def test_basics_rbd(self, test_fixture):
"""
Testing basics: secret creation,
storage class creation and pvc with cephfs
"""
self.cephfs_secret = templating.load_yaml_to_dict(
constants.CSI_CEPHFS_SECRET_YAML)
del self.cephfs_secret['data']['userID']
del self.cephfs_secret['data']['userKey']
self.cephfs_secret['data']['adminKey'] = (
get_admin_key_from_ceph_tools())
self.cephfs_secret['data']['adminID'] = constants.ADMIN_BASE64
logging.info(self.cephfs_secret)
secret = OCS(**self.cephfs_secret)
secret.create()
self.cephfs_sc = templating.load_yaml_to_dict(
constants.CSI_CEPHFS_STORAGECLASS_YAML)
self.cephfs_sc['parameters']['monitors'] = self.mons
self.cephfs_sc['parameters']['pool'] = (
f"{self.fs_data['metadata']['name']}-data0")
storage_class = OCS(**self.cephfs_sc)
storage_class.create()
self.cephfs_pvc = templating.load_yaml_to_dict(
constants.CSI_CEPHFS_PVC_YAML)
pvc = PVC(**self.cephfs_pvc)
pvc.create()
log.info(pvc.status)
assert 'Bound' in pvc.status
pvc.delete()
storage_class.delete()
secret.delete()
def create_secret(interface_type):
"""
Create a secret
Args:
interface_type (str): The type of the interface
(e.g. CephBlockPool, CephFileSystem)
Returns:
OCS: An OCS instance for the secret
"""
secret_data = dict()
if interface_type == constants.CEPHBLOCKPOOL:
secret_data = templating.load_yaml_to_dict(
constants.CSI_RBD_SECRET_YAML)
secret_data['stringData']['userID'] = constants.ADMIN_USER
secret_data['stringData']['userKey'] = get_admin_key()
interface = constants.RBD_INTERFACE
elif interface_type == constants.CEPHFILESYSTEM:
secret_data = templating.load_yaml_to_dict(
constants.CSI_CEPHFS_SECRET_YAML)
del secret_data['stringData']['userID']
del secret_data['stringData']['userKey']
secret_data['stringData']['adminID'] = constants.ADMIN_USER
secret_data['stringData']['adminKey'] = get_admin_key()
interface = constants.CEPHFS_INTERFACE
secret_data['metadata']['name'] = create_unique_resource_name(
f'test-{interface}', 'secret')
secret_data['metadata']['namespace'] = defaults.ROOK_CLUSTER_NAMESPACE
return create_resource(**secret_data, wait=False)
def test_basics_cephfs(self):
"""
Testing basics: secret creation,
storage class creation and pvc with rbd
"""
self.rbd_secret = templating.load_yaml_to_dict(
constants.CSI_RBD_SECRET_YAML)
del self.rbd_secret['data']['kubernetes']
self.rbd_secret['data']['admin'] = get_admin_key_from_ceph_tools()
logging.info(self.rbd_secret)
secret = OCS(**self.rbd_secret)
secret.create()
self.rbd_sc = templating.load_yaml_to_dict(
constants.CSI_RBD_STORAGECLASS_YAML)
self.rbd_sc['parameters']['monitors'] = self.mons
del self.rbd_sc['parameters']['userid']
storage_class = OCS(**self.rbd_sc)
storage_class.create()
self.rbd_pvc = templating.load_yaml_to_dict(constants.CSI_RBD_PVC_YAML)
pvc = PVC(**self.rbd_pvc)
pvc.create()
assert 'Bound' in pvc.status
pvc.delete()
storage_class.delete()
secret.delete()
def setup_postgresql(self):
"""
Deploy postgres sql server
"""
try:
pgsql_service = templating.load_yaml_to_dict(
constants.PGSQL_SERVICE_YAML
)
pgsql_cmap = templating.load_yaml_to_dict(
constants.PGSQL_CONFIGMAP_YAML
)
pgsql_sset = templating.load_yaml_to_dict(
constants.PGSQL_STATEFULSET_YAML
)
self.pgsql_service = OCS(**pgsql_service)
self.pgsql_service.create()
self.pgsql_cmap = OCS(**pgsql_cmap)
self.pgsql_cmap.create()
self.pgsql_sset = OCS(**pgsql_sset)
self.pgsql_sset.create()
self.pod_obj.wait_for_resource(
condition='Running',
selector='app=postgres',
timeout=120
)
except (CommandFailed, CalledProcessError) as cf:
log.error('Failed during setup of PostgreSQL server')
raise cf
self.pgsql_is_setup = True
def test_yaml_to_dict():
assert templating.load_yaml_to_dict(
constants.CEPHFILESYSTEM_YAML)['apiVersion'] == 'ceph.rook.io/v1'
assert templating.load_yaml_to_dict(
constants.CEPHFILESYSTEM_YAML
)['spec']['metadataPool']['replicated']['size'] == 3
assert templating.load_yaml_to_dict(
constants.CSI_PVC_YAML)['spec']['accessModes'] == ['ReadWriteOnce']
def run_io(self,
storage_type,
size,
io_direction='rw',
rw_ratio=75,
jobs=1,
runtime=60,
depth=4,
fio_filename=None):
"""
Execute FIO on a pod
This operation will run in background and will store the results in
'self.thread.result()'.
