def setUpClass(cls):
super().setUpClass()
bridge = settings.vlan_networking.bridge
# RHV Settings
cls.rhev_url = settings.rhev.hostname
cls.rhev_password = settings.rhev.password
cls.rhev_username = settings.rhev.username
cls.rhev_datacenter = settings.rhev.datacenter
cls.rhev_img_name = settings.rhev.image_name
cls.rhev_img_arch = settings.rhev.image_arch
cls.rhev_img_os = settings.rhev.image_os
cls.rhev_img_user = settings.rhev.image_username
cls.rhev_img_pass = settings.rhev.image_password
cls.rhev_vm_name = settings.rhev.vm_name
cls.rhev_storage_domain = settings.rhev.storage_domain
cls.rhv_api = RHEVMSystem(
hostname=cls.rhev_url.split('/')[2],
username=cls.rhev_username,
password=cls.rhev_password,
version='4.0',
verify=False,
)
cls.cluster_id = cls.rhv_api.get_cluster(cls.rhev_datacenter).id
cls.storage_id = cls.rhv_api.get_storage_domain(cls.rhev_storage_domain).id
cls.network_id = (
cls.rhv_api.api.system_service().networks_service().list(search=f'name={bridge}')[0].id
)
if is_open('BZ:1685949'):
dc = cls.rhv_api._data_centers_service.list(search=f'name={cls.rhev_datacenter}')[0]
dc = cls.rhv_api._data_centers_service.data_center_service(dc.id)
cls.quota = dc.quotas_service().list()[0].id
else:
cls.quota = 'Default'
# Vmware Settings
cls.vmware_server = settings.vmware.vcenter
cls.vmware_password = settings.vmware.password
cls.vmware_username = settings.vmware.username
cls.vmware_datacenter = settings.vmware.datacenter
cls.vmware_img_name = settings.vmware.image_name
cls.vmware_img_arch = settings.vmware.image_arch
cls.vmware_img_os = settings.vmware.image_os
cls.vmware_img_user = settings.vmware.image_username
cls.vmware_img_pass = settings.vmware.image_password
cls.vmware_vm_name = settings.vmware.vm_name
cls.current_interface = VMWARE_CONSTANTS.get('network_interfaces') % bridge
cls.vmware_api = VMWareSystem(
hostname=cls.vmware_server, username=cls.vmware_username, password=cls.vmware_password
)
cls.vmware_net_id = cls.vmware_api.get_network(cls.current_interface)._moId
# Provisioning setup
cls.org = entities.Organization(name=gen_string('alpha')).create()
cls.org_name = cls.org.name
cls.loc = entities.Location(name=gen_string('alpha'), organization=[cls.org]).create()
cls.loc_name = cls.loc.name
cls.config_env = configure_provisioning(
compute=True, org=cls.org, loc=cls.loc, os=cls.rhev_img_os
)
cls.os_name = cls.config_env['os']
def setUpClass(cls):
super(ComputeResourceHostTestCase, cls).setUpClass()
bridge = settings.vlan_networking.bridge
# RHV Settings
cls.rhev_url = settings.rhev.hostname
cls.rhev_password = settings.rhev.password
cls.rhev_username = settings.rhev.username
cls.rhev_datacenter = settings.rhev.datacenter
cls.rhev_img_name = settings.rhev.image_name
cls.rhev_img_arch = settings.rhev.image_arch
cls.rhev_img_os = settings.rhev.image_os
cls.rhev_img_user = settings.rhev.image_username
cls.rhev_img_pass = settings.rhev.image_password
cls.rhev_vm_name = settings.rhev.vm_name
cls.rhev_storage_domain = settings.rhev.storage_domain
cls.rhv_api = RHEVMSystem(hostname=cls.rhev_url.split('/')[2],
username=cls.rhev_username,
password=cls.rhev_password,
version='4.0',
verify=False)
cls.cluster_id = cls.rhv_api.get_cluster(cls.rhev_datacenter).id
cls.storage_id = cls.rhv_api._get_storage_domain(
cls.rhev_storage_domain).id
cls.network_id = (
cls.rhv_api.api.system_service().networks_service().list(
search='name={0}'.format(bridge))[0].id)
# Vmware Settings
cls.vmware_server = settings.vmware.vcenter
cls.vmware_password = settings.vmware.password
