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svn: extend detection of SVN to PROPFIND/PROPATCH methods....
svn: extend detection of SVN to PROPFIND/PROPATCH methods. - in some cases like usage of tortoisesvn non of the available SVN protocol detection methods are available - with extended method we're able to catch directory delete/create

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loader.py
257 lines | 8.5 KiB | text/x-python | PythonLexer
# -*- coding: utf-8 -*-
# Copyright (C) 2010-2017 RhodeCode GmbH
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License, version 3
# (only), as published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
# This program is dual-licensed. If you wish to learn more about the
# RhodeCode Enterprise Edition, including its added features, Support services,
# and proprietary license terms, please see https://rhodecode.com/licenses/
"""
Celery loader, run with::
celery worker --beat --app rhodecode.lib.celerylib.loader --loglevel DEBUG --ini=._dev/dev.ini
"""
import os
import logging
from celery import Celery
from celery import signals
from celery import Task
from celery import exceptions # noqa
from kombu.serialization import register
from pyramid.threadlocal import get_current_request
import rhodecode
from rhodecode.lib.auth import AuthUser
from rhodecode.lib.celerylib.utils import get_ini_config, parse_ini_vars
from rhodecode.lib.ext_json import json
from rhodecode.lib.pyramid_utils import bootstrap, setup_logging, prepare_request
from rhodecode.lib.utils2 import str2bool
from rhodecode.model import meta
register('json_ext', json.dumps, json.loads,
content_type='application/x-json-ext',
content_encoding='utf-8')
log = logging.getLogger('celery.rhodecode.loader')
def add_preload_arguments(parser):
parser.add_argument(
'--ini', default=None,
help='Path to ini configuration file.'
)
parser.add_argument(
'--ini-var', default=None,
help='Comma separated list of key=value to pass to ini.'
)
def get_logger(obj):
custom_log = logging.getLogger(
'rhodecode.task.{}'.format(obj.__class__.__name__))
if rhodecode.CELERY_ENABLED:
try:
custom_log = obj.get_logger()
except Exception:
pass
return custom_log
base_celery_config = {
'result_backend': 'rpc://',
'result_expires': 60 * 60 * 24,
'result_persistent': True,
'imports': [],
'worker_max_tasks_per_child': 100,
'accept_content': ['json_ext'],
'task_serializer': 'json_ext',
'result_serializer': 'json_ext',
'worker_hijack_root_logger': False,
}
# init main celery app
celery_app = Celery()
celery_app.user_options['preload'].add(add_preload_arguments)
ini_file_glob = None
@signals.setup_logging.connect
def setup_logging_callback(**kwargs):
setup_logging(ini_file_glob)
@signals.user_preload_options.connect
def on_preload_parsed(options, **kwargs):
ini_location = options['ini']
ini_vars = options['ini_var']
celery_app.conf['INI_PYRAMID'] = options['ini']
if ini_location is None:
print('You must provide the paste --ini argument')
exit(-1)
options = None
if ini_vars is not None:
options = parse_ini_vars(ini_vars)
global ini_file_glob
ini_file_glob = ini_location
log.debug('Bootstrapping RhodeCode application...')
env = bootstrap(ini_location, options=options)
setup_celery_app(
app=env['app'], root=env['root'], request=env['request'],
registry=env['registry'], closer=env['closer'],
ini_location=ini_location)
