コード例 #1
0
    def test_disruptive_during_pod_pvc_deletion_and_io(
        self, interface, resource_to_delete, setup_base
    ):
        """
        Delete ceph/rook pod while PVCs deletion, pods deletion and IO are
        progressing
        """
        pvc_objs, pod_objs, rwx_pod_objs = setup_base
        namespace = pvc_objs[0].project.namespace

        num_of_pods_to_delete = 3
        num_of_io_pods = 1

        # Select pods to be deleted
        pods_to_delete = pod_objs[:num_of_pods_to_delete]
        pods_to_delete.extend(
            [
                pod
                for pod in rwx_pod_objs
                for pod_obj in pods_to_delete
                if (pod_obj.pvc == pod.pvc)
            ]
        )

        # Select pods to run IO
        io_pods = pod_objs[
            num_of_pods_to_delete : num_of_pods_to_delete + num_of_io_pods
        ]
        io_pods.extend(
            [
                pod
                for pod in rwx_pod_objs
                for pod_obj in io_pods
                if (pod_obj.pvc == pod.pvc)
            ]
        )

        # Select pods which are having PVCs to delete
        pods_for_pvc = pod_objs[num_of_pods_to_delete + num_of_io_pods :]
        pvcs_to_delete = [pod_obj.pvc for pod_obj in pods_for_pvc]
        pods_for_pvc.extend(
            [
                pod
                for pod in rwx_pod_objs
                for pod_obj in pods_for_pvc
                if (pod_obj.pvc == pod.pvc)
            ]
        )

        io_pods = [
            pod_obj
            for pod_obj in io_pods
            if pod_obj.pvc in select_unique_pvcs([pod_obj.pvc for pod_obj in io_pods])
        ]

        log.info(
            f"{len(pods_to_delete)} pods selected for deletion in which "
            f"{len(pods_to_delete) - num_of_pods_to_delete} pairs of pod "
            f"share same RWX PVC"
        )
        log.info(
            f"{len(io_pods)} pods selected for running IO in which one "
            f"pair of pod share same RWX PVC"
        )
        no_of_rwx_pvcs_delete = len(pods_for_pvc) - len(pvcs_to_delete)
        log.info(
            f"{len(pvcs_to_delete)} PVCs selected for deletion. "
            f"RWO PVCs: {len(pvcs_to_delete) - no_of_rwx_pvcs_delete}, "
            f"RWX PVCs: {no_of_rwx_pvcs_delete}"
        )

        pod_functions = {
            "mds": partial(get_mds_pods),
            "mon": partial(get_mon_pods),
            "mgr": partial(get_mgr_pods),
            "osd": partial(get_osd_pods),
            "rbdplugin": partial(get_plugin_pods, interface=interface),
            "cephfsplugin": partial(get_plugin_pods, interface=interface),
            "cephfsplugin_provisioner": partial(get_cephfsplugin_provisioner_pods),
            "rbdplugin_provisioner": partial(get_rbdfsplugin_provisioner_pods),
            "operator": partial(get_operator_pods),
        }

        disruption = disruption_helpers.Disruptions()
        disruption.set_resource(resource=resource_to_delete)
        executor = ThreadPoolExecutor(max_workers=len(pod_objs) + len(rwx_pod_objs))

        # Get number of pods of type 'resource_to_delete'
        num_of_resource_to_delete = len(pod_functions[resource_to_delete]())

        # Fetch the number of Pods and PVCs
        initial_num_of_pods = len(get_all_pods(namespace=namespace))
        initial_num_of_pvc = len(get_all_pvcs(namespace=namespace)["items"])

        # Fetch PV names to verify after deletion
        pv_objs = []
        for pvc_obj in pvcs_to_delete:
            pvc_obj.reload()
            pv_objs.append(pvc_obj.backed_pv_obj)

        # Fetch volume details from pods for the purpose of verification
        node_pv_dict = {}
        for pod_obj in pods_to_delete:
            pod_info = pod_obj.get()
            node = pod_info["spec"]["nodeName"]
            pvc = pod_info["spec"]["volumes"][0]["persistentVolumeClaim"]["claimName"]
            for pvc_obj in pvc_objs:
                if pvc_obj.name == pvc:
                    pvc_obj.reload()
                    pv = pvc_obj.backed_pv
                    break
            if node in node_pv_dict:
                node_pv_dict[node].append(pv)
            else:
                node_pv_dict[node] = [pv]

        # Fetch image uuid associated with PVCs to be deleted
        pvc_uuid_map = {}
        for pvc_obj in pvcs_to_delete:
            pvc_uuid_map[pvc_obj.name] = pvc_obj.image_uuid
        log.info("Fetched image uuid associated with each PVC")

