def data(TEST):
TEST.cinder_quotas = TestDataContainer()
TEST.cinder_quota_usages = TestDataContainer()
# Quota Sets
quota_data = dict(volumes='1',
snapshots='1',
gigabytes='1000')
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
#TEST.quotas.cinder = QuotaSetWrapper(quota)
TEST.cinder_quotas.add(QuotaSetWrapper(quota))
# Quota Usages
quota_usage_data = {'gigabytes': {'used': 0,
'quota': 1000},
'instances': {'used': 0,
'quota': 10},
'snapshots': {'used': 0,
'quota': 10}}
quota_usage = QuotaUsage()
for k, v in quota_usage_data.items():
quota_usage.add_quota(Quota(k, v['quota']))
quota_usage.tally(k, v['used'])
TEST.cinder_quota_usages.add(quota_usage)
def data(TEST):
TEST.cinder_quotas = TestDataContainer()
TEST.cinder_quota_usages = TestDataContainer()
# Quota Sets
quota_data = dict(volumes='1', snapshots='1', gigabytes='1000')
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
#TEST.quotas.cinder = QuotaSetWrapper(quota)
TEST.cinder_quotas.add(QuotaSetWrapper(quota))
# Quota Usages
quota_usage_data = {
'gigabytes': {
'used': 0,
'quota': 1000
},
'instances': {
'used': 0,
'quota': 10
},
'snapshots': {
'used': 0,
'quota': 10
}
}
quota_usage = QuotaUsage()
for k, v in quota_usage_data.items():
quota_usage.add_quota(Quota(k, v['quota']))
quota_usage.tally(k, v['used'])
TEST.cinder_quota_usages.add(quota_usage)
def data(TEST):
TEST.servers = TestDataContainer()
TEST.flavors = TestDataContainer()
TEST.keypairs = TestDataContainer()
TEST.security_groups = TestDataContainer()
TEST.security_group_rules = TestDataContainer()
TEST.volumes = TestDataContainer()
TEST.quotas = TestDataContainer()
TEST.quota_usages = TestDataContainer()
TEST.floating_ips = TestDataContainer()
TEST.usages = TestDataContainer()
TEST.certs = TestDataContainer()
TEST.volume_snapshots = TestDataContainer()
TEST.volume_types = TestDataContainer()
# Volumes
volume = volumes.Volume(volumes.VolumeManager(None),
dict(id="41023e92-8008-4c8b-8059-7f2293ff3775",
name='test_volume',
status='available',
size=40,
display_name='Volume name',
created_at='2012-04-01 10:30:00',
volume_type=None,
attachments=[]))
nameless_volume = volumes.Volume(volumes.VolumeManager(None),
dict(id="3b189ac8-9166-ac7f-90c9-16c8bf9e01ac",
name='',
status='in-use',
size=10,
display_name='',
display_description='',
device="/dev/hda",
created_at='2010-11-21 18:34:25',
volume_type='vol_type_1',
attachments=[{"id": "1", "server_id": '1',
"device": "/dev/hda"}]))
attached_volume = volumes.Volume(volumes.VolumeManager(None),
dict(id="8cba67c1-2741-6c79-5ab6-9c2bf8c96ab0",
name='my_volume',
status='in-use',
size=30,
display_name='My Volume',
display_description='',
device="/dev/hdk",
created_at='2011-05-01 11:54:33',
volume_type='vol_type_2',
attachments=[{"id": "2", "server_id": '1',
"device": "/dev/hdk"}]))
TEST.volumes.add(volume)
TEST.volumes.add(nameless_volume)
TEST.volumes.add(attached_volume)
vol_type1 = volume_types.VolumeType(volume_types.VolumeTypeManager(None),
{'id': 1,
'name': 'vol_type_1'})
vol_type2 = volume_types.VolumeType(volume_types.VolumeTypeManager(None),
{'id': 2,
'name': 'vol_type_2'})
TEST.volume_types.add(vol_type1, vol_type2)
# Flavors
flavor_1 = flavors.Flavor(flavors.FlavorManager(None),
{'id': "1",
'name': 'm1.tiny',
'vcpus': 1,
'disk': 0,
'ram': 512,
'OS-FLV-EXT-DATA:ephemeral': 0})
flavor_2 = flavors.Flavor(flavors.FlavorManager(None),
{'id': "2",
'name': 'm1.massive',
'vcpus': 1000,
'disk': 1024,
'ram': 10000,
'OS-FLV-EXT-DATA:ephemeral': 2048})
TEST.flavors.add(flavor_1, flavor_2)
# Keypairs
keypair = keypairs.Keypair(keypairs.KeypairManager(None),
dict(name='keyName'))
TEST.keypairs.add(keypair)
# Security Groups
sg_manager = sec_groups.SecurityGroupManager(None)
sec_group_1 = sec_groups.SecurityGroup(sg_manager,
{"rules": [],
"tenant_id": TEST.tenant.id,
"id": 1,
"name": u"default",
"description": u"default"})
sec_group_2 = sec_groups.SecurityGroup(sg_manager,
{"rules": [],
"tenant_id": TEST.tenant.id,
"id": 2,
"name": u"other_group",
"description": u"Not default."})
rule = {'id': 1,
'ip_protocol': u"tcp",
'from_port': u"80",
'to_port': u"80",
'parent_group_id': 1,
'ip_range': {'cidr': u"0.0.0.0/32"}}
icmp_rule = {'id': 2,
'ip_protocol': u"icmp",
'from_port': u"9",
'to_port': u"5",
'parent_group_id': 1,
'ip_range': {'cidr': u"0.0.0.0/32"}}
group_rule = {'id': 3,
'ip_protocol': u"tcp",
'from_port': u"80",
'to_port': u"80",
'parent_group_id': 1,
'source_group_id': 1}
rule_obj = rules.SecurityGroupRule(rules.SecurityGroupRuleManager(None),
rule)
rule_obj2 = rules.SecurityGroupRule(rules.SecurityGroupRuleManager(None),
icmp_rule)
rule_obj3 = rules.SecurityGroupRule(rules.SecurityGroupRuleManager(None),
group_rule)
TEST.security_group_rules.add(rule_obj)
TEST.security_group_rules.add(rule_obj2)
TEST.security_group_rules.add(rule_obj3)
sec_group_1.rules = [rule_obj]
sec_group_2.rules = [rule_obj]
TEST.security_groups.add(sec_group_1, sec_group_2)
# Security Group Rules
# Quota Sets
quota_data = dict(metadata_items='1',
injected_file_content_bytes='1',
volumes='1',
gigabytes='1000',
ram=10000,
floating_ips='1',
instances='10',
injected_files='1',
cores='10')
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
TEST.quotas.nova = QuotaSetWrapper(quota)
TEST.quotas.add(QuotaSetWrapper(quota))
# Quota Usages
quota_usage_data = {'gigabytes': {'used': 0,
'quota': 1000},
'instances': {'used': 0,
'quota': 10},
'ram': {'used': 0,
'quota': 10000},
'cores': {'used': 0,
'quota': 20}}
quota_usage = QuotaUsage()
for k, v in quota_usage_data.items():
quota_usage.add_quota(Quota(k, v['quota']))
quota_usage.tally(k, v['used'])
TEST.quota_usages.add(quota_usage)
# Servers
vals = {"host": "http://nova.example.com:8774",
"name": "server_1",
"status": "ACTIVE",
"tenant_id": TEST.tenants.first().id,
"user_id": TEST.user.id,
"server_id": "1",
"flavor_id": flavor_1.id,
"image_id": TEST.images.first().id,
"key_name": keypair.name}
server_1 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
vals.update({"name": "server_2",
"status": "BUILD",
"server_id": "2"})
server_2 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
TEST.servers.add(server_1, server_2)
# VNC Console Data
console = {u'console': {u'url': u'http://example.com:6080/vnc_auto.html',
u'type': u'novnc'}}
TEST.servers.console_data = console
# Floating IPs
fip_1 = floating_ips.FloatingIP(floating_ips.FloatingIPManager(None),
{'id': 1,
'fixed_ip': '10.0.0.4',
'instance_id': server_1.id,
'ip': '58.58.58.58'})
fip_2 = floating_ips.FloatingIP(floating_ips.FloatingIPManager(None),
{'id': 2,
'fixed_ip': None,
'instance_id': None,
'ip': '58.58.58.58'})
TEST.floating_ips.add(fip_1, fip_2)
# Usage
usage_vals = {"tenant_id": TEST.tenant.id,
"instance_name": server_1.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram}
usage_obj = usage.Usage(usage.UsageManager(None),
json.loads(USAGE_DATA % usage_vals))
TEST.usages.add(usage_obj)
volume_snapshot = vol_snaps.Snapshot(vol_snaps.SnapshotManager(None),
{'id': '40f3fabf-3613-4f5e-90e5-6c9a08333fc3',
'display_name': 'test snapshot',
'display_description': 'vol snap!',
'size': 40,
'status': 'available',
'volume_id': '41023e92-8008-4c8b-8059-7f2293ff3775'})
TEST.volume_snapshots.add(volume_snapshot)
cert_data = {'private_key': 'private',
'data': 'certificate_data'}
certificate = certs.Certificate(certs.CertificateManager(None), cert_data)
TEST.certs.add(certificate)
def data(TEST):
TEST.servers = TestDataContainer()
TEST.flavors = TestDataContainer()
TEST.keypairs = TestDataContainer()
TEST.security_groups = TestDataContainer()
TEST.security_groups_uuid = TestDataContainer()
TEST.security_group_rules = TestDataContainer()
TEST.security_group_rules_uuid = TestDataContainer()
TEST.volumes = TestDataContainer()
TEST.quotas = TestDataContainer()
TEST.quota_usages = TestDataContainer()
TEST.floating_ips = TestDataContainer()
TEST.floating_ips_uuid = TestDataContainer()
TEST.usages = TestDataContainer()
TEST.certs = TestDataContainer()
TEST.volume_snapshots = TestDataContainer()
TEST.volume_types = TestDataContainer()
TEST.availability_zones = TestDataContainer()
TEST.hypervisors = TestDataContainer()
TEST.services = TestDataContainer()
TEST.aggregates = TestDataContainer()
