Merge "Fix 'pause' engine command"

mistral/engine/dispatcher.py

@@ -20,6 +20,8 @@ from mistral import exceptions as exc
 from mistral.workflow import commands
 from mistral.workflow import states
 
+BACKLOG_KEY = 'backlog_commands'
+
 
 def _compare_task_commands(a, b):
     if not isinstance(a, commands.RunTask) or not a.is_waiting():
@@ -67,7 +69,8 @@ def _rearrange_commands(cmds):
         cmds.sort(key=functools.cmp_to_key(_compare_task_commands))
 
         return cmds
-    elif state_cmd_idx == 0:
+    elif (state_cmd_idx == 0 and
+            not isinstance(state_cmd, commands.PauseWorkflow)):
         return cmds[0:1]
 
     res = cmds[0:state_cmd_idx]
@@ -76,26 +79,66 @@ def _rearrange_commands(cmds):
 
     res.append(state_cmd)
 
+    # If the previously found state changing command is 'pause' then we need
+    # to also add a tail of the initial command list to the result so that
+    # we can save them to the command backlog.
+    if isinstance(state_cmd, commands.PauseWorkflow):
+        res.extend(cmds[state_cmd_idx + 1:])
+
     return res
 
 
+def _save_command_to_backlog(wf_ex, cmd):
+    backlog_cmds = wf_ex.runtime_context.get(BACKLOG_KEY, [])
+
+    if not backlog_cmds:
+        wf_ex.runtime_context[BACKLOG_KEY] = backlog_cmds
+
+    backlog_cmds.append(cmd.to_dict())
+
+
+def _poll_commands_from_backlog(wf_ex):
+    backlog_cmds = wf_ex.runtime_context.pop(BACKLOG_KEY, [])
+
+    if not backlog_cmds:
+        return []
+
+    return [
+        commands.restore_command_from_dict(wf_ex, cmd_dict)
+        for cmd_dict in backlog_cmds
+    ]
+
+
 @profiler.trace('dispatcher-dispatch-commands', hide_args=True)
 def dispatch_workflow_commands(wf_ex, wf_cmds):
-    # TODO(rakhmerov): I don't like these imports but otherwise we have
+    # Run commands from the backlog.
-    # import cycles.
+    _process_commands(wf_ex, _poll_commands_from_backlog(wf_ex))
+
+    # Run new commands.
+    _process_commands(wf_ex, wf_cmds)
+
+
+def _process_commands(wf_ex, cmds):
+    if not cmds:
+        return
+
     from mistral.engine import task_handler
     from mistral.engine import workflow_handler as wf_handler
 
-    if not wf_cmds:
+    for cmd in _rearrange_commands(cmds):
-        return
+        if states.is_completed(wf_ex.state):
+            break
+
+        if wf_ex.state == states.PAUSED:
+            # Save all commands after 'pause' to the backlog so that
+            # they can be processed after the workflow is resumed.
+            _save_command_to_backlog(wf_ex, cmd)
+
+            continue
 
-    for cmd in _rearrange_commands(wf_cmds):
         if isinstance(cmd, (commands.RunTask, commands.RunExistingTask)):
             task_handler.run_task(cmd)
         elif isinstance(cmd, commands.SetWorkflowState):
             wf_handler.set_workflow_state(wf_ex, cmd.new_state, cmd.msg)
         else:
             raise exc.MistralError('Unsupported workflow command: %s' % cmd)
-
-        if wf_ex.state != states.RUNNING:
-            break

mistral/engine/policies.py

@@ -260,9 +260,9 @@ class WaitAfterPolicy(base.TaskPolicy):
         end_state = task_ex.state
         end_state_info = task_ex.state_info
 
-        # TODO(rakhmerov): Policies probably needs to have tasks.Task
+        # TODO(rakhmerov): Policies probably need to have tasks.Task
-        # interface in order to change manage task state safely.
+        # interface in order to manage task state safely.
-        # Set task state to 'DELAYED'.
+        # Set task state to 'RUNNING_DELAYED'.
         task_ex.state = states.RUNNING_DELAYED
         task_ex.state_info = (
             'Suspended by wait-after policy for %s seconds' % self.delay
@@ -391,6 +391,7 @@ class RetryPolicy(base.TaskPolicy):
         _log_task_delay(task_ex, self.delay)
 
