jumpserver/apps/ops/api/celery.py

270 lines
9.5 KiB
Python

# -*- coding: utf-8 -*-
#
import os
import re
from collections import defaultdict
from celery.result import AsyncResult
from django.shortcuts import get_object_or_404
from django.utils.translation import gettext as _
from django_celery_beat.models import PeriodicTask
from django_filters import rest_framework as drf_filters
from rest_framework import generics, viewsets, mixins, status
from rest_framework.response import Response
from common.api import LogTailApi, CommonApiMixin
from common.drf.filters import BaseFilterSet
from common.exceptions import JMSException
from common.permissions import IsValidUser
from common.utils.timezone import local_now
from ops.celery import app
from ..ansible.utils import get_ansible_task_log_path
from ..celery.utils import get_celery_task_log_path
from ..models import CeleryTaskExecution, CeleryTask
from ..serializers import CeleryResultSerializer, CeleryPeriodTaskSerializer
from ..serializers.celery import CeleryTaskSerializer, CeleryTaskExecutionSerializer
__all__ = [
'CeleryTaskExecutionLogApi', 'CeleryResultApi', 'CeleryPeriodTaskViewSet',
'AnsibleTaskLogApi', 'CeleryTaskViewSet', 'CeleryTaskExecutionViewSet'
]
class CeleryTaskExecutionLogApi(LogTailApi):
permission_classes = (IsValidUser,)
task = None
task_id = ''
pattern = re.compile(r'Task .* succeeded in \d+\.\d+s.*')
def get(self, request, *args, **kwargs):
self.task_id = str(kwargs.get('pk'))
self.task = AsyncResult(self.task_id)
return super().get(request, *args, **kwargs)
def filter_line(self, line):
if self.pattern.match(line):
line = self.pattern.sub(line, '')
return line
def get_log_path(self):
new_path = get_celery_task_log_path(self.task_id)
if new_path and os.path.isfile(new_path):
return new_path
try:
task = CeleryTaskExecution.objects.get(id=self.task_id)
except CeleryTaskExecution.DoesNotExist:
return None
return task.full_log_path
def is_file_finish_write(self):
return self.task.ready()
def get_no_file_message(self, request):
if self.mark == 'undefined':
return '.'
else:
return _('Waiting task start')
class AnsibleTaskLogApi(LogTailApi):
permission_classes = (IsValidUser,)
def get_log_path(self):
new_path = get_ansible_task_log_path(self.kwargs.get('pk'))
if new_path and os.path.isfile(new_path):
return new_path
def get_no_file_message(self, request):
if self.mark == 'undefined':
return '.'
else:
return _('Waiting task start')
class CeleryResultApi(generics.RetrieveAPIView):
permission_classes = (IsValidUser,)
serializer_class = CeleryResultSerializer
def get_object(self):
pk = self.kwargs.get('pk')
return AsyncResult(str(pk))
class CeleryPeriodTaskViewSet(CommonApiMixin, viewsets.ModelViewSet):
queryset = PeriodicTask.objects.all()
serializer_class = CeleryPeriodTaskSerializer
http_method_names = ('get', 'head', 'options', 'patch')
lookup_field = 'name'
lookup_value_regex = '[\w.@]+'
def get_object(self):
name = self.kwargs.get('name')
obj = get_object_or_404(PeriodicTask, name=name)
return obj
class CelerySummaryAPIView(generics.RetrieveAPIView):
def get(self, request, *args, **kwargs):
pass
class CeleryTaskFilterSet(BaseFilterSet):
id = drf_filters.CharFilter(field_name='id', lookup_expr='exact')
name = drf_filters.CharFilter(method='filter_name')
@staticmethod
def filter_name(queryset, name, value):
_ids = []
for task in queryset:
comment = task.meta.get('comment')
if not comment:
continue
if value not in comment:
continue
_ids.append(task.id)
queryset = queryset.filter(id__in=_ids)
return queryset
class Meta:
model = CeleryTask
fields = ['id', 'name']
class CeleryTaskViewSet(
CommonApiMixin, mixins.RetrieveModelMixin,
mixins.ListModelMixin, mixins.DestroyModelMixin,
viewsets.GenericViewSet
):
search_fields = ('id', 'name')
filterset_class = CeleryTaskFilterSet
serializer_class = CeleryTaskSerializer
def get_queryset(self):
return CeleryTask.objects.exclude(name__startswith='celery')
@staticmethod
def extract_schedule(input_string):
pattern = r'(\S+ \S+ \S+ \S+ \S+).*'
match = re.match(pattern, input_string)
