Source code for heat.engine.service_software_config

#
#    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 uuid

from oslo_log import log as logging
from oslo_serialization import jsonutils
from oslo_service import service
from oslo_utils import timeutils
import requests
import six
from six.moves.urllib import parse as urlparse

from heat.common import crypt
from heat.common import exception
from heat.common.i18n import _
from heat.common.i18n import _LI
from heat.db import api as db_api
from heat.engine import api
from heat.engine import scheduler
from heat.engine import software_config_io as swc_io
from heat.objects import resource as resource_objects
from heat.objects import software_config as software_config_object
from heat.objects import software_deployment as software_deployment_object
from heat.rpc import api as rpc_api

LOG = logging.getLogger(__name__)


[docs]class SoftwareConfigService(service.Service):
[docs] def show_software_config(self, cnxt, config_id): sc = software_config_object.SoftwareConfig.get_by_id(cnxt, config_id) return api.format_software_config(sc)
[docs] def list_software_configs(self, cnxt, limit=None, marker=None): scs = software_config_object.SoftwareConfig.get_all( cnxt, limit=limit, marker=marker) result = [api.format_software_config(sc, detail=False) for sc in scs] return result
[docs] def create_software_config(self, cnxt, group, name, config, inputs, outputs, options): swc_io.check_io_schema_list(inputs) in_conf = [swc_io.InputConfig(**i).as_dict() for i in inputs] swc_io.check_io_schema_list(outputs) out_conf = [swc_io.OutputConfig(**o).as_dict() for o in outputs] sc = software_config_object.SoftwareConfig.create(cnxt, { 'group': group, 'name': name, 'config': { rpc_api.SOFTWARE_CONFIG_INPUTS: in_conf, rpc_api.SOFTWARE_CONFIG_OUTPUTS: out_conf, rpc_api.SOFTWARE_CONFIG_OPTIONS: options, rpc_api.SOFTWARE_CONFIG_CONFIG: config }, 'tenant': cnxt.tenant_id}) return api.format_software_config(sc)
[docs] def delete_software_config(self, cnxt, config_id): software_config_object.SoftwareConfig.delete(cnxt, config_id)
[docs] def list_software_deployments(self, cnxt, server_id): all_sd = software_deployment_object.SoftwareDeployment.get_all( cnxt, server_id) result = [api.format_software_deployment(sd) for sd in all_sd] return result
[docs] def metadata_software_deployments(self, cnxt, server_id): if not server_id: raise ValueError(_('server_id must be specified')) all_sd = software_deployment_object.SoftwareDeployment.get_all( cnxt, server_id) # filter out the sds with None config flt_sd = six.moves.filterfalse(lambda sd: sd.config is None, all_sd) # sort the configs by config name, to give the list of metadata a # deterministic and controllable order. flt_sd_s = sorted(flt_sd, key=lambda sd: sd.config.name) result = [api.format_software_config(sd.config) for sd in flt_sd_s] return result
@resource_objects.retry_on_conflict def _push_metadata_software_deployments( self, cnxt, server_id, stack_user_project_id): rs = db_api.resource_get_by_physical_resource_id(cnxt, server_id) if not rs: return deployments = self.metadata_software_deployments(cnxt, server_id) md = rs.rsrc_metadata or {} md['deployments'] = deployments rows_updated = db_api.resource_update( cnxt, rs.id, {'rsrc_metadata': md}, rs.atomic_key) if not rows_updated: action = _('deployments of server %s') % server_id raise exception.ConcurrentTransaction(action=action) metadata_put_url = None metadata_queue_id = None for rd in rs.data: if rd.key == 'metadata_put_url': metadata_put_url = rd.value if rd.key == 'metadata_queue_id': metadata_queue_id = rd.value if metadata_put_url: json_md = jsonutils.dumps(md) requests.put(metadata_put_url, json_md) if metadata_queue_id: project = stack_user_project_id queue = self._get_zaqar_queue(cnxt, rs, project, metadata_queue_id) zaqar_plugin = cnxt.clients.client_plugin('zaqar') queue.post({'body': md, 