# fix the global flag even if it's disabled via .ini file because this
# is a worker code that doesn't need this to be disabled.
rhodecode.CELERY_ENABLED = True
@signals.task_success.connect
def task_success_signal(result, **kwargs):
meta.Session.commit()
celery_app.conf['PYRAMID_CLOSER']()
@signals.task_retry.connect
def task_retry_signal(
request, reason, einfo, **kwargs):
meta.Session.remove()
celery_app.conf['PYRAMID_CLOSER']()
@signals.task_failure.connect
def task_failure_signal(
task_id, exception, args, kwargs, traceback, einfo, **kargs):
meta.Session.remove()
celery_app.conf['PYRAMID_CLOSER']()
@signals.task_revoked.connect
def task_revoked_signal(
request, terminated, signum, expired, **kwargs):
celery_app.conf['PYRAMID_CLOSER']()
def setup_celery_app(app, root, request, registry, closer, ini_location):
ini_dir = os.path.dirname(os.path.abspath(ini_location))
celery_config = base_celery_config
celery_config.update({
# store celerybeat scheduler db where the .ini file is
'beat_schedule_filename': os.path.join(ini_dir, 'celerybeat-schedule'),
})
ini_settings = get_ini_config(ini_location)
log.debug('Got custom celery conf: %s', ini_settings)
celery_config.update(ini_settings)
celery_app.config_from_object(celery_config)
celery_app.conf.update({'PYRAMID_APP': app})
celery_app.conf.update({'PYRAMID_ROOT': root})
celery_app.conf.update({'PYRAMID_REQUEST': request})
celery_app.conf.update({'PYRAMID_REGISTRY': registry})
celery_app.conf.update({'PYRAMID_CLOSER': closer})
def configure_celery(config, ini_location):
"""
Helper that is called from our application creation logic. It gives
connection info into running webapp and allows execution of tasks from
RhodeCode itself
"""
# store some globals into rhodecode
rhodecode.CELERY_ENABLED = str2bool(
config.registry.settings.get('use_celery'))
if rhodecode.CELERY_ENABLED:
log.info('Configuring celery based on `%s` file', ini_location)
setup_celery_app(
app=None, root=None, request=None, registry=config.registry,
closer=None, ini_location=ini_location)
class RequestContextTask(Task):
"""
This is a celery task which will create a rhodecode app instance context
for the task, patch pyramid with the original request
that created the task and also add the user to the context.
"""
def apply_async(self, args=None, kwargs=None, task_id=None, producer=None,
link=None, link_error=None, shadow=None, **options):
""" queue the job to run (we are in web request context here) """
req = get_current_request()
# web case
if hasattr(req, 'user'):
ip_addr = req.user.ip_addr
user_id = req.user.user_id
# api case
elif hasattr(req, 'rpc_user'):
ip_addr = req.rpc_user.ip_addr
user_id = req.rpc_user.user_id
else:
raise Exception(
'Unable to fetch required data from request: {}. \n'
'This task is required to be executed from context of '
'request in a webapp'.format(repr(req)))
if req:
# we hook into kwargs since it is the only way to pass our data to
# the celery worker
options['headers'] = options.get('headers', {})
options['headers'].update({
'rhodecode_proxy_data': {
'environ': {
'PATH_INFO': req.environ['PATH_INFO'],
'SCRIPT_NAME': req.environ['SCRIPT_NAME'],
'HTTP_HOST': req.environ.get('HTTP_HOST',
req.environ['SERVER_NAME']),
'SERVER_NAME': req.environ['SERVER_NAME'],
'SERVER_PORT': req.environ['SERVER_PORT'],
'wsgi.url_scheme': req.environ['wsgi.url_scheme'],
},
'auth_user': {
'ip_addr': ip_addr,
'user_id': user_id
},
}
})
return super(RequestContextTask, self).apply_async(
args, kwargs, task_id, producer, link, link_error, shadow, **options)
def __call__(self, *args, **kwargs):
""" rebuild the context and then run task on celery worker """
proxy_data = getattr(self.request, 'rhodecode_proxy_data', None)
if not proxy_data:
return super(RequestContextTask, self).__call__(*args, **kwargs)
log.debug('using celery proxy data to run task: %r', proxy_data)
# re-inject and register threadlocals for proper routing support
request = prepare_request(proxy_data['environ'])
request.user = AuthUser(user_id=proxy_data['auth_user']['user_id'],
ip_addr=proxy_data['auth_user']['ip_addr'])
return super(RequestContextTask, self).__call__(*args, **kwargs)