def test_snapshot_revert(
grpc_controller, # NOQA
grpc_replica1,
grpc_replica2): # NOQA
address = grpc_controller.address
dev = get_dev(grpc_replica1, grpc_replica2, grpc_controller)
snapshot_revert_test(dev, address, ENGINE_NAME)
def snapshot_tree_backup_test(
backup_target,
engine_name, # NOQA
grpc_controller,
grpc_replica1,
grpc_replica2): # NOQA
address = grpc_controller.address
dev = get_dev(grpc_replica1, grpc_replica2, grpc_controller)
offset = 0
length = 128
backup = {}
snap, data = snapshot_tree_build(dev, address, engine_name, offset, length)
backup["0b"] = create_backup(address, snap["0b"], backup_target)["URL"]
backup["0c"] = create_backup(address, snap["0c"], backup_target)["URL"]
backup["1c"] = create_backup(address, snap["1c"], backup_target)["URL"]
backup["2b"] = create_backup(address, snap["2b"], backup_target)["URL"]
backup["2c"] = create_backup(address, snap["2c"], backup_target)["URL"]
backup["3c"] = create_backup(address, snap["3c"], backup_target)["URL"]
snapshot_tree_verify_backup_node(dev, address, engine_name, offset, length,
backup, data, "0b")
snapshot_tree_verify_backup_node(dev, address, engine_name, offset, length,
backup, data, "0c")
snapshot_tree_verify_backup_node(dev, address, engine_name, offset, length,
backup, data, "1c")
snapshot_tree_verify_backup_node(dev, address, engine_name, offset, length,
backup, data, "2b")
snapshot_tree_verify_backup_node(dev, address, engine_name, offset, length,
backup, data, "2c")
snapshot_tree_verify_backup_node(dev, address, engine_name, offset, length,
backup, data, "3c")
def test_backup_volume_deletion(
grpc_replica1,
grpc_replica2, # NOQA
grpc_controller,
backup_targets): # NOQA
offset = 0
length = 128
address = grpc_controller.address
for backup_target in backup_targets:
dev = get_dev(grpc_replica1, grpc_replica2, grpc_controller)
snap_data = random_string(length)
verify_data(dev, offset, snap_data)
snap = cmd.snapshot_create(address)
backup_info = create_backup(address, snap, backup_target)
assert backup_info["VolumeName"] == VOLUME_NAME
assert backup_info["Size"] == BLOCK_SIZE_STR
assert snap in backup_info["SnapshotName"]
cmd.backup_volume_rm(address, VOLUME_NAME, backup_target)
info = cmd.backup_volume_list(address, VOLUME_NAME, backup_target)
assert "cannot find" in info[VOLUME_NAME]["Messages"]["error"]
cmd.sync_agent_server_reset(address)
cleanup_controller(grpc_controller)
cleanup_replica(grpc_replica1)
cleanup_replica(grpc_replica2)
def test_snapshot_tree_backup(replica1, replica2, controller, backup_targets): # NOQA
for backup_target in backup_targets:
dev = common.get_dev(replica1, replica2, controller)
snapshot_tree_backup_test(dev, backup_target)
common.cleanup_replica(replica1)
common.cleanup_replica(replica2)
common.cleanup_controller(controller)
def test_backup(replica1, replica2, controller, backup_targets): # NOQA
for backup_target in backup_targets:
dev = common.get_dev(replica1, replica2, controller)
backup_test(dev, backup_target)
common.cleanup_replica(replica1)
common.cleanup_replica(replica2)
common.cleanup_controller(controller)
def test_rw_with_metric(
grpc_controller, # NOQA
grpc_replica1,
grpc_replica2): # NOQA
rw_dev = get_dev(grpc_replica1, grpc_replica2, grpc_controller)
replies = grpc_controller.metric_get()
# skip the first metric since its fields are 0
next(replies).metric
for i in range(0, 5):
base = random.randint(1, SIZE - PAGE_SIZE)
offset = (base / PAGE_SIZE) * PAGE_SIZE
length = base - offset
data = random_string(length)
verify_data(rw_dev, offset, data)
while 1:
try:
metric = next(replies).metric
# it's hard to confirm the accurate value of metric
assert metric.readBandwidth != 0
assert metric.writeBandwidth != 0
assert metric.iOPS != 0
break
except StopIteration:
time.sleep(1)
def test_restore_to_file_without_backing_file(replica1, replica2, # NOQA
controller, backup_targets): # NOQA
