param (bool) check_mode: boolean that tells if this Ansible module is run in check mode
"""
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
self.validated_account_id = 0
self.validated_disk_id = 0
self.disk_facts = None # will hold Disk facts
self.acc_facts = None # will hold Account facts
# limitIO check for exclusive parameters
if amodule.params['limitIO']:
limit = amodule.params['limitIO']
if limit['total_bytes_sec'] > 0 and limit['read_bytes_sec'] > 0 or \
limit['total_bytes_sec'] > 0 and limit['write_bytes_sec'] > 0:
self.result['failed'] = True
self.result['msg'] = ("total and read/write of bytes_sec cannot be set at the same time.")
amodule.fail_json(**self.result)
elif limit['total_iops_sec'] > 0 and limit['read_iops_sec'] > 0 or \
limit['total_iops_sec'] > 0 and limit['write_iops_sec'] > 0:
self.result['failed'] = True
self.result['msg'] = ("total and read/write of iops_sec cannot be set at the same time.")
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:
self.result['failed'] = True
self.result['msg'] = ("total and read/write of bytes_sec_max cannot be set at the same time.")
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
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']
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',
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_OAUTH2_URL'])),
password=dict(type='str',
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,
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,
fallback=(env_fallback, ['DECORT_PASSWORD']),
no_log=True),
place_with=dict(type='int', required=False, default=0),
pool=dict(type='str', required=False, default=''),
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),
)
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,
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():
module_parameters = decort_disk_parameters()
module_parameters = decort_disk.decort_disk_parameters()
amodule = AnsibleModule(argument_spec=module_parameters,
supports_check_mode=True,
@ -345,197 +529,106 @@ def main():
],
)
decon = DecortController(amodule)
disk_id = 0
disk_facts = None # will hold Disk facts
validated_acc_id = 0
acc_facts = None # will hold Account facts
decon = decort_disk(amodule)
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'])
if decon.validated_disk_id == 0 and amodule.params['state'] == 'present':
# if sep_id or place_with not specified, then exit with error
if amodule.params['sep_id'] == 0 and amodule.params['place_with'] == 0:
decon.result['msg'] = ("To create a disk, you must specify sep_id or place_with.")\
.format(decon.validated_disk_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)
# Specified account must be present and accessible by the user, otherwise abort the module
validated_acc_id, acc_facts = decon.account_find(amodule.params['account_name'], amodule.params['account_id'])
if not validated_acc_id:
decon.result['failed'] = True
decon.result['msg'] = ("Current user does not have access to the requested account "
"or non-existent account specified.")
amodule.fail_json(**decon.result)
# This call to disk_find may return disk_id=0 if no Disk with this name found in
disk_id, disk_facts = decon.disk_find(disk_id=0, disk_name=amodule.params['name'],
account_id=validated_acc_id,
check_state=False)
else:
# this is "invalid arguments combination" sink
# if we end up here, it means that module was invoked with disk_id=0 and undefined account
decon.result['failed'] = True
if amodule.params['account_id'] == 0 and amodule.params['account_name'] == "":
decon.result['msg'] = "Cannot find Disk by name when account name is empty and account ID is 0."
if amodule.params['name'] == "":
decon.result['msg'] = "Cannot find Disk by empty name."
amodule.fail_json(**decon.result)
# if id cannot cannot be found and have a state 'present', then create a new disk
decon.validated_disk_id = decon.decort_disk_create(amodule)
_, decon.disk_facts = decon.decort_disk_find(amodule)
decon.result['changed'] = True
decon.result['msg'] = ("Disk with id '{}' successfully created.").format(decon.validated_disk_id)
elif decon.validated_disk_id == 0 and amodule.params['state'] == 'absent' and amodule.params['name']:
# if disk with specified name cannot be found and have a state 'absent', then nothing to do,
# specified disk already deleted
decon.result['msg'] = ("Disk with name '{}' has already been deleted or your account does not have"
" access to it.")\
.format(amodule.params['name'])
amodule.exit_json(**decon.result)
elif decon.validated_disk_id == 0 and amodule.params['state'] == 'absent' and amodule.params['id']:
# if disk with specified id cannot be found and have a state 'absent', then nothing to do,
# specified disk already deleted
decon.result['msg'] = ("Disk with name '{}' has already been deleted or your account does not have"
" 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)
#
# Initial validation of module arguments is complete
#
# At this point non-zero disk_id means that we will be managing pre-existing Disk
# Otherwise we are about to create a new disk
#
# Valid Disk model statii are as follows:
#
# "CREATED", "ASSIGNED", DELETED", "DESTROYED", "PURGED"
#
disk_should_exist = False
target_sep_id = 0
# target_pool = ""
if disk_id:
disk_should_exist = True
if disk_facts['status'] in ["MODELED", "CREATING" ]:
# error: nothing can be done to existing Disk in the listed statii regardless of
# the requested state
decon.result['failed'] = True
decon.result['changed'] = False
decon.result['msg'] = ("No change can be done for existing Disk ID {} because of its current "
"status '{}'").format(disk_id, disk_facts['status'])
elif disk_facts['status'] in ["CREATED", "ASSIGNED"]:
if amodule.params['state'] == 'absent':
decon.disk_delete(disk_id, True, amodule.params['force_detach']) # delete permanently
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
# 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)
elif decon.disk_facts['status'] == "DELETED":
if amodule.params['state'] == 'present':
# if disk in "DELETED" status and "present" state, restore
decon.disk_restore(decon.validated_disk_id)
_, decon.disk_facts = decon.decort_disk_find(amodule)
decon.result['changed'] = True
decon.result['msg'] = ("Disk with id '{}',restored successfully.").format(decon.validated_disk_id)
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)
amodule.exit_json(**decon.result)
elif decon.disk_facts['status'] in ["DESTROYED", "PURGED"]:
if amodule.params['state'] == 'present':
decon.validated_disk_id = decon.decort_disk_create(amodule)
_, decon.disk_facts = decon.decort_disk_find(amodule)
elif amodule.params['state'] == 'absent':
decon.result['msg'] = "Specified Disk ID {} already destroyed.".format(decon.validated_disk_id)
amodule.exit_json(**decon.result)
if amodule.params['state'] == "present":
if decon.disk_facts['sizeMax'] != amodule.params['size']:
if decon.disk_facts['sizeMax'] > amodule.params['size'] and amodule.params['size'] != 0:
decon.result['failed'] = True
decon.result['msg'] = ("Cannot create new Disk name '{}': no SEP ID specified and "
"no 'place_with' option used.").format(amodule.params['name'])
decon.result['msg'] = ("Disk id '{}', cannot reduce disk size.").format(decon.validated_disk_id)
amodule.fail_json(**decon.result)
elif decon.disk_facts['sizeMax'] < amodule.params['size']:
decon.disk_resize(disk_facts=decon.disk_facts,
new_size=amodule.params['size'])
decon.result['changed'] = True
decon.disk_facts['size'] = amodule.params['size']
decon.result['msg'] = ("Disk with id '{}',resized successfully.").format(decon.validated_disk_id)
disk_id = decon.disk_provision(disk_name=amodule.params['name'],
size=amodule.params['size'],
account_id=validated_acc_id,
sep_id=target_sep_id,
pool_name=amodule.params['pool'],
desc=amodule.params['annotation'],
location="")
disk_should_exist = True
elif amodule.params['state'] == 'disabled':
decon.result['failed'] = True
decon.result['changed'] = False
decon.result['msg'] = ("Invalid target state '{}' requested for non-existent "
"Disk name '{}'").format(amodule.params['state'],
amodule.params['name'])
#
# conditional switch end - complete module run
#
if decon.result['failed']:
amodule.fail_json(**decon.result)
else:
# 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)
if amodule.params['limitIO'] and amodule.params['limitIO'] != decon.disk_facts['iotune']:
decon.decort_disk_limitIO(amodule)
decon.result['changed'] = True
decon.result['msg'] = ("Disk with id '{}',limited successfully.").format(decon.validated_disk_id)
if amodule.params['name'] and amodule.params['id']:
if amodule.params['name'] != decon.disk_facts['name']:
decon.decort_disk_rename(amodule)
decon.result['changed'] = True
decon.result['msg'] = ("Disk with id '{}',renamed successfully from '{}' to '{}'.")\
.format(decon.validated_disk_id, decon.disk_facts['name'], amodule.params['name'])
amodule.exit_json(**decon.result)
if __name__ == "__main__":
main()

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library/decort_group.py
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#!/usr/bin/python
#
# Digital Enegry Cloud Orchestration Technology (DECORT) modules for Ansible
# Copyright: (c) 2018-2021 Digital Energy Cloud Solutions LLC
#
# Apache License 2.0 (see http://www.apache.org/licenses/LICENSE-2.0.txt)
#
#
# Author: Alexey Dankov (alexey.dankov@digitalenergy.online)
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'community'}
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.basic import env_fallback
from ansible.module_utils.decort_utils import *
class decort_group(DecortController):
def __init__(self,arg_amodule):
super(decort_group, self).__init__(arg_amodule)
self.group_should_exist = False
validated_bservice_id = None
#find and validate B-Service
validated_bservice_id, bservice_info = self.bservice_get_by_id(arg_amodule.params['bservice_id'])
if not validated_bservice_id:
self.result['failed'] = True
self.result['changed'] = False
self.result['msg'] = ("Cannot find B-service ID {}.").format(arg_amodule.params['bservice_id'])
self.fail_json(**self.result)
#find group
self.bservice_id = validated_bservice_id
self.bservice_info = bservice_info
self.group_id,self.group_info = self.group_find(
bs_id=validated_bservice_id,
bs_info=bservice_info,
group_id=arg_amodule.params['id'],
group_name=arg_amodule.params['name'],
)
if self.group_id:
self.group_should_exist = True
return
def nop(self):
"""No operation (NOP) handler for B-service.