# Data return by novaclient.
# It is used if API layer does data conversion.
TEST.api_floating_ips = TestDataContainer()
TEST.api_floating_ips_uuid = TestDataContainer()
# Volumes
volume = volumes.Volume(volumes.VolumeManager(None),
dict(id="41023e92-8008-4c8b-8059-7f2293ff3775",
name='test_volume',
status='available',
size=40,
display_name='Volume name',
created_at='2012-04-01 10:30:00',
volume_type=None,
attachments=[]))
nameless_volume = volumes.Volume(volumes.VolumeManager(None),
dict(id="3b189ac8-9166-ac7f-90c9-16c8bf9e01ac",
name='',
status='in-use',
size=10,
display_name='',
display_description='',
device="/dev/hda",
created_at='2010-11-21 18:34:25',
volume_type='vol_type_1',
attachments=[{"id": "1", "server_id": '1',
"device": "/dev/hda"}]))
attached_volume = volumes.Volume(volumes.VolumeManager(None),
dict(id="8cba67c1-2741-6c79-5ab6-9c2bf8c96ab0",
name='my_volume',
status='in-use',
size=30,
display_name='My Volume',
display_description='',
device="/dev/hdk",
created_at='2011-05-01 11:54:33',
volume_type='vol_type_2',
attachments=[{"id": "2", "server_id": '1',
"device": "/dev/hdk"}]))
TEST.volumes.add(volume)
TEST.volumes.add(nameless_volume)
TEST.volumes.add(attached_volume)
vol_type1 = volume_types.VolumeType(volume_types.VolumeTypeManager(None),
{'id': 1,
'name': 'vol_type_1'})
vol_type2 = volume_types.VolumeType(volume_types.VolumeTypeManager(None),
{'id': 2,
'name': 'vol_type_2'})
TEST.volume_types.add(vol_type1, vol_type2)
# Flavors
flavor_1 = flavors.Flavor(flavors.FlavorManager(None),
{'id': "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa",
'name': 'm1.tiny',
'vcpus': 1,
'disk': 0,
'ram': 512,
'swap': 0,
'extra_specs': {},
'OS-FLV-EXT-DATA:ephemeral': 0})
flavor_2 = flavors.Flavor(flavors.FlavorManager(None),
{'id': "bbbbbbbb-bbbb-bbbb-bbbb-bbbbbbbbbbbb",
'name': 'm1.massive',
'vcpus': 1000,
'disk': 1024,
'ram': 10000,
'swap': 0,
'extra_specs': {'Trusted': True, 'foo': 'bar'},
'OS-FLV-EXT-DATA:ephemeral': 2048})
TEST.flavors.add(flavor_1, flavor_2)
# Keypairs
keypair = keypairs.Keypair(keypairs.KeypairManager(None),
dict(name='keyName'))
TEST.keypairs.add(keypair)
# Security Groups and Rules
def generate_security_groups(is_uuid=False):
def get_id(is_uuid):
global current_int_id
if is_uuid:
return str(uuid.uuid4())
else:
get_id.current_int_id += 1
return get_id.current_int_id
get_id.current_int_id = 0
sg_manager = sec_groups.SecurityGroupManager(None)
rule_manager = rules.SecurityGroupRuleManager(None)
sec_group_1 = sec_groups.SecurityGroup(sg_manager,
{"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"default",
"description": u"default"})
sec_group_2 = sec_groups.SecurityGroup(sg_manager,
{"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"other_group",
"description": u"NotDefault."})
sec_group_3 = sec_groups.SecurityGroup(sg_manager,
{"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"another_group",
"description": u"NotDefault."})
rule = {'id': get_id(is_uuid),
'group': {},
'ip_protocol': u"tcp",
'from_port': u"80",
'to_port': u"80",
'parent_group_id': sec_group_1.id,
'ip_range': {'cidr': u"0.0.0.0/32"}}
icmp_rule = {'id': get_id(is_uuid),
'group': {},
'ip_protocol': u"icmp",
'from_port': u"9",
'to_port': u"5",
'parent_group_id': sec_group_1.id,
'ip_range': {'cidr': u"0.0.0.0/32"}}
group_rule = {'id': 3,
'group': {},
'ip_protocol': u"tcp",
'from_port': u"80",
'to_port': u"80",
'parent_group_id': sec_group_1.id,
'source_group_id': sec_group_1.id}
rule_obj = rules.SecurityGroupRule(rule_manager, rule)
rule_obj2 = rules.SecurityGroupRule(rule_manager, icmp_rule)
rule_obj3 = rules.SecurityGroupRule(rule_manager, group_rule)
sec_group_1.rules = [rule_obj]
sec_group_2.rules = [rule_obj]
return {"rules": [rule_obj, rule_obj2, rule_obj3],
"groups": [sec_group_1, sec_group_2, sec_group_3]}
sg_data = generate_security_groups()
TEST.security_group_rules.add(*sg_data["rules"])
TEST.security_groups.add(*sg_data["groups"])
sg_uuid_data = generate_security_groups(is_uuid=True)
TEST.security_group_rules_uuid.add(*sg_uuid_data["rules"])
TEST.security_groups_uuid.add(*sg_uuid_data["groups"])
# Quota Sets
quota_data = dict(metadata_items='1',
injected_file_content_bytes='1',
volumes='1',
gigabytes='1000',
ram=10000,
floating_ips='1',
fixed_ips='10',
instances='10',
injected_files='1',
cores='10',
security_groups='10',
security_group_rules='20')
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
TEST.quotas.nova = QuotaSetWrapper(quota)
TEST.quotas.add(QuotaSetWrapper(quota))
# Quota Usages
quota_usage_data = {'gigabytes': {'used': 0,
'quota': 1000},
'instances': {'used': 0,
'quota': 10},
'ram': {'used': 0,
'quota': 10000},
'cores': {'used': 0,
'quota': 20},
'floating_ips': {'used': 0,
'quota': 10},
'volumes': {'used': 0,
'quota': 10}}
quota_usage = QuotaUsage()
for k, v in quota_usage_data.items():
quota_usage.add_quota(Quota(k, v['quota']))
quota_usage.tally(k, v['used'])
TEST.quota_usages.add(quota_usage)
# Limits
limits = {"absolute": {"maxImageMeta": 128,
"maxPersonality": 5,
"maxPersonalitySize": 10240,
"maxSecurityGroupRules": 20,
"maxSecurityGroups": 10,
"maxServerMeta": 128,
"maxTotalCores": 20,
"maxTotalFloatingIps": 10,
"maxTotalInstances": 10,
"maxTotalKeypairs": 100,
"maxTotalRAMSize": 10000,
"totalCoresUsed": 0,
"totalInstancesUsed": 0,
"totalKeyPairsUsed": 0,
"totalRAMUsed": 0,
"totalSecurityGroupsUsed": 0}}
TEST.limits = limits
# Servers
tenant3 = TEST.tenants.list()[2]
vals = {"host": "http://nova.example.com:8774",
"name": "server_1",
"status": "ACTIVE",
"tenant_id": TEST.tenants.first().id,
"user_id": TEST.user.id,
"server_id": "1",
"flavor_id": flavor_1.id,
"image_id": TEST.images.first().id,
"key_name": keypair.name}
server_1 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
vals.update({"name": "server_2",
"status": "BUILD",
"server_id": "2"})
server_2 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
vals.update({"name": u'\u4e91\u89c4\u5219',
"status": "ACTIVE",
"tenant_id": tenant3.id,
"server_id": "3"})
server_3 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
TEST.servers.add(server_1, server_2, server_3)
# VNC Console Data
console = {u'console': {u'url': u'http://example.com:6080/vnc_auto.html',
u'type': u'novnc'}}
TEST.servers.vnc_console_data = console
# SPICE Console Data
console = {u'console': {u'url': u'http://example.com:6080/spice_auto.html',
u'type': u'spice'}}
TEST.servers.spice_console_data = console
# Floating IPs
def generate_fip(conf):
return floating_ips.FloatingIP(floating_ips.FloatingIPManager(None),
conf)
fip_1 = {'id': 1,
'fixed_ip': '10.0.0.4',
'instance_id': server_1.id,
'ip': '58.58.58.58',
'pool': 'pool1'}
fip_2 = {'id': 2,
'fixed_ip': None,
'instance_id': None,
'ip': '58.58.58.58',
'pool': 'pool2'}
TEST.api_floating_ips.add(generate_fip(fip_1), generate_fip(fip_2))
TEST.floating_ips.add(NetFloatingIp(generate_fip(fip_1)),
NetFloatingIp(generate_fip(fip_2)))
# Floating IP with UUID id (for Floating IP with Neutron Proxy)
fip_3 = {'id': str(uuid.uuid4()),
'fixed_ip': '10.0.0.4',
'instance_id': server_1.id,
'ip': '58.58.58.58',
'pool': 'pool1'}
fip_4 = {'id': str(uuid.uuid4()),
'fixed_ip': None,
'instance_id': None,
'ip': '58.58.58.58',
'pool': 'pool2'}
TEST.api_floating_ips_uuid.add(generate_fip(fip_3), generate_fip(fip_4))
TEST.floating_ips_uuid.add(NetFloatingIp(generate_fip(fip_3)),
NetFloatingIp(generate_fip(fip_4)))
# Usage
usage_vals = {"tenant_id": TEST.tenant.id,
"instance_name": server_1.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram}
usage_obj = usage.Usage(usage.UsageManager(None),
json.loads(USAGE_DATA % usage_vals))
TEST.usages.add(usage_obj)
usage_2_vals = {"tenant_id": tenant3.id,
