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|
# ============LICENSE_START=======================================================
# org.onap.dcae
# ================================================================================
# Copyright (c) 2019 AT&T Intellectual Property. All rights reserved.
# Copyright (c) 2019 Pantheon.tech. All rights reserved.
# ================================================================================
# 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.
# ============LICENSE_END=========================================================
#
# ECOMP is a trademark and service mark of AT&T Intellectual Property.
import os
import re
import uuid
from msb import msb
from kubernetes import config, client, stream
# Default values for readiness probe
PROBE_DEFAULT_PERIOD = 15
PROBE_DEFAULT_TIMEOUT = 1
# Location of k8s cluster config file ("kubeconfig")
K8S_CONFIG_PATH="/opt/onap/kube/kubeconfig"
# Regular expression for interval/timeout specification
INTERVAL_SPEC = re.compile("^([0-9]+)(s|m|h)?$")
# Conversion factors to seconds
FACTORS = {None: 1, "s": 1, "m": 60, "h": 3600}
# Regular expression for port mapping
# group 1: container port
# group 2: / + protocol
# group 3: protocol
# group 4: host port
PORTS = re.compile("^([0-9]+)(/(udp|UDP|tcp|TCP))?:([0-9]+)$")
def _create_deployment_name(component_name):
return "dep-{0}".format(component_name)[:63]
def _create_service_name(component_name):
return "{0}".format(component_name)[:63]
def _create_exposed_service_name(component_name):
return ("x{0}".format(component_name))[:63]
def _configure_api(location=None):
# Look for a kubernetes config file
if os.path.exists(K8S_CONFIG_PATH):
config.load_kube_config(config_file=K8S_CONFIG_PATH, context=location, persist_config=False)
else:
# Maybe we're running in a k8s container and we can use info provided by k8s
# We would like to use:
# config.load_incluster_config()
# but this looks into os.environ for kubernetes host and port, and from
# the plugin those aren't visible. So we use the InClusterConfigLoader class,
# where we can set the environment to what we like.
# This is probably brittle! Maybe there's a better alternative.
localenv = {
config.incluster_config.SERVICE_HOST_ENV_NAME : "kubernetes.default.svc.cluster.local",
config.incluster_config.SERVICE_PORT_ENV_NAME : "443"
}
config.incluster_config.InClusterConfigLoader(
token_filename=config.incluster_config.SERVICE_TOKEN_FILENAME,
cert_filename=config.incluster_config.SERVICE_CERT_FILENAME,
environ=localenv
).load_and_set()
def _parse_interval(t):
"""
Parse an interval specification
t can be
- a simple integer quantity, interpreted as seconds
- a string representation of a decimal integer, interpreted as seconds
- a string consisting of a represention of an decimal integer followed by a unit,
with "s" representing seconds, "m" representing minutes,
and "h" representing hours
Used for compatibility with the Docker plugin, where time intervals
for health checks were specified as strings with a number and a unit.
See 'intervalspec' above for the regular expression that's accepted.
"""
m = INTERVAL_SPEC.match(str(t))
if m:
time = int(m.group(1)) * FACTORS[m.group(2)]
else:
raise ValueError("Bad interval specification: {0}".format(t))
return time
def _create_probe(hc, port):
''' Create a Kubernetes probe based on info in the health check dictionary hc '''
probe_type = hc['type']
probe = None
period = _parse_interval(hc.get('interval', PROBE_DEFAULT_PERIOD))
timeout = _parse_interval(hc.get('timeout', PROBE_DEFAULT_TIMEOUT))
if probe_type in ['http', 'https']:
probe = client.V1Probe(
failure_threshold = 1,
initial_delay_seconds = 5,
period_seconds = period,
timeout_seconds = timeout,
http_get = client.V1HTTPGetAction(
path = hc['endpoint'],
port = port,
scheme = probe_type.upper()
)
)
elif probe_type in ['script', 'docker']:
probe = client.V1Probe(
failure_threshold = 1,
initial_delay_seconds = 5,
period_seconds = period,
timeout_seconds = timeout,
_exec = client.V1ExecAction(
command = hc['script'].split( )
)
)
return probe
def _create_resources(resources=None):
if resources is not None:
resources_obj = client.V1ResourceRequirements(
limits = resources.get("limits"),
requests = resources.get("requests")
)
return resources_obj
else:
return None
def _create_container_object(name, image, always_pull, env={}, container_ports=[], volume_mounts = [], resources = None, readiness = None, liveness = None):
