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cloudstack/test/integration/plugins/tf/test_shared_zone.py
David Jumani c774b865c9
Tungsten integration (#7065) 
Co-authored-by: rtodirica <rtodirica@ena.com>
Co-authored-by: Huy Le <huylm@unitech.vn>
Co-authored-by: radu-todirica <Radu.Todirica@ness.com>
Co-authored-by: Huy Le <minh.le@ext.ewerk.com>
Co-authored-by: Simon Weller <siweller77@gmail.com>
Co-authored-by: dahn <daan@onecht.net>
2023-02-01 09:19:53 +01:00

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# Licensed to the Apache Software Foundation (ASF) under one
# or more contributor license agreements. See the NOTICE file
# distributed with this work for additional information
# regarding copyright ownership. The ASF licenses this file
# to you under the Apache License, Version 2.0 (the
# "License"); you may not use this file except in compliance
# with the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing,
# software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the License for the
# specific language governing permissions and limitations
# under the License.
import os
import subprocess
import socket
from nose.plugins.attrib import attr
from marvin.cloudstackTestCase import cloudstackTestCase
from marvin.lib.base import (Account, ServiceOffering, VirtualMachine, NetworkOffering, Network
, SecurityGroup)
from marvin.cloudstackAPI import (authorizeSecurityGroupIngress
, authorizeSecurityGroupEgress, revokeSecurityGroupIngress, revokeSecurityGroupEgress)
from marvin.lib.common import get_zone, get_template
from marvin.lib.decoratorGenerators import skipTestIf
from .common import cleanup_resources, not_tungsten_fabric_zone
class Services:
"""Test Tungsten Plugin
"""
def __init__(self):
self.services = {
"network_offering": {
"name": "TungstenSharedNetworkOffering",
"displaytext": "TungstenSharedNetworkOffering",
"guestiptype": "Shared",
"traffictype": "GUEST",
"supportedservices": [
"Dhcp",
"Dns",
"Connectivity",
"SecurityGroup"
],
"serviceProviderList": {
"Dhcp": "Tungsten",
"Dns": "Tungsten",
"Connectivity": "Tungsten",
"SecurityGroup": "Tungsten"
},
"useTungsten": "on",
"specifyVlan": "true",
"specifyIpRanges": "true"
},
"networks": {
"network1": {
"name": "TF-Network1",
"displaytext": "TF-Network1",
"gateway": "192.168.6.1",
"netmask": "255.255.255.0",
"startip": "192.168.6.100",
"endip": "192.168.6.200",
"vlan": "untagged"
}
},
"account": {
"email": "test@test.com",
"firstname": "Test",
"lastname": "User",
"username": "test",
"password": "password",
},
"virtual_machines": {
"vm1": {
"name": "vm1",
"displayname": "vm1",
"username": "root",
"password": "password",
"ssh_port": 22,
"hypervisor": 'KVM',
"privateport": 22,
"publicport": 22,
"protocol": 'TCP'
},
"vm2": {
"name": "vm2",
"displayname": "vm2",
"username": "root",
"password": "password",
"ssh_port": 22,
"hypervisor": 'KVM',
"privateport": 22,
"publicport": 22,
"protocol": 'TCP'
},
"vm3": {
"name": "vm3",
"displayname": "vm3",
"username": "root",
"password": "password",
"ssh_port": 22,
"hypervisor": 'KVM',
"privateport": 22,
"publicport": 22,
"protocol": 'TCP'
}
},
"security_groups": {
"security_group1": {
"name": "sg1"
},
"security_group2": {
"name": "sg2"
},
"security_group3": {
"name": "sg3"
}
},
"ostype": 'CentOS 5.6 (64-bit)'
}
class TestSharedZone(cloudstackTestCase):
@classmethod
def setUpClass(cls):
cls.api_client = cls.clstestclient.getApiClient()
cls.services = Services().services
cls.test_data = cls.clstestclient.getParsedTestDataConfig()
cls.zone = get_zone(cls.api_client, cls.clstestclient.getZoneForTests())
cls.template = get_template(cls.api_client, cls.zone.id, cls.test_data["ostype"])
cls.not_tungsten_fabric_zone = not_tungsten_fabric_zone(cls.api_client, cls.zone.id)
