heat.engine.api

Source code for heat.engine.api

#
#    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

from oslo_log import log as logging
from oslo_utils import timeutils
import six

from heat.common.i18n import _
from heat.common import param_utils
from heat.common import template_format
from heat.common import timeutils as heat_timeutils
from heat.engine import constraints as constr
from heat.rpc import api as rpc_api

LOG = logging.getLogger(__name__)


[docs]def extract_args(params): """Extract arguments passed as parameters and return them as a dictionary. Extract any arguments passed as parameters through the API and return them as a dictionary. This allows us to filter the passed args and do type conversion where appropriate """ kwargs = {} timeout_mins = params.get(rpc_api.PARAM_TIMEOUT) if timeout_mins not in ('0', 0, None): try: timeout = int(timeout_mins) except (ValueError, TypeError): LOG.exception('Timeout conversion failed') else: if timeout > 0: kwargs[rpc_api.PARAM_TIMEOUT] = timeout else: raise ValueError(_('Invalid timeout value %s') % timeout) for name in [rpc_api.PARAM_CONVERGE, rpc_api.PARAM_DISABLE_ROLLBACK]: if name in params: bool_value = param_utils.extract_bool(name, params[name]) kwargs[name] = bool_value name = rpc_api.PARAM_SHOW_DELETED if name in params: params[name] = param_utils.extract_bool(name, params[name]) adopt_data = params.get(rpc_api.PARAM_ADOPT_STACK_DATA) if adopt_data: try: adopt_data = template_format.simple_parse(adopt_data) except ValueError as exc: raise ValueError(_('Invalid adopt data: %s') % exc) kwargs[rpc_api.PARAM_ADOPT_STACK_DATA] = adopt_data tags = params.get(rpc_api.PARAM_TAGS) if tags: if not isinstance(tags, list): raise ValueError(_('Invalid tags, not a list: %s') % tags) for tag in tags: if not isinstance(tag, six.string_types): raise ValueError(_('Invalid tag, "%s" is not a string') % tag) if len(tag) > 80: raise ValueError(_('Invalid tag, "%s" is longer than 80 ' 'characters') % tag) # Comma is not allowed as per the API WG tagging guidelines if ',' in tag: raise ValueError(_('Invalid tag, "%s" contains a comma') % tag) kwargs[rpc_api.PARAM_TAGS] = tags return kwargs
def _parse_object_status(status): """Parse input status into action and status if possible. This function parses a given string (or list of strings) and see if it contains the action part. The action part is exacted if found. :param status: A string or a list of strings where each string contains a status to be checked. :returns: (actions, statuses) tuple, where actions is a set of actions extracted from the input status and statuses is a set of pure object status. """ if not isinstance(status, list): status = [status] status_set = set() action_set = set() for val in status: # Note: cannot reference Stack.STATUSES due to circular reference issue for s in ('COMPLETE', 'FAILED', 'IN_PROGRESS'): index = val.rfind(s) if index != -1: status_set.add(val[index:]) if index > 1: action_set.add(val[:index - 1]) break return action_set, status_set
[docs]def translate_filters(params): """Translate filter names to their corresponding DB field names. :param params: A dictionary containing keys from engine.api.STACK_KEYS and other keys previously leaked to users. :returns: A dict containing only valid DB filed names. """ key_map = { rpc_api.STACK_NAME: 'name', rpc_api.STACK_ACTION: 'action', rpc_api.STACK_STATUS: 'status', rpc_api.STACK_STATUS_DATA: 'status_reason', rpc_api.STACK_DISABLE_ROLLBACK: 'disable_rollback', rpc_api.STACK_TIMEOUT: 'timeout', rpc_api.STACK_OWNER: 'username', rpc_api.STACK_PARENT: 'owner_id', rpc_api.STACK_USER_PROJECT_ID: 'stack_user_project_id' } for key, field in key_map.items(): value = params.pop(key, None) if not value: continue fld_value = params.get(field, None) if