        # Do setup on pods for running IO
        log.info("Setting up pods for running IO.")
        for pod_obj in pod_objs + rwx_pod_objs:
            pvc_info = pod_obj.pvc.get()
            if pvc_info["spec"]["volumeMode"] == "Block":
                storage_type = "block"
            else:
                storage_type = "fs"
            executor.submit(pod_obj.workload_setup, storage_type=storage_type)

        # Wait for setup on pods to complete
        for pod_obj in pod_objs + rwx_pod_objs:
            log.info(f"Waiting for IO setup to complete on pod {pod_obj.name}")
            for sample in TimeoutSampler(360, 2, getattr, pod_obj, "wl_setup_done"):
                if sample:
                    log.info(
                        f"Setup for running IO is completed on pod " f"{pod_obj.name}."
                    )
                    break
        log.info("Setup for running IO is completed on all pods.")

        # Start IO on pods having PVCs to delete to load data
        pods_for_pvc_io = [
            pod_obj
            for pod_obj in pods_for_pvc
            if pod_obj.pvc
            in select_unique_pvcs([pod_obj.pvc for pod_obj in pods_for_pvc])
        ]
        log.info("Starting IO on pods having PVCs to delete.")
        self.run_io_on_pods(pods_for_pvc_io)
        log.info("IO started on pods having PVCs to delete.")

        log.info("Fetching IO results from the pods having PVCs to delete.")
        for pod_obj in pods_for_pvc_io:
            get_fio_rw_iops(pod_obj)
        log.info("Verified IO result on pods having PVCs to delete.")

        # Delete pods having PVCs to delete.
        delete_pods(pods_for_pvc)
        for pod_obj in pods_for_pvc:
            pod_obj.ocp.wait_for_delete(pod_obj.name)
        log.info("Verified: Deleted pods which are having PVCs to delete.")

        # Start IO on pods to be deleted
        pods_to_delete_io = [
            pod_obj
            for pod_obj in pods_to_delete
            if pod_obj.pvc
            in select_unique_pvcs([pod_obj.pvc for pod_obj in pods_to_delete])
        ]
        log.info("Starting IO on selected pods to be deleted.")
        self.run_io_on_pods(pods_to_delete_io)
        log.info("IO started on selected pods to be deleted.")

        # Start deleting PVCs
        pvc_bulk_delete = executor.submit(delete_pvcs, pvcs_to_delete)
        log.info("Started deleting PVCs")

        # Start deleting pods
        pod_bulk_delete = executor.submit(delete_pods, pods_to_delete, wait=False)
        log.info("Started deleting pods")

        # Start IO on IO pods
        self.run_io_on_pods(io_pods)
        log.info("Started IO on IO pods")

        # Verify pvc deletion has started
        pvc_deleting = executor.submit(
            wait_for_resource_count_change,
            func_to_use=get_all_pvcs,
            previous_num=initial_num_of_pvc,
            namespace=namespace,
            change_type="decrease",
            min_difference=1,
            timeout=30,
            interval=0.01,
        )

        # Verify pod deletion has started
        pod_deleting = executor.submit(
            wait_for_resource_count_change,
            func_to_use=get_all_pods,
            previous_num=initial_num_of_pods,
            namespace=namespace,
            change_type="decrease",
            min_difference=1,
            timeout=30,
            interval=0.01,
        )

        assert pvc_deleting.result(), "Wait timeout: PVCs are not being deleted."
        log.info("PVCs deletion has started.")

        assert pod_deleting.result(), "Wait timeout: Pods are not being deleted."
        log.info("Pods deletion has started.")

        # Delete pod of type 'resource_to_delete'
        disruption.delete_resource()

        pod_bulk_delete.result()

        # Verify pods are deleted
        for pod_obj in pods_to_delete:
            pod_obj.ocp.wait_for_delete(pod_obj.name, 300)
        log.info("Verified: Pods are deleted.")

        # Verify that the mount point is removed from nodes after deleting pod
        node_pv_mounted = verify_pv_mounted_on_node(node_pv_dict)
        for node, pvs in node_pv_mounted.items():
            assert not pvs, (
                f"PVs {pvs} is still present on node {node} after "
                f"deleting the pods."
            )
        log.info(
            "Verified: mount points are removed from nodes after deleting " "the pods"
        )

        log.info("Fetching IO results from the pods.")
        for pod_obj in io_pods:
            fio_result = pod_obj.get_fio_results()
            err_count = fio_result.get("jobs")[0].get("error")
            assert (
                err_count == 0
            ), f"FIO error on pod {pod_obj.name}. FIO result: {fio_result}"
        log.info("Verified IO result on pods.")

        pvcs_deleted = pvc_bulk_delete.result()
        assert pvcs_deleted, "Deletion of PVCs failed."

