#!/usr/bin/env python # Copyright (C) 2012-2013 Red Hat, Inc. All rights reserved. # # This file is part of LVM2. # # This copyrighted material is made available to anyone wishing to use, # modify, copy, or redistribute it subject to the terms and conditions # of the GNU General Public License v.2. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software Foundation, # Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA import unittest import random import string import lvm import os import itertools import sys if sys.version_info[0] > 2: long = int # Set of basic unit tests for the python bindings. # # *** WARNING *** # # This test tries to only modify configuration for the list of allowed # PVs, but an error in it could potentially cause data loss if run on a # production system. Therefore it is strongly advised that this unit test # not be run on a system that contains data of value. fh = None def l(txt): if os.environ.get('PY_UNIT_LOG') is not None: global fh if fh is None: fh = open('/tmp/lvm_py_unit_test_' + rs(10), "a") fh.write(txt + "\n") fh.flush() def rs(rand_len=10): """ Generate a random string """ return ''.join( random.choice(string.ascii_uppercase)for x in range(rand_len)) def _get_allowed_devices(): rc = os.environ.get('PY_UNIT_PVS') if rc is not None: rc = rc.splitlines() rc.sort() return rc class AllowedPVS(object): """ We are only allowed to muck with certain PV, filter to only the ones we can use. """ def __init__(self): self.handle = None self.pvs_all = None def __enter__(self): rc = [] allowed_dev = _get_allowed_devices() if allowed_dev: self.handle = lvm.listPvs() self.pvs_all = self.handle.open() for p in self.pvs_all: if p.getName() in allowed_dev: rc.append(p) #Sort them consistently rc.sort(key=lambda x: x.getName()) return rc def __exit__(self, t_type, value, traceback): if self.handle: self.pvs_all = None self.handle.close() class TestLvm(unittest.TestCase): VG_P = os.environ.get('PREFIX') @staticmethod def _get_pv_device_names(): rc = [] with AllowedPVS() as pvs: for p in pvs: rc.append(p.getName()) return rc @staticmethod def _create_thick_lv(device_list, name): vg = lvm.vgCreate(TestLvm.VG_P + "_" + name) for d in device_list: vg.extend(d) vg.createLvLinear(name, vg.getSize() / 2) vg.close() vg = None @staticmethod def _create_thin_pool(device_list, pool_name): vg = lvm.vgCreate(TestLvm.VG_P + "_" + pool_name) for d in device_list: vg.extend(d) vg.createLvThinpool( pool_name, vg.getSize() / 2, 0, 0, lvm.THIN_DISCARDS_PASSDOWN, 1) return vg @staticmethod def _create_thin_lv(pv_devices, name): thin_pool_name = 'thin_vg_pool_' + rs(4) vg = TestLvm._create_thin_pool(pv_devices, thin_pool_name) vg.createLvThin(thin_pool_name, name, vg.getSize() / 8) vg.close() vg = None @staticmethod def _vg_names(): rc = [] vg_names = lvm.listVgNames() for i in vg_names: if i[0:len(TestLvm.VG_P)] == TestLvm.VG_P: rc.append(i) return rc @staticmethod def _get_lv(lv_vol_type=None, lv_name=None): vg_name_list = TestLvm._vg_names() for vg_name in vg_name_list: vg = lvm.vgOpen(vg_name, "w") lvs = vg.listLVs() for lv in lvs: attr = lv.getAttr() if lv_vol_type or lv_name: if lv_vol_type is not None and attr[0] == lv_vol_type: return lv, vg elif lv_name is not None and lv_name == lv.getName(): return lv, vg else: return lv, vg vg.close() return None, None @staticmethod def _remove_vg(vg_name): vg = lvm.vgOpen(vg_name, 'w') pvs = vg.listPVs() pe_devices = [] #Remove old snapshots first, then lv for lv in vg.listLVs(): attr = lv.getAttr() if attr[0] == 's': lv.remove() lvs = vg.listLVs() #Now remove any thin lVs for lv in vg.listLVs(): attr = lv.getAttr() if attr[0] == 'V': lv.remove() #now remove the rest for lv in vg.listLVs(): name = lv.getName() #Don't remove the hidden ones if '_tmeta' not in name and '_tdata' not in name: lv.remove() for p in pvs: pe_devices.append(p.getName()) for pv in pe_devices[:-1]: vg.reduce(pv) vg.remove() vg.close() @staticmethod def _clean_up(): #Clear out the testing PVs, but only if they contain stuff #this unit test created for vg_n in TestLvm._vg_names(): TestLvm._remove_vg(vg_n) for d in TestLvm._get_pv_device_names(): lvm.pvRemove(d) lvm.pvCreate(d) def setUp(self): device_list = TestLvm._get_pv_device_names() #Make sure we have an adequate number of PVs to use self.assertTrue(len(device_list) >= 4) TestLvm._clean_up() def tearDown(self): TestLvm._clean_up() def test_pv_resize(self): with AllowedPVS() as pvs: pv = pvs[0] curr_size = pv.getSize() dev_size = pv.getDevSize() self.assertTrue(curr_size == dev_size) pv.resize(curr_size / 2) with AllowedPVS() as pvs: pv = pvs[0] resized_size = pv.getSize() self.assertTrue(resized_size != curr_size) pv.resize(dev_size) def test_pv_life_cycle(self): """ Test removing and re-creating a PV """ target_name = None with AllowedPVS() as pvs: pv = pvs[0] target_name = pv.getName() lvm.pvRemove(target_name) with AllowedPVS() as pvs: for p in pvs: self.assertTrue(p.getName() != target_name) lvm.pvCreate(target_name, 0) with AllowedPVS() as pvs: found = False for p in pvs: if p.getName() == target_name: found = True self.assertTrue(found) @staticmethod def test_pv_methods(): with AllowedPVS() as pvs: for p in pvs: p.getName() p.getUuid() p.getMdaCount() p.getSize() p.getDevSize() p.getFree() p = None def test_version(self): version = lvm.getVersion() self.assertNotEquals(version, None) self.assertEquals(type(version), str) self.assertTrue(len(version) > 0) def test_pv_getters(self): with AllowedPVS() as pvs: pv = pvs[0] self.assertEqual(type(pv.getName()), str) self.assertTrue(len(pv.getName()) > 0) self.assertEqual(type(pv.getUuid()), str) self.assertTrue(len(pv.getUuid()) > 0) self.assertTrue( type(pv.getMdaCount()) == int or type(pv.getMdaCount()) == long) self.assertTrue( type(pv.getSize()) == int or type(pv.getSize()) == long) self.assertTrue( type(pv.getDevSize()) == int or type(pv.getSize()) == long) self.assertTrue( type(pv.getFree()) == int or type(pv.getFree()) == long) def _test_prop(self, prop_obj, prop, var_type, settable): result = prop_obj.getProperty(prop) #If we have no string value we can get a None type back if result[0] is not None: self.assertEqual(type(result[0]), var_type) else: self.assertTrue(str == var_type) self.assertEqual(type(result[1]), bool) self.assertTrue(result[1] == settable) def test_pv_segs(self): with AllowedPVS() as pvs: pv = pvs[0] pv_segs = pv.listPVsegs() #LVsegs returns a tuple, (value, bool settable) #TODO: Test other properties of pv_seg for i in pv_segs: self._test_prop(i, 'pvseg_start', long, False) def test_pv_property(self): with AllowedPVS() as pvs: pv = pvs[0] self._test_prop(pv, 'pv_mda_count', long, False) def test_lv_property(self): lv_name = 'lv_test' TestLvm._create_thin_lv(TestLvm._get_pv_device_names(), lv_name) lv, vg = TestLvm._get_lv(None, lv_name) lv_seg_properties = [ ('chunk_size', long, False), ('devices', str, False), ('discards', str, False), ('region_size', long, False), ('segtype', str, False), ('seg_pe_ranges', str, False), ('seg_size', long, False), ('seg_size_pe', long, False), ('seg_start', long, False), ('seg_start_pe', long, False), ('seg_tags', str, False), ('stripes', long, False), ('stripe_size', long, False), ('thin_count', long, False), ('transaction_id', long, False), ('zero', long, False)] lv_properties = [ ('convert_lv', str, False), ('copy_percent', long, False), ('data_lv', str, False), ('lv_attr', str, False), ('lv_host', str, False), ('lv_kernel_major', long, False), ('lv_kernel_minor', long, False), ('lv_kernel_read_ahead', long, False), ('lv_major', long, False), ('lv_minor', long, False), ('lv_name', str, False), ('lv_path', str, False), ('lv_profile', str, False), ('lv_read_ahead', long, False), ('lv_size', long, False), ('lv_tags', str, False), ('lv_time', str, False), ('lv_uuid', str, False), ('metadata_lv', str, False), ('mirror_log', str, False), ('lv_modules', str, False), ('move_pv', str, False), ('origin', str, False), ('origin_size', long, False), ('pool_lv', str, False), ('raid_max_recovery_rate', long, False), ('raid_min_recovery_rate', long, False), ('raid_mismatch_count', long, False), ('raid_sync_action', str, False), ('raid_write_behind', long, False), ('seg_count', long, False), ('snap_percent', long, False), ('sync_percent', long, False)] # Generic test case, make sure we get what we expect for t in lv_properties: self._test_prop(lv, *t) segments = lv.listLVsegs() if segments and len(segments): for s in segments: for t in lv_seg_properties: self._test_prop(s, *t) # Test specific cases tag = 'hello_world' lv.addTag(tag) tags = lv.getProperty('lv_tags') self.assertTrue(tag in tags[0]) vg.close() def test_lv_tags(self): lv_name = 'lv_test' TestLvm._create_thin_lv(TestLvm._get_pv_device_names(), lv_name) lv, vg = TestLvm._get_lv(None, lv_name) self._test_tags(lv) vg.close() def test_lv_active_inactive(self): lv_name = 'lv_test' TestLvm._create_thin_lv(TestLvm._get_pv_device_names(), lv_name) lv, vg = TestLvm._get_lv(None, lv_name) lv.deactivate() self.assertTrue(lv.isActive() is False) lv.activate() self.assertTrue(lv.isActive() is True) vg.close() def test_lv_rename(self): lv_name = 'lv_test' TestLvm._create_thin_lv(TestLvm._get_pv_device_names(), lv_name) lv, vg = TestLvm._get_lv(None, lv_name) current_name = lv.getName() new_name = rs() lv.rename(new_name) self.assertEqual(lv.getName(), new_name) lv.rename(current_name) vg.close() def test_lv_persistence(self): # Make changes to the lv, close the vg and re-open to make sure that # the changes persist lv_name = 'lv_test_persist' TestLvm._create_thick_lv(TestLvm._get_pv_device_names(), lv_name) # Test rename lv, vg = TestLvm._get_lv(None, lv_name) current_name = lv.getName() new_name = rs() lv.rename(new_name) vg.close() vg = None lv, vg = TestLvm._get_lv(None, new_name) self.assertTrue(lv is not None) if lv and vg: lv.rename(lv_name) vg.close() vg = None # Test lv tag add tag = 'hello_world' lv, vg = TestLvm._get_lv(None, lv_name) lv.addTag(tag) vg.close() vg = None lv, vg = TestLvm._get_lv(None, lv_name) tags = lv.getTags() self.assertTrue(tag in tags) vg.close() vg = None # Test lv tag delete lv, vg = TestLvm._get_lv(None, lv_name) self.assertTrue(lv is not None and vg is not None) if lv and vg: tags = lv.getTags() for t in tags: lv.removeTag(t) vg.close() vg = None lv, vg = TestLvm._get_lv(None, lv_name) self.assertTrue(lv is not None and vg is not None) if lv and vg: tags = lv.getTags() if tags: self.assertEqual(len(tags), 0) vg.close() vg = None # Test lv deactivate