import io import math import time import sys import random import signal import subprocess import pprint import socket import threading import os from errno import ESRCH from os import kill, path, unlink, path, listdir, remove from rpc_commands_lib import Commands_Rpc from time import sleep from uuid import uuid4 MEGABYTE = 1024 * 1024 current_fio_pid = -1 # ## Objective # The purpose of these tests is to verify the possibility of using lvol configuration in SPDK. # # ## Methodology # Configuration in test is to be done using example stub application. # All management is done using RPC calls, including logical volumes management. # All tests are performed using malloc backends. # One exception to malloc backends are tests for logical volume # tasting - these require persistent merory like NVMe backend. # # Tests will be executed as scenarios - sets of smaller test step # in which return codes from RPC calls is validated. # Some configuration calls may also be validated by use of # "get_*" RPC calls, which provide additional information for verifying # results. # # Tests with thin provisioned lvol bdevs, snapshots and clones are using nbd devices. # Before writing/reading to lvol bdev, bdev is installed with rpc nbd_start_disk. # After finishing writing/reading, rpc nbd_stop_disk is used. def is_process_alive(pid): try: os.kill(pid, 0) except Exception as e: return 1 return 0 def get_fio_cmd(nbd_disk, offset, size, rw, pattern, extra_params=""): fio_template = "fio --name=fio_test --filename=%(file)s --offset=%(offset)s --size=%(size)s"\ " --rw=%(rw)s --direct=1 %(extra_params)s %(pattern)s" pattern_template = "" if pattern: pattern_template = "--do_verify=1 --verify=pattern --verify_pattern=%s"\ " --verify_state_save=0" % pattern fio_cmd = fio_template % {"file": nbd_disk, "offset": offset, "size": size, "rw": rw, "pattern": pattern_template, "extra_params": extra_params} return fio_cmd def run_fio(fio_cmd, expected_ret_value): global current_fio_pid try: proc = subprocess.Popen([fio_cmd], shell=True) current_fio_pid = proc.pid proc.wait() rv = proc.returncode except Exception as e: print("ERROR: Fio test ended with unexpected exception.") rv = 1 if expected_ret_value == rv: return 0 if rv == 0: print("ERROR: Fio test ended with unexpected success") else: print("ERROR: Fio test ended with unexpected failure") return 1 class FioThread(threading.Thread): def __init__(self, nbd_disk, offset, size, rw, pattern, expected_ret_value, extra_params=""): super(FioThread, self).__init__() self.fio_cmd = get_fio_cmd(nbd_disk, offset, size, rw, pattern, extra_params=extra_params) self.rv = 1 self.expected_ret_value = expected_ret_value def run(self): print("INFO: Starting fio") self.rv = run_fio(self.fio_cmd, self.expected_ret_value) print("INFO: Fio test finished") def test_counter(): ''' :return: the number of tests ''' return ['test_case' in i for i in dir(TestCases)].count(True) def case_message(func): def inner(*args, **kwargs): test_name = { # bdev_lvol_delete_lvstore - positive tests 254: 'destroy_after_bdev_lvol_resize_positive', 255: 'delete_lvol_store_persistent_positive', 551: 'delete_lvol_bdev', 552: 'bdev_lvol_delete_lvstore_with_clones', 553: 'unregister_lvol_bdev', 602: 'bdev_lvol_create_lvstore_with_all_clear_methods', # Provisioning 651: 'thin_provisioning_read_empty_bdev', 652: 'thin_provisioning_data_integrity_test', 653: 'thin_provisioning_resize', 654: 'thin_overprovisioning', 655: 'thin_provisioning_filling_disks_less_than_lvs_size', # logical volume clear_method test 850: 'clear_method_none', 851: 'clear_method_unmap', } num = int(func.__name__.strip('test_case')[:]) print("************************************") print("START TEST CASE {name}".format(name=test_name[num])) print("************************************") fail_count = func(*args, **kwargs) print("************************************") if not fail_count: print("END TEST CASE {name} PASS".format(name=test_name[num])) else: print("END TEST CASE {name} FAIL".format(name=test_name[num])) print("************************************") return fail_count return inner class TestCases(object): def __init__(self, rpc_py, total_size, block_size, base_dir_path, app_path): self.c = Commands_Rpc(rpc_py) self.total_size = total_size