class TestName:
def setup(self):
banner("setup", c="-")
self.user = Config()["cloudmesh.profile.user"]
self.clouduser = '******'
self.name_generator = Name(
schema=f"{self.user}-vm",
counter=1)
self.name = str(self.name_generator)
self.name_generator.incr()
self.new_name = str(self.name_generator)
self.p = Provider(name=CLOUD)
self.secgroupname = "CM4TestSecGroup"
self.secgrouprule = {"ip_protocol": "tcp",
"from_port": 8080,
"to_port": 8088,
"ip_range": "129.79.0.0/16"}
self.testnode = None
def test_show_conf(self):
HEADING()
pprint(self.p.user)
pprint(self.p.cloudtype)
pprint(self.p.spec)
def test_list_flavors(self):
HEADING()
flavors = self.p.flavors()
# pprint(flavors)
print(Printer.flatwrite(flavors,
sort_keys=[
"name", "ram", "disk",
"extra.numberOfCores",
"price"],
order=["name", "ram", "disk",
"extra.numberOfCores",
"price"],
header=["Name", "ram (MB)", "disk (GB)",
"Cores",
"price"])
)
"""
{'bandwidth': 0,
'cm': {'cloud': 'azure',
'created': '2019-04-02 18:22:54.929946',
'driver': 'openstack',
'kind': 'flavor',
'name': 'Standard_L4s'},
'disk': 678.0,
'extra': {'maxDataDiskCount': 16,
'numberOfCores': 4,
'osDiskSizeInMB': 1047552},
'id': 'Standard_L4s',
'name': 'Standard_L4s',
'price': 0,
'ram': 32768,
'updated': '2019-04-02 18:22:54.929946'},
"""
def test_list_vm(self):
HEADING()
vms = self.p.list()
# pprint(vms)
# TODO: bug th eprint function is not implemented
# print (self.p.Print(vms, kind="vm"))
# '''
print(Printer.flatwrite(vms,
sort_keys=["name"],
order=["name",
"state",
"extra.properties.hardwareProfile.vmSize",
"extra.properties.storageProfile.imageReference.sku",
"extra.properties.storageProfile.osDisk.osType",
"extra.properties.storageProfile.osDisk.diskSizeGB",
"extra.properties.osProfile.adminUsername",
"private_ips",
"public_ips"],
header=["Name",
"State",
"vmSize",
"Image",
"OS Type",
"Disk (GB)",
"Admin User",
"Private ips",
"Public ips"])
)
# '''
def test_list_images(self):
HEADING()
publishername = 'Canonical'
offername = 'UbuntuServer'
skuname = '18.04-LTS'
images = self.p.images(raw=False,
publisher=publishername,
offer=offername,
sku=skuname)
# pprint (images)
print(Printer.flatwrite(images,
sort_keys=["id", "name"],
order=["name", "id", 'version'],
header=["Name", "id", 'Version'])
)
# TODO: bug th eprint function is not implemented
# print (self.p.Print(images, kind="image"))
"""
{'cloud': 'azure',
'driver': 'azure_asm',
'extra': {'affinity_group': '',
'category': 'Public',
'description': '<p>Visual Studio Community 2015 Update 3 is our '
'free, full featured and extensible IDE for '
'non-enterprise application development. This image '
'contains Windows Server 2012 R2 with Visual Studio '
'Community 2015 Update 3. It allows you to easily '
'and quickly set up a development environment in '
'Azure to build and test applications using Visual '
'Studio.</p><p>This image was created from the '
'latest bits available on 8/20/2018.</p><p>The '
'Visual Studio software is preinstalled in this VM, '