lv, vg = TestLvm._get_lv(None, lv_name) self.assertTrue(lv is not None and vg is not None) if lv and vg: lv.deactivate() vg.close() vg = None lv, vg = TestLvm._get_lv(None, lv_name) self.assertTrue(lv is not None and vg is not None) if lv and vg: self.assertFalse(lv.isActive()) vg.close() vg = None # Test lv activate lv, vg = TestLvm._get_lv(None, lv_name) self.assertTrue(lv is not None and vg is not None) if lv and vg: lv.activate() vg.close() vg = None lv, vg = TestLvm._get_lv(None, lv_name) self.assertTrue(lv is not None and vg is not None) if lv and vg: self.assertTrue(lv.isActive()) vg.close() vg = None def test_lv_snapshot(self): thin_lv = 'thin_lv' thick_lv = 'thick_lv' device_names = TestLvm._get_pv_device_names() TestLvm._create_thin_lv(device_names[0:2], thin_lv) TestLvm._create_thick_lv(device_names[2:4], thick_lv) lv, vg = TestLvm._get_lv(None, thick_lv) # FIXME lv.snapshot('thick_snap_shot', 1024*1024) vg.close() # FIXME thick_ss, vg = TestLvm._get_lv(None, 'thick_snap_shot') # FIXME self.assertTrue(thick_ss is not None) # FIXME vg.close() thin_lv, vg = TestLvm._get_lv(None, thin_lv) thin_lv.snapshot('thin_snap_shot') vg.close() thin_ss, vg = TestLvm._get_lv(None, 'thin_snap_shot') self.assertTrue(thin_ss is not None) origin = thin_ss.getOrigin() self.assertTrue(thin_lv, origin) vg.close() def test_lv_suspend(self): lv_name = 'lv_test' TestLvm._create_thin_lv(TestLvm._get_pv_device_names(), lv_name) lv, vg = TestLvm._get_lv(None, lv_name) result = lv.isSuspended() self.assertTrue(type(result) == bool) vg.close() def test_lv_size(self): lv_name = 'lv_test' TestLvm._create_thin_lv(TestLvm._get_pv_device_names(), lv_name) lv, vg = TestLvm._get_lv(None, lv_name) result = lv.getSize() self.assertTrue(type(result) == int or type(result) == long) vg.close() def test_lv_resize(self): lv_name = 'lv_test' TestLvm._create_thin_lv(TestLvm._get_pv_device_names(), lv_name) lv, vg = TestLvm._get_lv(None, lv_name) curr_size = lv.getSize() lv.resize(curr_size + (1024 * 1024)) latest = lv.getSize() self.assertTrue(curr_size != latest) def test_lv_seg(self): lv_name = 'lv_test' TestLvm._create_thin_lv(TestLvm._get_pv_device_names(), lv_name) lv, vg = TestLvm._get_lv(None, lv_name) lv_segs = lv.listLVsegs() #LVsegs returns a tuple, (value, bool settable) #TODO: Test other properties of lv_seg for i in lv_segs: self._test_prop(i, 'seg_start_pe', long, False) vg.close() def test_get_set_extend_size(self): thick_lv = 'get_set_prop' device_names = TestLvm._get_pv_device_names() TestLvm._create_thick_lv(device_names[0:2], thick_lv) lv, vg = TestLvm._get_lv(None, thick_lv) new_extent = 1024 * 1024 * 4 self.assertFalse( vg.getExtentSize() != new_extent, "Cannot determine if it works if they are the same") vg.setExtentSize(new_extent) self.assertEqual(vg.getExtentSize(), new_extent) vg.close() def test_vg_get_set_prop(self): thick_lv = 'get_set_prop' device_names = TestLvm._get_pv_device_names() TestLvm._create_thick_lv(device_names[0:2], thick_lv) lv, vg = TestLvm._get_lv(None, thick_lv) self.assertTrue(vg is not None) if vg: vg_mda_copies = vg.getProperty('vg_mda_copies') vg.setProperty('vg_mda_copies', vg_mda_copies[0]) vg.close() def test_vg_remove_restore(self): #Store off the list of physical devices pv_devices = [] thick_lv = 'get_set_prop' device_names = TestLvm._get_pv_device_names() TestLvm._create_thick_lv(device_names[0:2], thick_lv) lv, vg = TestLvm._get_lv(None, thick_lv) vg_name = vg.getName() pvs = vg.listPVs() for p in pvs: pv_devices.append(p.getName()) vg.close() TestLvm._remove_vg(vg_name) self._create_thick_lv(pv_devices, thick_lv) def test_vg_names(self): vg = lvm.listVgNames() self.assertTrue(isinstance(vg, tuple)) def test_dupe_lv_create(self): """ Try to create a lv with the same name expecting a failure Note: This was causing a seg. fault previously """ thick_lv = 'dupe_name' device_names = TestLvm._get_pv_device_names() TestLvm._create_thick_lv(device_names[0:2], thick_lv) lv, vg = TestLvm._get_lv(None, thick_lv) self.assertTrue(vg is not None) if vg: lvs = vg.listLVs() if len(lvs): lv = lvs[0] lv_name = lv.getName() self.assertRaises( lvm.LibLVMError, vg.createLvLinear, lv_name, lv.getSize()) vg.close() def test_vg_uuids(self): device_names = TestLvm._get_pv_device_names() TestLvm._create_thin_lv(device_names[0:2], 'thin') TestLvm._create_thick_lv(device_names[2:4], 'thick') vgs_uuids = lvm.listVgUuids() self.assertTrue(len(vgs_uuids) > 0) self.assertTrue(isinstance(vgs_uuids, tuple)) vgs_uuids = list(vgs_uuids) vgs_names = lvm.listVgNames() for vg_name in vgs_names: vg = lvm.vgOpen(vg_name, "r") #TODO Write/fix BUG, vg uuid don't match between #lvm.listVgUuids and vg.getUuid() vg_uuid_search = vg.getUuid().replace('-', '') self.assertTrue(vg_uuid_search in vgs_uuids) vgs_uuids.remove(vg_uuid_search) vg.close() self.assertTrue(len(vgs_uuids) == 0) def test_pv_lookup_from_vg(self): device_names = TestLvm._get_pv_device_names() TestLvm._create_thin_lv(device_names[0:2], 'thin') TestLvm._create_thick_lv(device_names[2:4], 'thick') vg_names = TestLvm._vg_names() self.assertTrue(len(vg_names) > 0) for vg_name in vg_names: vg = lvm.vgOpen(vg_name, 'w') pvs = vg.listPVs() for p in pvs: name = p.getName() uuid = p.getUuid() pv_name_lookup = vg.pvFromName(name) pv_uuid_lookup = vg.pvFromUuid(uuid) self.assertTrue( pv_name_lookup.getName() == pv_uuid_lookup.getName()) self.assertTrue( pv_name_lookup.getUuid() == pv_uuid_lookup.getUuid()) self.assertTrue(name == pv_name_lookup.getName()) self.assertTrue(uuid == pv_uuid_lookup.getUuid()) pv_name_lookup = None pv_uuid_lookup = None p = None pvs = None vg.close() def test_percent_to_float(self): self.assertEqual(lvm.percentToFloat(0), 0.0) self.assertEqual(lvm.percentToFloat(1000000), 1.0) self.assertEqual(lvm.percentToFloat(1000000 / 2), 0.5) def test_scan(self): self.assertEqual(lvm.scan(), None) def test_config_reload(self): self.assertEqual(lvm.configReload(), None) def test_config_override(self): self.assertEquals(lvm.configOverride("global.test = 1"), None) def test_config_find_bool(self): either_or = lvm.configFindBool("global/fallback_to_local_locking") self.assertTrue(type(either_or) == bool) self.assertTrue(lvm.configFindBool("global/locking_type")) def test_vg_from_pv_lookups(self): device_names = TestLvm._get_pv_device_names() TestLvm._create_thin_lv(device_names[0:2], 'thin') TestLvm._create_thick_lv(device_names[2:4], 'thick') vgname_list = TestLvm._vg_names() self.assertTrue(len(vgname_list) > 0) for vg_name in vgname_list: vg = lvm.vgOpen(vg_name, 'r') vg_name = vg.getName() pv_list = vg.listPVs() for pv in pv_list: vg_name_from_pv = lvm.vgNameFromPvid(pv.getUuid()) self.assertEquals(vg_name, vg_name_from_pv) self.assertEqual(vg_name, lvm.vgNameFromDevice(pv.getName())) vg.close() def test_vg_get_name(self): device_names = TestLvm._get_pv_device_names() TestLvm._create_thin_lv(device_names[0:2], 'thin') TestLvm._create_thick_lv(device_names[2:4], 'thick') vgname_list = TestLvm._vg_names() self.assertTrue(len(vgname_list) > 