cls._cleanup = []
@classmethod
def tearDownClass(self):
try:
cleanup_resources(self.api_client, self.zone.id, self._cleanup)
except Exception as e:
raise Exception("Warning: Exception during cleanup : %s" % e)
return
def setUp(self):
self.account = Account.create(self.api_client, self.services["account"], admin=True)
self.service_offering = ServiceOffering.create(self.api_client, self.test_data["service_offering"])
self.cleanup = [self.account, self.service_offering]
return
def tearDown(self):
try:
cleanup_resources(self.api_client, self.zone.id, reversed(self.cleanup))
except Exception as e:
raise Exception("Warning: Exception during cleanup : %s" % e)
return
def getLocalMachineIpAddress(self):
""" Get IP address of the machine on which test case is running """
socket_ = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
socket_.connect(('8.8.8.8', 0))
return socket_.getsockname()[0]
@skipTestIf("not_tungsten_fabric_zone")
@attr(tags=["tungstenfabric"], required_hardware="false")
def test_01_test_default_security_group_rule(self):
# Validate the following:
# 1. deploy vm
# 2. ping vm from test machine ( should fail as default security group rule )
# 3. create icmp ingress security group rule with test machine ip address cidr
# 4. ping vm from test machine again ( should success as icmp ingress security group rule)
# 5. create ssh ingress security group rule with test machine ip address cidr
# 6. ssh to vm from test machine
# 7. ping google from vm ( should success as default security group rule )
network_offering = NetworkOffering.create(self.api_client, self.services["network_offering"])
network_offering.update(self.api_client, state='Enabled')
self.cleanup.append(network_offering)
# create network
network = Network.create(
self.api_client,
self.services["networks"]["network1"],
networkofferingid=network_offering.id,
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(network)
# create security group
security_group = SecurityGroup.create(
self.api_client,
self.services["security_groups"]["security_group1"],
account=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(security_group)
# create virtual machine
vm = VirtualMachine.create(
self.api_client,
self.services["virtual_machines"]["vm1"],
serviceofferingid=self.service_offering.id,
templateid=self.template.id,
networkids=[network.id],
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
securitygroupids=[security_group.id],
mode='advanced'
)
self.cleanup.append(vm)
# ping vm from test machine
if os.name == 'nt':
result = subprocess.call(
['ping', '-n', '1', vm.ipaddress])
else:
result = subprocess.call(
['ping', '-c', '1', vm.ipaddress])
self.assertEqual(
result,
1,
"Ping should be fail as default security group deny all incoming traffic"
)
test_machine_ip_address = self.getLocalMachineIpAddress()
cidr = test_machine_ip_address + "/32"
# create icmp ingress security group rule with test machine ip address cidr
cmd = authorizeSecurityGroupIngress.authorizeSecurityGroupIngressCmd()
cmd.securitygroupid = security_group.id
cmd.protocol = 'ICMP'
cmd.icmptype = "-1"
cmd.icmpcode = "-1"
cmd.cidrlist = cidr
icmp_ingress_rule = self.api_client.authorizeSecurityGroupIngress(cmd)
# ping vm from test machine again
if os.name == 'nt':
result = subprocess.call(
['ping', '-n', '1', vm.ipaddress])
else:
result = subprocess.call(
['ping', '-c', '1', vm.ipaddress])
self.assertEqual(
result,
0,
"Ping should be successful"
)
# create ssh ingress security group rule with test machine ip address cidr
cmd = authorizeSecurityGroupIngress.authorizeSecurityGroupIngressCmd()
cmd.securitygroupid = security_group.id
cmd.protocol = 'TCP'
cmd.startport = 22
cmd.endport = 22
cmd.cidrlist = cidr
