deb-heat/heat/engine/parser.py
Liang Chen ca90c984ec Replace str with six.text_type
Replace str with six.text_type so that unicode exception messages can be
safely processed, and the change is PY3 compatible.

Closes-bug: #1295443

Change-Id: Ic27ec365b82797df37ae53f38d5d31e70cb65c67
2014-04-11 20:47:14 +08:00

803 lines
30 KiB
Python

#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import collections
import copy
from datetime import datetime
import re
from oslo.config import cfg
import six
from heat.common import exception
from heat.common.exception import StackValidationFailed
from heat.common import identifier
from heat.db import api as db_api
from heat.engine.clients import Clients
from heat.engine import dependencies
from heat.engine import environment
from heat.engine import function
from heat.engine.notification import stack as notification
from heat.engine.parameter_groups import ParameterGroups
from heat.engine import resource
from heat.engine import resources
from heat.engine import scheduler
from heat.engine.template import Template
from heat.engine import update
from heat.openstack.common.gettextutils import _
from heat.openstack.common import log as logging
from heat.openstack.common import strutils
logger = logging.getLogger(__name__)
class Stack(collections.Mapping):
ACTIONS = (CREATE, DELETE, UPDATE, ROLLBACK, SUSPEND, RESUME, ADOPT
) = ('CREATE', 'DELETE', 'UPDATE', 'ROLLBACK', 'SUSPEND',
'RESUME', 'ADOPT')
STATUSES = (IN_PROGRESS, FAILED, COMPLETE
) = ('IN_PROGRESS', 'FAILED', 'COMPLETE')
_zones = None
def __init__(self, context, stack_name, tmpl, env=None,
stack_id=None, action=None, status=None,
status_reason='', timeout_mins=None, resolve_data=True,
disable_rollback=True, parent_resource=None, owner_id=None,
adopt_stack_data=None, stack_user_project_id=None,
created_time=None, updated_time=None,
user_creds_id=None, tenant_id=None):
'''
Initialise from a context, name, Template object and (optionally)
Environment object. The database ID may also be initialised, if the
stack is already in the database.
'''
if owner_id is None:
if re.match("[a-zA-Z][a-zA-Z0-9_.-]*$", stack_name) is None:
raise ValueError(_('Invalid stack name %s'
' must contain only alphanumeric or '
'\"_-.\" characters, must start with alpha'
) % stack_name)
self.id = stack_id
self.owner_id = owner_id
self.context = context
self.clients = Clients(context)
self.t = tmpl
self.name = stack_name
self.action = action
self.status = status
self.status_reason = status_reason
self.timeout_mins = timeout_mins
self.disable_rollback = disable_rollback
self.parent_resource = parent_resource
self._resources = None
self._dependencies = None
self._access_allowed_handlers = {}
self.adopt_stack_data = adopt_stack_data
self.stack_user_project_id = stack_user_project_id
self.created_time = created_time
self.updated_time = updated_time
self.user_creds_id = user_creds_id
# This will use the provided tenant ID when loading the stack
# from the DB or get it from the context for new stacks.
self.tenant_id = tenant_id or self.context.tenant_id
resources.initialise()
self.env = env or environment.Environment({})
self.parameters = self.t.parameters(self.identifier(),
user_params=self.env.params,
context=context)
self._set_param_stackid()
if resolve_data:
self.outputs = self.resolve_static_data(self.t[self.t.OUTPUTS])
else:
self.outputs = {}
@property
def resources(self):
if self._resources is None:
template_resources = self.t[self.t.RESOURCES]
self._resources = dict((name, resource.Resource(name, data, self))
for (name, data) in
template_resources.items())
return self._resources
@property
def dependencies(self):
if self._dependencies is None:
self._dependencies = self._get_dependencies(
self.resources.itervalues())
return self._dependencies
def reset_dependencies(self):
self._dependencies = None
@property
def root_stack(self):
'''
Return the root stack if this is nested (otherwise return self).
'''
if (self.parent_resource and self.parent_resource.stack):
return self.parent_resource.stack.root_stack
return self
def total_resources(self):
'''
Return the total number of resources in a stack, including nested
stacks below.
