def test_register_get_deregister_ami_image(self):
# Register and deregister ami image
image = {"name": rand_name("ami-name-"),
"location": self.bucket_name + "/" + self.ami_manifest,
"type": "ami"}
image["image_id"] = self.images_client.register_image(
name=image["name"],
image_location=image["location"])
#Note(afazekas): delete_snapshot=True might trigger boto lib? bug
image["cleanUp"] = self.addResourceCleanUp(
self.images_client.deregister_image,
image["image_id"])
self.assertEqual(image["image_id"][0:3], image["type"])
retrieved_image = self.images_client.get_image(image["image_id"])
self.assertTrue(retrieved_image.name == image["name"])
self.assertTrue(retrieved_image.id == image["image_id"])
state = retrieved_image.state
if state != "available":
def _state():
retr = self.images_client.get_image(image["image_id"])
return retr.state
state = state_wait(_state, "available")
self.assertEqual("available", state)
self.images_client.deregister_image(image["image_id"])
#TODO(afazekas): double deregister ?
self.cancelResourceCleanUp(image["cleanUp"])
def state_wait_gone(self, lfunction, final_set, valid_set):
if not isinstance(final_set, set):
final_set = set((final_set,))
final_set |= self.gone_set
state = state_wait(lfunction, final_set, valid_set)
self.assertIn(state, valid_set | self.gone_set)
return state
def test_register_get_deregister_ami_image(self):
# Register and deregister ami image
image = {"name": rand_name("ami-name-"),
"location": self.bucket_name + "/" + self.ami_manifest,
"type": "ami"}
image["image_id"] = self.images_client.register_image(
name=image["name"],
image_location=image["location"])
#Note(afazekas): delete_snapshot=True might trigger boto lib? bug
image["cleanUp"] = self.addResourceCleanUp(
self.images_client.deregister_image,
image["image_id"])
self.assertEqual(image["image_id"][0:3], image["type"])
retrieved_image = self.images_client.get_image(image["image_id"])
self.assertTrue(retrieved_image.name == image["name"])
self.assertTrue(retrieved_image.id == image["image_id"])
if retrieved_image.state != "available":
def _state():
retr = self.images_client.get_image(image["image_id"])
return retr.state
state = state_wait(_state, "available")
self.assertEqual("available", state)
self.images_client.deregister_image(image["image_id"])
#TODO(afazekas): double deregister ?
self.cancelResourceCleanUp(image["cleanUp"])
def state_wait_gone(self, lfunction, final_set, valid_set):
if not isinstance(final_set, set):
final_set = set((final_set, ))
final_set |= self.gone_set
lfunction = self.get_lfunction_gone(lfunction)
state = state_wait(lfunction, final_set, valid_set)
self.assertIn(state, valid_set | self.gone_set)
return state
def setUpClass(cls):
super(InstanceRunTest, cls).setUpClass()
if not cls.conclusion['A_I_IMAGES_READY']:
raise cls.skipException("".join(
("EC2 ", cls.__name__, ": requires ami/aki/ari manifest")))
cls.os = clients.Manager()
cls.s3_client = cls.os.s3_client
cls.ec2_client = cls.os.ec2api_client
cls.zone = cls.ec2_client.get_good_zone()
config = cls.config
cls.materials_path = config.boto.s3_materials_path
ami_manifest = config.boto.ami_manifest
aki_manifest = config.boto.aki_manifest
ari_manifest = config.boto.ari_manifest
cls.instance_type = config.boto.instance_type
cls.bucket_name = rand_name("s3bucket-")
cls.keypair_name = rand_name("keypair-")
cls.keypair = cls.ec2_client.create_key_pair(cls.keypair_name)
cls.addResourceCleanUp(cls.ec2_client.delete_key_pair,
cls.keypair_name)
bucket = cls.s3_client.create_bucket(cls.bucket_name)
cls.addResourceCleanUp(cls.destroy_bucket,
cls.s3_client.connection_data, cls.bucket_name)
s3_upload_dir(bucket, cls.materials_path)
cls.images = {
"ami": {
"name": rand_name("ami-name-"),
"location": cls.bucket_name + "/" + ami_manifest
},
"aki": {