ssh_ingress_rule = self.api_client.authorizeSecurityGroupIngress(cmd)
# ssh to vm from test machine
ssh = vm.get_ssh_client()
# ping google from vm
res = ssh.execute("ping -c1 google.com")
self.assertEqual(
str(res).count("1 received"),
1,
"Ping google.com from vm should be successful "
"as default security group permit all outcoming traffic"
)
# revoke icmp ingress security group rule
cmd = revokeSecurityGroupIngress.revokeSecurityGroupIngressCmd()
cmd.id = icmp_ingress_rule.ingressrule[0].ruleid
self.api_client.revokeSecurityGroupIngress(cmd)
# revoke ssh ingress security group rule
cmd = revokeSecurityGroupIngress.revokeSecurityGroupIngressCmd()
cmd.id = ssh_ingress_rule.ingressrule[0].ruleid
self.api_client.revokeSecurityGroupIngress(cmd)
@skipTestIf("not_tungsten_fabric_zone")
@attr(tags=["tungstenfabric"], required_hardware="false")
def test_01_test_ingress_rule_security_group_with_cidr(self):
# Validate the following:
# 1. deploy 2 vm : vm1 and vm2
# 2. create ssh ingress security group rule with test machine ip address cidr
# 3. ssh to vm1
# 4. ssh to vm2 from vm1 ( should fail as ssh ingress security group rule )
# 5. create ssh ingress security group rule with vm1 ip address cidr
# 4. ssh to vm2 from vm1 again ( should success as ssh ingress security group rule )
network_offering = NetworkOffering.create(self.api_client, self.services["network_offering"])
network_offering.update(self.api_client, state='Enabled')
self.cleanup.append(network_offering)
# create network
network = Network.create(
self.api_client,
self.services["networks"]["network1"],
networkofferingid=network_offering.id,
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(network)
# create security group
security_group = SecurityGroup.create(
self.api_client,
self.services["security_groups"]["security_group1"],
account=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(security_group)
# create virtual machine 1
vm1 = VirtualMachine.create(
self.api_client,
self.services["virtual_machines"]["vm1"],
serviceofferingid=self.service_offering.id,
templateid=self.template.id,
networkids=[str(network.id)],
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
securitygroupids=[security_group.id],
mode='advanced'
)
self.cleanup.append(vm1)
# create virtual machine 2
vm2 = VirtualMachine.create(
self.api_client,
self.services["virtual_machines"]["vm2"],
serviceofferingid=self.service_offering.id,
templateid=self.template.id,
networkids=[str(network.id)],
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
securitygroupids=[security_group.id],
mode='advanced'
)
self.cleanup.append(vm2)
# create ssh ingress security group rule with test machine ip address cidr
test_machine_ip_address = self.getLocalMachineIpAddress()
cidr = test_machine_ip_address + "/32"
cmd = authorizeSecurityGroupIngress.authorizeSecurityGroupIngressCmd()
cmd.securitygroupid = security_group.id
cmd.protocol = 'TCP'
cmd.startport = 22
cmd.endport = 22
cmd.cidrlist = cidr
ingress_rule1 = self.api_client.authorizeSecurityGroupIngress(cmd)
ssh = vm1.get_ssh_client()
res1 = ssh.execute("ssh %s@%s -v" % (vm2.username, vm2.ssh_ip))
self.debug("Response is :%s" % res1)
self.assertFalse("connection established" in str(res1).lower(), "SSH to VM 2 should fail")
# create ssh ingress security group rule with vm1 ip address cidr
cmd = authorizeSecurityGroupIngress.authorizeSecurityGroupIngressCmd()
cmd.securitygroupid = security_group.id
cmd.protocol = 'TCP'
cmd.startport = 22
cmd.endport = 22
cmd.cidrlist = vm1.ipaddress + "/32"
ingress_rule2 = self.api_client.authorizeSecurityGroupIngress(cmd)
res2 = ssh.execute("ssh %s@%s -v" % (vm2.username, vm2.ssh_ip))
self.debug("Response is :%s" % res2)