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 Compute state.
"""
self.result['failed'] = False
self.result['changed'] = False
if self.group_id:
self.result['msg'] = ("No state change required for B-service ID {} because of its "
"current status '{}'.").format(self.group_id, self.group_info['status'])
else:
self.result['msg'] = ("No state change to '{}' can be done for "
"non-existent B-service instance.").format(self.amodule.params['state'])
return
def error(self):
self.result['failed'] = True
self.result['changed'] = False
if self.group_id:
self.result['msg'] = ("Invalid target state '{}' requested for Group ID {} in the "
"current status '{}'.").format(self.group_id,
self.amodule.params['state'],
self.group_info['status'])
else:
self.result['msg'] = ("Invalid target state '{}' requested for non-existent Group name '{}' "
"in B-service {}").format(self.amodule.params['state'],
self.amodule.params['name'],
self.amodule.params['bservice_id'],
)
return
def create(self):
if self.amodule.params['driver'] not in ["KVM_X86","KVM_PPC"]:
self.result['failed'] = True
self.result['msg'] = ("Unsupported driver '{}' is specified for "
"Group.").format(self.amodule.params['driver'])
self.amodule.fail_json(**self.result)
self.group_id=self.group_provision(
self.bservice_id,
self.amodule.params['name'],
self.amodule.params['count'],
self.amodule.params['cpu'],
self.amodule.params['ram'],
self.amodule.params['boot_disk'],
self.amodule.params['image_id'],
self.amodule.params['driver'],
self.amodule.params['role'],
self.amodule.params['networks'],
self.amodule.params['timeoutStart'],
)
if self.amodule.params['state'] in ('started','present'):
self.group_state(self.bservice_id,self.group_id,self.amodule.params['state'])
return
def action(self):
#change desired state
if (
self.group_info['techStatus'] == 'STARTED' and self.amodule.params['state'] == 'stopped') or (
self.group_info['techStatus'] == 'STOPPED' and self.amodule.params['state'] in ('started','present')
):
self.group_state(self.bservice_id,self.group_id,self.amodule.params['state'])
self.group_resize_count(self.bservice_id,self.group_info,self.amodule.params['count'])
self.group_update_hw(
self.bservice_id,
self.group_info,
self.amodule.params['cpu'],
self.amodule.params['boot_disk'],
self.amodule.params['name'],
self.amodule.params['role'],
self.amodule.params['ram'],
)
self.group_update_net(
self.bservice_id,
self.group_info,
self.amodule.params['networks']
)
return
def destroy(self):
self.group_delete(
self.bservice_id,
self.group_id
)
return
def package_facts(self,check_mode=False):
ret_dict = dict(
name="",
state="CHECK_MODE",
account_id=0,
rg_id=0,
config=None,
)
if check_mode:
# in check mode return immediately with the default values
return ret_dict
if self.result['changed'] == True:
self.group_id,self.group_info = self.group_find(
self.bservice_id,
self.bservice_info,
self.group_id
)
ret_dict['account_id'] = self.group_info['accountId']
ret_dict['rg_id'] = self.group_info['rgId']
ret_dict['id'] = self.group_info['id']
ret_dict['name'] = self.group_info['name']
ret_dict['techStatus'] = self.group_info['techStatus']
ret_dict['state'] = self.group_info['status']
ret_dict['Computes'] = self.group_info['computes']
return ret_dict
@staticmethod
def build_parameters():
return dict(
account_id=dict(type='int', required=False),
account_name=dict(type='str', required=False, default=''),
annotation=dict(type='str', required=False, default=''),
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),
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', 'started', 'stopped', 'present','check']),
user=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_USER'])),
name=dict(type='str', required=True),
id=dict(type='int', required=False, default=0),
image_id=dict(type='int', required=False),
image_name=dict(type='str', required=False),
driver=dict(type='str', required=False,default="KVM_X86"),
boot_disk=dict(type='int', required=False),
bservice_id=dict(type='int', required=True),
count=dict(type='int', required=True),
timeoutStart=dict(type='int', required=False),
role=dict(type='str', required=False),
cpu=dict(type='int', required=False),
ram=dict(type='int', required=False),
networks=dict(type='list', default=[], required=False),
description=dict(type='str', default="Created by decort ansible module"),
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():
module_parameters = decort_group.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=[
['id', 'name'],
],
)
subj = decort_group(amodule)
if amodule.params['state'] == 'check':
subj.result['changed'] = False
if subj.group_id:
# cluster is found - package facts and report success to Ansible
subj.result['failed'] = False
subj.result['facts'] = subj.package_facts(amodule.check_mode)
amodule.exit_json(**subj.result)
# we exit the module at this point
else:
subj.result['failed'] = True
subj.result['msg'] = ("Cannot locate Group name '{}'. "
"B-service ID {}").format(amodule.params['name'],
amodule.params['bservice_id'],)
amodule.fail_json(**subj.result)
if subj.group_id:
if subj.group_info['status'] in ("DELETING","DESTROYNG","CREATING","DESTROYING",
"ENABLING","DISABLING","RESTORING","MODELED",
"DISABLED","DESTROYED"):
subj.error()
elif subj.group_info['status'] in ("DELETED","DESTROYED"):
if amodule.params['state'] == 'absent':
subj.nop()
if amodule.params['state'] in ('present','started','stopped'):
subj.create()
elif subj.group_info['techStatus'] in ("STARTED","STOPPED"):
if amodule.params['state'] == 'absent':
subj.destroy()
else:
subj.action()
else:
if amodule.params['state'] == 'absent':
subj.nop()
if amodule.params['state'] in ('present','started','stopped'):
subj.create()
if subj.result['failed']:
amodule.fail_json(**subj.result)
else:
if subj.group_should_exist:
subj.result['facts'] = subj.package_facts(amodule.check_mode)
amodule.exit_json(**subj.result)
else:
amodule.exit_json(**subj.result)
if __name__ == "__main__":
main()

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library/decort_k8s.py
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#!/usr/bin/python
#
# Digital Enegry Cloud Orchestration Technology (DECORT) modules for Ansible
# Copyright: (c) 2018-2021 Digital Energy Cloud Solutions LLC
#
# Apache License 2.0 (see http://www.apache.org/licenses/LICENSE-2.0.txt)
#
#
# Author: Aleksandr Malyavin (aleksandr.malyavin@digitalenergy.online)
#
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'community'}
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.basic import env_fallback
from ansible.module_utils.decort_utils import *
class decort_k8s(DecortController):
def __init__(self,arg_amodule):
super(decort_k8s, self).__init__(arg_amodule)
validated_acc_id = 0
validated_rg_id = 0
validated_rg_facts = None
validated_k8ci_id = 0
if arg_amodule.params['name'] == "" and arg_amodule.params['id'] == 0:
self.result['failed'] = True
self.result['changed'] = False
self.result['msg'] = "Cannot manage k8s cluster when its ID is 0 and name is empty."