"instance_name": server_3.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram}
usage_obj_2 = usage.Usage(usage.UsageManager(None),
json.loads(USAGE_DATA % usage_2_vals))
TEST.usages.add(usage_obj_2)
volume_snapshot = vol_snaps.Snapshot(vol_snaps.SnapshotManager(None),
{'id': '40f3fabf-3613-4f5e-90e5-6c9a08333fc3',
'display_name': 'test snapshot',
'display_description': 'vol snap!',
'size': 40,
'status': 'available',
'volume_id': '41023e92-8008-4c8b-8059-7f2293ff3775'})
TEST.volume_snapshots.add(volume_snapshot)
cert_data = {'private_key': 'private',
'data': 'certificate_data'}
certificate = certs.Certificate(certs.CertificateManager(None), cert_data)
TEST.certs.add(certificate)
# Availability Zones
TEST.availability_zones.add(
availability_zones.AvailabilityZone(
availability_zones.AvailabilityZoneManager(None),
{'zoneName': 'nova', 'zoneState': {'available': True}}
)
)
# hypervisors
hypervisor_1 = hypervisors.Hypervisor(hypervisors.HypervisorManager(None),
{
"service": {"host": "devstack001", "id": 3},
"vcpus_used": 1,
"hypervisor_type": "QEMU",
"local_gb_used": 20,
"hypervisor_hostname": "devstack001",
"memory_mb_used": 1500,
"memory_mb": 2000,
"current_workload": 0,
"vcpus": 1,
"cpu_info": '{"vendor": "Intel", "model": "core2duo",'
'"arch": "x86_64", "features": ["lahf_lm"'
', "rdtscp"], "topology": {"cores": 1, "t'
'hreads": 1, "sockets": 1}}',
"running_vms": 1,
"free_disk_gb": 9,
"hypervisor_version": 1002000,
"disk_available_least": 6,
"local_gb": 29,
"free_ram_mb": 500,
"id": 1
}
)
TEST.hypervisors.add(hypervisor_1)
TEST.hypervisors.stats = {
"hypervisor_statistics": {
"count": 5,
"vcpus_used": 3,
"local_gb_used": 15,
"memory_mb": 483310,
"current_workload": 0,
"vcpus": 160,
"running_vms": 3,
"free_disk_gb": 12548,
"disk_available_least": 12556,
"local_gb": 12563,
"free_ram_mb": 428014,
"memory_mb_used": 55296
}
}
# Services
service_1 = services.Service(services.ServiceManager(None),
{
"status": "enabled",
"binary": "nova-conductor",
"zone": "internal",
"state": "up",
"updated_at": "2013-07-08T05:21:00.000000",
"host": "devstack001",
"disabled_reason": None
}
)
service_2 = services.Service(services.ServiceManager(None),
{
"status": "enabled",
"binary": "nova-compute",
"zone": "nova",
"state": "up",
"updated_at": "2013-07-08T05:20:51.000000",
"host": "devstack001",
"disabled_reason": None
}
)
TEST.services.add(service_1)
TEST.services.add(service_2)
# Aggregates
aggregate_1 = aggregates.Aggregate(aggregates.AggregateManager(None),
{
"name": "foo",
"availability_zone": None,
"deleted": 0,
"created_at": "2013-07-04T13:34:38.000000",
"updated_at": None,
"hosts": ["foo", "bar"],
"deleted_at": None,
"id": 1,
"metadata": {
"foo": "testing",
"bar": "testing"
}
}
)
aggregate_2 = aggregates.Aggregate(aggregates.AggregateManager(None),
{
"name": "bar",
"availability_zone": "testing",
"deleted": 0,
"created_at": "2013-07-04T13:34:38.000000",
"updated_at": None,
"hosts": ["foo", "bar"],
"deleted_at": None,
"id": 2,
"metadata": {
"foo": "testing",
"bar": "testing"
}
}
)
TEST.aggregates.add(aggregate_1)
TEST.aggregates.add(aggregate_2)
def data(TEST):
TEST.servers = TestDataContainer()
TEST.flavors = TestDataContainer()
TEST.keypairs = TestDataContainer()
TEST.security_groups = TestDataContainer()
TEST.security_groups_uuid = TestDataContainer()
TEST.security_group_rules = TestDataContainer()
TEST.security_group_rules_uuid = TestDataContainer()
TEST.volumes = TestDataContainer()
TEST.quotas = TestDataContainer()
TEST.quota_usages = TestDataContainer()
TEST.floating_ips = TestDataContainer()
TEST.floating_ips_uuid = TestDataContainer()
TEST.usages = TestDataContainer()
TEST.certs = TestDataContainer()
TEST.volume_snapshots = TestDataContainer()
TEST.volume_types = TestDataContainer()
# Data return by novaclient.
# It is used if API layer does data conversion.
TEST.api_floating_ips = TestDataContainer()
TEST.api_floating_ips_uuid = TestDataContainer()
# Volumes
volume = volumes.Volume(volumes.VolumeManager(None),
dict(id="41023e92-8008-4c8b-8059-7f2293ff3775",
name='test_volume',
status='available',
size=40,
display_name='Volume name',
created_at='2012-04-01 10:30:00',
volume_type=None,
attachments=[]))
nameless_volume = volumes.Volume(volumes.VolumeManager(None),
dict(id="3b189ac8-9166-ac7f-90c9-16c8bf9e01ac",
name='',
status='in-use',
size=10,
display_name='',
display_description='',
device="/dev/hda",
created_at='2010-11-21 18:34:25',
volume_type='vol_type_1',
attachments=[{"id": "1", "server_id": '1',
"device": "/dev/hda"}]))
attached_volume = volumes.Volume(volumes.VolumeManager(None),
dict(id="8cba67c1-2741-6c79-5ab6-9c2bf8c96ab0",
name='my_volume',
status='in-use',
size=30,
display_name='My Volume',
display_description='',
device="/dev/hdk",
created_at='2011-05-01 11:54:33',
volume_type='vol_type_2',
attachments=[{"id": "2", "server_id": '1',
"device": "/dev/hdk"}]))
TEST.volumes.add(volume)
TEST.volumes.add(nameless_volume)
TEST.volumes.add(attached_volume)
vol_type1 = volume_types.VolumeType(volume_types.VolumeTypeManager(None),
{'id': 1,
'name': 'vol_type_1'})
vol_type2 = volume_types.VolumeType(volume_types.VolumeTypeManager(None),
{'id': 2,
'name': 'vol_type_2'})
TEST.volume_types.add(vol_type1, vol_type2)
# Flavors
flavor_1 = flavors.Flavor(flavors.FlavorManager(None),
{'id': "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa",
'name': 'm1.tiny',
'vcpus': 1,
'disk': 0,
'ram': 512,
'swap': 0,
'extra_specs': {},
'OS-FLV-EXT-DATA:ephemeral': 0})
flavor_2 = flavors.Flavor(flavors.FlavorManager(None),
{'id': "bbbbbbbb-bbbb-bbbb-bbbb-bbbbbbbbbbbb",
'name': 'm1.massive',
'vcpus': 1000,
'disk': 1024,
'ram': 10000,
'swap': 0,
'extra_specs': {'Trusted': True, 'foo': 'bar'},
'OS-FLV-EXT-DATA:ephemeral': 2048})
TEST.flavors.add(flavor_1, flavor_2)
# Keypairs
keypair = keypairs.Keypair(keypairs.KeypairManager(None),
dict(name='keyName'))
TEST.keypairs.add(keypair)
# Security Groups and Rules
def generate_security_groups(is_uuid=False):
def get_id(is_uuid):
global current_int_id
if is_uuid:
return str(uuid.uuid4())
else:
get_id.current_int_id += 1
return get_id.current_int_id
get_id.current_int_id = 0
sg_manager = sec_groups.SecurityGroupManager(None)
rule_manager = rules.SecurityGroupRuleManager(None)
sec_group_1 = sec_groups.SecurityGroup(sg_manager,
{"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"default",
"description": u"default"})
sec_group_2 = sec_groups.SecurityGroup(sg_manager,
{"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"other_group",
"description": u"NotDefault."})
sec_group_3 = sec_groups.SecurityGroup(sg_manager,
{"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"another_group",
"description": u"NotDefault."})
rule = {'id': get_id(is_uuid),
'ip_protocol': u"tcp",
'from_port': u"80",
'to_port': u"80",
'parent_group_id': sec_group_1.id,
'ip_range': {'cidr': u"0.0.0.0/32"}}
icmp_rule = {'id': get_id(is_uuid),
'ip_protocol': u"icmp",
'from_port': u"9",
'to_port': u"5",
'parent_group_id': sec_group_1.id,
'ip_range': {'cidr': u"0.0.0.0/32"}}
group_rule = {'id': 3,
'ip_protocol': u"tcp",
'from_port': u"80",
'to_port': u"80",
'parent_group_id': sec_group_1.id,
'source_group_id': sec_group_1.id}
rule_obj = rules.SecurityGroupRule(rule_manager, rule)
rule_obj2 = rules.SecurityGroupRule(rule_manager, icmp_rule)
rule_obj3 = rules.SecurityGroupRule(rule_manager, group_rule)
sec_group_1.rules = [rule_obj]
sec_group_2.rules = [rule_obj]
return {"rules": [rule_obj, rule_obj2, rule_obj3],
"groups": [sec_group_1, sec_group_2, sec_group_3]}
sg_data = generate_security_groups()
TEST.security_group_rules.add(*sg_data["rules"])
TEST.security_groups.add(*sg_data["groups"])
sg_uuid_data = generate_security_groups(is_uuid=True)
