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jumpserver/apps/assets/models/node.py

601 lines
18 KiB

# -*- coding: utf-8 -*-
#
import uuid
import re
import time
from django.db import models, transaction
from django.db.models import Q
from django.db.utils import IntegrityError
from django.utils.translation import ugettext_lazy as _
from django.utils.translation import ugettext
from django.core.cache import cache
from common.utils import get_logger, lazyproperty
from orgs.mixins.models import OrgModelMixin, OrgManager
from orgs.utils import get_current_org, tmp_to_org, current_org
from orgs.models import Organization
__all__ = ['Node']
logger = get_logger(__name__)
class NodeQuerySet(models.QuerySet):
def delete(self):
raise PermissionError("Bulk delete node deny")
class TreeCache:
updated_time_cache_key = 'NODE_TREE_UPDATED_AT_{}'
cache_time = 3600
assets_updated_time_cache_key = 'NODE_TREE_ASSETS_UPDATED_AT_{}'
def __init__(self, tree, org_id):
now = time.time()
self.created_time = now
self.assets_created_time = now
self.tree = tree
self.org_id = org_id
def _has_changed(self, tp="tree"):
if tp == "assets":
key = self.assets_updated_time_cache_key.format(self.org_id)
else:
key = self.updated_time_cache_key.format(self.org_id)
updated_time = cache.get(key, 0)
if updated_time > self.created_time:
return True
else:
return False
@classmethod
def set_changed(cls, tp="tree", t=None, org_id=None):
if org_id is None:
org_id = current_org.id
if tp == "assets":
key = cls.assets_updated_time_cache_key.format(org_id)
else:
key = cls.updated_time_cache_key.format(org_id)
ttl = cls.cache_time
if not t:
t = time.time()
cache.set(key, t, ttl)
def tree_has_changed(self):
return self._has_changed("tree")
def set_tree_changed(self, t=None):
logger.debug("Set tree tree changed")
self.__class__.set_changed(t=t, tp="tree")
def assets_has_changed(self):
return self._has_changed("assets")
def set_tree_assets_changed(self, t=None):
logger.debug("Set tree assets changed")
self.__class__.set_changed(t=t, tp="assets")
def get(self):
if self.tree_has_changed():
self.renew()
return self.tree
if self.assets_has_changed():
self.tree.init_assets()
return self.tree
def renew(self):
new_obj = self.__class__.new(self.org_id)
self.tree = new_obj.tree
self.created_time = new_obj.created_time
self.assets_created_time = new_obj.assets_created_time
@classmethod
def new(cls, org_id=None):
from ..utils import TreeService
logger.debug("Create node tree")
if not org_id:
org_id = current_org.id
with tmp_to_org(org_id):
tree = TreeService.new()
obj = cls(tree, org_id)
obj.tree = tree
return obj
class TreeMixin:
_org_tree_map = {}
@classmethod
def tree(cls):
org_id = current_org.org_id()
t = cls.get_local_tree_cache(org_id)
if t is None:
t = TreeCache.new()
cls._org_tree_map[org_id] = t
return t.get()
@classmethod
def get_local_tree_cache(cls, org_id=None):
t = cls._org_tree_map.get(org_id)
return t
@classmethod
def refresh_tree(cls, t=None):
TreeCache.set_changed(tp="tree", t=t, org_id=current_org.id)
@classmethod
def refresh_node_assets(cls, t=None):
TreeCache.set_changed(tp="assets", t=t, org_id=current_org.id)
class FamilyMixin:
__parents = None
__children = None
__all_children = None
is_node = True
@staticmethod
def clean_children_keys(nodes_keys):
nodes_keys = sorted(list(nodes_keys), key=lambda x: (len(x), x))
nodes_keys_clean = []
for key in nodes_keys[::-1]:
found = False
for k in nodes_keys:
if key.startswith(k + ':'):
found = True
break
if not found:
nodes_keys_clean.append(key)
return nodes_keys_clean
@classmethod
def get_node_all_children_key_pattern(cls, key, with_self=True):