self.fail_json(**self.result)
if not arg_amodule.params['id']:
if not arg_amodule.params['rg_id']: # RG ID is not set -> locate RG by name -> need account ID
validated_acc_id, _ = self.account_find(arg_amodule.params['account_name'],
arg_amodule.params['account_id'])
if not validated_acc_id:
self.result['failed'] = True
self.result['changed'] = False
self.result['msg'] = ("Current user does not have access to the account ID {} / "
"name '{}' or non-existent account specified.").format(arg_amodule.params['account_id'],
arg_amodule.params['account_name'])
self.fail_json(**self.result)
# fail the module -> exit
# now validate RG
validated_rg_id, validated_rg_facts = self.rg_find(validated_acc_id,
arg_amodule.params['rg_id'],)
if not validated_rg_id:
self.result['failed'] = True
self.result['changed'] = False
self.result['msg'] = "Cannot find RG ID {} / name '{}'.".format(arg_amodule.params['rg_id'],
arg_amodule.params['rg_name'])
self.fail_json(**self.result)
# fail the module - exit
#validate k8ci ID
validated_k8ci_id = self.k8s_k8ci_find(arg_amodule.params['k8ci_id'])
if not validated_k8ci_id:
self.result['failed'] = True
self.result['changed'] = False
self.result['msg'] = "Cannot find K8CI ID {}.".format(arg_amodule.params['k8ci_id'])
self.fail_json(**self.result)
self.rg_id = validated_rg_id
arg_amodule.params['rg_id'] = validated_rg_id
arg_amodule.params['rg_name'] = validated_rg_facts['name']
self.acc_id = validated_rg_facts['accountId']
arg_amodule.params['k8ci_id'] = validated_k8ci_id
self.k8s_id,self.k8s_info = self.k8s_find(k8s_id=arg_amodule.params['id'],
k8s_name=arg_amodule.params['name'],
rg_id=validated_rg_id,
check_state=False)
if self.k8s_id:
self.k8s_should_exist = True
self.acc_id = self.k8s_info['accountId']
# check workers and groups for add or remove?
return
def package_facts(self,check_mode=False):
ret_dict = dict(
name="",
state="CHECK_MODE",
account_id=0,
rg_id=0,
config=None,
)
if check_mode:
# in check mode return immediately with the default values
return ret_dict
#if self.k8s_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.k8s_info['id']
ret_dict['name'] = self.k8s_info['name']
ret_dict['techStatus'] = self.k8s_info['techStatus']
ret_dict['state'] = self.k8s_info['status']
ret_dict['rg_id'] = self.rg_id
ret_dict['account_id'] = self.acc_id
if self.amodule.params['getConfig'] and self.k8s_info['techStatus'] == "STARTED":
ret_dict['config'] = self.k8s_getConfig()
return ret_dict
def nop(self):
"""No operation (NOP) handler for k8s cluster management by decort_k8s 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 k8s cluster state.
"""
self.result['failed'] = False
self.result['changed'] = False
if self.k8s_id:
self.result['msg'] = ("No state change required for K8s ID {} because of its "
"current status '{}'.").format(self.k8s_id, self.k8s_info['status'])
else:
self.result['msg'] = ("No state change to '{}' can be done for "
"non-existent K8s instance.").format(self.amodule.params['state'])
return
def error(self):
self.result['failed'] = True
self.result['changed'] = False
if self.k8s_id:
self.result['msg'] = ("Invalid target state '{}' requested for K8s cluster ID {} in the "
"current status '{}'.").format(self.k8s_id,
self.amodule.params['state'],
self.k8s_info['status'])
else:
self.result['msg'] = ("Invalid target state '{}' requested for non-existent K8s Cluster name '{}' "
"in RG ID {} / name '{}'").format(self.amodule.params['state'],
self.amodule.params['name'],
self.amodule.params['rg_id'],
self.amodule.params['rg_name'])
return
def create(self):
self.k8s_provision(self.amodule.params['name'],
self.amodule.params['k8ci_id'],
self.amodule.params['rg_id'],
self.amodule.params['master_count'],
self.amodule.params['master_cpu'],
self.amodule.params['master_ram_mb'],
self.amodule.params['master_disk_gb'],
self.amodule.params['workers'][0],
self.amodule.params['extnet_id'],
self.amodule.params['with_lb'],
self.amodule.params['description'],)
self.k8s_id,self.k8s_info = self.k8s_find(k8s_id=self.amodule.params['id'],
k8s_name=self.amodule.params['name'],
rg_id=self.rg_id,
check_state=False)
if self.k8s_id:
self.k8s_should_exist = True
if self.k8s_id and self.amodule.params['workers'][1]:
self.k8s_workers_modify(self.k8s_info,self.amodule.params['workers'])
return
def destroy(self):
self.k8s_delete(self.k8s_id)
self.k8s_info['status'] = 'DELETED'
self.k8s_should_exist = False
return
def action(self,disared_state,started=True):
self.k8s_state(self.k8s_info, disared_state,started)
self.k8s_id,self.k8s_info = self.k8s_find(k8s_id=self.amodule.params['id'],
k8s_name=self.amodule.params['name'],
rg_id=self.rg_id,
check_state=False)
if started == True and self.k8s_info['techStatus'] == "STOPPED":
self.k8s_state(self.k8s_info, disared_state,started)
self.k8s_info['techStatus'] == "STARTED"
self.k8s_workers_modify(self.k8s_info,self.amodule.params['workers'])
return
@staticmethod
def build_parameters():
return dict(
account_id=dict(type='int', required=False),
account_name=dict(type='str', required=False, default=''),
annotation=dict(type='str', required=False, default=''),
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=''),
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),
quotas=dict(type='dict', required=False),
state=dict(type='str',
default='present',
choices=['absent', 'disabled', 'enabled', 'present','check']),
permanent=dict(type='bool', default=False),
started=dict(type='bool', default=True),
user=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_USER'])),
name=dict(type='str', required=True),
id=dict(type='int', required=False, default=0),
getConfig=dict(type='bool',required=False, default=False),
rg_id=dict(type='int', default=0),
rg_name=dict(type='str',default=""),
k8ci_id=dict(type='int', required=True),
wg_name=dict(type='str', required=False),
master_count=dict(type='int', default=1),
master_cpu=dict(type='int', default=2),
master_ram_mb=dict(type='int', default=2048),
master_disk_gb=dict(type='int', default=10),
worker_count=dict(type='int', default=1),
worker_cpu=dict(type='int', default=1),
worker_ram_mb=dict(type='int', default=1024),
worker_disk_gb=dict(type='int', default=10),
workers=dict(type='list'),
extnet_id=dict(type='int', default=0),
description=dict(type='str', default="Created by decort ansible module"),
with_lb=dict(type='bool', default=True),
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():
module_parameters = decort_k8s.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=[
['id', 'name'],
['rg_id','rg_name']
],
)
subj = decort_k8s(amodule)
if amodule.params['state'] == 'check':
subj.result['changed'] = False
if subj.k8s_id:
# cluster is found - package facts and report success to Ansible
subj.result['failed'] = False
subj.result['facts'] = subj.package_facts(amodule.check_mode)
amodule.exit_json(**subj.result)
# we exit the module at this point
else:
subj.result['failed'] = True
subj.result['msg'] = ("Cannot locate K8s cluster name '{}'. "
"RG ID {}").format(amodule.params['name'],
amodule.params['rg_id'],)
amodule.fail_json(**subj.result)
if subj.k8s_id:
if subj.k8s_info['status'] in ("DELETING","DESTROYNG","CREATING","DESTROYING",
"ENABLING","DISABLING","RESTORING","MODELED"):
subj.error()
elif subj.k8s_info['status'] == "DELETED":
if amodule.params['state'] in ('disabled', 'enabled', 'present'):
subj.k8s_restore(subj.k8s_id)
subj.action(amodule.params['state'])
if amodule.params['state'] == 'absent':
subj.nop()
elif subj.k8s_info['techStatus'] in ("STARTED","STOPPED"):
if amodule.params['state'] == 'disabled':
subj.action(amodule.params['state'])
elif amodule.params['state'] == 'absent':
subj.destroy()
else:
subj.action(amodule.params['state'],amodule.params['started'])
elif subj.k8s_info['status'] == "DISABLED":
if amodule.params['state'] == 'absent':
subj.destroy()
elif amodule.params['state'] in ('present','enabled'):
subj.action(amodule.params['state'],amodule.params['started'])
else:
subj.nop()
elif subj.k8s_info['status'] == "DESTROED":
if amodule.params['state'] in ('present','enabled'):
subj.create()
if amodule.params['state'] == 'absent':
subj.nop()
else:
if amodule.params['state'] == 'absent':
subj.nop()
if amodule.params['state'] in ('present','started'):
subj.create()
elif amodule.params['state'] in ('stopped', 'disabled','enabled'):
subj.error()
if subj.result['failed']:
amodule.fail_json(**subj.result)
else:
if subj.k8s_should_exist:
subj.result['facts'] = subj.package_facts(amodule.check_mode)
amodule.exit_json(**subj.result)
else:
amodule.exit_json(**subj.result)
if __name__ == "__main__":
main()

25
library/decort_kvmvm.py
Unescape View File

@ -192,6 +192,9 @@ options:
- If I(ssh_key) is not specified, this parameter is ignored and a warning is generated.
- This parameter is valid at VM creation time only and ignored for any operation on existing VMs.
required: no
user_data:
description:
- Cloud-init User-Data, exept ssh module
state:
description:
- Specify the desired state of the virtual machine at the exit of the module.