cls.vmware_username = settings.vmware.username
cls.vmware_datacenter = settings.vmware.datacenter
cls.vmware_img_name = settings.vmware.image_name
cls.vmware_img_arch = settings.vmware.image_arch
cls.vmware_img_os = settings.vmware.image_os
cls.vmware_img_user = settings.vmware.image_username
cls.vmware_img_pass = settings.vmware.image_password
cls.vmware_vm_name = settings.vmware.vm_name
cls.current_interface = (VMWARE_CONSTANTS.get('network_interfaces') %
bridge)
cls.vmware_api = VMWareSystem(hostname=cls.vmware_server,
username=cls.vmware_username,
password=cls.vmware_password)
cls.vmware_net_id = cls.vmware_api.get_obj(
vimtype=vim.Network, name=cls.current_interface)._moId
# Provisioning setup
cls.org = entities.Organization(name=gen_string('alpha')).create()
cls.org_name = cls.org.name
cls.loc = entities.Location(
name=gen_string('alpha'),
organization=[cls.org],
).create()
cls.loc_name = cls.loc.name
cls.config_env = configure_provisioning(compute=True,
org=cls.org,
loc=cls.loc,
os=cls.rhev_img_os)
cls.os_name = cls.config_env['os']
def setUpClass(cls):
super(VmwareComputeResourceTestCase, cls).setUpClass()
cls.vmware_url = settings.vmware.vcenter
cls.vmware_password = settings.vmware.password
cls.vmware_username = settings.vmware.username
cls.vmware_datacenter = settings.vmware.datacenter
cls.vmware_img_name = settings.vmware.image_name
cls.vmware_img_arch = settings.vmware.image_arch
cls.vmware_img_os = settings.vmware.image_os
cls.vmware_img_user = settings.vmware.image_username
cls.vmware_img_pass = settings.vmware.image_password
cls.vmware_vm_name = settings.vmware.vm_name
cls.current_interface = (VMWARE_CONSTANTS.get('network_interfaces') %
settings.vlan_networking.bridge)
def setUpClass(cls):
super(VmwareComputeResourceTestCase, cls).setUpClass()
cls.vmware_url = settings.vmware.vcenter
cls.vmware_password = settings.vmware.password
cls.vmware_username = settings.vmware.username
cls.vmware_datacenter = settings.vmware.datacenter
cls.vmware_img_name = settings.vmware.image_name
cls.vmware_img_arch = settings.vmware.image_arch
cls.vmware_img_os = settings.vmware.image_os
cls.vmware_img_user = settings.vmware.image_username
cls.vmware_img_pass = settings.vmware.image_password
cls.vmware_vm_name = settings.vmware.vm_name
cls.current_interface = (
VMWARE_CONSTANTS.get(
'network_interfaces') % settings.vlan_networking.bridge
)
def setUpClass(cls):
super().setUpClass()
cls.org = make_org()
cls.loc = make_location()
Org.add_location({'id': cls.org['id'], 'location-id': cls.loc['id']})
cls.vmware_server = settings.vmware.vcenter
cls.vmware_password = settings.vmware.password
cls.vmware_username = settings.vmware.username
cls.vmware_datacenter = settings.vmware.datacenter
cls.vmware_img_name = settings.vmware.image_name
cls.vmware_img_arch = settings.vmware.image_arch
cls.vmware_img_os = settings.vmware.image_os
cls.vmware_img_user = settings.vmware.image_username
cls.vmware_img_pass = settings.vmware.image_password
cls.vmware_vm_name = settings.vmware.vm_name
cls.current_interface = (VMWARE_CONSTANTS.get('network_interfaces') %
settings.vlan_networking.bridge)
def vmware(module_org, module_location):
vmware = type('vmware', (object, ), {})()
vmware.org = module_org
vmware.loc = module_location
Org.add_location({'id': vmware.org.id, 'location-id': vmware.loc.id})
vmware.vmware_server = settings.vmware.vcenter
vmware.vmware_password = settings.vmware.password
vmware.vmware_username = settings.vmware.username
vmware.vmware_datacenter = settings.vmware.datacenter
vmware.vmware_img_name = settings.vmware.image_name