'but you must acquire a Visual Studio subscription '
'separately which allows you to sign in to and run '
'Visual Studio on this VM.</p>',
'location': 'Southeast Asia;Australia East;Australia '
'Southeast;Brazil South;Canada Central;North '
'Europe;West Europe;Central India;South India;West '
'India;Japan East;Japan West;UK South;UK West;Central '
'US;South Central US;West US 2;West Central US',
'media_link': '',
'os': 'Windows',
'vm_image': False},
'id': '03f55de797f546a1b29d1b8d66be687a__VS-2015-Comm-VSU3-AzureSDK-29-WS2012R2-2018-08-20',
'kind': 'image',
'name': 'Visual Studio Community 2015 Update 3 with Azure SDK 2.9 on Windows '
'Server 2012 R2'},
"""
# '''
def test_create(self):
HEADING()
image = "Canonical:UbuntuServer:18.04-LTS:18.04.201903200"
size = "Standard_B1s"
resgroup = 'xxx'
storage_account = 'xxx'
blob_container = 'xxx'
network = 'xxx'
subnet = 'xxx'
sshpubkey = 'ssh-rsa YOUR_KEY_STRING'
self.p.create(name=self.name,
image=image,
size=size,
sshpubkey=sshpubkey,
resource_group=resgroup,
storage_account=storage_account,
blob_container=blob_container,
network=network,
subnet=subnet)
time.sleep(5)
nodes = self.p.list()
node = self.p.find(nodes, name=self.name)
pprint(node)
nodes = self.p.list(raw=True)
for node in nodes:
if node.name == self.name:
self.testnode = node
break
assert node is not None
# '''
def test_list_keys(self):
HEADING()
self.keys = self.p.keys()
# pprint(self.keys)
print(Printer.flatwrite(self.keys,
sort_keys=["name"],
order=["name", "fingerprint"],
header=["Name", "Fingerprint"])
)
def test_key_upload(self):
HEADING()
key = SSHkey()
print(key.__dict__)
self.p.key_upload(key)
self.test_list_keys()
def test_list_secgroups(self):
HEADING()
secgroups = self.p.list_secgroups()
for secgroup in secgroups:
print(secgroup["name"])
rules = self.p.list_secgroup_rules(secgroup["name"])
print(Printer.write(rules,
sort_keys=[
"ip_protocol", "from_port", "to_port",
"ip_range"],
order=["ip_protocol", "from_port", "to_port",
"ip_range"],
header=["ip_protocol", "from_port", "to_port",
"ip_range"])
)
def test_secgroups_add(self):
self.p.add_secgroup(self.secgroupname)
self.test_list_secgroups()
def test_secgroup_rules_add(self):
rules = [self.secgrouprule]
self.p.add_rules_to_secgroup(self.secgroupname, rules)
self.test_list_secgroups()
def test_secgroup_rules_remove(self):
rules = [self.secgrouprule]
self.p.remove_rules_from_secgroup(self.secgroupname, rules)
self.test_list_secgroups()
def test_secgroups_remove(self):
self.p.remove_secgroup(self.secgroupname)
self.test_list_secgroups()
def test_publicIP_attach(self):
HEADING()
pubip = self.p.get_public_ip()
pprint(pubip)
nodes = self.p.list(raw=True)
for node in nodes:
if node.name == self.name:
self.testnode = node
break
if self.testnode:
print("attaching public IP...")
self.p.attach_publicIP(self.testnode, pubip)
time.sleep(5)
self.test_list_vm()
def test_publicIP_detach(self):
print("detaching and removing public IP...")
