ansible/lib/ansible/module_utils/azure_rm_common.py

632 lines
27 KiB
Python

#
# Copyright (c) 2016 Matt Davis, <mdavis@ansible.com>
# Chris Houseknecht, <house@redhat.com>
#
# This file is part of Ansible
#
# Ansible is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# Ansible is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with Ansible. If not, see <http://www.gnu.org/licenses/>.
#
import ConfigParser
import json
import os
import re
import sys
import copy
from os.path import expanduser
from ansible.module_utils.basic import *
AZURE_COMMON_ARGS = dict(
profile=dict(type='str'),
subscription_id=dict(type='str', no_log=True),
client_id=dict(type='str', no_log=True),
secret=dict(type='str', no_log=True),
tenant=dict(type='str', no_log=True),
ad_user=dict(type='str', no_log=True),
password=dict(type='str', no_log=True),
# debug=dict(type='bool', default=False),
)
AZURE_CREDENTIAL_ENV_MAPPING = dict(
profile='AZURE_PROFILE',
subscription_id='AZURE_SUBSCRIPTION_ID',
client_id='AZURE_CLIENT_ID',
secret='AZURE_SECRET',
tenant='AZURE_TENANT',
ad_user='AZURE_AD_USER',
password='AZURE_PASSWORD'
)
AZURE_TAG_ARGS = dict(
tags=dict(type='dict'),
purge_tags=dict(type='bool', default=False),
)
AZURE_COMMON_REQUIRED_IF = [
('log_mode', 'file', ['log_path'])
]
ANSIBLE_USER_AGENT = 'Ansible-Deploy'
CIDR_PATTERN = re.compile("(([0-9]|[1-9][0-9]|1[0-9]{2}|2[0-4][0-9]|25[0-5])\.){3}([0-9]|[1-9][0-9]|1"
"[0-9]{2}|2[0-4][0-9]|25[0-5])(\/([0-9]|[1-2][0-9]|3[0-2]))")
AZURE_SUCCESS_STATE = "Succeeded"
AZURE_FAILED_STATE = "Failed"
AZURE_MIN_VERSION = "2016-03-30"
HAS_AZURE = True
HAS_AZURE_EXC = None
try:
from enum import Enum
from msrest.serialization import Serializer
from msrestazure.azure_exceptions import CloudError
from azure.mgmt.compute import __version__ as azure_compute_version
from azure.mgmt.network.models import PublicIPAddress, NetworkSecurityGroup, SecurityRule, NetworkInterface, \
NetworkInterfaceIPConfiguration, Subnet
from azure.common.credentials import ServicePrincipalCredentials, UserPassCredentials
from azure.mgmt.network.network_management_client import NetworkManagementClient,\
NetworkManagementClientConfiguration
from azure.mgmt.resource.resources.resource_management_client import ResourceManagementClient,\
ResourceManagementClientConfiguration
from azure.mgmt.storage.storage_management_client import StorageManagementClient,\
StorageManagementClientConfiguration
from azure.mgmt.compute.compute_management_client import ComputeManagementClient,\
ComputeManagementClientConfiguration
from azure.storage.cloudstorageaccount import CloudStorageAccount
except ImportError, exc:
HAS_AZURE_EXC = exc
HAS_AZURE = False
def azure_id_to_dict(id):
pieces = re.sub(r'^\/', '', id).split('/')
result = {}
index = 0
while index < len(pieces) - 1:
result[pieces[index]] = pieces[index + 1]
index += 1
return result
class AzureRMModuleBase(object):
def __init__(self, derived_arg_spec, bypass_checks=False, no_log=False,
check_invalid_arguments=True, mutually_exclusive=None, required_together=None,
required_one_of=None, add_file_common_args=False, supports_check_mode=False,
required_if=None, supports_tags=True, facts_module=False):
merged_arg_spec = dict()
merged_arg_spec.update(AZURE_COMMON_ARGS)
if supports_tags:
merged_arg_spec.update(AZURE_TAG_ARGS)
if derived_arg_spec:
merged_arg_spec.update(derived_arg_spec)
merged_required_if = list(AZURE_COMMON_REQUIRED_IF)
if required_if:
merged_required_if += required_if
self.module = AnsibleModule(argument_spec=merged_arg_spec,
bypass_checks=bypass_checks,
no_log=no_log,
check_invalid_arguments=check_invalid_arguments,
mutually_exclusive=mutually_exclusive,
required_together=required_together,
required_one_of=required_one_of,
add_file_common_args=add_file_common_args,