fld_value: if not isinstance(fld_value, list): fld_value = [fld_value] if not isinstance(value, list): value = [value] value.extend(fld_value) params[field] = value # Deal with status which might be of form <ACTION>_<STATUS>, e.g. # "CREATE_FAILED". Note this logic is still not ideal due to the fact # that action and status are stored separately. if 'status' in params: a_set, s_set = _parse_object_status(params['status']) statuses = sorted(s_set) params['status'] = statuses[0] if len(statuses) == 1 else statuses if a_set: a = params.get('action', []) action_set = set(a) if isinstance(a, list) else set([a]) actions = sorted(action_set.union(a_set)) params['action'] = actions[0] if len(actions) == 1 else actions return params
[docs]def format_stack_outputs(outputs, resolve_value=False): """Return a representation of the given output template. Return a representation of the given output template for the given stack that matches the API output expectations. """ return [format_stack_output(outputs[key], resolve_value=resolve_value) for key in outputs]
[docs]def format_stack_output(output_defn, resolve_value=True): result = { rpc_api.OUTPUT_KEY: output_defn.name, rpc_api.OUTPUT_DESCRIPTION: output_defn.description(), } if resolve_value: value = None try: value = output_defn.get_value() except Exception as ex: # We don't need error raising, just adding output_error to # resulting dict. result.update({rpc_api.OUTPUT_ERROR: six.text_type(ex)}) finally: result.update({rpc_api.OUTPUT_VALUE: value}) return result
[docs]def format_stack(stack, preview=False, resolve_outputs=True): """Return a representation of the given stack. Return a representation of the given stack that matches the API output expectations. """ updated_time = heat_timeutils.isotime(stack.updated_time) created_time = heat_timeutils.isotime(stack.created_time or timeutils.utcnow()) deleted_time = heat_timeutils.isotime(stack.deleted_time) info = { rpc_api.STACK_NAME: stack.name, rpc_api.STACK_ID: dict(stack.identifier()), rpc_api.STACK_CREATION_TIME: created_time, rpc_api.STACK_UPDATED_TIME: updated_time, rpc_api.STACK_DELETION_TIME: deleted_time, rpc_api.STACK_NOTIFICATION_TOPICS: [], # TODO(therve) Not implemented rpc_api.STACK_PARAMETERS: stack.parameters.map(six.text_type), rpc_api.STACK_DESCRIPTION: stack.t[stack.t.DESCRIPTION], rpc_api.STACK_TMPL_DESCRIPTION: stack.t[stack.t.DESCRIPTION], rpc_api.STACK_CAPABILITIES: [], # TODO(?) Not implemented yet rpc_api.STACK_DISABLE_ROLLBACK: stack.disable_rollback, rpc_api.STACK_TIMEOUT: stack.timeout_mins, rpc_api.STACK_OWNER: stack.username, rpc_api.STACK_PARENT: stack.owner_id, rpc_api.STACK_USER_PROJECT_ID: stack.stack_user_project_id, rpc_api.STACK_TAGS: stack.tags, } if not preview: update_info = { rpc_api.STACK_ACTION: stack.action or '', rpc_api.STACK_STATUS: stack.status or '', rpc_api.STACK_STATUS_DATA: stack.status_reason, } info.update(update_info) # allow users to view the outputs of stacks if stack.action != stack.DELETE and resolve_outputs: info[rpc_api.STACK_OUTPUTS] = format_stack_outputs(stack.outputs, resolve_value=True) return info
[docs]def format_stack_db_object(stack): """Return a summary representation of the given stack. Given a stack versioned db object, return a representation of the given stack for a stack listing. """ updated_time = heat_timeutils.isotime(stack.updated_at) created_time = heat_timeutils.isotime(stack.created_at) deleted_time = heat_timeutils.isotime(stack.deleted_at) tags = None if stack.tags: tags = [t.tag for t in stack.tags] info = { rpc_api.STACK_ID: dict(stack.identifier()), rpc_api.STACK_NAME: stack.name, rpc_api.STACK_DESCRIPTION: '', rpc_api.STACK_ACTION: stack.action, rpc_api.STACK_STATUS: stack.status, rpc_api.STACK_STATUS_DATA: stack.status_reason, rpc_api.STACK_CREATION_TIME: created_time, rpc_api.STACK_UPDATED_TIME: updated_time, rpc_api.STACK_DELETION_TIME: deleted_time, rpc_api.STACK_OWNER: stack.username, rpc_api.STACK_PARENT: stack.owner_id, rpc_api.STACK_USER_PROJECT_ID: stack.stack_user_project_id, rpc_api.STACK_TAGS: tags, } return info
