##// END OF EJS Templates
http-proto: in case incoming requests come in as chunked stream the data to VCSServer....
http-proto: in case incoming requests come in as chunked stream the data to VCSServer. This should solve a problem of uploading large files to rhodecode. In case of git with small postBuffers GIT client streams data to the server. In such case we want to stream the data back again to vcsserver without reading it fully inside RhodeCode.

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plugin.py
1805 lines | 57.5 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/
import collections
import datetime
import hashlib
import os
import re
import pprint
import shutil
import socket
import subprocess32
import time
import uuid
import dateutil.tz
import mock
import pyramid.testing
import pytest
import colander
import requests
import rhodecode
from rhodecode.lib.utils2 import AttributeDict
from rhodecode.model.changeset_status import ChangesetStatusModel
from rhodecode.model.comment import CommentsModel
from rhodecode.model.db import (
PullRequest, Repository, RhodeCodeSetting, ChangesetStatus, RepoGroup,
UserGroup, RepoRhodeCodeUi, RepoRhodeCodeSetting, RhodeCodeUi)
from rhodecode.model.meta import Session
from rhodecode.model.pull_request import PullRequestModel
from rhodecode.model.repo import RepoModel
from rhodecode.model.repo_group import RepoGroupModel
from rhodecode.model.user import UserModel
from rhodecode.model.settings import VcsSettingsModel
from rhodecode.model.user_group import UserGroupModel
from rhodecode.model.integration import IntegrationModel
from rhodecode.integrations import integration_type_registry
from rhodecode.integrations.types.base import IntegrationTypeBase
from rhodecode.lib.utils import repo2db_mapper
from rhodecode.lib.vcs import create_vcsserver_proxy
from rhodecode.lib.vcs.backends import get_backend
from rhodecode.lib.vcs.nodes import FileNode
from rhodecode.tests import (
login_user_session, get_new_dir, utils, TESTS_TMP_PATH,
TEST_USER_ADMIN_LOGIN, TEST_USER_REGULAR_LOGIN, TEST_USER_REGULAR2_LOGIN,
TEST_USER_REGULAR_PASS)
from rhodecode.tests.utils import CustomTestApp
from rhodecode.tests.fixture import Fixture
def _split_comma(value):
return value.split(',')
def pytest_addoption(parser):
parser.addoption(
'--keep-tmp-path', action='store_true',
help="Keep the test temporary directories")
parser.addoption(
'--backends', action='store', type=_split_comma,
default=['git', 'hg', 'svn'],
help="Select which backends to test for backend specific tests.")
parser.addoption(
'--dbs', action='store', type=_split_comma,
default=['sqlite'],
help="Select which database to test for database specific tests. "
"Possible options are sqlite,postgres,mysql")
parser.addoption(
'--appenlight', '--ae', action='store_true',
help="Track statistics in appenlight.")
parser.addoption(
'--appenlight-api-key', '--ae-key',
help="API key for Appenlight.")
parser.addoption(
'--appenlight-url', '--ae-url',
default="https://ae.rhodecode.com",
help="Appenlight service URL, defaults to https://ae.rhodecode.com")
parser.addoption(
'--sqlite-connection-string', action='store',
default='', help="Connection string for the dbs tests with SQLite")
parser.addoption(
'--postgres-connection-string', action='store',
default='', help="Connection string for the dbs tests with Postgres")
parser.addoption(
'--mysql-connection-string', action='store',
default='', help="Connection string for the dbs tests with MySQL")
parser.addoption(
'--repeat', type=int, default=100,
help="Number of repetitions in performance tests.")
def pytest_configure(config):
# Appy the kombu patch early on, needed for test discovery on Python 2.7.11
from rhodecode.config import patches
patches.kombu_1_5_1_python_2_7_11()
def pytest_collection_modifyitems(session, config, items):
# nottest marked, compare nose, used for transition from nose to pytest
remaining = [
i for i in items if getattr(i.obj, '__test__', True)]
items[:] = remaining
def pytest_generate_tests(metafunc):
# Support test generation based on --backend parameter
if 'backend_alias' in metafunc.fixturenames:
backends = get_backends_from_metafunc(metafunc)
scope = None
if not backends:
pytest.skip("Not enabled for any of selected backends")
metafunc.parametrize('backend_alias', backends, scope=scope)
elif hasattr(metafunc.function, 'backends'):
backends = get_backends_from_metafunc(metafunc)
if not backends:
pytest.skip("Not enabled for any of selected backends")
def get_backends_from_metafunc(metafunc):
requested_backends = set(metafunc.config.getoption('--backends'))
if hasattr(metafunc.function, 'backends'):
# Supported backends by this test function, created from
# pytest.mark.backends
backends = metafunc.function.backends.args
elif hasattr(metafunc.cls, 'backend_alias'):
# Support class attribute "backend_alias", this is mainly
# for legacy reasons for tests not yet using pytest.mark.backends
backends = [metafunc.cls.backend_alias]
else:
backends = metafunc.config.getoption('--backends')
return requested_backends.intersection(backends)
@pytest.fixture(scope='session', autouse=True)
def activate_example_rcextensions(request):
"""
Patch in an example rcextensions module which verifies passed in kwargs.
"""
from rhodecode.tests.other import example_rcextensions
old_extensions = rhodecode.EXTENSIONS
rhodecode.EXTENSIONS = example_rcextensions
@request.addfinalizer
def cleanup():
rhodecode.EXTENSIONS = old_extensions
@pytest.fixture
def capture_rcextensions():
"""
Returns the recorded calls to entry points in rcextensions.
"""
calls = rhodecode.EXTENSIONS.calls
calls.clear()
# Note: At this moment, it is still the empty dict, but that will
# be filled during the test run and since it is a reference this
# is enough to make it work.
return calls
@pytest.fixture(scope='session')
def http_environ_session():
"""
Allow to use "http_environ" in session scope.
"""
return http_environ(
http_host_stub=http_host_stub())
@pytest.fixture
def http_host_stub():
"""
Value of HTTP_HOST in the test run.
"""
return 'test.example.com:80'
@pytest.fixture
def http_environ(http_host_stub):
"""
HTTP extra environ keys.
User by the test application and as well for setting up the pylons
environment. In the case of the fixture "app" it should be possible
to override this for a specific test case.
