from collections import defaultdict from typing import List, Tuple import time from django.core.cache import cache from django.conf import settings from django.db.models import Q, QuerySet from django.utils.translation import gettext as _ from common.db.models import output_as_string, UnionQuerySet from common.utils.common import lazyproperty, timeit from assets.utils import NodeAssetsUtil from common.utils import get_logger from common.decorator import on_transaction_commit from orgs.utils import tmp_to_org, current_org, ensure_in_real_or_default_org, tmp_to_root_org from assets.models import ( Asset, FavoriteAsset, AssetQuerySet, NodeQuerySet ) from orgs.models import Organization from perms.models import ( AssetPermission, PermNode, UserAssetGrantedTreeNodeRelation, ) from users.models import User from perms.locks import UserGrantedTreeRebuildLock NodeFrom = UserAssetGrantedTreeNodeRelation.NodeFrom NODE_ONLY_FIELDS = ('id', 'key', 'parent_key', 'org_id') logger = get_logger(__name__) def get_user_all_asset_perm_ids(user) -> set: asset_perm_ids = set() user_perm_id = AssetPermission.users.through.objects \ .filter(user_id=user.id) \ .values_list('assetpermission_id', flat=True) \ .distinct() asset_perm_ids.update(user_perm_id) group_ids = user.groups.through.objects \ .filter(user_id=user.id) \ .values_list('usergroup_id', flat=True) \ .distinct() group_ids = list(group_ids) groups_perm_id = AssetPermission.user_groups.through.objects \ .filter(usergroup_id__in=group_ids) \ .values_list('assetpermission_id', flat=True) \ .distinct() asset_perm_ids.update(groups_perm_id) asset_perm_ids = AssetPermission.objects.filter( id__in=asset_perm_ids).valid().values_list('id', flat=True) asset_perm_ids = set(asset_perm_ids) return asset_perm_ids class UserGrantedTreeRefreshController: key_template = 'perms.user.node_tree.built_orgs.user_id:{user_id}' def __init__(self, user): self.user = user self.key = self.key_template.format(user_id=user.id) self.client = self.get_redis_client() @classmethod def clean_all_user_tree_built_mark(cls): """ 清除所有用户已构建树的标记 """ client = cls.get_redis_client() key_match = cls.key_template.format(user_id='*') keys = client.keys(key_match) with client.pipeline() as p: for key in keys: p.delete(key) p.execute() @classmethod def get_redis_client(cls): return cache.client.get_client(write=True) def get_need_refresh_org_ids(self): org_ids = self.client.smembers(self.key) return {org_id.decode() for org_id in org_ids} def set_all_orgs_as_built(self): self.client.sadd(self.key, *self.org_ids) def have_need_refresh_orgs(self): built_org_ids = self.client.smembers(self.key) built_org_ids = {org_id.decode() for org_id in built_org_ids} have = self.org_ids - built_org_ids return have def get_need_refresh_orgs_and_fill_up(self): org_ids = self.org_ids with self.client.pipeline() as p: p.smembers(self.key) p.sadd(self.key, *org_ids) ret = p.execute() built_org_ids = {org_id.decode() for org_id in ret[0]} ids = org_ids - built_org_ids orgs = {*Organization.objects.filter(id__in=ids)} logger.info( f'Need rebuild orgs are {orgs}, built orgs are {ret[0]}, ' f'all orgs are {org_ids}' ) return orgs @classmethod @on_transaction_commit def remove_built_orgs_from_users(cls, org_ids, user_ids): client = cls.get_redis_client() org_ids = [str(org_id) for org_id in org_ids] with client.pipeline() as p: for user_id in user_ids: key = cls.key_template.format(user_id=user_id) p.srem(key, *org_ids) p.execute() logger.info(f'Remove orgs from users built tree: users:{user_ids} ' f'orgs:{org_ids}') @classmethod def add_need_refresh_orgs_for_users(cls, org_ids, user_ids): cls.remove_built_orgs_from_users(org_ids, user_ids) @classmethod @ensure_in_real_or_default_org def add_need_refresh_on_nodes_assets_relate_change(cls, node_ids, asset_ids): """ 1,计算与这些资产有关的授权 2,计算与这些节点以及祖先节点有关的授权 """ node_ids = set(node_ids) ancestor_node_keys = set() asset_perm_ids = set() nodes = PermNode.objects.filter(id__in=node_ids).only('id', 'key') for node in nodes: ancestor_node_keys.update(node.get_ancestor_keys()) ancestor_id = PermNode.objects.filter(key__in=ancestor_node_keys).values_list('id', flat=True) node_ids.update(ancestor_id) assets_related_perm_ids = AssetPermission.nodes.through.objects.filter( node_id__in=node_ids ).values_list('assetpermission_id', flat=True) asset_perm_ids.update(assets_related_perm_ids) nodes_related_perm_ids = AssetPermission.assets.through.objects.filter( asset_id__in=asset_ids ).values_list('assetpermission_id', flat=True) asset_perm_ids.update(nodes_related_perm_ids) cls.add_need_refresh_by_asset_perm_ids(asset_perm_ids) @classmethod def add_need_refresh_by_asset_perm_ids_cross_orgs(cls, asset_perm_ids): org_id_perm_ids_mapper = defaultdict(set) pairs = AssetPermission.objects.filter(id__in=asset_perm_ids).values_list('org_id', 'id') for org_id, perm_id in pairs: org_id_perm_ids_mapper[org_id].add(perm_id) for org_id, perm_ids in org_id_perm_ids_mapper.items(): with tmp_to_org(org_id): cls.add_need_refresh_by_asset_perm_ids(perm_ids) @classmethod @ensure_in_real_or_default_org def add_need_refresh_by_asset_perm_ids(cls, asset_perm_ids): group_ids = AssetPermission.user_groups.through.objects.filter( assetpermission_id__in=asset_perm_ids ).values_list('usergroup_id', flat=True) user_ids = set() direct_user_id = AssetPermission.users.through.objects.filter( assetpermission_id__in=asset_perm_ids ).values_list('user_id', flat=True) user_ids.update(direct_user_id) group_user_ids = User.groups.through.objects.filter( usergroup_id__in=group_ids ).values_list('user_id', flat=True) user_ids.update(group_user_ids) cls.remove_built_orgs_from_users( [current_org.id], user_ids ) @lazyproperty def org_ids(self): ret = {str(org.id) for org in self.orgs} return ret @lazyproperty def orgs(self): orgs = {*self.user.orgs.all().distinct()} return orgs @timeit def refresh_if_need(self, force=False): user = self.user with tmp_to_root_org(): UserAssetGrantedTreeNodeRelation.objects.filter(user=user)\ .exclude(org_id__in=self.org_ids)\ .delete() if force or self.have_need_refresh_orgs(): with UserGrantedTreeRebuildLock(user_id=user.id): if force: orgs = self.orgs self.set_all_orgs_as_built() else: orgs = self.get_need_refresh_orgs_and_fill_up() for org in orgs: with tmp_to_org(org): t_start = time.time() logger.info(f'Rebuild user tree: user={self.user} org={current_org}') utils = UserGrantedTreeBuildUtils(user) utils.rebuild_user_granted_tree() logger.info( f'Rebuild user tree ok: cost={time.time() - t_start} ' f'user={self.user} org={current_org}' ) class UserGrantedUtilsBase: user: User def __init__(self, user, asset_perm_ids=None): self.user = user self._asset_perm_ids = asset_perm_ids and set(asset_perm_ids) @lazyproperty def asset_perm_ids(self) -> set: if self._asset_perm_ids: return self._asset_perm_ids asset_perm_ids = get_user_all_asset_perm_ids(self.user) return asset_perm_ids class UserGrantedTreeBuildUtils(UserGrantedUtilsBase): def get_direct_granted_nodes(self) -> NodeQuerySet: # 查询直接授权节点 nodes = PermNode.objects.filter( granted_by_permissions__id__in=self.asset_perm_ids ).distinct() return nodes @lazyproperty def direct_granted_asset_ids(self) -> list: # 3.15 asset_ids = AssetPermission.assets.through.objects.filter( assetpermission_id__in=self.asset_perm_ids ).annotate( asset_id_str=output_as_string('asset_id') ).values_list( 'asset_id_str', flat=True ).distinct() asset_ids = list(asset_ids) return asset_ids @ensure_in_real_or_default_org def rebuild_user_granted_tree(self): """ 注意:调用该方法一定要被 `UserGrantedTreeRebuildLock` 锁住 """ user = self.user # 先删除旧的授权树🌲 UserAssetGrantedTreeNodeRelation.objects.filter(user=user).delete() if not self.asset_perm_ids: # 没有授权直接返回 return nodes = self.compute_perm_nodes_tree() self.compute_node_assets_amount(nodes) if not nodes: return self.create_mapping_nodes(nodes) @timeit def compute_perm_nodes_tree(self, node_only_fields=NODE_ONLY_FIELDS) -> list: # 查询直接授权节点 nodes = self.get_direct_granted_nodes().only(*node_only_fields) nodes = list(nodes) # 授权的节点 key 集合 granted_key_set = {_node.key for _node in nodes} def _has_ancestor_granted(node: PermNode): """ 判断一个节点是否有授权过的祖先节点 """ ancestor_keys = set(node.get_ancestor_keys()) return ancestor_keys & granted_key_set key2leaf_nodes_mapper = {} # 给授权节点设置 granted 标识,同时去重 for node in nodes: node: PermNode if _has_ancestor_granted(node): continue node.node_from = NodeFrom.granted key2leaf_nodes_mapper[node.key] = node # 查询授权资产关联的节点设置 def process_direct_granted_assets(): # 查询直接授权资产 node_ids = {node_id_str for node_id_str, _ in self.direct_granted_asset_id_node_id_str_pairs} # 查询授权资产关联的节点设置 2.80 granted_asset_nodes = PermNode.objects.filter( id__in=node_ids ).distinct().only(*node_only_fields) granted_asset_nodes = list(granted_asset_nodes) # 给资产授权关联的节点设置 is_asset_granted 标识,同时去重 for node in granted_asset_nodes: if _has_ancestor_granted(node): continue if node.key in key2leaf_nodes_mapper: continue node.node_from = NodeFrom.asset key2leaf_nodes_mapper[node.key] = node if not settings.PERM_SINGLE_ASSET_TO_UNGROUP_NODE: process_direct_granted_assets() leaf_nodes = key2leaf_nodes_mapper.values() # 计算所有祖先节点 ancestor_keys = set() for node in leaf_nodes: ancestor_keys.update(node.get_ancestor_keys()) # 从祖先节点 key 中去掉同时也是叶子节点的 key ancestor_keys -= key2leaf_nodes_mapper.keys() # 查出祖先节点 ancestors = PermNode.objects.filter(key__in=ancestor_keys).only(*node_only_fields) ancestors = list(ancestors) for node in ancestors: node.node_from = NodeFrom.child result = [*leaf_nodes, *ancestors] return result @timeit def create_mapping_nodes(self, nodes): user = self.user to_create = [] for node in nodes: to_create.append(UserAssetGrantedTreeNodeRelation( user=user, node=node, node_key=node.key, node_parent_key=node.parent_key, node_from=node.node_from, node_assets_amount=node.assets_amount, org_id=node.org_id )) UserAssetGrantedTreeNodeRelation.objects.bulk_create(to_create) @timeit def _fill_direct_granted_node_asset_ids_from_mem(self, nodes_key, mapper): org_id = current_org.id for key in nodes_key: asset_ids = PermNode.get_all_asset_ids_by_node_key(org_id, key) mapper[key].update(asset_ids) @lazyproperty def direct_granted_asset_id_node_id_str_pairs(self): node_asset_pairs = Asset.nodes.through.objects.filter( asset_id__in=self.direct_granted_asset_ids ).annotate( asset_id_str=output_as_string('asset_id'), node_id_str=output_as_string('node_id') ).values_list( 'node_id_str', 'asset_id_str' ) node_asset_pairs = list(node_asset_pairs) return node_asset_pairs @timeit def compute_node_assets_amount(self, nodes: List[PermNode]): """ 这里计算的是一个组织的 """ # 直接授权了根节点,直接计算 if len(nodes) == 1: node = nodes[0] if node.node_from == NodeFrom.granted and node.key.isdigit(): with tmp_to_org(node.org): node.granted_assets_amount = len(node.get_all_asset_ids()) return direct_granted_nodes_key = [] node_id_key_mapper = {} for node in nodes: if node.node_from == NodeFrom.granted: direct_granted_nodes_key.append(node.key) node_id_key_mapper[node.id.hex] = node.key # 授权的节点和直接资产的映射 nodekey_assetsid_mapper = defaultdict(set) # 直接授权的节点,资产从完整树过来 