[docs]def format_resource_attributes(resource, with_attr=None): resolver = resource.attributes if not with_attr: with_attr = [] # Always return live values for consistency resolver.reset_resolved_values() def resolve(attr, resolver): try: return resolver._resolver(attr) except Exception: return None # if 'show' in attributes_schema, will resolve all attributes of resource # including the ones are not represented in response of show API, such as # 'console_urls' for nova server, user can view it by taking with_attr # parameter if 'show' in resolver: show_attr = resolve('show', resolver) # check if 'show' resolved to dictionary. so it's not None if isinstance(show_attr, collections.Mapping): for a in with_attr: if a not in show_attr: show_attr[a] = resolve(a, resolver) return show_attr else: # remove 'show' attribute if it's None or not a mapping # then resolve all attributes manually del resolver._attributes['show'] attributes = set(resolver) | set(with_attr) return dict((attr, resolve(attr, resolver)) for attr in attributes)
[docs]def format_resource_properties(resource): def get_property(prop): try: return resource.properties[prop] except (KeyError, ValueError): return None return dict((prop, get_property(prop)) for prop in resource.properties_schema.keys())
[docs]def format_stack_resource(resource, detail=True, with_props=False, with_attr=None): """Return a representation of the given resource. Return a representation of the given resource that matches the API output expectations. """ created_time = heat_timeutils.isotime(resource.created_time) last_updated_time = heat_timeutils.isotime( resource.updated_time or resource.created_time) res = { rpc_api.RES_UPDATED_TIME: last_updated_time, rpc_api.RES_CREATION_TIME: created_time, rpc_api.RES_NAME: resource.name, rpc_api.RES_PHYSICAL_ID: resource.resource_id or '', rpc_api.RES_ACTION: resource.action, rpc_api.RES_STATUS: resource.status, rpc_api.RES_STATUS_DATA: resource.status_reason, rpc_api.RES_TYPE: resource.type(), rpc_api.RES_ID: dict(resource.identifier()), rpc_api.RES_STACK_ID: dict(resource.stack.identifier()), rpc_api.RES_STACK_NAME: resource.stack.name, rpc_api.RES_REQUIRED_BY: resource.required_by(), } if resource.has_nested(): res[rpc_api.RES_NESTED_STACK_ID] = dict(resource.nested_identifier()) if resource.stack.parent_resource_name: res[rpc_api.RES_PARENT_RESOURCE] = resource.stack.parent_resource_name if detail: res[rpc_api.RES_DESCRIPTION] = resource.t.description res[rpc_api.RES_METADATA] = resource.metadata_get() if with_attr is not False: res[rpc_api.RES_ATTRIBUTES] = format_resource_attributes( resource, with_attr) if with_props: res[rpc_api.RES_PROPERTIES] = format_resource_properties( resource) return res
[docs]def format_stack_preview(stack): def format_resource(res): if isinstance(res, list): return list(map(format_resource, res)) return format_stack_resource(res, with_props=True) fmt_stack = format_stack(stack, preview=True) fmt_resources = list(map(format_resource, stack.preview_resources())) fmt_stack['resources'] = fmt_resources return fmt_stack