"""
return {
'SERVER_NAME': http_host_stub.split(':')[0],
'SERVER_PORT': http_host_stub.split(':')[1],
'HTTP_HOST': http_host_stub,
}
@pytest.fixture(scope='function')
def app(request, pylonsapp, http_environ):
app = CustomTestApp(
pylonsapp,
extra_environ=http_environ)
if request.cls:
request.cls.app = app
return app
@pytest.fixture(scope='session')
def app_settings(pylonsapp, pylons_config):
"""
Settings dictionary used to create the app.
Parses the ini file and passes the result through the sanitize and apply
defaults mechanism in `rhodecode.config.middleware`.
"""
from paste.deploy.loadwsgi import loadcontext, APP
from rhodecode.config.middleware import (
sanitize_settings_and_apply_defaults)
context = loadcontext(APP, 'config:' + pylons_config)
settings = sanitize_settings_and_apply_defaults(context.config())
return settings
@pytest.fixture(scope='session')
def db(app_settings):
"""
Initializes the database connection.
It uses the same settings which are used to create the ``pylonsapp`` or
``app`` fixtures.
"""
from rhodecode.config.utils import initialize_database
initialize_database(app_settings)
LoginData = collections.namedtuple('LoginData', ('csrf_token', 'user'))
def _autologin_user(app, *args):
session = login_user_session(app, *args)
csrf_token = rhodecode.lib.auth.get_csrf_token(session)
return LoginData(csrf_token, session['rhodecode_user'])
@pytest.fixture
def autologin_user(app):
"""
Utility fixture which makes sure that the admin user is logged in
"""
return _autologin_user(app)
@pytest.fixture
def autologin_regular_user(app):
"""
Utility fixture which makes sure that the regular user is logged in
"""
return _autologin_user(
app, TEST_USER_REGULAR_LOGIN, TEST_USER_REGULAR_PASS)
@pytest.fixture(scope='function')
def csrf_token(request, autologin_user):
return autologin_user.csrf_token
@pytest.fixture(scope='function')
def xhr_header(request):
return {'HTTP_X_REQUESTED_WITH': 'XMLHttpRequest'}
@pytest.fixture
def real_crypto_backend(monkeypatch):
"""
Switch the production crypto backend on for this test.
During the test run the crypto backend is replaced with a faster
implementation based on the MD5 algorithm.
"""
monkeypatch.setattr(rhodecode, 'is_test', False)
@pytest.fixture(scope='class')
def index_location(request, pylonsapp):
index_location = pylonsapp.config['app_conf']['search.location']
if request.cls:
request.cls.index_location = index_location
return index_location
@pytest.fixture(scope='session', autouse=True)
def tests_tmp_path(request):
"""
Create temporary directory to be used during the test session.
"""
if not os.path.exists(TESTS_TMP_PATH):
os.makedirs(TESTS_TMP_PATH)
if not request.config.getoption('--keep-tmp-path'):
@request.addfinalizer
def remove_tmp_path():
shutil.rmtree(TESTS_TMP_PATH)
return TESTS_TMP_PATH
@pytest.fixture
def test_repo_group(request):
"""
Create a temporary repository group, and destroy it after
usage automatically
"""
fixture = Fixture()
repogroupid = 'test_repo_group_%s' % int(time.time())
repo_group = fixture.create_repo_group(repogroupid)
def _cleanup():
fixture.destroy_repo_group(repogroupid)
request.addfinalizer(_cleanup)
return repo_group
@pytest.fixture
def test_user_group(request):
"""
Create a temporary user group, and destroy it after
usage automatically
"""
fixture = Fixture()
usergroupid = 'test_user_group_%s' % int(time.time())
user_group = fixture.create_user_group(usergroupid)
def _cleanup():
fixture.destroy_user_group(user_group)
request.addfinalizer(_cleanup)
return user_group
@pytest.fixture(scope='session')
def test_repo(request):
container = TestRepoContainer()
request.addfinalizer(container._cleanup)
return container
class TestRepoContainer(object):
"""
Container for test repositories which are used read only.
Repositories will be created on demand and re-used during the lifetime
of this object.
Usage to get the svn test repository "minimal"::
test_repo = TestContainer()
repo = test_repo('minimal', 'svn')
"""
dump_extractors = {
'git': utils.extract_git_repo_from_dump,
'hg': utils.extract_hg_repo_from_dump,
'svn': utils.extract_svn_repo_from_dump,
}
def __init__(self):
self._cleanup_repos = []
self._fixture = Fixture()
self._repos = {}
def __call__(self, dump_name, backend_alias):
key = (dump_name, backend_alias)
if key not in self._repos:
repo = self._create_repo(dump_name, backend_alias)
self._repos[key] = repo.repo_id
return Repository.get(self._repos[key])
def _create_repo(self, dump_name, backend_alias):
repo_name = '%s-%s' % (backend_alias, dump_name)
backend_class = get_backend(backend_alias)
dump_extractor = self.dump_extractors[backend_alias]
repo_path = dump_extractor(dump_name, repo_name)
vcs_repo = backend_class(repo_path)
repo2db_mapper({repo_name: vcs_repo})
repo = RepoModel().get_by_repo_name(repo_name)
self._cleanup_repos.append(repo_name)
return repo
def _cleanup(self):
for repo_name in reversed(self._cleanup_repos):
self._fixture.destroy_repo(repo_name)
@pytest.fixture
def backend(request, backend_alias, pylonsapp, test_repo):
"""
Parametrized fixture which represents a single backend implementation.
It respects the option `--backends` to focus the test run on specific
backend implementations.
It also supports `pytest.mark.xfail_backends` to mark tests as failing
for specific backends. This is intended as a utility for incremental
development of a new backend implementation.
"""
if backend_alias not in request.config.getoption('--backends'):
pytest.skip("Backend %s not selected." % (backend_alias, ))
utils.check_xfail_backends(request.node, backend_alias)
utils.check_skip_backends(request.node, backend_alias)
repo_name = 'vcs_test_%s' % (backend_alias, )
backend = Backend(
alias=backend_alias,
repo_name=repo_name,
test_name=request.node.name,
test_repo_container=test_repo)
request.addfinalizer(backend.cleanup)
return backend
@pytest.fixture
def backend_git(request, pylonsapp, test_repo):
return backend(request, 'git', pylonsapp, test_repo)
@pytest.fixture
def backend_hg(request, pylonsapp, test_repo):
return backend(request, 'hg', pylonsapp, test_repo)
@pytest.fixture
def backend_svn(request, pylonsapp, test_repo):
return backend(request, 'svn', pylonsapp, test_repo)
@pytest.fixture
def backend_random(backend_git):
"""
Use this to express that your tests need "a backend.