# Set up environment variables
# Copy any passed in environment variables
env_vars = [client.V1EnvVar(name=k, value=env[k]) for k in env]
# Add POD_IP with the IP address of the pod running the container
pod_ip = client.V1EnvVarSource(field_ref = client.V1ObjectFieldSelector(field_path="status.podIP"))
env_vars.append(client.V1EnvVar(name="POD_IP",value_from=pod_ip))
# If a health check is specified, create a readiness/liveness probe
# (For an HTTP-based check, we assume it's at the first container port)
probe = None
live_probe = None
if readiness:
hc_port = None
if len(container_ports) > 0:
(hc_port, proto) = container_ports[0]
probe = _create_probe(readiness, hc_port)
if liveness:
hc_port = None
if len(container_ports) > 0:
(hc_port, proto) = container_ports[0]
live_probe = _create_probe(liveness, hc_port)
if resources:
resources_obj = _create_resources(resources)
else:
resources_obj = None
# Define container for pod
return client.V1Container(
name=name,
image=image,
image_pull_policy='Always' if always_pull else 'IfNotPresent',
env=env_vars,
ports=[client.V1ContainerPort(container_port=p, protocol=proto) for (p, proto) in container_ports],
volume_mounts = volume_mounts,
resources = resources_obj,
readiness_probe = probe,
liveness_probe = live_probe
)
def _create_deployment_object(component_name,
containers,
init_containers,
replicas,
volumes,
labels={},
pull_secrets=[]):
deployment_name = _create_deployment_name(component_name)
# Label the pod with the deployment name, so we can find it easily
labels.update({"k8sdeployment" : deployment_name})
# pull_secrets is a list of the names of the k8s secrets containing docker registry credentials
# See https://kubernetes.io/docs/concepts/containers/images/#specifying-imagepullsecrets-on-a-pod
ips = []
for secret in pull_secrets:
ips.append(client.V1LocalObjectReference(name=secret))
# Define pod template
template = client.V1PodTemplateSpec(
metadata=client.V1ObjectMeta(labels=labels),
spec=client.V1PodSpec(hostname=component_name,
containers=containers,
init_containers=init_containers,
volumes=volumes,
image_pull_secrets=ips)
)
# Define deployment spec
spec = client.ExtensionsV1beta1DeploymentSpec(
replicas=replicas,
template=template
)
# Create deployment object
deployment = client.ExtensionsV1beta1Deployment(
kind="Deployment",
metadata=client.V1ObjectMeta(name=deployment_name),
spec=spec
)
return deployment
def _create_service_object(service_name, component_name, service_ports, annotations, labels, service_type):
service_spec = client.V1ServiceSpec(
ports=service_ports,
selector={"app" : component_name},
type=service_type
)
if annotations:
metadata = client.V1ObjectMeta(name=_create_service_name(service_name), labels=labels, annotations=annotations)
else:
metadata = client.V1ObjectMeta(name=_create_service_name(service_name), labels=labels)
service = client.V1Service(
kind="Service",
api_version="v1",
metadata=metadata,
spec=service_spec
)
return service
def parse_ports(port_list):
'''
Parse the port list into a list of container ports (needed to create the container)
and to a set of port mappings to set up k8s services.
'''
container_ports = []
port_map = {}
for p in port_list:
m = PORTS.match(p.strip())
if m:
cport = int(m.group(1))
hport = int (m.group(4))
if m.group(3):
proto = (m.group(3)).upper()
else:
proto = "TCP"
container_ports.append((cport, proto))
port_map[(cport, proto)] = hport
else:
raise ValueError("Bad port specification: {0}".format(p))
return container_ports, port_map
def _parse_volumes(volume_list):
volumes = []
volume_mounts = []
for v in volume_list:
vname = str(uuid.uuid4())
vhost = v['host']['path']
vcontainer = v['container']['bind']
vro = (v['container'].get('mode') == 'ro')
volumes.append(client.V1Volume(name=vname, host_path=client.V1HostPathVolumeSource(path=vhost)))
volume_mounts.append(client.V1VolumeMount(name=vname, mount_path=vcontainer, read_only=vro))
return volumes, volume_mounts
def _service_exists(location, namespace, component_name):
exists = False
try:
_configure_api(location)
client.CoreV1Api().read_namespaced_service(_create_service_name(component_name), namespace)
exists = True
except client.rest.ApiException:
pass
return exists
def _patch_deployment(location, namespace, deployment, modify):
'''
Gets the current spec for 'deployment' in 'namespace'
in the k8s cluster at 'location',
uses the 'modify' function to change the spec,
then sends the updated spec to k8s.