for backup_target in backup_targets:
dev = common.get_dev(replica1, replica2, controller)
restore_to_file_without_backing_file_test(dev, backup_target)
common.cleanup_replica(replica1)
common.cleanup_replica(replica2)
common.cleanup_controller(controller)
def test_snapshot_tree_backup(
grpc_replica1,
grpc_replica2, # NOQA
grpc_controller,
backup_targets): # NOQA
for backup_target in backup_targets:
dev = common.get_dev(grpc_replica1, grpc_replica2, grpc_controller)
snapshot_tree_backup_test(dev, backup_target)
common.cleanup_replica(grpc_replica1)
common.cleanup_replica(grpc_replica2)
common.cleanup_controller(grpc_controller)
def test_backup(
grpc_replica1,
grpc_replica2, # NOQA
grpc_controller,
backup_targets): # NOQA
for backup_target in backup_targets:
dev = get_dev(grpc_replica1, grpc_replica2, grpc_controller)
backup_test(dev, grpc_controller.address, VOLUME_NAME, ENGINE_NAME,
backup_target)
cmd.sync_agent_server_reset(grpc_controller.address)
cleanup_controller(grpc_controller)
cleanup_replica(grpc_replica1)
cleanup_replica(grpc_replica2)
def test_snapshot_rm_basic(
grpc_controller, # NOQA
grpc_replica1,
grpc_replica2): # NOQA
address = grpc_controller.address
dev = get_dev(grpc_replica1, grpc_replica2, grpc_controller)
existings = {}
snap1 = Snapshot(dev, generate_random_data(existings), address)
snap2 = Snapshot(dev, generate_random_data(existings), address)
snap3 = Snapshot(dev, generate_random_data(existings), address)
info = cmd.snapshot_info(address)
assert len(info) == 4
assert VOLUME_HEAD in info
assert snap1.name in info
assert snap2.name in info
assert snap3.name in info
cmd.snapshot_rm(address, snap2.name)
cmd.snapshot_purge(address)
wait_for_purge_completion(address)
info = cmd.snapshot_info(address)
assert len(info) == 3
assert snap1.name in info
assert snap3.name in info
snap3.verify_checksum()
snap2.verify_data()
snap1.verify_data()
snapshot_revert_with_frontend(address, ENGINE_NAME, snap1.name)
snap3.refute_data()
snap2.refute_data()
snap1.verify_checksum()
def restore_inc_test(
controller,
replica1,
replica2, # NOQA
sb_controller,
sb_replica1,
sb_replica2,
backup_target): # NOQA
launcher.start_engine_frontend(FRONTEND_TGT_BLOCKDEV, url=LAUNCHER)
dev = common.get_dev(replica1, replica2, controller)
zero_string = b'\x00'.decode('utf-8')
# backup0: 256 random data in 1st block
length0 = 256
snap0_data = common.random_string(length0)
verify_data(dev, 0, snap0_data)
verify_data(dev, BLOCK_SIZE, snap0_data)
snap0 = cmd.snapshot_create()
backup0 = create_backup(backup_target, snap0)
backup0_name = cmd.backup_inspect(backup0)['Name']
# backup1: 32 random data + 32 zero data + 192 random data in 1st block
length1 = 32
offset1 = 32
snap1_data = zero_string * length1
verify_data(dev, offset1, snap1_data)
snap1 = cmd.snapshot_create()
backup1 = create_backup(backup_target, snap1)
backup1_name = cmd.backup_inspect(backup1)['Name']
# backup2: 32 random data + 256 random data in 1st block,
# 256 random data in 2nd block
length2 = 256
offset2 = 32
snap2_data = common.random_string(length2)
verify_data(dev, offset2, snap2_data)
verify_data(dev, BLOCK_SIZE, snap2_data)
snap2 = cmd.snapshot_create()
backup2 = create_backup(backup_target, snap2)
backup2_name = cmd.backup_inspect(backup2)['Name']
# backup3: 64 zero data + 192 random data in 1st block
length3 = 64
offset3 = 0
verify_data(dev, offset3, zero_string * length3)
verify_data(dev, length2, zero_string * offset2)
verify_data(dev, BLOCK_SIZE, zero_string * length2)
snap3 = cmd.snapshot_create()
backup3 = create_backup(backup_target, snap3)
backup3_name = cmd.backup_inspect(backup3)['Name']
# backup4: 256 random data in 1st block
length4 = 256
offset4 = 0
snap4_data = common.random_string(length4)
verify_data(dev, offset4, snap4_data)
snap4 = cmd.snapshot_create()
backup4 = create_backup(backup_target, snap4)