        # Verify PVCs are deleted
        for pvc_obj in pvcs_to_delete:
            pvc_obj.ocp.wait_for_delete(pvc_obj.name)
        log.info("Verified: PVCs are deleted.")

        # Verify PVs are deleted
        for pv_obj in pv_objs:
            pv_obj.ocp.wait_for_delete(resource_name=pv_obj.name, timeout=300)
        log.info("Verified: PVs are deleted.")

        # Verify PV using ceph toolbox. Image/Subvolume should be deleted.
        pool_name = default_ceph_block_pool()
        for pvc_name, uuid in pvc_uuid_map.items():
            if interface == constants.CEPHBLOCKPOOL:
                ret = verify_volume_deleted_in_backend(
                    interface=interface, image_uuid=uuid, pool_name=pool_name
                )
            if interface == constants.CEPHFILESYSTEM:
                ret = verify_volume_deleted_in_backend(
                    interface=interface, image_uuid=uuid
                )
            assert ret, (
                f"Volume associated with PVC {pvc_name} still exists " f"in backend"
            )

        # Verify number of pods of type 'resource_to_delete'
        final_num_resource_to_delete = len(pod_functions[resource_to_delete]())
        assert final_num_resource_to_delete == num_of_resource_to_delete, (
            f"Total number of {resource_to_delete} pods is not matching with "
            f"initial value. Total number of pods before deleting a pod: "
            f"{num_of_resource_to_delete}. Total number of pods present now: "
            f"{final_num_resource_to_delete}"
        )

        # Check ceph status
        ceph_health_check(namespace=config.ENV_DATA["cluster_namespace"])
        log.info("Ceph cluster health is OK")
コード例 #2
0
    def test_daemon_kill_during_pvc_pod_creation_deletion_and_io(
        self, setup_base, multi_pvc_factory, pod_factory
    ):
        """
        Kill ceph daemons while PVCs creation, PVCs deletion, pods creation, pods deletion
        and IO are progressing
        """
        daemons_to_kill = [
            "mgr",
            "mon",
            "osd",
            "mds",
        ]

        (
            pvc_objs,
            pod_objs,
            rwx_pod_objs,
            cephfs_pvc_for_pods,
            rbd_pvc_for_pods,
        ) = setup_base

        num_of_pods_to_delete = 3
        num_of_io_pods = 1
        num_pvc_create_during_disruption = len(
            self.access_modes_cephfs + self.access_modes_rbd
        )

        # Select pods to be deleted
        pods_to_delete = pod_objs[:num_of_pods_to_delete]
        pods_to_delete.extend(
            [
                pod
                for pod in rwx_pod_objs
                for pod_obj in pods_to_delete
                if (pod_obj.pvc == pod.pvc)
            ]
        )

        # Select pods to run IO
        io_pods = pod_objs[
            num_of_pods_to_delete : num_of_pods_to_delete + num_of_io_pods
        ]
        io_pods.extend(
            [
                pod
                for pod in rwx_pod_objs
                for pod_obj in io_pods
                if (pod_obj.pvc == pod.pvc)
            ]
        )

        # Select pods which are having PVCs to delete
        pods_for_pvc = pod_objs[num_of_pods_to_delete + num_of_io_pods :]
        pvcs_to_delete = [pod_obj.pvc for pod_obj in pods_for_pvc]
        pods_for_pvc.extend(
            [
                pod
                for pod in rwx_pod_objs
                for pod_obj in pods_for_pvc
                if (pod_obj.pvc == pod.pvc)
            ]
        )

        io_pods = [
            pod_obj
            for pod_obj in io_pods
            if pod_obj.pvc in select_unique_pvcs([pod_obj.pvc for pod_obj in io_pods])
        ]

        log.info(
            f"{len(pods_to_delete)} pods selected for deletion in which "
            f"{len(pods_to_delete) - num_of_pods_to_delete} pairs of pod "
            f"share same RWX PVC"
        )
        log.info(
            f"{len(io_pods)} pods selected for running IO in which one "
            f"pair of pod share same RWX PVC"
        )
        no_of_rwx_pvcs_delete = len(pods_for_pvc) - len(pvcs_to_delete)
        log.info(
            f"{len(pvcs_to_delete)} PVCs selected for deletion. "
            f"RWO PVCs: {len(pvcs_to_delete) - no_of_rwx_pvcs_delete}, "
            f"RWX PVCs: {no_of_rwx_pvcs_delete}"
        )

        pod_functions = {
            "mds": partial(get_mds_pods),
            "mon": partial(get_mon_pods),
            "mgr": partial(get_mgr_pods),
            "osd": partial(get_osd_pods),
        }