self._fill_direct_granted_node_asset_ids_from_mem( direct_granted_nodes_key, nodekey_assetsid_mapper ) # 处理直接授权资产 # 直接授权资产,取节点与资产的关系 node_asset_pairs = self.direct_granted_asset_id_node_id_str_pairs node_asset_pairs = list(node_asset_pairs) for node_id, asset_id in node_asset_pairs: if node_id not in node_id_key_mapper: continue nkey = node_id_key_mapper[node_id] nodekey_assetsid_mapper[nkey].add(asset_id) util = NodeAssetsUtil(nodes, nodekey_assetsid_mapper) util.generate() for node in nodes: assets_amount = util.get_assets_amount(node.key) node.assets_amount = assets_amount def get_whole_tree_nodes(self) -> list: node_only_fields = NODE_ONLY_FIELDS + ('value', 'full_value') nodes = self.compute_perm_nodes_tree(node_only_fields=node_only_fields) self.compute_node_assets_amount(nodes) # 查询直接授权节点的子节点 q = Q() for node in self.get_direct_granted_nodes().only('key'): q |= Q(key__startswith=f'{node.key}:') if q: descendant_nodes = PermNode.objects.filter(q).distinct() else: descendant_nodes = PermNode.objects.none() nodes.extend(descendant_nodes) return nodes class UserGrantedAssetsQueryUtils(UserGrantedUtilsBase): def get_favorite_assets(self) -> QuerySet: favorite_asset_ids = FavoriteAsset.objects.filter( user=self.user ).values_list('asset_id', flat=True) favorite_asset_ids = list(favorite_asset_ids) assets = self.get_all_granted_assets() assets = assets.filter(id__in=favorite_asset_ids) return assets def get_ungroup_assets(self) -> AssetQuerySet: return self.get_direct_granted_assets() def get_direct_granted_assets(self) -> AssetQuerySet: queryset = Asset.objects.order_by().filter( granted_by_permissions__id__in=self.asset_perm_ids ).distinct() return queryset def get_direct_granted_nodes_assets(self) -> AssetQuerySet: granted_node_ids = AssetPermission.nodes.through.objects.filter( assetpermission_id__in=self.asset_perm_ids ).values_list('node_id', flat=True).distinct() granted_node_ids = list(granted_node_ids) granted_nodes = PermNode.objects.filter(id__in=granted_node_ids).only('id', 'key') queryset = PermNode.get_nodes_all_assets(*granted_nodes) return queryset def get_all_granted_assets(self) -> QuerySet: nodes_assets = self.get_direct_granted_nodes_assets() assets = self.get_direct_granted_assets() queryset = UnionQuerySet(nodes_assets, assets) return queryset def get_node_all_assets(self, id) -> Tuple[PermNode, QuerySet]: node = PermNode.objects.get(id=id) granted_status = node.get_granted_status(self.user) if granted_status == NodeFrom.granted: assets = PermNode.get_nodes_all_assets(node) return node, assets elif granted_status in (NodeFrom.asset, NodeFrom.child): node.use_granted_assets_amount() assets = self._get_indirect_granted_node_all_assets(node) return node, assets else: node.assets_amount = 0 return node, Asset.objects.none() def get_node_assets(self, key) -> AssetQuerySet: node = PermNode.objects.get(key=key) granted_status = node.get_granted_status(self.user) if granted_status == NodeFrom.granted: assets = Asset.objects.order_by().filter(nodes__id=node.id) elif granted_status == NodeFrom.asset: assets = self._get_indirect_granted_node_assets(node.id) else: assets = Asset.objects.none() assets = assets.order_by('hostname') return assets def _get_indirect_granted_node_assets(self, id) -> AssetQuerySet: assets = Asset.objects.order_by().filter(nodes__id=id).distinct() & self.get_direct_granted_assets() return assets def _get_indirect_granted_node_all_assets(self, node) -> QuerySet: """ 此算法依据 `UserAssetGrantedTreeNodeRelation` 的数据查询 1. 查询该节点下的直接授权节点 2. 