'''
def total_nested(res):
get_nested = getattr(res, 'nested', None)
if callable(get_nested):
nested_stack = get_nested()
if nested_stack is not None:
return nested_stack.total_resources()
return 0
return len(self) + sum(total_nested(res) for res in self.itervalues())
def _set_param_stackid(self):
'''
Update self.parameters with the current ARN which is then provided
via the Parameters class as the StackId pseudo parameter
'''
if not self.parameters.set_stack_id(self.identifier()):
logger.warning(_("Unable to set parameters StackId identifier"))
@staticmethod
def _get_dependencies(resources):
'''Return the dependency graph for a list of resources.'''
deps = dependencies.Dependencies()
for resource in resources:
resource.add_dependencies(deps)
return deps
@classmethod
def load(cls, context, stack_id=None, stack=None, resolve_data=True,
parent_resource=None, show_deleted=True):
'''Retrieve a Stack from the database.'''
if stack is None:
stack = db_api.stack_get(context, stack_id,
show_deleted=show_deleted)
if stack is None:
message = _('No stack exists with id "%s"') % str(stack_id)
raise exception.NotFound(message)
template = Template.load(context, stack.raw_template_id)
env = environment.Environment(stack.parameters)
stack = cls(context, stack.name, template, env,
stack.id, stack.action, stack.status, stack.status_reason,
stack.timeout, resolve_data, stack.disable_rollback,
parent_resource, owner_id=stack.owner_id,
stack_user_project_id=stack.stack_user_project_id,
created_time=stack.created_at,
updated_time=stack.updated_at,
user_creds_id=stack.user_creds_id, tenant_id=stack.tenant)
return stack
def store(self, backup=False):
'''
Store the stack in the database and return its ID
If self.id is set, we update the existing stack
'''
s = {
'name': self._backup_name() if backup else self.name,
'raw_template_id': self.t.store(self.context),
'parameters': self.env.user_env_as_dict(),
'owner_id': self.owner_id,
'username': self.context.username,
'tenant': self.tenant_id,
'action': self.action,
'status': self.status,
'status_reason': self.status_reason,
'timeout': self.timeout_mins,
'disable_rollback': self.disable_rollback,
'stack_user_project_id': self.stack_user_project_id,
'updated_at': self.updated_time,
'user_creds_id': self.user_creds_id
}
if self.id:
db_api.stack_update(self.context, self.id, s)
else:
# Create a context containing a trust_id and trustor_user_id
# if trusts are enabled
if cfg.CONF.deferred_auth_method == 'trusts':
trust_context = self.clients.keystone().create_trust_context()
new_creds = db_api.user_creds_create(trust_context)
else:
new_creds = db_api.user_creds_create(self.context)
s['user_creds_id'] = new_creds.id
self.user_creds_id = new_creds.id
new_s = db_api.stack_create(self.context, s)
self.id = new_s.id
self.created_time = new_s.created_at
self._set_param_stackid()
return self.id
def _backup_name(self):
return '%s*' % self.name
def identifier(self):
'''
Return an identifier for this stack.
'''
return identifier.HeatIdentifier(self.tenant_id, self.name, self.id)
def __iter__(self):
'''
Return an iterator over the resource names.
'''
return iter(self.resources)
def __len__(self):
'''Return the number of resources.'''
return len(self.resources)
def __getitem__(self, key):
'''Get the resource with the specified name.'''
return self.resources[key]
def __setitem__(self, key, resource):
'''Set the resource with the specified name to a specific value.'''
resource.stack = self
resource.reparse()
self.resources[key] = resource
def __delitem__(self, key):
'''Remove the resource with the specified name.'''
del self.resources[key]
def __contains__(self, key):
'''Determine whether the stack contains the specified resource.'''
if self._resources is not None:
return key in self.resources
else:
return key in self.t[self.t.RESOURCES]
def __eq__(self, other):
'''
Compare two Stacks for equality.
Stacks are considered equal only if they are identical.
'''
return self is other
def __str__(self):
'''Return a human-readable string representation of the stack.'''
return 'Stack "%s" [%s]' % (self.name, self.id)
def resource_by_refid(self, refid):
'''
Return the resource in this stack with the specified
refid, or None if not found
'''
for r in self.values():
if r.state in (
(r.INIT, r.COMPLETE),
(r.CREATE, r.IN_PROGRESS),
(r.CREATE, r.COMPLETE),
(r.RESUME, r.IN_PROGRESS),
(r.RESUME, r.COMPLETE),
(r.UPDATE, r.IN_PROGRESS),
(r.UPDATE, r.COMPLETE)) and r.FnGetRefId() == refid:
return r
def register_access_allowed_handler(self, credential_id, handler):
'''
Register a function which determines whether the credentials with
a give ID can have access to a named resource.
'''
assert callable(handler), 'Handler is not callable'
self._access_allowed_handlers[credential_id] = handler
def access_allowed(self, credential_id, resource_name):
'''
Returns True if the credential_id is authorised to access the
resource with the specified resource_name.