pattern = r'^{0}:'.format(key)
if with_self:
pattern += r'|^{0}$'.format(key)
return pattern
@classmethod
def get_node_children_key_pattern(cls, key, with_self=True):
pattern = r'^{0}:[0-9]+$'.format(key)
if with_self:
pattern += r'|^{0}$'.format(key)
return pattern
def get_children_key_pattern(self, with_self=False):
return self.get_node_children_key_pattern(self.key, with_self=with_self)
def get_all_children_pattern(self, with_self=False):
return self.get_node_all_children_key_pattern(self.key, with_self=with_self)
def is_children(self, other):
children_pattern = other.get_children_key_pattern(with_self=False)
return re.match(children_pattern, self.key)
def get_children(self, with_self=False):
pattern = self.get_children_key_pattern(with_self=with_self)
return Node.objects.filter(key__regex=pattern)
def get_all_children(self, with_self=False):
pattern = self.get_all_children_pattern(with_self=with_self)
children = Node.objects.filter(key__regex=pattern)
return children
@property
def children(self):
return self.get_children(with_self=False)
@property
def all_children(self):
return self.get_all_children(with_self=False)
def create_child(self, value, _id=None):
with transaction.atomic():
child_key = self.get_next_child_key()
child = self.__class__.objects.create(
id=_id, key=child_key, value=value
)
return child
def get_or_create_child(self, value, _id=None):
"""
:return: Node, bool (created)
"""
children = self.get_children()
exist = children.filter(value=value).exists()
if exist:
child = children.filter(value=value).first()
created = False
else:
child = self.create_child(value, _id)
created = True
return child, created
def get_next_child_key(self):
mark = self.child_mark
self.child_mark += 1
self.save()
return "{}:{}".format(self.key, mark)
def get_next_child_preset_name(self):
name = ugettext("New node")
values = [
child.value[child.value.rfind(' '):]
for child in self.get_children()
if child.value.startswith(name)
]
values = [int(value) for value in values if value.strip().isdigit()]
count = max(values) + 1 if values else 1
return '{} {}'.format(name, count)
# Parents
@classmethod
def get_node_ancestor_keys(cls, key, with_self=False):
parent_keys = []
key_list = key.split(":")
if not with_self:
key_list.pop()
for i in range(len(key_list)):
parent_keys.append(":".join(key_list))
key_list.pop()
return parent_keys
def get_ancestor_keys(self, with_self=False):
return self.get_node_ancestor_keys(
self.key, with_self=with_self
)
@property
def ancestors(self):
return self.get_ancestors(with_self=False)
def get_ancestors(self, with_self=False):
ancestor_keys = self.get_ancestor_keys(with_self=with_self)
return self.__class__.objects.filter(key__in=ancestor_keys)
@property
def parent_key(self):
parent_key = ":".join(self.key.split(":")[:-1])
return parent_key
def is_parent(self, other):
return other.is_children(self)
@property
def parent(self):
if self.is_org_root():
return self
parent_key = self.parent_key
return Node.objects.get(key=parent_key)
@parent.setter
def parent(self, parent):
if not self.is_node:
self.key = parent.key + ':fake'
return
children = self.get_all_children()
old_key = self.key
with transaction.atomic():
self.key = parent.get_next_child_key()
self.save()
for child in children:
child.key = child.key.replace(old_key, self.key, 1)
child.save()
def get_siblings(self, with_self=False):
key = ':'.join(self.key.split(':')[:-1])
pattern = r'^{}:[0-9]+$'.format(key)
sibling = Node.objects.filter(
key__regex=pattern.format(self.key)
)
if not with_self:
sibling = sibling.exclude(key=self.key)
return sibling
def get_family(self):
ancestors = self.get_ancestors()
