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python-tripleoclient
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python-tripleoclient/tripleoclient/v1/overcloud_netenv_validate.py

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# Copyright 2015 Red Hat, Inc.
#
# Licensed 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.
#
from __future__ import print_function
import itertools
import logging
import os
import ipaddress
from osc_lib.i18n import _
import six
import yaml
from tripleoclient import command
class ValidateOvercloudNetenv(command.Command):
"""Validate the network environment file."""
auth_required = False
log = logging.getLogger(__name__ + ".ValidateOvercloudNetworkEnvironment")
def get_parser(self, prog_name):
parser = super(ValidateOvercloudNetenv, self).get_parser(prog_name)
parser.add_argument(
'-f', '--file', dest='netenv',
help=_("Path to the network environment file"),
default='network-environment.yaml')
return parser
def take_action(self, parsed_args):
self.log.debug("take_action(%s)" % parsed_args)
with open(parsed_args.netenv, 'r') as net_file:
network_data = yaml.safe_load(net_file)
cidrinfo = {}
poolsinfo = {}
vlaninfo = {}
self.error_count = 0
for item in network_data['resource_registry']:
if item.endswith("Net::SoftwareConfig"):
data = network_data['resource_registry'][item]
self.log.info('Validating %s', data)
data_path = os.path.join(os.path.dirname(parsed_args.netenv),
data)
self.NIC_validate(item, data_path)
for item in network_data['parameter_defaults']:
data = network_data['parameter_defaults'][item]
if item.endswith('NetCidr'):
cidrinfo[item] = data
elif item.endswith('AllocationPools'):
poolsinfo[item] = data
elif item.endswith('NetworkVlanID'):
vlaninfo[item] = data
elif item == 'ExternalInterfaceDefaultRoute':
pass
elif item == 'BondInterfaceOvsOptions':
pass
self.check_cidr_overlap(cidrinfo.values())
self.check_allocation_pools_pairing(network_data['parameter_defaults'],
poolsinfo)
self.check_vlan_ids(vlaninfo)
if self.error_count > 0:
print('\nFAILED Validation with %i error(s)' % self.error_count)
else:
print('SUCCESSFUL Validation with %i error(s)' % self.error_count)
def check_cidr_overlap(self, networks):
objs = []
for x in networks:
try:
objs += [ipaddress.ip_network(six.u(x))]
except ValueError:
self.log.error('Invalid address: %s', x)
self.error_count += 1
for net1, net2 in itertools.combinations(objs, 2):
if (net1.overlaps(net2)):
self.log.error(
'Overlapping networks detected {} {}'.format(net1, net2))
self.error_count += 1
def check_allocation_pools_pairing(self, filedata, pools):
for poolitem in pools:
pooldata = filedata[poolitem]
self.log.info('Checking allocation pool {}'.format(poolitem))
pool_objs = []
for pool in pooldata:
try:
ip_start = ipaddress.ip_address(
six.u(pool['start']))
except ValueError:
self.log.error('Invalid address: %s' % ip_start)
self.error_count += 1
ip_start = None
try:
ip_end = ipaddress.ip_address(six.u(pool['end']))
except ValueError:
self.log.error('Invalid address: %s' % ip_start)
self.error_count += 1
ip_end = None
if (ip_start is None) or (ip_end is None):
continue
try:
pool_objs.append(list(
ipaddress.summarize_address_range(ip_start, ip_end)))
except Exception:
self.log.error('Invalid address pool: %s, %s' %
(ip_start, ip_end))
self.error_count += 1
subnet_item = poolitem.split('AllocationPools')[0] + 'NetCidr'
try:
subnet_obj = ipaddress.ip_network(
six.u(filedata[subnet_item]))
except ValueError:
self.log.error('Invalid address: %s', subnet_item)
self.error_count += 1
continue
for ranges in pool_objs:
for range in ranges:
if not subnet_obj.overlaps(range):
self.log.error(
'Allocation pool {} {} outside of subnet {}: {}'
.format(poolitem, pooldata, subnet_item,
subnet_obj))
self.error_count += 1
break
def check_vlan_ids(self, vlans):
invertdict = {}
for k, v in six.iteritems(vlans):
self.log.info('Checking Vlan ID {}'.format(k))
if v not in invertdict:
invertdict[v] = k
else:
self.log.error('Vlan ID {} ({}) already exists in {}'.format(
v, k, invertdict[v]))
self.error_count += 1
def NIC_validate(self, resource, path):
try:
with open(path, 'r') as nic_file:
nic_data = yaml.safe_load(nic_file)
except IOError:
self.log.error(
'The resource "%s" reference file does not exist: "%s"',
resource, path)
self.error_count += 1
return
# Look though every resources bridges and make sure there is only a
# single bond per bridge and only 1 interface per bridge if there are
# no bonds.
for item in nic_data['resources']:
bridges = nic_data['resources'][item]['properties']['config'][
'os_net_config']['network_config']
for bridge in bridges:
if bridge['type'] == 'ovs_bridge':
bond_count = 0
interface_count = 0
for bond in bridge['members']:
if bond['type'] == 'ovs_bond':
bond_count += 1
if bond['type'] == 'interface':
interface_count += 1
if bond_count == 0:
# Logging could be better if we knew the bridge name.
# Since it's passed as a paramter we would need to
# catch it
self.log.debug(
'There are 0 bonds for bridge %s of '
'resource %s in %s',
bridge['name'], item, path)
if bond_count == 1:
self.log.debug(
'There is 1 bond for bridge %s of '
'resource %s in %s',
bridge['name'], item, path)
if bond_count == 2:
self.log.error(
'Invalid bonding: There are 2 bonds for bridge %s '
'of resource %s in %s',
bridge['name'], item, path)
self.error_count += 1
if bond_count == 0 and interface_count > 1:
self.log.error(
'Invalid interface: When not using a bond, there '
'can only be 1 interface for bridge %s of resource'
'%s in %s',
bridge['name'], item, path)
self.error_count += 1
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