backup4_name = cmd.backup_inspect(backup4)['Name']
common.cleanup_replica(replica1)
common.cleanup_replica(replica2)
common.cleanup_controller(controller)
launcher.shutdown_engine_frontend(url=LAUNCHER)
# start no-frontend volume
# start standby volume (no frontend)
start_no_frontend_volume(sb_controller, sb_replica1, sb_replica2)
restore_for_no_frontend_volume(backup0, sb_controller)
verify_no_frontend_data(0, snap0_data, sb_controller)
# mock restore crash/error
delta_file1 = "volume-delta-" + backup0_name + ".img"
if "vfs" in backup_target:
command = ["find", VFS_DIR, "-type", "d", "-name", VOLUME_NAME]
backup_volume_path = subprocess.check_output(command).strip()
command = ["find", backup_volume_path, "-name", "*blk"]
blocks = subprocess.check_output(command).split()
assert len(blocks) != 0
for blk in blocks:
command = ["mv", blk, blk + ".tmp"]
subprocess.check_output(command).strip()
with pytest.raises(subprocess.CalledProcessError):
cmd.restore_inc(backup1, backup0_name, CONTROLLER_NO_FRONTEND)
assert path.exists(STANDBY_REPLICA1_PATH + delta_file1)
assert path.exists(STANDBY_REPLICA2_PATH + delta_file1)
for blk in blocks:
command = ["mv", blk + ".tmp", blk]
subprocess.check_output(command)
data1 = \
snap0_data[0:offset1] + snap1_data + \
snap0_data[offset1+length1:]
cmd.restore_inc(backup1, backup0_name, CONTROLLER_NO_FRONTEND)
verify_no_frontend_data(0, data1, sb_controller)
assert not path.exists(STANDBY_REPLICA1_PATH + delta_file1)
assert not path.exists(STANDBY_REPLICA2_PATH + delta_file1)
volume_info = cmd.info(CONTROLLER_NO_FRONTEND)
assert volume_info['lastRestored'] == backup1_name
data2 = \
data1[0:offset2] + snap2_data + \
zero_string * (BLOCK_SIZE - length2 - offset2) + snap2_data
cmd.restore_inc(backup2, backup1_name, CONTROLLER_NO_FRONTEND)
verify_no_frontend_data(0, data2, sb_controller)
delta_file2 = "volume-delta-" + backup1_name + ".img"
assert not path.exists(STANDBY_REPLICA1_PATH + delta_file2)
assert not path.exists(STANDBY_REPLICA2_PATH + delta_file2)
volume_info = cmd.info(CONTROLLER_NO_FRONTEND)
assert volume_info['lastRestored'] == backup2_name
# mock race condition
with pytest.raises(subprocess.CalledProcessError) as e:
cmd.restore_inc(backup1, backup0_name, CONTROLLER_NO_FRONTEND)
assert "doesn't match lastRestored" in e
data3 = zero_string * length3 + data2[length3:length2]
cmd.restore_inc(backup3, backup2_name, CONTROLLER_NO_FRONTEND)
verify_no_frontend_data(0, data3, sb_controller)
delta_file3 = "volume-delta-" + backup3_name + ".img"
assert not path.exists(STANDBY_REPLICA1_PATH + delta_file3)
assert not path.exists(STANDBY_REPLICA2_PATH + delta_file3)
volume_info = cmd.info(CONTROLLER_NO_FRONTEND)
assert volume_info['lastRestored'] == backup3_name
# mock corner case: invalid last-restored backup
rm_backups([backup3])
# actually it is full restoration
cmd.restore_inc(backup4, backup3_name, CONTROLLER_NO_FRONTEND)
verify_no_frontend_data(0, snap4_data, sb_controller)
volume_info = cmd.info(CONTROLLER_NO_FRONTEND)
assert volume_info['lastRestored'] == backup4_name
if "vfs" in backup_target:
command = ["find", VFS_DIR, "-type", "d", "-name", VOLUME_NAME]
backup_volume_path = subprocess.check_output(command).strip()
command = ["find", backup_volume_path, "-name", "*tempoary"]
tmp_files = subprocess.check_output(command).split()
assert len(tmp_files) == 0
cleanup_no_frontend_volume(sb_controller, sb_replica1, sb_replica2)
rm_backups([backup0, backup1, backup2, backup4])
def restore_to_file_without_backing_file_test(
backup_target, # NOQA
grpc_controller, # NOQA
grpc_replica1, # NOQA
grpc_replica2): # NOQA
address = grpc_controller.address
dev = get_dev(grpc_replica1, grpc_replica2, grpc_controller)
length0 = 256
length1 = 128
offset0 = 0
offset1 = length1 + offset0
output_raw_path = file(OUTPUT_FILE_RAW)
output_qcow2_path = file(OUTPUT_FILE_QCOW2)