supports_check_mode=supports_check_mode,
required_if=merged_required_if)
if not HAS_AZURE:
self.fail("The Azure Python SDK is not installed (try 'pip install azure') - {0}".format(HAS_AZURE_EXC))
if azure_compute_version < AZURE_MIN_VERSION:
self.fail("Expecting azure.mgmt.compute.__version__ to be >= {0}. Found version {1} "
"Do you have Azure >= 2.0.0rc2 installed?".format(AZURE_MIN_VERSION, azure_compute_version))
self._network_client = None
self._storage_client = None
self._resource_client = None
self._compute_client = None
self.check_mode = self.module.check_mode
self.facts_module = facts_module
self.debug = self.module.params.get('debug')
# authenticate
self.credentials = self._get_credentials(self.module.params)
if not self.credentials:
self.fail("Failed to get credentials. Either pass as parameters, set environment variables, "
"or define a profile in ~/.azure/credentials.")
if self.credentials.get('subscription_id', None) is None:
self.fail("Credentials did not include a subscription_id value.")
self.log("setting subscription_id")
self.subscription_id = self.credentials['subscription_id']
if self.credentials.get('client_id') is not None and \
self.credentials.get('secret') is not None and \
self.credentials.get('tenant') is not None:
self.azure_credentials = ServicePrincipalCredentials(client_id=self.credentials['client_id'],
secret=self.credentials['secret'],
tenant=self.credentials['tenant'])
elif self.credentials.get('ad_user') is not None and self.credentials.get('password') is not None:
self.azure_credentials = UserPassCredentials(self.credentials['ad_user'], self.credentials['password'])
else:
self.fail("Failed to authenticate with provided credentials. Some attributes were missing. "
"Credentials must include client_id, secret and tenant or ad_user and password.")
# common parameter validation
if self.module.params.get('tags'):
self.validate_tags(self.module.params['tags'])
res = self.exec_module(**self.module.params)
self.module.exit_json(**res)
def exec_module(self, **kwargs):
self.fail("Error: {0} failed to implement exec_module method.".format(self.__class__.__name__))
def fail(self, msg, **kwargs):
'''
Shortcut for calling module.fail()
:param msg: Error message text.
:param kwargs: Any key=value pairs
:return: None
'''
self.module.fail_json(msg=msg, **kwargs)
def log(self, msg, pretty_print=False):
pass
# Use only during module development
# if self.debug:
# log_file = open('azure_rm.log', 'a')
# if pretty_print:
# log_file.write(json.dumps(msg, indent=4, sort_keys=True))
# else:
# log_file.write(msg + u'\n')
def validate_tags(self, tags):
'''
Check if tags dictionary contains string:string pairs.
:param tags: dictionary of string:string pairs
:return: None
'''
if not self.facts_module:
if not isinstance(tags, dict):
self.fail("Tags must be a dictionary of string:string values.")
for key, value in tags.items():
if not isinstance(value, str):
self.fail("Tags values must be strings. Found {0}:{1}".format(str(key), str(value)))
def _tag_purge(self, tags):
'''
Remove metadata tags not found in user provided tags parameter. Returns tuple
with bool indicating something changed and dict of new tags to be assigned to
the object.
:param tags: object metadata tags
:return: bool, dict of tags
'''
if not self.module.params.get('tags'):
# purge all tags
return True, dict()
new_tags = copy.copy(tags)
changed = False
for key in tags:
if not self.module.params['tags'].get(key):
# key not found in user provided parameters
new_tags.pop(key)
changed = True
if changed:
self.log('CHANGED: purged tags')
return changed, new_tags
def _tag_update(self, tags):
'''
Update metadata tags with values in user provided tags parameter. Returns
tuple with bool indicating something changed and dict of new tags to be
assigned to the object.
