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#!/usr/bin/env python3
#
# Copyright (C) 2018-2020 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 <http://www.gnu.org/licenses/>.
import os
import re
from sys import exit
import ipaddress
from ipaddress import ip_address
from jinja2 import FileSystemLoader, Environment
from vyos.ifconfig import Section
from vyos.ifconfig import Interface
from vyos.config import Config
from vyos import ConfigError
from vyos.util import cmd
from vyos.template import render
from vyos import airbag
airbag.enable()
# default values
default_sflow_server_port = 6343
default_netflow_server_port = 2055
default_plugin_pipe_size = 10
default_captured_packet_size = 128
default_netflow_version = '9'
default_sflow_agentip = 'auto'
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'
# helper functions
# check if node exists and return True if this is true
def _node_exists(path):
vyos_config = Config()
if vyos_config.exists(path):
return True
# 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<ipaddr>[a-f\d\.:]+)/\d+$')
if regex_filter.search(address):
return regex_filter.search(address).group('ipaddr')
# return nothing by default
return None
# get iptables rule dict for chain in table
def _iptables_get_nflog(chain, table):
# define list with rules
rules = []
# prepare regex for parsing rules
rule_pattern = "^-A (?P<rule_definition>{0} (\-i|\-o) (?P<interface>[\w\.\*\-]+).*--comment FLOW_ACCOUNTING_RULE.* -j NFLOG.*$)".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():
vc = Config()
vc.set_level('')
# Convert the VyOS config to an abstract internal representation
flow_config = {
'flow-accounting-configured': vc.exists('system flow-accounting'),
'buffer-size': vc.return_value('system flow-accounting buffer-size'),
'enable-egress': _node_exists('system flow-accounting enable-egress'),
'disable-imt': _node_exists('system flow-accounting disable-imt'),
'syslog-facility': vc.return_value('system flow-accounting syslog-facility'),
'interfaces': None,
'sflow': {
'configured': vc.exists('system flow-accounting sflow'),
'agent-address': vc.return_value('system flow-accounting sflow agent-address'),
'sampling-rate': vc.return_value('system flow-accounting sflow sampling-rate'),
'servers': None
},
'netflow': {
'configured': vc.exists('system flow-accounting netflow'),
'engine-id': vc.return_value('system flow-accounting netflow engine-id'),
'max-flows': vc.return_value('system flow-accounting netflow max-flows'),
'sampling-rate': vc.return_value('system flow-accounting netflow sampling-rate'),
'source-ip': vc.return_value('system flow-accounting netflow source-ip'),
'version': vc.return_value('system flow-accounting netflow version'),
'timeout': {
'expint': vc.return_value('system flow-accounting netflow timeout expiry-interval'),
'general': vc.return_value('system flow-accounting netflow timeout flow-generic'),
'icmp': vc.return_value('system flow-accounting netflow timeout icmp'),
'maxlife': vc.return_value('system flow-accounting netflow timeout max-active-life'),
'tcp.fin': vc.return_value('system flow-accounting netflow timeout tcp-fin'),
'tcp': vc.return_value('system flow-accounting netflow timeout tcp-generic'),
'tcp.rst': vc.return_value('system flow-accounting netflow timeout tcp-rst'),
'udp': vc.return_value('system flow-accounting netflow timeout udp')
},
'servers': None
}
}
# get interfaces list
if vc.exists('system flow-accounting interface'):
flow_config['interfaces'] = vc.return_values('system flow-accounting interface')
# get sFlow collectors list
if vc.exists('system flow-accounting sflow server'):
flow_config['sflow']['servers'] = []
sflow_collectors = vc.list_nodes('system flow-accounting sflow server')
for collector in sflow_collectors:
port = default_sflow_server_port
if vc.return_value("system flow-accounting sflow server {} port".format(collector)):
port = vc.return_value("system flow-accounting sflow server {} port".format(collector))
flow_config['sflow']['servers'].append({ 'address': collector, 'port': port })
# get NetFlow collectors list
if vc.exists('system flow-accounting netflow server'):
flow_config['netflow']['servers'] = []
netflow_collectors = vc.list_nodes('system flow-accounting netflow server')
for collector in netflow_collectors:
port = default_netflow_server_port
if vc.return_value("system flow-accounting netflow server {} port".format(collector)):
port = vc.return_value("system flow-accounting netflow server {} port".format(collector))
flow_config['netflow']['servers'].append({ 'address': collector, 'port': port })
# get sflow agent-id
if flow_config['sflow']['agent-address'] == None or flow_config['sflow']['agent-address'] == 'auto':
flow_config['sflow']['agent-address'] = _sflow_default_agentip(vc)
# get NetFlow version
if not flow_config['netflow']['version']:
flow_config['netflow']['version'] = default_netflow_version
# convert NetFlow engine-id format, if this is necessary
if flow_config['netflow']['engine-id'] and flow_config['netflow']['version'] == '5':
regex_filter = re.compile('^\d+$')
if regex_filter.search(flow_config['netflow']['engine-id']):
flow_config['netflow']['engine-id'] = "{}:0".format(flow_config['netflow']['engine-id'])
# return dict with flow-accounting configuration
return flow_config
def verify(config):
# Verify that configuration is valid
# skip all checks if flow-accounting was removed
if not config['flow-accounting-configured']:
return True