vmware.vmware_img_arch = settings.vmware.image_arch
vmware.vmware_img_os = settings.vmware.image_os
vmware.vmware_img_user = settings.vmware.image_username
vmware.vmware_img_pass = settings.vmware.image_password
vmware.vmware_vm_name = settings.vmware.vm_name
vmware.current_interface = (VMWARE_CONSTANTS.get('network_interfaces') %
settings.vlan_networking.bridge)
return vmware
def setUpClass(cls):
super(VMWareComputeResourceTestCase, cls).setUpClass()
cls.org = make_org()
cls.loc = make_location()
Org.add_location({'id': cls.org['id'], 'location-id': cls.loc['id']})
cls.vmware_server = settings.vmware.vcenter
cls.vmware_password = settings.vmware.password
cls.vmware_username = settings.vmware.username
cls.vmware_datacenter = settings.vmware.datacenter
cls.vmware_img_name = settings.vmware.image_name
cls.vmware_img_arch = settings.vmware.image_arch
cls.vmware_img_os = settings.vmware.image_os
cls.vmware_img_user = settings.vmware.image_username
cls.vmware_img_pass = settings.vmware.image_password
cls.vmware_vm_name = settings.vmware.vm_name
cls.current_interface = (
VMWARE_CONSTANTS.get(
'network_interfaces') % settings.vlan_networking.bridge
)
def vmware(bridge):
vmware = {}
vmware['vmware_server'] = settings.vmware.vcenter
vmware['vmware_password'] = settings.vmware.password
vmware['vmware_username'] = settings.vmware.username
vmware['vmware_datacenter'] = settings.vmware.datacenter
vmware['vmware_img_name'] = settings.vmware.image_name
vmware['vmware_img_arch'] = settings.vmware.image_arch
vmware['vmware_img_os'] = settings.vmware.image_os
vmware['vmware_img_user'] = settings.vmware.image_username
vmware['vmware_img_pass'] = settings.vmware.image_password
vmware['vmware_vm_name'] = settings.vmware.vm_name
vmware['current_interface'] = VMWARE_CONSTANTS.get('network_interfaces') % bridge
vmware['vmware_api'] = VMWareSystem(
hostname=vmware['vmware_server'],
username=vmware['vmware_username'],
password=vmware['vmware_password'],
)
vmware['vmware_net_id'] = vmware['vmware_api'].get_network(vmware['current_interface'])._moId
return vmware
def vmware():
bridge = settings.vlan_networking.bridge
vmware = type("", (), {})()
vmware.vmware_server = settings.vmware.vcenter
vmware.vmware_password = settings.vmware.password
vmware.vmware_username = settings.vmware.username
vmware.vmware_datacenter = settings.vmware.datacenter
vmware.vmware_img_name = settings.vmware.image_name
vmware.vmware_img_arch = settings.vmware.image_arch
vmware.vmware_img_os = settings.vmware.image_os
vmware.vmware_img_user = settings.vmware.image_username
vmware.vmware_img_pass = settings.vmware.image_password
vmware.vmware_vm_name = settings.vmware.vm_name
vmware.current_interface = VMWARE_CONSTANTS.get('network_interfaces') % bridge
vmware.vmware_api = VMWareSystem(
hostname=vmware.vmware_server,
username=vmware.vmware_username,
password=vmware.vmware_password,
)
vmware.vmware_net_id = vmware.vmware_api.get_network(vmware.current_interface)._moId
return vmware
def test_positive_access_vmware_with_custom_profile(session,
module_vmware_settings):
"""Associate custom default (3-Large) compute profile
:id: 751ef765-5091-4322-a0d9-0c9c73009cc4
:setup: vmware hostname and credentials.
:steps:
1. Create a compute resource of type vmware.
2. Provide valid hostname, username and password.
3. Select the created vmware CR.
4. Click Compute Profile tab.
5. Edit (3-Large) with valid configurations and submit.
:expectedresults: The Compute Resource created and associated to compute profile (3-Large)
with provided values.
