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vsphere-automation-sdk-python/samples/vmc/networks_nsxv/expose_public_ip.py

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#!/usr/bin/env python
"""
* *******************************************************
* Copyright (c) VMware, Inc. 2018. All Rights Reserved.
* SPDX-License-Identifier: MIT
* *******************************************************
*
* DISCLAIMER. THIS PROGRAM IS PROVIDED TO YOU "AS IS" WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, WHETHER ORAL OR WRITTEN,
* EXPRESS OR IMPLIED. THE AUTHOR SPECIFICALLY DISCLAIMS ANY IMPLIED
* WARRANTIES OR CONDITIONS OF MERCHANTABILITY, SATISFACTORY QUALITY,
* NON-INFRINGEMENT AND FITNESS FOR A PARTICULAR PURPOSE.
"""
__author__ = 'VMware, Inc.'
__vcenter_version__ = 'VMware Cloud on AWS'
import argparse
import random
from com.vmware.vmc.model_client import *
from vmware.vapi.vmc.client import create_vmc_client
from samples.vmc.helpers.vmc_task_helper import wait_for_task
class ExposePublicIP(object):
"""
Demo steps required to expose a VM to public internet
1. Request a public IP address
2. Add a firewall rule on compute gateway to access to the VM
3. Create a NAT rule to forward traffic from public IP to private IP
Sample Prerequisites:
- A VM deployed inside the SDDC with private IP address
"""
def __init__(self):
parser = argparse.ArgumentParser(
formatter_class=argparse.ArgumentDefaultsHelpFormatter)
parser.add_argument('-r', '--refresh-token',
required=True,
help='VMware Cloud API refresh token')
parser.add_argument('-o', '--org-id',
required=True,
help='Organization identifier.')
parser.add_argument('-s', '--sddc-id',
required=True,
help='Sddc Identifier.')
parser.add_argument('--notes',
default='Sample public IP ' + str(random.randint(0, 100)),
help='Notes of the new public IP')
parser.add_argument('--fw-rule-name',
default='Sample firewall rule ' + str(random.randint(0, 100)),
help='Name of the compute gae')
parser.add_argument('--nat-rule-description',
default='Sample NAT rule ' + str(random.randint(0, 100)),
help='Description for the NAT rule')
parser.add_argument('--internal-ip',
required=True,
help='Private IP of the VM')
parser.add_argument('-c', '--cleardata',
action='store_true',
help='Clean up after sample run')
args = parser.parse_args()
self.network_id = None
self.edge_id = None
self.nat_rule_id = None
self.public_ip = None
self.nfwr = None
self.org_id = args.org_id
self.sddc_id = args.sddc_id
self.notes = args.notes
self.fw_rule_name = args.fw_rule_name
self.nat_rule_description = args.nat_rule_description
self.internal_ip = args.internal_ip
self.cleardata = args.cleardata
self.vmc_client = create_vmc_client(args.refresh_token)
def setup(self):
# Check if the organization exists
orgs = self.vmc_client.Orgs.list()
if self.org_id not in [org.id for org in orgs]:
raise ValueError("Org with ID {} doesn't exist".format(self.org_id))
# Check if the SDDC exists
sddcs = self.vmc_client.orgs.Sddcs.list(self.org_id)
if self.sddc_id not in [sddc.id for sddc in sddcs]:
raise ValueError("SDDC with ID {} doesn't exist in org {}".
format(self.sddc_id, self.org_id))
edges = self.vmc_client.orgs.sddcs.networks.Edges.get(
org=self.org_id,
sddc=self.sddc_id,
edge_type='gatewayServices').edge_page.data
print('\n# Setup: Compute Gateway ID: {}'.format(edges[1].id))
self.edge_id = edges[1].id
def request_public_ip(self):
print('\n# Example: Request a new IP for SDDC')
ip_spec = SddcAllocatePublicIpSpec(names=[self.notes], count=1)
task = self.vmc_client.orgs.sddcs.Publicips.create(
org=self.org_id,
sddc=self.sddc_id,
spec=ip_spec)
wait_for_task(task_client=self.vmc_client.orgs.Tasks,
org_id=self.org_id,
task_id=task.id,
interval_sec=2)
ips = self.vmc_client.orgs.sddcs.Publicips.list(
org=self.org_id,
sddc=self.sddc_id)
for ip in ips:
if ip.name == self.notes:
self.ip_id = ip.allocation_id
self.public_ip = ip.public_ip
print('# Successfully requested public IP {}'.
