def step6_more_cpu_annotation_than_request():
annotation_cpu = 2
request_cpu = 1
cpu_pooling_pod2['obj_type'] = 'replicaset'
try:
common_utils.helm_install(chart_name="default/cpu-pooling-exclusive2", release_name="cpu-pooling",
values="registry_url={url},nodename={node_name},proc_req={proc},pool_req={req}"
.format(url=reg, proc=annotation_cpu, req=request_cpu, node_name=nodename))
common_utils.check_kubernetes_object(kube_object=cpu_pooling_pod2,
tester_function=common_utils.test_kubernetes_object_available,
timeout=10,
delay=3)
result = ex.execute_unix_command('kubectl describe replicaset {0}'.format(cpu_pooling_pod2['obj_name']))
error = 'Exclusive CPU requests {req} do not match to annotation {proc}'.format(req=request_cpu,
proc=annotation_cpu)
if error not in result:
raise Exception('Replicaset description does not contain expected error! -' + result)
else:
logger.info(error)
finally:
common_utils.helm_delete("cpu-pooling")
common_utils.check_kubernetes_object(kube_object=cpu_pooling_pod2,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=90)
cpu_pooling_pod2['obj_type'] = 'pod'
def step8_pod_use_default_pool_burstable():
memory_request = "500Mi"
cpu_request = "250m"
try:
common_utils.helm_install(
chart_name="default/cpu-pooling-default1",
release_name="cpu-pooling",
values=
"registry_url={reg_url},nodename={node_name},mem_request={mem},"
"cpu_request={cpu}".format(reg_url=reg,
node_name=nodename,
mem=memory_request,
cpu=cpu_request))
common_utils.test_kubernetes_object_quality(
kube_object=cpu_pooling_pod7,
expected_result="1",
filter=r'(Running)\s*[0]',
timeout=90)
allowed_cpu_for_pod = common_utils.get_cpu_allowed_list_from_pod(
cpu_pooling_pod7['obj_name'])
default_pool = cpupools[nodename]['default']
if not common_utils.allowed_cpus_is_in_cpu_pool(
allowed_cpu_for_pod, default_pool):
raise Exception('{pod} not allocate CPU from default pool!'.format(
pod=cpu_pooling_pod7['obj_name']))
check_qos_of_pod(cpu_pooling_pod7['obj_name'], "Burstable")
finally:
common_utils.helm_delete("cpu-pooling")
common_utils.check_kubernetes_object(
kube_object=cpu_pooling_pod7,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=60)
def step5_annotation_without_cpus():
try:
common_utils.helm_install(
chart_name="default/cpu-pooling-annotation3",
release_name="cpu-pooling",
values="registry_url={reg_url}".format(reg_url=reg))
common_utils.check_kubernetes_object(
kube_object=cpu_pooling_pod11,
tester_function=common_utils.test_kubernetes_object_available,
timeout=30,
delay=3)
result = ex.execute_unix_command(
'kubectl describe replicasets {0}'.format(
cpu_pooling_pod11['obj_name']))
error = "'cpus' field is mandatory in annotation"
if error not in result:
raise Exception(
'Replicaset description does not contain expected error! -' +
result)
else:
logger.info(error)
finally:
common_utils.helm_delete("cpu-pooling")
common_utils.check_kubernetes_object(
kube_object=cpu_pooling_pod11,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=60)
def step6_request_for_default_pool():
try:
common_utils.helm_install(
chart_name="default/cpu-pooling-default2",
release_name="cpu-pooling",
values="registry_url={reg_url}".format(reg_url=reg))
common_utils.test_kubernetes_object_quality(
kube_object=cpu_pooling_pod8,
expected_result="1",
filter=r'(Pending)\s*[0]',
timeout=30,
delay=3)
error = "Insufficient nokia.k8s.io/default"
result = ex.execute_unix_command(
