xos/synchronizer/pull_steps/pull_pods.py - kubernetes-service - Gitiles

 # Copyright 2017-present Open Networking Foundation
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 # http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 """
     pull_pods.py

     Implements a syncstep to pull information about pods form Kubernetes.
 """

 from synchronizers.new_base.pullstep import PullStep
 from synchronizers.new_base.modelaccessor import KubernetesServiceInstance, KubernetesService, Slice, Principal, \
                                                  TrustDomain, Site, Image

 from xosconfig import Config
 from multistructlog import create_logger

 from kubernetes import client as kubernetes_client, config as kubernetes_config

 log = create_logger(Config().get('logging'))

 class KubernetesServiceInstancePullStep(PullStep):
     """
          KubernetesServiceInstancePullStep

          Pull pod-related information from Kubernetes. Each pod we find is used to create a KubernetesServiceInstance
          if one does not already exist. Additional support objects (Slices, TrustDomains, Principals) may be created
          as necessary to fill the required dependencies of the KubernetesServiceInstance.
     """

     def __init__(self):
         super(KubernetesServiceInstancePullStep, self).__init__(observed_model=KubernetesServiceInstance)

         kubernetes_config.load_incluster_config()
         self.v1core = kubernetes_client.CoreV1Api()
         self.v1apps = kubernetes_client.AppsV1Api()
         self.v1batch = kubernetes_client.BatchV1Api()

     def obj_to_handle(self, obj):
         """ Convert a Kubernetes resource into a handle that we can use to uniquely identify the object within
             Kubernetes.
         """
         return obj.metadata.self_link

     def read_obj_kind(self, kind, name, trust_domain):
         """ Given an object kind and name, read it from Kubernetes """
         if kind == "ReplicaSet":
             resource = self.v1apps.read_namespaced_replica_set(name, trust_domain.name)
         elif kind == "StatefulSet":
             resource = self.v1apps.read_namespaced_stateful_set(name, trust_domain.name)
         elif kind == "DaemonSet":
             resource = self.v1apps.read_namespaced_daemon_set(name, trust_domain.name)
         elif kind == "Deployment":
             resource = self.v1apps.read_namespaced_deployment(name, trust_domain.name)
         elif kind == "Job":
             resource = self.v1batch.read_namespaced_job(name, trust_domain.name)
         else:
             resource = None
         return resource

     def get_controller_from_obj(self, obj, trust_domain, depth=0):
         """ Given an object, Search for its controller. Strategy is to walk backward until we find some object that
             is marked as a controller, but does not have any owners.

             This seems adequate to cover the case where ReplicaSet is owned by a Deployment, and we want to skup over
             the ReplicaSet and return the Deployment.
         """

         owner_references = obj.metadata.owner_references
         if not owner_references:
             if (depth==0):
                 # If depth is zero, then we're still looking at the object, not a controller.
                 return None
             return obj

         for owner_reference in owner_references:
             if not getattr(owner_reference, "controller", False):
                 continue
             owner = self.read_obj_kind(owner_reference.kind, owner_reference.name, trust_domain)
             if not owner:
                 log.warning("failed to fetch owner", owner_reference=owner_reference)
                 continue
             controller = self.get_controller_from_obj(owner, trust_domain, depth+1)
             if controller:
                 return controller

         return None

     def get_slice_from_pod(self, pod, trust_domain, principal):
         """ Given a pod, determine which XOS Slice goes with it
             If the Slice doesn't exist, create it.
         """
         controller = self.get_controller_from_obj(pod, trust_domain)
         if not controller:
             return None

         slice_name = controller.metadata.name
         if hasattr(controller.metadata, "labels"):
             if "xos_slice_name" in controller.metadata.labels:
                 # Someone has labeled the controller with an xos slice name. Use it.
                 slice_name = controller.metadata.labels["xos_slice_name"]

         existing_slices = Slice.objects.filter(name = slice_name)
         if not existing_slices:
             # TODO(smbaker): atomicity
             s = Slice(name=slice_name, site = Site.objects.first(),
                       trust_domain=trust_domain,
                       principal=principal,
                       backend_handle=self.obj_to_handle(controller),
                       controller_kind=controller.kind,
                       xos_managed=False)
             s.save()
             return s
         else:
             return existing_slices[0]

     def get_trustdomain_from_pod(self, pod, owner_service):
         """ Given a pod, determine which XOS TrustDomain goes with it
             If the TrustDomain doesn't exist, create it.
         """
         existing_trustdomains = TrustDomain.objects.filter(name = pod.metadata.namespace)
         if not existing_trustdomains:
             k8s_trust_domain = self.v1core.read_namespace(pod.metadata.namespace)