self.block_size = block_size self.cluster_size = None self.path = base_dir_path self.app_path = app_path self.lvs_name = "lvs_test" self.lbd_name = "lbd_test" self.vhost_config_path = path.join(path.dirname(sys.argv[0]), 'vhost.conf') def _gen_lvs_uuid(self): return str(uuid4()) def _gen_lvb_uuid(self): return "_".join([str(uuid4()), str(random.randrange(9999999999))]) def compare_two_disks(self, disk1, disk2, expected_ret_value): cmp_cmd = "cmp %s %s" % (disk1, disk2) try: process = subprocess.check_output(cmp_cmd, stderr=subprocess.STDOUT, shell=True) rv = 0 except subprocess.CalledProcessError as ex: rv = 1 except Exception as e: print("ERROR: Cmp ended with unexpected exception.") rv = 1 if expected_ret_value == rv: return 0 elif rv == 0: print("ERROR: Cmp ended with unexpected success") else: print("ERROR: Cmp ended with unexpected failure") return 1 def run_fio_test(self, nbd_disk, offset, size, rw, pattern, expected_ret_value=0): fio_cmd = get_fio_cmd(nbd_disk, offset, size, rw, pattern) return run_fio(fio_cmd, expected_ret_value) def _stop_vhost(self, pid_path): with io.open(pid_path, 'r') as vhost_pid: pid = int(vhost_pid.readline()) if pid: try: kill(pid, signal.SIGTERM) for count in range(30): sleep(1) kill(pid, 0) except OSError as err: if err.errno == ESRCH: pass else: return 1 else: return 1 else: return 1 return 0 def _start_vhost(self, vhost_path, pid_path): subprocess.call("{app} -f " "{pid} &".format(app=vhost_path, pid=pid_path), shell=True) for timeo in range(10): if timeo == 9: print("ERROR: Timeout on waiting for app start") return 1 if not path.exists(pid_path): print("Info: Waiting for PID file...") sleep(1) continue else: break # Wait for RPC to open sock = socket.socket(socket.AF_UNIX) for timeo in range(30): if timeo == 29: print("ERROR: Timeout on waiting for RPC start") return 1 try: sock.connect("/var/tmp/spdk.sock") break except socket.error as e: print("Info: Waiting for RPC Unix socket...") sleep(1) continue else: sock.close() break with io.open(pid_path, 'r') as vhost_pid: pid = int(vhost_pid.readline()) if not pid: return 1 return 0 def get_lvs_size(self, lvs_name="lvs_test"): lvs = self.c.bdev_lvol_get_lvstores(lvs_name)[0] return int(int(lvs['free_clusters'] * lvs['cluster_size']) / MEGABYTE) def get_lvs_divided_size(self, split_num, lvs_name="lvs_test"): # Actual size of lvol bdevs on creation is rounded up to multiple of cluster size. # In order to avoid over provisioning, this function returns # lvol store size in MB divided by split_num - rounded down to multiple of cluster size." lvs = self.c.bdev_lvol_get_lvstores(lvs_name)[0] return int(int(lvs['free_clusters'] / split_num) * lvs['cluster_size'] / MEGABYTE) def get_lvs_cluster_size(self, lvs_name="lvs_test"): lvs = self.c.bdev_lvol_get_lvstores(lvs_name)[0] return int(int(lvs['cluster_size']) / MEGABYTE) @case_message def test_case254(self): """ destroy_resize_logical_volume_positive Positive test for destroying a logical_volume after resizing. Call bdev_lvol_delete_lvstore with correct logical_volumes name. """ # Create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # Construct lvol store on create malloc bdev uuid_store = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name) # Check correct uuid values in response bdev_lvol_get_lvstores command fail_count = self.c.check_bdev_lvol_get_lvstores(base_name, uuid_store, self.cluster_size) size = self.get_lvs_divided_size(4) # bdev_lvol_create on correct lvs_uuid and size is # equal to one quarter of size malloc bdev uuid_bdev = self.c.bdev_lvol_create(uuid_store, self.lbd_name, size) # check size of the lvol bdev fail_count += self.c.check_bdev_get_bdevs_methods(uuid_bdev, size) sz = size + 4 # Resize_lvol_bdev on correct lvs_uuid and size is # equal to one quarter of size malloc bdev plus 4 MB self.c.bdev_lvol_resize(uuid_bdev, sz) # check size of the lvol bdev by command RPC : bdev_get_bdevs fail_count += self.c.check_bdev_get_bdevs_methods(uuid_bdev, sz) # Resize_lvol_bdev on correct lvs_uuid and size is # equal half of size malloc bdev sz = size * 2 self.c.bdev_lvol_resize(uuid_bdev, sz) # check size of the lvol bdev by command RPC : bdev_get_bdevs fail_count += self.c.check_bdev_get_bdevs_methods(uuid_bdev, sz) # Resize_lvol_bdev on correct