:CaseLevel: Integration
"""
cr_name = gen_string('alpha')
data_store_summary_string = _get_vmware_datastore_summary_string()
cr_profile_data = dict(
cpus='2',
cores_per_socket='2',
memory='1024',
firmware='EFI',
cluster=VMWARE_CONSTANTS.get('cluster'),
resource_pool=VMWARE_CONSTANTS.get('pool'),
folder=VMWARE_CONSTANTS.get('folder'),
guest_os=VMWARE_CONSTANTS.get('guest_os'),
virtual_hw_version=VMWARE_CONSTANTS.get('virtualhw_version'),
memory_hot_add=True,
cpu_hot_add=True,
cdrom_drive=True,
annotation_notes=gen_string('alpha'),
network_interfaces=[
dict(
nic_type=VMWARE_CONSTANTS.get('network_interface_name'),
network=module_vmware_settings['current_interface'],
),
dict(
nic_type=VMWARE_CONSTANTS.get('network_interface_name'),
network=module_vmware_settings['current_interface'],
),
],
storage=[
dict(
controller=VMWARE_CONSTANTS.get('scsicontroller'),
disks=[
dict(
data_store=data_store_summary_string,
size='10 GB',
thin_provision=True,
eager_zero=True,
),
dict(
data_store=data_store_summary_string,
size='20 GB',
thin_provision=False,
eager_zero=False,
),
],
),
dict(
controller=VMWARE_CONSTANTS.get('scsicontroller'),
disks=[
dict(
data_store=data_store_summary_string,
size='30 GB',
thin_provision=False,
eager_zero=True,
)
],
),
],
)
with session:
session.computeresource.create({
'name':
cr_name,
'provider':
FOREMAN_PROVIDERS['vmware'],
'provider_content.vcenter':
module_vmware_settings['vcenter'],
'provider_content.user':
module_vmware_settings['user'],
'provider_content.password':
module_vmware_settings['password'],
'provider_content.datacenter.value':
module_vmware_settings['datacenter'],
})
assert session.computeresource.search(cr_name)[0]['Name'] == cr_name
session.computeresource.update_computeprofile(
cr_name,
COMPUTE_PROFILE_LARGE,
{
f'provider_content.{key}': value
for key, value in cr_profile_data.items()
},
)
values = session.computeresource.read_computeprofile(
cr_name, COMPUTE_PROFILE_LARGE)
provider_content = values['provider_content']
# assert main compute resource profile data updated successfully.
excluded_keys = ['network_interfaces', 'storage']
expected_value = {
key: value
for key, value in cr_profile_data.items()
if key not in excluded_keys
}
provided_value = {
key: value
for key, value in provider_content.items() if key in expected_value
}
assert provided_value == expected_value
# assert compute resource profile network data updated successfully.
for network_index, expected_network_value in enumerate(
cr_profile_data['network_interfaces']):
provided_network_value = {
key: value
for key, value in provider_content['network_interfaces']
[network_index].items() if key in expected_network_value
}
assert provided_network_value == expected_network_value
# assert compute resource profile storage data updated successfully.
for controller_index, expected_controller_value in enumerate(
cr_profile_data['storage']):
provided_controller_value = provider_content['storage'][
controller_index]
assert (provided_controller_value['controller'] ==
expected_controller_value['controller'])
for disk_index, expected_disk_value in enumerate(
expected_controller_value['disks']):
provided_disk_value = {
key: value
for key, value in provided_controller_value['disks']
[disk_index].items() if key in expected_disk_value
}
assert provided_disk_value == expected_disk_value
def test_positive_access_vmware_with_custom_profile(self):
"""Associate custom default (3-Large) compute profile
:id: 751ef765-5091-4322-a0d9-0c9c73009cc4
:setup: vmware hostname and credentials.
:steps:
