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# Copyright 2023 VyOS maintainers and contributors <maintainers@vyos.io>
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library 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
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library. If not, see <http://www.gnu.org/licenses/>.
def _are_same_ip(one, two):
from socket import AF_INET
from socket import AF_INET6
from socket import inet_pton
from vyos.template import is_ipv4
# compare the binary representation of the IP
f_one = AF_INET if is_ipv4(one) else AF_INET6
s_two = AF_INET if is_ipv4(two) else AF_INET6
return inet_pton(f_one, one) == inet_pton(f_one, two)
def get_protocol_by_name(protocol_name):
"""Get protocol number by protocol name
% get_protocol_by_name('tcp')
% 6
"""
import socket
try:
protocol_number = socket.getprotobyname(protocol_name)
return protocol_number
except socket.error:
return protocol_name
def interface_exists(interface) -> bool:
import os
return os.path.exists(f'/sys/class/net/{interface}')
def is_netns_interface(interface, netns):
from vyos.utils.process import rc_cmd
rc, out = rc_cmd(f'sudo ip netns exec {netns} ip link show dev {interface}')
if rc == 0:
return True
return False
def get_netns_all() -> list:
from json import loads
from vyos.utils.process import cmd
tmp = loads(cmd('ip --json netns ls'))
return [ netns['name'] for netns in tmp ]
def get_vrf_members(vrf: str) -> list:
"""
Get list of interface VRF members
:param vrf: str
:return: list
"""
import json
from vyos.utils.process import cmd
interfaces = []
try:
if not interface_exists(vrf):
raise ValueError(f'VRF "{vrf}" does not exist!')
output = cmd(f'ip --json --brief link show vrf {vrf}')
answer = json.loads(output)
for data in answer:
if 'ifname' in data:
interfaces.append(data.get('ifname'))
except:
pass
return interfaces
def get_interface_vrf(interface):
""" Returns VRF of given interface """
from vyos.utils.dict import dict_search
from vyos.utils.network import get_interface_config
tmp = get_interface_config(interface)
if dict_search('linkinfo.info_slave_kind', tmp) == 'vrf':
return tmp['master']
return 'default'
def get_interface_config(interface):
""" Returns the used encapsulation protocol for given interface.
If interface does not exist, None is returned.
"""
if not interface_exists(interface):
return None
from json import loads
from vyos.utils.process import cmd
tmp = loads(cmd(f'ip --detail --json link show dev {interface}'))[0]
return tmp
def get_interface_address(interface):
""" Returns the used encapsulation protocol for given interface.
If interface does not exist, None is returned.
"""
if not interface_exists(interface):
return None
from json import loads
from vyos.utils.process import cmd
tmp = loads(cmd(f'ip --detail --json addr show dev {interface}'))[0]
return tmp
def get_interface_namespace(interface: str):
"""
Returns wich netns the interface belongs to
"""
from json import loads
from vyos.utils.process import cmd
# Bail out early if netns does not exist
tmp = cmd(f'ip --json netns ls')
if not tmp: return None
for ns in loads(tmp):
netns = f'{ns["name"]}'
# Search interface in each netns
data = loads(cmd(f'ip netns exec {netns} ip --json link show'))
for tmp in data:
if interface == tmp["ifname"]:
return netns
def is_ipv6_tentative(iface: str, ipv6_address: str) -> bool:
"""Check if IPv6 address is in tentative state.
This function checks if an IPv6 address on a specific network interface is
in the tentative state. IPv6 tentative addresses are not fully configured
and are undergoing Duplicate Address Detection (DAD) to ensure they are
unique on the network.
Args:
iface (str): The name of the network interface.
ipv6_address (str): The IPv6 address to check.
Returns:
bool: True if the IPv6 address is tentative, False otherwise.
