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caches: use repo.lru based Dict cache. This LRUDict uses Timing Algo to not have to use locking...
caches: use repo.lru based Dict cache. This LRUDict uses Timing Algo to not have to use locking for the LRU implementation, this it's safer to use for dogpile. We used it before with beaker, so it's generally more stable.
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repo_group_schema.py
298 lines | 10.5 KiB | text/x-python | PythonLexer
/ rhodecode / model / validation_schema / schemas / repo_group_schema.py
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# -*- coding: utf-8 -*-
# Copyright (C) 2016-2018 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 colander
import deform.widget
from rhodecode.translation import _
from rhodecode.model.validation_schema import validators, preparers, types
def get_group_and_repo(repo_name):
from rhodecode.model.repo_group import RepoGroupModel
return RepoGroupModel()._get_group_name_and_parent(
repo_name, get_object=True)
def get_repo_group(repo_group_id):
from rhodecode.model.repo_group import RepoGroup
return RepoGroup.get(repo_group_id), RepoGroup.CHOICES_SEPARATOR
@colander.deferred
def deferred_can_write_to_group_validator(node, kw):
old_values = kw.get('old_values') or {}
request_user = kw.get('user')
def can_write_group_validator(node, value):
from rhodecode.lib.auth import (
HasPermissionAny, HasRepoGroupPermissionAny)
from rhodecode.model.repo_group import RepoGroupModel
messages = {
'invalid_parent_repo_group':
_(u"Parent repository group `{}` does not exist"),
# permissions denied we expose as not existing, to prevent
# resource discovery
'permission_denied_parent_group':
_(u"Parent repository group `{}` does not exist"),
'permission_denied_root':
_(u"You do not have the permission to store "
u"repository groups in the root location.")
}
value = value['repo_group_name']
parent_group_name = value
is_root_location = value is types.RootLocation
# NOT initialized validators, we must call them
can_create_repo_groups_at_root = HasPermissionAny(
'hg.admin', 'hg.repogroup.create.true')
if is_root_location:
if can_create_repo_groups_at_root(user=request_user):
# we can create repo group inside tool-level. No more checks
# are required
return
else:
raise colander.Invalid(node, messages['permission_denied_root'])
# check if the parent repo group actually exists
parent_group = None
if parent_group_name:
parent_group = RepoGroupModel().get_by_group_name(parent_group_name)
if value and not parent_group:
raise colander.Invalid(
node, messages['invalid_parent_repo_group'].format(
parent_group_name))
# check if we have permissions to create new groups under
# parent repo group
# create repositories with write permission on group is set to true
create_on_write = HasPermissionAny(
'hg.create.write_on_repogroup.true')(user=request_user)
group_admin = HasRepoGroupPermissionAny('group.admin')(
parent_group_name, 'can write into group validator', user=request_user)
group_write = HasRepoGroupPermissionAny('group.write')(
parent_group_name, 'can write into group validator', user=request_user)
# creation by write access is currently disabled. Needs thinking if
# we want to allow this...
forbidden = not (group_admin or (group_write and create_on_write and 0))
if parent_group and forbidden:
msg = messages['permission_denied_parent_group'].format(
parent_group_name)
raise colander.Invalid(node, msg)
return can_write_group_validator
@colander.deferred
def deferred_repo_group_owner_validator(node, kw):
def repo_owner_validator(node, value):
from rhodecode.model.db import User
existing = User.get_by_username(value)
if not existing:
msg = _(u'Repo group owner with id `{}` does not exists').format(
value)
raise colander.Invalid(node, msg)
return repo_owner_validator
@colander.deferred
def deferred_unique_name_validator(node, kw):
request_user = kw.get('user')
old_values = kw.get('old_values') or {}
def unique_name_validator(node, value):
from rhodecode.model.db import Repository, RepoGroup
name_changed = value != old_values.get('group_name')
existing = Repository.get_by_repo_name(value)
if name_changed and existing:
msg = _(u'Repository with name `{}` already exists').format(value)
raise colander.Invalid(node, msg)
existing_group = RepoGroup.get_by_group_name(value)
if name_changed and existing_group:
msg = _(u'Repository group with name `{}` already exists').format(
value)
raise colander.Invalid(node, msg)