'kubectl describe pod {podname}'.format(
podname=cpu_pooling_pod8['obj_name']))
if error not in result:
raise Exception(
'Replicaset description does not contain expected error! -' +
result)
else:
logger.info(error)
finally:
common_utils.helm_delete("cpu-pooling")
common_utils.check_kubernetes_object(
kube_object=cpu_pooling_pod8,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=60)
def step3_more_replicas_than_cpus():
num_of_replicas = len(cpupools[nodename]['exclusive_caas'])
try:
common_utils.helm_install(chart_name="default/cpu-pooling-exclusive2", release_name="cpu-pooling",
values="registry_url={reg_url},nodename={node_name},replicas={cpus}"
.format(reg_url=reg, cpus=num_of_replicas+1, node_name=nodename))
cpu_pooling_pod2['obj_count'] = str(num_of_replicas)
common_utils.test_kubernetes_object_quality(kube_object=cpu_pooling_pod2,
expected_result="1",
filter=r'(Pending)\s*[0]',
timeout=90,
delay=3)
result = ex.execute_unix_command('kubectl describe pod {podname}'.format(podname=cpu_pooling_pod2['obj_name']))
error = 'Insufficient nokia.k8s.io/exclusive_caas'
if error not in result:
raise Exception('Replicaset description does not contain expected error! -' + result)
else:
logger.info(error)
finally:
cpu_pooling_pod2['obj_count'] = "1"
common_utils.helm_delete("cpu-pooling")
common_utils.check_kubernetes_object(kube_object=cpu_pooling_pod2,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=90)
def step2_exclusive_and_shared():
try:
common_utils.helm_install(
chart_name="default/cpu-pooling-mix2",
release_name="cpu-pooling",
values="registry_url={reg_url}".format(reg_url=reg))
common_utils.test_kubernetes_object_quality(
kube_object=cpu_pooling_pod6,
expected_result="1",
filter=r'(Running)\s*[0]',
timeout=90)
allowed_cpu_for_pod = common_utils.get_cpu_allowed_list_from_pod(
cpu_pooling_pod6['obj_name'])
requested_cpupool = cpupools[nodename]['exclusive_caas'] + cpupools[
nodename]['shared_caas']
if not common_utils.allowed_cpus_is_in_cpu_pool(
allowed_cpu_for_pod, requested_cpupool):
raise Exception(
'{pod} not allocate CPUs from {req_pool} pool!'.format(
pod=cpu_pooling_pod6['obj_name'],
req_pool=requested_cpupool))
finally:
common_utils.helm_delete("cpu-pooling")
common_utils.check_kubernetes_object(
kube_object=cpu_pooling_pod6,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=90)
def step1_with_two_process():
try:
common_utils.helm_install(chart_name="default/cpu-pooling-exclusive3",
release_name="cpu-pooling",
values="registry_url=" + reg + ",nodename=" +
nodename)
common_utils.test_kubernetes_object_quality(
kube_object=cpu_pooling_pod3,
expected_result="1",
filter=r'(Running)\s*[0]',
timeout=10)
exclusive_cpus = cpupools[nodename]['exclusive_caas']
proc1_cpu, proc2_cpu = get_cpu_core_of_processes(
cpu_pooling_pod3['obj_name'], "dumb-init -c sleep 1000")
if proc1_cpu not in exclusive_cpus:
raise Exception(
'{pod}: Proc1 running on non exclusive cpu core {cpu}!'.format(
pod=cpu_pooling_pod3['obj_name'], cpu=proc1_cpu))
if proc2_cpu not in exclusive_cpus:
raise Exception(
'{pod}: Proc2 running on non exclusive cpu core {cpu}!'.format(
pod=cpu_pooling_pod3['obj_name'], cpu=proc2_cpu))
if proc1_cpu == proc2_cpu:
raise Exception(
'{pod}: Two processes use same cpu core: {cpu}!'.format(
pod=cpu_pooling_pod3['obj_name'], cpu=proc2_cpu))
finally:
common_utils.helm_delete("cpu-pooling")
common_utils.check_kubernetes_object(