"name": rand_name("aki-name-"),
"location": cls.bucket_name + "/" + aki_manifest
},
"ari": {
"name": rand_name("ari-name-"),
"location": cls.bucket_name + "/" + ari_manifest
}
}
for image in cls.images.itervalues():
image["image_id"] = cls.ec2_client.register_image(
name=image["name"], image_location=image["location"])
cls.addResourceCleanUp(cls.ec2_client.deregister_image,
image["image_id"])
for image in cls.images.itervalues():
def _state():
retr = cls.ec2_client.get_image(image["image_id"])
return retr.state
state = state_wait(_state, "available")
if state != "available":
for _image in cls.images.itervalues():
cls.ec2_client.deregister_image(_image["image_id"])
raise exceptions.EC2RegisterImageException(
image_id=image["image_id"])
def assertAddressReleasedWait(self, address):
def _address_delete():
#NOTE(afazekas): the filter gives back IP
# even if it is not associated to my tenant
if (address.public_ip
not in map(lambda a: a.public_ip,
self.ec2_client.get_all_addresses())):
return "DELETED"
return "NOTDELETED"
state = state_wait(_address_delete, "DELETED")
self.assertEqual(state, "DELETED")
def assertAddressReleasedWait(self, address):
def _address_delete():
#NOTE(afazekas): the filter gives back IP
# even if it is not associated to my tenant
if (address.public_ip not in map(lambda a: a.public_ip,
self.ec2_client.get_all_addresses())):
return "DELETED"
return "NOTDELETED"
state = state_wait(_address_delete, "DELETED")
self.assertEqual(state, "DELETED")
def setUpClass(cls):
super(InstanceRunTest, cls).setUpClass()
if not tempest.tests.boto.A_I_IMAGES_READY:
raise nose.SkipTest("".join(("EC2 ", cls.__name__,
": requires ami/aki/ari manifest")))
cls.os = clients.Manager()
cls.s3_client = cls.os.s3_client
cls.ec2_client = cls.os.ec2api_client
config = cls.os.config
cls.zone = cls.ec2_client.get_good_zone()
cls.materials_path = config.boto.s3_materials_path
ami_manifest = config.boto.ami_manifest
aki_manifest = config.boto.aki_manifest
ari_manifest = config.boto.ari_manifest
cls.instance_type = config.boto.instance_type
cls.bucket_name = rand_name("s3bucket-")
cls.keypair_name = rand_name("keypair-")
cls.keypair = cls.ec2_client.create_key_pair(cls.keypair_name)
cls.addResourceCleanUp(cls.ec2_client.delete_key_pair,
cls.keypair_name)
bucket = cls.s3_client.create_bucket(cls.bucket_name)
cls.addResourceCleanUp(cls.destroy_bucket,
cls.s3_client.connection_data,
cls.bucket_name)
s3_upload_dir(bucket, cls.materials_path)
cls.images = {"ami":
{"name": rand_name("ami-name-"),
"location": cls.bucket_name + "/" + ami_manifest},
"aki":
{"name": rand_name("aki-name-"),
"location": cls.bucket_name + "/" + aki_manifest},
"ari":
{"name": rand_name("ari-name-"),
"location": cls.bucket_name + "/" + ari_manifest}}
for image in cls.images.itervalues():
image["image_id"] = cls.ec2_client.register_image(
name=image["name"],
image_location=image["location"])
cls.addResourceCleanUp(cls.ec2_client.deregister_image,
image["image_id"])
for image in cls.images.itervalues():
def _state():
retr = cls.ec2_client.get_image(image["image_id"])
return retr.state
state = state_wait(_state, "available")
if state != "available":
for _image in cls.images.itervalues():
ec2_client.deregister_image(_image["image_id"])
raise RegisterImageException(image_id=image["image_id"])
def assertAddressDissasociatedWait(self, address):
def _disassociate():
cli = self.ec2_client
addresses = cli.get_all_addresses(addresses=(address.public_ip, ))
if len(addresses) != 1:
return "INVALID"
if addresses[0].instance_id:
LOG.info("%s associated to %s", address.public_ip,
addresses[0].instance_id)
return "ASSOCIATED"
return "DISASSOCIATED"
state = state_wait(_disassociate, "DISASSOCIATED",
set(("ASSOCIATED", "DISASSOCIATED")))
self.assertEqual(state, "DISASSOCIATED")