if match:
return match.group(1)
else:
return input_string
def generate_execute_time(self, queryset):
now = local_now()
for i in queryset:
task = getattr(i, 'periodic_obj', None)
if not task:
continue
i.exec_cycle = self.extract_schedule(str(task.scheduler))
last_run_at = task.last_run_at or now
next_run_at = task.schedule.remaining_estimate(last_run_at)
if next_run_at.total_seconds() < 0:
next_run_at = task.schedule.remaining_estimate(now)
i.next_exec_time = now + next_run_at
i.enabled = task.enabled
return queryset
def generate_summary_state(self, execution_qs):
model = self.get_queryset().model
executions = execution_qs.order_by('-date_published').values('name', 'state')
summary_state_dict = defaultdict(
lambda: {
'states': [], 'state': 'green',
'summary': {'total': 0, 'success': 0}
}
)
for execution in executions:
name = execution['name']
state = execution['state']
summary = summary_state_dict[name]['summary']
summary['total'] += 1
summary['success'] += 1 if state == 'SUCCESS' else 0
states = summary_state_dict[name].get('states')
if states is not None and len(states) >= 5:
color = model.compute_state_color(states)
summary_state_dict[name]['state'] = color
summary_state_dict[name].pop('states', None)
elif isinstance(states, list):
states.append(state)
return summary_state_dict
def loading_summary_state(self, queryset):
if isinstance(queryset, list):
names = [i.name for i in queryset]
execution_qs = CeleryTaskExecution.objects.filter(name__in=names)
else:
execution_qs = CeleryTaskExecution.objects.all()
summary_state_dict = self.generate_summary_state(execution_qs)
for i in queryset:
i.summary = summary_state_dict.get(i.name, {}).get('summary', {})
i.state = summary_state_dict.get(i.name, {}).get('state', 'green')
return queryset
def list(self, request, *args, **kwargs):
queryset = self.filter_queryset(self.get_queryset())
queryset = self.mark_periodic_and_sorted(queryset)
page = self.paginate_queryset(queryset)
if page is not None:
page = self.generate_execute_time(page)
page = self.loading_summary_state(page)
serializer = self.get_serializer(page, many=True)
return self.get_paginated_response(serializer.data)
queryset = self.generate_execute_time(queryset)
queryset = self.loading_summary_state(queryset)
serializer = self.get_serializer(queryset, many=True)
return Response(serializer.data)
@staticmethod
def mark_periodic_and_sorted(queryset):
names = queryset.values_list('name', flat=True)
periodic_tasks = PeriodicTask.objects.filter(name__in=names)
periodic_task_dict = {task.task: task for task in periodic_tasks}
for q in queryset:
if q.name in periodic_task_dict:
q.periodic_obj = periodic_task_dict[q.name]
q.is_periodic = True
else:
q.is_periodic = False
queryset = sorted(queryset, key=lambda x: x.is_periodic, reverse=True)
return queryset
class CeleryTaskExecutionViewSet(CommonApiMixin, viewsets.ModelViewSet):
serializer_class = CeleryTaskExecutionSerializer
http_method_names = ('get', 'post', 'head', 'options',)
queryset = CeleryTaskExecution.objects.all()
search_fields = ('name',)
def get_queryset(self):
task_id = self.request.query_params.get('task_id')
if task_id:
task = get_object_or_404(CeleryTask, id=task_id)
self.queryset = self.queryset.filter(name=task.name)
if not self.request.user.is_superuser:
self.queryset = self.queryset.filter(creator=self.request.user)
return self.queryset
def create(self, request, *args, **kwargs):
form_id = self.request.query_params.get('from', None)
if not form_id:
return Response(status=status.HTTP_400_BAD_REQUEST)
execution = get_object_or_404(CeleryTaskExecution, id=form_id)
task = app.tasks.get(execution.name, None)
if not task:
msg = _("Task {} not found").format(execution.name)
raise JMSException(code='task_not_found_error', detail=msg)
try:
t = task.delay(*execution.args, **execution.kwargs)
except TypeError:
msg = _("Task {} args or kwargs error").format(execution.name)
raise JMSException(code='task_args_error', detail=msg)
return Response(status=status.HTTP_201_CREATED, data={'task_id': t.id})