kube_object=cpu_pooling_pod3,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=60)
def step7_check_static_ip_alloc_outside_cidr():
common_utils.helm_install(chart_name="default/tenantnetwork-attach-pod5",
release_name="tenantnetwork-attach-pod5")
common_utils.test_kubernetes_object_quality(
kube_object=tennet_pod5,
expected_result=tennet_pod5['obj_count'],
filter=r'(ContainerCreating)\s*[0]',
timeout=90)
def step8_check_ip_alloc_with_cidrless_allocpoolless_tenantnet():
common_utils.helm_install(chart_name="default/tenantnetwork-attach-pod6",
release_name="tenantnetwork-attach-pod6")
common_utils.test_kubernetes_object_quality(
kube_object=tennet_pod6,
expected_result=tennet_pod6['obj_count'],
filter=r'(ContainerCreating)\s*[0]',
timeout=90)
def step11_check_flannel_static_ip_alloc_not_in_flannel_cidr_ignored():
common_utils.helm_install(chart_name="default/tenantnetwork-attach-pod9",
release_name="tenantnetwork-attach-pod9")
common_utils.test_kubernetes_object_quality(
kube_object=tennet_pod9,
expected_result=tennet_pod9['obj_count'],
filter=r'(Running)\s*[0]',
timeout=90)
def step2_check_dynamic_ip_shortage():
common_utils.helm_install(chart_name="default/tenantnetwork-attach-pod2",
release_name="tenantnetwork-attach-pod2")
common_utils.test_kubernetes_object_quality(
kube_object=tennet_pod2,
expected_result=tennet_pod2['obj_count'],
filter=r'(ContainerCreating)\s*[0]',
timeout=60)
alloc_pool = danm_utils.get_alloc_pool('tennet_attach_01',
tenantnetwork_attach_properties,
'tenantnetwork')
danm_utils.check_dynamic_ips(alloc_pool, tennet_pod2['ip_list'])
def setup():
# flags = ["--horizontal-pod-autoscaler-downscale-stabilization=10s", "--horizontal-pod-autoscaler-sync-period=10s"]
# common_utils.modify_static_pod_config(common_utils.add_flag_to_command, "cm.yml", flags)
common_utils.helm_install(
chart_name="default/custom-metrics",
release_name="podinfo",
values="registry_url={reg_url}".format(reg_url=reg))
common_utils.check_kubernetes_object(
kube_object=podinfo_pod,
tester_function=common_utils.test_kubernetes_object_available,
additional_filter="Running",
timeout=90)
def step14_check_realloc_ips_of_prev_step_with_dynamic_and_none_ip_alloc():
common_utils.helm_install(chart_name="default/tenantnetwork-attach-pod12",
release_name="tenantnetwork-attach-pod12")
common_utils.helm_install(chart_name="default/tenantnetwork-attach-pod14",
release_name="tenantnetwork-attach-pod14")
common_utils.test_kubernetes_object_quality(
kube_object=tennet_pod12,
expected_result=tennet_pod12['obj_count'],
filter=r'(Running)\s*[0]',
timeout=90)
pod_list = danm_utils.get_pod_list(tennet_pod12)
alloc_pool = danm_utils.get_alloc_pool("tennet_attach_01",
tenantnetwork_attach_properties,
"tenantnetwork")
danm_utils.check_dynamic_ips(
alloc_pool, danm_utils.get_pod_ips(pod_list, if_name='tnet_1'))
alloc_pool = danm_utils.get_alloc_pool("tennet_attach_05",
tenantnetwork_attach_properties,
"tenantnetwork")
danm_utils.check_dynamic_ips(
alloc_pool, danm_utils.get_pod_ips(pod_list, if_name='eth0'))
common_utils.test_kubernetes_object_quality(
kube_object=tennet_pod14,
expected_result=tennet_pod14['obj_count'],
filter=r'(Running)\s*[0]',
timeout=90)
pod_list = danm_utils.get_pod_list(tennet_pod14)
# danm_utils.check_dynamic_ips(alloc_pool, [tennet_pod14['ip_list'][2]])
danm_utils.check_dynamic_ips(
alloc_pool, danm_utils.get_pod_ips(pod_list, if_name='tnet5'))
alloc_pool = danm_utils.get_alloc_pool("tennet_attach_06",
