541 lines
19 KiB
Python
541 lines
19 KiB
Python
# vim: tabstop=4 shiftwidth=4 softtabstop=4
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#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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from copy import deepcopy
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import datetime
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import logging
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import webob
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import json
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import urlparse
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import re
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import httplib
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import eventlet
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from heat import manager
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from heat.db import api as db_api
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from heat.common import config
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from heat.common import utils as heat_utils
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from heat.common import context as ctxtlib
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from heat.engine import parser
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from heat.engine import resources
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from heat.engine import watchrule
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from heat.engine import auth
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from heat.openstack.common import timeutils
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from novaclient.v1_1 import client
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from novaclient.exceptions import BadRequest
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from novaclient.exceptions import NotFound
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from novaclient.exceptions import AuthorizationFailure
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logger = logging.getLogger('heat.engine.manager')
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greenpool = eventlet.GreenPool()
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_param_key = re.compile(r'Parameters\.member\.(.*?)\.ParameterKey$')
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def _extract_user_params(params):
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def get_param_pairs():
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for k in params:
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keymatch = _param_key.match(k)
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if keymatch:
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key = params[k]
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v = 'Parameters.member.%s.ParameterValue' % keymatch.group(1)
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try:
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value = params[v]
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except KeyError:
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logger.error('Could not apply parameter %s' % key)
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yield (key, value)
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return dict(get_param_pairs())
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class EngineManager(manager.Manager):
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"""
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Manages the running instances from creation to destruction.
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All the methods in here are called from the RPC backend. This is
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all done dynamically so if a call is made via RPC that does not
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have a corresponding method here, an exception will be thrown when
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it attempts to call into this class. Arguments to these methods
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are also dynamically added and will be named as keyword arguments
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by the RPC caller.
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"""
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def __init__(self, *args, **kwargs):
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"""Load configuration options and connect to the hypervisor."""
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pass
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def list_stacks(self, context, params):
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"""
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The list_stacks method is the end point that actually implements
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the 'list' command of the heat API.
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arg1 -> RPC context.
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arg2 -> Dict of http request parameters passed in from API side.
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"""
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auth.authenticate(context)
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res = {'stacks': []}
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stacks = db_api.stack_get_by_user(context)
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if stacks is None:
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return res
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for s in stacks:
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ps = parser.Stack(context, s.name,
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s.raw_template.parsed_template.template,
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s.id, _extract_user_params(params))
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mem = {}
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mem['StackId'] = "/".join([s.name, str(s.id)])
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mem['StackName'] = s.name
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mem['CreationTime'] = heat_utils.strtime(s.created_at)
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mem['TemplateDescription'] = ps.t.get('Description',
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'No description')
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mem['StackStatus'] = s.status
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res['stacks'].append(mem)
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return res
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def show_stack(self, context, stack_name, params):
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"""
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The show_stack method returns the attributes of one stack.
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arg1 -> RPC context.
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arg2 -> Name of the stack you want to see.
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arg3 -> Dict of http request parameters passed in from API side.
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"""
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auth.authenticate(context)
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res = {'stacks': []}
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s = db_api.stack_get_by_name(context, stack_name)
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if s:
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ps = parser.Stack(context, s.name,
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s.raw_template.parsed_template.template,
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s.id, _extract_user_params(params))
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mem = {}
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mem['StackId'] = "/".join([s.name, str(s.id)])
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mem['StackName'] = s.name
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mem['CreationTime'] = heat_utils.strtime(s.created_at)
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mem['LastUpdatedTimestamp'] = heat_utils.strtime(s.updated_at)
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mem['NotificationARNs'] = 'TODO'
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mem['Parameters'] = ps.t['Parameters']
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mem['TimeoutInMinutes'] = ps.t.get('Timeout', '60')
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mem['Description'] = ps.t.get('Description',
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'No description')
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mem['StackStatus'] = s.status
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mem['StackStatusReason'] = s.status_reason
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# only show the outputs on a completely created stack
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if s.status == ps.CREATE_COMPLETE:
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mem['Outputs'] = ps.get_outputs()
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res['stacks'].append(mem)
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return res
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def create_stack(self, context, stack_name, template, params):
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"""
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The create_stack method creates a new stack using the template
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provided.