In order to wait for the output and not continue with the test until
FIO is done, call self.thread.result() right after calling run_io.
See tests/manage/test_pvc_deletion_during_io.py::test_run_io
for usage of FIO
Args:
storage_type (str): 'fs' or 'block'
size (str): Size in MB, e.g. '200M'
io_direction (str): Determines the operation:
'ro', 'wo', 'rw' (default: 'rw')
rw_ratio (int): Determines the reads and writes using a
<rw_ratio>%/100-<rw_ratio>%
(e.g. the default is 75 which means it is 75%/25% which
equivalent to 3 reads are performed for every 1 write)
jobs (int): Number of jobs to execute FIO
runtime (int): Number of seconds IO should run for
depth (int): IO depth
fio_filename(str): Name of fio file created on app pod's mount point
"""
name = 'test_workload'
spec = self.pod_data.get('spec')
path = (
spec.get('containers')[0].get('volumeMounts')[0].get('mountPath'))
work_load = 'fio'
# few io parameters for Fio
wl = workload.WorkLoad(name, path, work_load, storage_type, self, jobs)
assert wl.setup(), "Setup up for FIO failed"
if io_direction == 'rw':
io_params = templating.load_yaml_to_dict(
constants.FIO_IO_RW_PARAMS_YAML)
io_params['rwmixread'] = rw_ratio
else:
io_params = templating.load_yaml_to_dict(
constants.FIO_IO_PARAMS_YAML)
io_params['runtime'] = runtime
io_params['size'] = size
if fio_filename:
io_params['filename'] = fio_filename
io_params['iodepth'] = depth
self.fio_thread = wl.run(**io_params)
def run_io(self,
storage_type,
size,
io_direction='rw',
rw_ratio=75,
jobs=1,
runtime=60,
depth=4,
fio_filename=None):
"""
Execute FIO on a pod
This operation will run in background and will store the results in
'self.thread.result()'.
In order to wait for the output and not continue with the test until
FIO is done, call self.thread.result() right after calling run_io.
See tests/manage/test_pvc_deletion_during_io.py::test_run_io
for usage of FIO
Args:
storage_type (str): 'fs' or 'block'
size (str): Size in MB, e.g. '200M'
io_direction (str): Determines the operation:
'ro', 'wo', 'rw' (default: 'rw')
rw_ratio (int): Determines the reads and writes using a
<rw_ratio>%/100-<rw_ratio>%
(e.g. the default is 75 which means it is 75%/25% which
equivalent to 3 reads are performed for every 1 write)
jobs (int): Number of jobs to execute FIO
runtime (int): Number of seconds IO should run for
depth (int): IO depth
fio_filename(str): Name of fio file created on app pod's mount point
"""
if not self.wl_setup_done:
self.workload_setup(storage_type=storage_type, jobs=jobs)
if io_direction == 'rw':
self.io_params = templating.load_yaml_to_dict(
constants.FIO_IO_RW_PARAMS_YAML)
self.io_params['rwmixread'] = rw_ratio
else:
self.io_params = templating.load_yaml_to_dict(
constants.FIO_IO_PARAMS_YAML)
self.io_params['runtime'] = runtime
self.io_params['size'] = size
if fio_filename:
self.io_params['filename'] = fio_filename
self.io_params['iodepth'] = depth
self.fio_thread = self.wl_obj.run(**self.io_params)
def create_multiple_pvc(number_of_pvc=1, pvc_data=None):
"""
Create one or more PVC
Args:
number_of_pvc (int): Number of PVCs to be created
pvc_data (dict): Parameters for PVC yaml
Returns:
list: List of PVC objects
"""
if pvc_data is None:
pvc_data = templating.load_yaml_to_dict(constants.CSI_PVC_YAML)
pvc_objs = []
pvc_base_name = pvc_data['metadata']['name']
for count in range(1, number_of_pvc + 1):
if number_of_pvc != 1:
pvc_name = f'{pvc_base_name}{count}'
pvc_data['metadata']['name'] = pvc_name
pvc_name = pvc_data['metadata']['name']
log.info(f'Creating Persistent Volume Claim {pvc_name}')
pvc_obj = PVC(**pvc_data)
pvc_obj.create()
pvc_objs.append(pvc_obj)
log.info(f'Created Persistent Volume Claim {pvc_name}')
return pvc_objs
def create_pvc_invalid_size(pvcsize):
"""
Creates a pvc with an user provided data
Args:
pvcsize (str): Size of the pvc to be created
Returns:
None
"""
pvc_data = templating.load_yaml_to_dict(constants.CSI_PVC_YAML)
pvc_data['metadata']['name'] = "auto"
pvc_data['spec']['resources']['requests']['storage'] = pvcsize
pvc_data['spec']['storageClassName'] = SC_OBJ.name
pvc_obj = PVC(**pvc_data)
log.info(f"Creating a PVC with size {pvcsize}")
try:
pvc_obj.create()
except CommandFailed as ex:
error = ("quantities must match the regular expression '^([+-]?[0-9.]"