'''
_configure_api(location)
# Get deployment spec
spec = client.ExtensionsV1beta1Api().read_namespaced_deployment(deployment, namespace)
# Apply changes to spec
spec = modify(spec)
# Patch the deploy with updated spec
client.ExtensionsV1beta1Api().patch_namespaced_deployment(deployment, namespace, spec)
def _execute_command_in_pod(location, namespace, pod_name, command):
'''
Execute the command (specified by an argv-style list in the "command" parameter) in
the specified pod in the specified namespace at the specified location.
For now at least, we use this only to
run a notification script in a pod after a configuration change.
The straightforward way to do this is with the V1 Core API function "connect_get_namespaced_pod_exec".
Unfortunately due to a bug/limitation in the Python client library, we can't call it directly.
We have to make the API call through a Websocket connection using the kubernetes.stream wrapper API.
I'm following the example code at https://github.com/kubernetes-client/python/blob/master/examples/exec.py.
There are several issues tracking this, in various states. It isn't clear that there will ever
be a fix.
- https://github.com/kubernetes-client/python/issues/58
- https://github.com/kubernetes-client/python/issues/409
- https://github.com/kubernetes-client/python/issues/526
The main consequence of the workaround using "stream" is that the caller does not get an indication
of the exit code returned by the command when it completes execution. It turns out that the
original implementation of notification in the Docker plugin did not use this result, so we can
still match the original notification functionality.
The "stream" approach returns a string containing any output sent by the command to stdout or stderr.
We'll return that so it can logged.
'''
_configure_api(location)
try:
output = stream.stream(client.CoreV1Api().connect_get_namespaced_pod_exec,
name=pod_name,
namespace=namespace,
command=command,
stdout=True,
stderr=True,
stdin=False,
tty=False)
except client.rest.ApiException as e:
# If the exception indicates the pod wasn't found, it's not a fatal error.
# It existed when we enumerated the pods for the deployment but no longer exists.
# Unfortunately, the only way to distinguish a pod not found from any other error
# is by looking at the reason text.
# (The ApiException's "status" field should contain the HTTP status code, which would
# be 404 if the pod isn't found, but empirical testing reveals that "status" is set
# to zero.)
if "404 not found" in e.reason.lower():
output = "Pod not found"
else:
raise e
return {"pod" : pod_name, "output" : output}
def deploy(namespace, component_name, image, replicas, always_pull, k8sconfig, resources, **kwargs):
'''
This will create a k8s Deployment and, if needed, one or two k8s Services.
(We are being opinionated in our use of k8s... this code decides what k8s abstractions and features to use.
We're not exposing k8s to the component developer and the blueprint author.
This is a conscious choice. We want to use k8s in a controlled, consistent way, and we want to hide
the details from the component developer and the blueprint author.)
namespace: the Kubernetes namespace into which the component is deployed
component_name: the component name, used to derive names of Kubernetes entities
image: the docker image for the component being deployed
replica: the number of instances of the component to be deployed
always_pull: boolean flag, indicating that Kubernetes should always pull a new copy of
the Docker image for the component, even if it is already present on the Kubernetes node.
k8sconfig contains:
- image_pull_secrets: a list of names of image pull secrets that can be used for retrieving images.
(DON'T PANIC: these are just the names of secrets held in the Kubernetes secret store.)
- filebeat: a dictionary of filebeat sidecar parameters:
"log_path" : mount point for log volume in filebeat container
"data_path" : mount point for data volume in filebeat container
"config_path" : mount point for config volume in filebeat container
"config_subpath" : subpath for config data in filebeat container
"config_map" : ConfigMap holding the filebeat configuration
"image": Docker image to use for filebeat
- tls: a dictionary of TLS-related information:
"cert_path": mount point for certificate volume in init container
"image": Docker image to use for TLS init container
"component_ca_cert_path" : mount point for CA cert for client-only containers
"ca_cert_configmap": the name of the ConfigMap where the CA cert is stored
kwargs may have:
- volumes: array of volume objects, where a volume object is:
{"host":{"path": "/path/on/host"}, "container":{"bind":"/path/on/container","mode":"rw_or_ro"}
- ports: array of strings in the form "container_port:host_port"
- env: map of name-value pairs ( {name0: value0, name1: value1...}
- msb_list: array of msb objects, where an msb object is as described in msb/msb.py.
