3b4136ff1e
* Added the new property 'execution_integrity_check_batch_size' under the [engine] group to limit the number of task executions that the integrity checker may process during one iteration. Closes-Bug: #1801876 Change-Id: I3c5074c45c476ebff109617cb15d56c54575dd4f
283 lines
8.8 KiB
Python
283 lines
8.8 KiB
Python
# Copyright 2016 - Nokia Networks.
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# Copyright 2016 - Brocade Communications Systems, Inc.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain 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,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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from oslo_config import cfg
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from oslo_log import log as logging
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from oslo_utils import timeutils
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from osprofiler import profiler
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import traceback as tb
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from mistral.db.v2 import api as db_api
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from mistral.engine import post_tx_queue
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from mistral.engine import workflows
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from mistral import exceptions as exc
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from mistral.services import scheduler
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from mistral.workflow import states
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LOG = logging.getLogger(__name__)
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CONF = cfg.CONF
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_CHECK_AND_FIX_INTEGRITY_PATH = (
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'mistral.engine.workflow_handler._check_and_fix_integrity'
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)
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@profiler.trace('workflow-handler-start-workflow', hide_args=True)
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def start_workflow(wf_identifier, wf_namespace, wf_ex_id, wf_input, desc,
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params):
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wf = workflows.Workflow()
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wf_def = db_api.get_workflow_definition(wf_identifier, wf_namespace)
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if 'namespace' not in params:
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params['namespace'] = wf_def.namespace
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wf.start(
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wf_def=wf_def,
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wf_ex_id=wf_ex_id,
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input_dict=wf_input,
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desc=desc,
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params=params
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)
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_schedule_check_and_fix_integrity(wf.wf_ex, delay=10)
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return wf.wf_ex
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def stop_workflow(wf_ex, state, msg=None):
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wf = workflows.Workflow(wf_ex=wf_ex)
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# In this case we should not try to handle possible errors. Instead,
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# we need to let them pop up since the typical way of failing objects
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# doesn't work here. Failing a workflow is the same as stopping it
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# with ERROR state.
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wf.stop(state, msg)
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# Cancels subworkflows.
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if state == states.CANCELLED:
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for task_ex in wf_ex.task_executions:
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sub_wf_exs = db_api.get_workflow_executions(
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task_execution_id=task_ex.id
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)
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for sub_wf_ex in sub_wf_exs:
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if not states.is_completed(sub_wf_ex.state):
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stop_workflow(sub_wf_ex, state, msg=msg)
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def force_fail_workflow(wf_ex, msg=None):
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stop_workflow(wf_ex, states.ERROR, msg)
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def cancel_workflow(wf_ex, msg=None):
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stop_workflow(wf_ex, states.CANCELLED, msg)
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@profiler.trace('workflow-handler-check-and-complete', hide_args=True)
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def check_and_complete(wf_ex_id):
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wf_ex = db_api.load_workflow_execution(wf_ex_id)
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if not wf_ex or states.is_completed(wf_ex.state):
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return
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wf = workflows.Workflow(wf_ex=wf_ex)
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try:
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wf.check_and_complete()
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except exc.MistralException as e:
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msg = (
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"Failed to check and complete [wf_ex_id=%s, wf_name=%s]:"
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" %s\n%s" % (wf_ex_id, wf_ex.name, e, tb.format_exc())
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)
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LOG.error(msg)
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force_fail_workflow(wf.wf_ex, msg)
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@post_tx_queue.run
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@profiler.trace('workflow-handler-check-and-fix-integrity')
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def _check_and_fix_integrity(wf_ex_id):
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check_after_seconds = CONF.engine.execution_integrity_check_delay
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if check_after_seconds < 0:
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# Never check integrity if it's a negative value.
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return
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# To break cyclic dependency.
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from mistral.engine import task_handler
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with db_api.transaction():
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wf_ex = db_api.get_workflow_execution(wf_ex_id)
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if states.is_completed(wf_ex.state):
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return
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_schedule_check_and_fix_integrity(wf_ex, delay=120)
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running_task_execs = db_api.get_task_executions(
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workflow_execution_id=wf_ex.id,
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state=states.RUNNING,
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limit=CONF.engine.execution_integrity_check_batch_size
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)
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for t_ex in running_task_execs:
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# The idea is that we take the latest known timestamp of the task
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# execution and consider it eligible for checking and fixing only
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# if some minimum period of time elapsed since the last update.