"+)([eEinumkKMGTP]*[-+]?[0-9]*)$'")
if error in str(ex):
log.info(f"PVC creation failed with error \n {ex} \n as "
"invalid pvc size is provided. EXPECTED")
else:
assert ("PVC creation with invalid size succeeded : "
"NOT expected")
def setup(self):
"""
Create new project
Create PVCs
"""
# Create new project
self.namespace = create_unique_resource_name('test', 'namespace')
self.project_obj = ocp.OCP(kind='Project', namespace=self.namespace)
assert self.project_obj.new_project(
self.namespace), (f'Failed to create new project {self.namespace}')
# Parameters for PVC yaml as dict
pvc_data = load_yaml_to_dict(constants.CSI_PVC_YAML)
pvc_data['metadata']['namespace'] = self.namespace
pvc_data['spec']['storageClassName'] = self.sc_obj.name
pvc_data['metadata']['name'] = self.pvc_base_name
# Create 100 PVCs
pvc_objs = create_multiple_pvc(self.number_of_pvc, pvc_data)
log.info(f'Created initial {self.number_of_pvc} PVCs')
self.pvc_objs_initial = pvc_objs[:]
# Verify PVCs are Bound and fetch PV names
for pvc in self.pvc_objs_initial:
pvc.reload()
assert pvc.status == constants.STATUS_BOUND, (
f'PVC {pvc.name} is not Bound')
self.initial_pvs.append(pvc.backed_pv)
log.info(f'Initial {self.number_of_pvc} PVCs are in Bound state')
def create_pvc_and_verify_pvc_exists(
sc_name, cbp_name, desired_status=constants.STATUS_BOUND, wait=True
):
"""
Create pvc, verify pvc is bound in state and
pvc exists on ceph side
"""
pvc_data = templating.load_yaml_to_dict(constants.CSI_PVC_YAML)
pvc_data['metadata']['name'] = helpers.create_unique_resource_name(
'test', 'pvc'
)
pvc_data['spec']['storageClassName'] = sc_name
pvc_data['spec']['resources']['requests']['storage'] = "10Gi"
pvc_obj = pvc.PVC(**pvc_data)
pvc_obj.create()
if wait:
assert pvc_obj.ocp.wait_for_resource(
condition=desired_status, resource_name=pvc_obj.name
), f"{pvc_obj.kind} {pvc_obj.name} failed to reach"
f"status {desired_status}"
pvc_obj.reload()
# ToDo: Add validation to check pv exists on bcaekend
# Commenting the below code: https://bugzilla.redhat.com/show_bug.cgi?id=1723656
# Validate pv is created on ceph
# logger.info(f"Verifying pv exists on backend")
# ct_pod = pod.get_ceph_tools_pod()
# pv_list = ct_pod.exec_ceph_cmd(
# ceph_cmd=f"rbd ls -p {cbp_name}", format='json'
# )
# _rc = pvc_obj.backed_pv in pv_list
# assert _rc, f"pv doesn't exist on backend"
# logger.info(f"pv {pvc_obj.backed_pv} exists on backend")
return pvc_obj
def test_pvc_delete_and_verify_size_is_returned_to_backend_pool(self):
"""
Test case to verify after delete pvc size returned to backend pools
"""
used_before_creating_pvc = check_ceph_used_space()
logger.info(f"Used before creating pvc {used_before_creating_pvc}")
pvc_obj = create_pvc_and_verify_pvc_exists(
self.sc_obj.name, self.cbp_obj.name
)
pod_data = templating.load_yaml_to_dict(constants.CSI_RBD_POD_YAML)
pod_data['spec']['volumes'][0]['persistentVolumeClaim'][
'claimName'
] = pvc_obj.name
pod_obj = helpers.create_pod(**pod_data)
used_percentage = pod.run_io_and_verify_mount_point(pod_obj)
assert used_percentage > '90%', "I/O's didn't run completely"
used_after_creating_pvc = check_ceph_used_space()
logger.info(f"Used after creating pvc {used_after_creating_pvc}")
assert used_before_creating_pvc < used_after_creating_pvc
pod_obj.delete()
pvc_obj.delete()
verify_pv_not_exists(pvc_obj.backed_pv, self.cbp_obj.name)