'ttl': zaqar_plugin.DEFAULT_TTL}) def _refresh_swift_software_deployment(self, cnxt, sd, deploy_signal_id): container, object_name = urlparse.urlparse( deploy_signal_id).path.split('/')[-2:] swift_plugin = cnxt.clients.client_plugin('swift') swift = swift_plugin.client() try: headers = swift.head_object(container, object_name) except Exception as ex: # ignore not-found, in case swift is not consistent yet if swift_plugin.is_not_found(ex): LOG.info(_LI('Signal object not found: %(c)s %(o)s'), { 'c': container, 'o': object_name}) return sd raise lm = headers.get('last-modified') last_modified = swift_plugin.parse_last_modified(lm) prev_last_modified = sd.updated_at if prev_last_modified: # assume stored as utc, convert to offset-naive datetime prev_last_modified = prev_last_modified.replace(tzinfo=None) if prev_last_modified and (last_modified <= prev_last_modified): return sd try: (headers, obj) = swift.get_object(container, object_name) except Exception as ex: # ignore not-found, in case swift is not consistent yet if swift_plugin.is_not_found(ex): LOG.info(_LI( 'Signal object not found: %(c)s %(o)s'), { 'c': container, 'o': object_name}) return sd raise if obj: self.signal_software_deployment( cnxt, sd.id, jsonutils.loads(obj), last_modified.isoformat()) return software_deployment_object.SoftwareDeployment.get_by_id( cnxt, sd.id) def _get_zaqar_queue(self, cnxt, rs, project, queue_name): user = password = signed_url_data = None for rd in rs.data: if rd.key == 'password': password = crypt.decrypt(rd.decrypt_method, rd.value) if rd.key == 'user_id': user = rd.value if rd.key == 'zaqar_queue_signed_url_data': signed_url_data = jsonutils.loads(rd.value) zaqar_plugin = cnxt.clients.client_plugin('zaqar') if signed_url_data is None: keystone = cnxt.clients.client('keystone') token = keystone.stack_domain_user_token( user_id=user, project_id=project, password=password) zaqar = zaqar_plugin.create_for_tenant(project, token) else: signed_url_data.pop('project') zaqar = zaqar_plugin.create_from_signed_url(project, **signed_url_data) return zaqar.queue(queue_name) def _refresh_zaqar_software_deployment(self, cnxt, sd, deploy_queue_id): rs = db_api.resource_get_by_physical_resource_id(cnxt, sd.id) project = sd.stack_user_project_id queue = self._get_zaqar_queue(cnxt, rs, project, deploy_queue_id) messages = list(queue.pop()) if messages: self.signal_software_deployment( cnxt, sd.id, messages[0].body, None) return software_deployment_object.SoftwareDeployment.get_by_id( cnxt, sd.id)
[docs] def check_software_deployment(self, cnxt, deployment_id, timeout): def _check(): while True: sd = self._show_software_deployment(cnxt, deployment_id) if sd.status != rpc_api.SOFTWARE_DEPLOYMENT_IN_PROGRESS: return yield scheduler.TaskRunner(_check)(timeout=timeout) sd = software_deployment_object.SoftwareDeployment.get_by_id( cnxt, deployment_id) return api.format_software_deployment(sd)
def _show_software_deployment(self, cnxt, deployment_id): sd = software_deployment_object.SoftwareDeployment.get_by_id( cnxt, deployment_id) if sd.status == rpc_api.SOFTWARE_DEPLOYMENT_IN_PROGRESS: c = sd.config.config input_values = dict(swc_io.InputConfig(**i).input_data() for i in c[rpc_api.SOFTWARE_CONFIG_INPUTS]) transport = input_values.get('deploy_signal_transport') if transport == 'TEMP_URL_SIGNAL': sd = self._refresh_swift_software_deployment( cnxt, sd, input_values.get('deploy_signal_id')) elif transport == 'ZAQAR_SIGNAL': sd = self._refresh_zaqar_software_deployment( cnxt, sd, input_values.get('deploy_queue_id')) return sd
[docs] def show_software_deployment(self, cnxt, deployment_id): sd = self._show_software_deployment(cnxt, deployment_id) return api.format_software_deployment(sd)