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timestamp = t_ex.updated_at or t_ex.created_at
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delta = timeutils.delta_seconds(timestamp, timeutils.utcnow())
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if delta < check_after_seconds:
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continue
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child_executions = t_ex.executions
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if not child_executions:
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continue
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all_finished = all(
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[states.is_completed(c_ex.state) for c_ex in child_executions]
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)
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if all_finished:
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# Find the timestamp of the most recently finished child.
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most_recent_child_timestamp = max(
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[c_ex.updated_at or c_ex.created_at for c_ex in
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child_executions]
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)
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interval = timeutils.delta_seconds(
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most_recent_child_timestamp,
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timeutils.utcnow()
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)
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if interval > check_after_seconds:
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# We found a task execution in RUNNING state for which all
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# child executions are finished. We need to call
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# "schedule_on_action_complete" on the task handler for
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# any of the child executions so that the task state is
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# calculated and updated properly.
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LOG.warning(
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"Found a task execution that is likely stuck in"
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" RUNNING state because all child executions are"
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" finished, will try to recover [task_execution=%s]",
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t_ex.id
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)
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task_handler.schedule_on_action_complete(
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child_executions[-1]
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)
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def pause_workflow(wf_ex, msg=None):
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# Pause subworkflows first.
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for task_ex in wf_ex.task_executions:
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sub_wf_exs = db_api.get_workflow_executions(
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task_execution_id=task_ex.id
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)
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for sub_wf_ex in sub_wf_exs:
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if not states.is_completed(sub_wf_ex.state):
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pause_workflow(sub_wf_ex, msg=msg)
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# If all subworkflows paused successfully, pause the main workflow.
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# If any subworkflows failed to pause for temporary reason, this
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# allows pause to be executed again on the main workflow.
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wf = workflows.Workflow(wf_ex=wf_ex)
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wf.pause(msg=msg)
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def rerun_workflow(wf_ex, task_ex, reset=True, env=None):
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if wf_ex.state == states.PAUSED:
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return wf_ex.get_clone()
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wf = workflows.Workflow(wf_ex=wf_ex)
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wf.rerun(task_ex, reset=reset, env=env)
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_schedule_check_and_fix_integrity(
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wf_ex,
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delay=CONF.engine.execution_integrity_check_delay
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)
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if wf_ex.task_execution_id:
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_schedule_check_and_fix_integrity(
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wf_ex.task_execution.workflow_execution,
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delay=CONF.engine.execution_integrity_check_delay
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)
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def resume_workflow(wf_ex, env=None):
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if not states.is_paused_or_idle(wf_ex.state):
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return wf_ex.get_clone()
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# Resume subworkflows first.
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for task_ex in wf_ex.task_executions:
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sub_wf_exs = db_api.get_workflow_executions(
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task_execution_id=task_ex.id
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)
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for sub_wf_ex in sub_wf_exs:
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if not states.is_completed(sub_wf_ex.state):
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resume_workflow(sub_wf_ex)
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# Resume current workflow here so to trigger continue workflow only
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# after all other subworkflows are placed back in running state.
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wf = workflows.Workflow(wf_ex=wf_ex)
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wf.resume(env=env)
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@profiler.trace('workflow-handler-set-state', hide_args=True)
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def set_workflow_state(wf_ex, state, msg=None):
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if states.is_completed(state):
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stop_workflow(wf_ex, state, msg)
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elif states.is_paused(state):
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pause_workflow(wf_ex, msg)
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else:
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raise exc.MistralError(
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'Invalid workflow execution state [wf_ex_id=%s, wf_name=%s, '
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'state=%s]' % (wf_ex.id, wf_ex.name, state)
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)
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def _get_integrity_check_key(wf_ex):
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return 'wfh_c_a_f_i-%s' % wf_ex.id
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@profiler.trace('workflow-handler-schedule-check-and-complete', hide_args=True)
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def _schedule_check_and_fix_integrity(wf_ex, delay=0):
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"""Schedules workflow integrity check.
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:param wf_ex: Workflow execution.
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:param delay: Minimum amount of time before the check should be made.
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"""
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if CONF.engine.execution_integrity_check_delay < 0:
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# Never check integrity if it's a negative value.
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return
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key = _get_integrity_check_key(wf_ex)
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scheduler.schedule_call(
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None,
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_CHECK_AND_FIX_INTEGRITY_PATH,
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delay,
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key=key,
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wf_ex_id=wf_ex.id
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)
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