@ -548,15 +551,18 @@ class decort_kvmvm(DecortController):
if self.amodule.params['state'] in ('halted', 'poweredoff'):
start_compute = False
if self.amodule.params['ssh_key'] and self.amodule.params['ssh_key_user']:
if self.amodule.params['ssh_key'] and self.amodule.params['ssh_key_user'] and not self.amodule.params['ci_user_data']:
cloud_init_params = {'users': [
{"name": self.amodule.params['ssh_key_user'],
"ssh-authorized-keys": [self.amodule.params['ssh_key']],
"shell": '/bin/bash'}
]}
elif self.amodule.params['ci_user_data']:
cloud_init_params = {}
for ci_param in self.amodule.params['ci_user_data']:
cloud_init_params.update(ci_param)
else:
cloud_init_params = None
# if we get through here, all parameters required to create new Compute instance should be at hand
# NOTE: KVM VM is created in HALTED state and must be explicitly started
@ -595,6 +601,11 @@ class decort_kvmvm(DecortController):
# Next manage data disks
self.compute_data_disks(self.comp_info, self.amodule.params['data_disks'])
self.compute_affinity(self.comp_info,
self.amodule.params['tag'],
self.amodule.params['aff_rule'],
self.amodule.params['aaff_rule'],
label=self.amodule.params['affinity_label'],)
# NOTE: see NOTE above regarding libvirt "feature" and new VMs created in HALTED state
if self.amodule.params['state'] not in ('halted', 'poweredoff'):
self.compute_powerstate(self.comp_info, 'started')
@ -641,6 +652,11 @@ class decort_kvmvm(DecortController):
self.compute_resize(self.comp_info,
self.amodule.params['cpu'], self.amodule.params['ram'],
wait_for_state_change=arg_wait_cycles)
self.compute_affinity(self.comp_info,
self.amodule.params['tag'],
self.amodule.params['aff_rule'],
self.amodule.params['aaff_rule'],
label=self.amodule.params['affinity_label'],)
return
def package_facts(self, check_mode=False):
@ -774,6 +790,11 @@ class decort_kvmvm(DecortController):
rg_name=dict(type='str', default=""),
ssh_key=dict(type='str', required=False),
ssh_key_user=dict(type='str', required=False),
tag=dict(type='list', required=False),
affinity_label=dict(type='str', required=False),
aff_rule=dict(type='list', required=False),
aaff_rule=dict(type='list', required=False),
ci_user_data=dict(type='list',elements='dict', required=False),
state=dict(type='str',
default='present',
choices=['absent', 'paused', 'poweredoff', 'halted', 'poweredon', 'present', 'check']),

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()

478
library/decort_osimage.py
Unescape View File

@ -22,8 +22,7 @@ description: >
This module can be used to obtain image ID of an OS image in DECORT cloud to use with subsequent calls to
decort_vm module for batch VM provisioning. It will speed up VM creation and save a bunch of extra calls to
DECORT cloud controller on each VM creation act.
Note that this module is effectively an information provisioner. It is not designed to and does not manage
nor change state of OS image (or any other) objects in DECORT cloud.
version_added: "2.2"
author:
- Sergey Shubin <sergey.shubin@digitalenergy.online>
@ -68,8 +67,8 @@ options:
image_name:
description:
- Name of the OS image to use. Module will return the ID of this image.
- 'The specified image name will be looked up in the target DECORT controller and error will be generated if
no matching image is found.'
- 'The specified image name will be looked up in the target DECORT controller and error will be generated
- if no matching image is found.'
required: yes
jwt:
description:
@ -109,10 +108,6 @@ options:
- 'This parameter is required when I(authenticator=legacy) and ignored for other authentication modes.'
- If not specified in the playbook, the value will be taken from DECORT_USER environment variable.
required: no
vdc_id:
description:
- ID of the VDC to limit the search of the OS image to.
required: no
verify_ssl:
description:
- 'Controls SSL verification mode when making API calls to DECORT controller. Set it to False if you
@ -134,19 +129,143 @@ options:
- 'This context data is expected to uniquely identify the task carried out by this module invocation so
that up-level orchestrator could match returned information to the its internal entities.'
required: no
account_name:
description:
- 'Account name. Used to get a unique integer account ID.'
required: no
virt_id:
description:
- 'A unique integer identifier for the virtual image.'
- 'Can be used to obtain information about a virtual image, as well as to create a virtual image and
- bind another operating system image to it.'
required: no
virt_name:
description:
- 'Name of the virtual image. Used to get the `virt_id`, and later information about the virtual image,
- as well as to create a virtual image and bind another operating system image to it.'
required: no
state:
description:
- 'The state of the images. If set to present, operating system images will be created to which
- the account specified in `account_Id` or `account_name` is bound. If set to absent, they will be removed.
required: no
drivers:
description:
- 'A list of compute types (eg virtual servers) that are appropriate for the operating system image.
- Note: `KVM_X86`. Used when creating an operating system image.'
required: no
architecture:
description:
- 'Binary architecture of the image. Note. `X86_64` or `PPC64_LE`. Used when creating
-an operating system image.'
required: no
imagetype:
description:
- 'Image type. `linux`, `windows` or `other`. The default is `linux`. Used when creating
- an operating system image.'
required: no
boottype:
description:
- 'Image upload type. `bios` or `uefi`. The default is `uefi`. Used when creating an operating
-system image.'
required: no
url:
description:
- 'Uniform resource locator (URL) pointing to the iso image of the operating system. Used when
-creating an operating system image.'
required: no
sepId:
description:
- 'The unique integer ID of the storage provider endpoint. Specified in pair with `poolName`.
- Used when creating an operating system image.'
required: no
poolName:
description:
- 'The pool in which the image will be created. Specified in pair with `sepId`. Used when creating
- an operating system image.'
required: no
hotresize:
description:
- 'Whether the image supports "hot" resizing. The default is `false`. Used when creating an operating
- system image.'
required: no
image_username:
description:
- 'An optional username for the image. Used when creating an operating system image.'
required: no
image_password:
description:
- 'An optional password for the image. Used when creating an operating system image. Used when creating
- an operating system image.'
required: no
usernameDL:
description:
- 'The username for loading the binary media. Used in conjunction with `passwordDL`. Used when creating
- an operating system image'
required: no
passwordDL:
description:
- 'The password for loading the binary media. Used in conjunction with `usernameDL`. Used when creating
- an operating system image.'
required: no
permanently:
description:
- 'Whether to permanently delete the image. Used when deleting an image. The default is false.'
required: no
'''
EXAMPLES = '''
- name: locate OS image specified by its name, store result in image_to_use variable.
- name: create_osimage
decort_osimage:
authenticator: oauth2
verify_ssl: False
controller_url: "https://ds1.digitalenergy.online"
state: present
image_name: "alpine_linux3.14.0"
account_Id: 12345
url: "https://dl-cdn.alpinelinux.org/alpine/v3.14/releases/x86_64/alpine-virt-3.14.0-x86_64.iso"
boottype: "uefi"
imagetype: "linux"
hotresize: False
image_username: "test"
image_password: "p@ssw0rd"
usernameDL: "testDL"
passwordDL: "p@ssw0rdDL"
architecture: "X86_64"
drivers: "KVM_X86"
delegate_to: localhost
register: osimage
- name: get_osimage
decort_osimage:
authenticator: oauth2
app_id: "{{ MY_APP_ID }}"
app_secret: "{{ MY_APP_SECRET }}"
controller_url: "https://ds1.digitalenergy.online"
image_name: "Ubuntu 18.04 v1.2.5"
account_name: "GreyseDevelopment"
image_name: "alpine_linux_3.14.0"
account_Id: 12345
delegate_to: localhost
register: image_to_use
register: osimage
- name: create_virtual_osimage
decort_osimage:
authenticator: oauth2
controller_url: "https://ds1.digitalenergy.online"
image_name: "alpine_linux_3.14.0"
virt_name: "alpine_last"
delegate_to: localhost
register: osimage
- name: rename_osimage
decort_osimage:
authenticator: oauth2
controller_url: "https://ds1.digitalenergy.online"
image_name: "alpine_linux_3.14.0v2.0"
image_id: 54321
delegate_to: localhost
register: osimage
'''
RETURN = '''
@ -157,6 +276,7 @@ facts:
sample:
facts:
id: 100
linkto: 80
name: "Ubuntu 16.04 v1.0"
size: 3
sep_id: 1
@ -171,94 +291,205 @@ from ansible.module_utils.basic import env_fallback
from ansible.module_utils.decort_utils import *
class decort_osimage(DecortController):
def __init__(self,amodule):
super(decort_osimage, self).__init__(amodule)
def decort_osimage_package_facts(arg_osimage_facts, arg_check_mode=False):
"""Package a dictionary of OS image according to the decort_osimage module specification. This
dictionary will be returned to the upstream Ansible engine at the completion of the module run.
self.validated_image_id = 0
self.validated_virt_image_id = 0
self.validated_image_name = amodule.params['image_name']
self.validated_virt_image_name = None
self.validated_virt_image_id = amodule.params['virt_id']
if amodule.params['account_name']:
self.validated_account_id, _ = self.account_find(amodule.params['account_name'])
else:
self.validated_account_id = amodule.params['account_Id']
@param arg_osimage_facts: dictionary with OS image facts as returned by API call to .../images/list
@param arg_check_mode: boolean that tells if this Ansible module is run in check mode.
if self.validated_account_id == 0:
# we failed either to find or access the specified account - fail the module
self.result['failed'] = True
self.result['changed'] = False
self.result['msg'] = ("Cannot find account '{}'").format(amodule.params['account_name'])
amodule.fail_json(**self.result)
@return: dictionary with OS image specs populated from arg_osimage_facts.