'''
if not self.resources:
# this also triggers lazy-loading of resources
# so is required for register_access_allowed_handler
# to be called
return False
handler = self._access_allowed_handlers.get(credential_id)
return handler and handler(resource_name)
def validate(self):
'''
Validates the template.
'''
# TODO(sdake) Should return line number of invalid reference
# validate overall template (top-level structure)
self.t.validate()
# Validate Parameter Groups
parameter_groups = ParameterGroups(self.t)
parameter_groups.validate()
# Check duplicate names between parameters and resources
dup_names = set(self.parameters.keys()) & set(self.keys())
if dup_names:
logger.debug(_("Duplicate names %s") % dup_names)
raise StackValidationFailed(message=_("Duplicate names %s") %
dup_names)
for res in self.dependencies:
try:
result = res.validate()
except exception.Error as ex:
logger.exception(ex)
raise ex
except Exception as ex:
logger.exception(ex)
raise StackValidationFailed(message=strutils.safe_decode(
six.text_type(ex)))
if result:
raise StackValidationFailed(message=result)
for val in self.outputs.values():
snippet = val.get('Value', '')
try:
function.validate(snippet)
except Exception as ex:
reason = 'Output validation error: %s' % six.text_type(ex)
raise StackValidationFailed(message=reason)
def requires_deferred_auth(self):
'''
Returns whether this stack may need to perform API requests
during its lifecycle using the configured deferred authentication
method.
'''
return any(res.requires_deferred_auth for res in self.values())
def state_set(self, action, status, reason):
'''Update the stack state in the database.'''
if action not in self.ACTIONS:
raise ValueError(_("Invalid action %s") % action)
if status not in self.STATUSES:
raise ValueError(_("Invalid status %s") % status)
self.action = action
self.status = status
self.status_reason = reason
if self.id is None:
return
stack = db_api.stack_get(self.context, self.id)
if stack is not None:
stack.update_and_save({'action': action,
'status': status,
'status_reason': reason})
notification.send(self)
@property
def state(self):
'''Returns state, tuple of action, status.'''
return (self.action, self.status)
def timeout_secs(self):
'''
Return the stack action timeout in seconds.
'''
if self.timeout_mins is None:
return cfg.CONF.stack_action_timeout
return self.timeout_mins * 60
def preview_resources(self):
'''
Preview the stack with all of the resources.
'''
return [resource.preview()
for resource in self.resources.itervalues()]
def create(self):
'''
Create the stack and all of the resources.
'''
def rollback():
if not self.disable_rollback and self.state == (self.CREATE,
self.FAILED):
self.delete(action=self.ROLLBACK)
creator = scheduler.TaskRunner(self.stack_task,
action=self.CREATE,
reverse=False,
post_func=rollback)
creator(timeout=self.timeout_secs())
def _adopt_kwargs(self, resource):
data = self.adopt_stack_data
if not data or not data.get('resources'):
return {'resource_data': None}
return {'resource_data': data['resources'].get(resource.name)}
@scheduler.wrappertask
def stack_task(self, action, reverse=False, post_func=None):
'''
A task to perform an action on the stack and all of the resources
in forward or reverse dependency order as specfifed by reverse
'''
self.state_set(action, self.IN_PROGRESS,
'Stack %s started' % action)
stack_status = self.COMPLETE
reason = 'Stack %s completed successfully' % action
def resource_action(r):
# Find e.g resource.create and call it
action_l = action.lower()
handle = getattr(r, '%s' % action_l)
# If a local _$action_kwargs function exists, call it to get the
# action specific argument list, otherwise an empty arg list
handle_kwargs = getattr(self,
'_%s_kwargs' % action_l, lambda x: {})
return handle(**handle_kwargs(r))
action_task = scheduler.DependencyTaskGroup(self.dependencies,
resource_action,
reverse)
try:
yield action_task()
except exception.ResourceFailure as ex:
stack_status = self.FAILED
reason = 'Resource %s failed: %s' % (action, six.text_type(ex))
except scheduler.Timeout:
stack_status = self.FAILED
reason = '%s timed out' % action.title()
self.state_set(action, stack_status, reason)
if callable(post_func):
post_func()
def _backup_stack(self, create_if_missing=True):
'''
Get a Stack containing any in-progress resources from the previous
stack state prior to an update.