children = self.get_all_children()
return [*tuple(ancestors), self, *tuple(children)]
class FullValueMixin:
key = ''
@lazyproperty
def full_value(self):
if self.is_org_root():
return self.value
value = self.tree().get_node_full_tag(self.key)
return value
class NodeAssetsMixin:
key = ''
id = None
@lazyproperty
def assets_amount(self):
amount = self.tree().assets_amount(self.key)
return amount
def get_all_assets(self):
from .asset import Asset
if self.is_org_root():
return Asset.objects.filter(org_id=self.org_id)
pattern = '^{0}$|^{0}:'.format(self.key)
return Asset.objects.filter(nodes__key__regex=pattern).distinct()
def get_assets(self):
from .asset import Asset
if self.is_org_root():
assets = Asset.objects.filter(Q(nodes=self) | Q(nodes__isnull=True))
else:
assets = Asset.objects.filter(nodes=self)
return assets.distinct()
def get_valid_assets(self):
return self.get_assets().valid()
def get_all_valid_assets(self):
return self.get_all_assets().valid()
@classmethod
def _get_nodes_all_assets(cls, nodes_keys):
"""
当节点比较多的时候,这种正则方式性能差极了
:param nodes_keys:
:return:
"""
from .asset import Asset
nodes_keys = cls.clean_children_keys(nodes_keys)
nodes_children_pattern = set()
for key in nodes_keys:
children_pattern = cls.get_node_all_children_key_pattern(key)
nodes_children_pattern.add(children_pattern)
pattern = '|'.join(nodes_children_pattern)
return Asset.objects.filter(nodes__key__regex=pattern).distinct()
@classmethod
def get_nodes_all_assets_ids(cls, nodes_keys):
nodes_keys = cls.clean_children_keys(nodes_keys)
assets_ids = set()
for key in nodes_keys:
node_assets_ids = cls.tree().all_assets(key)
assets_ids.update(set(node_assets_ids))
return assets_ids
@classmethod
def get_nodes_all_assets(cls, nodes_keys, extra_assets_ids=None):
from .asset import Asset
nodes_keys = cls.clean_children_keys(nodes_keys)
assets_ids = cls.get_nodes_all_assets_ids(nodes_keys)
if extra_assets_ids:
assets_ids.update(set(extra_assets_ids))
return Asset.objects.filter(id__in=assets_ids)
class SomeNodesMixin:
key = ''
default_key = '1'
default_value = 'Default'
ungrouped_key = '-10'
ungrouped_value = _('ungrouped')
empty_key = '-11'
empty_value = _("empty")
favorite_key = '-12'
favorite_value = _("favorite")
def is_default_node(self):
return self.key == self.default_key
def is_org_root(self):
if self.key.isdigit():
return True
else:
return False
@classmethod
def get_next_org_root_node_key(cls):
with tmp_to_org(Organization.root()):
org_nodes_roots = cls.objects.filter(key__regex=r'^[0-9]+$')
org_nodes_roots_keys = org_nodes_roots.values_list('key', flat=True)
if not org_nodes_roots_keys:
org_nodes_roots_keys = ['1']
max_key = max([int(k) for k in org_nodes_roots_keys])
key = str(max_key + 1) if max_key != 0 else '2'
return key
@classmethod
def create_org_root_node(cls):
# 如果使用current_org 在set_current_org时会死循环
ori_org = get_current_org()
with transaction.atomic():
if not ori_org.is_real():
return cls.default_node()
key = cls.get_next_org_root_node_key()
root = cls.objects.create(key=key, value=ori_org.name)
return root
@classmethod
def org_root(cls):
root = cls.objects.filter(key__regex=r'^[0-9]+$')
if root:
return root[0]
else:
return cls.create_org_root_node()
@classmethod
def ungrouped_node(cls):
with tmp_to_org(Organization.system()):
defaults = {'value': cls.ungrouped_value}
obj, created = cls.objects.get_or_create(
defaults=defaults, key=cls.ungrouped_key
)
return obj
@classmethod
def default_node(cls):
with tmp_to_org(Organization.default()):
defaults = {'value': cls.default_value}
try:
obj, created = cls.objects.get_or_create(
defaults=defaults, key=cls.default_key,
)
