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Modify VMware compute profile test
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Signed-off-by: Shubham Ganar <[email protected]>
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@shubhamsg199
shubhamsg199 authored and Shubham Ganar committed Mar 12, 2024
1 parent cc8227d commit 6f373b6
Showing 1 changed file with 94 additions and 144 deletions.
238 changes: 94 additions & 144 deletions tests/foreman/ui/test_computeresource_vmware.py
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Original file line number Diff line number Diff line change
Expand Up @@ -26,6 +26,7 @@
VMWARE_CONSTANTS,
)
from robottelo.utils.datafactory import gen_string
from robottelo.utils.issue_handlers import is_open

pytestmark = [pytest.mark.skip_if_not_set('vmware')]

Expand Down Expand Up @@ -289,129 +290,64 @@ def test_positive_resource_vm_power_management(session, vmware):
raise AssertionError('Timed out waiting for VM to toggle power state') from err


@pytest.mark.e2e
@pytest.mark.upgrade
@pytest.mark.tier2
@pytest.mark.parametrize('vmware', ['vmware7', 'vmware8'], indirect=True)
def test_positive_select_vmware_custom_profile_guest_os_rhel7(session, vmware):
"""Select custom default (3-Large) compute profile guest OS RHEL7.
def test_positive_vmware_custom_profile_end_to_end(session, vmware, request):
"""Perform end to end testing for VMware compute profile.
:id: 24f7bb5f-2aaf-48cb-9a56-d2d0713dfe3d
: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. Select 3-Large profile
6. Set Guest OS field to RHEL7 OS.
2. Update a compute profile with all values
:expectedresults: Guest OS RHEL7 is selected successfully.
:expectedresults: Compute profiles are updated successfully with all the values.
:BZ: 1315277
"""
cr_name = gen_string('alpha')
guest_os_name = 'Red Hat Enterprise Linux 7 (64-bit)'
with session:
session.computeresource.create(
{
'name': cr_name,
'provider': FOREMAN_PROVIDERS['vmware'],
'provider_content.vcenter': vmware.hostname,
'provider_content.user': settings.vmware.username,
'provider_content.password': settings.vmware.password,
'provider_content.datacenter.value': settings.vmware.datacenter,
}
)
assert session.computeresource.search(cr_name)[0]['Name'] == cr_name
session.computeresource.update_computeprofile(
cr_name, COMPUTE_PROFILE_LARGE, {'provider_content.guest_os': guest_os_name}
)
values = session.computeresource.read_computeprofile(cr_name, COMPUTE_PROFILE_LARGE)
assert values['provider_content']['guest_os'] == guest_os_name


@pytest.mark.tier2
@pytest.mark.parametrize('vmware', ['vmware7', 'vmware8'], indirect=True)
def test_positive_access_vmware_with_custom_profile(session, vmware):
"""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.
:BZ: 1315277, 2266672
"""
cr_name = gen_string('alpha')
guest_os_names = [
'Red Hat Enterprise Linux 7 (64-bit)',
'Red Hat Enterprise Linux 8 (64 bit)',
'Red Hat Enterprise Linux 9 (64 bit)',
]
compute_profile = ['1-Small', '2-Medium', '3-Large']
cpus = ['2', '4', '6']
vm_memory = ['4000', '6000', '8000']
annotation_notes = gen_string('alpha')
firmware_type = ['Automatic', 'BIOS', 'EFI']
resource_pool = VMWARE_CONSTANTS.get('pool')
folder = VMWARE_CONSTANTS.get('folder')
virtual_hw_version = VMWARE_CONSTANTS.get('virtualhw_version')
memory_hot_add = True
cpu_hot_add = True
cdrom_drive = True
disk_size = '10 GB'
network = 'VLAN 1001' # hardcoding network here as this test won't be doing actual provisioning
data_store_summary_string = _get_vmware_datastore_summary_string(vmware=vmware)
cr_profile_data = dict(
cpus='2',
cores_per_socket='2',
memory='1024',
firmware='EFI',
cluster=settings.vmware.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=[]
if not settings.provisioning.vlan_id
else [
dict(
nic_type=VMWARE_CONSTANTS.get('network_interface_name'),
network='VLAN 1001', # hardcoding network here as these test won't be doing actual provisioning
),
dict(
nic_type=VMWARE_CONSTANTS.get('network_interface_name'),
network='VLAN 1001',
),
],
storage=[
dict(
controller=VMWARE_CONSTANTS.get('scsicontroller'),
disks=[
dict(
data_store=data_store_summary_string,
size='10 GB',
thin_provision=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,
)
],
),
],
)
storage_data = {
'storage': {
'controller': VMWARE_CONSTANTS.get('scsicontroller'),
'disks': [
{
'data_store': data_store_summary_string,
'size': disk_size,
'thin_provision': True,
}
],
}
}
network_data = {
'network_interfaces': {
'nic_type': VMWARE_CONSTANTS.get('network_interface_name'),
'network': network,
}
}
with session:
session.computeresource.create(
{
Expand All @@ -424,45 +360,59 @@ def test_positive_access_vmware_with_custom_profile(session, vmware):
}
)
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']
request.addfinalizer(session.computeresource.delete(cr_name))
for guest_os_name, cprofile, cpu, memory, firmware in zip(
guest_os_names, compute_profile, cpus, vm_memory, firmware_type, strict=True
):
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]
session.computeresource.update_computeprofile(
cr_name,
cprofile,
{
'provider_content.guest_os': guest_os_name,
'provider_content.cpus': cpu,
'provider_content.memory': memory,
'provider_content.cluster': settings.vmware.cluster,
'provider_content.annotation_notes': annotation_notes,
'provider_content.virtual_hw_version': virtual_hw_version,
'provider_content.firmware': firmware,
'provider_content.resource_pool': resource_pool,
'provider_content.folder': folder,
'provider_content.memory_hot_add': memory_hot_add,
'provider_content.cpu_hot_add': cpu_hot_add,
'provider_content.cdrom_drive': cdrom_drive,
'provider_content.storage': [value for value in storage_data.values()],
'provider_content.network_interfaces': [
value for value in network_data.values()
],
},
)
values = session.computeresource.read_computeprofile(cr_name, cprofile)
assert values['provider_content']['guest_os'] == guest_os_name
assert values['provider_content']['cpus'] == cpu
assert values['provider_content']['memory'] == memory
assert values['provider_content']['cluster'] == settings.vmware.cluster
assert values['provider_content']['annotation_notes'] == annotation_notes
assert values['provider_content']['virtual_hw_version'] == virtual_hw_version
assert (
provided_controller_value['controller'] == expected_controller_value['controller']
values['provider_content']['firmware'] == 'BIOS'
if is_open('BZ:2266672')
else firmware
)
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
assert values['provider_content']['resource_pool'] == resource_pool
assert values['provider_content']['folder'] == folder
assert values['provider_content']['memory_hot_add'] == memory_hot_add
assert values['provider_content']['cpu_hot_add'] == cpu_hot_add
assert values['provider_content']['cdrom_drive'] == cdrom_drive
assert (
values['provider_content']['storage'][0]['controller']
== VMWARE_CONSTANTS['scsicontroller']
)
assert values['provider_content']['storage'][0]['disks'][0]['size'] == disk_size
assert (
values['provider_content']['network_interfaces'][0]['nic_type']
== VMWARE_CONSTANTS['network_interface_name']
)
assert values['provider_content']['network_interfaces'][0]['network'] == network


@pytest.mark.tier2
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