A few of our tests need a backend, so that we can run the code. This
fixture is intended to be used for such cases. It will pick one of the
backends and run the tests.
The fixture `backend` would run the test multiple times for each
available backend which is a pure waste of time if the test is
independent of the backend type.
"""
# TODO: johbo: Change this to pick a random backend
return backend_git
@pytest.fixture
def backend_stub(backend_git):
"""
Use this to express that your tests need a backend stub
TODO: mikhail: Implement a real stub logic instead of returning
a git backend
"""
return backend_git
@pytest.fixture
def repo_stub(backend_stub):
"""
Use this to express that your tests need a repository stub
"""
return backend_stub.create_repo()
class Backend(object):
"""
Represents the test configuration for one supported backend
Provides easy access to different test repositories based on
`__getitem__`. Such repositories will only be created once per test
session.
"""
invalid_repo_name = re.compile(r'[^0-9a-zA-Z]+')
_master_repo = None
_commit_ids = {}
def __init__(self, alias, repo_name, test_name, test_repo_container):
self.alias = alias
self.repo_name = repo_name
self._cleanup_repos = []
self._test_name = test_name
self._test_repo_container = test_repo_container
# TODO: johbo: Used as a delegate interim. Not yet sure if Backend or
# Fixture will survive in the end.
self._fixture = Fixture()
def __getitem__(self, key):
return self._test_repo_container(key, self.alias)
@property
def repo(self):
"""
Returns the "current" repository. This is the vcs_test repo or the
last repo which has been created with `create_repo`.
"""
from rhodecode.model.db import Repository
return Repository.get_by_repo_name(self.repo_name)
@property
def default_branch_name(self):
VcsRepository = get_backend(self.alias)
return VcsRepository.DEFAULT_BRANCH_NAME
@property
def default_head_id(self):
"""
Returns the default head id of the underlying backend.
This will be the default branch name in case the backend does have a
default branch. In the other cases it will point to a valid head
which can serve as the base to create a new commit on top of it.
"""
vcsrepo = self.repo.scm_instance()
head_id = (
vcsrepo.DEFAULT_BRANCH_NAME or
vcsrepo.commit_ids[-1])
return head_id
@property
def commit_ids(self):
"""
Returns the list of commits for the last created repository
"""
return self._commit_ids
def create_master_repo(self, commits):
"""
Create a repository and remember it as a template.
This allows to easily create derived repositories to construct
more complex scenarios for diff, compare and pull requests.
Returns a commit map which maps from commit message to raw_id.
"""
self._master_repo = self.create_repo(commits=commits)
return self._commit_ids
def create_repo(
self, commits=None, number_of_commits=0, heads=None,
name_suffix=u'', **kwargs):
"""
Create a repository and record it for later cleanup.
:param commits: Optional. A sequence of dict instances.
Will add a commit per entry to the new repository.
:param number_of_commits: Optional. If set to a number, this number of
commits will be added to the new repository.
:param heads: Optional. Can be set to a sequence of of commit
names which shall be pulled in from the master repository.
"""
self.repo_name = self._next_repo_name() + name_suffix
repo = self._fixture.create_repo(
self.repo_name, repo_type=self.alias, **kwargs)
self._cleanup_repos.append(repo.repo_name)
commits = commits or [
{'message': 'Commit %s of %s' % (x, self.repo_name)}
for x in xrange(number_of_commits)]
self._add_commits_to_repo(repo.scm_instance(), commits)
if heads:
self.pull_heads(repo, heads)
return repo
def pull_heads(self, repo, heads):
"""
Make sure that repo contains all commits mentioned in `heads`
"""
vcsmaster = self._master_repo.scm_instance()
vcsrepo = repo.scm_instance()
vcsrepo.config.clear_section('hooks')
commit_ids = [self._commit_ids[h] for h in heads]
vcsrepo.pull(vcsmaster.path, commit_ids=commit_ids)
def create_fork(self):
repo_to_fork = self.repo_name
self.repo_name = self._next_repo_name()
repo = self._fixture.create_fork(repo_to_fork, self.repo_name)
self._cleanup_repos.append(self.repo_name)
return repo
def new_repo_name(self, suffix=u''):
self.repo_name = self._next_repo_name() + suffix
self._cleanup_repos.append(self.repo_name)
return self.repo_name
def _next_repo_name(self):
return u"%s_%s" % (
self.invalid_repo_name.sub(u'_', self._test_name),
len(self._cleanup_repos))
def ensure_file(self, filename, content='Test content\n'):
assert self._cleanup_repos, "Avoid writing into vcs_test repos"
commits = [
{'added': [
FileNode(filename, content=content),
]},
]
self._add_commits_to_repo(self.repo.scm_instance(), commits)
def enable_downloads(self):
repo = self.repo
repo.enable_downloads = True
Session().add(repo)
Session().commit()
def cleanup(self):
for repo_name in reversed(self._cleanup_repos):
self._fixture.destroy_repo(repo_name)
def _add_commits_to_repo(self, repo, commits):
commit_ids = _add_commits_to_repo(repo, commits)
if not commit_ids:
return
self._commit_ids = commit_ids
# Creating refs for Git to allow fetching them from remote repository
if self.alias == 'git':
refs = {}
for message in self._commit_ids:
# TODO: mikhail: do more special chars replacements
ref_name = 'refs/test-refs/{}'.format(
message.replace(' ', ''))
refs[ref_name] = self._commit_ids[message]
self._create_refs(repo, refs)
def _create_refs(self, repo, refs):
for ref_name in refs:
repo.set_refs(ref_name, refs[ref_name])
@pytest.fixture
def vcsbackend(request, backend_alias, tests_tmp_path, pylonsapp, test_repo):
"""
Parametrized fixture which represents a single vcs backend implementation.
See the fixture `backend` for more details. This one implements the same
concept, but on vcs level. So it does not provide model instances etc.
Parameters are generated dynamically, see :func:`pytest_generate_tests`
for how this works.