TEST.security_group_rules_uuid.add(*sg_uuid_data["rules"])
TEST.security_groups_uuid.add(*sg_uuid_data["groups"])
# Quota Sets
quota_data = dict(metadata_items='1',
injected_file_content_bytes='1',
volumes='1',
gigabytes='1000',
ram=10000,
floating_ips='1',
instances='10',
injected_files='1',
cores='10',
security_groups='10',
security_group_rules='20')
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
TEST.quotas.nova = QuotaSetWrapper(quota)
TEST.quotas.add(QuotaSetWrapper(quota))
# Quota Usages
quota_usage_data = {'gigabytes': {'used': 0,
'quota': 1000},
'instances': {'used': 0,
'quota': 10},
'ram': {'used': 0,
'quota': 10000},
'cores': {'used': 0,
'quota': 20}}
quota_usage = QuotaUsage()
for k, v in quota_usage_data.items():
quota_usage.add_quota(Quota(k, v['quota']))
quota_usage.tally(k, v['used'])
TEST.quota_usages.add(quota_usage)
# Limits
limits = {"absolute": {"maxImageMeta": 128,
"maxPersonality": 5,
"maxPersonalitySize": 10240,
"maxSecurityGroupRules": 20,
"maxSecurityGroups": 10,
"maxServerMeta": 128,
"maxTotalCores": 20,
"maxTotalFloatingIps": 10,
"maxTotalInstances": 10,
"maxTotalKeypairs": 100,
"maxTotalRAMSize": 10000,
"totalCoresUsed": 0,
"totalInstancesUsed": 0,
"totalKeyPairsUsed": 0,
"totalRAMUsed": 0,
"totalSecurityGroupsUsed": 0}}
TEST.limits = limits
# Servers
vals = {"host": "http://nova.example.com:8774",
"name": "server_1",
"status": "ACTIVE",
"tenant_id": TEST.tenants.first().id,
"user_id": TEST.user.id,
"server_id": "1",
"flavor_id": flavor_1.id,
"image_id": TEST.images.first().id,
"key_name": keypair.name}
server_1 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
vals.update({"name": "server_2",
"status": "BUILD",
"server_id": "2"})
server_2 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
TEST.servers.add(server_1, server_2)
# VNC Console Data
console = {u'console': {u'url': u'http://example.com:6080/vnc_auto.html',
u'type': u'novnc'}}
TEST.servers.vnc_console_data = console
# SPICE Console Data
console = {u'console': {u'url': u'http://example.com:6080/spice_auto.html',
u'type': u'spice'}}
TEST.servers.spice_console_data = console
# Floating IPs
fip_1 = floating_ips.FloatingIP(floating_ips.FloatingIPManager(None),
{'id': 1,
'fixed_ip': '10.0.0.4',
'instance_id': server_1.id,
'ip': '58.58.58.58',
'pool': 'pool1'})
fip_2 = floating_ips.FloatingIP(floating_ips.FloatingIPManager(None),
{'id': 2,
'fixed_ip': None,
'instance_id': None,
'ip': '58.58.58.58',
'pool': 'pool2'})
TEST.api_floating_ips.add(fip_1, fip_2)
TEST.floating_ips.add(NetFloatingIp(copy.deepcopy(fip_1)),
NetFloatingIp(copy.deepcopy(fip_2)))
# Floating IP with UUID id (for Floating IP with Quantum Proxy)
fip_3 = floating_ips.FloatingIP(floating_ips.FloatingIPManager(None),
{'id': str(uuid.uuid4()),
'fixed_ip': '10.0.0.4',
'instance_id': server_1.id,
'ip': '58.58.58.58',
'pool': 'pool1'})
fip_4 = floating_ips.FloatingIP(floating_ips.FloatingIPManager(None),
{'id': str(uuid.uuid4()),
'fixed_ip': None,
'instance_id': None,
'ip': '58.58.58.58',
'pool': 'pool2'})
TEST.api_floating_ips_uuid.add(fip_3, fip_4)
TEST.floating_ips_uuid.add(NetFloatingIp(copy.deepcopy(fip_3)),
NetFloatingIp(copy.deepcopy(fip_4)))
# Usage
usage_vals = {"tenant_id": TEST.tenant.id,
"instance_name": server_1.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram}
usage_obj = usage.Usage(usage.UsageManager(None),
json.loads(USAGE_DATA % usage_vals))
TEST.usages.add(usage_obj)
volume_snapshot = vol_snaps.Snapshot(vol_snaps.SnapshotManager(None),
{'id': '40f3fabf-3613-4f5e-90e5-6c9a08333fc3',
'display_name': 'test snapshot',
'display_description': 'vol snap!',
'size': 40,
'status': 'available',
'volume_id': '41023e92-8008-4c8b-8059-7f2293ff3775'})
TEST.volume_snapshots.add(volume_snapshot)
cert_data = {'private_key': 'private',
'data': 'certificate_data'}
certificate = certs.Certificate(certs.CertificateManager(None), cert_data)
TEST.certs.add(certificate)
def data(TEST):
TEST.servers = TestDataContainer()
TEST.flavors = TestDataContainer()
TEST.keypairs = TestDataContainer()
TEST.security_groups = TestDataContainer()
TEST.security_groups_uuid = TestDataContainer()
TEST.security_group_rules = TestDataContainer()
TEST.security_group_rules_uuid = TestDataContainer()
TEST.volumes = TestDataContainer()
TEST.quotas = TestDataContainer()
TEST.quota_usages = TestDataContainer()
TEST.floating_ips = TestDataContainer()
TEST.floating_ips_uuid = TestDataContainer()
TEST.usages = TestDataContainer()
TEST.certs = TestDataContainer()
TEST.volume_snapshots = TestDataContainer()
TEST.volume_types = TestDataContainer()
TEST.availability_zones = TestDataContainer()
TEST.hypervisors = TestDataContainer()
TEST.services = TestDataContainer()
TEST.aggregates = TestDataContainer()
# Data return by novaclient.
# It is used if API layer does data conversion.
TEST.api_floating_ips = TestDataContainer()
TEST.api_floating_ips_uuid = TestDataContainer()
# Volumes
volume = volumes.Volume(
volumes.VolumeManager(None),
dict(id="41023e92-8008-4c8b-8059-7f2293ff3775",
name='test_volume',
status='available',
size=40,
display_name='Volume name',
created_at='2012-04-01 10:30:00',
volume_type=None,
attachments=[]))
nameless_volume = volumes.Volume(
volumes.VolumeManager(None),
dict(id="3b189ac8-9166-ac7f-90c9-16c8bf9e01ac",
name='',
status='in-use',
size=10,
display_name='',
display_description='',
device="/dev/hda",
created_at='2010-11-21 18:34:25',
volume_type='vol_type_1',
attachments=[{
"id": "1",
"server_id": '1',
"device": "/dev/hda"
}]))
attached_volume = volumes.Volume(
volumes.VolumeManager(None),
dict(id="8cba67c1-2741-6c79-5ab6-9c2bf8c96ab0",
name='my_volume',
status='in-use',
size=30,
display_name='My Volume',
display_description='',
device="/dev/hdk",
created_at='2011-05-01 11:54:33',
volume_type='vol_type_2',
attachments=[{
"id": "2",
"server_id": '1',
"device": "/dev/hdk"
}]))
TEST.volumes.add(volume)
TEST.volumes.add(nameless_volume)
TEST.volumes.add(attached_volume)
vol_type1 = volume_types.VolumeType(volume_types.VolumeTypeManager(None), {
'id': 1,
'name': 'vol_type_1'
})
vol_type2 = volume_types.VolumeType(volume_types.VolumeTypeManager(None), {
'id': 2,
'name': 'vol_type_2'
})
TEST.volume_types.add(vol_type1, vol_type2)
# Flavors
flavor_1 = flavors.Flavor(
flavors.FlavorManager(None), {
'id': "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa",
'name': 'm1.tiny',
'vcpus': 1,
'disk': 0,
'ram': 512,
'swap': 0,
'extra_specs': {},
'OS-FLV-EXT-DATA:ephemeral': 0
})
flavor_2 = flavors.Flavor(
flavors.FlavorManager(None), {
'id': "bbbbbbbb-bbbb-bbbb-bbbb-bbbbbbbbbbbb",
'name': 'm1.massive',
'vcpus': 1000,
'disk': 1024,
'ram': 10000,
'swap': 0,
'extra_specs': {
'Trusted': True,
'foo': 'bar'
},
'OS-FLV-EXT-DATA:ephemeral': 2048
})
TEST.flavors.add(flavor_1, flavor_2)
# Keypairs
keypair = keypairs.Keypair(keypairs.KeypairManager(None),
dict(name='keyName'))
TEST.keypairs.add(keypair)
# Security Groups and Rules
def generate_security_groups(is_uuid=False):
def get_id(is_uuid):
global current_int_id
if is_uuid:
return str(uuid.uuid4())
else:
get_id.current_int_id += 1
return get_id.current_int_id
get_id.current_int_id = 0
sg_manager = sec_groups.SecurityGroupManager(None)
rule_manager = rules.SecurityGroupRuleManager(None)
sec_group_1 = sec_groups.SecurityGroup(
sg_manager, {
"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"default",
"description": u"default"
})
sec_group_2 = sec_groups.SecurityGroup(
sg_manager, {
"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"other_group",
"description": u"NotDefault."
})
sec_group_3 = sec_groups.SecurityGroup(
sg_manager, {
"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"another_group",
"description": u"NotDefault."