1. Create a compute resource of type vmware.
2. Provide valid hostname, username and password.
3. Select the created vmware CR.
4. Click Compute Profile tab.
5. Edit (3-Large) with valid configurations and submit.
:expectedresults: The Compute Resource created and opened successfully
:Caseautomation: notautomated
:CaseLevel: Integration
"""
parameter_list = [
['VCenter/Server', self.vmware_url, 'field'],
['Username', self.vmware_username, 'field'],
['Password', self.vmware_password, 'field'],
['Datacenter', self.vmware_datacenter, 'special select'],
]
name = gen_string('alpha')
with Session(self) as session:
make_resource(session,
name=name,
provider_type=FOREMAN_PROVIDERS['vmware'],
parameter_list=parameter_list)
self.compute_resource.set_profile_values(
name,
COMPUTE_PROFILE_LARGE,
cpus=2,
corespersocket=2,
memory=1024,
cluster=VMWARE_CONSTANTS.get('cluster'),
folder=VMWARE_CONSTANTS.get('folder'),
guest_os=VMWARE_CONSTANTS.get('guest_os'),
scsicontroller=VMWARE_CONSTANTS.get('scsicontroller'),
virtualhw_version=VMWARE_CONSTANTS.get('virtualhw_version'),
memory_hotadd=True,
cpu_hotadd=True,
cdrom_drive=False,
annotation_notes=gen_string('alpha'),
pool=VMWARE_CONSTANTS.get('pool'),
network_interfaces=[
dict(name=VMWARE_CONSTANTS.get('network_interface_name'),
network=self.current_interface),
dict(name=VMWARE_CONSTANTS.get('network_interface_name'),
network=self.current_interface),
],
storage=[
dict(
datastore=VMWARE_CONSTANTS.get('datastore'),
size='10',
thin_provision=True,
eager_zero=True,
),
dict(
datastore=VMWARE_CONSTANTS.get('datastore'),
size='10',
thin_provision=False,
eager_zero=False,
)
])
self.assertIsNotNone(self.compute_resource.search(name))
def test_positive_apply_vmware_with_custom_profile_to_host(self):
"""Associate custom default (3-Large) compute profile with hostgroup
and then inherit it to the host
:id: c16c6d42-3950-46a7-bfe6-5e19bcfa29d0
:customerscenario: true
:setup: vmware hostname and credentials.
:steps:
1. Create a compute resource of type vmware.
2. Provide valid hostname, username and password.
3. Select the created vmware CR.
4. Click Compute Profile tab.
5. Edit (3-Large) with valid configurations and submit.
6. Create new host group with custom profile
7. Open new host page and put host group name into corresponding
field
8. Check that compute profile is inherited and then switch to
Virtual Machine tab
:expectedresults: All fields values for Virtual Machine tab are
inherited from custom profile and have non default values
:Caseautomation: Automated
:BZ: 1249744
:CaseLevel: Integration
"""
org = entities.Organization().create()
parameter_list = [
['VCenter/Server', self.vmware_url, 'field'],
['Username', self.vmware_username, 'field'],
['Password', self.vmware_password, 'field'],
['Datacenter', self.vmware_datacenter, 'special select'],
]
name = gen_string('alpha')
hg_name = gen_string('alpha')
with Session(self) as session:
make_resource(
session,
name=name,
provider_type=FOREMAN_PROVIDERS['vmware'],
orgs=[org.name],
org_select=True,
parameter_list=parameter_list
)
self.compute_resource.set_profile_values(
name, COMPUTE_PROFILE_LARGE,
cpus=3,
corespersocket=4,
memory=2048,
cluster=VMWARE_CONSTANTS.get('cluster'),
folder=VMWARE_CONSTANTS.get('folder'),
)
self.assertIsNotNone(self.compute_resource.search(name))
make_hostgroup(
session,
name=hg_name,
organizations=[org.name],
parameters_list=[
['Host Group', 'Compute Profile', COMPUTE_PROFILE_LARGE],
],
)
self.hosts.navigate_to_entity()
self.hosts.click(locators['host.new'])
self.hosts.assign_value(locators['host.organization'], org.name)
# Selecting host group and then compute resource. It is not
# possible to do it in opposite order as mentioned in initial BZ,
# because selecting host group will always reset most fields values
self.hosts.assign_value(locators['host.host_group'], hg_name)
self.hosts.click(locators['host.deploy_on'])
self.hosts.assign_value(
common_locators['select_list_search_box'], name)
self.hosts.click(
common_locators['entity_select_list'] %
'{} (VMware)'.format(name)
)
# Check that compute profile is inherited automatically from host
# group
self.assertEqual(
self.hosts.get_element_value(
locators['host.fetch_compute_profile']),
COMPUTE_PROFILE_LARGE
)
# Open Virtual Machine tab
self.hosts.click(tab_locators['host.tab_virtual_machine'])
# Check that all values are inherited from custom profile
for locator, value in [
['host.cpus', '3'],
['host.cores', '4'],
['host.memory', '2048'],
['host.fetch_cluster', VMWARE_CONSTANTS.get('cluster')],
['host.fetch_folder', VMWARE_CONSTANTS.get('folder')],
]:
self.assertEqual(
self.hosts.get_element_value(locators[locator]), value)
def test_positive_access_vmware_with_custom_profile(self):
"""Associate custom default (3-Large) compute profile
:id: 751ef765-5091-4322-a0d9-0c9c73009cc4
:setup: vmware hostname and credentials.