"""
if backend_alias not in request.config.getoption('--backends'):
pytest.skip("Backend %s not selected." % (backend_alias, ))
utils.check_xfail_backends(request.node, backend_alias)
utils.check_skip_backends(request.node, backend_alias)
repo_name = 'vcs_test_%s' % (backend_alias, )
repo_path = os.path.join(tests_tmp_path, repo_name)
backend = VcsBackend(
alias=backend_alias,
repo_path=repo_path,
test_name=request.node.name,
test_repo_container=test_repo)
request.addfinalizer(backend.cleanup)
return backend
@pytest.fixture
def vcsbackend_git(request, tests_tmp_path, pylonsapp, test_repo):
return vcsbackend(request, 'git', tests_tmp_path, pylonsapp, test_repo)
@pytest.fixture
def vcsbackend_hg(request, tests_tmp_path, pylonsapp, test_repo):
return vcsbackend(request, 'hg', tests_tmp_path, pylonsapp, test_repo)
@pytest.fixture
def vcsbackend_svn(request, tests_tmp_path, pylonsapp, test_repo):
return vcsbackend(request, 'svn', tests_tmp_path, pylonsapp, test_repo)
@pytest.fixture
def vcsbackend_random(vcsbackend_git):
"""
Use this to express that your tests need "a vcsbackend".
The fixture `vcsbackend` would run the test multiple times for each
available vcs backend which is a pure waste of time if the test is
independent of the vcs backend type.
"""
# TODO: johbo: Change this to pick a random backend
return vcsbackend_git
@pytest.fixture
def vcsbackend_stub(vcsbackend_git):
"""
Use this to express that your test just needs a stub of a vcsbackend.
Plan is to eventually implement an in-memory stub to speed tests up.
"""
return vcsbackend_git
class VcsBackend(object):
"""
Represents the test configuration for one supported vcs backend.
"""
invalid_repo_name = re.compile(r'[^0-9a-zA-Z]+')
def __init__(self, alias, repo_path, test_name, test_repo_container):
self.alias = alias
self._repo_path = repo_path
self._cleanup_repos = []
self._test_name = test_name
self._test_repo_container = test_repo_container
def __getitem__(self, key):
return self._test_repo_container(key, self.alias).scm_instance()
@property
def repo(self):
"""
Returns the "current" repository. This is the vcs_test repo of the last
repo which has been created.
"""
Repository = get_backend(self.alias)
return Repository(self._repo_path)
@property
def backend(self):
"""
Returns the backend implementation class.
"""
return get_backend(self.alias)
def create_repo(self, commits=None, number_of_commits=0, _clone_repo=None):
repo_name = self._next_repo_name()
self._repo_path = get_new_dir(repo_name)
repo_class = get_backend(self.alias)
src_url = None
if _clone_repo:
src_url = _clone_repo.path
repo = repo_class(self._repo_path, create=True, src_url=src_url)
self._cleanup_repos.append(repo)
commits = commits or [
{'message': 'Commit %s of %s' % (x, repo_name)}
for x in xrange(number_of_commits)]
_add_commits_to_repo(repo, commits)
return repo
def clone_repo(self, repo):
return self.create_repo(_clone_repo=repo)
def cleanup(self):
for repo in self._cleanup_repos:
shutil.rmtree(repo.path)
def new_repo_path(self):
repo_name = self._next_repo_name()
self._repo_path = get_new_dir(repo_name)
return self._repo_path
def _next_repo_name(self):
return "%s_%s" % (
self.invalid_repo_name.sub('_', self._test_name),
len(self._cleanup_repos))
def add_file(self, repo, filename, content='Test content\n'):
imc = repo.in_memory_commit
imc.add(FileNode(filename, content=content))
imc.commit(
message=u'Automatic commit from vcsbackend fixture',
author=u'Automatic')
def ensure_file(self, filename, content='Test content\n'):
assert self._cleanup_repos, "Avoid writing into vcs_test repos"
self.add_file(self.repo, filename, content)
def _add_commits_to_repo(vcs_repo, commits):
commit_ids = {}
if not commits:
return commit_ids
imc = vcs_repo.in_memory_commit
commit = None
for idx, commit in enumerate(commits):
message = unicode(commit.get('message', 'Commit %s' % idx))
for node in commit.get('added', []):
imc.add(FileNode(node.path, content=node.content))
for node in commit.get('changed', []):
imc.change(FileNode(node.path, content=node.content))
for node in commit.get('removed', []):
imc.remove(FileNode(node.path))
parents = [
vcs_repo.get_commit(commit_id=commit_ids[p])
for p in commit.get('parents', [])]
operations = ('added', 'changed', 'removed')
if not any((commit.get(o) for o in operations)):
imc.add(FileNode('file_%s' % idx, content=message))
commit = imc.commit(
message=message,
author=unicode(commit.get('author', 'Automatic')),
date=commit.get('date'),
branch=commit.get('branch'),
parents=parents)
commit_ids[commit.message] = commit.raw_id
return commit_ids
@pytest.fixture
def reposerver(request):
"""
Allows to serve a backend repository
"""
repo_server = RepoServer()
request.addfinalizer(repo_server.cleanup)
return repo_server
class RepoServer(object):
"""
Utility to serve a local repository for the duration of a test case.
Supports only Subversion so far.
"""
url = None
def __init__(self):
self._cleanup_servers = []
def serve(self, vcsrepo):
if vcsrepo.alias != 'svn':
raise TypeError("Backend %s not supported" % vcsrepo.alias)
proc = subprocess32.Popen(
['svnserve', '-d', '--foreground', '--listen-host', 'localhost',
'--root', vcsrepo.path])
self._cleanup_servers.append(proc)
self.url = 'svn://localhost'
def cleanup(self):
for proc in self._cleanup_servers:
proc.terminate()
@pytest.fixture
def pr_util(backend, request):
"""
Utility for tests of models and for functional tests around pull requests.
It gives an instance of :class:`PRTestUtility` which provides various
utility methods around one pull request.
This fixture uses `backend` and inherits its parameterization.