# create 1 empty snapshot for converting to init state.
snap0 = cmd.snapshot_create(address)
# create 1 snapshot with 256B data.
# output = snap2(offset0, length1)
snap1_data = random_string(length0)
verify_data(dev, offset0, snap1_data)
snap1 = cmd.snapshot_create(address)
backup = create_backup(address, snap1, backup_target)["URL"]
cmd.restore_to_file(address, backup, "", output_raw_path, IMAGE_FORMAT_RAW)
output1_raw = read_file(output_raw_path, offset0, length0)
assert output1_raw == snap1_data
os.remove(output_raw_path)
assert not os.path.exists(output_raw_path)
cmd.restore_to_file(address, backup, "", output_qcow2_path,
IMAGE_FORMAT_QCOW2)
output1_qcow2 = read_qcow2_file_without_backing_file(
output_qcow2_path, offset0, length0)
assert output1_qcow2 == snap1_data
os.remove(output_qcow2_path)
assert not os.path.exists(output_qcow2_path)
snapshot_revert_with_frontend(address, ENGINE_NAME, snap0)
rm_snaps(address, [snap1])
rm_backups(address, ENGINE_NAME, [backup])
# create 2 snapshots with 256B data and 128B data
# output = snap2(offset0, length1 - length2) +
# snap1(offset2, length2)
snap1_data = random_string(length0)
verify_data(dev, offset0, snap1_data)
snap1 = cmd.snapshot_create(address)
snap2_data = random_string(length1)
verify_data(dev, offset0, snap2_data)
snap2 = cmd.snapshot_create(address)
backup = create_backup(address, snap2, backup_target)["URL"]
cmd.restore_to_file(address, backup, "", output_raw_path, IMAGE_FORMAT_RAW)
output2_raw_snap2 = read_file(output_raw_path, offset0, length1)
output2_raw_snap1 = read_file(output_raw_path, offset1, length0 - length1)
assert output2_raw_snap2 == snap2_data
assert output2_raw_snap1 == snap1_data[offset1:length0]
cmd.restore_to_file(address, backup, "", output_qcow2_path,
IMAGE_FORMAT_QCOW2)
output2_qcow2_snap2 = read_qcow2_file_without_backing_file(
output_qcow2_path, offset0, length1)
output2_qcow2_snap1 = read_qcow2_file_without_backing_file(
output_qcow2_path, offset1, length0 - length1)
assert output2_qcow2_snap2 == snap2_data
assert output2_qcow2_snap1 == snap1_data[offset1:length0]
os.remove(output_qcow2_path)
assert not os.path.exists(output_qcow2_path)
snapshot_revert_with_frontend(address, ENGINE_NAME, snap0)
rm_snaps(address, [snap1, snap2])
rm_backups(address, ENGINE_NAME, [backup])
def restore_inc_test(
grpc_engine_manager, # NOQA
grpc_controller, # NOQA
grpc_replica1,
grpc_replica2, # NOQA
grpc_dr_controller, # NOQA
grpc_dr_replica1,
grpc_dr_replica2, # NOQA
backup_target): # NOQA
address = grpc_controller.address
dev = get_dev(grpc_replica1, grpc_replica2, grpc_controller)
zero_string = b'\x00'.decode('utf-8')
# backup0: 256 random data in 1st block
length0 = 256
snap0_data = random_string(length0)
verify_data(dev, 0, snap0_data)
verify_data(dev, BLOCK_SIZE, snap0_data)
snap0 = cmd.snapshot_create(address)
backup0 = create_backup(address, snap0, backup_target)["URL"]
backup0_name = cmd.backup_inspect(address, backup0)['Name']
# backup1: 32 random data + 32 zero data + 192 random data in 1st block
length1 = 32
offset1 = 32
snap1_data = zero_string * length1
verify_data(dev, offset1, snap1_data)
snap1 = cmd.snapshot_create(address)
backup1 = create_backup(address, snap1, backup_target)["URL"]
backup1_name = cmd.backup_inspect(address, backup1)['Name']
# backup2: 32 random data + 256 random data in 1st block,
# 256 random data in 2nd block
length2 = 256