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Note that at this stage the template has already been fetched from the
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heat-api process if using a template-url.
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arg1 -> RPC context.
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arg2 -> Name of the stack you want to create.
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arg3 -> Template of stack you want to create.
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arg4 -> Params passed from API.
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"""
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logger.info('template is %s' % template)
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auth.authenticate(context)
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if db_api.stack_get_by_name(None, stack_name):
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return {'Error': 'Stack already exists with that name.'}
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user_params = _extract_user_params(params)
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metadata_server = config.FLAGS.heat_metadata_server_url
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# We don't want to reset the stack template, so we are making
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# an instance just for validation.
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template_copy = deepcopy(template)
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stack_validator = parser.Stack(context, stack_name,
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template_copy, 0,
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user_params,
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metadata_server=metadata_server)
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response = stack_validator.validate()
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stack_validator = None
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template_copy = None
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if 'Malformed Query Response' in \
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response['ValidateTemplateResult']['Description']:
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return response
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stack = parser.Stack(context, stack_name, template, 0, user_params,
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metadata_server=metadata_server)
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rt = {}
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rt['template'] = template
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rt['StackName'] = stack_name
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new_rt = db_api.raw_template_create(None, rt)
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new_creds = db_api.user_creds_create(context.to_dict())
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s = {}
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s['name'] = stack_name
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s['raw_template_id'] = new_rt.id
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s['user_creds_id'] = new_creds.id
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s['username'] = context.username
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s['parameters'] = user_params
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new_s = db_api.stack_create(context, s)
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stack.id = new_s.id
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pt = {}
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pt['template'] = stack.t
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pt['raw_template_id'] = new_rt.id
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new_pt = db_api.parsed_template_create(None, pt)
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stack.parsed_template_id = new_pt.id
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greenpool.spawn_n(stack.create)
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return {'StackId': "/".join([new_s.name, str(new_s.id)])}
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def validate_template(self, context, template, params):
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"""
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The validate_template method uses the stack parser to check
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the validity of a template.
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arg1 -> RPC context.
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arg3 -> Template of stack you want to create.
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arg4 -> Params passed from API.
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"""
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auth.authenticate(context)
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logger.info('validate_template')
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if template is None:
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msg = _("No Template provided.")
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return webob.exc.HTTPBadRequest(explanation=msg)
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try:
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s = parser.Stack(context, 'validate', template, 0,
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_extract_user_params(params))
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except KeyError as ex:
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res = ('A Fn::FindInMap operation referenced '
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'a non-existent map [%s]' % str(ex))
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response = {'ValidateTemplateResult': {
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'Description': 'Malformed Query Response [%s]' % (res),
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'Parameters': []}}
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return response
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res = s.validate()
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return res
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def get_template(self, context, stack_name, params):
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"""
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Get the template.
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arg1 -> RPC context.
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arg2 -> Name of the stack you want to see.
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arg3 -> Dict of http request parameters passed in from API side.
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"""
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auth.authenticate(context)
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s = db_api.stack_get_by_name(context, stack_name)
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if s:
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return s.raw_template.template
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return None
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def delete_stack(self, context, stack_name, params):
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"""
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The delete_stack method deletes a given stack.
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arg1 -> RPC context.
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arg2 -> Name of the stack you want to delete.
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arg3 -> Params passed from API.
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"""
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auth.authenticate(context)
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st = db_api.stack_get_by_name(context, stack_name)
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if not st:
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return {'Error': 'No stack by that name'}
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logger.info('deleting stack %s' % stack_name)
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ps = parser.Stack(context, st.name,
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st.raw_template.template,
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st.id, st.parameters)
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greenpool.spawn_n(ps.delete)
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return None
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# Helper for list_events. It's here so we can use it in tests.
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def parse_event(self, event):
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s = event.stack
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return {'EventId': event.id,
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'StackId': event.stack_id,
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'StackName': s.name,
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'Timestamp': str(event.created_at),
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'LogicalResourceId': event.logical_resource_id,
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'PhysicalResourceId': event.physical_resource_id,
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'ResourceType': event.resource_type,
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'ResourceStatusReason': event.resource_status_reason,
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'ResourceProperties': event.resource_properties,
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'ResourceStatus': event.name}
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def list_events(self, context, stack_name, params):
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"""
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The list_events method lists all events associated with a given stack.