return unique_name_validator
@colander.deferred
def deferred_repo_group_name_validator(node, kw):
return validators.valid_name_validator
@colander.deferred
def deferred_repo_group_validator(node, kw):
options = kw.get(
'repo_group_repo_group_options')
return colander.OneOf([x for x in options])
@colander.deferred
def deferred_repo_group_widget(node, kw):
items = kw.get('repo_group_repo_group_items')
return deform.widget.Select2Widget(values=items)
class GroupType(colander.Mapping):
def _validate(self, node, value):
try:
return dict(repo_group_name=value)
except Exception as e:
raise colander.Invalid(
node, '"${val}" is not a mapping type: ${err}'.format(
val=value, err=e))
def deserialize(self, node, cstruct):
if cstruct is colander.null:
return cstruct
appstruct = super(GroupType, self).deserialize(node, cstruct)
validated_name = appstruct['repo_group_name']
# inject group based on once deserialized data
(repo_group_name_without_group,
parent_group_name,
parent_group) = get_group_and_repo(validated_name)
appstruct['repo_group_name_with_group'] = validated_name
appstruct['repo_group_name_without_group'] = repo_group_name_without_group
appstruct['repo_group_name'] = parent_group_name or types.RootLocation
if parent_group:
appstruct['repo_group_id'] = parent_group.group_id
return appstruct
class GroupSchema(colander.SchemaNode):
schema_type = GroupType
validator = deferred_can_write_to_group_validator
missing = colander.null
class RepoGroup(GroupSchema):
repo_group_name = colander.SchemaNode(
types.GroupNameType())
repo_group_id = colander.SchemaNode(
colander.String(), missing=None)
repo_group_name_without_group = colander.SchemaNode(
colander.String(), missing=None)
class RepoGroupAccessSchema(colander.MappingSchema):
repo_group = RepoGroup()
class RepoGroupNameUniqueSchema(colander.MappingSchema):
unique_repo_group_name = colander.SchemaNode(
colander.String(),
validator=deferred_unique_name_validator)
class RepoGroupSchema(colander.Schema):
repo_group_name = colander.SchemaNode(
types.GroupNameType(),
validator=deferred_repo_group_name_validator)
repo_group_owner = colander.SchemaNode(
colander.String(),
validator=deferred_repo_group_owner_validator)
repo_group_description = colander.SchemaNode(
colander.String(), missing='', widget=deform.widget.TextAreaWidget())
repo_group_copy_permissions = colander.SchemaNode(
types.StringBooleanType(),
missing=False, widget=deform.widget.CheckboxWidget())
repo_group_enable_locking = colander.SchemaNode(
types.StringBooleanType(),
missing=False, widget=deform.widget.CheckboxWidget())
def deserialize(self, cstruct):
"""
Custom deserialize that allows to chain validation, and verify
permissions, and as last step uniqueness
"""
appstruct = super(RepoGroupSchema, self).deserialize(cstruct)
validated_name = appstruct['repo_group_name']
# second pass to validate permissions to repo_group
second = RepoGroupAccessSchema().bind(**self.bindings)
appstruct_second = second.deserialize({'repo_group': validated_name})
# save result
appstruct['repo_group'] = appstruct_second['repo_group']
# thirds to validate uniqueness
third = RepoGroupNameUniqueSchema().bind(**self.bindings)
third.deserialize({'unique_repo_group_name': validated_name})
return appstruct
class RepoGroupSettingsSchema(RepoGroupSchema):
repo_group = colander.SchemaNode(
colander.Integer(),
validator=deferred_repo_group_validator,
widget=deferred_repo_group_widget,
missing='')
def deserialize(self, cstruct):
"""
Custom deserialize that allows to chain validation, and verify
permissions, and as last step uniqueness
"""
# first pass, to validate given data
appstruct = super(RepoGroupSchema, self).deserialize(cstruct)
validated_name = appstruct['repo_group_name']
# because of repoSchema adds repo-group as an ID, we inject it as
# full name here because validators require it, it's unwrapped later
# so it's safe to use and final name is going to be without group anyway
group, separator = get_repo_group(appstruct['repo_group'])
if group:
validated_name = separator.join([group.group_name, validated_name])
# second pass to validate permissions to repo_group
second = RepoGroupAccessSchema().bind(**self.bindings)
appstruct_second = second.deserialize({'repo_group': validated_name})
# save result
appstruct['repo_group'] = appstruct_second['repo_group']
# thirds to validate uniqueness
third = RepoGroupNameUniqueSchema().bind(**self.bindings)
third.deserialize({'unique_repo_group_name': validated_name})
return appstruct