self.assertTrue("connection established" in str(res2).lower(), "SSH to VM 2 should success")
# revoke ssh ingress security group rule 1
cmd = revokeSecurityGroupIngress.revokeSecurityGroupIngressCmd()
cmd.id = ingress_rule1.ingressrule[0].ruleid
self.api_client.revokeSecurityGroupIngress(cmd)
# revoke ssh ingress security group rule 2
cmd = revokeSecurityGroupIngress.revokeSecurityGroupIngressCmd()
cmd.id = ingress_rule2.ingressrule[0].ruleid
self.api_client.revokeSecurityGroupIngress(cmd)
@skipTestIf("not_tungsten_fabric_zone")
@attr(tags=["tungstenfabric"], required_hardware="false")
def test_01_test_ingress_rule_security_group_with_account(self):
# Validate the following:
# 1. create network 1
# 2. create security group 1
# 3. create security group 2
# 4. deploy vm 1
# 5. deploy vm 2
# 6. create ssh ingress security group 1 rule with test machine ip address cidr
# 7. ssh to vm1 from test machine
# 8. ping vm2 from vm1 ( should fail )
# 9. create icmp ingress security group 2 rule with account and security group 1
# 10. ping vm2 from vm1 again ( should success )
# 11. create ssh ingress security group 2 rule with test machine ip address cidr
# 12. ssh to vm2 from test machine
# 13. ping vm1 from vm2 ( should fail )
# 14. create icmp ingress security group 1 rule with account and security group 2
# 15. ping vm1 from vm2 again ( should success )
# 16. revoke ssh ingress security group rule 1
# 17. revoke ssh ingress security group rule 2
# 18. revoke icmp ingress security group rule 1
# 19. revoke icmp ingress security group rule 2
network_offering = NetworkOffering.create(self.api_client, self.services["network_offering"])
network_offering.update(self.api_client, state='Enabled')
self.cleanup.append(network_offering)
# 1. create network 1
network = Network.create(
self.api_client,
self.services["networks"]["network1"],
networkofferingid=network_offering.id,
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(network)
# 2. create security group 1
security_group1 = SecurityGroup.create(
self.api_client,
self.services["security_groups"]["security_group1"],
account=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(security_group1)
# 3. create security group 2
security_group2 = SecurityGroup.create(
self.api_client,
self.services["security_groups"]["security_group2"],
account=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(security_group2)
# 4. deploy vm 1
vm1 = VirtualMachine.create(
self.api_client,
self.services["virtual_machines"]["vm1"],
serviceofferingid=self.service_offering.id,
templateid=self.template.id,
networkids=[str(network.id)],
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
securitygroupids=[security_group1.id],
mode='advanced'
)
self.cleanup.append(vm1)
# 5. deploy vm 2
vm2 = VirtualMachine.create(
self.api_client,
self.services["virtual_machines"]["vm2"],
serviceofferingid=self.service_offering.id,
templateid=self.template.id,
networkids=[str(network.id)],
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
securitygroupids=[security_group2.id],
mode='advanced'
)
self.cleanup.append(vm2)
# 6. create ssh ingress security group 1 rule with test machine ip address cidr
test_machine_ip_address = self.getLocalMachineIpAddress()
cidr = test_machine_ip_address + "/32"
cmd = authorizeSecurityGroupIngress.authorizeSecurityGroupIngressCmd()
cmd.securitygroupid = security_group1.id
cmd.protocol = 'TCP'
cmd.startport = 22
cmd.endport = 22
cmd.cidrlist = cidr
ssh_ingress_rule1 = self.api_client.authorizeSecurityGroupIngress(cmd)
# 7. ssh to vm1 from test machine
ssh1 = vm1.get_ssh_client()
# 8. ping vm2 from vm1 ( should fail )
res1 = ssh1.execute("ping -c1 %s" % vm2.ipaddress)
self.assertEqual(
str(res1).count("0 received"),
1,
"Ping vm2 from vm1 should be fail"
)