offset2 = 32
snap2_data = random_string(length2)
verify_data(dev, offset2, snap2_data)
verify_data(dev, BLOCK_SIZE, snap2_data)
snap2 = cmd.snapshot_create(address)
backup2 = create_backup(address, snap2, backup_target)["URL"]
backup2_name = cmd.backup_inspect(address, backup2)['Name']
# backup3: 64 zero data + 192 random data in 1st block
length3 = 64
offset3 = 0
verify_data(dev, offset3, zero_string * length3)
verify_data(dev, length2, zero_string * offset2)
verify_data(dev, BLOCK_SIZE, zero_string * length2)
snap3 = cmd.snapshot_create(address)
backup3 = create_backup(address, snap3, backup_target)["URL"]
backup3_name = cmd.backup_inspect(address, backup3)['Name']
# backup4: 256 random data in 1st block
length4 = 256
offset4 = 0
snap4_data = random_string(length4)
verify_data(dev, offset4, snap4_data)
snap4 = cmd.snapshot_create(address)
backup4 = create_backup(address, snap4, backup_target)["URL"]
backup4_name = cmd.backup_inspect(address, backup4)['Name']
# start no-frontend volume
# start dr volume (no frontend)
dr_address = grpc_dr_controller.address
start_no_frontend_volume(grpc_engine_manager, grpc_dr_controller,
grpc_dr_replica1, grpc_dr_replica2)
cmd.backup_restore(dr_address, backup0)
wait_for_restore_completion(dr_address, backup0)
verify_no_frontend_data(grpc_engine_manager, 0, snap0_data,
grpc_dr_controller)
# mock restore crash/error
delta_file1 = "volume-delta-" + backup0_name + ".img"
if "vfs" in backup_target:
command = ["find", VFS_DIR, "-type", "d", "-name", VOLUME_NAME]
backup_volume_path = subprocess.check_output(command).strip()
command = ["find", backup_volume_path, "-name", "*blk"]
blocks = subprocess.check_output(command).split()
assert len(blocks) != 0
for blk in blocks:
command = ["mv", blk, blk + ".tmp"]
subprocess.check_output(command).strip()
# should fail
is_failed = False
cmd.restore_inc(dr_address, backup1, backup0_name)
for i in range(RETRY_COUNTS):
rs = cmd.restore_status(dr_address)
for status in rs.values():
if status['backupURL'] != backup1:
break
if 'error' in status.keys():
if status['error'] != "":
assert 'no such file or directory' in \
status['error']
is_failed = True
if is_failed:
break
time.sleep(RETRY_INTERVAL)
assert is_failed
assert path.exists(FIXED_REPLICA_PATH1 + delta_file1)
assert path.exists(FIXED_REPLICA_PATH2 + delta_file1)
for blk in blocks:
command = ["mv", blk + ".tmp", blk]
subprocess.check_output(command)
data1 = \
snap0_data[0:offset1] + snap1_data + \
snap0_data[offset1+length1:]
# race condition: last restoration has failed
# but `isRestoring` hasn't been cleanup
for i in range(RETRY_COUNTS):
try:
restore_incrementally(dr_address, backup1, backup0_name)
break
except subprocess.CalledProcessError as e:
if "already in progress" not in e.output:
time.sleep(RETRY_INTERVAL)
else:
raise e
verify_no_frontend_data(grpc_engine_manager, 0, data1, grpc_dr_controller)
assert not path.exists(FIXED_REPLICA_PATH1 + delta_file1)
assert not path.exists(FIXED_REPLICA_PATH2 + delta_file1)
status = cmd.restore_status(dr_address)
compare_last_restored_with_backup(status, backup1_name)
data2 = \
data1[0:offset2] + snap2_data + \
zero_string * (BLOCK_SIZE - length2 - offset2) + snap2_data
restore_incrementally(dr_address, backup2, backup1_name)
verify_no_frontend_data(grpc_engine_manager, 0, data2, grpc_dr_controller)
delta_file2 = "volume-delta-" + backup1_name + ".img"