             # TODO(smbaker): atomicity
             t = TrustDomain(name = pod.metadata.namespace,
                             xos_managed=False,
                             owner=owner_service,
                             backend_handle = self.obj_to_handle(k8s_trust_domain))
             t.save()
             return t
         else:
             return existing_trustdomains[0]

     def get_principal_from_pod(self, pod, trust_domain):
         """ Given a pod, determine which XOS Principal goes with it
             If the Principal doesn't exist, create it.
         """
         principal_name = getattr(pod.spec, "service_account", None)
         if not principal_name:
             return None
         existing_principals = Principal.objects.filter(name = principal_name)
         if not existing_principals:
             k8s_service_account = self.v1core.read_namespaced_service_account(principal_name, trust_domain.name)

             # TODO(smbaker): atomicity
             p = Principal(name = principal_name,
                           trust_domain = trust_domain,
                           xos_managed = False,
                           backend_handle = self.obj_to_handle(k8s_service_account))
             p.save()
             return p
         else:
             return existing_principals[0]

     def get_image_from_pod(self, pod):
         """ Given a pod, determine which XOS Image goes with it
             If the Image doesn't exist, create it.
         """
         containers = pod.spec.containers
         if containers:
             # TODO(smbaker): Assumes all containers in a pod use the same image. Valid assumption for now?
             container = containers[0]
             if ":" in container.image:
                 (name, tag) = container.image.split(":")
             else:
                 # Is assuming a default necessary?
                 name = container.image
                 tag = "master"

             existing_images = Image.objects.filter(name=name, tag=tag, kind="container")
             if not existing_images:
                 i = Image(name=name, tag=tag, kind="container", xos_managed=False)
                 i.save()
                 return i
             else:
                 return existing_images[0]
         else:
             return None

     def pull_records(self):
         # Read all pods from Kubernetes, store them in k8s_pods_by_name
         k8s_pods_by_name = {}
         ret = self.v1core.list_pod_for_all_namespaces(watch=False)
         for item in ret.items:
             k8s_pods_by_name[item.metadata.name] = item

         # Read all pods from XOS, store them in xos_pods_by_name
         xos_pods_by_name = {}
         existing_pods = KubernetesServiceInstance.objects.all()
         for pod in existing_pods:
             xos_pods_by_name[pod.name] = pod

         kubernetes_services = KubernetesService.objects.all()
         if len(kubernetes_services)==0:
             raise Exception("There are no Kubernetes Services yet")
         if len(kubernetes_services)>1:
             # Simplifying assumption -- there is only one Kubernetes Service
             raise Exception("There are too many Kubernetes Services")
         kubernetes_service = kubernetes_services[0]

         # For each k8s pod, see if there is an xos pod. If there is not, then create the xos pod.
         for (k,pod) in k8s_pods_by_name.items():
             try:
                 if not k in xos_pods_by_name:
                     trust_domain = self.get_trustdomain_from_pod(pod, owner_service=kubernetes_service)
                     if not trust_domain:
                         log.warning("Unable to determine trust_domain for %s" % k)
                         continue

                     principal = self.get_principal_from_pod(pod, trust_domain)
                     slice = self.get_slice_from_pod(pod, trust_domain=trust_domain, principal=principal)
                     image = self.get_image_from_pod(pod)

                     if not slice:
                         log.warning("Unable to determine slice for %s" % k)
                         continue

                     xos_pod = KubernetesServiceInstance(name=k,
                                                         pod_ip = pod.status.pod_ip,
                                                         owner = kubernetes_service,
                                                         slice = slice,
                                                         image = image,
                                                         backend_handle = self.obj_to_handle(pod),
                                                         xos_managed = False)
                     xos_pod.save()
                     xos_pods_by_name[k] = xos_pod
                     log.info("Created XOS POD %s" % xos_pod.name)

                 # Check to see if the ip address has changed. This can happen for pods that are managed by XOS. The IP
                 # isn't available immediately when XOS creates a pod, but shows up a bit later. So handle that case
                 # here.
                 xos_pod = xos_pods_by_name[k]
                 if (pod.status.pod_ip is not None) and (xos_pod.pod_ip != pod.status.pod_ip):
                     xos_pod.pod_ip = pod.status.pod_ip
                     xos_pod.save(update_fields = ["pod_ip"])
             except:
                 log.exception("Failed to process k8s pod", k=k, pod=pod)

         # For each xos pod, see if there is no k8s pod. If that's the case, then the pud must have been deleted.
         for (k,xos_pod) in xos_pods_by_name.items():
             if (not k in k8s_pods_by_name):
                 if (xos_pod.xos_managed):
                     # Should we do something so it gets re-created by the syncstep?
                     pass
                 else:
                     xos_pod.delete()
                     log.info("Deleted XOS POD %s" % k)
	# Copyright 2017-present Open Networking Foundation
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	"""
	pull_pods.py