time.sleep(5)
nodes = self.p.list(raw=True)
for node in nodes:
if node.name == self.name:
self.testnode = node
break
ipaddr = self.testnode.public_ips[0]
pubip = self.p.cloudman.ex_get_floating_ip(ipaddr)
self.p.detach_publicIP(self.testnode, pubip)
time.sleep(5)
self.test_list_vm()
# def test_11_printer(self):
# HEADING()
# nodes = self.p.list()
# print(Printer.write(nodes, order=["name", "image", "size"]))
# def test_start(self):
# HEADING()
# self.p.start(name=self.name)
# def test_12_list_vm(self):
# self.test_list_vm()
def test_info(self):
HEADING()
self.p.info(name=self.name)
def test_destroy(self):
HEADING()
self.p.destroy(names=self.name)
nodes = self.p.list()
node = self.p.find(nodes, name=self.name)
pprint(node)
assert node["extra"]["task_state"] == "deleting"
def test_list_vm(self):
self.test_list_vm()
def test_vm_login(self):
self.test_list_vm()
self.test_10_create()
# use the self.testnode for this test
time.sleep(30)
self.test_11_publicIP_attach()
time.sleep(5)
nodes = self.p.list(raw=True)
for node in nodes:
if node.name == self.name:
self.testnode = node
break
# pprint (self.testnode)
# pprint (self.testnode.public_ips)
pubip = self.testnode.public_ips[0]
COMMAND = "cat /etc/*release*"
ssh = subprocess.Popen(
["ssh", "%s@%s" % (self.clouduser, pubip), COMMAND],
shell=False,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
result = ssh.stdout.readlines()
if result == []:
error = ssh.stderr.readlines()
print("ERROR: %s" % error)
else:
print("RESULT:")
for line in result:
line = line.decode("utf-8")
print(line.strip("\n"))
self.test_destroy()
self.test_list_vm()
def test_benchmark(self):
Benchmark.print(csv=True, sysinfo=False, tag=CLOUD)
class TestName:
def setup(self):
banner("setup", c="-")
self.user = Config()["cloudmesh"]["profile"]["user"]
self.clouduser = '******'
self.name_generator = Name(experiment="exp",
group="grp",
user=self.user,
kind="vm",
counter=1)
self.name = str(self.name_generator)
self.name_generator.incr()
self.new_name = str(self.name_generator)
variables = Variables()
cloud = variables['cloud']
self.p = Provider(name=cloud)
self.secgroupname = "CM4TestSecGroup"
self.secgrouprule = {
"ip_protocol": "tcp",
"from_port": 8080,
"to_port": 8088,
"ip_range": "129.79.0.0/16"
}
self.testnode = None
def test_001_list_keys(self):
HEADING()
pprint(self.p.user)
pprint(self.p.cloudtype)
pprint(self.p.spec)
def test_01_list_keys(self):
HEADING()
self.keys = self.p.keys()
# pprint(self.keys)
print(
Printer.flatwrite(self.keys,
sort_keys=["name"],
order=["name", "fingerprint"],
header=["Name", "Fingerprint"]))
def test_02_key_upload(self):
HEADING()
key = SSHkey()
print(key.__dict__)
self.p.key_upload(key)
self.test_01_list_keys()
def test_03_list_images(self):
HEADING()
images = self.p.images()
# pprint(images)
print(
Printer.flatwrite(
images,
sort_keys=["name", "extra.minDisk"],
order=["name", "extra.minDisk", "updated", "driver"],
header=["Name", "MinDisk", "Updated", "Driver"]))
def test_04_list_flavors(self):
HEADING()
flavors = self.p.flavors()
# pprint (flavors)
print(
Printer.flatwrite(flavors,
sort_keys=["name", "vcpus", "disk"],
order=["name", "vcpus", "ram", "disk"],
header=["Name", "VCPUS", "RAM", "Disk"]))
def test_04_list_vm(self):
HEADING()
vms = self.p.list()
# pprint (vms)
print(
Printer.flatwrite(vms,
sort_keys=("name"),
order=[
"name", "state", "extra.task_state",
"extra.vm_state", "extra.userId",
"extra.key_name", "private_ips", "public_ips"
],
header=[
"Name", "State", "Task state", "VM state",
"User Id", "SSHKey", "Private ips",
"Public ips"
]))
def test_05_list_secgroups(self):
HEADING()
secgroups = self.p.list_secgroups()
for secgroup in secgroups:
print(secgroup["name"])
rules = self.p.list_secgroup_rules(secgroup["name"])
print(
Printer.write(
rules,
sort_keys=("ip_protocol", "from_port", "to_port",
"ip_range"),
order=["ip_protocol", "from_port", "to_port", "ip_range"],
header=["ip_protocol", "from_port", "to_port",
"ip_range"]))
def test_06_secgroups_add(self):
HEADING()
self.p.add_secgroup(self.secgroupname)
self.test_05_list_secgroups()
def test_07_secgroup_rules_add(self):
HEADING()
rules = [self.secgrouprule]
self.p.add_rules_to_secgroup(self.secgroupname, rules)
self.test_05_list_secgroups()
def test_08_secgroup_rules_remove(self):
HEADING()
rules = [self.secgrouprule]
self.p.remove_rules_from_secgroup(self.secgroupname, rules)
self.test_05_list_secgroups()
def test_09_secgroups_remove(self):
HEADING()
self.p.remove_secgroup(self.secgroupname)
self.test_05_list_secgroups()
def test_10_create(self):
HEADING()
image = "CC-Ubuntu16.04"
size = "m1.medium"
self.p.create(
name=self.name,
image=image,
size=size,
# username as the keypair name based on
# the key implementation logic
ex_keyname=self.user,
ex_security_groups=['default'])
time.sleep(5)
nodes = self.p.list()
node = self.p.find(nodes, name=self.name)
pprint(node)
nodes = self.p.list(raw=True)
for node in nodes:
if node.name == self.name:
self.testnode = node
break
assert node is not None
def test_11_publicIP_attach(self):
HEADING()
pubip = self.p.get_publicIP()
pprint(pubip)
nodes = self.p.list(raw=True)
for node in nodes:
if node.name == self.name:
self.testnode = node
break
if self.testnode:
print("attaching public IP...")