assert not path.exists(FIXED_REPLICA_PATH1 + delta_file2)
assert not path.exists(FIXED_REPLICA_PATH2 + delta_file2)
status = cmd.restore_status(dr_address)
compare_last_restored_with_backup(status, backup2_name)
# mock race condition
with pytest.raises(subprocess.CalledProcessError) as e:
restore_incrementally(dr_address, backup1, backup0_name)
assert "doesn't match lastRestored" in e
data3 = zero_string * length3 + data2[length3:length2]
restore_incrementally(dr_address, backup3, backup2_name)
verify_no_frontend_data(grpc_engine_manager, 0, data3, grpc_dr_controller)
delta_file3 = "volume-delta-" + backup3_name + ".img"
assert not path.exists(FIXED_REPLICA_PATH1 + delta_file3)
assert not path.exists(FIXED_REPLICA_PATH2 + delta_file3)
status = cmd.restore_status(dr_address)
compare_last_restored_with_backup(status, backup3_name)
# mock corner case: invalid last-restored backup
rm_backups(address, ENGINE_NAME, [backup3])
# actually it is full restoration
restore_incrementally(dr_address, backup4, backup3_name)
verify_no_frontend_data(grpc_engine_manager, 0, snap4_data,
grpc_dr_controller)
status = cmd.restore_status(dr_address)
compare_last_restored_with_backup(status, backup4_name)
if "vfs" in backup_target:
command = ["find", VFS_DIR, "-type", "d", "-name", VOLUME_NAME]
backup_volume_path = subprocess.check_output(command).strip()
command = ["find", backup_volume_path, "-name", "*tempoary"]
tmp_files = subprocess.check_output(command).split()
assert len(tmp_files) == 0
cleanup_no_frontend_volume(grpc_engine_manager, grpc_dr_controller,
grpc_dr_replica1, grpc_dr_replica2)
rm_backups(address, ENGINE_NAME, [backup0, backup1, backup2, backup4])
cmd.sync_agent_server_reset(address)
cleanup_controller(grpc_controller)
cleanup_replica(grpc_replica1)
cleanup_replica(grpc_replica2)
def test_backup_type(
grpc_replica1,
grpc_replica2, # NOQA
grpc_controller,
backup_targets): # NOQA
for backup_target in backup_targets:
address = grpc_controller.address
block_size = 2 * 1024 * 1024
dev = get_dev(grpc_replica1, grpc_replica2, grpc_controller)
zero_string = b'\x00'.decode('utf-8')
# backup0: 256 random data in 1st block
length0 = 256
snap0_data = random_string(length0)
verify_data(dev, 0, snap0_data)
verify_data(dev, block_size, snap0_data)
snap0 = cmd.snapshot_create(address)
backup0 = create_backup(address, snap0, backup_target)
backup0_url = backup0["URL"]
assert backup0['IsIncremental'] is False
# backup1: 32 random data + 32 zero data + 192 random data in 1st block
length1 = 32
offset1 = 32
snap1_data = zero_string * length1
verify_data(dev, offset1, snap1_data)
snap1 = cmd.snapshot_create(address)
backup1 = create_backup(address, snap1, backup_target)
backup1_url = backup1["URL"]
assert backup1['IsIncremental'] is True
# backup2: 32 random data + 256 random data in 1st block,
# 256 random data in 2nd block
length2 = 256
offset2 = 32
snap2_data = random_string(length2)
verify_data(dev, offset2, snap2_data)
verify_data(dev, block_size, snap2_data)
snap2 = cmd.snapshot_create(address)
backup2 = create_backup(address, snap2, backup_target)
backup2_url = backup2["URL"]
assert backup2['IsIncremental'] is True
rm_backups(address, ENGINE_NAME, [backup2_url])
# backup3: 64 zero data + 192 random data in 1st block
length3 = 64
offset3 = 0
verify_data(dev, offset3, zero_string * length3)
verify_data(dev, length2, zero_string * offset2)