        # Disruption object for each daemon type
        disruption_ops = [disruption_helpers.Disruptions() for _ in daemons_to_kill]

        # Select the resource of each type
        for disruption, pod_type in zip(disruption_ops, daemons_to_kill):
            disruption.set_resource(resource=pod_type)
        executor = ThreadPoolExecutor(
            max_workers=len(pod_objs)
            + len(rwx_pod_objs)
            + len(rbd_pvc_for_pods)
            + len(cephfs_pvc_for_pods)
            + len(daemons_to_kill)
            + num_pvc_create_during_disruption
        )

        # Get number of pods of the type given in daemons_to_kill list
        num_of_resource_pods = [
            len(pod_functions[resource_name]()) for resource_name in daemons_to_kill
        ]

        # Fetch PV names to verify after deletion
        pv_objs = []
        for pvc_obj in pvcs_to_delete:
            pv_objs.append(pvc_obj.backed_pv_obj)

        # Fetch volume details from pods for the purpose of verification
        node_pv_dict = {}
        for pod_obj in pods_to_delete:
            pod_info = pod_obj.get()
            node = pod_info["spec"]["nodeName"]
            pvc = pod_info["spec"]["volumes"][0]["persistentVolumeClaim"]["claimName"]
            for pvc_obj in pvc_objs:
                if pvc_obj.name == pvc:
                    pv = pvc_obj.backed_pv
                    break
            if node in node_pv_dict:
                node_pv_dict[node].append(pv)
            else:
                node_pv_dict[node] = [pv]

        # Fetch image uuid associated with PVCs to be deleted
        pvc_uuid_map = {}
        for pvc_obj in pvcs_to_delete:
            pvc_uuid_map[pvc_obj] = pvc_obj.image_uuid
        log.info("Fetched image uuid associated with each PVC")

        # Do setup on pods for running IO
        log.info("Setting up pods for running IO.")
        for pod_obj in pod_objs + rwx_pod_objs:
            if pod_obj.pvc.get_pvc_vol_mode == "Block":
                storage_type = "block"
            else:
                storage_type = "fs"
            executor.submit(pod_obj.workload_setup, storage_type=storage_type)

        # Wait for setup on pods to complete
        for pod_obj in pod_objs + rwx_pod_objs:
            log.info(f"Waiting for IO setup to complete on pod {pod_obj.name}")
            for sample in TimeoutSampler(360, 2, getattr, pod_obj, "wl_setup_done"):
                if sample:
                    log.info(
                        f"Setup for running IO is completed on pod " f"{pod_obj.name}."
                    )
                    break
        log.info("Setup for running IO is completed on all pods.")

        # Start IO on pods having PVCs to delete to load data
        pods_for_pvc_io = [
            pod_obj
            for pod_obj in pods_for_pvc
            if pod_obj.pvc
            in select_unique_pvcs([pod_obj.pvc for pod_obj in pods_for_pvc])
        ]
        log.info("Starting IO on pods having PVCs to delete.")
        self.run_io_on_pods(pods_for_pvc_io)
        log.info("IO started on pods having PVCs to delete.")

        log.info("Fetching IO results from the pods having PVCs to delete.")
        for pod_obj in pods_for_pvc_io:
            get_fio_rw_iops(pod_obj)
        log.info("Verified IO result on pods having PVCs to delete.")

        # Delete pods having PVCs to delete.
        assert self.delete_pods(
            pods_for_pvc
        ), "Couldn't delete pods which are having PVCs to delete."
        for pod_obj in pods_for_pvc:
            pod_obj.ocp.wait_for_delete(pod_obj.name)
        log.info("Verified: Deleted pods which are having PVCs to delete.")

        # Select daemon of each type of resource and identify the daemons running on each node
        nodes_and_pids = {}
        for disruption in disruption_ops:
            disruption.select_daemon()
            node_name = disruption.resource_obj[0].pod_data.get("spec").get("nodeName")
            # Create node-daemons dict. Value as string for passing in the 'kill' command
            nodes_and_pids[
                node_name
            ] = f"{nodes_and_pids.get(node_name, '')} {disruption.daemon_pid}"

        # Start IO on pods to be deleted
        pods_to_delete_io = [
            pod_obj
            for pod_obj in pods_to_delete
            if pod_obj.pvc
            in select_unique_pvcs([pod_obj.pvc for pod_obj in pods_to_delete])
        ]
        log.info("Starting IO on selected pods to be deleted.")
        self.run_io_on_pods(pods_to_delete_io)
        log.info("IO started on selected pods to be deleted.")