	Implements a syncstep to pull information about pods form Kubernetes.
	"""

	from synchronizers.new_base.pullstep import PullStep
	from synchronizers.new_base.modelaccessor import KubernetesServiceInstance, KubernetesService, Slice, Principal, \
	TrustDomain, Site, Image

	from xosconfig import Config
	from multistructlog import create_logger

	from kubernetes import client as kubernetes_client, config as kubernetes_config

	log = create_logger(Config().get('logging'))

	class KubernetesServiceInstancePullStep(PullStep):
	"""
	KubernetesServiceInstancePullStep

	Pull pod-related information from Kubernetes. Each pod we find is used to create a KubernetesServiceInstance
	if one does not already exist. Additional support objects (Slices, TrustDomains, Principals) may be created
	as necessary to fill the required dependencies of the KubernetesServiceInstance.
	"""

	def __init__(self):
	super(KubernetesServiceInstancePullStep, self).__init__(observed_model=KubernetesServiceInstance)

	kubernetes_config.load_incluster_config()
	self.v1core = kubernetes_client.CoreV1Api()
	self.v1apps = kubernetes_client.AppsV1Api()
	self.v1batch = kubernetes_client.BatchV1Api()

	def obj_to_handle(self, obj):
	""" Convert a Kubernetes resource into a handle that we can use to uniquely identify the object within
	Kubernetes.
	"""
	return obj.metadata.self_link

	def read_obj_kind(self, kind, name, trust_domain):
	""" Given an object kind and name, read it from Kubernetes """
	if kind == "ReplicaSet":
	resource = self.v1apps.read_namespaced_replica_set(name, trust_domain.name)
	elif kind == "StatefulSet":
	resource = self.v1apps.read_namespaced_stateful_set(name, trust_domain.name)
	elif kind == "DaemonSet":
	resource = self.v1apps.read_namespaced_daemon_set(name, trust_domain.name)
	elif kind == "Deployment":
	resource = self.v1apps.read_namespaced_deployment(name, trust_domain.name)
	elif kind == "Job":
	resource = self.v1batch.read_namespaced_job(name, trust_domain.name)
	else:
	resource = None
	return resource

	def get_controller_from_obj(self, obj, trust_domain, depth=0):
	""" Given an object, Search for its controller. Strategy is to walk backward until we find some object that
	is marked as a controller, but does not have any owners.

	This seems adequate to cover the case where ReplicaSet is owned by a Deployment, and we want to skup over
	the ReplicaSet and return the Deployment.
	"""

	owner_references = obj.metadata.owner_references
	if not owner_references:
	if (depth==0):
	# If depth is zero, then we're still looking at the object, not a controller.
	return None
	return obj

	for owner_reference in owner_references:
	if not getattr(owner_reference, "controller", False):
	continue
	owner = self.read_obj_kind(owner_reference.kind, owner_reference.name, trust_domain)
	if not owner:
	log.warning("failed to fetch owner", owner_reference=owner_reference)
	continue
	controller = self.get_controller_from_obj(owner, trust_domain, depth+1)
	if controller:
	return controller

	return None

	def get_slice_from_pod(self, pod, trust_domain, principal):
	""" Given a pod, determine which XOS Slice goes with it
	If the Slice doesn't exist, create it.
	"""
	controller = self.get_controller_from_obj(pod, trust_domain)
	if not controller:
	return None

	slice_name = controller.metadata.name
	if hasattr(controller.metadata, "labels"):
	if "xos_slice_name" in controller.metadata.labels:
	# Someone has labeled the controller with an xos slice name. Use it.
	slice_name = controller.metadata.labels["xos_slice_name"]

	existing_slices = Slice.objects.filter(name = slice_name)
	if not existing_slices:
	# TODO(smbaker): atomicity
	s = Slice(name=slice_name, site = Site.objects.first(),
	trust_domain=trust_domain,
	principal=principal,
	backend_handle=self.obj_to_handle(controller),
	controller_kind=controller.kind,
	xos_managed=False)
	s.save()
	return s
	else:
	return existing_slices[0]

	def get_trustdomain_from_pod(self, pod, owner_service):
	""" Given a pod, determine which XOS TrustDomain goes with it
	If the TrustDomain doesn't exist, create it.
	"""
	existing_trustdomains = TrustDomain.objects.filter(name = pod.metadata.namespace)
	if not existing_trustdomains:
	k8s_trust_domain = self.v1core.read_namespace(pod.metadata.namespace)