# 9. create icmp ingress security group 2 rule with account and security group 1
cmd = authorizeSecurityGroupIngress.authorizeSecurityGroupIngressCmd()
cmd.securitygroupid = security_group2.id
cmd.protocol = 'ICMP'
cmd.icmptype = "-1"
cmd.icmpcode = "-1"
cmd.usersecuritygrouplist = [{'account':str(self.account.name),'group': str(security_group1.name)}]
icmp_ingress_rule1 = self.api_client.authorizeSecurityGroupIngress(cmd)
# 10. ping vm2 from vm1 again ( should success )
res2 = ssh1.execute("ping -c1 %s" % vm2.ipaddress)
self.assertEqual(
str(res2).count("1 received"),
1,
"Ping vm2 from vm1 should be success"
)
# 11. create ssh ingress security group 2 rule with test machine ip address cidr
cmd = authorizeSecurityGroupIngress.authorizeSecurityGroupIngressCmd()
cmd.securitygroupid = security_group2.id
cmd.protocol = 'TCP'
cmd.startport = 22
cmd.endport = 22
cmd.cidrlist = cidr
ssh_ingress_rule2 = self.api_client.authorizeSecurityGroupIngress(cmd)
# 12. ssh to vm2 from test machine
ssh2 = vm2.get_ssh_client()
# 13. ping vm1 from vm2 ( should fail )
res3 = ssh2.execute("ping -c1 %s" % vm1.ipaddress)
self.assertEqual(
str(res3).count("0 received"),
1,
"Ping vm1 from vm2 should be fail"
)
# 14. create icmp ingress security group 1 rule with account and security group 2
cmd = authorizeSecurityGroupIngress.authorizeSecurityGroupIngressCmd()
cmd.securitygroupid = security_group1.id
cmd.protocol = 'ICMP'
cmd.icmptype = "-1"
cmd.icmpcode = "-1"
cmd.usersecuritygrouplist = [{'account':str(self.account.name),'group': str(security_group2.name)}]
icmp_ingress_rule2 = self.api_client.authorizeSecurityGroupIngress(cmd)
# 15. ping vm1 from vm2 again ( should success )
res4 = ssh2.execute("ping -c1 %s" % vm2.ipaddress)
self.assertEqual(
str(res4).count("1 received"),
1,
"Ping vm1 from vm2 should be success"
)
# 16. revoke ssh ingress security group rule 1
cmd = revokeSecurityGroupIngress.revokeSecurityGroupIngressCmd()
cmd.id = ssh_ingress_rule1.ingressrule[0].ruleid
self.api_client.revokeSecurityGroupIngress(cmd)
# 17. revoke ssh ingress security group rule 2
cmd = revokeSecurityGroupIngress.revokeSecurityGroupIngressCmd()
cmd.id = ssh_ingress_rule2.ingressrule[0].ruleid
self.api_client.revokeSecurityGroupIngress(cmd)
# 18. revoke icmp ingress security group rule 1
cmd = revokeSecurityGroupIngress.revokeSecurityGroupIngressCmd()
cmd.id = icmp_ingress_rule1.ingressrule[0].ruleid
self.api_client.revokeSecurityGroupIngress(cmd)
# 19. revoke icmp ingress security group rule 2
cmd = revokeSecurityGroupIngress.revokeSecurityGroupIngressCmd()
cmd.id = icmp_ingress_rule2.ingressrule[0].ruleid
self.api_client.revokeSecurityGroupIngress(cmd)
@skipTestIf("not_tungsten_fabric_zone")
@attr(tags=["tungstenfabric"], required_hardware="false")
def test_01_test_egress_rule_security_group_with_cidr(self):
# Validate the following:
# 1. create network offering
# 2. create network 1
# 3. create security group 1
# 4. deploy vm1
# 5. create ssh ingress security group 1 rule with test machine ip address cidr
# 6. ssh to vm1 from test machine
# 7. ping 8.8.8.8 from vm1 ( should success )
# 8. ping 4.4.4.4 from vm1 ( should success )
# 9. create icmp egress security group 1 rule with 8.8.8.8/32 cidr
# 10. ping 8.8.8.8 from vm 1 ( should success )
# 11. ping 8.8.4.4 from vm1 ( should fail )
# 12. create icmp egress security group 1 rule with 8.8.4.4/32 cidr
# 13. ping 8.8.4.4 from vm1 ( should success )
# 1. create network offering
network_offering = NetworkOffering.create(
self.api_client,
self.services["network_offering"]
)
network_offering.update(self.api_client, state='Enabled')
self.cleanup.append(network_offering)
# 2. create network 1
network = Network.create(
self.api_client,