"""
import json
from vyos.utils.process import rc_cmd
rc, out = rc_cmd(f'ip -6 --json address show dev {iface}')
if rc:
return False
data = json.loads(out)
for addr_info in data[0]['addr_info']:
if (
addr_info.get('local') == ipv6_address and
addr_info.get('tentative', False)
):
return True
return False
def is_wwan_connected(interface):
""" Determine if a given WWAN interface, e.g. wwan0 is connected to the
carrier network or not """
import json
from vyos.utils.process import cmd
if not interface.startswith('wwan'):
raise ValueError(f'Specified interface "{interface}" is not a WWAN interface')
# ModemManager is required for connection(s) - if service is not running,
# there won't be any connection at all!
if not is_systemd_service_active('ModemManager.service'):
return False
modem = interface.lstrip('wwan')
tmp = cmd(f'mmcli --modem {modem} --output-json')
tmp = json.loads(tmp)
# return True/False if interface is in connected state
return dict_search('modem.generic.state', tmp) == 'connected'
def get_bridge_fdb(interface):
""" Returns the forwarding database entries for a given interface """
if not interface_exists(interface):
return None
from json import loads
from vyos.utils.process import cmd
tmp = loads(cmd(f'bridge -j fdb show dev {interface}'))
return tmp
def get_all_vrfs():
""" Return a dictionary of all system wide known VRF instances """
from json import loads
from vyos.utils.process import cmd
tmp = loads(cmd('ip --json vrf list'))
# Result is of type [{"name":"red","table":1000},{"name":"blue","table":2000}]
# so we will re-arrange it to a more nicer representation:
# {'red': {'table': 1000}, 'blue': {'table': 2000}}
data = {}
for entry in tmp:
name = entry.pop('name')
data[name] = entry
return data
def interface_list() -> list:
"""
Get list of interfaces in system
:rtype: list
"""
return Section.interfaces()
def vrf_list() -> list:
"""
Get list of VRFs in system
:rtype: list
"""
return list(get_all_vrfs().keys())
def mac2eui64(mac, prefix=None):
"""
Convert a MAC address to a EUI64 address or, with prefix provided, a full
IPv6 address.
Thankfully copied from https://gist.github.com/wido/f5e32576bb57b5cc6f934e177a37a0d3
"""
import re
from ipaddress import ip_network
# http://tools.ietf.org/html/rfc4291#section-2.5.1
eui64 = re.sub(r'[.:-]', '', mac).lower()
eui64 = eui64[0:6] + 'fffe' + eui64[6:]
eui64 = hex(int(eui64[0:2], 16) ^ 2)[2:].zfill(2) + eui64[2:]
if prefix is None:
return ':'.join(re.findall(r'.{4}', eui64))
else:
try:
net = ip_network(prefix, strict=False)
euil = int('0x{0}'.format(eui64), 16)
return str(net[euil])
except: # pylint: disable=bare-except
return
def check_port_availability(ipaddress, port, protocol):
"""
Check if port is available and not used by any service
Return False if a port is busy or IP address does not exists
Should be used carefully for services that can start listening
dynamically, because IP address may be dynamic too
"""
from socketserver import TCPServer, UDPServer
from ipaddress import ip_address
# verify arguments
try:
ipaddress = ip_address(ipaddress).compressed
except:
raise ValueError(f'The {ipaddress} is not a valid IPv4 or IPv6 address')
if port not in range(1, 65536):
raise ValueError(f'The port number {port} is not in the 1-65535 range')
if protocol not in ['tcp', 'udp']:
raise ValueError(f'The protocol {protocol} is not supported. Only tcp and udp are allowed')
# check port availability
try:
if protocol == 'tcp':
server = TCPServer((ipaddress, port), None, bind_and_activate=True)
if protocol == 'udp':
server = UDPServer((ipaddress, port), None, bind_and_activate=True)
server.server_close()
except Exception as e:
# errno.h:
#define EADDRINUSE 98 /* Address already in use */
if e.errno == 98:
return False
return True
def is_listen_port_bind_service(port: int, service: str) -> bool:
"""Check if listen port bound to expected program name
:param port: Bind port
:param service: Program name
:return: bool
Example:
% is_listen_port_bind_service(443, 'nginx')
True
% is_listen_port_bind_service(443, 'ocserv-main')
False
"""
from psutil import net_connections as connections
from psutil import Process as process
for connection in connections():
addr = connection.laddr
pid = connection.pid
pid_name = process(pid).name()
pid_port = addr.port
if service == pid_name and port == pid_port:
return True
return False
def is_ipv6_link_local(addr):
""" Check if addrsss is an IPv6 link-local address. Returns True/False """
from ipaddress import ip_interface
from vyos.template import is_ipv6
addr = addr.split('%')[0]
if is_ipv6(addr):
if ip_interface(addr).is_link_local:
return True
return False
def is_addr_assigned(ip_address, vrf=None) -> bool:
""" Verify if the given IPv4/IPv6 address is assigned to any interface """
from netifaces import interfaces
from vyos.utils.network import get_interface_config
from vyos.utils.dict import dict_search
for interface in interfaces():
# Check if interface belongs to the requested VRF, if this is not the
# case there is no need to proceed with this data set - continue loop
# with next element
tmp = get_interface_config(interface)
if dict_search('master', tmp) != vrf:
continue
if is_intf_addr_assigned(interface, ip_address):
return True
return False
def is_intf_addr_assigned(ifname: str, addr: str, netns: str=None) -> bool:
"""
Verify if the given IPv4/IPv6 address is assigned to specific interface.