self.p.attach_publicIP(self.testnode, pubip)
time.sleep(5)
self.test_04_list_vm()
def test_12_publicIP_detach(self):
HEADING()
print("detaching and removing public IP...")
time.sleep(5)
nodes = self.p.list(raw=True)
for node in nodes:
if node.name == self.name:
self.testnode = node
break
ipaddr = self.testnode.public_ips[0]
pubip = self.p.cloudman.ex_get_floating_ip(ipaddr)
self.p.detach_publicIP(self.testnode, pubip)
time.sleep(5)
self.test_04_list_vm()
# def test_11_printer(self):
# HEADING()
# nodes = self.p.list()
# print(Printer.write(nodes, order=["name", "image", "size"]))
# def test_01_start(self):
# HEADING()
# self.p.start(name=self.name)
# def test_12_list_vm(self):
# self.test_04_list_vm()
def test_13_info(self):
HEADING()
self.p.info(name=self.name)
def test_14_destroy(self):
HEADING()
self.p.destroy(names=self.name)
nodes = self.p.list()
node = self.p.find(nodes, name=self.name)
pprint(node)
assert node["extra"]["task_state"] == "deleting"
def test_15_list_vm(self):
HEADING()
self.test_04_list_vm()
def test_16_vm_login(self):
HEADING()
self.test_04_list_vm()
self.test_10_create()
# use the self.testnode for this test
time.sleep(30)
self.test_11_publicIP_attach()
time.sleep(5)
nodes = self.p.list(raw=True)
for node in nodes:
if node.name == self.name:
self.testnode = node
break
# pprint (self.testnode)
# pprint (self.testnode.public_ips)
pubip = self.testnode.public_ips[0]
command = "cat /etc/*release*"
ssh = subprocess.Popen(
["ssh", "%s@%s" % (self.clouduser, pubip), command],
shell=False,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
result = ssh.stdout.readlines()
if result == []:
error = ssh.stderr.readlines()
print("ERROR: %s" % error)
else:
print("RESULT:")
for line in result:
line = line.decode("utf-8")
print(line.strip("\n"))
self.test_14_destroy()
self.test_04_list_vm()
class TestName:
def setup(self):
banner("setup", c="-")
self.user = Config()["cloudmesh.profile.user"]
self.key_path = path_expand(
Config()["cloudmesh"]["profile"]["publickey"])
f = open(self.key_path, 'r')
self.key_val = f.read()
self.clouduser = '******'
self.name_generator = Name(schema=f"{self.user}-vm", counter=1)
self.name = str(self.name_generator)
self.name_generator.incr()
self.new_name = str(self.name_generator)
self.p = GCloudProvider(name="google")
self.secgroupname = "CM4TestSecGroup"
self.secgrouprule = {
"ip_protocol": "tcp",
"from_port": 8080,
"to_port": 8088,
"ip_range": "129.79.0.0/16"
}
self.testnode = None
def test_list_keys(self):
HEADING()
print("List Key Method is not supported by google")
def test_key_upload(self):
HEADING()
print("Upload Key method is not supported by google")
def test_list_images(self):
HEADING()
images = self.p.images()
print(
Printer.flatwrite(images,
sort_keys=("name"),
order=["name", "id", "driver"],
header=["Name", "Id", "Driver"]))
def test_list_flavors(self):
HEADING()
flavors = self.p.flavors()
print(
Printer.flatwrite(flavors,
sort_keys=("name", "disk"),
order=["name", "id", "ram", "disk"],
header=["Name", "Id", "RAM", "Disk"]))
def test_list_vm(self):
HEADING()
vms = self.p.list()
print(
Printer.flatwrite(vms,
sort_keys=("name"),
order=[
"name", "state", "extra.task_state",
"extra.vm_state", "extra.userId",
"extra.key_name", "private_ips", "public_ips"