used_after_deleting_pvc = check_ceph_used_space()
logger.info(f"Used after deleting pvc {used_after_deleting_pvc}")
assert used_after_deleting_pvc < used_after_creating_pvc
assert (abs(
used_after_deleting_pvc - used_before_creating_pvc) < 0.2)
def create_cephfilesystem():
"""
Function for deploying CephFileSystem (MDS)
Returns:
bool: True if CephFileSystem creates successful
"""
fs_data = templating.load_yaml_to_dict(constants.CEPHFILESYSTEM_YAML)
fs_data['metadata']['name'] = create_unique_resource_name(
'test', 'cephfs'
)
fs_data['metadata']['namespace'] = config.ENV_DATA['cluster_namespace']
global CEPHFS_OBJ
CEPHFS_OBJ = OCS(**fs_data)
CEPHFS_OBJ.create()
POD = pod.get_all_pods(
namespace=defaults.ROOK_CLUSTER_NAMESPACE
)
for pod_names in POD:
if 'rook-ceph-mds' in pod_names.labels.values():
assert pod_names.ocp.wait_for_resource(
condition=constants.STATUS_RUNNING,
selector='app=rook-ceph-mds'
)
assert validate_cephfilesystem(fs_name=fs_data['metadata']['name'])
return True
def test_fio_with_block_storage(self):
name = 'test_workload'
spec = self.pod_obj.data.get('spec')
path = (
spec.get('containers')[0].get('volumeMounts')[0].get('mountPath'))
work_load = 'fio'
storage_type = 'fs'
# few io parameters for Fio
runtime = 10
size = '200M'
wl = workload.WorkLoad(name, path, work_load, storage_type,
self.pod_obj)
assert wl.setup()
io_params = templating.load_yaml_to_dict(constants.FIO_IO_PARAMS_YAML)
io_params['runtime'] = runtime
io_params['size'] = size
future_result = wl.run(**io_params)
timeout = 1200
sample = TimeoutSampler(timeout=timeout,
sleep=3,
func=future_result.done)
assert sample.wait_for_func_status(result=True)
try:
logger.info(future_result.result())
except exceptions.CommandFailed:
logger.exception(f"FIO failed")
raise
except Exception:
logger.exception(f"Found Exception")
raise
def create_pvc_invalid_name(pvcname):
"""
Creates a pvc with an user provided data
Args:
pvcname (str): Name of the pvc to be created
Returns:
None
"""
pvc_data = templating.load_yaml_to_dict(constants.CSI_PVC_YAML)
pvc_data['metadata']['name'] = pvcname
pvc_data['spec']['storageClassName'] = SC_OBJ.name
pvc_obj = PVC(**pvc_data)
log.info(f"Creating a pvc with name {pvcname}")
try:
pvc_obj.create()
except CommandFailed as ex:
error = ("subdomain must consist of lower case alphanumeric "
"characters, '-' or '.', and must start and end with "
"an alphanumeric character")
if error in str(ex):
log.info(f"PVC creation failed with error \n {ex} \n as "
"invalid pvc name is provided. EXPECTED")
else:
assert ("PVC creation with invalid name succeeded : "
"NOT expected")
def test_multiple_pvc_concurrent_creation_deletion(self):
"""
To exercise resource creation and deletion
"""
# Start deleting 100 PVCs
command = (f'for i in `seq 1 {self.number_of_pvc}`;do oc delete pvc '
f'{self.pvc_base_name}$i -n {self.namespace};done')
proc = run_async(command)
assert proc, (
f'Failed to execute command for deleting {self.number_of_pvc} PVCs'
)
# Create 100 new PVCs
# Parameters for PVC yaml as dict
pvc_data = load_yaml_to_dict(constants.CSI_PVC_YAML)
pvc_data['metadata']['namespace'] = self.namespace
pvc_data['spec']['storageClassName'] = self.sc_obj.name
pvc_data['metadata']['name'] = self.pvc_base_name_new
# Create 100 PVCs
pvc_objs = create_multiple_pvc(self.number_of_pvc, pvc_data)
log.info(f'Created {self.number_of_pvc} new PVCs.')