It can check both a single IP address (e.g. 192.0.2.1 or a assigned CIDR
address 192.0.2.1/24.
"""
import json
import jmespath
from vyos.utils.process import rc_cmd
from ipaddress import ip_interface
netns_cmd = f'ip netns exec {netns}' if netns else ''
rc, out = rc_cmd(f'{netns_cmd} ip --json address show dev {ifname}')
if rc == 0:
json_out = json.loads(out)
addresses = jmespath.search("[].addr_info[].{family: family, address: local, prefixlen: prefixlen}", json_out)
for address_info in addresses:
family = address_info['family']
address = address_info['address']
prefixlen = address_info['prefixlen']
# Remove the interface name if present in the given address
if '%' in addr:
addr = addr.split('%')[0]
interface = ip_interface(f"{address}/{prefixlen}")
if ip_interface(addr) == interface or address == addr:
return True
return False
def is_loopback_addr(addr):
""" Check if supplied IPv4/IPv6 address is a loopback address """
from ipaddress import ip_address
return ip_address(addr).is_loopback
def is_wireguard_key_pair(private_key: str, public_key:str) -> bool:
"""
Checks if public/private keys are keypair
:param private_key: Wireguard private key
:type private_key: str
:param public_key: Wireguard public key
:type public_key: str
:return: If public/private keys are keypair returns True else False
:rtype: bool
"""
from vyos.utils.process import cmd
gen_public_key = cmd('wg pubkey', input=private_key)
if gen_public_key == public_key:
return True
else:
return False
def is_subnet_connected(subnet, primary=False):
"""
Verify is the given IPv4/IPv6 subnet is connected to any interface on this
system.
primary check if the subnet is reachable via the primary IP address of this
interface, or in other words has a broadcast address configured. ISC DHCP
for instance will complain if it should listen on non broadcast interfaces.
Return True/False
"""
from ipaddress import ip_address
from ipaddress import ip_network
from netifaces import ifaddresses
from netifaces import interfaces
from netifaces import AF_INET
from netifaces import AF_INET6
from vyos.template import is_ipv6
# determine IP version (AF_INET or AF_INET6) depending on passed address
addr_type = AF_INET
if is_ipv6(subnet):
addr_type = AF_INET6
for interface in interfaces():
# check if the requested address type is configured at all
if addr_type not in ifaddresses(interface).keys():
continue
# An interface can have multiple addresses, but some software components
# only support the primary address :(
if primary:
ip = ifaddresses(interface)[addr_type][0]['addr']
if ip_address(ip) in ip_network(subnet):
return True
else:
# Check every assigned IP address if it is connected to the subnet
# in question
for ip in ifaddresses(interface)[addr_type]:
# remove interface extension (e.g. %eth0) that gets thrown on the end of _some_ addrs
addr = ip['addr'].split('%')[0]
if ip_address(addr) in ip_network(subnet):
return True
return False
def is_afi_configured(interface: str, afi):
""" Check if given address family is configured, or in other words - an IP
address is assigned to the interface. """
from netifaces import ifaddresses
from netifaces import AF_INET
from netifaces import AF_INET6
if afi not in [AF_INET, AF_INET6]:
raise ValueError('Address family must be in [AF_INET, AF_INET6]')
try:
addresses = ifaddresses(interface)
except ValueError as e:
print(e)
return False
return afi in addresses
def get_vxlan_vlan_tunnels(interface: str) -> list:
""" Return a list of strings with VLAN IDs configured in the Kernel """
from json import loads
from vyos.utils.process import cmd
if not interface.startswith('vxlan'):
raise ValueError('Only applicable for VXLAN interfaces!')