lvs_uuid and size is # equal to three quarters of size malloc bdev sz = size * 3 self.c.bdev_lvol_resize(uuid_bdev, sz) # check size of the lvol bdev by command RPC : bdev_get_bdevs fail_count += self.c.check_bdev_get_bdevs_methods(uuid_bdev, sz) # Resize_lvol_bdev on correct lvs_uuid and size is # equal to size if malloc bdev minus 4 MB sz = (size * 4) - 4 self.c.bdev_lvol_resize(uuid_bdev, sz) # check size of the lvol bdev by command RPC : bdev_get_bdevs fail_count += self.c.check_bdev_get_bdevs_methods(uuid_bdev, sz) # Resize_lvol_bdev on the correct lvs_uuid and size is equal 0 MiB sz = 0 self.c.bdev_lvol_resize(uuid_bdev, sz) # check size of the lvol bdev by command RPC : bdev_get_bdevs fail_count += self.c.check_bdev_get_bdevs_methods(uuid_bdev, sz) # Destroy lvol store self.c.bdev_lvol_delete_lvstore(uuid_store) if self.c.check_bdev_lvol_get_lvstores("", "", "") == 1: fail_count += 1 self.c.bdev_malloc_delete(base_name) # Expected result: # - lvol bdev should change size after resize operations # - calls successful, return code = 0 # - no other operation fails # - bdev_lvol_get_lvstores: response should be of no value after destroyed lvol store return fail_count @case_message def test_case255(self): """ delete_lvol_store_persistent_positive Positive test for removing lvol store persistently """ base_path = path.dirname(sys.argv[0]) base_name = "aio_bdev0" aio_bdev0 = path.join(base_path, "aio_bdev_0") # Construct aio bdev self.c.bdev_aio_create(aio_bdev0, base_name, 4096) # Create lvol store on created aio bdev uuid_store = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name) fail_count = self.c.check_bdev_lvol_get_lvstores(base_name, uuid_store, self.cluster_size) # Destroy lvol store if self.c.bdev_lvol_delete_lvstore(self.lvs_name) != 0: fail_count += 1 # Delete aio bdev self.c.bdev_aio_delete(base_name) # Create aio bdev on the same file self.c.bdev_aio_create(aio_bdev0, base_name, 4096) # Wait 1 second to allow time for lvolstore tasting sleep(1) # check if destroyed lvol store does not exist on aio bdev ret_value = self.c.check_bdev_lvol_get_lvstores(base_name, uuid_store, self.cluster_size) if ret_value == 0: fail_count += 1 self.c.bdev_aio_delete(base_name) # Expected result: # - bdev_lvol_get_lvstores should not report any existsing lvol stores in configuration # after deleting and adding NVMe bdev # - no other operation fails return fail_count @case_message def test_case551(self): """ bdev_lvol_delete_ordering Test for destroying lvol bdevs in particular order. Check destroying wrong one is not possible and returns error. """ fail_count = 0 snapshot_name = "snapshot" clone_name = "clone" # Create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # Construct_lvol_store on correct, exisitng malloc bdev uuid_store = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name, self.cluster_size) # Check correct uuid values in response bdev_lvol_get_lvstores command fail_count = self.c.check_bdev_lvol_get_lvstores(base_name, uuid_store, self.cluster_size) lvs = self.c.bdev_lvol_get_lvstores() size = int(int(lvs[0]['free_clusters'] * lvs[0]['cluster_size']) / 4 / MEGABYTE) # Construct thin provisioned lvol bdev uuid_bdev0 = self.c.bdev_lvol_create(uuid_store, self.lbd_name, size, thin=True) lvol_bdev = self.c.get_lvol_bdev_with_name(uuid_bdev0) # Create snapshot of thin provisioned lvol bdev fail_count += self.c.bdev_lvol_snapshot(lvol_bdev['name'], snapshot_name) snapshot_bdev = self.c.get_lvol_bdev_with_name(self.lvs_name + "/" + snapshot_name) # Create clone of snapshot and check if it ends with success fail_count += self.c.bdev_lvol_clone(self.lvs_name + "/" + snapshot_name, clone_name) clone_bdev = self.c.get_lvol_bdev_with_name(self.lvs_name + "/" + clone_name) # Try to destroy snapshot with clones and check if it fails ret_value = self.c.bdev_lvol_delete(snapshot_bdev['name']) if ret_value == 0: print("ERROR: Delete snapshot should fail but didn't") fail_count += 1 # Destroy clone and then snapshot fail_count += self.c.bdev_lvol_delete(lvol_bdev['name']) fail_count += self.c.bdev_lvol_delete(clone_bdev['name']) fail_count += self.c.bdev_lvol_delete(snapshot_bdev['name']) # Destroy lvol store fail_count += self.c.bdev_lvol_delete_lvstore(uuid_store) # Check response