verify_data(dev, block_size, zero_string * length2)
snap3 = cmd.snapshot_create(address)
backup3 = create_backup(address, snap3, backup_target)
backup3_url = backup3["URL"]
assert backup3['IsIncremental'] is False
# backup4: 256 random data in 1st block
length4 = 256
offset4 = 0
snap4_data = random_string(length4)
verify_data(dev, offset4, snap4_data)
snap4 = cmd.snapshot_create(address)
backup4 = create_backup(address, snap4, backup_target)
backup4_url = backup4["URL"]
assert backup4['IsIncremental'] is True
rm_backups(address, ENGINE_NAME,
[backup0_url, backup1_url, backup3_url, backup4_url])
cmd.sync_agent_server_reset(address)
cleanup_replica(grpc_replica1)
cleanup_replica(grpc_replica2)
cleanup_controller(grpc_controller)
def test_snapshot_rm_rolling(
grpc_controller, # NOQA
grpc_replica1,
grpc_replica2): # NOQA
address = grpc_controller.address
dev = get_dev(grpc_replica1, grpc_replica2, grpc_controller)
existings = {}
snap1 = Snapshot(dev, generate_random_data(existings), address)
snapList = cmd.snapshot_ls(address)
assert snap1.name in snapList
cmd.snapshot_rm(address, snap1.name)
# cannot do anything because it's the parent of volume head
cmd.snapshot_purge(address)
wait_for_purge_completion(address)
snap2 = Snapshot(dev, generate_random_data(existings), address)
info = cmd.snapshot_info(address)
assert len(info) == 3
assert snap1.name in info
assert snap2.name in info
assert info[snap1.name]["removed"] is True
assert info[snap2.name]["removed"] is False
cmd.snapshot_rm(address, snap2.name)
# this should trigger the deletion of snap1
cmd.snapshot_purge(address)
wait_for_purge_completion(address)
snap2.verify_checksum()
snap1.verify_data()
snap3 = Snapshot(dev, generate_random_data(existings), address)
snap4 = Snapshot(dev, generate_random_data(existings), address)
snap5 = Snapshot(dev, generate_random_data(existings), address)
snapList = cmd.snapshot_ls(address)
assert snap1.name not in snapList
assert snap2.name not in snapList
assert snap3.name in snapList
assert snap4.name in snapList
assert snap5.name in snapList
info = cmd.snapshot_info(address)
assert len(info) == 5
assert snap1.name not in info
assert snap2.name in info
assert snap3.name in info
assert snap4.name in info
assert snap5.name in info
assert info[snap2.name]["removed"] is True
cmd.snapshot_rm(address, snap3.name)
cmd.snapshot_rm(address, snap4.name)
cmd.snapshot_rm(address, snap5.name)
# this should trigger the deletion of snap2 - snap4
# and snap5 marked as removed
cmd.snapshot_purge(address)
wait_for_purge_completion(address)
info = cmd.snapshot_info(address)
assert len(info) == 2
assert snap1.name not in info
assert snap2.name not in info
assert snap3.name not in info
assert snap4.name not in info
assert snap5.name in info
assert info[snap5.name]["removed"] is True
snap5.verify_checksum()
snap4.verify_data()
snap3.verify_data()
snap2.verify_data()
snap1.verify_data()
def test_snapshot_tree_basic(
grpc_controller, # NOQA
grpc_replica1,
grpc_replica2): # NOQA
address = grpc_controller.address
dev = get_dev(grpc_replica1, grpc_replica2, grpc_controller)
offset = 0
length = 128
snap, data = snapshot_tree_build(dev, address, ENGINE_NAME, offset, length)
snapshot_revert_with_frontend(address, ENGINE_NAME, snap["1b"])
cmd.snapshot_rm(address, snap["0a"])
cmd.snapshot_rm(address, snap["0b"])
cmd.snapshot_rm(address, snap["1c"])