})
rule = {
'id': get_id(is_uuid),
'group': {},
'ip_protocol': u"tcp",
'from_port': u"80",
'to_port': u"80",
'parent_group_id': sec_group_1.id,
'ip_range': {
'cidr': u"0.0.0.0/32"
}
}
icmp_rule = {
'id': get_id(is_uuid),
'group': {},
'ip_protocol': u"icmp",
'from_port': u"9",
'to_port': u"5",
'parent_group_id': sec_group_1.id,
'ip_range': {
'cidr': u"0.0.0.0/32"
}
}
group_rule = {
'id': 3,
'group': {},
'ip_protocol': u"tcp",
'from_port': u"80",
'to_port': u"80",
'parent_group_id': sec_group_1.id,
'source_group_id': sec_group_1.id
}
rule_obj = rules.SecurityGroupRule(rule_manager, rule)
rule_obj2 = rules.SecurityGroupRule(rule_manager, icmp_rule)
rule_obj3 = rules.SecurityGroupRule(rule_manager, group_rule)
sec_group_1.rules = [rule_obj]
sec_group_2.rules = [rule_obj]
return {
"rules": [rule_obj, rule_obj2, rule_obj3],
"groups": [sec_group_1, sec_group_2, sec_group_3]
}
sg_data = generate_security_groups()
TEST.security_group_rules.add(*sg_data["rules"])
TEST.security_groups.add(*sg_data["groups"])
sg_uuid_data = generate_security_groups(is_uuid=True)
TEST.security_group_rules_uuid.add(*sg_uuid_data["rules"])
TEST.security_groups_uuid.add(*sg_uuid_data["groups"])
# Quota Sets
quota_data = dict(metadata_items='1',
injected_file_content_bytes='1',
volumes='1',
gigabytes='1000',
ram=10000,
floating_ips='1',
fixed_ips='10',
instances='10',
injected_files='1',
cores='10',
security_groups='10',
security_group_rules='20')
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
TEST.quotas.nova = QuotaSetWrapper(quota)
TEST.quotas.add(QuotaSetWrapper(quota))
# Quota Usages
quota_usage_data = {
'gigabytes': {
'used': 0,
'quota': 1000
},
'instances': {
'used': 0,
'quota': 10
},
'ram': {
'used': 0,
'quota': 10000
},
'cores': {
'used': 0,
'quota': 20
},
'floating_ips': {
'used': 0,
'quota': 10
},
'volumes': {
'used': 0,
'quota': 10
}
}
quota_usage = QuotaUsage()
for k, v in quota_usage_data.items():
quota_usage.add_quota(Quota(k, v['quota']))
quota_usage.tally(k, v['used'])
TEST.quota_usages.add(quota_usage)
# Limits
limits = {
"absolute": {
"maxImageMeta": 128,
"maxPersonality": 5,
"maxPersonalitySize": 10240,
"maxSecurityGroupRules": 20,
"maxSecurityGroups": 10,
"maxServerMeta": 128,
"maxTotalCores": 20,
"maxTotalFloatingIps": 10,
"maxTotalInstances": 10,
"maxTotalKeypairs": 100,
"maxTotalRAMSize": 10000,
"totalCoresUsed": 0,
"totalInstancesUsed": 0,
"totalKeyPairsUsed": 0,
"totalRAMUsed": 0,
"totalSecurityGroupsUsed": 0
}
}
TEST.limits = limits
# Servers
tenant3 = TEST.tenants.list()[2]
vals = {
"host": "http://nova.example.com:8774",
"name": "server_1",
"status": "ACTIVE",
"tenant_id": TEST.tenants.first().id,
"user_id": TEST.user.id,
"server_id": "1",
"flavor_id": flavor_1.id,
"image_id": TEST.images.first().id,
"key_name": keypair.name
}
server_1 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
vals.update({"name": "server_2", "status": "BUILD", "server_id": "2"})
server_2 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
vals.update({
"name": u'\u4e91\u89c4\u5219',
"status": "ACTIVE",
"tenant_id": tenant3.id,
"server_id": "3"
})
server_3 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
TEST.servers.add(server_1, server_2, server_3)
# VNC Console Data
console = {
u'console': {
u'url': u'http://example.com:6080/vnc_auto.html',
u'type': u'novnc'
}
}
TEST.servers.vnc_console_data = console
# SPICE Console Data
console = {
u'console': {
u'url': u'http://example.com:6080/spice_auto.html',
u'type': u'spice'
}
}
TEST.servers.spice_console_data = console
# Floating IPs
def generate_fip(conf):
return floating_ips.FloatingIP(floating_ips.FloatingIPManager(None),
conf)
fip_1 = {
'id': 1,
'fixed_ip': '10.0.0.4',
'instance_id': server_1.id,
'ip': '58.58.58.58',
'pool': 'pool1'
}
fip_2 = {
'id': 2,
'fixed_ip': None,
'instance_id': None,
'ip': '58.58.58.58',
'pool': 'pool2'
}
TEST.api_floating_ips.add(generate_fip(fip_1), generate_fip(fip_2))
TEST.floating_ips.add(NetFloatingIp(generate_fip(fip_1)),
NetFloatingIp(generate_fip(fip_2)))
# Floating IP with UUID id (for Floating IP with Neutron Proxy)
fip_3 = {
'id': str(uuid.uuid4()),
'fixed_ip': '10.0.0.4',
'instance_id': server_1.id,
'ip': '58.58.58.58',
'pool': 'pool1'
}
fip_4 = {
'id': str(uuid.uuid4()),
'fixed_ip': None,
'instance_id': None,
'ip': '58.58.58.58',
'pool': 'pool2'
}
TEST.api_floating_ips_uuid.add(generate_fip(fip_3), generate_fip(fip_4))
TEST.floating_ips_uuid.add(NetFloatingIp(generate_fip(fip_3)),
NetFloatingIp(generate_fip(fip_4)))
# Usage
usage_vals = {
"tenant_id": TEST.tenant.id,
"instance_name": server_1.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram
}
usage_obj = usage.Usage(usage.UsageManager(None),
json.loads(USAGE_DATA % usage_vals))
TEST.usages.add(usage_obj)
usage_2_vals = {
"tenant_id": tenant3.id,
"instance_name": server_3.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram
}
usage_obj_2 = usage.Usage(usage.UsageManager(None),
json.loads(USAGE_DATA % usage_2_vals))
TEST.usages.add(usage_obj_2)
volume_snapshot = vol_snaps.Snapshot(
vol_snaps.SnapshotManager(None), {
'id': '40f3fabf-3613-4f5e-90e5-6c9a08333fc3',
'display_name': 'test snapshot',
'display_description': 'vol snap!',
'size': 40,
'status': 'available',
'volume_id': '41023e92-8008-4c8b-8059-7f2293ff3775'
})
TEST.volume_snapshots.add(volume_snapshot)
cert_data = {'private_key': 'private', 'data': 'certificate_data'}
certificate = certs.Certificate(certs.CertificateManager(None), cert_data)
TEST.certs.add(certificate)
# Availability Zones
TEST.availability_zones.add(
availability_zones.AvailabilityZone(
availability_zones.AvailabilityZoneManager(None), {
'zoneName': 'nova',
'zoneState': {
'available': True
}
}))
# hypervisors
hypervisor_1 = hypervisors.Hypervisor(
hypervisors.HypervisorManager(None), {
"service": {
"host": "devstack001",
"id": 3
},
"vcpus_used":
1,
"hypervisor_type":
"QEMU",
"local_gb_used":
20,
"hypervisor_hostname":
"devstack001",
"memory_mb_used":
1500,
"memory_mb":
2000,
"current_workload":
0,
"vcpus":
1,
"cpu_info":
'{"vendor": "Intel", "model": "core2duo",'
'"arch": "x86_64", "features": ["lahf_lm"'
', "rdtscp"], "topology": {"cores": 1, "t'
'hreads": 1, "sockets": 1}}',
"running_vms":
1,
"free_disk_gb":
9,
"hypervisor_version":
1002000,
"disk_available_least":
6,
"local_gb":
29,
"free_ram_mb":
500,
"id":
1
})
TEST.hypervisors.add(hypervisor_1)
TEST.hypervisors.stats = {
"hypervisor_statistics": {
"count": 5,
"vcpus_used": 3,
"local_gb_used": 15,
"memory_mb": 483310,
"current_workload": 0,
"vcpus": 160,
"running_vms": 3,
"free_disk_gb": 12548,
"disk_available_least": 12556,
"local_gb": 12563,
"free_ram_mb": 428014,
"memory_mb_used": 55296
}
}
# Services
service_1 = services.Service(
services.ServiceManager(None), {
"status": "enabled",
"binary": "nova-conductor",
"zone": "internal",
"state": "up",
"updated_at": "2013-07-08T05:21:00.000000",
"host": "devstack001",
"disabled_reason": None
})
service_2 = services.Service(
services.ServiceManager(None), {
"status": "enabled",
"binary": "nova-compute",
"zone": "nova",
"state": "up",
"updated_at": "2013-07-08T05:20:51.000000",
"host": "devstack001",
"disabled_reason": None
})
TEST.services.add(service_1)
TEST.services.add(service_2)
# Aggregates
aggregate_1 = aggregates.Aggregate(
aggregates.AggregateManager(None), {
"name": "foo",
"availability_zone": None,
"deleted": 0,
"created_at": "2013-07-04T13:34:38.000000",
"updated_at": None,
"hosts": ["foo", "bar"],
"deleted_at": None,
"id": 1,
"metadata": {
"foo": "testing",
"bar": "testing"
}
})
aggregate_2 = aggregates.Aggregate(
aggregates.AggregateManager(None), {
"name": "bar",
"availability_zone": "testing",
"deleted": 0,
"created_at": "2013-07-04T13:34:38.000000",
"updated_at": None,
"hosts": ["foo", "bar"],
"deleted_at": None,
"id": 2,
"metadata": {
"foo": "testing",
"bar": "testing"
}
})
TEST.aggregates.add(aggregate_1)
TEST.aggregates.add(aggregate_2)
def data(TEST):
TEST.servers = TestDataContainer()
TEST.flavors = TestDataContainer()
TEST.keypairs = TestDataContainer()
TEST.security_groups = TestDataContainer()
TEST.security_groups_uuid = TestDataContainer()
TEST.security_group_rules = TestDataContainer()
TEST.security_group_rules_uuid = TestDataContainer()
TEST.volumes = TestDataContainer()
TEST.quotas = TestDataContainer()
TEST.quota_usages = TestDataContainer()
TEST.floating_ips = TestDataContainer()
TEST.floating_ips_uuid = TestDataContainer()
TEST.usages = TestDataContainer()
TEST.certs = TestDataContainer()
TEST.volume_snapshots = TestDataContainer()
TEST.volume_types = TestDataContainer()
# Data return by novaclient.
# It is used if API layer does data conversion.
TEST.api_floating_ips = TestDataContainer()
TEST.api_floating_ips_uuid = TestDataContainer()
# Volumes
volume = volumes.Volume(
volumes.VolumeManager(None),
dict(id="41023e92-8008-4c8b-8059-7f2293ff3775",
name='test_volume',
status='available',
size=40,
display_name='Volume name',
created_at='2012-04-01 10:30:00',
volume_type=None,
attachments=[]))
nameless_volume = volumes.Volume(
volumes.VolumeManager(None),
dict(id="3b189ac8-9166-ac7f-90c9-16c8bf9e01ac",
name='',
status='in-use',
size=10,
display_name='',
display_description='',
device="/dev/hda",
created_at='2010-11-21 18:34:25',
volume_type='vol_type_1',
attachments=[{
"id": "1",
"server_id": '1',
"device": "/dev/hda"
}]))
attached_volume = volumes.Volume(
volumes.VolumeManager(None),
dict(id="8cba67c1-2741-6c79-5ab6-9c2bf8c96ab0",
name='my_volume',
status='in-use',
size=30,
display_name='My Volume',
display_description='',
device="/dev/hdk",
created_at='2011-05-01 11:54:33',
volume_type='vol_type_2',
attachments=[{
"id": "2",
"server_id": '1',
"device": "/dev/hdk"
}]))
TEST.volumes.add(volume)
TEST.volumes.add(nameless_volume)
TEST.volumes.add(attached_volume)
vol_type1 = volume_types.VolumeType(volume_types.VolumeTypeManager(None), {
'id': 1,
'name': 'vol_type_1'
})
vol_type2 = volume_types.VolumeType(volume_types.VolumeTypeManager(None), {
'id': 2,
'name': 'vol_type_2'
})
TEST.volume_types.add(vol_type1, vol_type2)
# Flavors
flavor_1 = flavors.Flavor(
flavors.FlavorManager(None), {
'id': "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa",
'name': 'm1.tiny',
'vcpus': 1,
'disk': 0,
'ram': 512,
'swap': 0,
'extra_specs': {},
'OS-FLV-EXT-DATA:ephemeral': 0
})
flavor_2 = flavors.Flavor(
flavors.FlavorManager(None), {
'id': "bbbbbbbb-bbbb-bbbb-bbbb-bbbbbbbbbbbb",
'name': 'm1.massive',
'vcpus': 1000,
'disk': 1024,
'ram': 10000,
'swap': 0,
'extra_specs': {
'Trusted': True,
'foo': 'bar'
},
'OS-FLV-EXT-DATA:ephemeral': 2048
})
TEST.flavors.add(flavor_1, flavor_2)
# Keypairs
keypair = keypairs.Keypair(keypairs.KeypairManager(None),
dict(name='keyName'))
TEST.keypairs.add(keypair)
# Security Groups and Rules
def generate_security_groups(is_uuid=False):
def get_id(is_uuid):
global current_int_id
if is_uuid:
return str(uuid.uuid4())
else:
get_id.current_int_id += 1
return get_id.current_int_id
get_id.current_int_id = 0
sg_manager = sec_groups.SecurityGroupManager(None)
rule_manager = rules.SecurityGroupRuleManager(None)
sec_group_1 = sec_groups.SecurityGroup(
sg_manager, {
"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"default",
"description": u"default"
})
sec_group_2 = sec_groups.SecurityGroup(
sg_manager, {
"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"other_group",
"description": u"NotDefault."