:param tags: object metadata tags
:return: bool, dict of tags
'''
if isinstance(tags, dict):
new_tags = copy.copy(tags)
else:
new_tags = dict()
changed = False
if self.module.params.get('tags'):
for key, value in self.module.params['tags'].items():
if not (new_tags.get(key) and new_tags[key] == value):
changed = True
new_tags[key] = value
if changed:
self.log('CHANGED: updated tags')
return changed, new_tags
def update_tags(self, tags):
'''
Call from the module to update metadata tags. Returns tuple
with bool indicating if there was a change and dict of new
tags to assign to the object.
:param tags: metadata tags from the object
:return: bool, dict
'''
changed = False
updated, new_tags = self._tag_update(tags)
if updated:
changed = True
if self.module.params['purge_tags']:
purged, new_tags = self._tag_purge(new_tags)
if purged:
changed = True
return changed, new_tags
def has_tags(self, obj_tags, tag_list):
'''
Used in fact modules to compare object tags to list of parameter tags. Return true if list of parameter tags
exists in object tags.
:param obj_tags: dictionary of tags from an Azure object.
:param tag_list: list of tag keys or tag key:value pairs
:return: bool
'''
if not obj_tags and tag_list:
return False
if not tag_list:
return True
matches = 0
result = False
for tag in tag_list:
tag_key = tag
tag_value = None
if ':' in tag:
tag_key, tag_value = tag.split(':')
if tag_value and obj_tags.get(tag_key) == tag_value:
matches += 1
elif not tag_value and obj_tags.get(tag_key):
matches += 1
if matches == len(tag_list):
result = True
return result
def get_resource_group(self, resource_group):
'''
Fetch a resource group.
:param resource_group: name of a resource group
:return: resource group object
'''
try:
return self.rm_client.resource_groups.get(resource_group)
except CloudError:
self.fail("Parameter error: resource group {0} not found".format(resource_group))
except Exception, exc:
self.fail("Error retrieving resource group {0} - {1}".format(resource_group, str(exc)))
def _get_profile(self, profile="default"):
path = expanduser("~/.azure/credentials")
try:
config = ConfigParser.ConfigParser()
config.read(path)
except Exception, exc:
self.fail("Failed to access {0}. Check that the file exists and you have read "
"access. {1}".format(path, str(exc)))
credentials = dict()
for key in AZURE_CREDENTIAL_ENV_MAPPING:
try:
credentials[key] = config.get(profile, key, raw=True)
except:
pass
if credentials.get('client_id') is not None or credentials.get('ad_user') is not None:
return credentials
return None
def _get_env_credentials(self):
env_credentials = dict()
for attribute, env_variable in AZURE_CREDENTIAL_ENV_MAPPING.items():
env_credentials[attribute] = os.environ.get(env_variable, None)
if env_credentials['profile'] is not None:
credentials = self._get_profile(env_credentials['profile'])
return credentials
if env_credentials['client_id'] is not None:
return env_credentials
return None
def _get_credentials(self, params):
# Get authentication credentials.
# Precedence: module parameters-> environment variables-> default profile in ~/.azure/credentials.
self.log('Getting credentials')
arg_credentials = dict()
for attribute, env_variable in AZURE_CREDENTIAL_ENV_MAPPING.items():
arg_credentials[attribute] = params.get(attribute, None)
# try module params
if arg_credentials['profile'] is not None:
self.log('Retrieving credentials with profile parameter.')
credentials = self._get_profile(arg_credentials['profile'])
return credentials
if arg_credentials['client_id'] is not None:
self.log('Received credentials from parameters.')
return arg_credentials
# try environment
env_credentials = self._get_env_credentials()
if env_credentials:
self.log('Received credentials from env.')
return env_credentials
# try default profile from ~./azure/credentials
default_credentials = self._get_profile()
if default_credentials:
self.log('Retrieved default profile credentials from ~/.azure/credentials.')
return default_credentials
return None
def serialize_obj(self, obj, class_name):
'''
Return a JSON representation of an Azure object.