cmd.snapshot_rm(address, snap["2a"])
cmd.snapshot_rm(address, snap["2b"])
cmd.snapshot_rm(address, snap["2c"])
cmd.snapshot_rm(address, snap["3a"])
cmd.snapshot_rm(address, snap["3b"])
cmd.snapshot_rm(address, snap["3c"])
cmd.snapshot_purge(address)
wait_for_purge_completion(address)
# the result should looks like this
# snap["0b"](r) -> snap["0c"]
# \-> snap["1a"] -> snap["1b"] -> head
info = cmd.snapshot_info(address)
assert len(info) == 5
assert snap["0b"] in info
assert info[snap["0b"]]["parent"] == ""
assert len(info[snap["0b"]]["children"]) == 2
assert snap["0c"] in info[snap["0b"]]["children"]
assert snap["1a"] in info[snap["0b"]]["children"]
assert info[snap["0b"]]["removed"] is True
assert snap["0c"] in info
assert info[snap["0c"]]["parent"] == snap["0b"]
assert not info[snap["0c"]]["children"]
assert snap["1a"] in info
assert info[snap["1a"]]["parent"] == snap["0b"]
assert snap["1b"] in info[snap["1a"]]["children"]
assert snap["1b"] in info
assert info[snap["1b"]]["parent"] == snap["1a"]
assert VOLUME_HEAD in info[snap["1b"]]["children"]
assert VOLUME_HEAD in info
assert info[VOLUME_HEAD]["parent"] == snap["1b"]
snapshot_tree_verify_node(dev, address, ENGINE_NAME, offset, length, snap,
data, "0b")
snapshot_tree_verify_node(dev, address, ENGINE_NAME, offset, length, snap,
data, "0c")
snapshot_tree_verify_node(dev, address, ENGINE_NAME, offset, length, snap,
data, "1a")
snapshot_tree_verify_node(dev, address, ENGINE_NAME, offset, length, snap,
data, "1b")
def test_upgrade(
grpc_engine_manager, # NOQA
grpc_controller, # NOQA
grpc_fixed_dir_replica1,
grpc_fixed_dir_replica2, # NOQA
grpc_extra_replica1,
grpc_extra_replica2): # NOQA
dev = get_dev(grpc_fixed_dir_replica1, grpc_fixed_dir_replica2,
grpc_controller)
offset = 0
length = 128
data = random_string(length)
verify_data(dev, offset, data)
# both set pointed to the same volume underlying
r1_url = grpc_fixed_dir_replica1.url
r2_url = grpc_fixed_dir_replica2.url
upgrade_r1_url = grpc_extra_replica1.url
upgrade_r2_url = grpc_extra_replica2.url
v = grpc_controller.volume_start(replicas=[r1_url, r2_url])
assert v.replicaCount == 2
upgrade_e = grpc_engine_manager.engine_upgrade(
ENGINE_NAME, LONGHORN_UPGRADE_BINARY, SIZE,
[upgrade_r1_url, upgrade_r2_url])
assert upgrade_e.spec.binary == LONGHORN_UPGRADE_BINARY
verify_data(dev, offset, data)
grpc_controller.client_upgrade(upgrade_e.spec.listen)
wait_for_process_running(grpc_engine_manager, ENGINE_NAME,
INSTANCE_MANAGER_TYPE_ENGINE)
# cannot start with same binary
with pytest.raises(grpc.RpcError):
grpc_engine_manager.engine_upgrade(ENGINE_NAME,
LONGHORN_UPGRADE_BINARY, SIZE,
[r1_url, r2_url])
verify_data(dev, offset, data)
# cannot start with wrong replica, would trigger rollback
with pytest.raises(grpc.RpcError):
grpc_engine_manager.engine_upgrade(ENGINE_NAME,
LONGHORN_UPGRADE_BINARY, SIZE,
["random"])
verify_data(dev, offset, data)
grpc_fixed_dir_replica1 = cleanup_replica(grpc_fixed_dir_replica1)
grpc_fixed_dir_replica2 = cleanup_replica(grpc_fixed_dir_replica2)
open_replica(grpc_fixed_dir_replica1)
open_replica(grpc_fixed_dir_replica2)
e = grpc_engine_manager.engine_upgrade(ENGINE_NAME, LONGHORN_BINARY, SIZE,
[r1_url, r2_url])
assert e.spec.binary == LONGHORN_BINARY
verify_data(dev, offset, data)
grpc_controller.client_upgrade(e.spec.listen)
wait_for_process_running(grpc_engine_manager, ENGINE_NAME,
INSTANCE_MANAGER_TYPE_ENGINE)