self.services["networks"]["network1"],
networkofferingid=network_offering.id,
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(network)
# 3. create security group 1
security_group1 = SecurityGroup.create(
self.api_client,
self.services["security_groups"]["security_group1"],
account=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(security_group1)
# 4. deploy vm 1
vm1 = VirtualMachine.create(
self.api_client,
self.services["virtual_machines"]["vm1"],
serviceofferingid=self.service_offering.id,
templateid=self.template.id,
networkids=[str(network.id)],
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
securitygroupids=[security_group1.id],
mode='advanced'
)
self.cleanup.append(vm1)
# 5. create ssh ingress security group 1 rule with test machine ip address cidr
test_machine_ip_address = self.getLocalMachineIpAddress()
cidr = test_machine_ip_address + "/32"
cmd = authorizeSecurityGroupIngress.authorizeSecurityGroupIngressCmd()
cmd.securitygroupid = security_group1.id
cmd.protocol = 'TCP'
cmd.startport = 22
cmd.endport = 22
cmd.cidrlist = cidr
ssh_ingress_rule1 = self.api_client.authorizeSecurityGroupIngress(cmd)
# 6. ssh to vm1 from test machine
ssh1 = vm1.get_ssh_client()
# 7. ping 8.8.8.8 from vm 1 ( should success )
res1 = ssh1.execute("ping -c1 8.8.8.8")
self.assertEqual(
str(res1).count("1 received"),
1,
"Ping 8.8.8.8 from vm1 should be success"
)
# 8. ping 8.8.4.4 from vm1 ( should success )
res2 = ssh1.execute("ping -c1 8.8.4.4")
self.assertEqual(
str(res2).count("1 received"),
1,
"Ping 8.8.4.4 from vm1 should be success"
)
# 9. create icmp egress security group 1 rule with 8.8.8.8/32 cidr
cmd = authorizeSecurityGroupEgress.authorizeSecurityGroupEgressCmd()
cmd.securitygroupid = security_group1.id
cmd.protocol = 'ICMP'
cmd.icmptype = "-1"
cmd.icmpcode = "-1"
cmd.cidrlist = '8.8.8.8/32'
icmp_egress_rule1 = self.api_client.authorizeSecurityGroupEgress(cmd)
# 10. ping 8.8.8.8 from vm 1 ( should success )
res3 = ssh1.execute("ping -c1 8.8.8.8")
self.assertEqual(
str(res3).count("1 received"),
1,
"Ping 8.8.8.8 from vm1 should be success"
)
# 11. ping 8.8.4.4 from vm1 ( should fail )
res4 = ssh1.execute("ping -c1 8.8.4.4")
self.assertEqual(
str(res4).count("0 received"),
1,
"Ping 8.8.4.4 from vm1 should be fail"
)
# 12. create icmp egress security group 1 rule with 8.8.4.4 cidr
cmd = authorizeSecurityGroupEgress.authorizeSecurityGroupEgressCmd()
cmd.securitygroupid = security_group1.id
cmd.protocol = 'ICMP'
cmd.icmptype = "-1"
cmd.icmpcode = "-1"
cmd.cidrlist = "8.8.4.4/32"
icmp_egress_rule2 = self.api_client.authorizeSecurityGroupEgress(cmd)
# 13. ping vm2 from vm1 ( should success )
res5 = ssh1.execute("ping -c1 8.8.4.4")
self.assertEqual(
str(res5).count("1 received"),
1,
"Ping 8.8.4.4 from vm1 should be success"
)
# 14. revoke ssh ingress security group rule 1
cmd = revokeSecurityGroupIngress.revokeSecurityGroupIngressCmd()
cmd.id = ssh_ingress_rule1.ingressrule[0].ruleid
self.api_client.revokeSecurityGroupIngress(cmd)
# 15. revoke icmp egress security group rule 1
cmd = revokeSecurityGroupEgress.revokeSecurityGroupEgressCmd()
cmd.id = icmp_egress_rule1.egressrule[0].ruleid
self.api_client.revokeSecurityGroupEgress(cmd)
# 16. revoke icmp egress security group rule 2
cmd = revokeSecurityGroupEgress.revokeSecurityGroupEgressCmd()
cmd.id = icmp_egress_rule2.egressrule[0].ruleid
self.api_client.revokeSecurityGroupEgress(cmd)
@skipTestIf("not_tungsten_fabric_zone")
@attr(tags=["tungstenfabric"], required_hardware="false")
def test_01_test_egress_rule_security_group_with_account(self):
