#!/usr/bin/env python3
#
# Copyright (C) 2018-2021 VyOS maintainers and contributors
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 2 or later as
# published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
import os
import re
from sys import exit
import ipaddress
from ipaddress import ip_address
from vyos.config import Config
from vyos.configdict import dict_merge
from vyos.ifconfig import Section
from vyos.ifconfig import Interface
from vyos.template import render
from vyos.util import cmd
from vyos.validate import is_addr_assigned
from vyos.xml import defaults
from vyos import ConfigError
from vyos import airbag
airbag.enable()
# default values
default_captured_packet_size = 128
uacctd_conf_path = '/etc/pmacct/uacctd.conf'
iptables_nflog_table = 'raw'
iptables_nflog_chain = 'VYATTA_CT_PREROUTING_HOOK'
egress_iptables_nflog_table = 'mangle'
egress_iptables_nflog_chain = 'FORWARD'
# get sFlow agent-ip if agent-address is "auto" (default behaviour)
def _sflow_default_agentip(config):
# check if any of BGP, OSPF, OSPFv3 protocols are configured and use router-id from there
if config.exists('protocols bgp'):
bgp_router_id = config.return_value("protocols bgp {} parameters router-id".format(config.list_nodes('protocols bgp')[0]))
if bgp_router_id:
return bgp_router_id
if config.return_value('protocols ospf parameters router-id'):
return config.return_value('protocols ospf parameters router-id')
if config.return_value('protocols ospfv3 parameters router-id'):
return config.return_value('protocols ospfv3 parameters router-id')
# if router-id was not found, use first available ip of any interface
for iface in Section.interfaces():
for address in Interface(iface).get_addr():
# return an IP, if this is not loopback
regex_filter = re.compile('^(?!(127)|(::1)|(fe80))(?P[a-f\d\.:]+)/\d+$')
if regex_filter.search(address):
return regex_filter.search(address).group('ipaddr')
# return nothing by default
return None
# get iptables rule dict for chain in table
def _iptables_get_nflog(chain, table):
# define list with rules
rules = []
# prepare regex for parsing rules
rule_pattern = "^-A (?P{0} (\-i|\-o) (?P[\w\.\*\-]+).*--comment FLOW_ACCOUNTING_RULE.* -j NFLOG.*$)".format(chain)
rule_re = re.compile(rule_pattern)
for iptables_variant in ['iptables', 'ip6tables']:
# run iptables, save output and split it by lines
iptables_command = f'{iptables_variant} -t {table} -S {chain}'
tmp = cmd(iptables_command, message='Failed to get flows list')
# parse each line and add information to list
for current_rule in tmp.splitlines():
current_rule_parsed = rule_re.search(current_rule)
if current_rule_parsed:
rules.append({ 'interface': current_rule_parsed.groupdict()["interface"], 'iptables_variant': iptables_variant, 'table': table, 'rule_definition': current_rule_parsed.groupdict()["rule_definition"] })
# return list with rules
return rules
# modify iptables rules
def _iptables_config(configured_ifaces, direction):
# define list of iptables commands to modify settings
iptable_commands = []
iptables_chain = iptables_nflog_chain
iptables_table = iptables_nflog_table
if direction == "egress":
iptables_chain = egress_iptables_nflog_chain
iptables_table = egress_iptables_nflog_table
# prepare extended list with configured interfaces
configured_ifaces_extended = []
for iface in configured_ifaces:
configured_ifaces_extended.append({ 'iface': iface, 'iptables_variant': 'iptables' })
configured_ifaces_extended.append({ 'iface': iface, 'iptables_variant': 'ip6tables' })
# get currently configured interfaces with iptables rules
active_nflog_rules = _iptables_get_nflog(iptables_chain, iptables_table)
# compare current active list with configured one and delete excessive interfaces, add missed
active_nflog_ifaces = []
for rule in active_nflog_rules:
iptables = rule['iptables_variant']
interface = rule['interface']
if interface not in configured_ifaces:
table = rule['table']
rule = rule['rule_definition']
iptable_commands.append(f'{iptables} -t {table} -D {rule}')
else:
active_nflog_ifaces.append({
'iface': interface,
'iptables_variant': iptables,
})
# do not create new rules for already configured interfaces
for iface in active_nflog_ifaces:
if iface in active_nflog_ifaces and iface in configured_ifaces_extended:
configured_ifaces_extended.remove(iface)
# create missed rules
for iface_extended in configured_ifaces_extended:
iface = iface_extended['iface']
iptables = iface_extended['iptables_variant']
iptables_op = "-i"
if direction == "egress":
iptables_op = "-o"
rule_definition = f'{iptables_chain} {iptables_op} {iface} -m comment --comment FLOW_ACCOUNTING_RULE -j NFLOG --nflog-group 2 --nflog-size {default_captured_packet_size} --nflog-threshold 100'
iptable_commands.append(f'{iptables} -t {iptables_table} -I {rule_definition}')
# change iptables
for command in iptable_commands:
cmd(command, raising=ConfigError)
def get_config(config=None):
if config:
conf = config
else:
conf = Config()
base = ['system', 'flow-accounting']
if not conf.exists(base):
return None
flow_accounting = conf.get_config_dict(base, key_mangling=('-', '_'), get_first_key=True)