:param obj: Azure object
:param class_name: Name of the object's class
:return: serialized result
'''
serializer = Serializer()
return serializer.body(obj, class_name)
def get_poller_result(self, poller, wait=20):
'''
Consistent method of waiting on and retrieving results from Azure's long poller
:param poller Azure poller object
:return object resulting from the original request
'''
try:
delay = wait
while not poller.done():
self.log("Waiting for {0} sec".format(delay))
poller.wait(timeout=delay)
return poller.result()
except Exception, exc:
self.log(str(exc))
raise
def check_provisioning_state(self, azure_object, requested_state='present'):
'''
Check an Azure object's provisioning state. If something did not complete the provisioning
process, then we cannot operate on it.
:param azure_object An object such as a subnet, storageaccount, etc. Must have provisioning_state
and name attributes.
:return None
'''
if hasattr(azure_object, 'properties') and hasattr(azure_object.properties, 'provisioning_state') and \
hasattr(azure_object, 'name'):
# resource group object fits this model
if isinstance(azure_object.properties.provisioning_state, Enum):
if azure_object.properties.provisioning_state.value != AZURE_SUCCESS_STATE and \
requested_state != 'absent':
self.fail("Error {0} has a provisioning state of {1}. Expecting state to be {2}.".format(
azure_object.name, azure_object.properties.provisioning_state, AZURE_SUCCESS_STATE))
return
if azure_object.properties.provisioning_state != AZURE_SUCCESS_STATE and \
requested_state != 'absent':
self.fail("Error {0} has a provisioning state of {1}. Expecting state to be {2}.".format(
azure_object.name, azure_object.properties.provisioning_state, AZURE_SUCCESS_STATE))
return
if hasattr(azure_object, 'provisioning_state') or not hasattr(azure_object, 'name'):
if isinstance(azure_object.provisioning_state, Enum):
if azure_object.provisioning_state.value != AZURE_SUCCESS_STATE and requested_state != 'absent':
self.fail("Error {0} has a provisioning state of {1}. Expecting state to be {2}.".format(
azure_object.name, azure_object.provisioning_state, AZURE_SUCCESS_STATE))
return
if azure_object.provisioning_state != AZURE_SUCCESS_STATE and requested_state != 'absent':
self.fail("Error {0} has a provisioning state of {1}. Expecting state to be {2}.".format(
azure_object.name, azure_object.provisioning_state, AZURE_SUCCESS_STATE))
def get_blob_client(self, resource_group_name, storage_account_name):
keys = dict()
try:
# Get keys from the storage account
self.log('Getting keys')
account_keys = self.storage_client.storage_accounts.list_keys(resource_group_name, storage_account_name)
keys['key1'] = account_keys.key1
keys['key2'] = account_keys.key2
except Exception, exc:
self.fail("Error getting keys for account {0} - {1}".format(storage_account_name, str(exc)))
try:
self.log('Create blob service')
return CloudStorageAccount(storage_account_name, keys['key1']).create_block_blob_service()
except Exception, exc:
self.fail("Error creating blob service client for storage account {0} - {1}".format(storage_account_name,
str(exc)))
def create_default_pip(self, resource_group, location, name, allocation_method='Dynamic'):
'''
Create a default public IP address <name>01 to associate with a network interface.
If a PIP address matching <vm name>01 exists, return it. Otherwise, create one.
:param resource_group: name of an existing resource group
:param location: a valid azure location
:param name: base name to assign the public IP address
:param allocation_method: one of 'Static' or 'Dynamic'
:return: PIP object
'''
public_ip_name = name + '01'
pip = None
self.log("Starting create_default_pip {0}".format(public_ip_name))
self.log("Check to see if public IP {0} exists".format(public_ip_name))
try:
pip = self.network_client.public_ip_addresses.get(resource_group, public_ip_name)
except CloudError:
pass
if pip:
self.log("Public ip {0} found.".format(public_ip_name))
self.check_provisioning_state(pip)
return pip
params = PublicIPAddress(
location=location,
public_ip_allocation_method=allocation_method,
)
self.log('Creating default public IP {0}'.format(public_ip_name))
try:
poller = self.network_client.public_ip_addresses.create_or_update(resource_group, public_ip_name, params)
except Exception, exc:
self.fail("Error creating {0} - {1}".format(public_ip_name, str(exc)))
return self.get_poller_result(poller)
def create_default_securitygroup(self, resource_group, location, name, os_type, open_ports):
'''
Create a default security group <name>01 to associate with a network interface. If a security group matching
<name>01 exists, return it. Otherwise, create one.