:steps:
1. Create a compute resource of type vmware.
2. Provide valid hostname, username and password.
3. Select the created vmware CR.
4. Click Compute Profile tab.
5. Edit (3-Large) with valid configurations and submit.
:expectedresults: The Compute Resource created and opened successfully
:Caseautomation: Automated
:CaseLevel: Integration
"""
parameter_list = [
['VCenter/Server', self.vmware_url, 'field'],
['Username', self.vmware_username, 'field'],
['Password', self.vmware_password, 'field'],
['Datacenter', self.vmware_datacenter, 'special select'],
]
name = gen_string('alpha')
with Session(self) as session:
make_resource(
session,
name=name,
provider_type=FOREMAN_PROVIDERS['vmware'],
parameter_list=parameter_list
)
self.compute_resource.set_profile_values(
name, COMPUTE_PROFILE_LARGE,
cpus=2,
corespersocket=2,
memory=1024,
cluster=VMWARE_CONSTANTS.get('cluster'),
folder=VMWARE_CONSTANTS.get('folder'),
guest_os=VMWARE_CONSTANTS.get('guest_os'),
scsicontroller=VMWARE_CONSTANTS.get('scsicontroller'),
virtualhw_version=VMWARE_CONSTANTS.get('virtualhw_version'),
memory_hotadd=True,
cpu_hotadd=True,
cdrom_drive=False,
annotation_notes=gen_string('alpha'),
pool=VMWARE_CONSTANTS.get('pool'),
network_interfaces=[
dict(
name=VMWARE_CONSTANTS.get('network_interface_name'),
network=self.current_interface
),
dict(
name=VMWARE_CONSTANTS.get('network_interface_name'),
network=self.current_interface
),
],
storage=[
dict(
datastore=VMWARE_CONSTANTS.get('datastore'),
size='10',
thin_provision=True,
eager_zero=True,
),
dict(
datastore=VMWARE_CONSTANTS.get('datastore'),
size='10',
thin_provision=False,
eager_zero=False,
)
]
)
self.assertIsNotNone(self.compute_resource.search(name))
def setUpClass(cls):
super(ComputeResourceHostTestCase, cls).setUpClass()
bridge = settings.vlan_networking.bridge
# RHV Settings
cls.rhev_url = settings.rhev.hostname
cls.rhev_password = settings.rhev.password
cls.rhev_username = settings.rhev.username
cls.rhev_datacenter = settings.rhev.datacenter
cls.rhev_img_name = settings.rhev.image_name
cls.rhev_img_arch = settings.rhev.image_arch
cls.rhev_img_os = settings.rhev.image_os
cls.rhev_img_user = settings.rhev.image_username
cls.rhev_img_pass = settings.rhev.image_password
cls.rhev_vm_name = settings.rhev.vm_name
cls.rhev_storage_domain = settings.rhev.storage_domain
cls.rhv_api = RHEVMSystem(hostname=cls.rhev_url.split('/')[2],
username=cls.rhev_username,
password=cls.rhev_password,
version='4.0',
verify=False
)
cls.cluster_id = cls.rhv_api.get_cluster(cls.rhev_datacenter).id
cls.storage_id = cls.rhv_api.get_storage_domain(
cls.rhev_storage_domain).id
cls.network_id = (
cls.rhv_api.api.system_service().networks_service(
).list(search='name={0}'.format(bridge))[0].id
)
if bz_bug_is_open(1685949):
dc = cls.rhv_api._data_centers_service.list(
search='name={0}'.format(cls.rhev_datacenter))[0]
dc = cls.rhv_api._data_centers_service.data_center_service(dc.id)
cls.quota = dc.quotas_service().list()[0].id
else:
cls.quota = 'Default'
# Vmware Settings
cls.vmware_server = settings.vmware.vcenter
cls.vmware_password = settings.vmware.password
cls.vmware_username = settings.vmware.username
cls.vmware_datacenter = settings.vmware.datacenter
cls.vmware_img_name = settings.vmware.image_name
cls.vmware_img_arch = settings.vmware.image_arch
cls.vmware_img_os = settings.vmware.image_os