# We have gathered the dict representation of the CLI, but there are default
# options which we need to update into the dictionary retrived.
default_values = defaults(base)
# delete individual flow type default - should only be added if user uses
# this feature
for flow_type in ['sflow', 'netflow']:
if flow_type in default_values:
del default_values[flow_type]
flow_accounting = dict_merge(default_values, flow_accounting)
for flow_type in ['sflow', 'netflow']:
if flow_type in flow_accounting:
default_values = defaults(base + [flow_type])
# we need to merge individual server configurations
if 'server' in default_values:
del default_values['server']
flow_accounting[flow_type] = dict_merge(default_values, flow_accounting[flow_type])
if 'server' in flow_accounting[flow_type]:
default_values = defaults(base + [flow_type, 'server'])
for server in flow_accounting[flow_type]['server']:
flow_accounting[flow_type]['server'][server] = dict_merge(
default_values,flow_accounting[flow_type]['server'][server])
flow_accounting['snaplen'] = default_captured_packet_size
return flow_accounting
def verify(flow_config):
if not flow_config:
return None
# check if at least one collector is enabled
if 'sflow' not in flow_config and 'netflow' not in flow_config and 'disable_imt' in flow_config:
raise ConfigError('You need to configure at least sFlow or NetFlow, ' \
'or not set "disable-imt" for flow-accounting!')
# Check if at least one interface is configured
if 'interface' not in flow_config:
raise ConfigError('Flow accounting requires at least one interface to ' \
'be configured!')
# check that all configured interfaces exists in the system
for interface in flow_config['interface']:
if interface not in Section.interfaces():
# Changed from error to warning to allow adding dynamic interfaces
# and interface templates
print(f'Warning: Interface "{interface}" is not presented in the system')
# check sFlow configuration
if 'sflow' in flow_config:
# check if at least one sFlow collector is configured
if 'server' not in flow_config['sflow']:
raise ConfigError('You need to configure at least one sFlow server!')
# check that all sFlow collectors use the same IP protocol version
sflow_collector_ipver = None
for server in flow_config['sflow']['server']:
if sflow_collector_ipver:
if sflow_collector_ipver != ip_address(server).version:
raise ConfigError("All sFlow servers must use the same IP protocol")
else:
sflow_collector_ipver = ip_address(server).version
# check agent-id for sFlow: we should avoid mixing IPv4 agent-id with IPv6 collectors and vice-versa
for server in flow_config['sflow']['server']:
if flow_config['sflow']['agent_address'] != 'auto':
if ip_address(server).version != ip_address(flow_config['sflow']['agent_address']).version:
raise ConfigError("Different IP address versions cannot be mixed in \"sflow agent-address\" and \"sflow server\". You need to set manually the same IP version for \"agent-address\" as for all sFlow servers")
if 'agent_address' in flow_config['sflow']:
agent_address = flow_config['sflow']['agent_address']
if agent_address != 'auto' and not is_addr_assigned(agent_address):
print(f'Warning: Configured "sflow agent-address" does not exist in the system!')
# check NetFlow configuration
if 'netflow' in flow_config:
# check if at least one NetFlow collector is configured if NetFlow configuration is presented
if 'server' not in flow_config['netflow']:
raise ConfigError('You need to configure at least one NetFlow server!')
# check if configured netflow source-ip exist in the system
if 'source_ip' in flow_config['netflow']:
if not is_addr_assigned(flow_config['netflow']['source_ip']):
print(f'Warning: your "netflow source-ip" does not exist in the system!')
# check if engine-id compatible with selected protocol version
if 'engine_id' in flow_config['netflow']:
v5_filter = '^(\d|[1-9]\d|1\d{2}|2[0-4]\d|25[0-5]):(\d|[1-9]\d|1\d{2}|2[0-4]\d|25[0-5])$'
v9v10_filter = '^(\d|[1-9]\d{1,8}|[1-3]\d{9}|4[01]\d{8}|42[0-8]\d{7}|429[0-3]\d{6}|4294[0-8]\d{5}|42949[0-5]\d{4}|429496[0-6]\d{3}|4294967[01]\d{2}|42949672[0-8]\d|429496729[0-5])$'
engine_id = flow_config['netflow']['engine_id']
version = flow_config['netflow']['version']
if flow_config['netflow']['version'] == '5':
regex_filter = re.compile(v5_filter)
if not regex_filter.search(engine_id):
raise ConfigError(f'You cannot use NetFlow engine-id "{engine_id}" '\
f'together with NetFlow protocol version "{version}"!')
else:
regex_filter = re.compile(v9v10_filter)
if not regex_filter.search(flow_config['netflow']['engine_id']):
raise ConfigError("You cannot use NetFlow engine-id {} together with NetFlow protocol version {}".format(config['netflow']['engine-id'], config['netflow']['version']))
# return True if all checks were passed
return True
def generate(flow_config):
if not flow_config:
return None
render(uacctd_conf_path, 'netflow/uacctd.conf.tmpl', flow_config)
def apply(flow_config):
action = 'restart'
# Check if flow-accounting was removed and define command
if not flow_config:
_iptables_config([], 'ingress')
_iptables_config([], 'egress')
# Stop flow-accounting daemon
cmd('systemctl stop uacctd.service')
return
# Start/reload flow-accounting daemon
cmd(f'systemctl restart uacctd.service')
# configure iptables rules for defined interfaces
if 'interface' in flow_config:
_iptables_config(flow_config['interface'], 'ingress')
# configure egress the same way if configured otherwise remove it
if 'enable_egress' in flow_config:
_iptables_config(flow_config['interface'], 'egress')
else:
_iptables_config([], 'egress')
if __name__ == '__main__':
try:
config = get_config()
verify(config)
generate(config)
apply(config)
except ConfigError as e:
print(e)
exit(1)