})
sec_group_3 = sec_groups.SecurityGroup(
sg_manager, {
"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"another_group",
"description": u"NotDefault."
})
rule = {
'id': get_id(is_uuid),
'group': {},
'ip_protocol': u"tcp",
'from_port': u"80",
'to_port': u"80",
'parent_group_id': sec_group_1.id,
'ip_range': {
'cidr': u"0.0.0.0/32"
}
}
icmp_rule = {
'id': get_id(is_uuid),
'group': {},
'ip_protocol': u"icmp",
'from_port': u"9",
'to_port': u"5",
'parent_group_id': sec_group_1.id,
'ip_range': {
'cidr': u"0.0.0.0/32"
}
}
group_rule = {
'id': 3,
'group': {},
'ip_protocol': u"tcp",
'from_port': u"80",
'to_port': u"80",
'parent_group_id': sec_group_1.id,
'source_group_id': sec_group_1.id
}
rule_obj = rules.SecurityGroupRule(rule_manager, rule)
rule_obj2 = rules.SecurityGroupRule(rule_manager, icmp_rule)
rule_obj3 = rules.SecurityGroupRule(rule_manager, group_rule)
sec_group_1.rules = [rule_obj]
sec_group_2.rules = [rule_obj]
return {
"rules": [rule_obj, rule_obj2, rule_obj3],
"groups": [sec_group_1, sec_group_2, sec_group_3]
}
sg_data = generate_security_groups()
TEST.security_group_rules.add(*sg_data["rules"])
TEST.security_groups.add(*sg_data["groups"])
sg_uuid_data = generate_security_groups(is_uuid=True)
TEST.security_group_rules_uuid.add(*sg_uuid_data["rules"])
TEST.security_groups_uuid.add(*sg_uuid_data["groups"])
# Quota Sets
quota_data = dict(metadata_items='1',
injected_file_content_bytes='1',
volumes='1',
gigabytes='1000',
ram=10000,
floating_ips='1',
fixed_ips='10',
instances='10',
injected_files='1',
cores='10',
security_groups='10',
security_group_rules='20')
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
TEST.quotas.nova = QuotaSetWrapper(quota)
TEST.quotas.add(QuotaSetWrapper(quota))
# Quota Usages
quota_usage_data = {
'gigabytes': {
'used': 0,
'quota': 1000
},
'instances': {
'used': 0,
'quota': 10
},
'ram': {
'used': 0,
'quota': 10000
},
'cores': {
'used': 0,
'quota': 20
}
}
quota_usage = QuotaUsage()
for k, v in quota_usage_data.items():
quota_usage.add_quota(Quota(k, v['quota']))
quota_usage.tally(k, v['used'])
TEST.quota_usages.add(quota_usage)
# Limits
limits = {
"absolute": {
"maxImageMeta": 128,
"maxPersonality": 5,
"maxPersonalitySize": 10240,
"maxSecurityGroupRules": 20,
"maxSecurityGroups": 10,
"maxServerMeta": 128,
"maxTotalCores": 20,
"maxTotalFloatingIps": 10,
"maxTotalInstances": 10,
"maxTotalKeypairs": 100,
"maxTotalRAMSize": 10000,
"totalCoresUsed": 0,
"totalInstancesUsed": 0,
"totalKeyPairsUsed": 0,
"totalRAMUsed": 0,
"totalSecurityGroupsUsed": 0
}
}
TEST.limits = limits
# Servers
vals = {
"host": "http://nova.example.com:8774",
"name": "server_1",
"status": "ACTIVE",
"tenant_id": TEST.tenants.first().id,
"user_id": TEST.user.id,
"server_id": "1",
"flavor_id": flavor_1.id,
"image_id": TEST.images.first().id,
"key_name": keypair.name
}
server_1 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
vals.update({"name": "server_2", "status": "BUILD", "server_id": "2"})
server_2 = servers.Server(servers.ServerManager(None),
json.loads(SERVER_DATA % vals)['server'])
TEST.servers.add(server_1, server_2)
# VNC Console Data
console = {
u'console': {
u'url': u'http://example.com:6080/vnc_auto.html',
u'type': u'novnc'
}
}
TEST.servers.vnc_console_data = console
# SPICE Console Data
console = {
u'console': {
u'url': u'http://example.com:6080/spice_auto.html',
u'type': u'spice'
}
}
TEST.servers.spice_console_data = console
# Floating IPs
fip_1 = floating_ips.FloatingIP(
floating_ips.FloatingIPManager(None), {
'id': 1,
'fixed_ip': '10.0.0.4',
'instance_id': server_1.id,
'ip': '58.58.58.58',
'pool': 'pool1'
})
fip_2 = floating_ips.FloatingIP(
floating_ips.FloatingIPManager(None), {
'id': 2,
'fixed_ip': None,
'instance_id': None,
'ip': '58.58.58.58',
'pool': 'pool2'
})
TEST.api_floating_ips.add(fip_1, fip_2)
TEST.floating_ips.add(NetFloatingIp(copy.deepcopy(fip_1)),
NetFloatingIp(copy.deepcopy(fip_2)))
# Floating IP with UUID id (for Floating IP with Quantum Proxy)
fip_3 = floating_ips.FloatingIP(
floating_ips.FloatingIPManager(None), {
'id': str(uuid.uuid4()),
'fixed_ip': '10.0.0.4',
'instance_id': server_1.id,
'ip': '58.58.58.58',
'pool': 'pool1'
})
fip_4 = floating_ips.FloatingIP(
floating_ips.FloatingIPManager(None), {
'id': str(uuid.uuid4()),
'fixed_ip': None,
'instance_id': None,
'ip': '58.58.58.58',
'pool': 'pool2'
})
TEST.api_floating_ips_uuid.add(fip_3, fip_4)
TEST.floating_ips_uuid.add(NetFloatingIp(copy.deepcopy(fip_3)),
NetFloatingIp(copy.deepcopy(fip_4)))
# Usage
usage_vals = {
"tenant_id": TEST.tenant.id,
"instance_name": server_1.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram
}
usage_obj = usage.Usage(usage.UsageManager(None),
json.loads(USAGE_DATA % usage_vals))
TEST.usages.add(usage_obj)
volume_snapshot = vol_snaps.Snapshot(
vol_snaps.SnapshotManager(None), {
'id': '40f3fabf-3613-4f5e-90e5-6c9a08333fc3',
'display_name': 'test snapshot',
'display_description': 'vol snap!',
'size': 40,
'status': 'available',
'volume_id': '41023e92-8008-4c8b-8059-7f2293ff3775'
})
TEST.volume_snapshots.add(volume_snapshot)
cert_data = {'private_key': 'private', 'data': 'certificate_data'}
certificate = certs.Certificate(certs.CertificateManager(None), cert_data)
TEST.certs.add(certificate)
def tenant_quota_usages(request):
cloud = None
if 'cloud' in request.GET:
cloud = request.GET['cloud']
elif 'cloud' in request.POST:
cloud = request.POST['cloud']
# Get our quotas and construct our usage object.
disabled_quotas = []
if not is_service_enabled(request, 'volume'):
disabled_quotas.extend(['volumes', 'gigabytes'])
usages = QuotaUsage()
for quota in get_tenant_quota_data(request, disabled_quotas):
usages.add_quota(quota)
# Get our usages.
floating_ips = nova.tenant_floating_ip_list(request)
#flavors = dict([(f.id, f) for f in nova.flavor_list(request) if limit_by_cloud(f) ])
flavors = dict([(f.id, f) for f in nova.flavor_list(request) ])
instances = nova.server_list(request)
if cloud is not None:
instances = [instance for instance in instances
if get_cloud(instance) == cloud]
# Fetch deleted flavors if necessary.
missing_flavors = [instance.flavor['id'] for instance in instances
if instance.flavor['id'] not in flavors]
for missing in missing_flavors:
if missing not in flavors:
try:
flavors[missing] = nova.flavor_get(request, missing)
except:
flavors[missing] = {}
exceptions.handle(request, ignore=True)
usages.tally('instances', len(instances))
usages.tally('floating_ips', len(floating_ips))
if 'volumes' not in disabled_quotas:
volumes = cinder.volume_list(request)
usages.tally('gigabytes', sum([int(v.size) for v in volumes]))
usages.tally('volumes', len(volumes))
# Sum our usage based on the flavors of the instances.
for flavor in [flavors[instance.flavor['id']] for instance in instances]:
usages.tally('cores', getattr(flavor, 'vcpus', None))
usages.tally('ram', getattr(flavor, 'ram', None))
# Initialise the tally if no instances have been launched yet
if len(instances) == 0:
usages.tally('cores', 0)
usages.tally('ram', 0)
return usages
def data(TEST):
TEST.servers = TestDataContainer()
TEST.flavors = TestDataContainer()
TEST.keypairs = TestDataContainer()
TEST.security_groups = TestDataContainer()
TEST.security_groups_uuid = TestDataContainer()
TEST.security_group_rules = TestDataContainer()
TEST.security_group_rules_uuid = TestDataContainer()
TEST.volumes = TestDataContainer()
TEST.quotas = TestDataContainer()
TEST.quota_usages = TestDataContainer()
TEST.floating_ips = TestDataContainer()
TEST.floating_ips_uuid = TestDataContainer()
TEST.usages = TestDataContainer()
TEST.certs = TestDataContainer()
TEST.volume_snapshots = TestDataContainer()
TEST.volume_types = TestDataContainer()
