ca1009c327
Partially implements: blueprint mistral-advanced-publishing-global-vars Change-Id: I855e325db6309ce5a426ee71ba12db2ad17f3b9e
271 lines
8.0 KiB
Python
271 lines
8.0 KiB
Python
# Copyright 2015 - Mirantis, Inc.
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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 functools import partial
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from oslo_serialization import jsonutils
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from stevedore import extension
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import yaql
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from mistral.db.v2 import api as db_api
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from mistral import utils
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ROOT_YAQL_CONTEXT = None
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def get_yaql_context(data_context):
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global ROOT_YAQL_CONTEXT
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if not ROOT_YAQL_CONTEXT:
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ROOT_YAQL_CONTEXT = yaql.create_context()
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_register_yaql_functions(ROOT_YAQL_CONTEXT)
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new_ctx = ROOT_YAQL_CONTEXT.create_child_context()
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new_ctx['$'] = data_context
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if isinstance(data_context, dict):
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new_ctx['__env'] = data_context.get('__env')
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new_ctx['__execution'] = data_context.get('__execution')
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new_ctx['__task_execution'] = data_context.get('__task_execution')
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return new_ctx
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def get_jinja_context(data_context):
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new_ctx = {
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'_': data_context
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}
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_register_jinja_functions(new_ctx)
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if isinstance(data_context, dict):
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new_ctx['__env'] = data_context.get('__env')
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new_ctx['__execution'] = data_context.get('__execution')
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new_ctx['__task_execution'] = data_context.get('__task_execution')
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return new_ctx
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def get_custom_functions():
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"""Get custom functions
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Retrieves the list of custom evaluation functions
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"""
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functions = dict()
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mgr = extension.ExtensionManager(
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namespace='mistral.expression.functions',
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invoke_on_load=False
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)
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for name in mgr.names():
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functions[name] = mgr[name].plugin
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return functions
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def _register_yaql_functions(yaql_ctx):
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functions = get_custom_functions()
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for name in functions:
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yaql_ctx.register_function(functions[name], name=name)
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def _register_jinja_functions(jinja_ctx):
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functions = get_custom_functions()
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for name in functions:
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jinja_ctx[name] = partial(functions[name], jinja_ctx['_'])
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# Additional YAQL functions needed by Mistral.
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# If a function name ends with underscore then it doesn't need to pass
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# the name of the function when context registers it.
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def env_(context):
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return context['__env']
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def execution_(context):
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wf_ex = db_api.get_workflow_execution(context['__execution']['id'])
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return {
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'id': wf_ex.id,
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'name': wf_ex.name,
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'spec': wf_ex.spec,
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'input': wf_ex.input,
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'params': wf_ex.params,
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'created_at': wf_ex.created_at.isoformat(' ')
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}
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def json_pp_(context, data=None):
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return jsonutils.dumps(
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data or context,
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indent=4
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).replace("\\n", "\n").replace(" \n", "\n")
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def task_(context, task_name=None):
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# This section may not exist in a context if it's calculated not in
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# task scope.
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cur_task = context['__task_execution']
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# 1. If task_name is empty it's 'task()' use case, we need to get the
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# current task.
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# 2. if task_name is not empty but it's equal to the current task name
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# we need to take exactly the current instance of this task. Otherwise
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# there may be ambiguity if there are many tasks with this name.
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# 3. In other case we just find a task in DB by the given name.
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if cur_task and (not task_name or cur_task['name'] == task_name):
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task_ex = db_api.get_task_execution(cur_task['id'])
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else:
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task_execs = db_api.get_task_executions(
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workflow_execution_id=context['__execution']['id'],
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name=task_name
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)
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# TODO(rakhmerov): Account for multiple executions (i.e. in case of
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# cycles).
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task_ex = task_execs[-1] if len(task_execs) > 0 else None
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if not task_ex:
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return None
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# We don't use to_dict() db model method because not all fields
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# make sense for user.
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return _convert_to_user_model(task_ex)
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def _should_pass_filter(t, state, flat):
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# Start from assuming all is true, check only if needed.
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state_match = True
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flat_match = True
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if state:
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state_match = t['state'] == state
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if flat:
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is_action = t['type'] == utils.ACTION_TASK_TYPE
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if not is_action:
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nested_execs = db_api.get_workflow_executions(
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task_execution_id=t.id
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)
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for n in nested_execs:
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flat_match = flat_match and n.state != t.state
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return state_match and flat_match
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def _get_tasks_from_db(workflow_execution_id=None, recursive=False, state=None,
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flat=False):
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task_execs = []
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nested_task_exs = []
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kwargs = {}
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if workflow_execution_id:
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kwargs['workflow_execution_id'] = workflow_execution_id
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# We can't add state to query if we want to filter by workflow_execution_id
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# recursively. There might be a workflow_execution in one state with a
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# nested workflow execution that has a task in the desired state until we
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# have an optimization for queering all workflow executions under a given
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# top level workflow execution, this is the way to go.
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if state and not (workflow_execution_id and recursive):
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kwargs['state'] = state
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task_execs.extend(db_api.get_task_executions(**kwargs))
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# If it is not recursive no need to check nested workflows.
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# If there is no workflow execution id, we already have all we need, and
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# doing more queries will just create duplication in the results.
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if recursive and workflow_execution_id:
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for t in task_execs:
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if t.type == utils.WORKFLOW_TASK_TYPE:
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# Get nested workflow execution that matches the task.
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nested_workflow_executions = db_api.get_workflow_executions(
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task_execution_id=t.id
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)
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# There might be zero nested executions.
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for nested_workflow_execution in nested_workflow_executions:
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nested_task_exs.extend(
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_get_tasks_from_db(
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nested_workflow_execution.id,
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recursive,
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state,
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flat
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)
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)
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if state or flat:
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# Filter by state and flat.
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task_execs = [
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t for t in task_execs if _should_pass_filter(t, state, flat)
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]
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# The nested tasks were already filtered, since this is a recursion.
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task_execs.extend(nested_task_exs)
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return task_execs
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def tasks_(context, workflow_execution_id=None, recursive=False, state=None,
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flat=False):
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task_execs = _get_tasks_from_db(
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workflow_execution_id,
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recursive,
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state,
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flat
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)
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# Convert task_execs to user model and return.
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return [_convert_to_user_model(t) for t in task_execs]
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def _convert_to_user_model(task_ex):
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# Importing data_flow in order to break cycle dependency between modules.
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from mistral.workflow import data_flow
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# We don't use to_dict() db model method because not all fields
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# make sense for user.
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return {
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'id': task_ex.id,
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'name': task_ex.name,
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'spec': task_ex.spec,
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'state': task_ex.state,
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'state_info': task_ex.state_info,
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'result': data_flow.get_task_execution_result(task_ex),
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'published': task_ex.published,
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'type': task_ex.type,
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'workflow_execution_id': task_ex.workflow_execution_id
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}
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def uuid_(context=None):
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return utils.generate_unicode_uuid()
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def global_(context, var_name):
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wf_ex = db_api.get_workflow_execution(context['__execution']['id'])
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return wf_ex.context.get(var_name)
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