        # Start creating new pods
        log.info("Start creating new pods.")
        pod_create_rbd = executor.submit(
            helpers.create_pods,
            rbd_pvc_for_pods,
            pod_factory,
            constants.CEPHBLOCKPOOL,
            2,
        )
        pod_create_cephfs = executor.submit(
            helpers.create_pods,
            cephfs_pvc_for_pods,
            pod_factory,
            constants.CEPHFILESYSTEM,
            2,
        )

        # Start creation of new CephFS PVCs.
        log.info("Start creating new CephFS PVCs.")
        pvc_create_cephfs = executor.submit(
            multi_pvc_factory,
            interface=constants.CEPHFILESYSTEM,
            project=self.project,
            storageclass=None,
            size=self.pvc_size,
            access_modes=self.access_modes_cephfs,
            access_modes_selection="distribute_random",
            status="",
            num_of_pvc=len(self.access_modes_cephfs),
            wait_each=False,
        )

        # Start creation of new RBD PVCs
        log.info("Start creating new RBD PVCs.")
        pvc_create_rbd = executor.submit(
            multi_pvc_factory,
            interface=constants.CEPHBLOCKPOOL,
            project=self.project,
            storageclass=None,
            size=self.pvc_size,
            access_modes=self.access_modes_rbd,
            access_modes_selection="distribute_random",
            status="",
            num_of_pvc=len(self.access_modes_rbd),
            wait_each=False,
        )

        # Start deleting PVCs
        pvc_bulk_delete = executor.submit(delete_pvcs, pvcs_to_delete)
        log.info("Started deleting PVCs")

        # Start deleting pods
        pod_bulk_delete = executor.submit(self.delete_pods, pods_to_delete)
        log.info("Started deleting pods")

        # Start IO on IO pods
        self.run_io_on_pods(io_pods)
        log.info("Started IO on IO pods")

        # Wait for 1 second before killing daemons. This is to wait for the create/delete operations to start
        sleep(1)

        # Kill daemons
        node_and_kill_proc = {}
        log.info(f"Killing daemons of {daemons_to_kill}")
        for node_name, pids in nodes_and_pids.items():
            # Command to kill the daemon
            kill_cmd = f"oc debug node/{node_name} -- chroot /host kill -9 {pids}"
            # Create node-kill process map for verifying the result
            node_and_kill_proc[node_name] = executor.submit(run_cmd, kill_cmd)

        # Verify daemon kill process
        for node_name, daemon_kill_proc in node_and_kill_proc.items():
            # Get the type of daemons killed on the particular node
            resources = [
                disruption.resource
                for disruption in disruption_ops
                if disruption.daemon_pid in nodes_and_pids[node_name]
            ]
            # 'daemon_kill_proc' result will be an empty string if command is success
            cmd_out = daemon_kill_proc.result()
            assert isinstance(cmd_out, str) and (not cmd_out), (
                f"Failed to kill {resources } daemons in the node {node_name}. "
                f"Daemon kill command output - {cmd_out}"
            )

        # Wait for new daemon to come up
        [disruption.check_new_pid() for disruption in disruption_ops]
        log.info("Verified daemons kill")

        pods_deleted = pod_bulk_delete.result()
        assert pods_deleted, "Deletion of pods failed."

        # Verify pods are deleted
        for pod_obj in pods_to_delete:
            pod_obj.ocp.wait_for_delete(pod_obj.name, 300)
        log.info("Verified: Pods are deleted.")

        # Verify that the mount point is removed from nodes after deleting pod
        node_pv_mounted = verify_pv_mounted_on_node(node_pv_dict)
        for node, pvs in node_pv_mounted.items():
            assert not pvs, (
                f"PVs {pvs} is still present on node {node} after "
                f"deleting the pods."
            )
        log.info(
            "Verified: mount points are removed from nodes after deleting " "the pods"
        )

        pvcs_deleted = pvc_bulk_delete.result()
        assert pvcs_deleted, "Deletion of PVCs failed."

        # Verify PVCs are deleted
        for pvc_obj in pvcs_to_delete:
            pvc_obj.ocp.wait_for_delete(pvc_obj.name)
        log.info("Verified: PVCs are deleted.")