"""
util = PRTestUtility(backend)
@request.addfinalizer
def cleanup():
util.cleanup()
return util
class PRTestUtility(object):
pull_request = None
pull_request_id = None
mergeable_patcher = None
mergeable_mock = None
notification_patcher = None
def __init__(self, backend):
self.backend = backend
def create_pull_request(
self, commits=None, target_head=None, source_head=None,
revisions=None, approved=False, author=None, mergeable=False,
enable_notifications=True, name_suffix=u'', reviewers=None,
title=u"Test", description=u"Description"):
self.set_mergeable(mergeable)
if not enable_notifications:
# mock notification side effect
self.notification_patcher = mock.patch(
'rhodecode.model.notification.NotificationModel.create')
self.notification_patcher.start()
if not self.pull_request:
if not commits:
commits = [
{'message': 'c1'},
{'message': 'c2'},
{'message': 'c3'},
]
target_head = 'c1'
source_head = 'c2'
revisions = ['c2']
self.commit_ids = self.backend.create_master_repo(commits)
self.target_repository = self.backend.create_repo(
heads=[target_head], name_suffix=name_suffix)
self.source_repository = self.backend.create_repo(
heads=[source_head], name_suffix=name_suffix)
self.author = author or UserModel().get_by_username(
TEST_USER_ADMIN_LOGIN)
model = PullRequestModel()
self.create_parameters = {
'created_by': self.author,
'source_repo': self.source_repository.repo_name,
'source_ref': self._default_branch_reference(source_head),
'target_repo': self.target_repository.repo_name,
'target_ref': self._default_branch_reference(target_head),
'revisions': [self.commit_ids[r] for r in revisions],
'reviewers': reviewers or self._get_reviewers(),
'title': title,
'description': description,
}
self.pull_request = model.create(**self.create_parameters)
assert model.get_versions(self.pull_request) == []
self.pull_request_id = self.pull_request.pull_request_id
if approved:
self.approve()
Session().add(self.pull_request)
Session().commit()
return self.pull_request
def approve(self):
self.create_status_votes(
ChangesetStatus.STATUS_APPROVED,
*self.pull_request.reviewers)
def close(self):
PullRequestModel().close_pull_request(self.pull_request, self.author)
def _default_branch_reference(self, commit_message):
reference = '%s:%s:%s' % (
'branch',
self.backend.default_branch_name,
self.commit_ids[commit_message])
return reference
def _get_reviewers(self):
model = UserModel()
return [
model.get_by_username(TEST_USER_REGULAR_LOGIN),
model.get_by_username(TEST_USER_REGULAR2_LOGIN),
]
def update_source_repository(self, head=None):
heads = [head or 'c3']
self.backend.pull_heads(self.source_repository, heads=heads)
def add_one_commit(self, head=None):
self.update_source_repository(head=head)
old_commit_ids = set(self.pull_request.revisions)
PullRequestModel().update_commits(self.pull_request)
commit_ids = set(self.pull_request.revisions)
new_commit_ids = commit_ids - old_commit_ids
assert len(new_commit_ids) == 1
return new_commit_ids.pop()
def remove_one_commit(self):
assert len(self.pull_request.revisions) == 2
source_vcs = self.source_repository.scm_instance()
removed_commit_id = source_vcs.commit_ids[-1]
# TODO: johbo: Git and Mercurial have an inconsistent vcs api here,
# remove the if once that's sorted out.
if self.backend.alias == "git":
kwargs = {'branch_name': self.backend.default_branch_name}
else:
kwargs = {}
source_vcs.strip(removed_commit_id, **kwargs)
PullRequestModel().update_commits(self.pull_request)
assert len(self.pull_request.revisions) == 1
return removed_commit_id
def create_comment(self, linked_to=None):
comment = CommentsModel().create(
text=u"Test comment",
repo=self.target_repository.repo_name,
user=self.author,
pull_request=self.pull_request)
assert comment.pull_request_version_id is None
if linked_to:
PullRequestModel()._link_comments_to_version(linked_to)
return comment
def create_inline_comment(
self, linked_to=None, line_no=u'n1', file_path='file_1'):
comment = CommentsModel().create(
text=u"Test comment",
repo=self.target_repository.repo_name,
user=self.author,
line_no=line_no,
f_path=file_path,
pull_request=self.pull_request)
assert comment.pull_request_version_id is None
if linked_to:
PullRequestModel()._link_comments_to_version(linked_to)
return comment
def create_version_of_pull_request(self):
pull_request = self.create_pull_request()
version = PullRequestModel()._create_version_from_snapshot(
pull_request)
return version
def create_status_votes(self, status, *reviewers):
for reviewer in reviewers:
ChangesetStatusModel().set_status(
repo=self.pull_request.target_repo,
status=status,
user=reviewer.user_id,
pull_request=self.pull_request)
def set_mergeable(self, value):
if not self.mergeable_patcher:
self.mergeable_patcher = mock.patch.object(
VcsSettingsModel, 'get_general_settings')
self.mergeable_mock = self.mergeable_patcher.start()
self.mergeable_mock.return_value = {
'rhodecode_pr_merge_enabled': value}
def cleanup(self):
# In case the source repository is already cleaned up, the pull
# request will already be deleted.
pull_request = PullRequest().get(self.pull_request_id)
if pull_request:
PullRequestModel().delete(pull_request)
Session().commit()
if self.notification_patcher:
self.notification_patcher.stop()
if self.mergeable_patcher:
self.mergeable_patcher.stop()
@pytest.fixture
def user_admin(pylonsapp):
"""
Provides the default admin test user as an instance of `db.User`.
"""
user = UserModel().get_by_username(TEST_USER_ADMIN_LOGIN)
return user
@pytest.fixture
def user_regular(pylonsapp):
"""
Provides the default regular test user as an instance of `db.User`.
"""
user = UserModel().get_by_username(TEST_USER_REGULAR_LOGIN)
return user
@pytest.fixture
def user_util(request, pylonsapp):
"""
Provides a wired instance of `UserUtility` with integrated cleanup.
