def test_create_domain_metadata(tmp_storage, tmp_repo, fake_sanlock,
domain_version):
sd_uuid = str(uuid.uuid4())
domain_name = "loop-domain"
dev1 = tmp_storage.create_device(10 * 1024**3)
dev2 = tmp_storage.create_device(10 * 1024**3)
lvm.createVG(sd_uuid, [dev1, dev2], blockSD.STORAGE_UNREADY_DOMAIN_TAG,
128)
vg = lvm.getVG(sd_uuid)
pv1 = lvm.getPV(dev1)
pv2 = lvm.getPV(dev2)
dom = blockSD.BlockStorageDomain.create(sdUUID=sd_uuid,
domainName=domain_name,
domClass=sd.DATA_DOMAIN,
vgUUID=vg.uuid,
version=domain_version,
storageType=sd.ISCSI_DOMAIN,
block_size=sc.BLOCK_SIZE_512,
alignment=sc.ALIGNMENT_1M)
sdCache.knownSDs[sd_uuid] = blockSD.findDomain
sdCache.manuallyAddDomain(dom)
lease = sd.DEFAULT_LEASE_PARAMS
expected = {
# Common storage domain values.
sd.DMDK_CLASS: sd.DATA_DOMAIN,
sd.DMDK_DESCRIPTION: domain_name,
sd.DMDK_IO_OP_TIMEOUT_SEC: lease[sd.DMDK_IO_OP_TIMEOUT_SEC],
sd.DMDK_LEASE_RETRIES: lease[sd.DMDK_LEASE_RETRIES],
sd.DMDK_LEASE_TIME_SEC: lease[sd.DMDK_LEASE_TIME_SEC],
sd.DMDK_LOCK_POLICY: "",
sd.DMDK_LOCK_RENEWAL_INTERVAL_SEC:
lease[sd.DMDK_LOCK_RENEWAL_INTERVAL_SEC],
sd.DMDK_POOLS: [],
sd.DMDK_ROLE: sd.REGULAR_DOMAIN,
sd.DMDK_SDUUID: sd_uuid,
sd.DMDK_TYPE: sd.ISCSI_DOMAIN,
sd.DMDK_VERSION: domain_version,
# Block storge domain extra values.
blockSD.DMDK_VGUUID: vg.uuid,
# PV keys for blockSD.DMDK_PV_REGEX.
"PV0": {
'guid': os.path.basename(dev1),
'mapoffset': '0',
'pecount': '77',
'pestart': '0',
'uuid': pv1.uuid,
},
"PV1": {
'guid': os.path.basename(dev2),
'mapoffset': '77',
'pecount': '77',
'pestart': '0',
'uuid': pv2.uuid,
},
}
# In version 5 we removed LOGBLKSIZE and PHYBLKSIZE and added
# ALIGNMENT and BLOCK_SIZE.
if domain_version < 5:
expected[sd.DMDK_LOGBLKSIZE] = sc.BLOCK_SIZE_512
expected[sd.DMDK_PHYBLKSIZE] = sc.BLOCK_SIZE_512
else:
expected[sd.DMDK_ALIGNMENT] = sc.ALIGNMENT_1M
expected[sd.DMDK_BLOCK_SIZE] = sc.BLOCK_SIZE_512
# Tests also alignment and block size properties here.
assert dom.alignment == sc.ALIGNMENT_1M
assert dom.block_size == sc.BLOCK_SIZE_512
actual = dom.getMetadata()
assert expected == actual
# Check that first PV is device where metadata is stored.
assert dev1 == lvm.getVgMetadataPv(dom.sdUUID)
lv = lvm.getLV(dom.sdUUID, sd.METADATA)
assert int(lv.size) == blockSD.METADATA_LV_SIZE_MB * constants.MEGAB
def test_create_domain_metadata(tmp_storage, tmp_repo, fake_sanlock,
domain_version):
sd_uuid = str(uuid.uuid4())
domain_name = "loop-domain"
dev1 = tmp_storage.create_device(10 * GiB)
dev2 = tmp_storage.create_device(10 * GiB)
lvm.createVG(sd_uuid, [dev1, dev2], blockSD.STORAGE_UNREADY_DOMAIN_TAG,
128)
vg = lvm.getVG(sd_uuid)
pv1 = lvm.getPV(dev1)
pv2 = lvm.getPV(dev2)
dom = blockSD.BlockStorageDomain.create(
sdUUID=sd_uuid,
domainName=domain_name,
domClass=sd.DATA_DOMAIN,
vgUUID=vg.uuid,
version=domain_version,
storageType=sd.ISCSI_DOMAIN)
sdCache.knownSDs[sd_uuid] = blockSD.findDomain
sdCache.manuallyAddDomain(dom)