# Validate the following:
# 1. create network offering
# 2. create network 1
# 3. create security group 1
# 4. create security group 2
# 5. create security group 3
# 6. deploy vm1
# 7. deploy vm2
# 8. deploy vm3
# 9. create ssh ingress security group 1 rule with test machine ip address cidr
# 10. create icmp ingress security group 2 rule with security group 1
# 11. create icmp ingress security group 3 rule with security group 1
# 12. ssh to vm1 from test machine
# 13. ping vm2 from vm1 ( should success )
# 14. ping vm3 from vm1 ( should success )
# 15. create icmp egress security group 1 rule with security group 2
# 16. ping vm2 from vm1 ( should success )
# 17. ping vm3 from vm1 ( should fail )
# 18. create icmp egress security group 1 rule with security group 3
# 19. ping vm2 from vm1 ( should success )
# 20. ping vm3 from vm1 ( should success )
# 21. revoke ssh ingress security group rule 1
# 22. revoke icmp ingress security group rule 1
# 23. revoke icmp ingress security group rule 2
# 24. revoke icmp egress security group rule 1
# 25. revoke icmp egress security group rule 2
# 1. create network offering
network_offering = NetworkOffering.create(
self.api_client,
self.services["network_offering"]
)
network_offering.update(self.api_client, state='Enabled')
self.cleanup.append(network_offering)
# 2. create network 1
network = Network.create(
self.api_client,
self.services["networks"]["network1"],
networkofferingid=network_offering.id,
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(network)
# 3. create security group 1
security_group1 = SecurityGroup.create(
self.api_client,
self.services["security_groups"]["security_group1"],
account=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(security_group1)
# 4. create security group 2
security_group2 = SecurityGroup.create(
self.api_client,
self.services["security_groups"]["security_group2"],
account=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(security_group2)
# 5. create security group 3
security_group3 = SecurityGroup.create(
self.api_client,
self.services["security_groups"]["security_group3"],
account=self.account.name,
domainid=self.account.domainid
)
self.cleanup.append(security_group3)
# 6. deploy vm1
vm1 = VirtualMachine.create(
self.api_client,
self.services["virtual_machines"]["vm1"],
serviceofferingid=self.service_offering.id,
templateid=self.template.id,
networkids=[str(network.id)],
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
securitygroupids=[security_group1.id],
mode='advanced'
)
self.cleanup.append(vm1)
# 7. deploy vm2
vm2 = VirtualMachine.create(
self.api_client,
self.services["virtual_machines"]["vm2"],
serviceofferingid=self.service_offering.id,
templateid=self.template.id,
networkids=[str(network.id)],
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
securitygroupids=[security_group2.id],
mode='advanced'
)
self.cleanup.append(vm2)
# 8. deploy vm3
vm3 = VirtualMachine.create(
self.api_client,
self.services["virtual_machines"]["vm3"],
serviceofferingid=self.service_offering.id,
templateid=self.template.id,
networkids=[str(network.id)],
zoneid=self.zone.id,
accountid=self.account.name,
domainid=self.account.domainid,
securitygroupids=[security_group3.id],
mode='advanced'
)
self.cleanup.append(vm3)
# 9. create ssh ingress security group 1 rule with test machine ip address cidr
test_machine_ip_address = self.getLocalMachineIpAddress()
cidr = test_machine_ip_address + "/32"
cmd = authorizeSecurityGroupIngress.authorizeSecurityGroupIngressCmd()
cmd.securitygroupid = security_group1.id
cmd.protocol = 'TCP'
cmd.startport = 22
cmd.endport = 22
cmd.cidrlist = cidr
ssh_ingress_rule1 = self.api_client.authorizeSecurityGroupIngress(cmd)
# 10. create icmp ingress security group 2 rule with security group 1
cmd = authorizeSecurityGroupIngress.authorizeSecurityGroupIngressCmd()
cmd.securitygroupid = security_group2.id
cmd.protocol = 'ICMP'