- log_info: an object with info for setting up ELK logging, with the form:
{"log_directory": "/path/to/container/log/directory", "alternate_fb_path" : "/alternate/sidecar/log/path"}
- tls_info: an object with info for setting up TLS (HTTPS), with the form:
{"use_tls": true, "cert_directory": "/path/to/container/cert/directory" }
- labels: dict with label-name/label-value pairs, e.g. {"cfydeployment" : "lsdfkladflksdfsjkl", "cfynode":"mycomponent"}
These label will be set on all the pods deployed as a result of this deploy() invocation.
- readiness: dict with health check info; if present, used to create a readiness probe for the main container. Includes:
- type: check is done by making http(s) request to an endpoint ("http", "https") or by exec'ing a script in the container ("script", "docker")
- interval: period (in seconds) between probes
- timeout: time (in seconds) to allow a probe to complete
- endpoint: the path portion of the URL that points to the readiness endpoint for "http" and "https" types
- path: the full path to the script to be executed in the container for "script" and "docker" types
- liveness: dict with health check info; if present, used to create a liveness probe for the main container. Includes:
- type: check is done by making http(s) request to an endpoint ("http", "https") or by exec'ing a script in the container ("script", "docker")
- interval: period (in seconds) between probes
- timeout: time (in seconds) to allow a probe to complete
- endpoint: the path portion of the URL that points to the liveness endpoint for "http" and "https" types
- path: the full path to the script to be executed in the container for "script" and "docker" types
- k8s_location: name of the Kubernetes location (cluster) where the component is to be deployed
'''
deployment_ok = False
cip_service_created = False
deployment_description = {
"namespace": namespace,
"location" : kwargs.get("k8s_location"),
"deployment": '',
"services": []
}
try:
# Get API handles
_configure_api(kwargs.get("k8s_location"))
core = client.CoreV1Api()
ext = client.ExtensionsV1beta1Api()
# Parse the port mapping
container_ports, port_map = parse_ports(kwargs.get("ports", []))
# Parse the volumes list into volumes and volume_mounts for the deployment
volumes, volume_mounts = _parse_volumes(kwargs.get("volumes",[]))
# Initialize the list of containers that will be part of the pod
containers = []
init_containers = []
# Set up the ELK logging sidecar container, if needed
log_info = kwargs.get("log_info")
if log_info and "log_directory" in log_info:
log_dir = log_info["log_directory"]
fb = k8sconfig["filebeat"]
sidecar_volume_mounts = []
# Create the volume for component log files and volume mounts for the component and sidecar containers
volumes.append(client.V1Volume(name="component-log", empty_dir=client.V1EmptyDirVolumeSource()))
volume_mounts.append(client.V1VolumeMount(name="component-log", mount_path=log_dir))
sc_path = log_info["alternate_fb_path"] if "alternate_fb_path" in log_info \
else "{0}/{1}".format(fb["log_path"], component_name)
sidecar_volume_mounts.append(client.V1VolumeMount(name="component-log", mount_path=sc_path))
# Create the volume for sidecar data and the volume mount for it
volumes.append(client.V1Volume(name="filebeat-data", empty_dir=client.V1EmptyDirVolumeSource()))
sidecar_volume_mounts.append(client.V1VolumeMount(name="filebeat-data", mount_path=fb["data_path"]))
# Create the container for the sidecar
containers.append(_create_container_object("filebeat", fb["image"], False, {}, [], sidecar_volume_mounts))
# Create the volume for the sidecar configuration data and the volume mount for it
# The configuration data is in a k8s ConfigMap that should be created when DCAE is installed.
volumes.append(
client.V1Volume(name="filebeat-conf", config_map=client.V1ConfigMapVolumeSource(name=fb["config_map"])))
sidecar_volume_mounts.append(
client.V1VolumeMount(name="filebeat-conf", mount_path=fb["config_path"], sub_path=fb["config_subpath"]))
# Set up TLS information
# Two different ways of doing this, depending on whether the container will act as a TLS server or as a client only
# If a server, then tls_info will be passed, and tls_info["use_tls"] will be set to true. We create an InitContainer
# that sets up the CA cert, the server cert, and the keys.
# If a client only, only the CA cert is needed. We mount the CA cert from a ConfigMap that has been created as part
# of the installation process. If there is cert_directory information in tls_info, we use that directory in the mount path.