"""
ret_dict = dict(id=0,
name="none",
size=0,
type="none",
state="CHECK_MODE",
)
if amodule.params['image_id'] != 0 and amodule.params['image_name']:
self.validated_image_id = amodule.params['image_id']
if amodule.params['image_name']:
decort_osimage.decort_image_rename(self,amodule)
self.result['msg'] = ("Image renamed successfully")
if arg_check_mode:
# in check mode return immediately with the default values
return ret_dict
if arg_osimage_facts is None:
# if void facts provided - change state value to ABSENT and return
ret_dict['state'] = "ABSENT"
def decort_image_find(self, amodule):
# function that finds the OS image
image_id, image_facts = self.image_find(image_id=amodule.params['image_id'], image_name=self.validated_image_name,
account_id=self.validated_account_id, rg_id=0,
sepid=amodule.params['sep_id'],
pool=amodule.params['pool'])
return image_id, image_facts
def decort_virt_image_find(self, amodule):
# function that finds a virtual image
image_id, image_facts = self.virt_image_find(image_id=amodule.params['virt_id'],
account_id=self.validated_account_id, rg_id=0,
sepid=amodule.params['sep_id'],
virt_name=amodule.params['virt_name'],
pool=amodule.params['pool'])
return image_id, image_facts
def decort_image_create(self,amodule):
# function that creates OS image
image_facts = self.image_create(img_name=self.validated_image_name,
url=amodule.params['url'],
gid=amodule.params['gid'],
boottype=amodule.params['boottype'],
imagetype=amodule.params['imagetype'],
hotresize=amodule.params['hotresize'],
username=amodule.params['image_username'],
password=amodule.params['image_password'],
account_Id=amodule.params['account_Id'],
usernameDL=amodule.params['usernameDL'],
passwordDL=amodule.params['passwordDL'],
sepId=amodule.params['sepId'],
poolName=amodule.params['poolName'],
architecture=amodule.params['architecture'],
drivers=amodule.params['drivers'])
self.result['changed'] = True
return image_facts
def decort_virt_image_link(self,amodule):
# function that links an OS image to a virtual one
self.virt_image_link(imageId=self.validated_virt_image_id, targetId=self.validated_image_id)
image_id, image_facts = decort_osimage.decort_virt_image_find(self, amodule)
self.result['facts'] = decort_osimage.decort_osimage_package_facts(image_facts, amodule.check_mode)
self.result['msg'] = ("Image '{}' linked to virtual image '{}'").format(self.validated_image_id,
decort_osimage.decort_osimage_package_facts(image_facts)['id'],)
return image_id, image_facts
def decort_image_delete(self,amodule):
# function that removes an image
self.image_delete(imageId=amodule.image_id_delete, permanently=amodule.params['permanently'])
self.result['changed'] = True
self.result['msg'] = ("Image '{}' deleted").format(amodule.image_id_delete)
def decort_virt_image_create(self,amodule):
# function that creates a virtual image
image_facts = self.virt_image_create(name=amodule.params['virt_name'], targetId=self.validated_image_id)
image_id, image_facts = decort_osimage.decort_virt_image_find(self, amodule)
self.result['facts'] = decort_osimage.decort_osimage_package_facts(image_facts, amodule.check_mode)
return image_id, image_facts
def decort_image_rename(self,amodule):
# image renaming function
image_facts = self.image_rename(imageId=self.validated_image_id, name=amodule.params['image_name'])
self.result['msg'] = ("Image renamed successfully")
image_id, image_facts = decort_osimage.decort_image_find(self, amodule)
return image_id, image_facts
def decort_osimage_package_facts(arg_osimage_facts, arg_check_mode=False):
"""Package a dictionary of OS image according to the decort_osimage module specification. This
dictionary will be returned to the upstream Ansible engine at the completion of the module run.
@param arg_osimage_facts: dictionary with OS image facts as returned by API call to .../images/list
@param arg_check_mode: boolean that tells if this Ansible module is run in check mode.
@return: dictionary with OS image specs populated from arg_osimage_facts.
"""
ret_dict = dict(id=0,
name="none",
size=0,
type="none",
state="CHECK_MODE", )
if arg_check_mode:
# in check mode return immediately with the default values
return ret_dict
if arg_osimage_facts is None:
# if void facts provided - change state value to ABSENT and return
ret_dict['state'] = "ABSENT"
return ret_dict
ret_dict['id'] = arg_osimage_facts['id']
ret_dict['name'] = arg_osimage_facts['name']
ret_dict['size'] = arg_osimage_facts['size']
ret_dict['type'] = arg_osimage_facts['type']
# ret_dict['arch'] = arg_osimage_facts['architecture']
ret_dict['sep_id'] = arg_osimage_facts['sepId']
ret_dict['pool'] = arg_osimage_facts['pool']
ret_dict['state'] = arg_osimage_facts['status']
ret_dict['linkto'] = arg_osimage_facts['linkTo']
return ret_dict
ret_dict['id'] = arg_osimage_facts['id']
ret_dict['name'] = arg_osimage_facts['name']
ret_dict['size'] = arg_osimage_facts['size']
ret_dict['type'] = arg_osimage_facts['type']
# ret_dict['arch'] = arg_osimage_facts['architecture']
ret_dict['sep_id'] = arg_osimage_facts['sepId']
ret_dict['pool'] = arg_osimage_facts['pool']
ret_dict['state'] = arg_osimage_facts['status']
return ret_dict
def decort_osimage_parameters():
"""Build and return a dictionary of parameters expected by decort_osimage module in a form accepted
by AnsibleModule utility class."""
return dict(
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),
image_name=dict(type='str', required=True),
jwt=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_JWT']),
no_log=True),
oauth2_url=dict(type='str',
def decort_osimage_parameters():
"""Build and return a dictionary of parameters expected by decort_osimage module in a form accepted
by AnsibleModule utility class."""