bdev_lvol_get_lvstores command if self.c.check_bdev_lvol_get_lvstores("", "", "") == 1: fail_count += 1 # Delete malloc bdev self.c.bdev_malloc_delete(base_name) # Expected result: # - bdev_lvol_get_lvstores: response should be of no value after destroyed lvol store # - no other operation fails return fail_count @case_message def test_case552(self): """ bdev_lvol_delete_lvstore_with_clones Test for destroying lvol store with clones present, without removing them first. """ fail_count = 0 snapshot_name = "snapshot" snapshot_name2 = "snapshot2" clone_name = "clone" # Create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # Construct_lvol_store on correct, exisitng malloc bdev uuid_store = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name, self.cluster_size) # Check correct uuid values in response bdev_lvol_get_lvstores command fail_count = self.c.check_bdev_lvol_get_lvstores(base_name, uuid_store, self.cluster_size) lvs = self.c.bdev_lvol_get_lvstores() size = int(int(lvs[0]['free_clusters'] * lvs[0]['cluster_size']) / 4 / MEGABYTE) # Create lvol bdev, snapshot it, then clone it and then snapshot the clone uuid_bdev0 = self.c.bdev_lvol_create(uuid_store, self.lbd_name, size, thin=True) lvol_bdev = self.c.get_lvol_bdev_with_name(uuid_bdev0) fail_count += self.c.bdev_lvol_snapshot(lvol_bdev['name'], snapshot_name) snapshot_bdev = self.c.get_lvol_bdev_with_name(self.lvs_name + "/" + snapshot_name) fail_count += self.c.bdev_lvol_clone(self.lvs_name + "/" + snapshot_name, clone_name) clone_bdev = self.c.get_lvol_bdev_with_name(self.lvs_name + "/" + clone_name) fail_count += self.c.bdev_lvol_snapshot(clone_bdev['name'], snapshot_name2) snapshot_bdev2 = self.c.get_lvol_bdev_with_name(self.lvs_name + "/" + snapshot_name2) # Try to destroy snapshot with 2 clones and check if it fails ret_value = self.c.bdev_lvol_delete(snapshot_bdev['name']) if ret_value == 0: print("ERROR: Delete snapshot should fail but didn't") fail_count += 1 # Destroy lvol store without deleting lvol bdevs fail_count += self.c.bdev_lvol_delete_lvstore(uuid_store) # Check response bdev_lvol_get_lvstores command if self.c.check_bdev_lvol_get_lvstores("", "", "") == 1: fail_count += 1 # Delete malloc bdev self.c.bdev_malloc_delete(base_name) # Expected result: # - bdev_lvol_get_lvstores: response should be of no value after destroyed lvol store # - no other operation fails return fail_count @case_message def test_case553(self): """ unregister_lvol_bdev Test for unregistering the lvol bdevs. Removing malloc bdev under an lvol store triggers unregister of all lvol bdevs. Verify it with clones present. """ fail_count = 0 snapshot_name = "snapshot" snapshot_name2 = "snapshot2" clone_name = "clone" # Create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # Construct_lvol_store on correct, exisitng malloc bdev uuid_store = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name, self.cluster_size) # Check correct uuid values in response bdev_lvol_get_lvstores command fail_count = self.c.check_bdev_lvol_get_lvstores(base_name, uuid_store, self.cluster_size) lvs = self.c.bdev_lvol_get_lvstores() size = int(int(lvs[0]['free_clusters'] * lvs[0]['cluster_size']) / 4 / MEGABYTE) # Create lvol bdev, snapshot it, then clone it and then snapshot the clone uuid_bdev0 = self.c.bdev_lvol_create(uuid_store, self.lbd_name, size, thin=True) lvol_bdev = self.c.get_lvol_bdev_with_name(uuid_bdev0) fail_count += self.c.bdev_lvol_snapshot(lvol_bdev['name'], snapshot_name) snapshot_bdev = self.c.get_lvol_bdev_with_name(self.lvs_name + "/" + snapshot_name) fail_count += self.c.bdev_lvol_clone(self.lvs_name + "/" + snapshot_name, clone_name) clone_bdev = self.c.get_lvol_bdev_with_name(self.lvs_name + "/" + clone_name) fail_count += self.c.bdev_lvol_snapshot(clone_bdev['name'], snapshot_name2) snapshot_bdev2 = self.c.get_lvol_bdev_with_name(self.lvs_name + "/" + snapshot_name2) # Delete malloc bdev self.c.bdev_malloc_delete(base_name) # Check response bdev_lvol_get_lvstores command if self.c.check_bdev_lvol_get_lvstores("", "", "") == 1: fail_count += 1 # Expected result: # - bdev_lvol_get_lvstores: response should be of no value after destroyed lvol store # - no other operation fails return fail_count @case_message def test_case602(self): """ bdev_lvol_create_lvstore_with_all_clear_methods Call bdev_lvol_create_lvstore with all options for clear methods. """ fail_count = 0 # Create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # Construct lvol store with clear method 'none' lvol_uuid = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name, clear_method="none") fail_count += self.c.check_bdev_lvol_get_lvstores(base_name, lvol_uuid) fail_count += self.c.bdev_malloc_delete(base_name) # Create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # Construct lvol store with clear method 'unmap' lvol_uuid = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name, clear_method="unmap") fail_count += self.c.check_bdev_lvol_get_lvstores(base_name, lvol_uuid) fail_count += self.c.bdev_malloc_delete(base_name) # Create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # Construct lvol store with clear method 'write_zeroes' lvol_uuid = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name, clear_method="write_zeroes") fail_count += self.c.check_bdev_lvol_get_lvstores(base_name, lvol_uuid) fail_count += self.c.bdev_malloc_delete(base_name) # Expected result: # - construct lvol store return code != 0 # - Error code response printed to stdout return fail_count def test_case651(self): """ thin_provisioning_read_empty_bdev Check if we can create thin provisioned bdev on empty lvol store and check if we can read from this device and it returns zeroes. """ # create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # construct lvol store on malloc bdev uuid_store = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name) fail_count = self.c.check_bdev_lvol_get_lvstores(base_name, uuid_store, self.cluster_size) lvs = self.c.bdev_lvol_get_lvstores(self.lvs_name)[0] free_clusters_start = int(lvs['free_clusters']) lbd_name0 = self.lbd_name + str("0") lbd_name1 = self.lbd_name + str("1") # calculate bdev size in megabytes bdev_size = self.get_lvs_size() # create thick provisioned lvol bvdev with size equal to lvol store bdev_name0 = self.c.bdev_lvol_create(uuid_store, lbd_name0, bdev_size, thin=False) # create thin provisioned lvol bdev with the same size bdev_name1 = self.c.bdev_lvol_create(uuid_store, lbd_name1, bdev_size, thin=True) lvol_bdev0 = self.c.get_lvol_bdev_with_name(bdev_name0) lvol_bdev1 = self.c.get_lvol_bdev_with_name(bdev_name1) nbd_name0 = "/dev/nbd0" fail_count += self.c.nbd_start_disk(lvol_bdev0['name'], nbd_name0) nbd_name1 = "/dev/nbd1" fail_count += self.c.nbd_start_disk(lvol_bdev1['name'], nbd_name1) size = bdev_size * MEGABYTE # fill the whole thick provisioned lvol bdev fail_count += self.run_fio_test(nbd_name0, 0, size, "write", False) size = bdev_size * MEGABYTE # perform read operations on thin provisioned lvol bdev # and check if they return zeroes fail_count += self.run_fio_test(nbd_name1, 0, size, "read", "0x00") fail_count += self.c.nbd_stop_disk(nbd_name0) fail_count += self.c.nbd_stop_disk(nbd_name1) # destroy thin provisioned lvol bdev fail_count += self.c.bdev_lvol_delete(lvol_bdev0['name']) fail_count += self.c.bdev_lvol_delete(lvol_bdev1['name']) # destroy lvol store fail_count += self.c.bdev_lvol_delete_lvstore(uuid_store) # destroy malloc bdev fail_count += self.c.bdev_malloc_delete(base_name) # Expected result: # - calls successful, return code = 0 # - no other operation fails return fail_count @case_message def test_case652(self): """ thin_provisioning_data_integrity_test Check if data written to thin provisioned lvol bdev were properly written (fio test with verification). """ # create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # construct lvol store on malloc bdev uuid_store = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name) fail_count = self.c.check_bdev_lvol_get_lvstores(base_name, uuid_store, self.cluster_size) lvs = self.c.bdev_lvol_get_lvstores(self.lvs_name)[0] free_clusters_start = int(lvs['free_clusters']) bdev_size = self.get_lvs_size() # construct thin provisioned lvol bdev with size equal to lvol store bdev_name = self.c.bdev_lvol_create(uuid_store, self.lbd_name, bdev_size, thin=True) lvol_bdev = self.c.get_lvol_bdev_with_name(bdev_name) nbd_name = "/dev/nbd0" fail_count += self.c.nbd_start_disk(lvol_bdev['name'], nbd_name) size = bdev_size * MEGABYTE # on the whole lvol bdev