# Data return by novaclient.
# It is used if API layer does data conversion.
TEST.api_floating_ips = TestDataContainer()
TEST.api_floating_ips_uuid = TestDataContainer()
# Volumes
volume = volumes.Volume(
volumes.VolumeManager(None),
dict(
id="41023e92-8008-4c8b-8059-7f2293ff3775",
name="test_volume",
status="available",
size=40,
display_name="Volume name",
created_at="2012-04-01 10:30:00",
volume_type=None,
attachments=[],
),
)
nameless_volume = volumes.Volume(
volumes.VolumeManager(None),
dict(
id="3b189ac8-9166-ac7f-90c9-16c8bf9e01ac",
name="",
status="in-use",
size=10,
display_name="",
display_description="",
device="/dev/hda",
created_at="2010-11-21 18:34:25",
volume_type="vol_type_1",
attachments=[{"id": "1", "server_id": "1", "device": "/dev/hda"}],
),
)
attached_volume = volumes.Volume(
volumes.VolumeManager(None),
dict(
id="8cba67c1-2741-6c79-5ab6-9c2bf8c96ab0",
name="my_volume",
status="in-use",
size=30,
display_name="My Volume",
display_description="",
device="/dev/hdk",
created_at="2011-05-01 11:54:33",
volume_type="vol_type_2",
attachments=[{"id": "2", "server_id": "1", "device": "/dev/hdk"}],
),
)
TEST.volumes.add(volume)
TEST.volumes.add(nameless_volume)
TEST.volumes.add(attached_volume)
vol_type1 = volume_types.VolumeType(volume_types.VolumeTypeManager(None), {"id": 1, "name": "vol_type_1"})
vol_type2 = volume_types.VolumeType(volume_types.VolumeTypeManager(None), {"id": 2, "name": "vol_type_2"})
TEST.volume_types.add(vol_type1, vol_type2)
# Flavors
flavor_1 = flavors.Flavor(
flavors.FlavorManager(None),
{
"id": "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa",
"name": "m1.tiny",
"vcpus": 1,
"disk": 0,
"ram": 512,
"swap": 0,
"extra_specs": {},
"OS-FLV-EXT-DATA:ephemeral": 0,
},
)
flavor_2 = flavors.Flavor(
flavors.FlavorManager(None),
{
"id": "bbbbbbbb-bbbb-bbbb-bbbb-bbbbbbbbbbbb",
"name": "m1.massive",
"vcpus": 1000,
"disk": 1024,
"ram": 10000,
"swap": 0,
"extra_specs": {"Trusted": True, "foo": "bar"},
"OS-FLV-EXT-DATA:ephemeral": 2048,
},
)
TEST.flavors.add(flavor_1, flavor_2)
# Keypairs
keypair = keypairs.Keypair(keypairs.KeypairManager(None), dict(name="keyName"))
TEST.keypairs.add(keypair)
# Security Groups and Rules
def generate_security_groups(is_uuid=False):
def get_id(is_uuid):
global current_int_id
if is_uuid:
return str(uuid.uuid4())
else:
get_id.current_int_id += 1
return get_id.current_int_id
get_id.current_int_id = 0
sg_manager = sec_groups.SecurityGroupManager(None)
rule_manager = rules.SecurityGroupRuleManager(None)
sec_group_1 = sec_groups.SecurityGroup(
sg_manager,
{
"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"default",
"description": u"default",
},
)
sec_group_2 = sec_groups.SecurityGroup(
sg_manager,
{
"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"other_group",
"description": u"NotDefault.",
},
)
sec_group_3 = sec_groups.SecurityGroup(
sg_manager,
{
"rules": [],
"tenant_id": TEST.tenant.id,
"id": get_id(is_uuid),
"name": u"another_group",
"description": u"NotDefault.",
},
)
rule = {
"id": get_id(is_uuid),
"ip_protocol": u"tcp",
"from_port": u"80",
"to_port": u"80",
"parent_group_id": sec_group_1.id,
"ip_range": {"cidr": u"0.0.0.0/32"},
}
icmp_rule = {
"id": get_id(is_uuid),
"ip_protocol": u"icmp",
"from_port": u"9",
"to_port": u"5",
"parent_group_id": sec_group_1.id,
"ip_range": {"cidr": u"0.0.0.0/32"},
}
group_rule = {
"id": 3,
"ip_protocol": u"tcp",
"from_port": u"80",
"to_port": u"80",
"parent_group_id": sec_group_1.id,
"source_group_id": sec_group_1.id,
}
rule_obj = rules.SecurityGroupRule(rule_manager, rule)
rule_obj2 = rules.SecurityGroupRule(rule_manager, icmp_rule)
rule_obj3 = rules.SecurityGroupRule(rule_manager, group_rule)
sec_group_1.rules = [rule_obj]
sec_group_2.rules = [rule_obj]
return {"rules": [rule_obj, rule_obj2, rule_obj3], "groups": [sec_group_1, sec_group_2, sec_group_3]}
sg_data = generate_security_groups()
TEST.security_group_rules.add(*sg_data["rules"])
TEST.security_groups.add(*sg_data["groups"])
sg_uuid_data = generate_security_groups(is_uuid=True)
TEST.security_group_rules_uuid.add(*sg_uuid_data["rules"])
TEST.security_groups_uuid.add(*sg_uuid_data["groups"])
# Quota Sets
quota_data = dict(
metadata_items="1",
injected_file_content_bytes="1",
volumes="1",
gigabytes="1000",
ram=10000,
floating_ips="1",
fixed_ips="10",
instances="10",
injected_files="1",
cores="10",
security_groups="10",
security_group_rules="20",
)
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
TEST.quotas.nova = QuotaSetWrapper(quota)
TEST.quotas.add(QuotaSetWrapper(quota))
# Quota Usages
quota_usage_data = {
"gigabytes": {"used": 0, "quota": 1000},
"instances": {"used": 0, "quota": 10},
"ram": {"used": 0, "quota": 10000},
"cores": {"used": 0, "quota": 20},
}
quota_usage = QuotaUsage()
for k, v in quota_usage_data.items():
quota_usage.add_quota(Quota(k, v["quota"]))
quota_usage.tally(k, v["used"])
TEST.quota_usages.add(quota_usage)
# Limits
limits = {
"absolute": {
"maxImageMeta": 128,
"maxPersonality": 5,
"maxPersonalitySize": 10240,
"maxSecurityGroupRules": 20,
"maxSecurityGroups": 10,
"maxServerMeta": 128,
"maxTotalCores": 20,
"maxTotalFloatingIps": 10,
"maxTotalInstances": 10,
"maxTotalKeypairs": 100,
"maxTotalRAMSize": 10000,
"totalCoresUsed": 0,
"totalInstancesUsed": 0,
"totalKeyPairsUsed": 0,
"totalRAMUsed": 0,
"totalSecurityGroupsUsed": 0,
}
}
TEST.limits = limits
# Servers
vals = {
"host": "http://nova.example.com:8774",
"name": "server_1",
"status": "ACTIVE",
"tenant_id": TEST.tenants.first().id,
"user_id": TEST.user.id,
"server_id": "1",
"flavor_id": flavor_1.id,
"image_id": TEST.images.first().id,
"key_name": keypair.name,
}
server_1 = servers.Server(servers.ServerManager(None), json.loads(SERVER_DATA % vals)["server"])
vals.update({"name": "server_2", "status": "BUILD", "server_id": "2"})
server_2 = servers.Server(servers.ServerManager(None), json.loads(SERVER_DATA % vals)["server"])
TEST.servers.add(server_1, server_2)
# VNC Console Data
console = {u"console": {u"url": u"http://example.com:6080/vnc_auto.html", u"type": u"novnc"}}
TEST.servers.vnc_console_data = console
# SPICE Console Data
console = {u"console": {u"url": u"http://example.com:6080/spice_auto.html", u"type": u"spice"}}
TEST.servers.spice_console_data = console
# Floating IPs
fip_1 = floating_ips.FloatingIP(
floating_ips.FloatingIPManager(None),
{"id": 1, "fixed_ip": "10.0.0.4", "instance_id": server_1.id, "ip": "58.58.58.58", "pool": "pool1"},
)
fip_2 = floating_ips.FloatingIP(
floating_ips.FloatingIPManager(None),
{"id": 2, "fixed_ip": None, "instance_id": None, "ip": "58.58.58.58", "pool": "pool2"},
)
TEST.api_floating_ips.add(fip_1, fip_2)
TEST.floating_ips.add(NetFloatingIp(copy.deepcopy(fip_1)), NetFloatingIp(copy.deepcopy(fip_2)))
# Floating IP with UUID id (for Floating IP with Quantum Proxy)
fip_3 = floating_ips.FloatingIP(
floating_ips.FloatingIPManager(None),
{
"id": str(uuid.uuid4()),
"fixed_ip": "10.0.0.4",
"instance_id": server_1.id,
"ip": "58.58.58.58",
"pool": "pool1",
},
)
fip_4 = floating_ips.FloatingIP(
floating_ips.FloatingIPManager(None),
{"id": str(uuid.uuid4()), "fixed_ip": None, "instance_id": None, "ip": "58.58.58.58", "pool": "pool2"},
)
TEST.api_floating_ips_uuid.add(fip_3, fip_4)
TEST.floating_ips_uuid.add(NetFloatingIp(copy.deepcopy(fip_3)), NetFloatingIp(copy.deepcopy(fip_4)))
# Usage
usage_vals = {
"tenant_id": TEST.tenant.id,
"instance_name": server_1.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram,
}
usage_obj = usage.Usage(usage.UsageManager(None), json.loads(USAGE_DATA % usage_vals))
TEST.usages.add(usage_obj)
volume_snapshot = vol_snaps.Snapshot(
vol_snaps.SnapshotManager(None),
{
"id": "40f3fabf-3613-4f5e-90e5-6c9a08333fc3",
"display_name": "test snapshot",
"display_description": "vol snap!",
"size": 40,
"status": "available",
"volume_id": "41023e92-8008-4c8b-8059-7f2293ff3775",
},
)
TEST.volume_snapshots.add(volume_snapshot)
cert_data = {"private_key": "private", "data": "certificate_data"}
certificate = certs.Certificate(certs.CertificateManager(None), cert_data)
TEST.certs.add(certificate)
def tenant_quota_usages(request):
cloud = None
if 'cloud' in request.GET:
cloud = request.GET['cloud']
elif 'cloud' in request.POST:
cloud = request.POST['cloud']
# Get our quotas and construct our usage object.
disabled_quotas = []
if not is_service_enabled(request, 'volume'):
disabled_quotas.extend(['volumes', 'gigabytes'])
usages = QuotaUsage()
for quota in get_tenant_quota_data(request, disabled_quotas):
usages.add_quota(quota)