'''
s = db_api.stack_get_by_name_and_owner_id(self.context,
self._backup_name(),
owner_id=self.id)
if s is not None:
logger.debug(_('Loaded existing backup stack'))
return self.load(self.context, stack=s)
elif create_if_missing:
templ = Template.load(self.context, self.t.id)
templ.files = copy.deepcopy(self.t.files)
prev = type(self)(self.context, self.name, templ, self.env,
owner_id=self.id)
prev.store(backup=True)
logger.debug(_('Created new backup stack'))
return prev
else:
return None
def adopt(self):
'''
Adopt a stack (create stack with all the existing resources).
'''
def rollback():
if not self.disable_rollback and self.state == (self.ADOPT,
self.FAILED):
self.delete(action=self.ROLLBACK)
creator = scheduler.TaskRunner(
self.stack_task,
action=self.ADOPT,
reverse=False,
post_func=rollback)
creator(timeout=self.timeout_secs())
def update(self, newstack):
'''
Compare the current stack with newstack,
and where necessary create/update/delete the resources until
this stack aligns with newstack.
Note update of existing stack resources depends on update
being implemented in the underlying resource types
Update will fail if it exceeds the specified timeout. The default is
60 minutes, set in the constructor
'''
self.updated_time = datetime.utcnow()
updater = scheduler.TaskRunner(self.update_task, newstack)
updater()
@scheduler.wrappertask
def update_task(self, newstack, action=UPDATE):
if action not in (self.UPDATE, self.ROLLBACK):
logger.error(_("Unexpected action %s passed to update!") %
action)
self.state_set(self.UPDATE, self.FAILED,
"Invalid action %s" % action)
return
if self.status != self.COMPLETE:
if (action == self.ROLLBACK and
self.state == (self.UPDATE, self.IN_PROGRESS)):
logger.debug(_("Starting update rollback for %s") % self.name)
else:
self.state_set(action, self.FAILED,
'State invalid for %s' % action)
return
self.state_set(self.UPDATE, self.IN_PROGRESS,
'Stack %s started' % action)
oldstack = Stack(self.context, self.name, self.t, self.env)
backup_stack = self._backup_stack()
try:
update_task = update.StackUpdate(self, newstack, backup_stack,
rollback=action == self.ROLLBACK)
updater = scheduler.TaskRunner(update_task)
self.env = newstack.env
self.parameters = newstack.parameters
self.t.files = newstack.t.files
self.disable_rollback = newstack.disable_rollback
self.timeout_mins = newstack.timeout_mins
self._set_param_stackid()
try:
updater.start(timeout=self.timeout_secs())
yield
while not updater.step():
yield
finally:
self.reset_dependencies()
if action == self.UPDATE:
reason = 'Stack successfully updated'
else:
reason = 'Stack rollback completed'
stack_status = self.COMPLETE
except scheduler.Timeout:
stack_status = self.FAILED
reason = 'Timed out'
except exception.ResourceFailure as e:
reason = six.text_type(e)
stack_status = self.FAILED
if action == self.UPDATE:
# If rollback is enabled, we do another update, with the
# existing template, so we roll back to the original state
if not self.disable_rollback:
yield self.update_task(oldstack, action=self.ROLLBACK)
return
else:
logger.debug(_('Deleting backup stack'))
backup_stack.delete(backup=True)
self.state_set(action, stack_status, reason)
# flip the template to the newstack values
# Note we do this on success and failure, so the current
# stack resources are stored, even if one is in a failed
# state (otherwise we won't remove them on delete)
self.t = newstack.t
template_outputs = self.t[self.t.OUTPUTS]
self.outputs = self.resolve_static_data(template_outputs)
self.store()
def delete(self, action=DELETE, backup=False):
'''
Delete all of the resources, and then the stack itself.
The action parameter is used to differentiate between a user
initiated delete and an automatic stack rollback after a failed
create, which amount to the same thing, but the states are recorded
differently.