# Otherwise, we use the configured default path in tls_config.
tls_info = kwargs.get("tls_info")
tls_config = k8sconfig["tls"]
tls_server = False
cert_directory = None
if tls_info and "cert_directory" in tls_info and len(tls_info["cert_directory"]) > 0:
cert_directory = tls_info["cert_directory"]
if tls_info and tls_info.get("use_tls", False):
tls_server = True
# Use an InitContainer to set up the certificate information
# Create the certificate volume and volume mounts
volumes.append(client.V1Volume(name="tls-info", empty_dir=client.V1EmptyDirVolumeSource()))
volume_mounts.append(client.V1VolumeMount(name="tls-info", mount_path=cert_directory))
init_volume_mounts = [client.V1VolumeMount(name="tls-info", mount_path=tls_config["cert_path"])]
# Create the init container
init_containers.append(_create_container_object("init-tls", tls_config["image"], False, {}, [], init_volume_mounts))
if not tls_server:
# Use a config map
# Create the CA cert volume
volumes.append(client.V1Volume(name="tls-cacert", config_map=client.V1ConfigMapVolumeSource(name=tls_config["ca_cert_configmap"])))
# Create the volume mount
mount_path= cert_directory if cert_directory else os.path.dirname(tls_config["component_ca_cert_path"])
volume_mounts.append(client.V1VolumeMount(name="tls-cacert", mount_path=mount_path))
# Create the container for the component
# Make it the first container in the pod
containers.insert(0, _create_container_object(component_name, image, always_pull, kwargs.get("env", {}), container_ports, volume_mounts, resources, kwargs["readiness"], kwargs.get("liveness")))
# Build the k8s Deployment object
labels = kwargs.get("labels", {})
labels.update({"app": component_name})
dep = _create_deployment_object(component_name, containers, init_containers, replicas, volumes, labels, pull_secrets=k8sconfig["image_pull_secrets"])
# Have k8s deploy it
ext.create_namespaced_deployment(namespace, dep)
deployment_ok = True
deployment_description["deployment"] = _create_deployment_name(component_name)
# Create service(s), if a port mapping is specified
if port_map:
service_ports = [] # Ports exposed internally on the k8s network
exposed_ports = [] # Ports to be mapped to ports on the k8s nodes via NodePort
for (cport, proto), hport in port_map.items():
service_ports.append(client.V1ServicePort(port=int(cport),protocol=proto,name="port-{0}-{1}".format(proto[0].lower(), cport)))
if int(hport) != 0:
exposed_ports.append(client.V1ServicePort(port=int(cport),protocol=proto,node_port=int(hport),name="xport-{0}-{1}".format(proto[0].lower(),cport)))
# If there are ports to be exposed via MSB, set up the annotation for the service
msb_list = kwargs.get("msb_list")
annotations = msb.create_msb_annotation(msb_list) if msb_list else ''
# Create a ClusterIP service for access via the k8s network
service = _create_service_object(_create_service_name(component_name), component_name, service_ports, annotations, labels, "ClusterIP")
core.create_namespaced_service(namespace, service)
cip_service_created = True
deployment_description["services"].append(_create_service_name(component_name))
# If there are ports to be exposed on the k8s nodes, create a "NodePort" service
if len(exposed_ports) > 0:
exposed_service = \
_create_service_object(_create_exposed_service_name(component_name), component_name, exposed_ports, '', labels, "NodePort")
core.create_namespaced_service(namespace, exposed_service)
deployment_description["services"].append(_create_exposed_service_name(component_name))
except Exception as e:
# If the ClusterIP service was created, delete the service:
if cip_service_created:
core.delete_namespaced_service(_create_service_name(component_name), namespace)
# If the deployment was created but not the service, delete the deployment
if deployment_ok:
client.ExtensionsV1beta1Api().delete_namespaced_deployment(_create_deployment_name(component_name), namespace, body=client.V1DeleteOptions())
raise e
return dep, deployment_description
def undeploy(deployment_description):
_configure_api(deployment_description["location"])
namespace = deployment_description["namespace"]
# remove any services associated with the component
for service in deployment_description["services"]:
client.CoreV1Api().delete_namespaced_service(service, namespace)