cmd.icmptype = "-1"
cmd.icmpcode = "-1"
cmd.usersecuritygrouplist = [{'account':str(self.account.name),'group': str(security_group1.name)}]
icmp_ingress_rule1 = self.api_client.authorizeSecurityGroupIngress(cmd)
# 11. create icmp ingress security group 3 rule with security group 1
cmd = authorizeSecurityGroupIngress.authorizeSecurityGroupIngressCmd()
cmd.securitygroupid = security_group3.id
cmd.protocol = 'ICMP'
cmd.icmptype = "-1"
cmd.icmpcode = "-1"
cmd.usersecuritygrouplist = [{'account':str(self.account.name),'group': str(security_group1.name)}]
icmp_ingress_rule2 = self.api_client.authorizeSecurityGroupIngress(cmd)
# 12. ssh to vm1 from test machine
ssh1 = vm1.get_ssh_client()
# 13. ping vm2 from vm1 ( should success )
res1 = ssh1.execute("ping -c1 %s" % vm2.ipaddress)
self.assertEqual(
str(res1).count("1 received"),
1,
"Ping vm2 from vm1 should be success"
)
# 14. ping vm3 from vm1 ( should success )
res2 = ssh1.execute("ping -c1 %s" % vm3.ipaddress)
self.assertEqual(
str(res2).count("1 received"),
1,
"Ping vm3 from vm1 should be success"
)
# 15. create icmp egress security group 1 rule with security group 2
cmd = authorizeSecurityGroupEgress.authorizeSecurityGroupEgressCmd()
cmd.securitygroupid = security_group1.id
cmd.protocol = 'ICMP'
cmd.icmptype = "-1"
cmd.icmpcode = "-1"
cmd.usersecuritygrouplist = [{'account':str(self.account.name),'group': str(security_group2.name)}]
icmp_egress_rule1 = self.api_client.authorizeSecurityGroupEgress(cmd)
# 16. ping vm2 from vm1 ( should success )
res3 = ssh1.execute("ping -c1 %s" % vm2.ipaddress)
self.assertEqual(
str(res3).count("1 received"),
1,
"Ping vm2 from vm1 should be success"
)
# 17. ping vm3 from vm1 ( should fail )
res4 = ssh1.execute("ping -c1 %s" % vm3.ipaddress)
self.assertEqual(
str(res4).count("0 received"),
1,
"Ping vm3 from vm1 should be fail"
)
# 18. create icmp egress security group 1 rule with security group 3
cmd = authorizeSecurityGroupEgress.authorizeSecurityGroupEgressCmd()
cmd.securitygroupid = security_group1.id
cmd.protocol = 'ICMP'
cmd.icmptype = "-1"
cmd.icmpcode = "-1"
cmd.usersecuritygrouplist = [{'account':str(self.account.name),'group': str(security_group3.name)}]
icmp_egress_rule2 = self.api_client.authorizeSecurityGroupEgress(cmd)
# 19. ping vm2 from vm1 ( should success )
res5 = ssh1.execute("ping -c1 %s" % vm2.ipaddress)
self.assertEqual(
str(res5).count("1 received"),
1,
"Ping vm2 from vm1 should be success"
)
# 20. ping vm3 from vm1 ( should success )
res6 = ssh1.execute("ping -c1 %s" % vm3.ipaddress)
self.assertEqual(
str(res6).count("1 received"),
1,
"Ping vm3 from vm1 should be success"
)
# 21. revoke ssh ingress security group rule 1
cmd = revokeSecurityGroupIngress.revokeSecurityGroupIngressCmd()
cmd.id = ssh_ingress_rule1.ingressrule[0].ruleid
self.api_client.revokeSecurityGroupIngress(cmd)
# 22. revoke icmp ingress security group rule 1
cmd = revokeSecurityGroupIngress.revokeSecurityGroupIngressCmd()
cmd.id = icmp_ingress_rule1.ingressrule[0].ruleid
self.api_client.revokeSecurityGroupIngress(cmd)
# 23. revoke icmp ingress security group rule 2
cmd = revokeSecurityGroupIngress.revokeSecurityGroupIngressCmd()
cmd.id = icmp_ingress_rule2.ingressrule[0].ruleid
self.api_client.revokeSecurityGroupIngress(cmd)
# 24. revoke icmp egress security group rule 1
cmd = revokeSecurityGroupEgress.revokeSecurityGroupEgressCmd()
cmd.id = icmp_egress_rule1.egressrule[0].ruleid
self.api_client.revokeSecurityGroupEgress(cmd)
# 25. revoke icmp egress security group rule 2
cmd = revokeSecurityGroupEgress.revokeSecurityGroupEgressCmd()
cmd.id = icmp_egress_rule2.egressrule[0].ruleid
self.api_client.revokeSecurityGroupEgress(cmd)
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