         data_flow.invalidate_task_execution_result(task_ex)
+
         task_ex.state = states.RUNNING_DELAYED
 
         policy_context['retry_no'] = retry_no + 1

mistral/engine/tasks.py

@@ -356,7 +356,7 @@ class RegularTask(Task):
     @profiler.trace('regular-task-on-action-complete', hide_args=True)
     def on_action_complete(self, action_ex):
         state = action_ex.state
-        # TODO(rakhmerov): Here we can define more informative messages
+        # TODO(rakhmerov): Here we can define more informative messages for
         # cases when action is successful and when it's not. For example,
         # in state_info we can specify the cause action.
         state_info = (None if state == states.SUCCESS

mistral/engine/workflows.py

@@ -195,6 +195,7 @@ class Workflow(object):
         if self.wf_ex.task_execution_id:
             # Import the task_handler module here to avoid circular reference.
             from mistral.engine import task_handler
+
             task_handler.schedule_on_action_update(self.wf_ex)
 
     def prepare_input(self, input_dict):
@@ -239,6 +240,9 @@ class Workflow(object):
 
         self._continue_workflow(cmds)
 
+    def _get_backlog(self):
+        return self.wf_ex.runtime_context.get(dispatcher.BACKLOG_KEY)
+
     def _continue_workflow(self, cmds):
         # When resuming a workflow we need to ignore all 'pause'
         # commands because workflow controller takes tasks that
@@ -255,7 +259,7 @@ class Workflow(object):
             if states.is_completed(t_ex.state) and not t_ex.processed:
                 t_ex.processed = True
 
-        if cmds:
+        if cmds or self._get_backlog():
             dispatcher.dispatch_workflow_commands(self.wf_ex, cmds)
         else:
             self.check_and_complete()

mistral/tests/unit/engine/test_commands.py

@@ -108,6 +108,28 @@ class SimpleEngineCommandsTest(base.EngineTestCase):
             state=states.SUCCESS
         )
 
+        # Let's resume the workflow and wait till it succeeds.
+        self.engine.resume_workflow(wf_ex.id)
+
+        self.await_workflow_success(wf_ex.id)
+
+        with db_api.transaction():
+            wf_ex = db_api.get_workflow_execution(wf_ex.id)
+
+            task_execs = wf_ex.task_executions
+
+        self.assertEqual(2, len(task_execs))
+        self._assert_single_item(
+            task_execs,
+            name='task1',
+            state=states.SUCCESS
+        )
+        self._assert_single_item(
+            task_execs,
+            name='task2',
+            state=states.SUCCESS
+        )
+
 
 WORKBOOK2 = """
 ---

mistral/workflow/commands.py

@@ -34,6 +34,13 @@ class WorkflowCommand(object):
         self.ctx = ctx or {}
         self.triggered_by = triggered_by
 
+    def to_dict(self):
+        return {
+            'task_name': self.task_spec.get_name(),
+            'ctx': self.ctx,
+            'triggered_by': self.triggered_by
+        }
+
 
 class Noop(WorkflowCommand):
     """No-operation command."""
@@ -41,6 +48,13 @@ class Noop(WorkflowCommand):
     def __repr__(self):
         return "NOOP [workflow=%s]" % self.wf_ex.name
 
+    def to_dict(self):
+        d = super(Noop, self).to_dict()
+
+        d['cmd_name'] = 'noop'
+
+        return d
+
 
 class RunTask(WorkflowCommand):
     """Instruction to run a workflow task."""
@@ -74,9 +88,18 @@ class RunTask(WorkflowCommand):
             )
         )
 
+    def to_dict(self):
+        d = super(RunTask, self).to_dict()
+
+        d['cmd_name'] = self.task_spec.get_name()
+        d['wait'] = self.wait
+        d['unique_key'] = self.unique_key
+
+        return d
+
 
 class RunExistingTask(WorkflowCommand):
-    """Command for running already existent task."""
+    """Command to run an existing workflow task."""
 
     def __init__(self, wf_ex, wf_spec, task_ex, reset=True, triggered_by=None):
         super(RunExistingTask, self).__init__(
@@ -91,6 +114,16 @@ class RunExistingTask(WorkflowCommand):
         self.reset = reset
         self.unique_key = task_ex.unique_key
 