self.pvc_objs_new = pvc_objs[:]
# Verify PVCs are Bound
for pvc in self.pvc_objs_new:
pvc.reload()
assert pvc.status == constants.STATUS_BOUND, (
f'PVC {pvc.name} is not Bound')
log.info('Verified: Newly created PVCs are in Bound state.')
# Verify command to delete PVCs
ret, out, err = proc.async_communicate()
log.info(
f'Return values of command: {command}.\nretcode:{ret}\nstdout:'
f'{out}\nstderr:{err}')
assert not ret, 'Deletion of PVCs failed'
# Verify PVCs are deleted
for pvc in self.pvc_objs_initial:
try:
pvc.get()
return False
except exceptions.CommandFailed as exp:
assert "not found" in str(exp), (
f'Failed to fetch details of PVC {pvc.name}')
log.info(f'Expected: PVC {pvc.name} does not exists ')
log.info(f'Successfully deleted initial {self.number_of_pvc} PVCs')
# Verify PVs using ceph toolbox. PVs should be deleted because
# reclaimPolicy is Delete
ceph_cmd = f'rbd ls -p {self.cbp_obj.name}'
ct_pod = get_ceph_tools_pod()
final_pv_list = ct_pod.exec_ceph_cmd(ceph_cmd=ceph_cmd, format='json')
assert not any(pv in final_pv_list for pv in self.initial_pvs), (
'PVs associated with deleted PVCs still exists')
log.info('Verified: PVs associated with deleted PVCs are also deleted')
def create_pod(interface_type=None,
pvc_name=None,
desired_status=constants.STATUS_RUNNING,
wait=True,
namespace=defaults.ROOK_CLUSTER_NAMESPACE,
node_name=None,
pod_dict_path=None):
"""
Create a pod
Args:
interface_type (str): The interface type (CephFS, RBD, etc.)
pvc_name (str): The PVC that should be attached to the newly created pod
desired_status (str): The status of the pod to wait for
wait (bool): True for waiting for the pod to reach the desired
status, False otherwise
namespace (str): The namespace for the new resource creation
node_name (str): The name of specific node to schedule the pod
pod_dict_path (str): YAML path for the pod
Returns:
Pod: A Pod instance
Raises:
AssertionError: In case of any failure
"""
if interface_type == constants.CEPHBLOCKPOOL:
pod_dict = pod_dict_path if pod_dict_path else constants.CSI_RBD_POD_YAML
interface = constants.RBD_INTERFACE
else:
pod_dict = pod_dict_path if pod_dict_path else constants.CSI_CEPHFS_POD_YAML
interface = constants.CEPHFS_INTERFACE
pod_data = templating.load_yaml_to_dict(pod_dict)
pod_data['metadata']['name'] = create_unique_resource_name(
f'test-{interface}', 'pod')
pod_data['metadata']['namespace'] = namespace
if pvc_name:
pod_data['spec']['volumes'][0]['persistentVolumeClaim'][
'claimName'] = pvc_name
if node_name:
pod_data['spec']['nodeName'] = node_name
else:
if 'nodeName' in pod_data.get('spec'):
del pod_data['spec']['nodeName']
pod_obj = pod.Pod(**pod_data)
pod_name = pod_data.get('metadata').get('name')
created_resource = pod_obj.create(do_reload=wait)
assert created_resource, (f"Failed to create resource {pod_name}")
if wait:
assert wait_for_resource_state(resource=pod_obj,
state=desired_status,
timeout=120)
return pod_obj
def create_pod(request):
"""
Create a pod
"""
class_instance = request.node.cls
pod_data = templating.load_yaml_to_dict(constants.CSI_RBD_POD_YAML)
pod_data['metadata']['name'] = helpers.create_unique_resource_name(
'test', 'pod')
pod_data['metadata']['namespace'] = defaults.ROOK_CLUSTER_NAMESPACE
pod_data['spec']['volumes'][0]['persistentVolumeClaim'][
'claimName'] = class_instance.pvc_obj.name
class_instance.pod_obj = helpers.create_pod(**pod_data)
def setup(self):
"""
Setting up the environment for the test
"""
# Create a storage class
log.info("Creating a Storage Class")
self.sc_data = templating.load_yaml_to_dict(
constants.CSI_RBD_STORAGECLASS_YAML)
self.sc_data['metadata']['name'] = helpers.create_unique_resource_name(
'test', 'csi-rbd')
global SC_OBJ
SC_OBJ = OCS(**self.sc_data)
assert SC_OBJ.create()
log.info(f"Storage class: {SC_OBJ.name} created successfully")
log.debug(self.sc_data)
def test_storageclass_invalid(self, invalid_storageclass):
"""
Test that Persistent Volume Claim can not be created from misconfigured
CephFS Storage Class.