def assertAddressDissasociatedWait(self, address):
def _disassociate():
cli = self.ec2_client
addresses = cli.get_all_addresses(addresses=(address.public_ip,))
if len(addresses) != 1:
return "INVALID"
if addresses[0].instance_id:
LOG.info("%s associated to %s",
address.public_ip,
addresses[0].instance_id)
return "ASSOCIATED"
return "DISASSOCIATED"
state = state_wait(_disassociate, "DISASSOCIATED",
set(("ASSOCIATED", "DISASSOCIATED")))
self.assertEqual(state, "DISASSOCIATED")
def test_integration_1(self):
# EC2 1. integration test (not strict)
image_ami = self.ec2_client.get_image(self.images["ami"]["image_id"])
sec_group_name = rand_name("securitygroup-")
group_desc = sec_group_name + " security group description "
security_group = self.ec2_client.create_security_group(sec_group_name,
group_desc)
self.addResourceCleanUp(self.destroy_security_group_wait,
security_group)
self.ec2_client.authorize_security_group(sec_group_name,
ip_protocol="icmp",
cidr_ip="0.0.0.0/0",
from_port=-1,
to_port=-1)
self.ec2_client.authorize_security_group(sec_group_name,
ip_protocol="tcp",
cidr_ip="0.0.0.0/0",
from_port=22,
to_port=22)
reservation = image_ami.run(kernel_id=self.images["aki"]["image_id"],
ramdisk_id=self.images["ari"]["image_id"],
instance_type=self.instance_type,
key_name=self.keypair_name,
security_groups=(sec_group_name,))
self.addResourceCleanUp(self.destroy_reservation,
reservation)
volume = self.ec2_client.create_volume(1, self.zone)
self.addResourceCleanUp(self.destroy_volume_wait, volume)
instance = reservation.instances[0]
def _instance_state():
instance.update(validate=True)
return instance.state
def _volume_state():
volume.update(validate=True)
return volume.status
LOG.info("state: %s", instance.state)
if instance.state != "running":
self.assertInstanceStateWait(_instance_state, "running")
address = self.ec2_client.allocate_address()
rcuk_a = self.addResourceCleanUp(address.delete)
address.associate(instance.id)
rcuk_da = self.addResourceCleanUp(address.disassociate)
#TODO(afazekas): ping test. dependecy/permission ?
self.assertVolumeStatusWait(_volume_state, "available")
#NOTE(afazekas): it may be reports availble before it is available
ssh = RemoteClient(address.public_ip,
self.os.config.compute.ssh_user,
pkey=self.keypair.material)
text = rand_name("Pattern text for console output -")
resp = ssh.write_to_console(text)
self.assertFalse(resp)
def _output():
output = instance.get_console_output()
return output.output
re_search_wait(_output, text)
part_lines = ssh.get_partitions().split('\n')
# "attaching" invalid EC2 state ! #1074901
volume.attach(instance.id, "/dev/vdh")
#self.assertVolumeStatusWait(_volume_state, "in-use") # #1074901
re_search_wait(_volume_state, "in-use")
#NOTE(afazekas): Different Hypervisor backends names
# differently the devices,
# now we just test is the partition number increased/decrised
def _part_state():
current = ssh.get_partitions().split('\n')
if current > part_lines:
return 'INCREASE'
if current < part_lines:
return 'DECREASE'
return 'EQUAL'
state_wait(_part_state, 'INCREASE')
part_lines = ssh.get_partitions().split('\n')
#TODO(afazekas): Resource compare to the flavor settings
volume.detach() # "detaching" invalid EC2 status #1074901
#self.assertVolumeStatusWait(_volume_state, "available")
re_search_wait(_volume_state, "available")
LOG.info("Volume %s state: %s", volume.id, volume.status)
state_wait(_part_state, 'DECREASE')
instance.stop()
address.disassociate()
self.assertAddressDissasociatedWait(address)
self.cancelResourceCleanUp(rcuk_da)
address.release()
self.assertAddressReleasedWait(address)
self.cancelResourceCleanUp(rcuk_a)
LOG.info("state: %s", instance.state)
if instance.state != "stopped":
self.assertInstanceStateWait(_instance_state, "stopped")
def test_integration_1(self):
