jumpserver/apps/assets/utils/k8s.py

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# -*- coding: utf-8 -*-
from urllib3.exceptions import MaxRetryError
from urllib.parse import urlencode
from kubernetes import client
from kubernetes.client import api_client
from kubernetes.client.api import core_v1_api
from kubernetes.client.exceptions import ApiException
from common.utils import get_logger
from ..const import CloudTypes, Category
logger = get_logger(__file__)
class KubernetesClient:
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def __init__(self, url, token, proxy=None):
self.url = url
self.token = token
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self.proxy = proxy
def get_api(self):
configuration = client.Configuration()
configuration.host = self.url
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configuration.proxy = self.proxy
configuration.verify_ssl = False
configuration.api_key = {"authorization": "Bearer " + self.token}
c = api_client.ApiClient(configuration=configuration)
api = core_v1_api.CoreV1Api(c)
return api
def get_namespace_list(self):
api = self.get_api()
namespace_list = []
for ns in api.list_namespace().items:
namespace_list.append(ns.metadata.name)
return namespace_list
def get_services(self):
api = self.get_api()
ret = api.list_service_for_all_namespaces(watch=False)
for i in ret.items:
print("%s \t%s \t%s \t%s \t%s \n" % (
i.kind, i.metadata.namespace, i.metadata.name, i.spec.cluster_ip, i.spec.ports))
def get_pod_info(self, namespace, pod):
api = self.get_api()
resp = api.read_namespaced_pod(namespace=namespace, name=pod)
return resp
def get_pod_logs(self, namespace, pod):
api = self.get_api()
log_content = api.read_namespaced_pod_log(pod, namespace, pretty=True, tail_lines=200)
return log_content
def get_pods(self):
api = self.get_api()
try:
ret = api.list_pod_for_all_namespaces(watch=False, _request_timeout=(3, 3))
except MaxRetryError:
logger.warning('Kubernetes connection timed out')
return
except ApiException as e:
if e.status == 401:
logger.warning('Kubernetes User not authenticated')
else:
logger.warning(e)
return
data = {}
for i in ret.items:
namespace = i.metadata.namespace
pod_info = {
'pod_name': i.metadata.name,
'containers': [j.name for j in i.spec.containers]
}
if namespace in data:
data[namespace].append(pod_info)
else:
data[namespace] = [pod_info, ]
return data
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@classmethod
def get_proxy_url(cls, asset):
if not asset.domain:
return None
gateway = asset.domain.select_gateway()
if not gateway:
return None
return f'{gateway.address}:{gateway.port}'
@classmethod
def get_kubernetes_data(cls, asset, secret):
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k8s_url = f'{asset.address}:{asset.port}'
proxy_url = cls.get_proxy_url(asset)
k8s = cls(k8s_url, secret, proxy=proxy_url)
return k8s.get_pods()
class KubernetesTree:
def __init__(self, asset, secret):
self.asset = asset
self.secret = secret
def as_asset_tree_node(self):
i = str(self.asset.id)
name = str(self.asset)
node = self.create_tree_node(
i, i, name, 'asset', is_open=True,
)
return node
def as_namespace_node(self, name, tp, counts=0):
i = urlencode({'namespace': name})
pid = str(self.asset.id)
name = f'{name}({counts})'
node = self.create_tree_node(i, pid, name, tp, icon='cloud')
return node
def as_pod_tree_node(self, namespace, name, tp, counts=0):
pid = urlencode({'namespace': namespace})
i = urlencode({'namespace': namespace, 'pod': name})
name = f'{name}({counts})'
node = self.create_tree_node(i, pid, name, tp, icon='cloud')
return node
def as_container_tree_node(self, namespace, pod, name, tp):
pid = urlencode({'namespace': namespace, 'pod': pod})
i = urlencode({'namespace': namespace, 'pod': pod, 'container': name})
node = self.create_tree_node(
i, pid, name, tp, icon='cloud', is_container=True
)
return node
@staticmethod
def create_tree_node(id_, pid, name, identity, icon='', is_container=False, is_open=False):
node = {
'id': id_,
'name': name,
'title': name,
'pId': pid,
'isParent': not is_container,
'open': is_open,
'iconSkin': icon,
'meta': {
'type': 'k8s',
'data': {
'category': Category.CLOUD,
'type': CloudTypes.K8S,
'identity': identity
}
}
}
return node
def async_tree_node(self, namespace, pod):
tree = []
data = KubernetesClient.get_kubernetes_data(self.asset, self.secret)
if not data:
return tree
if pod:
for container in next(
filter(
lambda x: x['pod_name'] == pod, data[namespace]
)
)['containers']:
container_node = self.as_container_tree_node(
namespace, pod, container, 'container'
)
tree.append(container_node)
elif namespace:
for pod in data[namespace]:
pod_nodes = self.as_pod_tree_node(
namespace, pod['pod_name'], 'pod', len(pod['containers'])
)
tree.append(pod_nodes)
else:
for namespace, pods in data.items():
namespace_node = self.as_namespace_node(
namespace, 'namespace', len(pods)
)
tree.append(namespace_node)
return tree