# check if at least one collector is enabled
if not (config['sflow']['configured'] or config['netflow']['configured'] or not config['disable-imt']):
raise ConfigError("You need to configure at least one sFlow or NetFlow protocol, or not set \"disable-imt\" for flow-accounting")
# Check if at least one interface is configured
if not config['interfaces']:
raise ConfigError("You need to configure at least one interface for flow-accounting")
# check that all configured interfaces exists in the system
for iface in config['interfaces']:
if not iface in Section.interfaces():
# chnged from error to warning to allow adding dynamic interfaces and interface templates
# raise ConfigError("The {} interface is not presented in the system".format(iface))
print("Warning: the {} interface is not presented in the system".format(iface))
# check sFlow configuration
if config['sflow']['configured']:
# check if at least one sFlow collector is configured if sFlow configuration is presented
if not config['sflow']['servers']:
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 sflow_collector in config['sflow']['servers']:
if sflow_collector_ipver:
if sflow_collector_ipver != ip_address(sflow_collector['address']).version:
raise ConfigError("All sFlow servers must use the same IP protocol")
else:
sflow_collector_ipver = ip_address(sflow_collector['address']).version
# check agent-id for sFlow: we should avoid mixing IPv4 agent-id with IPv6 collectors and vice-versa
for sflow_collector in config['sflow']['servers']:
if ip_address(sflow_collector['address']).version != ip_address(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")
# check if configured sFlow agent-id exist in the system
agent_id_presented = None
for iface in Section.interfaces():
for address in Interface(iface).get_addr():
# check an IP, if this is not loopback
regex_filter = re.compile('^(?!(127)|(::1)|(fe80))(?P<ipaddr>[a-f\d\.:]+)/\d+$')
if regex_filter.search(address):
if regex_filter.search(address).group('ipaddr') == config['sflow']['agent-address']:
agent_id_presented = True
break
if not agent_id_presented:
raise ConfigError("Your \"sflow agent-address\" does not exist in the system")
# check NetFlow configuration
if config['netflow']['configured']:
# check if at least one NetFlow collector is configured if NetFlow configuration is presented
if not config['netflow']['servers']:
raise ConfigError("You need to configure at least one NetFlow server")
# check if configured netflow source-ip exist in the system
if config['netflow']['source-ip']:
source_ip_presented = None
for iface in Section.interfaces():
for address in Interface(iface).get_addr():
# check an IP
regex_filter = re.compile('^(?!(127)|(::1)|(fe80))(?P<ipaddr>[a-f\d\.:]+)/\d+$')
if regex_filter.search(address):
if regex_filter.search(address).group('ipaddr') == config['netflow']['source-ip']:
source_ip_presented = True
break
if not source_ip_presented:
raise ConfigError("Your \"netflow source-ip\" does not exist in the system")
# check if engine-id compatible with selected protocol version
if config['netflow']['engine-id']:
v5_filter = '^(\d|[1-9]\d|1\d{2}|2[0-4]\d|25[0-5]):(\d|[1-9]\d|1\d{2}|2[0-4]\d|25[0-5])$'
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])$'
if config['netflow']['version'] == '5':
regex_filter = re.compile(v5_filter)
if not regex_filter.search(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']))
else:
regex_filter = re.compile(v9v10_filter)
if not regex_filter.search(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(config):
# skip all checks if flow-accounting was removed
if not config['flow-accounting-configured']:
return True
# Calculate all necessary values
if config['buffer-size']:
# circular queue size
config['plugin_pipe_size'] = int(config['buffer-size']) * 1024**2
else:
config['plugin_pipe_size'] = default_plugin_pipe_size * 1024**2
# transfer buffer size
# recommended value from pmacct developers 1/1000 of pipe size
config['plugin_buffer_size'] = int(config['plugin_pipe_size'] / 1000)
# Prepare a timeouts string
timeout_string = ''
for timeout_type, timeout_value in config['netflow']['timeout'].items():
if timeout_value:
if timeout_string == '':
timeout_string = "{}{}={}".format(timeout_string, timeout_type, timeout_value)
else:
timeout_string = "{}:{}={}".format(timeout_string, timeout_type, timeout_value)
config['netflow']['timeout_string'] = timeout_string
render(uacctd_conf_path, 'netflow/uacctd.conf.tmpl', {
'templatecfg': config,
'snaplen': default_captured_packet_size,
})
def apply(config):
# define variables
command = None
# Check if flow-accounting was removed and define command
if not config['flow-accounting-configured']:
command = 'systemctl stop uacctd.service'
else:
command = 'systemctl restart uacctd.service'
# run command to start or stop flow-accounting
cmd(command, raising=ConfigError, message='Failed to start/stop flow-accounting')
# configure iptables rules for defined interfaces
if config['interfaces']:
_iptables_config(config['interfaces'], 'ingress')
# configure egress the same way if configured otherwise remove it
if config['enable-egress']:
_iptables_config(config['interfaces'], 'egress')
else:
_iptables_config([], 'egress')
else:
_iptables_config([], 'ingress')
_iptables_config([], 'egress')
if __name__ == '__main__':
try:
config = get_config()
verify(config)
generate(config)
apply(config)
except ConfigError as e:
print(e)
exit(1)
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