return dict(
app_id=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_OAUTH2_URL'])),
password=dict(type='str',
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),
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),
pool=dict(type='str', required=False, default=""),
sep_id=dict(type='int', required=False, default=0),
account_name=dict(type='str', required=False),
account_Id=dict(type='int', required=False),
user=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_PASSWORD']),
no_log=True),
pool=dict(type='str', required=False, default=""),
sep_id=dict(type='int', required=False, default=0),
account_name=dict(type='str', required=True),
user=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_USER'])),
vdc_id=dict(type='int', required=False, default=0),
verify_ssl=dict(type='bool', required=False, default=True),
workflow_callback=dict(type='str', required=False),
workflow_context=dict(type='str', required=False),
)
# Workflow digest:
# 1) authenticate to DECORT controller & validate authentication by issuing API call - done when
# creating DecortController
# 2) obtain a list of OS images accessible to the specified account (and optionally - within
# the specified VDC)
# 3) match specified OS image by its name - if image is not found abort the module
# 5) report result to Ansible
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),
image_name=dict(type='str', required=False),
image_id=dict(type='int', required=False,default=0),
virt_id=dict(type='int', required=False, default=0),
virt_name=dict(type='str', required=False),
state=dict(type='str',
default='present',
choices=['absent', 'present']),
drivers=dict(type='str', required=False, default="KVM_X86"),
architecture=dict(type='str', required=False, default="X86_64"),
imagetype=dict(type='str', required=False, default="linux"),
boottype=dict(type='str', required=False, default="uefi"),
url=dict(type='str', required=False),
gid=dict(type='int', required=False, default=0),
sepId=dict(type='int', required=False, default=0),
poolName=dict(type='str', required=False),
hotresize=dict(type='bool', required=False, default=False),
image_username=dict(type='str', required=False),
image_password=dict(type='str', required=False),
usernameDL=dict(type='str', required=False),
passwordDL=dict(type='str', required=False),
permanently=dict(type='bool', required=False, default=False),
)
def main():
module_parameters = decort_osimage_parameters()
module_parameters = decort_osimage.decort_osimage_parameters()
amodule = AnsibleModule(argument_spec=module_parameters,
supports_check_mode=True,
@ -273,28 +504,65 @@ def main():
],
)
decon = DecortController(amodule)
decon = decort_osimage(amodule)
if amodule.params['image_name'] or amodule.params['image_id']:
image_id, image_facts = decort_osimage.decort_image_find(decon, amodule)
decon.validated_image_id = decort_osimage.decort_osimage_package_facts(image_facts)['id']
if decort_osimage.decort_osimage_package_facts(image_facts)['id'] > 0:
decon.result['facts'] = decort_osimage.decort_osimage_package_facts(image_facts, amodule.check_mode)
if amodule.params['state'] == "present" and decon.validated_image_id == 0 and amodule.params['image_name'] and amodule.params['url']:
decort_osimage.decort_image_create(decon,amodule)
decon.result['changed'] = True
image_id, image_facts = decort_osimage.decort_image_find(decon, amodule)
decon.result['msg'] = ("OS image '{}' created").format(decort_osimage.decort_osimage_package_facts(image_facts)['id'])
decon.result['facts'] = decort_osimage.decort_osimage_package_facts(image_facts, amodule.check_mode)
decon.validated_image_id = decort_osimage.decort_osimage_package_facts(image_facts)['id']
elif amodule.params['state'] == "absent" and amodule.params['image_name'] or amodule.params['image_id'] and decort_osimage.decort_osimage_package_facts(image_facts)['accountId'] == amodule.params['account_Id']:
amodule.image_id_delete = decon.validated_image_id
decort_osimage.decort_image_delete(decon,amodule)
if amodule.params['virt_name'] or amodule.params['virt_id']:
image_id, image_facts = decort_osimage.decort_virt_image_find(decon, amodule)
if decort_osimage.decort_osimage_package_facts(image_facts)['id'] > 0:
decon.result['facts'] = decort_osimage.decort_osimage_package_facts(image_facts, amodule.check_mode)
decon.validated_virt_image_id = decort_osimage.decort_osimage_package_facts(image_facts)['id']
decon.validated_virt_image_name = decort_osimage.decort_osimage_package_facts(image_facts)['name']
if decort_osimage.decort_osimage_package_facts(image_facts)['id'] == 0 and amodule.params['state'] == "present" and decon.validated_image_id > 0:
image_id, image_facts = decort_osimage.decort_virt_image_create(decon,amodule)
decon.result['msg'] = ("Virtual image '{}' created").format(decort_osimage.decort_osimage_package_facts(image_facts)['id'])
decon.result['changed'] = True
elif decort_osimage.decort_osimage_package_facts(image_facts)['id'] == 0 and amodule.params['state'] == "present" and decon.validated_image_id == 0:
decon.result['msg'] = ("Cannot find OS image")
amodule.fail_json(**decon.result)
if decon.validated_image_id:
if decort_osimage.decort_osimage_package_facts(image_facts)['linkto'] != decon.validated_image_id:
decort_osimage.decort_virt_image_link(decon,amodule)
decon.result['changed'] = True
amodule.exit_json(**decon.result)
if decon.validated_virt_image_id > 0 and amodule.params['state'] == "absent":
decon.result['msg'] = ("Osimage module cannot delete virtual images.")
decon.result['failed'] = True
amodule.exit_json(**decon.result)
# we need account ID to locate OS images - find the account by the specified name and get its ID
validated_account_id, _ = decon.account_find(amodule.params['account_name'])
if validated_account_id == 0:
# we failed either to find or access the specified account - fail the module
decon.result['failed'] = True
decon.result['changed'] = False
decon.result['msg'] = ("Cannot find account '{}'").format(amodule.params['account_name'])
amodule.fail_json(**decon.result)
image_id, image_facts = decon.image_find(image_id=0, image_name=amodule.params['image_name'],
account_id=validated_account_id, rg_id=0,
sepid=amodule.params['sep_id'],
pool=amodule.params['pool'])
if decon.result['failed'] == True:
# we failed to find the specified image - fail the module
decon.result['changed'] = False
amodule.fail_json(**decon.result)
decon.result['facts'] = decort_osimage_package_facts(image_facts, amodule.check_mode)
decon.result['changed'] = False # decort_osimage is a read-only module - make sure the 'changed' flag is set to False
amodule.exit_json(**decon.result)

549
library/decort_vins.py
Unescape View File

@ -245,102 +245,287 @@ from ansible.module_utils.basic import env_fallback
from ansible.module_utils.decort_utils import *
class decort_vins(DecortController):
def __init__(self,arg_amodule):
super(decort_vins, self).__init__(arg_amodule)
self.vins_id = 0
self.vins_level = "" # "ID" if specified by ID, "RG" - at resource group, "ACC" - at account level
vins_facts = None # will hold ViNS facts
validated_rg_id = 0
rg_facts = None # will hold RG facts
validated_acc_id = 0
acc_facts = None # will hold Account facts
if arg_amodule.params['vins_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
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)
self.vins_level = "ID"
validated_acc_id = vins_facts['accountId']
validated_rg_id = vins_facts['rgId']
elif arg_amodule.params['rg_id']:
# expect ViNS @ RG level in the RG with specified ID
self.vins_level = "RG"
# 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
arg_amodule.params['rg_id'], arg_rg_name="")
def decort_vins_package_facts(arg_vins_facts, arg_check_mode=False):
"""Package a dictionary of ViNS facts according to the decort_vins module specification.
This dictionary will be returned to the upstream Ansible engine at the completion of
the module run.
@param arg_vins_facts: dictionary with viNS facts as returned by API call to .../vins/get
@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
# This call to vins_find may return vins_id=0 if no ViNS found
self.vins_id, self.vins_facts = self.vins_find(vins_id=0, vins_name=arg_amodule.params['vins_name'],
account_id=0,
rg_id=arg_amodule.params['rg_id'],
rg_facts=rg_facts,
check_state=False)
# TODO: add checks and setup ViNS presence flags accordingly
pass
elif arg_amodule.params['account_id'] or arg_amodule.params['account_name'] != "":
# Specified account must be present and accessible by the user, otherwise abort the module
validated_acc_id, acc_facts = self.account_find(arg_amodule.params['account_name'], arg_amodule.params['account_id'])
if not validated_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)
if arg_amodule.params['rg_name'] != "": # at this point we know that rg_id=0
# expect ViNS @ RG level in the RG with specified name under specified account
# RG with the specified name must be present under the account, otherwise abort the module
validated_rg_id, rg_facts = self.rg_find(validated_acc_id, 0, arg_amodule.params['rg_name'])
if (not validated_rg_id or
rg_facts['status'] in ["DESTROYING", "DESTROYED", "DELETING", "DELETED", "DISABLING", "ENABLING"]):
self.result['failed'] = True
self.result['msg'] = "RG name '{}' not found or has invalid state.".format(arg_amodule.params['rg_name'])
self.fail_json(**self.result)
# This call to vins_find may return vins_id=0 if no ViNS with this name found under specified RG
self.vins_id, self.vins_facts = self.vins_find(vins_id=0, vins_name=arg_amodule.params['vins_name'],
account_id=0, # set to 0, as we are looking for ViNS under RG
rg_id=validated_rg_id,
rg_facts=rg_facts,
check_state=False)
self.vins_level = "RG"
# TODO: add checks and setup ViNS presence flags accordingly
else: # At this point we know for sure that rg_name="" and rg_id=0
# So we expect ViNS @ account level
# This call to vins_find may return vins_id=0 if no ViNS found
self.vins_id, self.vins_facts = self.vins_find(vins_id=0, vins_name=arg_amodule.params['vins_name'],
account_id=validated_acc_id,
rg_id=0,
rg_facts=rg_facts,
check_state=False)
self.vins_level = "ACC"
# TODO: add checks and setup ViNS presence flags accordingly
else:
# this is "invalid arguments combination" sink
# if we end up here, it means that module was invoked with vins_id=0 and rg_id=0
self.result['failed'] = True
if arg_amodule.params['account_id'] == 0 and arg_amodule.params['account_name'] == "":
self.result['msg'] = "Cannot find ViNS by name when account name is empty and account ID is 0."
if arg_amodule.params['rg_name'] == "":
# rg_name without account specified
self.result['msg'] = "Cannot find ViNS by name when RG name is empty and RG ID is 0."