"""
utility = UserUtility(test_name=request.node.name)
request.addfinalizer(utility.cleanup)
return utility
# TODO: johbo: Split this up into utilities per domain or something similar
class UserUtility(object):
def __init__(self, test_name="test"):
self._test_name = self._sanitize_name(test_name)
self.fixture = Fixture()
self.repo_group_ids = []
self.repos_ids = []
self.user_ids = []
self.user_group_ids = []
self.user_repo_permission_ids = []
self.user_group_repo_permission_ids = []
self.user_repo_group_permission_ids = []
self.user_group_repo_group_permission_ids = []
self.user_user_group_permission_ids = []
self.user_group_user_group_permission_ids = []
self.user_permissions = []
def _sanitize_name(self, name):
for char in ['[', ']']:
name = name.replace(char, '_')
return name
def create_repo_group(
self, owner=TEST_USER_ADMIN_LOGIN, auto_cleanup=True):
group_name = "{prefix}_repogroup_{count}".format(
prefix=self._test_name,
count=len(self.repo_group_ids))
repo_group = self.fixture.create_repo_group(
group_name, cur_user=owner)
if auto_cleanup:
self.repo_group_ids.append(repo_group.group_id)
return repo_group
def create_repo(self, owner=TEST_USER_ADMIN_LOGIN, parent=None, auto_cleanup=True):
repo_name = "{prefix}_repository_{count}".format(
prefix=self._test_name,
count=len(self.repos_ids))
repository = self.fixture.create_repo(
repo_name, cur_user=owner, repo_group=parent)
if auto_cleanup:
self.repos_ids.append(repository.repo_id)
return repository
def create_user(self, auto_cleanup=True, **kwargs):
user_name = "{prefix}_user_{count}".format(
prefix=self._test_name,
count=len(self.user_ids))
user = self.fixture.create_user(user_name, **kwargs)
if auto_cleanup:
self.user_ids.append(user.user_id)
return user
def create_user_with_group(self):
user = self.create_user()
user_group = self.create_user_group(members=[user])
return user, user_group
def create_user_group(self, members=None, auto_cleanup=True, **kwargs):
group_name = "{prefix}_usergroup_{count}".format(
prefix=self._test_name,
count=len(self.user_group_ids))
user_group = self.fixture.create_user_group(group_name, **kwargs)
if auto_cleanup:
self.user_group_ids.append(user_group.users_group_id)
if members:
for user in members:
UserGroupModel().add_user_to_group(user_group, user)
return user_group
def grant_user_permission(self, user_name, permission_name):
self._inherit_default_user_permissions(user_name, False)
self.user_permissions.append((user_name, permission_name))
def grant_user_permission_to_repo_group(
self, repo_group, user, permission_name):
permission = RepoGroupModel().grant_user_permission(
repo_group, user, permission_name)
self.user_repo_group_permission_ids.append(
(repo_group.group_id, user.user_id))
return permission
def grant_user_group_permission_to_repo_group(
self, repo_group, user_group, permission_name):
permission = RepoGroupModel().grant_user_group_permission(
repo_group, user_group, permission_name)
self.user_group_repo_group_permission_ids.append(
(repo_group.group_id, user_group.users_group_id))
return permission
def grant_user_permission_to_repo(
self, repo, user, permission_name):
permission = RepoModel().grant_user_permission(
repo, user, permission_name)
self.user_repo_permission_ids.append(
(repo.repo_id, user.user_id))
return permission
def grant_user_group_permission_to_repo(
self, repo, user_group, permission_name):
permission = RepoModel().grant_user_group_permission(
repo, user_group, permission_name)
self.user_group_repo_permission_ids.append(
(repo.repo_id, user_group.users_group_id))
return permission
def grant_user_permission_to_user_group(
self, target_user_group, user, permission_name):
permission = UserGroupModel().grant_user_permission(
target_user_group, user, permission_name)
self.user_user_group_permission_ids.append(
(target_user_group.users_group_id, user.user_id))
return permission
def grant_user_group_permission_to_user_group(
self, target_user_group, user_group, permission_name):
permission = UserGroupModel().grant_user_group_permission(
target_user_group, user_group, permission_name)
self.user_group_user_group_permission_ids.append(
(target_user_group.users_group_id, user_group.users_group_id))
return permission
def revoke_user_permission(self, user_name, permission_name):
self._inherit_default_user_permissions(user_name, True)
UserModel().revoke_perm(user_name, permission_name)
def _inherit_default_user_permissions(self, user_name, value):
user = UserModel().get_by_username(user_name)
user.inherit_default_permissions = value
Session().add(user)
Session().commit()
def cleanup(self):
self._cleanup_permissions()
self._cleanup_repos()
self._cleanup_repo_groups()
self._cleanup_user_groups()
self._cleanup_users()
def _cleanup_permissions(self):
if self.user_permissions:
for user_name, permission_name in self.user_permissions:
self.revoke_user_permission(user_name, permission_name)
for permission in self.user_repo_permission_ids:
RepoModel().revoke_user_permission(*permission)
for permission in self.user_group_repo_permission_ids:
RepoModel().revoke_user_group_permission(*permission)
for permission in self.user_repo_group_permission_ids:
RepoGroupModel().revoke_user_permission(*permission)
for permission in self.user_group_repo_group_permission_ids:
RepoGroupModel().revoke_user_group_permission(*permission)
for permission in self.user_user_group_permission_ids:
UserGroupModel().revoke_user_permission(*permission)
for permission in self.user_group_user_group_permission_ids:
UserGroupModel().revoke_user_group_permission(*permission)
def _cleanup_repo_groups(self):
def _repo_group_compare(first_group_id, second_group_id):
"""
Gives higher priority to the groups with the most complex paths
"""
first_group = RepoGroup.get(first_group_id)
second_group = RepoGroup.get(second_group_id)
first_group_parts = (
len(first_group.group_name.split('/')) if first_group else 0)
second_group_parts = (
len(second_group.group_name.split('/')) if second_group else 0)
return cmp(second_group_parts, first_group_parts)
sorted_repo_group_ids = sorted(
self.repo_group_ids, cmp=_repo_group_compare)
for repo_group_id in sorted_repo_group_ids:
self.fixture.destroy_repo_group(repo_group_id)
def _cleanup_repos(self):
sorted_repos_ids = sorted(self.repos_ids)
for repo_id in sorted_repos_ids:
self.fixture.destroy_repo(repo_id)
def _cleanup_user_groups(self):
def _user_group_compare(first_group_id, second_group_id):
"""
Gives higher priority to the groups with the most complex paths
"""
first_group = UserGroup.get(first_group_id)
second_group = UserGroup.get(second_group_id)
first_group_parts = (
len(first_group.users_group_name.split('/'))
if first_group else 0)
second_group_parts = (
len(second_group.users_group_name.split('/'))
if second_group else 0)
return cmp(second_group_parts, first_group_parts)
sorted_user_group_ids = sorted(
self.user_group_ids, cmp=_user_group_compare)
for user_group_id in sorted_user_group_ids:
self.fixture.destroy_user_group(user_group_id)
def _cleanup_users(self):
for user_id in self.user_ids:
self.fixture.destroy_user(user_id)
# TODO: Think about moving this into a pytest-pyro package and make it a
# pytest plugin
@pytest.hookimpl(tryfirst=True, hookwrapper=True)
def pytest_runtest_makereport(item, call):
"""
Adding the remote traceback if the exception has this information.