],
header=[
"Name", "State", "Task state", "VM state",
"User Id", "SSHKey", "Private ips",
"Public ips"
]))
def test_list_secgroups(self):
HEADING()
print("List security group method is not supported by google")
def test_secgroups_add(self):
print("List add security groups method is not supported by google")
def test_secgroup_rules_add(self):
print(
"List Add security group rules method is not supported by google")
def test_secgroup_rules_remove(self):
print("Remove security group rules method is not supported by google")
def test_secgroups_remove(self):
print("Remove security groups method is not supported by google")
def test_create(self):
HEADING()
image = "ubuntu-minimal-1810-cosmic-v20190402"
size = "n1-standard-4"
location = "us-central1-a"
self.p.create(name=self.name,
image=image,
size=size,
location=location)
nodes = self.p.list()
node = self.p.find(nodes, name=self.name)
nodes = self.p.list(raw=True)
for node in nodes:
if node.name == self.name:
self.testnode = node
break
assert node is not None
def test_publicIP_attach(self):
HEADING()
print("Attach Public IP method is not supported by google")
def test_publicIP_detach(self):
print("Detach Public IP method is not supported by google")
def test_info(self):
HEADING()
self.p.info(name=self.name)
def test_stop(self):
HEADING()
try:
self.p.stop(names=self.name)
self.test_list_vm()
except:
self.test_list_vm()
def test_list(self):
HEADING()
self.test_list_vm()
def test_start(self):
HEADING()
self.p.start(names=self.name)
self.test_list_vm()
def test_destroy(self):
HEADING()
try:
self.p.stop(names=self.name)
self.test_list_vm()
except:
self.test_list_vm()
self.p.destroy(names=self.name)
nodes = self.p.list()
node = self.p.find(nodes, name=self.name)
assert node is None
def test_vm_login(self):
HEADING()
self.test_list_vm()
self.test_create()
self.p.ssh(name=self.name, command="cat /etc/*release*")
try:
self.p.stop(names=self.name)
self.test_list_vm()
except:
self.test_list_vm()
self.p.destroy(names=self.name)
class Provider(object):
def __init__(self,
name=None,
configuration="~/.cloudmesh/.cloudmesh4.yaml"):
self.kind = Config(
configuration)["cloudmesh"]["cloud"][name]["cm"]["kind"]
self.name = name
Console.msg("FOUND Kind", self.kind)
if self.kind in ["openstack"]:
self.p = LibCloudProvider(name=name, configuration=configuration)
print(self.p)
# print (self.p.kind)
print(self.kind)
def cloudname(self):
return self.name
@DatabaseUpdate()
def keys(self):
return self.p.keys()
@DatabaseUpdate()
def list(self):
return self.p.list()
def add_colection(self, d, *args):
if d is None:
return None
label = '-'.join(args)
for entry in d:
entry['collection'] = label
return d
@DatabaseUpdate()
def images(self):
return self.p.images()
# name
# cloud
# kind
@DatabaseUpdate()
def flavors(self):
return self.p.flavors()
def start(self, name=None):
return self.p.start(name=name)
def stop(self, name=None):
return self.p.stop(name=name)
def info(self, name=None):
return self.p.info(name=name)
def resume(self, name=None):
return self.p.resume(name=name)
def reboot(self, name=None):
return self.p.reboot(name=name)
def create(self, name=None, image=None, size=None, timeout=360, **kwargs):
self.p.create(name=name, image=image, size=size, timeout=360, **kwargs)