except IntegrityError as e:
logger.error("Create default node failed: {}".format(e))
cls.modify_other_org_root_node_key()
obj, created = cls.objects.get_or_create(
defaults=defaults, key=cls.default_key,
)
return obj
@classmethod
def favorite_node(cls):
with tmp_to_org(Organization.system()):
defaults = {'value': cls.favorite_value}
obj, created = cls.objects.get_or_create(
defaults=defaults, key=cls.favorite_key
)
return obj
@classmethod
def initial_some_nodes(cls):
cls.default_node()
cls.ungrouped_node()
cls.favorite_node()
@classmethod
def modify_other_org_root_node_key(cls):
"""
解决创建 default 节点失败的问题,
因为在其他组织下存在 default 节点,故在 DEFAULT 组织下 get 不到 create 失败
"""
logger.info("Modify other org root node key")
with tmp_to_org(Organization.root()):
node_key1 = cls.objects.filter(key='1').first()
if not node_key1:
logger.info("Not found node that `key` = 1")
return
if not node_key1.org.is_real():
logger.info("Org is not real for node that `key` = 1")
return
with transaction.atomic():
with tmp_to_org(node_key1.org):
org_root_node_new_key = cls.get_next_org_root_node_key()
for n in cls.objects.all():
old_key = n.key
key_list = n.key.split(':')
key_list[0] = org_root_node_new_key
new_key = ':'.join(key_list)
n.key = new_key
n.save()
logger.info('Modify key ( {} > {} )'.format(old_key, new_key))
class Node(OrgModelMixin, SomeNodesMixin, TreeMixin, FamilyMixin, FullValueMixin, NodeAssetsMixin):
id = models.UUIDField(default=uuid.uuid4, primary_key=True)
key = models.CharField(unique=True, max_length=64, verbose_name=_("Key")) # '1:1:1:1'
value = models.CharField(max_length=128, verbose_name=_("Value"))
child_mark = models.IntegerField(default=0)
date_create = models.DateTimeField(auto_now_add=True)
objects = OrgManager.from_queryset(NodeQuerySet)()
is_node = True
_parents = None
class Meta:
verbose_name = _("Node")
ordering = ['key']
def __str__(self):
return self.value
# def __eq__(self, other):
# if not other:
# return False
# return self.id == other.id
#
def __gt__(self, other):
self_key = [int(k) for k in self.key.split(':')]
other_key = [int(k) for k in other.key.split(':')]
self_parent_key = self_key[:-1]
other_parent_key = other_key[:-1]
if self_parent_key and self_parent_key == other_parent_key:
return self.value > other.value
return self_key > other_key
def __lt__(self, other):
return not self.__gt__(other)
@property
def name(self):
return self.value
@property
def level(self):
return len(self.key.split(':'))
@classmethod
def refresh_nodes(cls):
cls.refresh_tree()
@classmethod
def refresh_assets(cls):
cls.refresh_node_assets()
def as_tree_node(self):
from common.tree import TreeNode
name = '{} ({})'.format(self.value, self.assets_amount)
data = {
'id': self.key,
'name': name,
'title': name,
'pId': self.parent_key,
'isParent': True,
'open': self.is_org_root(),
'meta': {
'node': {
"id": self.id,
"name": self.name,
"value": self.value,
"key": self.key,
"assets_amount": self.assets_amount,
},
'type': 'node'
}
}
tree_node = TreeNode(**data)
return tree_node
def has_children_or_has_assets(self):
if self.children or self.get_assets().exists():
return True
return False
def delete(self, using=None, keep_parents=False):
if self.has_children_or_has_assets():
return
return super().delete(using=using, keep_parents=keep_parents)
@classmethod
def generate_fake(cls, count=100):
import random
org = get_current_org()
if not org or not org.is_real():
Organization.default().change_to()
nodes = list(cls.objects.all())
if count > 100:
length = 100
else:
length = count
for i in range(length):
node = random.choice(nodes)
child = node.create_child('Node {}'.format(i))
print("{}. {}".format(i, child))