"""
pvc_data = templating.load_yaml_to_dict(constants.CSI_PVC_YAML)
pvc_name = helpers.create_unique_resource_name('test', 'pvc')
pvc_data['metadata']['name'] = pvc_name
pvc_data['metadata']['namespace'] = defaults.ROOK_CLUSTER_NAMESPACE
pvc_data['spec']['storageClassName'] = invalid_storageclass[
'metadata']['name']
logger.info(
f"Create PVC {pvc_name} "
f"with storageClassName "
f"{invalid_storageclass['metadata']['name']}"
)
pvc = PVC(**pvc_data)
pvc.create()
pvc_status = pvc.status
logger.debug(f"Status of PVC {pvc_name} after creation: {pvc_status}")
assert pvc_status == constants.STATUS_PENDING
logger.info(
f"Waiting for status '{constants.STATUS_BOUND}' "
f"for 60 seconds (it shouldn't change)"
)
with pytest.raises(TimeoutExpiredError):
# raising TimeoutExpiredError is expected behavior
pvc_status_changed = pvc.ocp.wait_for_resource(
resource_name=pvc_name,
condition=constants.STATUS_BOUND,
timeout=60,
sleep=20
)
logger.debug('Check that PVC status did not changed')
assert not pvc_status_changed
pvc_status = pvc.status
logger.info(f"Status of PVC {pvc_name} after 60 seconds: {pvc_status}")
assert_msg = (
f"PVC {pvc_name} hasn't reached status "
f"{constants.STATUS_PENDING}"
)
assert pvc_status == constants.STATUS_PENDING, assert_msg
logger.info(f"Deleting PVC {pvc_name}")
pvc.delete()
def test_sql_workload_simple(self, ripsaw):
"""
This is a basic pgsql workload
"""
# Deployment postgres
log.info("Deploying postgres database")
ripsaw.apply_crd('resources/crds/' 'ripsaw_v1alpha1_ripsaw_crd.yaml')
ripsaw.setup_postgresql()
run_cmd('bin/oc wait --for condition=ready pod '
'-l app=postgres '
'--timeout=120s')
# Create pgbench benchmark
log.info("Create resource file for pgbench workload")
pg_data = templating.load_yaml_to_dict(constants.PGSQL_BENCHMARK_YAML)
pg_obj = OCS(**pg_data)
pg_obj.create()
# Wait for pgbench pod to be created
log.info("waiting for pgbench benchmark to create, "
f"PGbench pod name: {pg_obj.name} ")
wait_time = 30
log.info(f"Waiting {wait_time} seconds...")
time.sleep(wait_time)
pgbench_pod = run_cmd('bin/oc get pods -l '
'app=pgbench-client -o name')
pgbench_pod = pgbench_pod.split('/')[1]
run_cmd('bin/oc wait --for condition=Initialized '
f'pods/{pgbench_pod} '
'--timeout=60s')
run_cmd('bin/oc wait --for condition=Complete jobs '
'-l app=pgbench-client '
'--timeout=300s')
# Running pgbench and parsing logs
output = run_cmd(f'bin/oc logs {pgbench_pod}')
pg_output = utils.parse_pgsql_logs(output)
log.info("*******PGBench output log*********\n" f"{pg_output}")
for data in pg_output:
latency_avg = data['latency_avg']
if not latency_avg:
raise UnexpectedBehaviour("PGBench failed to run, "
"no data found on latency_avg")
log.info("PGBench has completed successfully")
# Clean up pgbench benchmark
log.info("Deleting PG bench benchmark:")
pg_obj.delete()
def setup_fs(self):
"""
Setting up the environment for the test
"""
global CEPH_OBJ
self.fs_data = templating.load_yaml_to_dict(constants.CEPHFILESYSTEM_YAML)
self.fs_data['metadata']['name'] = helpers.create_unique_resource_name(
'test', 'cephfs')
self.fs_data['metadata']['namespace'] = config.ENV_DATA[
'cluster_namespace']
CEPH_OBJ = OCS(**self.fs_data)
CEPH_OBJ.create()
assert POD.wait_for_resource(condition='Running',
selector='app=rook-ceph-mds')
pods = POD.get(selector='app=rook-ceph-mds')['items']
assert len(pods) == 2
def create_serviceaccount(namespace):
"""
Create a Serviceaccount
Args:
namespace (str): The namespace for the serviceaccount creation
Returns:
OCS: An OCS instance for the service_account
"""
service_account_data = templating.load_yaml_to_dict(
constants.SERVICE_ACCOUNT_YAML)
service_account_data['metadata']['name'] = create_unique_resource_name(
'sa', 'serviceaccount')
service_account_data['metadata']['namespace'] = namespace
return create_resource(**service_account_data)
def create_instance_in_clusterlogging(sc_name=None):
"""
Creation of instance for clusterlogging that creates PVCs,
ElasticSearch, curator fluentd and kibana pods and checks for all
the pods and PVCs
Args:
sc_name (str): Storage class name to create PVCs
Returns:
dict: Contains all detailed information of the
instance such as pods that got created, its resources and limits
values, storage class and size details etc.