        # Getting result of PVC creation as list of PVC objects
        log.info("Getting the result of CephFS PVC creation process")
        pvc_objs_cephfs_new = pvc_create_cephfs.result()

        log.info("Getting the result of RBD PVC creation process")
        pvc_objs_rbd_new = pvc_create_rbd.result()

        # Set interface argument for reference
        for pvc_obj in pvc_objs_cephfs_new:
            pvc_obj.interface = constants.CEPHFILESYSTEM

        # Set interface argument for reference
        for pvc_obj in pvc_objs_rbd_new:
            pvc_obj.interface = constants.CEPHBLOCKPOOL

        # Confirm PVCs are Bound
        log.info("Verifying the new CephFS and RBD PVCs are Bound")
        for pvc_obj in pvc_objs_cephfs_new + pvc_objs_rbd_new:
            helpers.wait_for_resource_state(
                resource=pvc_obj, state=constants.STATUS_BOUND, timeout=180
            )
            pvc_obj.reload()
        log.info("Verified: New CephFS and RBD PVCs are Bound.")

        # Getting result of pods creation as list of Pod objects
        log.info("Getting the result of pods creation process")
        pod_objs_rbd_new = pod_create_rbd.result()
        pod_objs_cephfs_new = pod_create_cephfs.result()

        # Verify new pods are Running
        log.info("Verifying the new pods are Running")
        for pod_obj in pod_objs_rbd_new + pod_objs_cephfs_new:
            helpers.wait_for_resource_state(
                resource=pod_obj, state=constants.STATUS_RUNNING, timeout=90
            )
            pod_obj.reload()
        log.info("Verified: All new pods are Running.")

        # Verify PVs are deleted
        for pv_obj in pv_objs:
            pv_obj.ocp.wait_for_delete(resource_name=pv_obj.name, timeout=300)
        log.info("Verified: PVs are deleted.")

        # Verify PV using ceph toolbox. Image/Subvolume should be deleted.
        pool_name = default_ceph_block_pool()
        for pvc_obj, uuid in pvc_uuid_map.items():
            if pvc_obj.interface == constants.CEPHBLOCKPOOL:
                ret = verify_volume_deleted_in_backend(
                    interface=constants.CEPHBLOCKPOOL,
                    image_uuid=uuid,
                    pool_name=pool_name,
                )
            if pvc_obj.interface == constants.CEPHFILESYSTEM:
                ret = verify_volume_deleted_in_backend(
                    interface=constants.CEPHFILESYSTEM, image_uuid=uuid
                )
            assert (
                ret
            ), f"Volume associated with PVC {pvc_obj.name} still exists in the backend"

        log.info("Fetching IO results from the pods.")
        for pod_obj in io_pods:
            fio_result = pod_obj.get_fio_results()
            err_count = fio_result.get("jobs")[0].get("error")
            assert (
                err_count == 0
            ), f"FIO error on pod {pod_obj.name}. FIO result: {fio_result}"
        log.info("Verified IO result on pods.")

        # Verify that the new PVCs are usable by creating new pods
        log.info("Verify that the new PVCs are usable by creating new pods")
        pod_objs_rbd_re = helpers.create_pods(
            pvc_objs_rbd_new, pod_factory, constants.CEPHBLOCKPOOL, 2
        )
        pod_objs_cephfs_re = helpers.create_pods(
            pvc_objs_cephfs_new, pod_factory, constants.CEPHFILESYSTEM, 2
        )

        # Verify pods are Running
        log.info("Verifying the pods are Running")
        for pod_obj in pod_objs_rbd_re + pod_objs_cephfs_re:
            helpers.wait_for_resource_state(
                resource=pod_obj, state=constants.STATUS_RUNNING, timeout=90
            )
            pod_obj.reload()
        log.info(
            "Successfully created and verified the status of the pods using the new CephFS and RBD PVCs."
        )

        new_pods = (
            pod_objs_rbd_new
            + pod_objs_cephfs_new
            + pod_objs_rbd_re
            + pod_objs_cephfs_re
        )

        # Do setup on the new pods for running IO
        log.info("Setting up the new pods for running IO.")
        for pod_obj in new_pods:
            if pod_obj.pvc.get_pvc_vol_mode == "Block":
                storage_type = "block"
            else:
                storage_type = "fs"
            executor.submit(pod_obj.workload_setup, storage_type=storage_type)

        # Wait for setup on the new pods to complete
        for pod_obj in new_pods:
            log.info(f"Waiting for IO setup to complete on pod {pod_obj.name}")
            for sample in TimeoutSampler(360, 2, getattr, pod_obj, "wl_setup_done"):
                if sample:
                    log.info(
                        f"Setup for running IO is completed on pod " f"{pod_obj.name}."
                    )
                    break
        log.info("Setup for running IO is completed on the new pods.")