	# TODO(smbaker): atomicity
	t = TrustDomain(name = pod.metadata.namespace,
	xos_managed=False,
	owner=owner_service,
	backend_handle = self.obj_to_handle(k8s_trust_domain))
	t.save()
	return t
	else:
	return existing_trustdomains[0]

	def get_principal_from_pod(self, pod, trust_domain):
	""" Given a pod, determine which XOS Principal goes with it
	If the Principal doesn't exist, create it.
	"""
	principal_name = getattr(pod.spec, "service_account", None)
	if not principal_name:
	return None
	existing_principals = Principal.objects.filter(name = principal_name)
	if not existing_principals:
	k8s_service_account = self.v1core.read_namespaced_service_account(principal_name, trust_domain.name)

	# TODO(smbaker): atomicity
	p = Principal(name = principal_name,
	trust_domain = trust_domain,
	xos_managed = False,
	backend_handle = self.obj_to_handle(k8s_service_account))
	p.save()
	return p
	else:
	return existing_principals[0]

	def get_image_from_pod(self, pod):
	""" Given a pod, determine which XOS Image goes with it
	If the Image doesn't exist, create it.
	"""
	containers = pod.spec.containers
	if containers:
	# TODO(smbaker): Assumes all containers in a pod use the same image. Valid assumption for now?
	container = containers[0]
	if ":" in container.image:
	(name, tag) = container.image.split(":")
	else:
	# Is assuming a default necessary?
	name = container.image
	tag = "master"

	existing_images = Image.objects.filter(name=name, tag=tag, kind="container")
	if not existing_images:
	i = Image(name=name, tag=tag, kind="container", xos_managed=False)
	i.save()
	return i
	else:
	return existing_images[0]
	else:
	return None

	def pull_records(self):
	# Read all pods from Kubernetes, store them in k8s_pods_by_name
	k8s_pods_by_name = {}
	ret = self.v1core.list_pod_for_all_namespaces(watch=False)
	for item in ret.items:
	k8s_pods_by_name[item.metadata.name] = item

	# Read all pods from XOS, store them in xos_pods_by_name
	xos_pods_by_name = {}
	existing_pods = KubernetesServiceInstance.objects.all()
	for pod in existing_pods:
	xos_pods_by_name[pod.name] = pod

	kubernetes_services = KubernetesService.objects.all()
	if len(kubernetes_services)==0:
	raise Exception("There are no Kubernetes Services yet")
	if len(kubernetes_services)>1:
	# Simplifying assumption -- there is only one Kubernetes Service
	raise Exception("There are too many Kubernetes Services")
	kubernetes_service = kubernetes_services[0]

	# For each k8s pod, see if there is an xos pod. If there is not, then create the xos pod.
	for (k,pod) in k8s_pods_by_name.items():
	try:
	if not k in xos_pods_by_name:
	trust_domain = self.get_trustdomain_from_pod(pod, owner_service=kubernetes_service)
	if not trust_domain:
	log.warning("Unable to determine trust_domain for %s" % k)
	continue

	principal = self.get_principal_from_pod(pod, trust_domain)
	slice = self.get_slice_from_pod(pod, trust_domain=trust_domain, principal=principal)
	image = self.get_image_from_pod(pod)

	if not slice:
	log.warning("Unable to determine slice for %s" % k)
	continue

	xos_pod = KubernetesServiceInstance(name=k,
	pod_ip = pod.status.pod_ip,
	owner = kubernetes_service,
	slice = slice,
	image = image,
	backend_handle = self.obj_to_handle(pod),
	xos_managed = False)
	xos_pod.save()
	xos_pods_by_name[k] = xos_pod
	log.info("Created XOS POD %s" % xos_pod.name)

	# Check to see if the ip address has changed. This can happen for pods that are managed by XOS. The IP
	# isn't available immediately when XOS creates a pod, but shows up a bit later. So handle that case
	# here.
	xos_pod = xos_pods_by_name[k]
	if (pod.status.pod_ip is not None) and (xos_pod.pod_ip != pod.status.pod_ip):
	xos_pod.pod_ip = pod.status.pod_ip
	xos_pod.save(update_fields = ["pod_ip"])
	except:
	log.exception("Failed to process k8s pod", k=k, pod=pod)

	# For each xos pod, see if there is no k8s pod. If that's the case, then the pud must have been deleted.
	for (k,xos_pod) in xos_pods_by_name.items():
	if (not k in k8s_pods_by_name):
	if (xos_pod.xos_managed):
	# Should we do something so it gets re-created by the syncstep?
	pass
	else:
	xos_pod.delete()
	log.info("Deleted XOS POD %s" % k)