"""
inst_data = templating.load_yaml_to_dict(constants.CL_INSTANCE_YAML)
inst_data['spec']['logStore']['elasticsearch']['storage'][
'storageClassName'] = sc_name
inst_data['spec']['logStore']['elasticsearch']['storage']['size'] = "200Gi"
node_count = inst_data['spec']['logStore']['elasticsearch']['nodeCount']
helpers.create_resource(wait=False, **inst_data)
oc = ocp.OCP('v1', 'ClusterLogging', 'openshift-logging')
logging_instance = oc.get(resource_name='instance', out_yaml_format='True')
if logging_instance:
logger.info("Successfully created instance for cluster-logging")
logger.debug(logging_instance)
else:
logger.error("Instance for clusterlogging is not created properly")
pod_obj = ocp.OCP(kind=constants.POD, namespace='openshift-logging')
pod_status = pod_obj.wait_for_resource(condition=constants.STATUS_RUNNING,
resource_count=11,
timeout=200,
sleep=5)
assert pod_status, "Pods are not in Running state."
logger.info("All pods are in Running state")
pvc_obj = ocp.OCP(kind=constants.PVC, namespace='openshift-logging')
pvc_status = pvc_obj.wait_for_resource(condition=constants.STATUS_BOUND,
resource_count=node_count,
timeout=150,
sleep=5)
assert pvc_status, "PVCs are not in bound state."
logger.info("PVCs are Bound")
return logging_instance
def create_ceph_block_pool(pool_name=None):
"""
Create a Ceph block pool
Args:
pool_name (str): The pool name to create
Returns:
OCS: An OCS instance for the Ceph block pool
"""
cbp_data = templating.load_yaml_to_dict(constants.CEPHBLOCKPOOL_YAML)
cbp_data['metadata']['name'] = (pool_name if pool_name else
create_unique_resource_name('test', 'cbp'))
cbp_data['metadata']['namespace'] = defaults.ROOK_CLUSTER_NAMESPACE
cbp_obj = create_resource(**cbp_data, wait=False)
cbp_obj.reload()
assert verify_block_pool_exists(
cbp_obj.name), (f"Block pool {cbp_obj.name} does not exist")
return cbp_obj
def create_ceph_file_system(pool_name=None):
"""
Create a Ceph file system
Args:
pool_name (str): The pool name to create
Returns:
OCS: An OCS instance for the Ceph file system
"""
cfs_data = templating.load_yaml_to_dict(constants.CEPHFILESYSTEM_YAML)
cfs_data['metadata']['name'] = (pool_name if pool_name else
create_unique_resource_name('test', 'cfs'))
cfs_data['metadata']['namespace'] = defaults.ROOK_CLUSTER_NAMESPACE
cfs_data = create_resource(**cfs_data)
cfs_data.reload()
assert validate_cephfilesystem(
cfs_data.name), (f"File system {cfs_data.name} does not exist")
return cfs_data
def create_storageclass(sc_name, expect_fail=False):
"""
Function to create a storage class and check for
duplicate storage class name
Args:
sc_name (str): name of the storageclass to be created
expect_fail (bool): To catch the incorrect scenario if
two SCs are indeed created with same name
Returns:
None
"""
# Create a storage class
sc_data = templating.load_yaml_to_dict(constants.CSI_RBD_STORAGECLASS_YAML)
sc_data['metadata']['name'] = sc_name
sc_data['parameters']['clusterID'] = defaults.ROOK_CLUSTER_NAMESPACE
global SC_OBJ
SC_OBJ = OCS(**sc_data)
# Check for expected failure with duplicate SC name
try:
SC_OBJ.create()
assert not expect_fail, (
"SC creation with same name passed. Expected to fail !"