VCSServer attaches this information as the attribute `_vcs_server_traceback`
to the exception instance.
"""
outcome = yield
report = outcome.get_result()
if call.excinfo:
_add_vcsserver_remote_traceback(report, call.excinfo.value)
def _add_vcsserver_remote_traceback(report, exc):
vcsserver_traceback = getattr(exc, '_vcs_server_traceback', None)
if vcsserver_traceback:
section = 'VCSServer remote traceback ' + report.when
report.sections.append((section, vcsserver_traceback))
@pytest.fixture(scope='session')
def testrun():
return {
'uuid': uuid.uuid4(),
'start': datetime.datetime.utcnow().isoformat(),
'timestamp': int(time.time()),
}
@pytest.fixture(autouse=True)
def collect_appenlight_stats(request, testrun):
"""
This fixture reports memory consumtion of single tests.
It gathers data based on `psutil` and sends them to Appenlight. The option
``--ae`` has te be used to enable this fixture and the API key for your
application has to be provided in ``--ae-key``.
"""
try:
# cygwin cannot have yet psutil support.
import psutil
except ImportError:
return
if not request.config.getoption('--appenlight'):
return
else:
# Only request the pylonsapp fixture if appenlight tracking is
# enabled. This will speed up a test run of unit tests by 2 to 3
# seconds if appenlight is not enabled.
pylonsapp = request.getfuncargvalue("pylonsapp")
url = '{}/api/logs'.format(request.config.getoption('--appenlight-url'))
client = AppenlightClient(
url=url,
api_key=request.config.getoption('--appenlight-api-key'),
namespace=request.node.nodeid,
request=str(testrun['uuid']),
testrun=testrun)
client.collect({
'message': "Starting",
})
server_and_port = pylonsapp.config['vcs.server']
protocol = pylonsapp.config['vcs.server.protocol']
server = create_vcsserver_proxy(server_and_port, protocol)
with server:
vcs_pid = server.get_pid()
server.run_gc()
vcs_process = psutil.Process(vcs_pid)
mem = vcs_process.memory_info()
client.tag_before('vcsserver.rss', mem.rss)
client.tag_before('vcsserver.vms', mem.vms)
test_process = psutil.Process()
mem = test_process.memory_info()
client.tag_before('test.rss', mem.rss)
client.tag_before('test.vms', mem.vms)
client.tag_before('time', time.time())
@request.addfinalizer
def send_stats():
client.tag_after('time', time.time())
with server:
gc_stats = server.run_gc()
for tag, value in gc_stats.items():
client.tag_after(tag, value)
mem = vcs_process.memory_info()
client.tag_after('vcsserver.rss', mem.rss)
client.tag_after('vcsserver.vms', mem.vms)
mem = test_process.memory_info()
client.tag_after('test.rss', mem.rss)
client.tag_after('test.vms', mem.vms)
client.collect({
'message': "Finished",
})
client.send_stats()
return client
class AppenlightClient():
url_template = '{url}?protocol_version=0.5'
def __init__(
self, url, api_key, add_server=True, add_timestamp=True,
namespace=None, request=None, testrun=None):
self.url = self.url_template.format(url=url)
self.api_key = api_key
self.add_server = add_server
self.add_timestamp = add_timestamp
self.namespace = namespace
self.request = request
self.server = socket.getfqdn(socket.gethostname())
self.tags_before = {}
self.tags_after = {}
self.stats = []
self.testrun = testrun or {}
def tag_before(self, tag, value):
self.tags_before[tag] = value
def tag_after(self, tag, value):
self.tags_after[tag] = value
def collect(self, data):
if self.add_server:
data.setdefault('server', self.server)
if self.add_timestamp:
data.setdefault('date', datetime.datetime.utcnow().isoformat())
if self.namespace:
data.setdefault('namespace', self.namespace)
if self.request:
data.setdefault('request', self.request)
self.stats.append(data)
def send_stats(self):
tags = [
('testrun', self.request),
('testrun.start', self.testrun['start']),
('testrun.timestamp', self.testrun['timestamp']),
('test', self.namespace),
]
for key, value in self.tags_before.items():
tags.append((key + '.before', value))
try:
delta = self.tags_after[key] - value
tags.append((key + '.delta', delta))
except Exception:
pass
for key, value in self.tags_after.items():
tags.append((key + '.after', value))
self.collect({
'message': "Collected tags",
'tags': tags,
})
response = requests.post(
self.url,
headers={
'X-appenlight-api-key': self.api_key},
json=self.stats,
)
if not response.status_code == 200:
pprint.pprint(self.stats)
print response.headers
print response.text
raise Exception('Sending to appenlight failed')
@pytest.fixture
def gist_util(request, pylonsapp):
"""
Provides a wired instance of `GistUtility` with integrated cleanup.
"""
utility = GistUtility()
request.addfinalizer(utility.cleanup)
return utility
class GistUtility(object):
def __init__(self):
self.fixture = Fixture()
self.gist_ids = []
def create_gist(self, **kwargs):
gist = self.fixture.create_gist(**kwargs)
self.gist_ids.append(gist.gist_id)
return gist
def cleanup(self):
for id_ in self.gist_ids:
self.fixture.destroy_gists(str(id_))
@pytest.fixture
def enabled_backends(request):
backends = request.config.option.backends
return backends[:]
@pytest.fixture
def settings_util(request):
"""
Provides a wired instance of `SettingsUtility` with integrated cleanup.