[docs] def create_software_deployment(self, cnxt, server_id, config_id, input_values, action, status, status_reason, stack_user_project_id, deployment_id=None): if deployment_id is None: deployment_id = str(uuid.uuid4()) sd = software_deployment_object.SoftwareDeployment.create(cnxt, { 'id': deployment_id, 'config_id': config_id, 'server_id': server_id, 'input_values': input_values, 'tenant': cnxt.tenant_id, 'stack_user_project_id': stack_user_project_id, 'action': action, 'status': status, 'status_reason': status_reason}) self._push_metadata_software_deployments( cnxt, server_id, stack_user_project_id) return api.format_software_deployment(sd)
[docs] def signal_software_deployment(self, cnxt, deployment_id, details, updated_at): if not deployment_id: raise ValueError(_('deployment_id must be specified')) sd = software_deployment_object.SoftwareDeployment.get_by_id( cnxt, deployment_id) status = sd.status if not status == rpc_api.SOFTWARE_DEPLOYMENT_IN_PROGRESS: # output values are only expected when in an IN_PROGRESS state return details = details or {} output_status_code = rpc_api.SOFTWARE_DEPLOYMENT_OUTPUT_STATUS_CODE ov = sd.output_values or {} status = None status_reasons = {} status_code = details.get(output_status_code) if status_code and str(status_code) != '0': status = rpc_api.SOFTWARE_DEPLOYMENT_FAILED status_reasons[output_status_code] = _( 'Deployment exited with non-zero status code: %s' ) % details.get(output_status_code) event_reason = 'deployment %s failed (%s)' % (deployment_id, status_code) else: event_reason = 'deployment %s succeeded' % deployment_id for output in sd.config.config['outputs'] or []: out_key = output['name'] if out_key in details: ov[out_key] = details[out_key] if output.get('error_output', False): status = rpc_api.SOFTWARE_DEPLOYMENT_FAILED status_reasons[out_key] = details[out_key] event_reason = 'deployment %s failed' % deployment_id for out_key in rpc_api.SOFTWARE_DEPLOYMENT_OUTPUTS: ov[out_key] = details.get(out_key) if status == rpc_api.SOFTWARE_DEPLOYMENT_FAILED: # build a status reason out of all of the values of outputs # flagged as error_output status_reasons = [' : '.join((k, six.text_type(status_reasons[k]))) for k in status_reasons] status_reason = ', '.join(status_reasons) else: status = rpc_api.SOFTWARE_DEPLOYMENT_COMPLETE status_reason = _('Outputs received') self.update_software_deployment( cnxt, deployment_id=deployment_id, output_values=ov, status=status, status_reason=status_reason, config_id=None, input_values=None, action=None, updated_at=updated_at) # Return a string describing the outcome of handling the signal data return event_reason
[docs] def update_software_deployment(self, cnxt, deployment_id, config_id, input_values, output_values, action, status, status_reason, updated_at): update_data = {} if config_id: update_data['config_id'] = config_id if input_values: update_data['input_values'] = input_values if output_values: update_data['output_values'] = output_values if action: update_data['action'] = action if status: update_data['status'] = status if status_reason: update_data['status_reason'] = status_reason if updated_at: update_data['updated_at'] = timeutils.normalize_time( timeutils.parse_isotime(updated_at)) else: update_data['updated_at'] = timeutils.utcnow() sd = software_deployment_object.SoftwareDeployment.update_by_id( cnxt, deployment_id, update_data) # only push metadata if this update resulted in the config_id # changing, since metadata is just a list of configs if config_id: self._push_metadata_software_deployments( cnxt, sd.server_id, sd.stack_user_project_id) return api.format_software_deployment(sd)
[docs] def delete_software_deployment(self, cnxt, deployment_id): sd = software_deployment_object.SoftwareDeployment.get_by_id( cnxt, deployment_id) software_deployment_object.SoftwareDeployment.delete( cnxt, deployment_id) self._push_metadata_software_deployments( cnxt, sd.server_id, sd.stack_user_project_id)

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