tenantnetwork_attach_properties,
"tenantnetwork")
danm_utils.check_dynamic_ips(
alloc_pool, danm_utils.get_pod_ips(pod_list, if_name='eth0'))
alloc_pool = danm_utils.get_alloc_pool("tennet_attach_01",
tenantnetwork_attach_properties,
"tenantnetwork")
danm_utils.check_dynamic_ips(
alloc_pool, danm_utils.get_pod_ips(pod_list, if_name='tnet_2'))
common_utils.helm_delete("tenantnetwork-attach-pod12")
common_utils.helm_delete("tenantnetwork-attach-pod14")
common_utils.check_kubernetes_object(
kube_object=tennet_pod12,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=20)
common_utils.check_kubernetes_object(
kube_object=tennet_pod14,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=20)
danm_utils.check_dep_count(tennet_pod12["namespace"], exp_count=0)
def step2_check_scale_out_custom():
common_utils.helm_install(
chart_name="default/http-traffic-gen",
release_name="http-traffic-gen",
values="registry_url={reg_url}".format(reg_url=reg))
common_utils.check_kubernetes_object(
kube_object=http_traffic_gen,
tester_function=common_utils.test_kubernetes_object_available,
additional_filter="Running",
timeout=45)
expected_replicas = 3
timeout = 1000
check_scaling(expected_replicas, timeout)
def _install_storage_test_helm_chart():
if stack_infos.get_worker_nodes():
common_utils.helm_install(chart_name="default/storage-test-worker",
release_name="storage-test")
else:
common_utils.helm_install(chart_name="default/storage-test-oam",
release_name="storage-test")
common_utils.wait_if_pressure()
common_utils.check_kubernetes_object(
kube_object=pv_test_pod,
tester_function=common_utils.test_kubernetes_object_available,
additional_filter="Running",
timeout=60)
def step4_check_attach_in_kubesystem_namespace():
common_utils.helm_install(chart_name="default/tenantnetwork-attach-pod4",
release_name="tenantnetwork-attach-pod4")
common_utils.test_kubernetes_object_quality(
kube_object=tennet_pod4,
expected_result=tennet_pod4['obj_count'],
filter=r'(Running)\s*[0]',
timeout=60,
delay=10)
alloc_pool = danm_utils.get_alloc_pool("tennet_attach_02",
tenantnetwork_attach_properties,
'tenantnetwork')
danm_utils.check_dynamic_ips(alloc_pool, tennet_pod4['ip_list'])
common_utils.helm_delete(release_name="tenantnetwork-attach-pod4")
def step3_check_static_ip_shortage():
common_utils.helm_install(chart_name="default/tenantnetwork-attach-pod3",
release_name="tenantnetwork-attach-pod3")
common_utils.test_kubernetes_object_quality(
kube_object=tennet_pod3,
expected_result=tennet_pod3['obj_count'],
filter=r'(ContainerCreating)\s*[0]',
timeout=30)
common_utils.helm_delete("tenantnetwork-attach-pod2")
common_utils.check_kubernetes_object(
kube_object=tennet_pod2,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=60)
common_utils.helm_delete("tenantnetwork-attach-pod1")
def install_charts():
common_utils.helm_install(chart_name="default/persistentvolume-claim",
release_name="pvc")
common_utils.wait_if_pressure()
common_utils.check_kubernetes_object(
kube_object=pv_test_pvc,
tester_function=common_utils.test_kubernetes_object_available,
additional_filter="Bound",
timeout=90)
_install_storage_test_helm_chart()
global pv_name # pylint: disable=global-statement
pv_name = execute.execute_unix_command(
"kubectl get pvc | grep pvc- | awk {'print$3'}")
def setup():
common_utils.helm_install(chart_name="default/php-apache", release_name="crf01",
values="registry_url={reg_url}".format(reg_url=reg))
