Exemple #1
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    def graph(self, id: int):
        tasks = self.query(Task). \
            filter(Task.dag == id). \
            filter(Task.type <= TaskType.Train.value). \
            all()

        task_ids = [t.id for t in tasks]
        dep = self.query(TaskDependence).filter(
            TaskDependence.task_id.in_(task_ids)).all()
        task_by_id = {t.id: t for t in tasks}

        def label(t: Task):
            res = [t.executor]
            if t.status >= TaskStatus.InProgress.value:
                res.append(self.duration(t))
                res.append(f'{t.current_step if t.current_step else ""}/'
                           f'{t.steps if t.steps else ""}')
            return '\n'.join(res)

        nodes = [{
            'id': t.id,
            'label': label(t),
            'name': t.name,
            'status': to_snake(TaskStatus(t.status).name)
        } for t in tasks]
        edges = [{
            'from':
            d.depend_id,
            'to':
            d.task_id,
            'status':
            to_snake(TaskStatus(task_by_id[d.depend_id].status).name)
        } for d in dep]
        return {'nodes': nodes, 'edges': edges}
Exemple #2
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    def load_tasks(self):
        self.tasks = self.provider.by_status(TaskStatus.NotRan,
                                             TaskStatus.InProgress,
                                             TaskStatus.Queued)

        not_ran_tasks = [t for t in self.tasks if
                         t.status == TaskStatus.NotRan.value]

        self.not_ran_tasks = [task for task in not_ran_tasks if not task.debug]
        self.not_ran_tasks = sorted(
            self.not_ran_tasks, key=lambda x: x.gpu or 0,
            reverse=True)

        self.logger.debug(
            f'Found {len(not_ran_tasks)} not ran tasks',
            ComponentType.Supervisor
        )

        self.dep_status = self.provider.dependency_status(self.not_ran_tasks)

        self.auxiliary['not_ran_tasks'] = [
            {
                'id': t.id,
                'name': t.name,
                'dep_status': [
                    TaskStatus(s).name
                    for s in self.dep_status.get(t.id, set())
                ]
            } for t in not_ran_tasks[:5]
        ]
Exemple #3
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def task_stop():
    data = request_data()
    provider = TaskProvider(_write_session)
    task = provider.by_id(data['id'], joinedload(Task.dag_rel, innerjoin=True))

    dag = task.dag_rel
    status = celery_tasks.stop(logger, _write_session, task, dag)

    child_tasks = provider.children(task.id)
    for t in child_tasks:
        celery_tasks.stop(logger, _write_session, t, dag)

    return {'status': to_snake(TaskStatus(status).name)}
Exemple #4
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    def load_tasks(self):
        not_ran_tasks = self.provider.by_status(TaskStatus.NotRan)
        self.not_ran_tasks = [task for task in not_ran_tasks if not task.debug]
        self.logger.debug(f'Found {len(not_ran_tasks)} not ran tasks',
                          ComponentType.Supervisor)

        self.dep_status = self.provider.dependency_status(self.not_ran_tasks)

        self.auxiliary['not_ran_tasks'] = [{
            'id':
            t.id,
            'name':
            t.name,
            'dep_status':
            [TaskStatus(s).name for s in self.dep_status.get(t.id, set())]
        } for t in not_ran_tasks]
Exemple #5
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    def get(self, filter: dict, options: PaginatorOptions):
        query = self.query(Task, Project.name). \
            join(Dag, Dag.id == Task.dag). \
            join(Project, Project.id == Dag.project). \
            options(joinedload(Task.dag_rel, innerjoin=True))

        query = self._get_filter(query, filter)

        total = query.count()
        paginator = self.paginator(query, options)
        res = []

        for p, project_name in paginator.all():
            if p.dag_rel is None:
                continue

            item = {**self.to_dict(p, rules=('-additional_info', ))}
            item['status'] = to_snake(TaskStatus(item['status']).name)
            item['type'] = to_snake(TaskType(item['type']).name)
            item['dag_rel']['project'] = {
                'id': item['dag_rel']['project'],
                'name': project_name
            }
            if p.started is None:
                delta = 0
            elif p.status == TaskStatus.InProgress.value:
                delta = (now() - p.started).total_seconds()
            else:
                finish = (p.finished or p.last_activity)
                delta = (finish - p.started).total_seconds()
            item['duration'] = duration_format(delta)
            if p.dag_rel is not None:
                res.append(item)

        if filter.get('report'):
            tasks_within_report = self.query(
                ReportTasks.task
            ).filter(ReportTasks.report == int(filter['report']))
            tasks_within_report = {t[0] for t in tasks_within_report}
            for r in res:
                r['report_full'] = r['id'] in tasks_within_report

        projects = self.query(Project.name, Project.id). \
            order_by(Project.id.desc()). \
            limit(20). \
            all()
        dags = self.query(Dag.name, Dag.id). \
            order_by(Dag.id.desc()). \
            limit(20). \
            all()
        projects = [{'name': name, 'id': id} for name, id in projects]
        dags = [{'name': name, 'id': id} for name, id in dags]

        dags_model = self.query(Dag.name, Dag.id, Dag.project). \
            filter(Dag.type == DagType.Pipe.value). \
            order_by(Dag.id.desc()). \
            all()

        dags_model_dict = []
        used_dag_names = set()

        for name, id, project in dags_model:
            if name in used_dag_names:
                continue

            dag = {'name': name, 'id': id, 'project': project}
            dags_model_dict.append(dag)
            used_dag_names.add(name)

        return {
            'total': total,
            'data': res,
            'projects': projects,
            'dags': dags,
            'dags_model': dags_model_dict
        }
Exemple #6
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def describe_tasks(dag: int, axis):
    provider = TaskProvider()
    columns = ['Id', 'Started', 'Duration', 'Step', 'Status']
    cells = []
    cells_colours = []

    tasks = provider.by_dag(dag)

    status_colors = {
        'not_ran': 'gray',
        'queued': 'lightblue',
        'in_progress': 'lime',
        'failed': '#e83217',
        'stopped': '#cb88ea',
        'skipped': 'orange',
        'success': 'green'
    }

    finish = True

    for task in tasks:
        started = ''
        duration = ''

        if task.status <= TaskStatus.InProgress.value:
            finish = False

        if task.started:
            started = task.started.strftime('%m.%d %H:%M:%S')
            if task.finished:
                duration = (task.finished - task.started).total_seconds()
            else:
                duration = (now() - task.started).total_seconds()

            if duration > 3600:
                duration = f'{int(duration // 3600)} hours ' \
                           f'{int((duration % 3600) // 60)} min' \
                           f' {int(duration % 60)} sec'
            elif duration > 60:
                duration = f'{int(duration // 60)} min' \
                           f' {int(duration % 60)} sec'
            else:
                duration = f'{int(duration)} sec'

        status = to_snake(TaskStatus(task.status).name)
        status_color = status_colors[status]

        task_cells = [
            str(task.id), started, duration, task.current_step or '1', status
        ]
        task_colors = ['white', 'white', 'white', 'white', status_color]
        cells.append(task_cells)
        cells_colours.append(task_colors)

    table = axis.table(cellText=cells,
                       colLabels=columns,
                       cellColours=cells_colours,
                       cellLoc='center',
                       colWidths=[0.2, 0.3, 0.4, 0.1, 0.2],
                       bbox=[0, 0, 1.0, 1.0],
                       loc='center')

    table.auto_set_font_size(False)
    table.set_fontsize(14)

    axis.set_xticks([])
    axis.axis('off')
    axis.set_title('Tasks')

    return finish