:param resource_group: Resource group name
:param location: azure location name
:param name: base name to use for the security group
:param os_type: one of 'Windows' or 'Linux'. Determins any default rules added to the security group.
:param ssh_port: for os_type 'Linux' port used in rule allowing SSH access.
:param rdp_port: for os_type 'Windows' port used in rule allowing RDP access.
:return: security_group object
'''
security_group_name = name + '01'
group = None
self.log("Create security group {0}".format(security_group_name))
self.log("Check to see if security group {0} exists".format(security_group_name))
try:
group = self.network_client.network_security_groups.get(resource_group, security_group_name)
except CloudError:
pass
if group:
self.log("Security group {0} found.".format(security_group_name))
self.check_provisioning_state(group)
return group
parameters = NetworkSecurityGroup()
parameters.location = location
if not open_ports:
# Open default ports based on OS type
if os_type == 'Linux':
# add an inbound SSH rule
parameters.security_rules = [
SecurityRule('Tcp', '*', '*', 'Allow', 'Inbound', description='Allow SSH Access',
source_port_range='*', destination_port_range='22', priority=100, name='SSH')
]
parameters.location = location
else:
# for windows add inbound RDP rules
parameters.security_rules = [
SecurityRule('Tcp', '*', '*', 'Allow', 'Inbound', description='Allow RDP port 3389',
source_port_range='*', destination_port_range='3389', priority=100, name='RDP01'),
SecurityRule('Tcp', '*', '*', 'Allow', 'Inbound', description='Allow RDP port 5986',
source_port_range='*', destination_port_range='5986', priority=101, name='RDP01'),
]
else:
# Open custom ports
parameters.security_rules = []
priority = 100
for port in open_ports:
priority += 1
rule_name = "Rule_{0}".format(priority)
parameters.security_rules.append(
SecurityRule('Tcp', '*', '*', 'Allow', 'Inbound', source_port_range='*',
destination_port_range=str(port), priority=priority, name=rule_name)
)
self.log('Creating default security group {0}'.format(security_group_name))
try:
poller = self.network_client.network_security_groups.create_or_update(resource_group,
security_group_name,
parameters)
except Exception, exc:
self.fail("Error creating default security rule {0} - {1}".format(security_group_name, str(exc)))
return self.get_poller_result(poller)
def _register(self, key):
try:
# We have to perform the one-time registration here. Otherwise, we receive an error the first
# time we attempt to use the requested client.
resource_client = self.rm_client
resource_client.providers.register(key)
except Exception, exc:
self.fail("One-time registration of {0} failed - {1}".format(key, str(exc)))
@property
def storage_client(self):
self.log('Getting storage client...')
if not self._storage_client:
config = StorageManagementClientConfiguration(self.azure_credentials, self.subscription_id)
config.add_user_agent(ANSIBLE_USER_AGENT)
self._storage_client = StorageManagementClient(config)
self._register('Microsoft.Storage')
return self._storage_client
@property
def network_client(self):
self.log('Getting network client')
if not self._network_client:
config = NetworkManagementClientConfiguration(self.azure_credentials, self.subscription_id)
config.add_user_agent(ANSIBLE_USER_AGENT)
self._network_client = NetworkManagementClient(config)
self._register('Microsoft.Network')
return self._network_client
@property
def rm_client(self):
self.log('Getting resource manager client')
if not self._resource_client:
config = ResourceManagementClientConfiguration(self.azure_credentials, self.subscription_id)
config.add_user_agent(ANSIBLE_USER_AGENT)
self._resource_client = ResourceManagementClient(config)
return self._resource_client
@property
def compute_client(self):
self.log('Getting compute client')
if not self._compute_client:
config = ComputeManagementClientConfiguration(self.azure_credentials, self.subscription_id)
config.add_user_agent(ANSIBLE_USER_AGENT)
self._compute_client = ComputeManagementClient(config)
self._register('Microsoft.Compute')
return self._compute_client