def rename(self, name=None, destination=None):
self.p.rename(name=name, destination=name)
class TestName:
def setup(self):
banner("setup", c="-")
self.user = Config()["cloudmesh"]["profile"]["user"]
self.clouduser = '******'
self.name_generator = Name(experiment="exp",
group="grp",
user=self.user,
kind="vm",
counter=1)
self.name = str(self.name_generator)
self.name_generator.incr()
self.new_name = str(self.name_generator)
self.p = Provider(name="azure")
self.secgroupname = "CM4TestSecGroup"
self.secgrouprule = {
"ip_protocol": "tcp",
"from_port": 8080,
"to_port": 8088,
"ip_range": "129.79.0.0/16"
}
self.testnode = None
def test_001_list_keys(self):
HEADING()
pprint(self.p.user)
pprint(self.p.cloudtype)
pprint(self.p.spec)
def test_01_list_keys(self):
HEADING()
self.keys = self.p.keys()
# pprint(self.keys)
print(
Printer.flatwrite(self.keys,
sort_keys=("name"),
order=["name", "fingerprint"],
header=["Name", "Fingerprint"]))
def test_02_key_upload(self):
HEADING()
key = SSHkey()
print(key.__dict__)
self.p.key_upload(key)
self.test_01_list_keys()
def test_03_list_flavors(self):
HEADING()
flavors = self.p.flavors()
pprint(flavors)
print(
Printer.flatwrite(
flavors,
sort_keys=("name", "extra.cores", "extra.max_data_disks",
"price"),
order=["name", "extra.cores", "extra.max_data_disks", "price"],
header=["Name", "VCPUS", "max_data_disks", "Price"]))
"""
{'bandwidth': None,
'cloud': 'azure',
'created': '2019-02-22 21:15:09.897719',
'disk': 127,
'driver': 'azure_asm',
'extra': {'cores': 16, 'max_data_disks': 32},
'id': 'Standard_D14',
'kind': 'flavor',
'name': 'D14 Faster Compute Instance',
'price': '1.6261',
'ram': 114688,
'updated': '2019-02-22 21:15:09.897719'}
"""
def test_04_list_vm(self):
HEADING()
vms = self.p.list()
pprint(vms)
print(
Printer.flatwrite(vms,
sort_keys=("name"),
order=[
"name", "state", "extra.task_state",
"extra.vm_state", "extra.userId",
"extra.key_name", "private_ips", "public_ips"
],
header=[
"Name", "State", "Task state", "VM state",
"User Id", "SSHKey", "Private ips",
"Public ips"
]))
def test_17_list_images(self):
HEADING()
images = self.p.images()
pprint(images[:10])
print(
Printer.flatwrite(images[:10],
sort_keys=("id", "name"),
order=["name", "id", 'extra.os'],
header=["Name", "id", 'extra.os']))
"""
class TestName:
def setup(self):
banner("setup", c="-")
self.user = Config()["cloudmesh"]["profile"]["user"]
self.clouduser = '******'
self.name_generator = Name(experiment="exp",
group="grp",
user=self.user,
kind="vm",
counter=1)
self.name = str(self.name_generator)
self.name_generator.incr()
self.new_name = str(self.name_generator)
self.p = Provider(name="azure")
self.secgroupname = "CM4TestSecGroup"
self.secgrouprule = {
"ip_protocol": "tcp",
"from_port": 8080,
"to_port": 8088,
"ip_range": "129.79.0.0/16"
}
self.testnode = None
def test_00_show_conf(self):
HEADING()
pprint(self.p.user)
pprint(self.p.cloudtype)
pprint(self.p.spec)
def test_03_list_flavors(self):
HEADING()
flavors = self.p.flavors()
# pprint(flavors)
print(
Printer.flatwrite(
flavors,
sort_keys=[
"name", "ram", "disk", "extra.numberOfCores", "price"
],
order=["name", "ram", "disk", "extra.numberOfCores", "price"],
header=["Name", "ram (MB)", "disk (GB)", "Cores", "price"]))