perform write operation with verification fail_count += self.run_fio_test(nbd_name, 0, size, "write", "0xcc") fail_count += self.c.nbd_stop_disk(nbd_name) # destroy thin provisioned lvol bdev fail_count += self.c.bdev_lvol_delete(lvol_bdev['name']) # destroy lvol store fail_count += self.c.bdev_lvol_delete_lvstore(uuid_store) # destroy malloc bdev fail_count += self.c.bdev_malloc_delete(base_name) # Expected result: # - calls successful, return code = 0 # - verification ends with success # - no other operation fails return fail_count @case_message def test_case653(self): """ thin_provisioning_resize Check thin provisioned bdev resize. """ # Create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # Construct lvol store on malloc bdev uuid_store = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name) fail_count = self.c.check_bdev_lvol_get_lvstores(base_name, uuid_store, self.cluster_size) # Construct thin provisioned lvol bdevs on created lvol store # with size equal to 50% of lvol store size = self.get_lvs_divided_size(2) uuid_bdev = self.c.bdev_lvol_create(uuid_store, self.lbd_name, size, thin=True) fail_count += self.c.check_bdev_get_bdevs_methods(uuid_bdev, size) # Fill all free space of lvol bdev with data nbd_name = "/dev/nbd0" fail_count += self.c.nbd_start_disk(uuid_bdev, nbd_name) fail_count += self.run_fio_test(nbd_name, 0, size*MEGABYTE, "write", "0xcc", 0) fail_count += self.c.nbd_stop_disk(nbd_name) # Save number of free clusters for lvs lvs = self.c.bdev_lvol_get_lvstores()[0] free_clusters_start = int(lvs['free_clusters']) # Resize bdev to full size of lvs full_size = int(lvs['total_data_clusters'] * lvs['cluster_size'] / MEGABYTE) fail_count += self.c.bdev_lvol_resize(uuid_bdev, full_size) # Check if bdev size changed (total_data_clusters*cluster_size # equals to num_blocks*block_size) lvol_bdev = self.c.get_lvol_bdev_with_name(uuid_bdev) lbd_size = int(lvol_bdev['num_blocks'] * lvol_bdev['block_size'] / MEGABYTE) if full_size != lbd_size: fail_count += 1 # Check if free_clusters on lvs remain unaffected lvs = self.c.bdev_lvol_get_lvstores()[0] free_clusters_resize = int(lvs['free_clusters']) if free_clusters_start != free_clusters_resize: fail_count += 1 # Perform write operation with verification # to newly created free space of lvol bdev nbd_name = "/dev/nbd0" fail_count += self.c.nbd_start_disk(uuid_bdev, nbd_name) fail_count += self.run_fio_test(nbd_name, int(lbd_size * MEGABYTE / 2), int(lbd_size * MEGABYTE / 2), "write", "0xcc", 0) fail_count += self.c.nbd_stop_disk(nbd_name) # Check if free clusters on lvs equals to zero lvs = self.c.bdev_lvol_get_lvstores()[0] if int(lvs['free_clusters']) != 0: fail_count += 1 # Resize bdev to 25% of lvs and check if it ended with success size = self.get_lvs_divided_size(4) fail_count += self.c.bdev_lvol_resize(uuid_bdev, size) # Check free clusters on lvs lvs = self.c.bdev_lvol_get_lvstores()[0] free_clusters_resize2 = int(lvs['free_clusters']) free_clusters_expected = int((full_size - size) * MEGABYTE / lvs['cluster_size']) if free_clusters_expected != free_clusters_resize2: fail_count += 1 self.c.bdev_lvol_delete(uuid_bdev) self.c.bdev_lvol_delete_lvstore(uuid_store) self.c.bdev_malloc_delete(base_name) # Expected result: # - calls successful, return code = 0 # - no other operation fails return fail_count @case_message def test_case654(self): """ thin_overprovisioning Create two thin provisioned lvol bdevs with max size and check if writting more than total size of lvol store will cause failures. """ # create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # construct lvol store on malloc bdev uuid_store = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name) fail_count = self.c.check_bdev_lvol_get_lvstores(base_name, uuid_store, self.cluster_size) lvs = self.c.bdev_lvol_get_lvstores(self.lvs_name)[0] free_clusters_start = int(lvs['free_clusters']) lbd_name0 = self.lbd_name + str("0") lbd_name1 = self.lbd_name + str("1") bdev_size = self.get_lvs_size() # construct two thin provisioned lvol bdevs on created lvol store # with size equals to free lvs size bdev_name0 = self.c.bdev_lvol_create(uuid_store, lbd_name0, bdev_size, thin=True) bdev_name1 = self.c.bdev_lvol_create(uuid_store, lbd_name1, bdev_size, thin=True) lvs = self.c.bdev_lvol_get_lvstores(self.lvs_name)[0] free_clusters_create_lvol = int(lvs['free_clusters']) if free_clusters_start != free_clusters_create_lvol: fail_count += 1 lvol_bdev0 = self.c.get_lvol_bdev_with_name(bdev_name0) lvol_bdev1 = self.c.get_lvol_bdev_with_name(bdev_name1) nbd_name0 = "/dev/nbd0" nbd_name1 = "/dev/nbd1" fail_count += self.c.nbd_start_disk(lvol_bdev0['name'], nbd_name0) fail_count += self.c.nbd_start_disk(lvol_bdev1['name'], nbd_name1) size = "75%" # fill first bdev to 75% of its space with specific pattern fail_count += self.run_fio_test(nbd_name0, 0, size, "write", "0xcc") size = "75%" # fill second bdev up to 75% of its space # check that error message occured while filling second bdev with data fail_count += self.run_fio_test(nbd_name1, 0, size, "write", "0xee", expected_ret_value=1) size = "75%" # check if data on first disk stayed unchanged fail_count += self.run_fio_test(nbd_name0, 0, size, "read", "0xcc") size = "25%" offset = "75%" fail_count += self.run_fio_test(nbd_name0, offset, size, "read", "0x00") fail_count += self.c.nbd_stop_disk(nbd_name0) fail_count += self.c.nbd_stop_disk(nbd_name1) # destroy thin provisioned lvol bdev fail_count += self.c.bdev_lvol_delete(lvol_bdev0['name']) fail_count += self.c.bdev_lvol_delete(lvol_bdev1['name']) # destroy lvol store fail_count += self.c.bdev_lvol_delete_lvstore(uuid_store) # destroy malloc bdev fail_count += self.c.bdev_malloc_delete(base_name) # Expected result: # - calls successful, return code = 0 # - no other operation fails return fail_count @case_message def test_case655(self): """ thin_provisioning_filling_disks_less_than_lvs_size Check if writing to two thin provisioned lvol bdevs less than total size of lvol store will end with success """ # create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # construct lvol store on malloc bdev uuid_store = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name) fail_count = self.c.check_bdev_lvol_get_lvstores(base_name, uuid_store, self.cluster_size) lvs = self.c.bdev_lvol_get_lvstores(self.lvs_name)[0] free_clusters_start = int(lvs['free_clusters']) lbd_name0 = self.lbd_name + str("0") lbd_name1 = self.lbd_name + str("1") lvs_size = self.get_lvs_size() bdev_size = int(lvs_size * 0.7) # construct two thin provisioned lvol bdevs on created lvol store # with size equal to 70% of lvs size bdev_name0 = self.c.bdev_lvol_create(uuid_store, lbd_name0, bdev_size, thin=True) bdev_name1 = self.c.bdev_lvol_create(uuid_store, lbd_name1, bdev_size, thin=True) lvol_bdev0 = self.c.get_lvol_bdev_with_name(bdev_name0) lvol_bdev1 = self.c.get_lvol_bdev_with_name(bdev_name1) # check if bdevs are available and size of every disk is equal to 70% of lvs size nbd_name0 = "/dev/nbd0" nbd_name1 = "/dev/nbd1" fail_count += self.c.nbd_start_disk(lvol_bdev0['name'], nbd_name0) fail_count += self.c.nbd_start_disk(lvol_bdev1['name'], nbd_name1) size = int(int(lvol_bdev0['num_blocks']) * int(lvol_bdev0['block_size']) * 0.7) # fill first disk with 70% of its size # check if operation didn't fail fail_count += self.run_fio_test(nbd_name0, 0, size, "write", "0xcc") size = int(int(lvol_bdev1['num_blocks']) * int(lvol_bdev1['block_size']) * 0.7) # fill second disk also with 70% of its size # check if operation didn't fail fail_count += self.run_fio_test(nbd_name1, 0, size, "write", "0xee") fail_count += self.c.nbd_stop_disk(nbd_name0) fail_count += self.c.nbd_stop_disk(nbd_name1) # destroy thin provisioned lvol bdevs fail_count += self.c.bdev_lvol_delete(lvol_bdev0['name']) fail_count += self.c.bdev_lvol_delete(lvol_bdev1['name']) # destroy lvol store fail_count += self.c.bdev_lvol_delete_lvstore(uuid_store) # destroy malloc bdev fail_count += self.c.bdev_malloc_delete(base_name) # Expected result: # - calls successful, return code = 0 # - no other operation fails return fail_count @case_message def test_case850(self): """" Clear_method Test for clear_method equals to none """ # Create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) # Construct lvol store on created malloc bddev lvs_uuid = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name) # Check correct uuid values in response bdev_lvol_get_lvstores command fail_count = self.c.check_bdev_lvol_get_lvstores(base_name, lvs_uuid, self.cluster_size) lvs = self.c.bdev_lvol_get_lvstores(self.lvs_name)[0] # Construct lvol bdev on lvol store lbd_size = int(lvs['cluster_size'] / MEGABYTE) bdev_uuid = self.c.bdev_lvol_create(lvs_uuid, self.lbd_name, lbd_size, clear_method='none') lvol_bdev = self.c.get_lvol_bdev_with_name(bdev_uuid) nbd_name = "/dev/nbd0" fail_count += self.c.nbd_start_disk(bdev_uuid, nbd_name) # Write pattern to lvol bdev starting from offset 0. fail_count += self.run_fio_test(nbd_name, 0, lvs['cluster_size'], "write", "0xdd") fail_count += self.c.nbd_stop_disk(nbd_name) # Delete lvol bdev fail_count += self.c.bdev_lvol_delete(bdev_uuid) # Delete lvol store. We need to do this so that we can attach the underlying malloc # bdev to nbd to examine its contents. fail_count += self.c.bdev_lvol_delete_lvstore(lvs_uuid) fail_count += self.c.nbd_start_disk(base_name, nbd_name) metadata_pages = 1 + lvs['total_data_clusters'] + (math.ceil(5 + math.ceil(lvs['total_data_clusters'] / 8) / 4096)) * 3 last_metadata_lba = int(metadata_pages * 4096 / self.block_size) offset_metadata_end = int(last_metadata_lba * self.block_size) last_cluster_of_metadata = math.ceil(metadata_pages / lvs['cluster_size'] / 4096) offset = last_cluster_of_metadata * lvs['cluster_size'] size_metadata_end = offset - offset_metadata_end # Check if data on area between end of metadata # and first cluster of lvol bdev remained unchaged fail_count += self.run_fio_test("/dev/nbd0", offset_metadata_end, size_metadata_end, "read", "0x00") # Check if data on first lvol bdevs remains unchanged. fail_count += self.run_fio_test("/dev/nbd0", offset, lvs['cluster_size'], "read", "0xdd") fail_count += self.c.nbd_stop_disk(nbd_name) self.c.bdev_malloc_delete(base_name) # Expected result: # - calls successful, return code = 0 # - get_bdevs: no change # - no other operation fails return fail_count @case_message def test_case851(self): """" Clear_method Test lvol bdev with clear_method equals to unmap """ # Create malloc bdev base_name = self.c.bdev_malloc_create(self.total_size, self.block_size) nbd_name = "/dev/nbd0" fail_count = self.c.nbd_start_disk(base_name, nbd_name) # Write data to malloc bdev starting from offset 0. fail_count += self.run_fio_test(nbd_name, 0, self.total_size * MEGABYTE, "write", "0xdd") fail_count += self.c.nbd_stop_disk(nbd_name) # Construct lvol store on created malloc bddev lvs_uuid = self.c.bdev_lvol_create_lvstore(base_name, self.lvs_name, clear_method='none') # Check correct uuid values in response bdev_lvol_get_lvstores command fail_count = self.c.check_bdev_lvol_get_lvstores(base_name, lvs_uuid, self.cluster_size) lvs = self.c.bdev_lvol_get_lvstores(self.lvs_name)[0] # Construct lvol bdev on lvol store lbd_size = int(lvs['cluster_size'] / MEGABYTE) bdev_uuid = self.c.bdev_lvol_create(lvs_uuid, self.lbd_name, lbd_size, clear_method='unmap') # Check that data on lvol bdev remains unchanged fail_count += self.c.nbd_start_disk(bdev_uuid, nbd_name) fail_count += self.run_fio_test(nbd_name, 0, lvs['cluster_size'], "read", "0xdd") fail_count += self.c.nbd_stop_disk(nbd_name) # Delete lvol bdev fail_count += self.c.bdev_lvol_delete(bdev_uuid) # Delete lvol store fail_count += self.c.bdev_lvol_delete_lvstore(lvs_uuid) fail_count += self.c.nbd_start_disk(base_name, nbd_name) metadata_pages = 1 + lvs['total_data_clusters'] + \ (math.ceil(5 + math.ceil(lvs['total_data_clusters'] / 8) / 4096)) * 3 last_metadata_lba = int(metadata_pages * 4096 / self.block_size) offset_metadata_end = int(last_metadata_lba * self.block_size) last_cluster_of_metadata = math.ceil(metadata_pages / lvs['cluster_size'] / 4096) offset = last_cluster_of_metadata * lvs['cluster_size'] size_metadata_end = offset - offset_metadata_end # Check if data on area between end of metadata # and first cluster of lvol bdev remained unchaged fail_count += self.run_fio_test("/dev/nbd0", offset_metadata_end, size_metadata_end, "read", "0xdd") # Check if data on lvol bdev was zeroed. # Malloc bdev should zero any data that is unmapped. fail_count += self.run_fio_test("/dev/nbd0", offset, lvs['cluster_size'], "read", "0x00") self.c.bdev_malloc_delete(base_name) # Expected result: # - calls successful, return code = 0 # - get_bdevs: no change # - no other operation fails return fail_count