)
log.info(
f"Storage class: {SC_OBJ.name} created successfully !"
)
log.debug(sc_data)
except CommandFailed as ecf:
assert "AlreadyExists" in str(ecf)
log.info(
f"Cannot create two StorageClasses with same name !"
f" Error message: \n"
f"{ecf}"
)
def test_smallfile_workload(self, ripsaw):
"""
Run SmallFile Workload
"""
log.info("Apply Operator CRD")
ripsaw.apply_crd('resources/crds/ripsaw_v1alpha1_ripsaw_crd.yaml')
log.info("Running SmallFile bench")
sf_data = templating.load_yaml_to_dict(
constants.SMALLFILE_BENCHMARK_YAML)
sf_obj = OCS(**sf_data)
sf_obj.create()
# wait for benchmark pods to get created - takes a while
for bench_pod in TimeoutSampler(40, 3, get_pod_name_by_pattern,
'smallfile-client', 'my-ripsaw'):
try:
if bench_pod[0] is not None:
small_file_client_pod = bench_pod[0]
break
except IndexError:
log.info("Bench pod not ready yet")
bench_pod = OCP(kind='pod', namespace='my-ripsaw')
log.info("Waiting for SmallFile benchmark to Run")
assert bench_pod.wait_for_resource(condition=constants.STATUS_RUNNING,
resource_name=small_file_client_pod,
sleep=30,
timeout=600)
start_time = time.time()
timeout = 900
while True:
logs = bench_pod.exec_oc_cmd(f'logs {small_file_client_pod}',
out_yaml_format=False)
if "RUN STATUS DONE" in logs:
log.info("SmallFile Benchmark Completed Successfully")
break
if timeout < (time.time() - start_time):
raise TimeoutError(
f"Timed out waiting for benchmark to complete")
time.sleep(30)
def create_configmap_cluster_monitoring_pod(sc_name):
"""
Create a configmap named cluster-monitoring-config
and configure pvc on monitoring pod
Args:
sc_name (str): Name of the storage class
"""
logger.info("Creating configmap cluster-monitoring-config")
config_map = templating.load_yaml_to_dict(
constants.CONFIGURE_PVC_ON_MONITORING_POD
)
config = yaml.safe_load(config_map['data']['config.yaml'])
config['prometheusK8s']['volumeClaimTemplate']['spec']['storageClassName'] = sc_name
config['alertmanagerMain']['volumeClaimTemplate']['spec']['storageClassName'] = sc_name
config = yaml.dump(config)
config_map['data']['config.yaml'] = config
assert helpers.create_resource(**config_map, wait=False)
ocp = OCP('v1', 'ConfigMap', 'openshift-monitoring')
assert ocp.get(resource_name='cluster-monitoring-config')
logger.info("Successfully created configmap cluster-monitoring-config")
def test_verify_all_fields_in_sc_yaml_with_oc_describe(self, interface):
"""
Test function to create RBD and CephFS SC, and match with oc describe sc
output
"""
log.info(f"Creating a {interface} storage class")
self.sc_data = templating.load_yaml_to_dict(
getattr(constants, f"CSI_{interface}_STORAGECLASS_YAML")
)
self.sc_data['metadata']['name'] = (
helpers.create_unique_resource_name(
'test', f'csi-{interface.lower()}'
)
)
global SC_OBJ
SC_OBJ = OCS(**self.sc_data)
assert SC_OBJ.create()
log.info(
f"{interface}Storage class: {SC_OBJ.name} created successfully"
)
log.info(self.sc_data)
# Get oc describe sc output
describe_out = SC_OBJ.get("sc")
log.info(describe_out)
# Confirm that sc yaml details matches oc describe sc output
value = {
k: describe_out[k] for k in set(describe_out) - set(self.sc_data)
}
assert len(value) == 1 and value['volumeBindingMode'] == 'Immediate', (
"OC describe sc output didn't match storage class yaml"
)
log.info("OC describe sc output matches storage class yaml")
# Delete Storage Class
log.info(f"Deleting Storageclass: {SC_OBJ.name}")
assert SC_OBJ.delete()
log.info(f"Storage Class: {SC_OBJ.name} deleted successfully")
del SC_OBJ