common_utils.check_kubernetes_object(kube_object=php_apache_pod,
tester_function=common_utils.test_kubernetes_object_available,
additional_filter="Running",
timeout=90)
flags = ["--horizontal-pod-autoscaler-downscale-stabilization=10s", "--horizontal-pod-autoscaler-sync-period=10s"]
common_utils.modify_static_pod_config(common_utils.add_flag_to_command, "cm.yml", flags)
common_utils.helm_install(chart_name="default/load-generator-for-apache", release_name="load")
common_utils.check_kubernetes_object(kube_object=load_generator_for_apache,
tester_function=common_utils.test_kubernetes_object_available,
additional_filter="Running",
timeout=60)
def step12_none_ip_pod_restart_loop():
common_utils.helm_install(chart_name="default/tenantnetwork-attach-pod10",
release_name="tenantnetwork-attach-pod10")
common_utils.test_kubernetes_object_quality(
kube_object=tennet_pod10,
expected_result=tennet_pod10['obj_count'],
filter=r'(ContainerCreating)\s*[0]',
timeout=90)
common_utils.helm_delete("tenantnetwork-attach-pod3")
common_utils.helm_delete("tenantnetwork-attach-pod5")
common_utils.helm_delete("tenantnetwork-attach-pod6")
common_utils.helm_delete("tenantnetwork-attach-pod7")
common_utils.helm_delete("tenantnetwork-attach-pod8")
common_utils.helm_delete("tenantnetwork-attach-pod9")
common_utils.helm_delete("tenantnetwork-attach-pod10")
def step1_check_default_pool_cpu_node_capacity():
node_cpu_capacity = get_node_cpu_capacity(nodename)
cpu_request = "{0}m".format(node_cpu_capacity)
try:
common_utils.helm_install(
chart_name="default/cpu-pooling-default1",
release_name="cpu-pooling",
values=
"registry_url={reg_url},nodename={node_name},cpu_request={cpu},cpu_limit={cpu}"
.format(reg_url=reg, node_name=nodename, cpu=cpu_request))
common_utils.test_kubernetes_object_quality(
kube_object=cpu_pooling_pod7,
expected_result="1",
filter=r'(Running)\s*[0]',
timeout=90)
logger.info(
"Default pool allocation successfull with maximum allocatable cpus!"
)
common_utils.helm_delete("cpu-pooling")
common_utils.check_kubernetes_object(
kube_object=cpu_pooling_pod7,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=60)
cpu_request = "{0}m".format(node_cpu_capacity + 10)
common_utils.helm_install(
chart_name="default/cpu-pooling-default1",
release_name="cpu-pooling",
values=
"registry_url={reg_url},nodename={node_name},cpu_request={cpu},cpu_limit={cpu}"
.format(reg_url=reg, node_name=nodename, cpu=cpu_request))
common_utils.test_kubernetes_object_quality(
kube_object=cpu_pooling_pod7,
expected_result="1",
filter=r'(Pending)\s*[0]',
timeout=90,
delay=3)
logger.info(
"Default pool allocation failed with more cpu than allocatable as expected!"
)
finally:
common_utils.helm_delete("cpu-pooling")
common_utils.check_kubernetes_object(
kube_object=cpu_pooling_pod7,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=60)
def step1_check_static_ip_allocations():
common_utils.helm_install(chart_name="default/tenantnetwork-attach-pod1",
release_name="tenantnetwork-attach-pod1")
common_utils.test_kubernetes_object_quality(
kube_object=tennet_pod1,
expected_result=tennet_pod1['obj_count'],
filter=r'(Running)\s*[0]',
timeout=60,
delay=10)
pod_list = danm_utils.get_pod_list(tennet_pod1)
if set(tennet_pod1['ip_list']) != set(danm_utils.get_pod_ips(pod_list)):
raise Exception(
"Static ip allocation for tenantnetwork-attach-pod1 was unsuccessful!"
)
logger.info("Static ips allocated successfully!")