cls.vmware_img_user = settings.vmware.image_username
cls.vmware_img_pass = settings.vmware.image_password
cls.vmware_vm_name = settings.vmware.vm_name
cls.current_interface = (
VMWARE_CONSTANTS.get('network_interfaces') % bridge
)
cls.vmware_api = VMWareSystem(hostname=cls.vmware_server,
username=cls.vmware_username,
password=cls.vmware_password
)
cls.vmware_net_id = cls.vmware_api.get_network(
cls.current_interface)._moId
# Provisioning setup
cls.org = entities.Organization(name=gen_string('alpha')).create()
cls.org_name = cls.org.name
cls.loc = entities.Location(
name=gen_string('alpha'),
organization=[cls.org],
).create()
cls.loc_name = cls.loc.name
cls.config_env = configure_provisioning(
compute=True,
org=cls.org,
loc=cls.loc,
os=cls.rhev_img_os
)
cls.os_name = cls.config_env['os']
def test_positive_access_vmware_with_custom_profile(session, module_vmware_settings):
"""Associate custom default (3-Large) compute profile
:id: 751ef765-5091-4322-a0d9-0c9c73009cc4
:setup: vmware hostname and credentials.
:steps:
1. Create a compute resource of type vmware.
2. Provide valid hostname, username and password.
3. Select the created vmware CR.
4. Click Compute Profile tab.
5. Edit (3-Large) with valid configurations and submit.
:expectedresults: The Compute Resource created and associated to compute profile (3-Large)
with provided values.
:CaseLevel: Integration
"""
cr_name = gen_string('alpha')
data_store_summary_string = _get_vmware_datastore_summary_string()
cr_profile_data = dict(
cpus='2',
cores_per_socket='2',
memory='1024',
firmware='EFI',
cluster=VMWARE_CONSTANTS.get('cluster'),
resource_pool=VMWARE_CONSTANTS.get('pool'),
folder=VMWARE_CONSTANTS.get('folder'),
guest_os=VMWARE_CONSTANTS.get('guest_os'),
virtual_hw_version=VMWARE_CONSTANTS.get('virtualhw_version'),
memory_hot_add=True,
cpu_hot_add=True,
cdrom_drive=True,
annotation_notes=gen_string('alpha'),
network_interfaces=[
dict(nic_type=VMWARE_CONSTANTS.get('network_interface_name'),
network=module_vmware_settings['current_interface']),
dict(nic_type=VMWARE_CONSTANTS.get('network_interface_name'),
network=module_vmware_settings['current_interface']),
],
storage=[
dict(
controller=VMWARE_CONSTANTS.get('scsicontroller'),
disks=[
dict(
data_store=data_store_summary_string,
size='10 GB',
thin_provision=True,
eager_zero=True,
),
dict(
data_store=data_store_summary_string,
size='20 GB',
thin_provision=False,
eager_zero=False,
),
],
),
dict(
controller=VMWARE_CONSTANTS.get('scsicontroller'),
disks=[
dict(
data_store=data_store_summary_string,
size='30 GB',
thin_provision=False,
eager_zero=True,
),
],
),
],
)
with session:
session.computeresource.create({
'name': cr_name,
'provider': FOREMAN_PROVIDERS['vmware'],
'provider_content.vcenter': module_vmware_settings['vcenter'],
'provider_content.user': module_vmware_settings['user'],
'provider_content.password': module_vmware_settings['password'],
'provider_content.datacenter.value': module_vmware_settings['datacenter'],
})
assert session.computeresource.search(cr_name)[0]['Name'] == cr_name
session.computeresource.update_computeprofile(
cr_name,
COMPUTE_PROFILE_LARGE,
{'provider_content.{0}'.format(key): value for key, value in cr_profile_data.items()}
)
values = session.computeresource.read_computeprofile(cr_name, COMPUTE_PROFILE_LARGE)
provider_content = values['provider_content']