self.fail_json(**self.result)
return
self.rg_id = validated_rg_id
self.acc_id = validated_acc_id
return
def create(self):
self.vins_id = self.vins_provision(self.amodule.params['vins_name'],
self.acc_id, self.rg_id,
self.amodule.params['ipcidr'],
self.amodule.params['ext_net_id'], self.amodule.params['ext_ip_addr'],
self.amodule.params['annotation'])
if self.amodule.params['mgmtaddr'] or self.amodule.params['connect_to']:
_, self.vins_facts = self.vins_find(self.vins_id)
if self.amodule.params['connect_to']:
self.vins_update_ifaces(self.vins_facts,self.amodule.params['connect_to'],)
if self.amodule.params['mgmtaddr']:
self.vins_update_mgmt(self.vins_facts,self.amodule.params['mgmtaddr'])
return
def action(self,d_state='',restore=False):
if restore == True:
self.vins_restore(arg_vins_id=self.vins_id)
self.vins_state(self.vins_facts, 'enabled')
self.vins_facts['status'] = "ENABLED"
self.vins_facts['VNFDev']['techStatus'] = "STARTED"
self.vins_update_extnet(self.vins_facts,
self.amodule.params['ext_net_id'],
self.amodule.params['ext_ip_addr'],
)
if d_state == 'enabled' and self.vins_facts['status'] == "DISABLED":
self.vins_state(self.vins_facts, d_state)
self.vins_facts['status'] = "ENABLED"
self.vins_facts['VNFDev']['techStatus'] = "STARTED"
d_state = ''
if self.vins_facts['status'] == "ENABLED" and self.vins_facts['VNFDev']['techStatus'] == "STARTED":
self.vins_update_ifaces(self.vins_facts,
self.amodule.params['connect_to'],
)
if self.result['changed']:
_, self.vins_facts = self.vins_find(self.vins_id)
self.vins_update_mgmt(self.vins_facts,
self.amodule.params['mgmtaddr'],
)
if d_state != '':
self.vins_state(self.vins_facts, d_state)
return
def delete(self):
self.vins_delete(self.vins_id, permanently=True)
self.vins_facts['status'] = 'DESTROYED'
return
def nop(self):
"""No operation (NOP) handler for ViNS management by decort_vins 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 ViNS state.
"""
self.result['failed'] = False
self.result['changed'] = False
if self.vins_id:
self.result['msg'] = ("No state change required for ViNS ID {} because of its "
"current status '{}'.").format(self.vins_id, self.vins_facts['status'])
else:
self.result['msg'] = ("No state change to '{}' can be done for "
"non-existent ViNS 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 ViNS ID {} in the "
"current status '{}'").format(self.vins_id,
self.amodule.params['state'],
self.vins_facts['status'])
else:
self.result['failed'] = True
self.result['changed'] = False
self.result['msg'] = ("Invalid target state '{}' requested for non-existent "
"ViNS name '{}'").format(self.amodule.params['state'],
self.amodule.params['vins_name'])
return
def package_facts(self, arg_check_mode=False):
"""Package a dictionary of ViNS facts according to the decort_vins 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.vins_facts['id']
ret_dict['name'] = self.vins_facts['name']
ret_dict['state'] = self.vins_facts['status']
ret_dict['account_id'] = self.vins_facts['accountId']
ret_dict['rg_id'] = self.vins_facts['rgId']
ret_dict['int_net_addr'] = self.vins_facts['network']
ret_dict['gid'] = self.vins_facts['gid']
custom_interfaces = list(filter(lambda i: i['type']=="CUSTOM",self.vins_facts['VNFDev']['interfaces']))
if custom_interfaces:
ret_dict['custom_net_addr'] = []
for runner in custom_interfaces:
ret_dict['custom_net_addr'].append(runner['ipAddress'])
mgmt_interfaces = list(filter(lambda i: i['listenSsh'] and i['name']!="ens9",self.vins_facts['VNFDev']['interfaces']))
if mgmt_interfaces:
ret_dict['ssh_ipaddr'] = []
for runner in mgmt_interfaces:
ret_dict['ssh_ipaddr'].append(runner['ipAddress'])
ret_dict['ssh_password'] = self.vins_facts['VNFDev']['config']['mgmt']['password']
ret_dict['ssh_port'] = 9022
if self.vins_facts['vnfs'].get('GW'):
gw_config = self.vins_facts['vnfs']['GW']['config']
ret_dict['ext_ip_addr'] = gw_config['ext_net_ip']
ret_dict['ext_net_id'] = gw_config['ext_net_id']
else:
ret_dict['ext_ip_addr'] = ""
ret_dict['ext_net_id'] = -1
# arg_vins_facts['vnfs']['GW']['config']
# ext_ip_addr -> ext_net_ip
# ??? -> ext_net_id
# tech_status -> techStatus
if arg_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'] = arg_vins_facts['id']
ret_dict['name'] = arg_vins_facts['name']
ret_dict['state'] = arg_vins_facts['status']
ret_dict['account_id'] = arg_vins_facts['accountId']
ret_dict['rg_id'] = arg_vins_facts['rgId']
ret_dict['int_net_addr'] = arg_vins_facts['network']
ret_dict['gid'] = arg_vins_facts['gid']
if arg_vins_facts['vnfs'].get('GW'):
gw_config = arg_vins_facts['vnfs']['GW']['config']
ret_dict['ext_ip_addr'] = gw_config['ext_net_ip']
ret_dict['ext_net_id'] = gw_config['ext_net_id']
else:
ret_dict['ext_ip_addr'] = ""
ret_dict['ext_net_id'] = -1
# arg_vins_facts['vnfs']['GW']['config']
# ext_ip_addr -> ext_net_ip
# ??? -> ext_net_id
# tech_status -> techStatus
@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 ret_dict
def decort_vins_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=''),
app_id=dict(type='str',
return dict(
account_id=dict(type='int', required=False),
account_name=dict(type='str', required=False, default=''),
annotation=dict(type='str', required=False, default=''),
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=''),
ipcidr=dict(type='str', required=False, default=''),
mgmtaddr=dict(type='list',required=False, default=[]),
custom_config=dict(type='bool',required=False, default=False),
config_save=dict(type='bool',required=False, default=False),
connect_to=dict(type='list', default=[], required=False),
jwt=dict(type='str',
required=False,
fallback=(env_fallback, ['DECORT_APP_ID'])),
app_secret=dict(type='str',
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_APP_SECRET']),
fallback=(env_fallback, ['DECORT_PASSWORD']),
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=''),
ipcidr=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']),
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=''),
verify_ssl=dict(type='bool', required=False, default=True),
vins_id=dict(type='int', required=False, default=0),
vins_name=dict(type='str', required=True),
workflow_callback=dict(type='str', required=False),
workflow_context=dict(type='str', required=False),
)
state=dict(type='str',
default='present',
choices=['absent', 'disabled', 'enabled', 'present']),
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=''),
verify_ssl=dict(type='bool', required=False, default=True),
vins_id=dict(type='int', required=False, default=0),
vins_name=dict(type='str', required=True),
workflow_callback=dict(type='str', required=False),
workflow_context=dict(type='str', required=False),
)
# Workflow digest:
# 1) authenticate to DECORT controller & validate authentication by issuing API call - done when creating DECORTController
@ -350,7 +535,7 @@ def decort_vins_parameters():
# 5) report result to Ansible
def main():
module_parameters = decort_vins_parameters()
module_parameters = decort_vins.build_parameters()
amodule = AnsibleModule(argument_spec=module_parameters,
supports_check_mode=True,
@ -365,84 +550,7 @@ def main():
],
)
decon = DecortController(amodule)
vins_id = 0
vins_level = "" # "ID" if specified by ID, "RG" - at resource group, "ACC" - at account level
vins_facts = None # will hold ViNS facts
validated_rg_id = 0
rg_facts = None # will hold RG facts
validated_acc_id = 0
acc_facts = None # will hold Account facts
if amodule.params['vins_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
vins_id, vins_facts = decon.vins_find(amodule.params['vins_id'])
if not vins_id:
decon.result['failed'] = True
decon.result['msg'] = "Specified ViNS ID {} not found.".format(amodule.params['vins_id'])
decon.fail_json(**decon.result)
vins_level="ID"
validated_acc_id = vins_facts['accountId']
validated_rg_id = vins_facts['rgId']
elif amodule.params['rg_id']:
# expect ViNS @ RG level in the RG with specified ID
vins_level="RG"
# This call to rg_find will abort the module if no RG with such ID is present
validated_rg_id, rg_facts = decon.rg_find(0, # account ID set to 0 as we search for RG by RG ID
amodule.params['rg_id'], arg_rg_name="")
# This call to vins_find may return vins_id=0 if no ViNS found
vins_id, vins_facts = decon.vins_find(vins_id=0, vins_name=amodule.params['vins_name'],
account_id=0,
rg_id=amodule.params['rg_id'],
check_state=False)
# TODO: add checks and setup ViNS presence flags accordingly
pass
elif amodule.params['account_id'] or amodule.params['account_name'] != "":
# Specified account must be present and accessible by the user, otherwise abort the module
validated_acc_id, acc_facts = decon.account_find(amodule.params['account_name'], amodule.params['account_id'])
if not validated_acc_id:
decon.result['failed'] = True
decon.result['msg'] = ("Current user does not have access to the requested account "
"or non-existent account specified.")