"""
{'bandwidth': 0,
'cm': {'cloud': 'azure',
'created': '2019-04-02 18:22:54.929946',
'driver': 'openstack',
'kind': 'flavor',
'name': 'Standard_L4s'},
'disk': 678.0,
'extra': {'maxDataDiskCount': 16,
'numberOfCores': 4,
'osDiskSizeInMB': 1047552},
'id': 'Standard_L4s',
'name': 'Standard_L4s',
'price': 0,
'ram': 32768,
'updated': '2019-04-02 18:22:54.929946'},
"""
def test_04_list_vm(self):
HEADING()
vms = self.p.list()
# pprint(vms)
# '''
print(
Printer.flatwrite(
vms,
sort_keys=["name"],
order=[
"name", "state", "extra.properties.hardwareProfile.vmSize",
"extra.properties.storageProfile.imageReference.sku",
"extra.properties.storageProfile.osDisk.osType",
"extra.properties.storageProfile.osDisk.diskSizeGB",
"extra.properties.osProfile.adminUsername", "private_ips",
"public_ips"
],
header=[
"Name", "State", "vmSize", "Image", "OS Type", "Disk (GB)",
"Admin User", "Private ips", "Public ips"
]))
# '''
def test_17_list_images(self):
HEADING()
publishername = 'Canonical'
offername = 'UbuntuServer'
skuname = '18.04-LTS'
images = self.p.images(raw=False,
publisher=publishername,
offer=offername,
sku=skuname)
# pprint (images)
print(
Printer.flatwrite(images,
sort_keys=["id", "name"],
order=["name", "id", 'version'],
header=["Name", "id", 'Version']))
"""
{'cloud': 'azure',
'driver': 'azure_asm',
'extra': {'affinity_group': '',
'category': 'Public',
'description': '<p>Visual Studio Community 2015 Update 3 is our '
'free, full featured and extensible IDE for '
'non-enterprise application development. This image '
'contains Windows Server 2012 R2 with Visual Studio '
'Community 2015 Update 3. It allows you to easily '
'and quickly set up a development environment in '
'Azure to build and test applications using Visual '
'Studio.</p><p>This image was created from the '
'latest bits available on 8/20/2018.</p><p>The '
'Visual Studio software is preinstalled in this VM, '
'but you must acquire a Visual Studio subscription '
'separately which allows you to sign in to and run '
'Visual Studio on this VM.</p>',
'location': 'Southeast Asia;Australia East;Australia '
'Southeast;Brazil South;Canada Central;North '
'Europe;West Europe;Central India;South India;West '
'India;Japan East;Japan West;UK South;UK West;Central '
'US;South Central US;West US 2;West Central US',
'media_link': '',
'os': 'Windows',
'vm_image': False},
'id': '03f55de797f546a1b29d1b8d66be687a__VS-2015-Comm-VSU3-AzureSDK-29-WS2012R2-2018-08-20',
'kind': 'image',
'name': 'Visual Studio Community 2015 Update 3 with Azure SDK 2.9 on Windows '
'Server 2012 R2'},
"""
# '''
def test_10_create(self):
HEADING()
image = "Canonical:UbuntuServer:18.04-LTS:18.04.201903200"
size = "Standard_B1s"
resgroup = 'xxx'
storage_account = 'xxx'
blob_container = 'xxx'
network = 'xxx'
subnet = 'xxx'
sshpubkey = 'ssh-rsa YOUR_KEY_STRING'
self.p.create(name=self.name,
image=image,
size=size,
sshpubkey=sshpubkey,
resource_group=resgroup,
storage_account=storage_account,
blob_container=blob_container,
network=network,
subnet=subnet)
time.sleep(5)
nodes = self.p.list()
node = self.p.find(nodes, name=self.name)
pprint(node)
nodes = self.p.list(raw=True)
for node in nodes:
if node.name == self.name:
self.testnode = node
break
assert node is not None