lease = sd.DEFAULT_LEASE_PARAMS
expected = {
# Common storage domain values.
sd.DMDK_CLASS: sd.DATA_DOMAIN,
sd.DMDK_DESCRIPTION: domain_name,
sd.DMDK_IO_OP_TIMEOUT_SEC: lease[sd.DMDK_IO_OP_TIMEOUT_SEC],
sd.DMDK_LEASE_RETRIES: lease[sd.DMDK_LEASE_RETRIES],
sd.DMDK_LEASE_TIME_SEC: lease[sd.DMDK_LEASE_TIME_SEC],
sd.DMDK_LOCK_POLICY: "",
sd.DMDK_LOCK_RENEWAL_INTERVAL_SEC:
lease[sd.DMDK_LOCK_RENEWAL_INTERVAL_SEC],
sd.DMDK_POOLS: [],
sd.DMDK_ROLE: sd.REGULAR_DOMAIN,
sd.DMDK_SDUUID: sd_uuid,
sd.DMDK_TYPE: sd.ISCSI_DOMAIN,
sd.DMDK_VERSION: domain_version,
# Block storge domain extra values.
blockSD.DMDK_VGUUID: vg.uuid,
# PV keys for blockSD.DMDK_PV_REGEX.
"PV0": {
'guid': os.path.basename(dev1),
'mapoffset': '0',
'pecount': '77',
'pestart': '0',
'uuid': pv1.uuid,
},
"PV1": {
'guid': os.path.basename(dev2),
'mapoffset': '77',
'pecount': '77',
'pestart': '0',
'uuid': pv2.uuid,
},
}
# In version 5 we removed LOGBLKSIZE and PHYBLKSIZE and added
# ALIGNMENT and BLOCK_SIZE.
if domain_version < 5:
expected[sd.DMDK_LOGBLKSIZE] = sc.BLOCK_SIZE_512
expected[sd.DMDK_PHYBLKSIZE] = sc.BLOCK_SIZE_512
else:
expected[sd.DMDK_ALIGNMENT] = sc.ALIGNMENT_1M
expected[sd.DMDK_BLOCK_SIZE] = sc.BLOCK_SIZE_512
# Tests also alignment and block size properties here.
assert dom.alignment == sc.ALIGNMENT_1M
assert dom.block_size == sc.BLOCK_SIZE_512
actual = dom.getMetadata()
assert expected == actual
# Check that first PV is device where metadata is stored.
assert dev1 == lvm.getVgMetadataPv(dom.sdUUID)
lv = lvm.getLV(dom.sdUUID, sd.METADATA)
assert int(lv.size) == blockSD.METADATA_LV_SIZE_MB * MiB
# Test the domain lease.
lease = dom.getClusterLease()
assert lease.name == "SDM"
assert lease.path == "/dev/{}/leases".format(dom.sdUUID)
assert lease.offset == dom.alignment
resource = fake_sanlock.read_resource(
lease.path,
lease.offset,
align=dom.alignment,
sector=dom.block_size)
assert resource == {
"acquired": False,
"align": dom.alignment,
"lockspace": dom.sdUUID.encode("utf-8"),
"resource": lease.name.encode("utf-8"),
"sector": dom.block_size,
"version": 0,
}
# Test special volumes sizes.
for name in (sd.IDS, sd.INBOX, sd.OUTBOX, sd.METADATA):
lv = lvm.getLV(dom.sdUUID, name)
# This is the minimal LV size on block storage.
assert int(lv.size) == 128 * MiB
lv = lvm.getLV(dom.sdUUID, blockSD.MASTERLV)
assert int(lv.size) == GiB
lv = lvm.getLV(dom.sdUUID, sd.LEASES)
assert int(lv.size) == sd.LEASES_SLOTS * dom.alignment
if domain_version > 3:
lv = lvm.getLV(dom.sdUUID, sd.XLEASES)
assert int(lv.size) == sd.XLEASES_SLOTS * dom.alignment
def test_create_domain_metadata(tmp_storage, tmp_repo, domain_version):
sd_uuid = str(uuid.uuid4())
domain_name = "loop-domain"
dev1 = tmp_storage.create_device(10 * 1024**3)
dev2 = tmp_storage.create_device(10 * 1024**3)
lvm.createVG(sd_uuid, [dev1, dev2], blockSD.STORAGE_UNREADY_DOMAIN_TAG,
128)
vg = lvm.getVG(sd_uuid)
pv1 = lvm.getPV(dev1)
pv2 = lvm.getPV(dev2)
dom = blockSD.BlockStorageDomain.create(sdUUID=sd_uuid,
domainName=domain_name,
domClass=sd.DATA_DOMAIN,
vgUUID=vg.uuid,
version=domain_version,
storageType=sd.ISCSI_DOMAIN,
block_size=sc.BLOCK_SIZE_512,
alignment=sc.ALIGNMENT_1M)