danm_utils.check_mac_address(pod_list, 'tennet_attach_01',
tenantnetwork_attach_properties)
def step9_1_exclusive_1_shared():
try:
common_utils.helm_install(
chart_name="default/cpu-pooling-mix1",
release_name="cpu-pooling",
values="registry_url={reg_url},nodename={node_name}".format(
reg_url=reg, node_name=nodename))
common_utils.test_kubernetes_object_quality(
kube_object=cpu_pooling_pod5,
expected_result="1",
filter=r'(Running)\s*[0]',
timeout=90)
finally:
common_utils.helm_delete("cpu-pooling")
common_utils.check_kubernetes_object(
kube_object=cpu_pooling_pod5,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=90)
def step10_check_service_reachability_with_flannel():
common_utils.helm_install(chart_name="default/tenantnetwork-attach-pod8",
release_name="tenantnetwork-attach-pod8")
common_utils.test_kubernetes_object_quality(
kube_object=tennet_pod8,
expected_result=tennet_pod8['obj_count'],
filter=r'(Running)\s*[0]',
timeout=90)
command = "curl tennet-pod-08.default.svc.rec.io:4242"
res = execute.execute_unix_command_as_root(command)
if "OK" not in res:
raise Exception("NOK: tennet-pod-08 service is not reachable")
logger.info("OK: tennet-pod-08 service is reachable")
pod_list = danm_utils.get_pod_list(tennet_pod8)
assigned_ips = danm_utils.get_pod_ips(pod_list)
danm_utils.check_dynamic_ips(
tenantnetwork_attach_properties['tennet_attach_04']['flannel_pool'],
assigned_ips)
def step9_check_connection_to_flannel_and_ipvlan_tenantnetworks():
common_utils.helm_install(chart_name="default/tenantnetwork-attach-pod7",
release_name="tenantnetwork-attach-pod7")
common_utils.test_kubernetes_object_quality(
kube_object=tennet_pod7,
expected_result=tennet_pod7['obj_count'],
filter=r'(Running)\s*[0]',
timeout=90)
pod_list = danm_utils.get_pod_list(tennet_pod7)
danm_utils.check_dynamic_ips(
tenantnetwork_attach_properties['tennet_attach_04']['flannel_pool'],
danm_utils.get_pod_ips(pod_list))
alloc_pool = danm_utils.get_alloc_pool('tennet_attach_03',
tenantnetwork_attach_properties,
'tenantnetwork')
danm_utils.check_dynamic_ips(alloc_pool,
danm_utils.get_pod_ips(pod_list, if_name=''))
def step2_with_annotation():
try:
common_utils.helm_install(chart_name="default/cpu-pooling-exclusive2", release_name="cpu-pooling",
values="registry_url={reg_url},nodename={node_name}".format(reg_url=reg,
node_name=nodename))
common_utils.test_kubernetes_object_quality(kube_object=cpu_pooling_pod2,
expected_result="1",
filter=r'(Running)\s*[0]',
timeout=90)
allowed_cpu_for_pod = common_utils.get_cpu_allowed_list_from_pod(cpu_pooling_pod2['obj_name'])
exclusive_cpus = cpupools[nodename]['exclusive_caas']
if not common_utils.allowed_cpus_is_in_cpu_pool(allowed_cpu_for_pod, exclusive_cpus):
raise Exception('{pod} not allocate CPU from exclusive pool!'.format(pod=cpu_pooling_pod2['obj_name']))
finally:
common_utils.helm_delete("cpu-pooling")
common_utils.check_kubernetes_object(kube_object=cpu_pooling_pod2,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=90)
def step_7_allocate_all_exclusive_and_new_one_start_running_after_needed_resource_is_freed_up():
max_exclusive_pool_size = len(cpupools[nodename]['exclusive_caas'])
try:
common_utils.helm_install(chart_name="default/cpu-pooling-exclusive2", release_name="cpu-pooling1",
values="registry_url={reg_url},nodename={node_name},proc_req={cpus},pool_req={cpus}"
.format(reg_url=reg, cpus=max_exclusive_pool_size, node_name=nodename))
common_utils.test_kubernetes_object_quality(kube_object=cpu_pooling_pod2,
expected_result="1",
filter=r'(Running)\s*[0]',
timeout=90)
logger.info("Allocation of all exclusive CPU successfull!")
common_utils.helm_install(chart_name="default/cpu-pooling-exclusive1", release_name="cpu-pooling2",
values="registry_url={reg_url},nodename={node_name}".format(reg_url=reg,
node_name=nodename))
common_utils.test_kubernetes_object_quality(kube_object=cpu_pooling_pod1,
expected_result="1",
filter=r'(Pending)\s*[0]',
timeout=90,
delay=3)
logger.info("Try to allocate more exclusive CPU -> Pod in Pending!")