[docs]def format_event(event, stack_identifier, root_stack_identifier=None, include_rsrc_prop_data=True): result = { rpc_api.EVENT_ID: dict(event.identifier(stack_identifier)), rpc_api.EVENT_STACK_ID: dict(stack_identifier), rpc_api.EVENT_STACK_NAME: stack_identifier.stack_name, rpc_api.EVENT_TIMESTAMP: heat_timeutils.isotime(event.created_at), rpc_api.EVENT_RES_NAME: event.resource_name, rpc_api.EVENT_RES_PHYSICAL_ID: event.physical_resource_id, rpc_api.EVENT_RES_ACTION: event.resource_action, rpc_api.EVENT_RES_STATUS: event.resource_status, rpc_api.EVENT_RES_STATUS_DATA: event.resource_status_reason, rpc_api.EVENT_RES_TYPE: event.resource_type, } if root_stack_identifier: result[rpc_api.EVENT_ROOT_STACK_ID] = dict(root_stack_identifier) if include_rsrc_prop_data: result[rpc_api.EVENT_RES_PROPERTIES] = event.resource_properties return result
[docs]def format_notification_body(stack): # some other possibilities here are: # - template name # - template size # - resource count if stack.status is not None and stack.action is not None: state = '_'.join(stack.state) else: state = 'Unknown' updated_at = heat_timeutils.isotime(stack.updated_time) result = { rpc_api.NOTIFY_TENANT_ID: stack.context.tenant_id, rpc_api.NOTIFY_USER_ID: stack.context.username, # deprecated: please use rpc_api.NOTIFY_USERID for user id or # rpc_api.NOTIFY_USERNAME for user name. rpc_api.NOTIFY_USERID: stack.context.user_id, rpc_api.NOTIFY_USERNAME: stack.context.username, rpc_api.NOTIFY_STACK_ID: stack.id, rpc_api.NOTIFY_STACK_NAME: stack.name, rpc_api.NOTIFY_STATE: state, rpc_api.NOTIFY_STATE_REASON: stack.status_reason, rpc_api.NOTIFY_CREATE_AT: heat_timeutils.isotime(stack.created_time), rpc_api.NOTIFY_TAGS: stack.tags, rpc_api.NOTIFY_UPDATE_AT: updated_at } if stack.t is not None: result[rpc_api.NOTIFY_DESCRIPTION] = stack.t[stack.t.DESCRIPTION] return result
[docs]def format_watch(watch): updated_time = heat_timeutils.isotime(watch.updated_at or timeutils.utcnow()) result = { rpc_api.WATCH_ACTIONS_ENABLED: watch.rule.get( rpc_api.RULE_ACTIONS_ENABLED), rpc_api.WATCH_ALARM_ACTIONS: watch.rule.get( rpc_api.RULE_ALARM_ACTIONS), rpc_api.WATCH_TOPIC: watch.rule.get(rpc_api.RULE_TOPIC), rpc_api.WATCH_UPDATED_TIME: updated_time, rpc_api.WATCH_DESCRIPTION: watch.rule.get(rpc_api.RULE_DESCRIPTION), rpc_api.WATCH_NAME: watch.name, rpc_api.WATCH_COMPARISON: watch.rule.get(rpc_api.RULE_COMPARISON), rpc_api.WATCH_DIMENSIONS: watch.rule.get( rpc_api.RULE_DIMENSIONS) or [], rpc_api.WATCH_PERIODS: watch.rule.get(rpc_api.RULE_PERIODS), rpc_api.WATCH_INSUFFICIENT_ACTIONS: watch.rule.get(rpc_api.RULE_INSUFFICIENT_ACTIONS), rpc_api.WATCH_METRIC_NAME: watch.rule.get(rpc_api.RULE_METRIC_NAME), rpc_api.WATCH_NAMESPACE: watch.rule.get(rpc_api.RULE_NAMESPACE), rpc_api.WATCH_OK_ACTIONS: watch.rule.get(rpc_api.RULE_OK_ACTIONS), rpc_api.WATCH_PERIOD: watch.rule.get(rpc_api.RULE_PERIOD), rpc_api.WATCH_STATE_REASON: watch.rule.get(rpc_api.RULE_STATE_REASON), rpc_api.WATCH_STATE_REASON_DATA: watch.rule.get(rpc_api.RULE_STATE_REASON_DATA), rpc_api.WATCH_STATE_UPDATED_TIME: heat_timeutils.isotime( watch.rule.get(rpc_api.RULE_STATE_UPDATED_TIME, timeutils.utcnow())), rpc_api.WATCH_STATE_VALUE: watch.state, rpc_api.WATCH_STATISTIC: watch.rule.get(rpc_api.RULE_STATISTIC), rpc_api.WATCH_THRESHOLD: watch.rule.get(rpc_api.RULE_THRESHOLD), rpc_api.WATCH_UNIT: watch.rule.get(rpc_api.RULE_UNIT), rpc_api.WATCH_STACK_ID: watch.stack_id } return result
[docs]def format_watch_data(wd, rule_names): # Demangle DB format data into something more easily used in the API # We are expecting a dict with exactly two items, Namespace and # a metric key namespace = wd.data['Namespace'] metric = [(k, v) for k, v in wd.data.items() if k != 'Namespace'] if len(metric) == 1: metric_name, metric_data = metric[0] else: LOG.error("Unexpected number of keys in watch_data.data!") return result = { rpc_api.WATCH_DATA_ALARM: rule_names.get(wd.watch_rule_id), rpc_api.WATCH_DATA_METRIC: metric_name, rpc_api.WATCH_DATA_TIME: heat_timeutils.isotime(wd.created_at), rpc_api.WATCH_DATA_NAMESPACE: namespace, rpc_api.WATCH_DATA: metric_data } return result