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arg1 -> RPC context.
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arg2 -> Name of the stack you want to get events for.
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arg3 -> Params passed from API.
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"""
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auth.authenticate(context)
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if stack_name is not None:
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st = db_api.stack_get_by_name(context, stack_name)
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if not st:
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return {'Error': 'No stack by that name'}
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events = db_api.event_get_all_by_stack(context, st.id)
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else:
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events = db_api.event_get_all_by_user(context)
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return {'events': [self.parse_event(e) for e in events]}
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def event_create(self, context, event):
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auth.authenticate(context)
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stack_name = event['stack']
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resource_name = event['resource']
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stack = db_api.stack_get_by_name(context, stack_name)
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resource = db_api.resource_get_by_name_and_stack(context,
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resource_name,
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stack.id)
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if not resource:
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return ['Unknown resource', None]
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new_event = {
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'name': event['message'],
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'resource_status_reason': event['reason'],
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'StackId': stack.id,
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'LogicalResourceId': resource.name,
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'PhysicalResourceId': None,
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'ResourceType': event['resource_type'],
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'ResourceProperties': {},
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}
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try:
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result = db_api.event_create(context, new_event)
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new_event['id'] = result.id
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return [None, new_event]
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except Exception as ex:
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logger.warn('db error %s' % str(ex))
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msg = 'Error creating event'
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return [msg, None]
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def describe_stack_resource(self, context, stack_name, resource_name):
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auth.authenticate(context)
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stack = db_api.stack_get_by_name(context, stack_name)
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if not stack:
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raise AttributeError('Unknown stack name')
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resource = db_api.resource_get_by_name_and_stack(context,
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resource_name,
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stack.id)
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if not resource:
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raise AttributeError('Unknown resource name')
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return format_resource_attributes(stack, resource)
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def describe_stack_resources(self, context, stack_name,
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physical_resource_id, logical_resource_id):
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auth.authenticate(context)
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if stack_name:
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stack = db_api.stack_get_by_name(context, stack_name)
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else:
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resource = db_api.resource_get_by_physical_resource_id(context,
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physical_resource_id)
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if not resource:
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msg = "The specified PhysicalResourceId doesn't exist"
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raise AttributeError(msg)
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stack = resource.stack
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if not stack:
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raise AttributeError("The specified stack doesn't exist")
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resources = []
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for r in stack.resources:
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if logical_resource_id and r.name != logical_resource_id:
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continue
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formatted = format_resource_attributes(stack, r)
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# this API call uses Timestamp instead of LastUpdatedTimestamp
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formatted['Timestamp'] = formatted['LastUpdatedTimestamp']
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del formatted['LastUpdatedTimestamp']
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resources.append(formatted)
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return resources
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def list_stack_resources(self, context, stack_name):
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auth.authenticate(context)
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stack = db_api.stack_get_by_name(context, stack_name)
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if not stack:
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raise AttributeError('Unknown stack name')
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resources = []
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response_keys = ('ResourceStatus', 'LogicalResourceId',
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'LastUpdatedTimestamp', 'PhysicalResourceId',
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'ResourceType')
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for r in stack.resources:
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formatted = format_resource_attributes(stack, r)
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for key in formatted.keys():
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if not key in response_keys:
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del formatted[key]
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resources.append(formatted)
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return resources
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def metadata_register_address(self, context, url):
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config.FLAGS.heat_metadata_server_url = url
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def metadata_list_stacks(self, context):
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"""
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Return the names of the stacks registered with Heat.
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"""
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stacks = db_api.stack_get_all(context)
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return [s.name for s in stacks]
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def metadata_list_resources(self, context, stack_name):
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"""
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Return the resource IDs of the given stack.
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"""
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stack = db_api.stack_get_by_name(None, stack_name)
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if stack:
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return [res.name for res in stack.resources]
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else:
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return None
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def metadata_get_resource(self, context, stack_name, resource_id):
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"""
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Get the metadata for the given resource.