'''
if action not in (self.DELETE, self.ROLLBACK):
logger.error(_("Unexpected action %s passed to delete!") % action)
self.state_set(self.DELETE, self.FAILED,
"Invalid action %s" % action)
return
stack_status = self.COMPLETE
reason = 'Stack %s completed successfully' % action
self.state_set(action, self.IN_PROGRESS, 'Stack %s started' %
action)
backup_stack = self._backup_stack(False)
if backup_stack is not None:
backup_stack.delete(backup=True)
if backup_stack.status != backup_stack.COMPLETE:
errs = backup_stack.status_reason
failure = 'Error deleting backup resources: %s' % errs
self.state_set(action, self.FAILED,
'Failed to %s : %s' % (action, failure))
return
action_task = scheduler.DependencyTaskGroup(self.dependencies,
resource.Resource.destroy,
reverse=True)
try:
scheduler.TaskRunner(action_task)(timeout=self.timeout_secs())
except exception.ResourceFailure as ex:
stack_status = self.FAILED
reason = 'Resource %s failed: %s' % (action, six.text_type(ex))
except scheduler.Timeout:
stack_status = self.FAILED
reason = '%s timed out' % action.title()
if stack_status != self.FAILED and not backup:
# Cleanup stored user_creds so they aren't accessible via
# the soft-deleted stack which remains in the DB
if self.user_creds_id:
user_creds = db_api.user_creds_get(self.user_creds_id)
# If we created a trust, delete it
trust_id = user_creds.get('trust_id')
if trust_id:
try:
self.clients.keystone().delete_trust(trust_id)
except Exception as ex:
logger.exception(ex)
stack_status = self.FAILED
reason = "Error deleting trust: %s" % six.text_type(ex)
# Delete the stored credentials
db_api.user_creds_delete(self.context, self.user_creds_id)
self.user_creds_id = None
self.store()
# If the stack has a domain project, delete it
if self.stack_user_project_id:
try:
self.clients.keystone().delete_stack_domain_project(
project_id=self.stack_user_project_id)
except Exception as ex:
logger.exception(ex)
stack_status = self.FAILED
reason = "Error deleting project: %s" % six.text_type(ex)
self.state_set(action, stack_status, reason)
if stack_status != self.FAILED:
# delete the stack
db_api.stack_delete(self.context, self.id)
self.id = None
def suspend(self):
'''
Suspend the stack, which invokes handle_suspend for all stack resources
waits for all resources to become SUSPEND_COMPLETE then declares the
stack SUSPEND_COMPLETE.
Note the default implementation for all resources is to do nothing
other than move to SUSPEND_COMPLETE, so the resources must implement
handle_suspend for this to have any effect.
'''
# No need to suspend if the stack has been suspended
if self.state == (self.SUSPEND, self.COMPLETE):
logger.info(_('%s is already suspended') % str(self))
return
sus_task = scheduler.TaskRunner(self.stack_task,
action=self.SUSPEND,
reverse=True)
sus_task(timeout=self.timeout_secs())
def resume(self):
'''
Resume the stack, which invokes handle_resume for all stack resources
waits for all resources to become RESUME_COMPLETE then declares the
stack RESUME_COMPLETE.
Note the default implementation for all resources is to do nothing
other than move to RESUME_COMPLETE, so the resources must implement
handle_resume for this to have any effect.
'''
# No need to resume if the stack has been resumed
if self.state == (self.RESUME, self.COMPLETE):
logger.info(_('%s is already resumed') % str(self))
return
sus_task = scheduler.TaskRunner(self.stack_task,
action=self.RESUME,
reverse=False)
sus_task(timeout=self.timeout_secs())
def output(self, key):
'''
Get the value of the specified stack output.
'''
value = self.outputs[key].get('Value', '')
try:
return self.resolve_runtime_data(value)
except Exception:
return None
def restart_resource(self, resource_name):
'''
stop resource_name and all that depend on it
start resource_name and all that depend on it
'''
deps = self.dependencies[self[resource_name]]
failed = False
for res in reversed(deps):
try:
scheduler.TaskRunner(res.destroy)()
except exception.ResourceFailure as ex:
failed = True
logger.error(_('delete: %s') % ex)
for res in deps:
if not failed:
try:
res.state_reset()
scheduler.TaskRunner(res.create)()
except exception.ResourceFailure as ex:
logger.exception(_('create'))
failed = True
else:
res.state_set(res.CREATE, res.FAILED,
'Resource restart aborted')
# TODO(asalkeld) if any of this fails we Should
# restart the whole stack
def get_availability_zones(self):
if self._zones is None:
self._zones = [
zone.zoneName for zone in
self.clients.nova().availability_zones.list(detailed=False)]
return self._zones
def set_deletion_policy(self, policy):
for res in self.resources.values():
res.set_deletion_policy(policy)
def set_stack_user_project_id(self, project_id):
self.stack_user_project_id = project_id
self.store()
def get_abandon_data(self):
return {
'name': self.name,
'id': self.id,
'action': self.action,
'status': self.status,
'template': self.t.t,
'resources': dict((res.name, res.get_abandon_data())
for res in self.resources.values())
}
def resolve_static_data(self, snippet):
return self.t.parse(self, snippet)
def resolve_runtime_data(self, snippet):
return function.resolve(snippet)