format(ip.public_ip))
break
else:
raise Exception("Can't find public IP with notes {}".
format(self.notes))
def create_firewall_rule_on_cgw(self):
print('\n# Example: Add a firewall rule to the compute gateway')
# Construct a new NSX firewall rule object
# which allow any to any traffic
self.nfwr = Nsxfirewallrule(rule_type='user',
name=self.fw_rule_name,
enabled=True,
action='accept',
source=AddressFWSourceDestination(
exclude=False,
ip_address=['any'],
grouping_object_id=[],
vnic_group_id=[]),
destination=AddressFWSourceDestination(
exclude=False,
ip_address=['any'],
grouping_object_id=[],
vnic_group_id=[]),
logging_enabled=False,
application=None)
self.vmc_client.orgs.sddcs.networks.edges.firewall.config.Rules.add(
org=self.org_id,
sddc=self.sddc_id,
edge_id=self.edge_id,
firewall_rules=FirewallRules([self.nfwr]))
print(' # New firewall rule "{}" is added'.format(self.fw_rule_name))
def create_net_rule(self):
print('\n# Example: Add a NAT rule to the compute gateway')
# Construct a new NSX NAT rule spec
rule = Nsxnatrule(vnic='0',
rule_type='user',
action='dnat', # Supported types are DNAT|SNAT
protocol='any',
description=self.nat_rule_description,
original_address=self.public_ip,
original_port='any',
translated_address=self.internal_ip,
translated_port='any',
enabled=True)
self.vmc_client.orgs.sddcs.networks.edges.nat.config.Rules.add(
org=self.org_id,
sddc=self.sddc_id,
edge_id=self.edge_id,
nat_rules=NatRules([rule]))
print(' # New NAT rule "{}" is added'.format(self.nat_rule_description))
def cleanup(self):
if self.cleardata:
# Delete the firewall rule
fw_rules = self.vmc_client.orgs.sddcs.networks.edges.firewall.Config.get(
org=self.org_id,
sddc=self.sddc_id,
edge_id=self.edge_id).firewall_rules.firewall_rules
for r in fw_rules:
if r.name == self.fw_rule_name:
self.vmc_client.orgs.sddcs.networks.edges.firewall.config.Rules.delete(
org=self.org_id,
sddc=self.sddc_id,
edge_id=self.edge_id,
rule_id=r.rule_id)
break
print('\n# Cleanup: Firewall rule {} is deleted'.
format(self.fw_rule_name))
# Delete the NAT rule
rules = self.vmc_client.orgs.sddcs.networks.edges.nat.Config.get(
org=self.org_id,
sddc=self.sddc_id,
edge_id=self.edge_id).rules.nat_rules_dtos
for rule in rules:
if rule.description == self.nat_rule_description:
self.vmc_client.orgs.sddcs.networks.edges.nat.config.Rules.delete(
org=self.org_id,
sddc=self.sddc_id,
edge_id=self.edge_id,
rule_id=rule.rule_id)
print('\n# Cleanup: NAT rule "{}" is deleted'.
format(self.nat_rule_description))
# Release the public IP address
self.vmc_client.orgs.sddcs.Publicips.delete(
org=self.org_id,
sddc=self.sddc_id,
id=self.ip_id)
print('\n# Cleanup: Public IP "{}" is released'.
format(self.public_ip))
def main():
expose_public_ip = ExposePublicIP()
expose_public_ip.setup()
expose_public_ip.request_public_ip()
expose_public_ip.create_firewall_rule_on_cgw()
expose_public_ip.create_net_rule()
expose_public_ip.cleanup()
if __name__ == '__main__':
main()