# assert main compute resource profile data updated successfully.
excluded_keys = ['network_interfaces', 'storage']
expected_value = {key: value for key, value in cr_profile_data.items()
if key not in excluded_keys}
provided_value = {key: value for key, value in provider_content.items()
if key in expected_value}
assert provided_value == expected_value
# assert compute resource profile network data updated successfully.
for network_index, expected_network_value in enumerate(
cr_profile_data['network_interfaces']):
provided_network_value = {
key: value
for key, value in provider_content['network_interfaces'][network_index].items()
if key in expected_network_value
}
assert provided_network_value == expected_network_value
# assert compute resource profile storage data updated successfully.
for controller_index, expected_controller_value in enumerate(cr_profile_data['storage']):
provided_controller_value = provider_content['storage'][controller_index]
assert (provided_controller_value['controller']
== expected_controller_value['controller'])
for disk_index, expected_disk_value in enumerate(expected_controller_value['disks']):
provided_disk_value = {
key: value
for key, value in provided_controller_value['disks'][disk_index].items()
if key in expected_disk_value
}
assert provided_disk_value == expected_disk_value
def test_positive_apply_vmware_with_custom_profile_to_host(self):
"""Associate custom default (3-Large) compute profile with hostgroup
and then inherit it to the host
:id: c16c6d42-3950-46a7-bfe6-5e19bcfa29d0
:customerscenario: true
:setup: vmware hostname and credentials.
:steps:
1. Create a compute resource of type vmware.
2. Provide valid hostname, username and password.
3. Select the created vmware CR.
4. Click Compute Profile tab.
5. Edit (3-Large) with valid configurations and submit.
6. Create new host group with custom profile
7. Open new host page and put host group name into corresponding
field
8. Check that compute profile is inherited and then switch to
Virtual Machine tab
:expectedresults: All fields values for Virtual Machine tab are
inherited from custom profile and have non default values
:Caseautomation: Automated
:BZ: 1249744
:CaseLevel: Integration
"""
org = entities.Organization().create()
parameter_list = [
['VCenter/Server', self.vmware_url, 'field'],
['Username', self.vmware_username, 'field'],
['Password', self.vmware_password, 'field'],
['Datacenter', self.vmware_datacenter, 'special select'],
]
name = gen_string('alpha')
hg_name = gen_string('alpha')
with Session(self) as session:
make_resource(session,
name=name,
provider_type=FOREMAN_PROVIDERS['vmware'],
orgs=[org.name],
org_select=True,
parameter_list=parameter_list)
self.compute_resource.set_profile_values(
name,
COMPUTE_PROFILE_LARGE,
cpus=3,
corespersocket=4,
memory=2048,
cluster=VMWARE_CONSTANTS.get('cluster'),
folder=VMWARE_CONSTANTS.get('folder'),
)
self.assertIsNotNone(self.compute_resource.search(name))
make_hostgroup(
session,
name=hg_name,
organizations=[org.name],
parameters_list=[
['Host Group', 'Compute Profile', COMPUTE_PROFILE_LARGE],
],
)
self.hosts.navigate_to_entity()
self.hosts.click(locators['host.new'])
self.hosts.assign_value(locators['host.organization'], org.name)
# Selecting host group and then compute resource. It is not
# possible to do it in opposite order as mentioned in initial BZ,
# because selecting host group will always reset most fields values
self.hosts.assign_value(locators['host.host_group'], hg_name)
self.hosts.click(locators['host.deploy_on'])
self.hosts.assign_value(common_locators['select_list_search_box'],
name)
self.hosts.click(common_locators['entity_select_list'] %
'{} (VMware)'.format(name))
# Check that compute profile is inherited automatically from host
# group
self.assertEqual(
self.hosts.get_element_value(
locators['host.fetch_compute_profile']),
COMPUTE_PROFILE_LARGE)
# Open Virtual Machine tab
self.hosts.click(tab_locators['host.tab_virtual_machine'])
# Check that all values are inherited from custom profile
for locator, value in [
['host.cpus', '3'],
['host.cores', '4'],
['host.memory', '2048'],
['host.fetch_cluster',
VMWARE_CONSTANTS.get('cluster')],
['host.fetch_folder',
VMWARE_CONSTANTS.get('folder')],
]:
self.assertEqual(
self.hosts.get_element_value(locators[locator]), value)