[docs]def format_validate_parameter(param): """Format a template parameter for validate template API call. Formats a template parameter and its schema information from the engine's internal representation (i.e. a Parameter object and its associated Schema object) to a representation expected by the current API (for example to be compatible to CFN syntax). """ # map of Schema object types to API expected types schema_to_api_types = { param.schema.STRING: rpc_api.PARAM_TYPE_STRING, param.schema.NUMBER: rpc_api.PARAM_TYPE_NUMBER, param.schema.LIST: rpc_api.PARAM_TYPE_COMMA_DELIMITED_LIST, param.schema.MAP: rpc_api.PARAM_TYPE_JSON, param.schema.BOOLEAN: rpc_api.PARAM_TYPE_BOOLEAN } res = { rpc_api.PARAM_TYPE: schema_to_api_types.get(param.schema.type, param.schema.type), rpc_api.PARAM_DESCRIPTION: param.description(), rpc_api.PARAM_NO_ECHO: 'true' if param.hidden() else 'false', rpc_api.PARAM_LABEL: param.label() } if param.has_default(): res[rpc_api.PARAM_DEFAULT] = param.default() if param.user_value: res[rpc_api.PARAM_VALUE] = param.user_value constraint_description = [] # build constraints for c in param.schema.constraints: if isinstance(c, constr.Length): if c.min is not None: res[rpc_api.PARAM_MIN_LENGTH] = c.min if c.max is not None: res[rpc_api.PARAM_MAX_LENGTH] = c.max elif isinstance(c, constr.Range): if c.min is not None: res[rpc_api.PARAM_MIN_VALUE] = c.min if c.max is not None: res[rpc_api.PARAM_MAX_VALUE] = c.max elif isinstance(c, constr.Modulo): if c.step is not None: res[rpc_api.PARAM_STEP] = c.step if c.offset is not None: res[rpc_api.PARAM_OFFSET] = c.offset elif isinstance(c, constr.AllowedValues): res[rpc_api.PARAM_ALLOWED_VALUES] = list(c.allowed) elif isinstance(c, constr.AllowedPattern): res[rpc_api.PARAM_ALLOWED_PATTERN] = c.pattern elif isinstance(c, constr.CustomConstraint): res[rpc_api.PARAM_CUSTOM_CONSTRAINT] = c.name if c.description: constraint_description.append(c.description) if constraint_description: res[rpc_api.PARAM_CONSTRAINT_DESCRIPTION] = " ".join( constraint_description) return res
[docs]def format_software_config(sc, detail=True, include_project=False): if sc is None: return result = { rpc_api.SOFTWARE_CONFIG_ID: sc.id, rpc_api.SOFTWARE_CONFIG_NAME: sc.name, rpc_api.SOFTWARE_CONFIG_GROUP: sc.group, rpc_api.SOFTWARE_CONFIG_CREATION_TIME: heat_timeutils.isotime(sc.created_at) } if detail: result[rpc_api.SOFTWARE_CONFIG_CONFIG] = sc.config['config'] result[rpc_api.SOFTWARE_CONFIG_INPUTS] = sc.config['inputs'] result[rpc_api.SOFTWARE_CONFIG_OUTPUTS] = sc.config['outputs'] result[rpc_api.SOFTWARE_CONFIG_OPTIONS] = sc.config['options'] if include_project: result[rpc_api.SOFTWARE_CONFIG_PROJECT] = sc.tenant return result
[docs]def format_software_deployment(sd): if sd is None: return result = { rpc_api.SOFTWARE_DEPLOYMENT_ID: sd.id, rpc_api.SOFTWARE_DEPLOYMENT_SERVER_ID: sd.server_id, rpc_api.SOFTWARE_DEPLOYMENT_INPUT_VALUES: sd.input_values, rpc_api.SOFTWARE_DEPLOYMENT_OUTPUT_VALUES: sd.output_values, rpc_api.SOFTWARE_DEPLOYMENT_ACTION: sd.action, rpc_api.SOFTWARE_DEPLOYMENT_STATUS: sd.status, rpc_api.SOFTWARE_DEPLOYMENT_STATUS_REASON: sd.status_reason, rpc_api.SOFTWARE_DEPLOYMENT_CONFIG_ID: sd.config.id, rpc_api.SOFTWARE_DEPLOYMENT_CREATION_TIME: heat_timeutils.isotime(sd.created_at), } if sd.updated_at: result[rpc_api.SOFTWARE_DEPLOYMENT_UPDATED_TIME] = ( heat_timeutils.isotime(sd.updated_at)) return result
[docs]def format_snapshot(snapshot): if snapshot is None: return result = { rpc_api.SNAPSHOT_ID: snapshot.id, rpc_api.SNAPSHOT_NAME: snapshot.name, rpc_api.SNAPSHOT_STATUS: snapshot.status, rpc_api.SNAPSHOT_STATUS_REASON: snapshot.status_reason, rpc_api.SNAPSHOT_DATA: snapshot.data, rpc_api.SNAPSHOT_CREATION_TIME: heat_timeutils.isotime(snapshot.created_at), } return result
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