# Get our usages.
floating_ips = nova.tenant_floating_ip_list(request)
#flavors = dict([(f.id, f) for f in nova.flavor_list(request) if limit_by_cloud(f) ])
flavors = dict([(f.id, f) for f in nova.flavor_list(request)])
instances = nova.server_list(request)
if cloud is not None:
instances = [
instance for instance in instances if get_cloud(instance) == cloud
]
# Fetch deleted flavors if necessary.
missing_flavors = [
instance.flavor['id'] for instance in instances
if instance.flavor['id'] not in flavors
]
for missing in missing_flavors:
if missing not in flavors:
try:
flavors[missing] = nova.flavor_get(request, missing)
except:
flavors[missing] = {}
exceptions.handle(request, ignore=True)
usages.tally('instances', len(instances))
usages.tally('floating_ips', len(floating_ips))
if 'volumes' not in disabled_quotas:
volumes = cinder.volume_list(request)
usages.tally('gigabytes', sum([int(v.size) for v in volumes]))
usages.tally('volumes', len(volumes))
# Sum our usage based on the flavors of the instances.
for flavor in [flavors[instance.flavor['id']] for instance in instances]:
usages.tally('cores', getattr(flavor, 'vcpus', None))
usages.tally('ram', getattr(flavor, 'ram', None))
# Initialise the tally if no instances have been launched yet
if len(instances) == 0:
usages.tally('cores', 0)
usages.tally('ram', 0)
return usages
def data(TEST):
TEST.servers = TestDataContainer()
TEST.flavors = TestDataContainer()
TEST.keypairs = TestDataContainer()
TEST.security_groups = TestDataContainer()
TEST.security_group_rules = TestDataContainer()
TEST.volumes = TestDataContainer()
TEST.quotas = TestDataContainer()
TEST.quota_usages = TestDataContainer()
TEST.floating_ips = TestDataContainer()
TEST.floating_ips_uuid = TestDataContainer()
TEST.usages = TestDataContainer()
TEST.certs = TestDataContainer()
TEST.volume_snapshots = TestDataContainer()
TEST.volume_types = TestDataContainer()
# Volumes
volume = volumes.Volume(
volumes.VolumeManager(None),
dict(
id="41023e92-8008-4c8b-8059-7f2293ff3775",
name="test_volume",
status="available",
size=40,
display_name="Volume name",
created_at="2012-04-01 10:30:00",
volume_type=None,
attachments=[],
),
)
nameless_volume = volumes.Volume(
volumes.VolumeManager(None),
dict(
id="3b189ac8-9166-ac7f-90c9-16c8bf9e01ac",
name="",
status="in-use",
size=10,
display_name="",
display_description="",
device="/dev/hda",
created_at="2010-11-21 18:34:25",
volume_type="vol_type_1",
attachments=[{"id": "1", "server_id": "1", "device": "/dev/hda"}],
),
)
attached_volume = volumes.Volume(
volumes.VolumeManager(None),
dict(
id="8cba67c1-2741-6c79-5ab6-9c2bf8c96ab0",
name="my_volume",
status="in-use",
size=30,
display_name="My Volume",
display_description="",
device="/dev/hdk",
created_at="2011-05-01 11:54:33",
volume_type="vol_type_2",
attachments=[{"id": "2", "server_id": "1", "device": "/dev/hdk"}],
),
)
TEST.volumes.add(volume)
TEST.volumes.add(nameless_volume)
TEST.volumes.add(attached_volume)
vol_type1 = volume_types.VolumeType(volume_types.VolumeTypeManager(None), {"id": 1, "name": "vol_type_1"})
vol_type2 = volume_types.VolumeType(volume_types.VolumeTypeManager(None), {"id": 2, "name": "vol_type_2"})
TEST.volume_types.add(vol_type1, vol_type2)
# Flavors
flavor_1 = flavors.Flavor(
flavors.FlavorManager(None),
{
"id": "aaaaaaaa-aaaa-aaaa-aaaa-aaaaaaaaaaaa",
"name": "m1.tiny",
"vcpus": 1,
"disk": 0,
"ram": 512,
"OS-FLV-EXT-DATA:ephemeral": 0,
},
)
flavor_2 = flavors.Flavor(
flavors.FlavorManager(None),
{
"id": "bbbbbbbb-bbbb-bbbb-bbbb-bbbbbbbbbbbb",
"name": "m1.massive",
"vcpus": 1000,
"disk": 1024,
"ram": 10000,
"OS-FLV-EXT-DATA:ephemeral": 2048,
},
)
TEST.flavors.add(flavor_1, flavor_2)
# Keypairs
keypair = keypairs.Keypair(keypairs.KeypairManager(None), dict(name="keyName"))
TEST.keypairs.add(keypair)
# Security Groups
sg_manager = sec_groups.SecurityGroupManager(None)
sec_group_1 = sec_groups.SecurityGroup(
sg_manager, {"rules": [], "tenant_id": TEST.tenant.id, "id": 1, "name": u"default", "description": u"default"}
)
sec_group_2 = sec_groups.SecurityGroup(
sg_manager,
{"rules": [], "tenant_id": TEST.tenant.id, "id": 2, "name": u"other_group", "description": u"Not default."},
)
rule = {
"id": 1,
"ip_protocol": u"tcp",
"from_port": u"80",
"to_port": u"80",
"parent_group_id": 1,
"ip_range": {"cidr": u"0.0.0.0/32"},
}
icmp_rule = {
"id": 2,
"ip_protocol": u"icmp",
"from_port": u"9",
"to_port": u"5",
"parent_group_id": 1,
"ip_range": {"cidr": u"0.0.0.0/32"},
}
group_rule = {
"id": 3,
"ip_protocol": u"tcp",
"from_port": u"80",
"to_port": u"80",
"parent_group_id": 1,
"source_group_id": 1,
}
rule_obj = rules.SecurityGroupRule(rules.SecurityGroupRuleManager(None), rule)
rule_obj2 = rules.SecurityGroupRule(rules.SecurityGroupRuleManager(None), icmp_rule)
rule_obj3 = rules.SecurityGroupRule(rules.SecurityGroupRuleManager(None), group_rule)
TEST.security_group_rules.add(rule_obj)
TEST.security_group_rules.add(rule_obj2)
TEST.security_group_rules.add(rule_obj3)
sec_group_1.rules = [rule_obj]
sec_group_2.rules = [rule_obj]
TEST.security_groups.add(sec_group_1, sec_group_2)
# Security Group Rules
# Quota Sets
quota_data = dict(
metadata_items="1",
injected_file_content_bytes="1",
volumes="1",
gigabytes="1000",
ram=10000,
floating_ips="1",
instances="10",
injected_files="1",
cores="10",
)
quota = quotas.QuotaSet(quotas.QuotaSetManager(None), quota_data)
TEST.quotas.nova = QuotaSetWrapper(quota)
TEST.quotas.add(QuotaSetWrapper(quota))
# Quota Usages
quota_usage_data = {
"gigabytes": {"used": 0, "quota": 1000},
"instances": {"used": 0, "quota": 10},
"ram": {"used": 0, "quota": 10000},
"cores": {"used": 0, "quota": 20},
}
quota_usage = QuotaUsage()
for k, v in quota_usage_data.items():
quota_usage.add_quota(Quota(k, v["quota"]))
quota_usage.tally(k, v["used"])
TEST.quota_usages.add(quota_usage)
# Servers
vals = {
"host": "http://nova.example.com:8774",
"name": "server_1",
"status": "ACTIVE",
"tenant_id": TEST.tenants.first().id,
"user_id": TEST.user.id,
"server_id": "1",
"flavor_id": flavor_1.id,
"image_id": TEST.images.first().id,
"key_name": keypair.name,
}
server_1 = servers.Server(servers.ServerManager(None), json.loads(SERVER_DATA % vals)["server"])
vals.update({"name": "server_2", "status": "BUILD", "server_id": "2"})
server_2 = servers.Server(servers.ServerManager(None), json.loads(SERVER_DATA % vals)["server"])
TEST.servers.add(server_1, server_2)
# VNC Console Data
console = {u"console": {u"url": u"http://example.com:6080/vnc_auto.html", u"type": u"novnc"}}
TEST.servers.console_data = console
# Floating IPs
fip_1 = floating_ips.FloatingIP(
floating_ips.FloatingIPManager(None),
{"id": 1, "fixed_ip": "10.0.0.4", "instance_id": server_1.id, "ip": "58.58.58.58"},
)
fip_2 = floating_ips.FloatingIP(
floating_ips.FloatingIPManager(None), {"id": 2, "fixed_ip": None, "instance_id": None, "ip": "58.58.58.58"}
)
TEST.floating_ips.add(fip_1, fip_2)
# Floating IP with UUID id (for Floating IP with Quantum)
fip_3 = floating_ips.FloatingIP(
floating_ips.FloatingIPManager(None),
{"id": str(uuid.uuid4()), "fixed_ip": "10.0.0.4", "instance_id": server_1.id, "ip": "58.58.58.58"},
)
fip_4 = floating_ips.FloatingIP(
floating_ips.FloatingIPManager(None),
{"id": str(uuid.uuid4()), "fixed_ip": None, "instance_id": None, "ip": "58.58.58.58"},
)
TEST.floating_ips_uuid.add(fip_3, fip_4)
# Usage
usage_vals = {
"tenant_id": TEST.tenant.id,
"instance_name": server_1.name,
"flavor_name": flavor_1.name,
"flavor_vcpus": flavor_1.vcpus,
"flavor_disk": flavor_1.disk,
"flavor_ram": flavor_1.ram,
}
usage_obj = usage.Usage(usage.UsageManager(None), json.loads(USAGE_DATA % usage_vals))
TEST.usages.add(usage_obj)
volume_snapshot = vol_snaps.Snapshot(
vol_snaps.SnapshotManager(None),
{
"id": "40f3fabf-3613-4f5e-90e5-6c9a08333fc3",
"display_name": "test snapshot",
"display_description": "vol snap!",
"size": 40,
"status": "available",
"volume_id": "41023e92-8008-4c8b-8059-7f2293ff3775",
},
)
TEST.volume_snapshots.add(volume_snapshot)
cert_data = {"private_key": "private", "data": "certificate_data"}
certificate = certs.Certificate(certs.CertificateManager(None), cert_data)
TEST.certs.add(certificate)