# Have k8s delete the underlying pods and replicaset when deleting the deployment.
options = client.V1DeleteOptions(propagation_policy="Foreground")
client.ExtensionsV1beta1Api().delete_namespaced_deployment(deployment_description["deployment"], namespace, body=options)
def is_available(location, namespace, component_name):
_configure_api(location)
dep_status = client.AppsV1beta1Api().read_namespaced_deployment_status(_create_deployment_name(component_name), namespace)
# Check if the number of available replicas is equal to the number requested and that the replicas match the current spec
# This check can be used to verify completion of an initial deployment, a scale operation, or an update operation
return dep_status.status.available_replicas == dep_status.spec.replicas and dep_status.status.updated_replicas == dep_status.spec.replicas
def scale(deployment_description, replicas):
''' Trigger a scaling operation by updating the replica count for the Deployment '''
def update_replica_count(spec):
spec.spec.replicas = replicas
return spec
_patch_deployment(deployment_description["location"], deployment_description["namespace"], deployment_description["deployment"], update_replica_count)
def upgrade(deployment_description, image, container_index = 0):
''' Trigger a rolling upgrade by sending a new image name/tag to k8s '''
def update_image(spec):
spec.spec.template.spec.containers[container_index].image = image
return spec
_patch_deployment(deployment_description["location"], deployment_description["namespace"], deployment_description["deployment"], update_image)
def rollback(deployment_description, rollback_to=0):
'''
Undo upgrade by rolling back to a previous revision of the deployment.
By default, go back one revision.
rollback_to can be used to supply a specific revision number.
Returns the image for the app container and the replica count from the rolled-back deployment
'''
'''
2018-07-13
Currently this does not work due to a bug in the create_namespaced_deployment_rollback() method.
The k8s python client code throws an exception while processing the response from the API.
See:
- https://github.com/kubernetes-client/python/issues/491
- https://github.com/kubernetes/kubernetes/pull/63837
The fix has been merged into the master branch but is not in the latest release.
'''
_configure_api(deployment_description["location"])
deployment = deployment_description["deployment"]
namespace = deployment_description["namespace"]
# Initiate the rollback
client.ExtensionsV1beta1Api().create_namespaced_deployment_rollback(
deployment,
namespace,
client.AppsV1beta1DeploymentRollback(name=deployment, rollback_to=client.AppsV1beta1RollbackConfig(revision=rollback_to)))
# Read back the spec for the rolled-back deployment
spec = client.ExtensionsV1beta1Api().read_namespaced_deployment(deployment, namespace)
return spec.spec.template.spec.containers[0].image, spec.spec.replicas
def execute_command_in_deployment(deployment_description, command):
'''
Enumerates the pods in the k8s deployment identified by "deployment_description",
then executes the command (represented as an argv-style list) in "command" in
container 0 (the main application container) each of those pods.
Note that the sets of pods associated with a deployment can change over time. The
enumeration is a snapshot at one point in time. The command will not be executed in
pods that are created after the initial enumeration. If a pod disappears after the
initial enumeration and before the command is executed, the attempt to execute the
command will fail. This is not treated as a fatal error.
This approach is reasonable for the one current use case for "execute_command": running a
script to notify a container that its configuration has changed as a result of a
policy change. In this use case, the new configuration information is stored into
the configuration store (Consul), the pods are enumerated, and the command is executed.
If a pod disappears after the enumeration, the fact that the command cannot be run
doesn't matter--a nonexistent pod doesn't need to be reconfigured. Similarly, a pod that
comes up after the enumeration will get its initial configuration from the updated version
in Consul.
The optimal solution here would be for k8s to provide an API call to execute a command in
all of the pods for a deployment. Unfortunately, k8s does not provide such a call--the
only call provided by k8s operates at the pod level, not the deployment level.
Another interesting k8s factoid: there's no direct way to list the pods belong to a
particular k8s deployment. The deployment code above sets a label ("k8sdeployment") on
the pod that has the k8s deployment name. To list the pods, the code below queries for
pods with the label carrying the deployment name.
'''
location = deployment_description["location"]
_configure_api(location)
deployment = deployment_description["deployment"]
namespace = deployment_description["namespace"]
# Get names of all the running pods belonging to the deployment
pod_names = [pod.metadata.name for pod in client.CoreV1Api().list_namespaced_pod(
namespace = namespace,
label_selector = "k8sdeployment={0}".format(deployment),
field_selector = "status.phase=Running"
).items]
# Execute command in the running pods
return [_execute_command_in_pod(location, namespace, pod_name, command)
for pod_name in pod_names]
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