+    def to_dict(self):
+        d = super(RunExistingTask, self).to_dict()
+
+        d['cmd_name'] = 'run_existing_task'
+        d['task_ex_id'] = self.task_ex.id
+        d['reset'] = self.reset
+        d['unique_key'] = self.unique_key
+
+        return d
+
 
 class SetWorkflowState(WorkflowCommand):
     """Instruction to change a workflow state."""
@@ -108,6 +141,14 @@ class SetWorkflowState(WorkflowCommand):
         self.new_state = new_state
         self.msg = msg
 
+    def to_dict(self):
+        d = super(SetWorkflowState, self).to_dict()
+
+        d['new_state'] = self.new_state
+        d['msg'] = self.msg
+
+        return d
+
 
 class FailWorkflow(SetWorkflowState):
     """Instruction to fail a workflow."""
@@ -127,6 +168,13 @@ class FailWorkflow(SetWorkflowState):
     def __repr__(self):
         return "Fail [workflow=%s]" % self.wf_ex.name
 
+    def to_dict(self):
+        d = super(FailWorkflow, self).to_dict()
+
+        d['cmd_name'] = 'fail'
+
+        return d
+
 
 class SucceedWorkflow(SetWorkflowState):
     """Instruction to succeed a workflow."""
@@ -146,6 +194,13 @@ class SucceedWorkflow(SetWorkflowState):
     def __repr__(self):
         return "Succeed [workflow=%s]" % self.wf_ex.name
 
+    def to_dict(self):
+        d = super(SucceedWorkflow, self).to_dict()
+
+        d['cmd_name'] = 'succeed'
+
+        return d
+
 
 class PauseWorkflow(SetWorkflowState):
     """Instruction to pause a workflow."""
@@ -165,6 +220,13 @@ class PauseWorkflow(SetWorkflowState):
     def __repr__(self):
         return "Pause [workflow=%s]" % self.wf_ex.name
 
+    def to_dict(self):
+        d = super(PauseWorkflow, self).to_dict()
+
+        d['cmd_name'] = 'pause'
+
+        return d
+
 
 RESERVED_CMDS = dict(zip(
     tasks.RESERVED_TASK_NAMES, [
@@ -180,6 +242,13 @@ def get_command_class(cmd_name):
     return RESERVED_CMDS[cmd_name] if cmd_name in RESERVED_CMDS else None
 
 
+# TODO(rakhmerov): IMO the way how we instantiate commands is weird.
+# If we look at how we implement the logic of saving commands to
+# dicts (to_dict) and restoring back from dicts then we'll see
+# the lack of symmetry and unified way to do that depending on a
+# command. Also RunExistingTask turns to be a special case that
+# is not processed with this method at all. Might be a 'bad smell'.
+# This all makes me think that we need to do some refactoring here.
 def create_command(cmd_name, wf_ex, wf_spec, task_spec, ctx,
                    params=None, triggered_by=None):
     cmd_cls = get_command_class(cmd_name) or RunTask
@@ -201,3 +270,23 @@ def create_command(cmd_name, wf_ex, wf_spec, task_spec, ctx,
             ctx,
             triggered_by=triggered_by
         )
+
+
+def restore_command_from_dict(wf_ex, cmd_dict):
+    cmd_name = cmd_dict['cmd_name']
+
+    wf_spec = spec_parser.get_workflow_spec_by_execution_id(wf_ex.id)
+    task_spec = wf_spec.get_tasks()[cmd_dict['task_name']]
+    ctx = cmd_dict['ctx']
+    params = {'msg': cmd_dict.get('msg')} if 'msg' in cmd_dict else None
+    triggered_by = cmd_dict.get('triggered_by')
+
+    return create_command(
+        cmd_name,
+        wf_ex,
+        wf_spec,
+        task_spec,
+        ctx,
+        params,
+        triggered_by
+    )

mistral/workflow/direct_workflow.py

@@ -29,7 +29,7 @@ LOG = logging.getLogger(__name__)
 
 
 class DirectWorkflowController(base.WorkflowController):
-    """'Direct workflow' handler.
+    """'Direct workflow' controller.
 
     This handler implements the workflow pattern which is based on
     direct transitions between tasks, i.e. after each task completion

mistral/workflow/states.py

@@ -15,6 +15,7 @@
 
 """Valid task and workflow states."""
 
+# TODO(rakhmerov): need docs explaining what each state means.
 IDLE = 'IDLE'
 WAITING = 'WAITING'
 RUNNING = 'RUNNING'