common_utils.helm_delete("cpu-pooling1")
common_utils.check_kubernetes_object(kube_object=cpu_pooling_pod2,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=90)
common_utils.test_kubernetes_object_quality(kube_object=cpu_pooling_pod1,
expected_result="1",
filter=r'(Running)\s*[0]',
timeout=90)
finally:
if common_utils.helm_list("cpu-pooling1") != "0":
common_utils.helm_delete("cpu-pooling1")
common_utils.helm_delete("cpu-pooling2")
common_utils.check_kubernetes_object(kube_object=cpu_pooling_pod1,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=90)
common_utils.check_kubernetes_object(kube_object=cpu_pooling_pod2,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=90)
def step10_cpu_allowed_list_set_after_test_pod_deployed():
cpu_setter_deleted = False
try:
cpu_pooling_setter["obj_count"] = ex.execute_unix_command(
"kubectl get pod --all-namespaces | "
"grep setter | wc -l")
ex.execute_unix_command(
"kubectl get ds -n kube-system cpu-setter -o yaml")
ex.execute_unix_command(
"kubectl get ds -n kube-system cpu-setter -o yaml > setter.yaml")
ex.execute_unix_command("kubectl delete ds -n kube-system cpu-setter")
cpu_setter_deleted = True
common_utils.check_kubernetes_object(
kube_object=cpu_pooling_setter,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=90)
common_utils.helm_install(chart_name="default/cpu-pooling-exclusive1",
release_name="cpu-pooling",
values="registry_url=" + reg + ",nodename=" +
nodename)
common_utils.test_kubernetes_object_quality(
kube_object=cpu_pooling_pod1,
expected_result="1",
filter=r'(Running)\s*[0]',
timeout=90)
allowed_cpus_for_pod_before = common_utils.get_cpu_allowed_list_from_pod(
cpu_pooling_pod1['obj_name'])
ex.execute_unix_command("kubectl create -f setter.yaml")
common_utils.test_kubernetes_object_quality(
kube_object=cpu_pooling_setter,
expected_result=cpu_pooling_setter["obj_count"],
filter=r'(Running)\s*[0]',
timeout=90)
cpu_setter_deleted = False
allowed_cpus_for_pod_after = common_utils.get_cpu_allowed_list_from_pod(
cpu_pooling_pod1['obj_name'])
exclusive_cpus = cpupools[nodename]['exclusive_caas']
if not common_utils.allowed_cpus_is_in_cpu_pool(
allowed_cpus_for_pod_after, exclusive_cpus):
raise Exception(
'{pod} not allocate CPU from exclusive pool!'.format(
pod=cpu_pooling_pod1['obj_name']))
if set(allowed_cpus_for_pod_before) == set(allowed_cpus_for_pod_after):
raise Exception(
'Allocated CPUs before setter deployed is equal with CPU set after deploy!'
)
finally:
common_utils.helm_delete("cpu-pooling")
common_utils.check_kubernetes_object(
kube_object=cpu_pooling_pod1,
tester_function=common_utils.test_kubernetes_object_not_available,
timeout=90)
setter_count = ex.execute_unix_command(
"kubectl get pod --all-namespaces | grep setter | wc -l")
if cpu_setter_deleted:
if setter_count != "0":
search_cmd = "kubectl get pod -n kube-system |grep setter | awk '{print $1}'"
del_cmd = "kubectl -n kube-system delete pod --grace-period=0 --force --wait=false"
ex.execute_unix_command(
"for i in `{search}`; do {delete} $i; done".format(
search=search_cmd, delete=del_cmd))
common_utils.check_kubernetes_object(
kube_object=cpu_pooling_setter,
tester_function=common_utils.
test_kubernetes_object_not_available,
timeout=90)
ex.execute_unix_command("kubectl create -f setter.yaml")
common_utils.test_kubernetes_object_quality(
kube_object=cpu_pooling_setter,
expected_result=cpu_pooling_setter["obj_count"],
filter=r'(Running)\s*[0]',
timeout=90)
def install_chart(kube_object):
common_utils.helm_install(chart_name="default/" + kube_object['obj_name'],
release_name=kube_object['obj_name'])