lease = sd.DEFAULT_LEASE_PARAMS
assert dom.getMetadata() == {
# Common storge domain values.
sd.DMDK_CLASS: sd.DATA_DOMAIN,
sd.DMDK_DESCRIPTION: domain_name,
sd.DMDK_IO_OP_TIMEOUT_SEC: lease[sd.DMDK_IO_OP_TIMEOUT_SEC],
sd.DMDK_LEASE_RETRIES: lease[sd.DMDK_LEASE_RETRIES],
sd.DMDK_LEASE_TIME_SEC: lease[sd.DMDK_LEASE_TIME_SEC],
sd.DMDK_LOCK_POLICY: "",
sd.DMDK_LOCK_RENEWAL_INTERVAL_SEC:
lease[sd.DMDK_LOCK_RENEWAL_INTERVAL_SEC],
sd.DMDK_POOLS: [],
sd.DMDK_ROLE: sd.REGULAR_DOMAIN,
sd.DMDK_SDUUID: sd_uuid,
sd.DMDK_TYPE: sd.ISCSI_DOMAIN,
sd.DMDK_VERSION: domain_version,
# Block storge domain extra values.
blockSD.DMDK_VGUUID: vg.uuid,
blockSD.DMDK_LOGBLKSIZE: sc.BLOCK_SIZE_512,
blockSD.DMDK_PHYBLKSIZE: sc.BLOCK_SIZE_512,
# PV keys for blockSD.DMDK_PV_REGEX.
"PV0": {
'guid': os.path.basename(dev1),
'mapoffset': '0',
'pecount': '77',
'pestart': '0',
'uuid': pv1.uuid,
},
"PV1": {
'guid': os.path.basename(dev2),
'mapoffset': '77',
'pecount': '77',
'pestart': '0',
'uuid': pv2.uuid,
},
}
# Check that first PV is device where metadata is stored.
assert dev1 == lvm.getVgMetadataPv(dom.sdUUID)
lv = lvm.getLV(dom.sdUUID, sd.METADATA)
assert int(lv.size) == blockSD.METADATA_LV_SIZE_MB * constants.MEGAB
def test_create_domain_metadata(tmp_storage, tmp_repo, fake_sanlock,
domain_version):
sd_uuid = str(uuid.uuid4())
domain_name = "loop-domain"
dev1 = tmp_storage.create_device(10 * 1024**3)
dev2 = tmp_storage.create_device(10 * 1024**3)
lvm.createVG(sd_uuid, [dev1, dev2], blockSD.STORAGE_UNREADY_DOMAIN_TAG,
128)
vg = lvm.getVG(sd_uuid)
pv1 = lvm.getPV(dev1)
pv2 = lvm.getPV(dev2)
dom = blockSD.BlockStorageDomain.create(
sdUUID=sd_uuid,
domainName=domain_name,
domClass=sd.DATA_DOMAIN,
vgUUID=vg.uuid,
version=domain_version,
storageType=sd.ISCSI_DOMAIN,
block_size=sc.BLOCK_SIZE_512,
alignment=sc.ALIGNMENT_1M)
sdCache.knownSDs[sd_uuid] = blockSD.findDomain
sdCache.manuallyAddDomain(dom)
lease = sd.DEFAULT_LEASE_PARAMS
expected = {
# Common storage domain values.
sd.DMDK_CLASS: sd.DATA_DOMAIN,
sd.DMDK_DESCRIPTION: domain_name,
sd.DMDK_IO_OP_TIMEOUT_SEC: lease[sd.DMDK_IO_OP_TIMEOUT_SEC],
sd.DMDK_LEASE_RETRIES: lease[sd.DMDK_LEASE_RETRIES],
sd.DMDK_LEASE_TIME_SEC: lease[sd.DMDK_LEASE_TIME_SEC],
sd.DMDK_LOCK_POLICY: "",
sd.DMDK_LOCK_RENEWAL_INTERVAL_SEC:
lease[sd.DMDK_LOCK_RENEWAL_INTERVAL_SEC],
sd.DMDK_POOLS: [],
sd.DMDK_ROLE: sd.REGULAR_DOMAIN,
sd.DMDK_SDUUID: sd_uuid,
sd.DMDK_TYPE: sd.ISCSI_DOMAIN,
sd.DMDK_VERSION: domain_version,
# Block storge domain extra values.
blockSD.DMDK_VGUUID: vg.uuid,
# PV keys for blockSD.DMDK_PV_REGEX.
"PV0": {
'guid': os.path.basename(dev1),
'mapoffset': '0',
'pecount': '77',
'pestart': '0',
'uuid': pv1.uuid,
},
"PV1": {
'guid': os.path.basename(dev2),
'mapoffset': '77',
'pecount': '77',
'pestart': '0',
'uuid': pv2.uuid,
},
}
# In version 5 we removed LOGBLKSIZE and PHYBLKSIZE and added
# ALIGNMENT and BLOCK_SIZE.
if domain_version < 5:
expected[sd.DMDK_LOGBLKSIZE] = sc.BLOCK_SIZE_512
expected[sd.DMDK_PHYBLKSIZE] = sc.BLOCK_SIZE_512
else:
expected[sd.DMDK_ALIGNMENT] = sc.ALIGNMENT_1M
expected[sd.DMDK_BLOCK_SIZE] = sc.BLOCK_SIZE_512
actual = dom.getMetadata()
assert expected == actual
# Check that first PV is device where metadata is stored.
assert dev1 == lvm.getVgMetadataPv(dom.sdUUID)
lv = lvm.getLV(dom.sdUUID, sd.METADATA)
assert int(lv.size) == blockSD.METADATA_LV_SIZE_MB * constants.MEGAB