        # Start IO on the new pods
        log.info("Start IO on the new pods")
        self.run_io_on_pods(new_pods)
        log.info("Started IO on the new pods")

        log.info("Fetching IO results from the new pods.")
        for pod_obj in new_pods:
            get_fio_rw_iops(pod_obj)
        log.info("Verified IO result on the new pods.")

        # Verify number of pods of each daemon type
        final_num_resource_name = [
            len(pod_functions[resource_name]()) for resource_name in daemons_to_kill
        ]
        assert final_num_resource_name == num_of_resource_pods, (
            f"Total number of pods of each type is not matching with "
            f"initial value. Total number of pods of each type before daemon kill: "
            f"{num_of_resource_pods}. Total number of pods of each type present now: "
            f"{final_num_resource_name}"
        )

        # Check ceph status
        ceph_health_check(namespace=config.ENV_DATA["cluster_namespace"])
        log.info("Ceph cluster health is OK")
    def test_daemon_kill_during_pvc_pod_creation_and_io(
            self, interface, resource_name, setup, multi_pvc_factory,
            pod_factory):
        """
        Kill 'resource_name' daemon while PVCs creation, pods
        creation and IO operation are progressing.
        """
        num_of_new_pvcs = 5
        pvc_objs, io_pods, pvc_objs_new_pods, access_modes = setup
        proj_obj = pvc_objs[0].project
        storageclass = pvc_objs[0].storageclass

        pod_functions = {
            "mds": partial(get_mds_pods),
            "mon": partial(get_mon_pods),
            "mgr": partial(get_mgr_pods),
            "osd": partial(get_osd_pods),
            "rbdplugin": partial(get_plugin_pods, interface=interface),
            "cephfsplugin": partial(get_plugin_pods, interface=interface),
            "cephfsplugin_provisioner":
            partial(get_cephfsplugin_provisioner_pods),
            "rbdplugin_provisioner": partial(get_rbdfsplugin_provisioner_pods),
            "operator": partial(get_operator_pods),
        }

        executor = ThreadPoolExecutor(max_workers=len(io_pods))

        disruption = disruption_helpers.Disruptions()
        disruption.set_resource(resource=resource_name)

        # Get number of pods of type 'resource_name'
        resource_pods_num = len(pod_functions[resource_name]())

        # Do setup for running IO on pods
        log.info("Setting up pods for running IO")
        for pod_obj in io_pods:
            if pod_obj.pvc.volume_mode == "Block":
                storage_type = "block"
            else:
                storage_type = "fs"
            executor.submit(pod_obj.workload_setup, storage_type=storage_type)

        # Wait for setup on pods to complete
        for pod_obj in io_pods:
            log.info(f"Waiting for IO setup to complete on pod {pod_obj.name}")
            for sample in TimeoutSampler(360, 2, getattr, pod_obj,
                                         "wl_setup_done"):
                if sample:
                    log.info(f"Setup for running IO is completed on pod "
                             f"{pod_obj.name}.")
                    break
        log.info("Setup for running IO is completed on pods")

        # Set daemon to be killed
        disruption.select_daemon()

        # Start creating new pods
        log.info("Start creating new pods.")
        bulk_pod_create = executor.submit(helpers.create_pods,
                                          pvc_objs_new_pods, pod_factory,
                                          interface, 2)

        # Start creation of new PVCs
        log.info("Start creating new PVCs.")
        bulk_pvc_create = executor.submit(
            multi_pvc_factory,
            interface=interface,
            project=proj_obj,
            storageclass=storageclass,
            size=self.pvc_size,
            access_modes=access_modes,
            access_modes_selection="distribute_random",
            status="",
            num_of_pvc=num_of_new_pvcs,
            wait_each=False,
        )

        # Start IO on each pod
        log.info("Start IO on pods")
        for pod_obj in io_pods:
            if pod_obj.pvc.volume_mode == "Block":
                storage_type = "block"
            else:
                storage_type = "fs"
            pod_obj.run_io(
                storage_type=storage_type,
                size="1G",
                runtime=10,
                fio_filename=f"{pod_obj.name}_io_file1",
            )
        log.info("IO started on all pods.")

        # Kill daemon
        disruption.kill_daemon()

        # Getting result of PVC creation as list of PVC objects
        pvc_objs_new = bulk_pvc_create.result()

        # Confirm PVCs are Bound
        for pvc_obj in pvc_objs_new:
            helpers.wait_for_resource_state(resource=pvc_obj,
                                            state=constants.STATUS_BOUND,
                                            timeout=180)
            pvc_obj.reload()
        log.info("Verified: New PVCs are Bound.")