"""
utility = SettingsUtility()
request.addfinalizer(utility.cleanup)
return utility
class SettingsUtility(object):
def __init__(self):
self.rhodecode_ui_ids = []
self.rhodecode_setting_ids = []
self.repo_rhodecode_ui_ids = []
self.repo_rhodecode_setting_ids = []
def create_repo_rhodecode_ui(
self, repo, section, value, key=None, active=True, cleanup=True):
key = key or hashlib.sha1(
'{}{}{}'.format(section, value, repo.repo_id)).hexdigest()
setting = RepoRhodeCodeUi()
setting.repository_id = repo.repo_id
setting.ui_section = section
setting.ui_value = value
setting.ui_key = key
setting.ui_active = active
Session().add(setting)
Session().commit()
if cleanup:
self.repo_rhodecode_ui_ids.append(setting.ui_id)
return setting
def create_rhodecode_ui(
self, section, value, key=None, active=True, cleanup=True):
key = key or hashlib.sha1('{}{}'.format(section, value)).hexdigest()
setting = RhodeCodeUi()
setting.ui_section = section
setting.ui_value = value
setting.ui_key = key
setting.ui_active = active
Session().add(setting)
Session().commit()
if cleanup:
self.rhodecode_ui_ids.append(setting.ui_id)
return setting
def create_repo_rhodecode_setting(
self, repo, name, value, type_, cleanup=True):
setting = RepoRhodeCodeSetting(
repo.repo_id, key=name, val=value, type=type_)
Session().add(setting)
Session().commit()
if cleanup:
self.repo_rhodecode_setting_ids.append(setting.app_settings_id)
return setting
def create_rhodecode_setting(self, name, value, type_, cleanup=True):
setting = RhodeCodeSetting(key=name, val=value, type=type_)
Session().add(setting)
Session().commit()
if cleanup:
self.rhodecode_setting_ids.append(setting.app_settings_id)
return setting
def cleanup(self):
for id_ in self.rhodecode_ui_ids:
setting = RhodeCodeUi.get(id_)
Session().delete(setting)
for id_ in self.rhodecode_setting_ids:
setting = RhodeCodeSetting.get(id_)
Session().delete(setting)
for id_ in self.repo_rhodecode_ui_ids:
setting = RepoRhodeCodeUi.get(id_)
Session().delete(setting)
for id_ in self.repo_rhodecode_setting_ids:
setting = RepoRhodeCodeSetting.get(id_)
Session().delete(setting)
Session().commit()
@pytest.fixture
def no_notifications(request):
notification_patcher = mock.patch(
'rhodecode.model.notification.NotificationModel.create')
notification_patcher.start()
request.addfinalizer(notification_patcher.stop)
@pytest.fixture
def silence_action_logger(request):
notification_patcher = mock.patch(
'rhodecode.lib.utils.action_logger')
notification_patcher.start()
request.addfinalizer(notification_patcher.stop)
@pytest.fixture(scope='session')
def repeat(request):
"""
The number of repetitions is based on this fixture.
Slower calls may divide it by 10 or 100. It is chosen in a way so that the
tests are not too slow in our default test suite.
"""
return request.config.getoption('--repeat')
@pytest.fixture
def rhodecode_fixtures():
return Fixture()
@pytest.fixture
def request_stub():
"""
Stub request object.
"""
request = pyramid.testing.DummyRequest()
request.scheme = 'https'
return request
@pytest.fixture
def config_stub(request, request_stub):
"""
Set up pyramid.testing and return the Configurator.
"""
config = pyramid.testing.setUp(request=request_stub)
@request.addfinalizer
def cleanup():
pyramid.testing.tearDown()
return config
@pytest.fixture
def StubIntegrationType():
class _StubIntegrationType(IntegrationTypeBase):
""" Test integration type class """
key = 'test'
display_name = 'Test integration type'
description = 'A test integration type for testing'
icon = 'test_icon_html_image'
def __init__(self, settings):
super(_StubIntegrationType, self).__init__(settings)
self.sent_events = [] # for testing
def send_event(self, event):
self.sent_events.append(event)
def settings_schema(self):
class SettingsSchema(colander.Schema):
test_string_field = colander.SchemaNode(
colander.String(),
missing=colander.required,
title='test string field',
)
test_int_field = colander.SchemaNode(
colander.Int(),
title='some integer setting',
)
return SettingsSchema()
integration_type_registry.register_integration_type(_StubIntegrationType)
return _StubIntegrationType
@pytest.fixture
def stub_integration_settings():
return {
'test_string_field': 'some data',
'test_int_field': 100,
}
@pytest.fixture
def repo_integration_stub(request, repo_stub, StubIntegrationType,
stub_integration_settings):
integration = IntegrationModel().create(
StubIntegrationType, settings=stub_integration_settings, enabled=True,
name='test repo integration',
repo=repo_stub, repo_group=None, child_repos_only=None)
@request.addfinalizer
def cleanup():
IntegrationModel().delete(integration)
return integration
@pytest.fixture
def repogroup_integration_stub(request, test_repo_group, StubIntegrationType,
stub_integration_settings):
integration = IntegrationModel().create(
StubIntegrationType, settings=stub_integration_settings, enabled=True,
name='test repogroup integration',
repo=None, repo_group=test_repo_group, child_repos_only=True)
@request.addfinalizer
def cleanup():
IntegrationModel().delete(integration)
return integration
@pytest.fixture
def repogroup_recursive_integration_stub(request, test_repo_group,
StubIntegrationType, stub_integration_settings):
integration = IntegrationModel().create(
StubIntegrationType, settings=stub_integration_settings, enabled=True,
name='test recursive repogroup integration',
repo=None, repo_group=test_repo_group, child_repos_only=False)
@request.addfinalizer
def cleanup():
IntegrationModel().delete(integration)
return integration
@pytest.fixture
def global_integration_stub(request, StubIntegrationType,
stub_integration_settings):
integration = IntegrationModel().create(
StubIntegrationType, settings=stub_integration_settings, enabled=True,
name='test global integration',
repo=None, repo_group=None, child_repos_only=None)
@request.addfinalizer
def cleanup():
IntegrationModel().delete(integration)
return integration
@pytest.fixture
def root_repos_integration_stub(request, StubIntegrationType,
stub_integration_settings):
integration = IntegrationModel().create(
StubIntegrationType, settings=stub_integration_settings, enabled=True,
name='test global integration',
repo=None, repo_group=None, child_repos_only=True)
@request.addfinalizer
def cleanup():
IntegrationModel().delete(integration)
return integration
@pytest.fixture
def local_dt_to_utc():
def _factory(dt):
return dt.replace(tzinfo=dateutil.tz.tzlocal()).astimezone(
dateutil.tz.tzutc()).replace(tzinfo=None)
return _factory