decon.fail_json(**decon.result)
if amodule.params['rg_name'] != "": # at this point we know that rg_id=0
# expect ViNS @ RG level in the RG with specified name under specified account
# RG with the specified name must be present under the account, otherwise abort the module
validated_rg_id, rg_facts = decon.rg_find(validated_acc_id, 0, amodule.params['rg_name'])
if (not validated_rg_id or
rg_facts['status'] in ["DESTROYING", "DESTROYED", "DELETING", "DELETED", "DISABLING", "ENABLING"]):
decon.result['failed'] = True
decon.result['msg'] = "RG name '{}' not found or has invalid state.".format(amodule.params['rg_name'])
decon.fail_json(**decon.result)
# This call to vins_find may return vins_id=0 if no ViNS with this name found under specified RG
vins_id, vins_facts = decon.vins_find(vins_id=0, vins_name=amodule.params['vins_name'],
account_id=0, # set to 0, as we are looking for ViNS under RG
rg_id=validated_rg_id,
check_state=False)
vins_level = "RG"
# TODO: add checks and setup ViNS presence flags accordingly
else: # At this point we know for sure that rg_name="" and rg_id=0
# So we expect ViNS @ account level
# This call to vins_find may return vins_id=0 if no ViNS found
vins_id, vins_facts = decon.vins_find(vins_id=0, vins_name=amodule.params['vins_name'],
account_id=validated_acc_id,
rg_id=0,
check_state=False)
vins_level = "ACC"
# TODO: add checks and setup ViNS presence flags accordingly
else:
# this is "invalid arguments combination" sink
# if we end up here, it means that module was invoked with vins_id=0 and rg_id=0
decon.result['failed'] = True
if amodule.params['account_id'] == 0 and amodule.params['account_name'] == "":
decon.result['msg'] = "Cannot find ViNS by name when account name is empty and account ID is 0."
if amodule.params['rg_name'] == "":
# rg_name without account specified
decon.result['msg'] = "Cannot find ViNS by name when RG name is empty and RG ID is 0."
decon.fail_json(**decon.result)
decon = decort_vins(amodule)
#
# Initial validation of module arguments is complete
#
@ -456,121 +564,73 @@ def main():
#
# "MODELED", "CREATED", "ENABLED", "ENABLING", "DISABLED", "DISABLING", "DELETED", "DELETING", "DESTROYED", "DESTROYING"
#
# if cconfig_save is true, only config save without other updates
vins_should_exist = False
if vins_id:
if decon.vins_id:
vins_should_exist = True
if vins_facts['status'] in ["MODELED", "DISABLING", "ENABLING", "DELETING", "DESTROYING"]:
if decon.vins_facts['status'] in ["MODELED", "DISABLING", "ENABLING", "DELETING", "DESTROYING"]:
# error: nothing can be done to existing ViNS in the listed statii regardless of
# the requested state
decon.result['failed'] = True
decon.result['changed'] = False
decon.result['msg'] = ("No change can be done for existing ViNS ID {} because of its current "
"status '{}'").format(vins_id, vins_facts['status'])
elif vins_facts['status'] == "DISABLED":
"status '{}'").format(decon.vins_id, decon.vins_facts['status'])
elif decon.vins_facts['status'] == "DISABLED":
if amodule.params['state'] == 'absent':
decon.vins_delete(vins_id, permanently=True)
vins_facts['status'] = 'DESTROYED'
decon.delete()
vins_should_exist = False
elif amodule.params['state'] in ('present', 'disabled'):
# update ViNS, leave in disabled state
decon.vins_update(vins_facts,
amodule.params['ext_net_id'], amodule.params['ext_ip_addr'])
decon.action()
elif amodule.params['state'] == 'enabled':
# update ViNS and enable
decon.vins_update(vins_facts,
amodule.params['ext_net_id'], amodule.params['ext_ip_addr'])
decon.vins_state(vins_facts, 'enabled')
elif vins_facts['status'] in ["CREATED", "ENABLED"]:
decon.action('enabled')
elif decon.vins_facts['status'] in ["CREATED", "ENABLED"]:
if amodule.params['state'] == 'absent':
decon.vins_delete(vins_id, permanently=True)
vins_facts['status'] = 'DESTROYED'
decon.delete()
vins_should_exist = False
elif amodule.params['state'] in ('present', 'enabled'):
# update ViNS
decon.vins_update(vins_facts,
amodule.params['ext_net_id'], amodule.params['ext_ip_addr'])
decon.action()
elif amodule.params['state'] == 'disabled':
# disable and update ViNS
decon.vins_state(vins_facts, 'disabled')
decon.vins_update(vins_facts,
amodule.params['ext_net_id'], amodule.params['ext_ip_addr'])
elif vins_facts['status'] == "DELETED":
decon.action('disabled')
elif decon.vins_facts['status'] == "DELETED":
if amodule.params['state'] in ['present', 'enabled']:
# restore and enable
decon.vins_restore(arg_vins_id=vins_id)
decon.vins_state(vins_facts, 'enabled')
decon.action(restore=True)
vins_should_exist = True
elif amodule.params['state'] == 'absent':
# destroy permanently
decon.vins_delete(vins_id, permanently=True)
vins_facts['status'] = 'DESTROYED'
decon.delete()
vins_should_exist = False
elif amodule.params['state'] == 'disabled':
# error
decon.result['failed'] = True
decon.result['changed'] = False
decon.result['msg'] = ("Invalid target state '{}' requested for ViNS ID {} in the "
"current status '{}'").format(vins_id,
amodule.params['state'],
vins_facts['status'])
decon.error()
vins_should_exist = False
elif vins_facts['status'] == "DESTROYED":
elif decon.vins_facts['status'] == "DESTROYED":
if amodule.params['state'] in ('present', 'enabled'):
# need to re-provision ViNS; some attributes may be changed, some stay the same.
# account and RG - stays the same
# vins_name - stays the same
# IPcidr - take from module arguments
# ext IP address - take from module arguments
# annotation - take from module arguments
vins_id = decon.vins_provision(vins_facts['name'],
validated_acc_id, validated_rg_id,
amodule.params['ipcidr'],
amodule.params['ext_net_id'], amodule.params['ext_ip_addr'],
amodule.params['annotation'])
# need to re-provision ViNS;
decon.create()
vins_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 ViNS ID {} because of its "
"current status '{}'").format(vins_id,
vins_facts['status'])
decon.nop()
vins_should_exist = False
elif amodule.params['state'] == 'disabled':
# error
decon.result['failed'] = True
decon.result['changed'] = False
decon.result['msg'] = ("Invalid target state '{}' requested for ViNS ID {} in the "
"current status '{}'").format(vins_id,
amodule.params['state'],
vins_facts['status'])
decon.error()
else:
# Preexisting ViNS was not found.
vins_should_exist = False # we will change it back to True if ViNS is created or restored
# 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 ViNS name '{}'").format(amodule.params['vins_name'])
decon.nop()
elif amodule.params['state'] in ('present', 'enabled'):
decon.check_amodule_argument('vins_name')
# as we already have account ID and RG ID we can create ViNS and get vins_id on success
vins_id = decon.vins_provision(amodule.params['vins_name'],
validated_acc_id, validated_rg_id,
amodule.params['ipcidr'],
amodule.params['ext_net_id'], amodule.params['ext_ip_addr'],
amodule.params['annotation'])
decon.create()
vins_should_exist = True
elif amodule.params['state'] == 'disabled':
decon.result['failed'] = True
decon.result['changed'] = False
decon.result['msg'] = ("Invalid target state '{}' requested for non-existent "
"ViNS name '{}'").format(amodule.params['state'],
amodule.params['vins_name'])
decon.error()
#
# conditional switch end - complete module run
#
@ -578,14 +638,9 @@ def main():
amodule.fail_json(**decon.result)
else:
# prepare ViNS facts to be returned as part of decon.result and then call exit_json(...)
if vins_should_exist:
if decon.result['changed']:
# If we arrive here, there is a good chance that the ViNS is present - get fresh ViNS
# facts from # the cloud by ViNS ID.
# Otherwise, ViNS facts from previous call (when the ViNS was still in existence) will
# be returned.
_, vins_facts = decon.vins_find(vins_id)
decon.result['facts'] = decort_vins_package_facts(vins_facts, amodule.check_mode)
if decon.result['changed']:
_, decon.vins_facts = decon.vins_find(decon.vins_id)
decon.result['facts'] = decon.package_facts(amodule.check_mode)
amodule.exit_json(**decon.result)

2162
module_utils/decort_utils.py
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