        # Getting result of pods creation as list of Pod objects
        pod_objs_new = bulk_pod_create.result()

        # Verify new pods are Running
        for pod_obj in pod_objs_new:
            helpers.wait_for_resource_state(resource=pod_obj,
                                            state=constants.STATUS_RUNNING,
                                            timeout=90)
            pod_obj.reload()
        log.info("Verified: All new pods are Running.")

        # Verify IO
        log.info("Fetching IO results from IO pods.")
        for pod_obj in io_pods:
            fio_result = pod_obj.get_fio_results()
            err_count = fio_result.get("jobs")[0].get("error")
            assert (
                err_count == 0
            ), f"FIO error on pod {pod_obj.name}. FIO result: {fio_result}"
            log.info(f"IOPs after FIO on pod {pod_obj.name}:")
            log.info(
                f"Read: {fio_result.get('jobs')[0].get('read').get('iops')}")
            log.info(
                f"Write: {fio_result.get('jobs')[0].get('write').get('iops')}")
        log.info("Verified IO result on IO pods.")

        all_pod_objs = io_pods + pod_objs_new

        # Fetch volume details from pods for the purpose of verification
        node_pv_dict = {}
        for pod in all_pod_objs:
            pod_info = pod.get()
            node = pod_info["spec"]["nodeName"]
            pvc = pod_info["spec"]["volumes"][0]["persistentVolumeClaim"][
                "claimName"]
            for pvc_obj in pvc_objs:
                if pvc_obj.name == pvc:
                    pvc_obj.reload()
                    pv = pvc_obj.backed_pv
                    break
            if node in node_pv_dict:
                node_pv_dict[node].append(pv)
            else:
                node_pv_dict[node] = [pv]

        # Delete pods
        for pod_obj in all_pod_objs:
            pod_obj.delete(wait=False)

        # Verify pods are deleted
        for pod_obj in all_pod_objs:
            pod_obj.ocp.wait_for_delete(resource_name=pod_obj.name)

        # Verify number of 'resource_name' type pods
        final_resource_pods_num = len(pod_functions[resource_name]())
        assert final_resource_pods_num == resource_pods_num, (
            f"Total number of {resource_name} pods is not matching with "
            f"initial value. Total number of pods before daemon kill: "
            f"{resource_pods_num}. Total number of pods present now: "
            f"{final_resource_pods_num}")

        # Verify volumes are unmapped from nodes after deleting the pods
        node_pv_mounted = helpers.verify_pv_mounted_on_node(node_pv_dict)
        for node, pvs in node_pv_mounted.items():
            assert not pvs, (
                f"PVs {pvs} is still present on node {node} after "
                f"deleting the pods.")
        log.info(
            "Verified: mount points are removed from nodes after deleting "
            "the pods")

        # Set volume mode on PVC objects
        for pvc_obj in pvc_objs_new:
            pvc_info = pvc_obj.get()
            setattr(pvc_obj, "volume_mode", pvc_info["spec"]["volumeMode"])

        # Verify that PVCs are reusable by creating new pods
        all_pvc_objs = pvc_objs + pvc_objs_new
        pod_objs_re = helpers.create_pods(all_pvc_objs, pod_factory, interface,
                                          2)

        # Verify pods are Running
        for pod_obj in pod_objs_re:
            helpers.wait_for_resource_state(resource=pod_obj,
                                            state=constants.STATUS_RUNNING,
                                            timeout=90)
            pod_obj.reload()
        log.info("Successfully created new pods using all PVCs.")

        # Select pods from newly created pods list to run IO
        pod_objs_re_io = [
            pod_obj for pod_obj in pod_objs_re
            if pod_obj.pvc in helpers.select_unique_pvcs(
                [pod_obj.pvc for pod_obj in pod_objs_re])
        ]
        for pod_obj in pod_objs_re_io:
            if pod_obj.pvc.volume_mode == "Block":
                storage_type = "block"
            else:
                storage_type = "fs"
            pod_obj.run_io(
                storage_type=storage_type,
                size="1G",
                runtime=10,
                fio_filename=f"{pod_obj.name}_io_file2",
            )

        log.info("Fetching IO results from newly created pods")
        for pod_obj in pod_objs_re_io:
            fio_result = pod_obj.get_fio_results()
            err_count = fio_result.get("jobs")[0].get("error")
            assert (
                err_count == 0
            ), f"FIO error on pod {pod_obj.name}. FIO result: {fio_result}"
            log.info(f"IOPs after FIO on pod {pod_obj.name}:")
            log.info(
                f"Read: {fio_result.get('jobs')[0].get('read').get('iops')}")
            log.info(
                f"Write: {fio_result.get('jobs')[0].get('write').get('iops')}")
        log.info("Verified IO result on newly created pods.")