"""EC2 1. integration test (not strict)"""
image_ami = self.ec2_client.get_image(self.images["ami"]["image_id"])
sec_group_name = rand_name("securitygroup-")
group_desc = sec_group_name + " security group description "
security_group = self.ec2_client.create_security_group(
sec_group_name, group_desc)
self.addResourceCleanUp(self.destroy_security_group_wait,
security_group)
self.ec2_client.authorize_security_group(sec_group_name,
ip_protocol="icmp",
cidr_ip="0.0.0.0/0",
from_port=-1,
to_port=-1)
self.ec2_client.authorize_security_group(sec_group_name,
ip_protocol="tcp",
cidr_ip="0.0.0.0/0",
from_port=22,
to_port=22)
reservation = image_ami.run(kernel_id=self.images["aki"]["image_id"],
ramdisk_id=self.images["ari"]["image_id"],
instance_type=self.instance_type,
key_name=self.keypair_name,
security_groups=(sec_group_name, ))
self.addResourceCleanUp(self.destroy_reservation, reservation)
volume = self.ec2_client.create_volume(1, self.zone)
self.addResourceCleanUp(self.destroy_volume_wait, volume)
instance = reservation.instances[0]
def _instance_state():
instance.update(validate=True)
return instance.state
def _volume_state():
volume.update(validate=True)
return volume.status
LOG.info("state: %s", instance.state)
if instance.state != "running":
self.assertInstanceStateWait(_instance_state, "running")
address = self.ec2_client.allocate_address()
rcuk_a = self.addResourceCleanUp(address.delete)
address.associate(instance.id)
rcuk_da = self.addResourceCleanUp(address.disassociate)
#TODO(afazekas): ping test. dependecy/permission ?
self.assertVolumeStatusWait(_volume_state, "available")
#NOTE(afazekas): it may be reports availble before it is available
ssh = RemoteClient(address.public_ip,
self.os.config.compute.ssh_user,
pkey=self.keypair.material)
text = rand_name("Pattern text for console output -")
resp = ssh.write_to_console(text)
self.assertFalse(resp)
def _output():
output = instance.get_console_output()
return output.output
re_search_wait(_output, text)
part_lines = ssh.get_partitions().split('\n')
# "attaching" invalid EC2 state ! #1074901
volume.attach(instance.id, "/dev/vdh")
#self.assertVolumeStatusWait(_volume_state, "in-use") # #1074901
re_search_wait(_volume_state, "in-use")
#NOTE(afazekas): Different Hypervisor backends names
# differently the devices,
# now we just test is the partition number increased/decrised
def _part_state():
current = ssh.get_partitions().split('\n')
if current > part_lines:
return 'INCREASE'
if current < part_lines:
return 'DECREASE'
return 'EQUAL'
state_wait(_part_state, 'INCREASE')
part_lines = ssh.get_partitions().split('\n')
#TODO(afazekas): Resource compare to the flavor settings
volume.detach() # "detaching" invalid EC2 status #1074901
#self.assertVolumeStatusWait(_volume_state, "available")
re_search_wait(_volume_state, "available")
LOG.info("Volume %s state: %s", volume.id, volume.status)
state_wait(_part_state, 'DECREASE')
instance.stop()
address.disassociate()
self.assertAddressDissasociatedWait(address)
self.cancelResourceCleanUp(rcuk_da)
address.release()
self.assertAddressReleasedWait(address)
self.cancelResourceCleanUp(rcuk_a)
LOG.info("state: %s", instance.state)
if instance.state != "stopped":
self.assertInstanceStateWait(_instance_state, "stopped")
def waitSnapshotStatus(self, lfunction, wait_for):
state = state_wait(lfunction, wait_for, self.valid_snapshot_status)
self.assertIn(state, self.valid_snapshot_status)
return state
def waitVolumeStatus(self, lfunction, wait_for):
state = state_wait(lfunction, wait_for, self.valid_volume_status)
self.assertIn(state, self.valid_volume_status)
return state
def waitInstanceState(self, lfunction, wait_for):
state = state_wait(lfunction, wait_for, self.valid_instance_state)
self.assertIn(state, self.valid_instance_state)
return state