0) for vg_name in vgname_list: vg = lvm.vgOpen(vg_name, 'r') self.assertEqual(vg.getName(), vg_name) vg.close() def test_vg_get_uuid(self): device_names = TestLvm._get_pv_device_names() TestLvm._create_thin_lv(device_names[0:2], 'thin') TestLvm._create_thick_lv(device_names[2:4], 'thick') vgname_list = TestLvm._vg_names() self.assertTrue(len(vgname_list) > 0) for vg_name in vgname_list: vg = lvm.vgOpen(vg_name, 'r') uuid = vg.getUuid() self.assertNotEqual(uuid, None) self.assertTrue(len(uuid) > 0) vg.close() RETURN_NUMERIC = [ "getSeqno", "getSize", "getFreeSize", "getFreeSize", "getExtentSize", "getExtentCount", "getFreeExtentCount", "getPvCount", "getMaxPv", "getMaxLv"] def test_vg_getters(self): device_names = TestLvm._get_pv_device_names() TestLvm._create_thin_lv(device_names[0:2], 'thin') TestLvm._create_thick_lv(device_names[2:4], 'thick') vg_name_list = TestLvm._vg_names() self.assertTrue(len(vg_name_list) > 0) for vg_name in vg_name_list: vg = lvm.vgOpen(vg_name, 'r') self.assertTrue(type(vg.isClustered()) == bool) self.assertTrue(type(vg.isExported()) == bool) self.assertTrue(type(vg.isPartial()) == bool) #Loop through the list invoking the method for method_name in TestLvm.RETURN_NUMERIC: method = getattr(vg, method_name) result = method() self.assertTrue(type(result) == int or type(result) == long) vg.close() def _test_tags(self, tag_obj): existing_tags = tag_obj.getTags() self.assertTrue(type(existing_tags) == tuple) num_tags = random.randint(2, 40) created_tags = [] for i in range(num_tags): tag_name = rs(random.randint(1, 128)) tag_obj.addTag(tag_name) created_tags.append(tag_name) tags = tag_obj.getTags() self.assertTrue(len(existing_tags) + len(created_tags) == len(tags)) num_remove = len(created_tags) for i in range(num_remove): tag_to_remove = created_tags[ random.randint(0, len(created_tags) - 1)] created_tags.remove(tag_to_remove) tag_obj.removeTag(tag_to_remove) current_tags = tag_obj.getTags() self.assertFalse(tag_to_remove in current_tags) current_tags = tag_obj.getTags() self.assertTrue(len(current_tags) == len(existing_tags)) for e in existing_tags: self.assertTrue(e in current_tags) def test_vg_tags(self): device_names = TestLvm._get_pv_device_names() i = 0 for d in device_names: if i % 2 == 0: TestLvm._create_thin_lv([d], "thin_lv%d" % i) else: TestLvm._create_thick_lv([d], "thick_lv%d" % i) i += 1 for vg_name in TestLvm._vg_names(): vg = lvm.vgOpen(vg_name, 'w') self._test_tags(vg) vg.close() @staticmethod def test_listing(): env = os.environ for k, v in env.items(): l("%s:%s" % (k, v)) with lvm.listPvs() as pvs: for p in pvs: l('pv= %s' % p.getName()) l('Checking for VG') for v in lvm.listVgNames(): l('vg= %s' % v) def test_pv_empty_listing(self): #We had a bug where we would seg. fault if we had no PVs. l('testPVemptylisting entry') device_names = TestLvm._get_pv_device_names() for d in device_names: l("Removing %s" % d) lvm.pvRemove(d) count = 0 with lvm.listPvs() as pvs: for p in pvs: count += 1 l('pv= %s' % p.getName()) self.assertTrue(count == 0) for d in device_names: lvm.pvCreate(d) def test_pv_create(self): size = [0, 1024 * 1024 * 4] pvmeta_copies = [0, 1, 2] pvmeta_size = [0, 255, 512, 1024] data_alignment = [0, 2048, 4096] data_alignment_offset = [1, 1, 1] zero = [0, 1] device_names = TestLvm._get_pv_device_names() for d in device_names: lvm.pvRemove(d) d = device_names[0] #Test some error cases self.assertRaises(TypeError, lvm.pvCreate, None) self.assertRaises(lvm.LibLVMError, lvm.pvCreate, '') self.assertRaises(lvm.LibLVMError, lvm.pvCreate, d, 