查询该节点下授权资产关联的节点 """ user = self.user # 查询该节点下的授权节点 granted_nodes = UserAssetGrantedTreeNodeRelation.objects.filter( user=user, node_from=NodeFrom.granted ).filter( Q(node_key__startswith=f'{node.key}:') ).only('node_id', 'node_key') for n in granted_nodes: n.id = n.node_id node_assets = PermNode.get_nodes_all_assets(*granted_nodes) # 查询该节点下的资产授权节点 only_asset_granted_node_ids = UserAssetGrantedTreeNodeRelation.objects.filter( user=user, node_from=NodeFrom.asset ).filter( Q(node_key__startswith=f'{node.key}:') ).values_list('node_id', flat=True) only_asset_granted_node_ids = list(only_asset_granted_node_ids) if node.node_from == NodeFrom.asset: only_asset_granted_node_ids.append(node.id) assets = Asset.objects.filter( nodes__id__in=only_asset_granted_node_ids, granted_by_permissions__id__in=self.asset_perm_ids ).distinct().order_by() granted_assets = UnionQuerySet(node_assets, assets) return granted_assets class UserGrantedNodesQueryUtils(UserGrantedUtilsBase): def sort(self, nodes): nodes = sorted(nodes, key=lambda x: x.value) return nodes def get_node_children(self, key): if not key: return self.get_top_level_nodes() nodes = PermNode.objects.none() if key in [PermNode.FAVORITE_NODE_KEY, PermNode.UNGROUPED_NODE_KEY]: return nodes node = PermNode.objects.get(key=key) granted_status = node.get_granted_status(self.user) if granted_status == NodeFrom.granted: nodes = PermNode.objects.filter(parent_key=key) elif granted_status in (NodeFrom.asset, NodeFrom.child): nodes = self.get_indirect_granted_node_children(key) nodes = self.sort(nodes) return nodes def get_indirect_granted_node_children(self, key): """ 获取用户授权树中未授权节点的子节点 只匹配在 `UserAssetGrantedTreeNodeRelation` 中存在的节点 """ user = self.user nodes = PermNode.objects.filter( granted_node_rels__user=user, parent_key=key ).annotate( **PermNode.annotate_granted_node_rel_fields ).distinct() # 设置节点授权资产数量 for node in nodes: node.use_granted_assets_amount() return nodes def get_top_level_nodes(self): nodes = self.get_special_nodes() real_nodes = self.get_indirect_granted_node_children('') nodes.extend(self.sort(real_nodes)) return nodes def get_ungrouped_node(self): assets_util = UserGrantedAssetsQueryUtils(self.user, self.asset_perm_ids) assets_amount = assets_util.get_direct_granted_assets().count() return PermNode.get_ungrouped_node(assets_amount) def get_favorite_node(self): assets_query_utils = UserGrantedAssetsQueryUtils(self.user, self.asset_perm_ids) assets_amount = assets_query_utils.get_favorite_assets().values_list('id').count() return PermNode.get_favorite_node(assets_amount) @staticmethod def get_root_node(): name = _('My assets') node = { 'id': '', 'name': name, 'title': name, 'pId': '', 'open': True, 'isParent': True, 'meta': { 'type': 'root' } } return node def get_special_nodes(self): nodes = [] if settings.PERM_SINGLE_ASSET_TO_UNGROUP_NODE: ungrouped_node = self.get_ungrouped_node() nodes.append(ungrouped_node) favorite_node = self.get_favorite_node() nodes.append(favorite_node) return nodes @timeit def get_whole_tree_nodes(self, with_special=True): """ 这里的 granted nodes, 是整棵树需要的node,推算出来的也算 :param user: :return: """ nodes = PermNode.objects.filter( granted_node_rels__user=self.user ).annotate( **PermNode.annotate_granted_node_rel_fields ).distinct() key_to_node_mapper = {} nodes_descendant_q = Q() for node in nodes: node.use_granted_assets_amount() key_to_node_mapper[node.key] = node if node.node_from == NodeFrom.granted: # 直接授权的节点 # 增加查询后代节点的过滤条件 nodes_descendant_q |= Q(key__startswith=f'{node.key}:') if nodes_descendant_q: descendant_nodes = PermNode.objects.filter( nodes_descendant_q ) for node in descendant_nodes: key_to_node_mapper[node.key] = node all_nodes = [] if with_special: special_nodes = self.get_special_nodes() all_nodes.extend(special_nodes) all_nodes.extend(key_to_node_mapper.values()) return all_nodes