# Determine current OS Kernel configured VLANs
#
# $ bridge -j -p vlan tunnelshow dev vxlan0
# [ {
# "ifname": "vxlan0",
# "tunnels": [ {
# "vlan": 10,
# "vlanEnd": 11,
# "tunid": 10010,
# "tunidEnd": 10011
# },{
# "vlan": 20,
# "tunid": 10020
# } ]
# } ]
#
os_configured_vlan_ids = []
tmp = loads(cmd(f'bridge --json vlan tunnelshow dev {interface}'))
if tmp:
for tunnel in tmp[0].get('tunnels', {}):
vlanStart = tunnel['vlan']
if 'vlanEnd' in tunnel:
vlanEnd = tunnel['vlanEnd']
# Build a real list for user VLAN IDs
vlan_list = list(range(vlanStart, vlanEnd +1))
# Convert list of integers to list or strings
os_configured_vlan_ids.extend(map(str, vlan_list))
# Proceed with next tunnel - this one is complete
continue
# Add single tunel id - not part of a range
os_configured_vlan_ids.append(str(vlanStart))
return os_configured_vlan_ids
def get_vxlan_vni_filter(interface: str) -> list:
""" Return a list of strings with VNIs configured in the Kernel"""
from json import loads
from vyos.utils.process import cmd
if not interface.startswith('vxlan'):
raise ValueError('Only applicable for VXLAN interfaces!')
# Determine current OS Kernel configured VNI filters in VXLAN interface
#
# $ bridge -j vni show dev vxlan1
# [{"ifname":"vxlan1","vnis":[{"vni":100},{"vni":200},{"vni":300,"vniEnd":399}]}]
#
# Example output: ['10010', '10020', '10021', '10022']
os_configured_vnis = []
tmp = loads(cmd(f'bridge --json vni show dev {interface}'))
if tmp:
for tunnel in tmp[0].get('vnis', {}):
vniStart = tunnel['vni']
if 'vniEnd' in tunnel:
vniEnd = tunnel['vniEnd']
# Build a real list for user VNIs
vni_list = list(range(vniStart, vniEnd +1))
# Convert list of integers to list or strings
os_configured_vnis.extend(map(str, vni_list))
# Proceed with next tunnel - this one is complete
continue
# Add single tunel id - not part of a range
os_configured_vnis.append(str(vniStart))
return os_configured_vnis
# Calculate prefix length of an IPv6 range, where possible
# Python-ified from source: https://gitlab.isc.org/isc-projects/dhcp/-/blob/master/keama/confparse.c#L4591
def ipv6_prefix_length(low, high):
import socket
bytemasks = [0x80, 0xc0, 0xe0, 0xf0, 0xf8, 0xfc, 0xfe, 0xff]
try:
lo = bytearray(socket.inet_pton(socket.AF_INET6, low))
hi = bytearray(socket.inet_pton(socket.AF_INET6, high))
except:
return None
xor = bytearray(a ^ b for a, b in zip(lo, hi))
plen = 0
while plen < 128 and xor[plen // 8] == 0:
plen += 8
if plen == 128:
return plen
for i in range((plen // 8) + 1, 16):
if xor[i] != 0:
return None
for i in range(8):
msk = ~xor[plen // 8] & 0xff
if msk == bytemasks[i]:
return plen + i + 1
return None
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