4) self.assertRaises(lvm.LibLVMError, lvm.pvCreate, d, 0, 4) self.assertRaises(lvm.LibLVMError, lvm.pvCreate, d, 0, 0, 0, 2 ** 34) self.assertRaises( lvm.LibLVMError, lvm.pvCreate, d, 0, 0, 0, 4096, 2 ** 34) #Try a number of combinations and permutations for s in size: lvm.pvCreate(d, s) lvm.pvRemove(d) for copies in pvmeta_copies: lvm.pvCreate(d, s, copies) lvm.pvRemove(d) for pv_size in pvmeta_size: lvm.pvCreate(d, s, copies, pv_size) lvm.pvRemove(d) for align in data_alignment: lvm.pvCreate(d, s, copies, pv_size, align) lvm.pvRemove(d) for align_offset in data_alignment_offset: lvm.pvCreate( d, s, copies, pv_size, align, align * align_offset) lvm.pvRemove(d) for z in zero: lvm.pvCreate( d, s, copies, pv_size, align, align * align_offset, z) lvm.pvRemove(d) #Restore for d in device_names: lvm.pvCreate(d) def test_vg_reduce(self): # Test the case where we try to reduce a vg where the last PV has # no metadata copies. In this case the reduce should fail. vg_name = TestLvm.VG_P + 'reduce_test' device_names = TestLvm._get_pv_device_names() for d in device_names: lvm.pvRemove(d) lvm.pvCreate(device_names[0], 0, 0) # Size all, pvmetadatacopies 0 lvm.pvCreate(device_names[1]) lvm.pvCreate(device_names[2]) lvm.pvCreate(device_names[3]) vg = lvm.vgCreate(vg_name) vg.extend(device_names[3]) vg.extend(device_names[2]) vg.extend(device_names[1]) vg.extend(device_names[0]) vg.close() vg = None vg = lvm.vgOpen(vg_name, 'w') vg.reduce(device_names[3]) vg.reduce(device_names[2]) self.assertRaises(lvm.LibLVMError, vg.reduce, device_names[1]) vg.close() vg = None vg = lvm.vgOpen(vg_name, 'w') vg.remove() vg.close() @staticmethod def _test_valid_names(method): sample = 'azAZ09._-+' method('x' * 127) method('.X') method('..X') for i in range(1, 7): tests = (''.join(i) for i in itertools.product(sample, repeat=i)) for t in tests: if t == '.' or t == '..': t += 'X' elif t.startswith('-'): t = 'H' + t method(t) def _test_bad_names(self, method, dupe_name): # Test for duplicate name self.assertRaises(lvm.LibLVMError, method, dupe_name) # Test for too long a name self.assertRaises(lvm.LibLVMError, method, ('x' * 128)) # Test empty self.assertRaises(lvm.LibLVMError, method, '') # Invalid characters self.assertRaises(lvm.LibLVMError, method, '&invalid^char') # Cannot start with .. and no following characters self.assertRaises(lvm.LibLVMError, method, '..') # Cannot start with . and no following characters self.assertRaises(lvm.LibLVMError, method, '.') # Cannot start with a hyphen self.assertRaises(lvm.LibLVMError, method, '-not_good') def _lv_reserved_names(self, method): prefixes = ['snapshot', 'pvmove'] reserved = [ '_mlog', '_mimage', '_pmspare', '_rimage', '_rmeta', '_vorigin', '_tdata', '_tmeta'] for p in prefixes: self.assertRaises(lvm.LibLVMError, method, p + rs(3)) for r in reserved: self.assertRaises(lvm.LibLVMError, method, rs(3) + r + rs(1)) self.assertRaises(lvm.LibLVMError, method, r + rs(1)) def test_vg_lv_name_validate(self): lv_name = 'vg_lv_name_validate' TestLvm._create_thin_lv(TestLvm._get_pv_device_names(), lv_name) lv, vg = TestLvm._get_lv(None, lv_name) self._test_bad_names(lvm.vgNameValidate, vg.getName()) self._test_bad_names(vg.lvNameValidate, lv.getName()) # Test good values TestLvm._test_valid_names(lvm.vgNameValidate) TestLvm._test_valid_names(vg.lvNameValidate) self._lv_reserved_names(vg.lvNameValidate) vg.close() if __name__ == "__main__": unittest.main()