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"""
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s = db_api.stack_get_by_name(None, stack_name)
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if not s:
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return ['stack', None]
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r = db_api.resource_get_by_name_and_stack(None, resource_id, s.id)
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if r is None:
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return ['resource', None]
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return [None, r.rsrc_metadata]
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def metadata_update(self, context, stack_id, resource_name, metadata):
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"""
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Update the metadata for the given resource.
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"""
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r = db_api.resource_get_by_name_and_stack(None, resource_name,
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stack_id)
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if r is None:
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logger.warn("Resource not found %s:%s." % (stack_id,
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resource_name))
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return ['resource', None]
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r.update_and_save({'rsrc_metadata': metadata})
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return [None, metadata]
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@manager.periodic_task
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def _periodic_watcher_task(self, context):
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now = timeutils.utcnow()
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wrs = db_api.watch_rule_get_all(context)
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for wr in wrs:
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# has enough time progressed to run the rule
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dt_period = datetime.timedelta(seconds=int(wr.rule['Period']))
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if now < (wr.last_evaluated + dt_period):
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continue
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self.run_rule(context, wr, now)
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def run_rule(self, context, wr, now=timeutils.utcnow()):
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action_map = {'ALARM': 'AlarmActions',
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'NORMAL': 'OKActions',
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'NODATA': 'InsufficientDataActions'}
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watcher = watchrule.WatchRule(wr.rule, wr.watch_data,
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wr.last_evaluated, now)
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new_state = watcher.get_alarm_state()
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if new_state != wr.state:
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wr.state = new_state
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wr.save()
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logger.warn('WATCH: stack:%s, watch_name:%s %s',
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wr.stack_name, wr.name, new_state)
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if not action_map[new_state] in wr.rule:
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logger.info('no action for new state %s',
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new_state)
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else:
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s = db_api.stack_get_by_name(None, wr.stack_name)
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if s:
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user_creds = db_api.user_creds_get(s.user_creds_id)
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ctxt = ctxtlib.RequestContext.from_dict(dict(user_creds))
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ps = parser.Stack(ctxt, s.name,
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s.raw_template.template,
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s.id, s.parameters)
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for a in wr.rule[action_map[new_state]]:
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greenpool.spawn_n(ps[a].alarm)
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wr.last_evaluated = now
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|
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def create_watch_data(self, context, watch_name, stats_data):
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'''
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This could be used by CloudWatch and WaitConditions
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and treat HA service events like any other CloudWatch.
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'''
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wr = db_api.watch_rule_get(None, watch_name)
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if wr is None:
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logger.warn('NoSuch watch:%s' % (watch_name))
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return ['NoSuch Watch Rule', None]
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|
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if not wr.rule['MetricName'] in stats_data:
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logger.warn('new data has incorrect metric:%s' %
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(wr.rule['MetricName']))
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return ['MetricName %s missing' % wr.rule['MetricName'], None]
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|
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watch_data = {
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'data': stats_data,
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'watch_rule_id': wr.id
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}
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wd = db_api.watch_data_create(None, watch_data)
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logger.debug('new watch:%s data:%s' % (watch_name, str(wd.data)))
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if wr.rule['Statistic'] == 'SampleCount':
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self.run_rule(None, wr)
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return [None, wd.data]
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|
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|
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def format_resource_attributes(stack, resource):
|
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"""
|
|
Return a representation of the given resource that mathes the API output
|
|
expectations.
|
|
"""
|
|
template = resource.parsed_template.template
|
|
template_resources = template.get('Resources', {})
|
|
resource_type = template_resources.get(resource.name, {}).get('Type', '')
|
|
last_updated_time = resource.updated_at or resource.created_at
|
|
return {
|
|
'StackId': stack.id,
|
|
'StackName': stack.name,
|
|
'LogicalResourceId': resource.name,
|
|
'PhysicalResourceId': resource.nova_instance or '',
|
|
'ResourceType': resource_type,
|
|
'LastUpdatedTimestamp': last_updated_time.isoformat(),
|
|
'ResourceStatus': resource.state,
|
|
'ResourceStatusReason': resource.state_description,
|
|
}
|