#!/usr/bin/env python3 # Copyright 2017, 2019 VyOS maintainers and contributors # # 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 . import os import re import sys import glob import datetime import argparse import netifaces from vyos.ifconfig import Section from vyos.ifconfig import Interface from vyos.ifconfig import VRRP from vyos.util import cmd # interfaces = Sections.reserved() interfaces = ['eno', 'ens', 'enp', 'enx', 'eth', 'vmnet', 'lo', 'tun', 'wan', 'pppoe'] glob_ifnames = '/sys/class/net/({})*'.format('|'.join(interfaces)) actions = {} def register(name): """ Decorator to register a function into actions with a name. `actions[name]' can be used to call the registered functions. We wrap each function in a SIGPIPE handler as all registered functions can be subject to a broken pipe if there are a lot of interfaces. """ def _register(function): def handled_function(*args, **kwargs): try: function(*args, **kwargs) except BrokenPipeError: # Flush output to /dev/null and bail out. os.dup2(os.open(os.devnull, os.O_WRONLY), sys.stdout.fileno()) sys.exit(1) actions[name] = handled_function return handled_function return _register def filtered_interfaces(ifnames, iftypes, vif, vrrp): """ get all the interfaces from the OS and returns them ifnames can be used to filter which interfaces should be considered ifnames: a list of interfaces names to consider, empty do not filter return an instance of the interface class """ allnames = Section.interfaces() vrrp_interfaces = VRRP.active_interfaces() if vrrp else [] for ifname in allnames: if ifnames and ifname not in ifnames: continue # return the class which can handle this interface name klass = Section.klass(ifname) # connect to the interface interface = klass(ifname, create=False, debug=False) if iftypes and interface.definition['section'] not in iftypes: continue if vif and not '.' in ifname: continue if vrrp and ifname not in vrrp_interfaces: continue yield interface def split_text(text, used=0): """ take a string and attempt to split it to fit with the width of the screen text: the string to split used: number of characted already used in the screen """ returned = cmd('stty size') if len(returned) == 2: rows, columns = [int(_) for _ in returned] else: rows, columns = (40, 80) desc_len = columns - used line = '' for word in text.split(): if len(line) + len(word) < desc_len: line = f'{line} {word}' continue if line: yield line[1:] else: line = f'{line} {word}' yield line[1:] def get_vrrp_intf(): return [intf for intf in Section.interfaces() if intf.is_vrrp()] def get_counter_val(clear, now): """ attempt to correct a counter if it wrapped, copied from perl clear: previous counter now: the current counter """ # This function has to deal with both 32 and 64 bit counters if clear == 0: return now # device is using 64 bit values assume they never wrap value = now - clear if (now >> 32) != 0: return value # The counter has rolled. If the counter has rolled # multiple times since the clear value, then this math # is meaningless. if (value < 0): value = (4294967296 - clear) + now return value @register('help') def usage(*args): print(f"Usage: {sys.argv[0]} [intf=NAME|intf-type=TYPE|vif|vrrp] action=ACTION") print(f" NAME = " + ' | '.join(Section.interfaces())) print(f" TYPE = " + ' | '.join(Section.sections())) print(f" ACTION = " + ' | '.join(actions)) sys.exit(1) @register('allowed') def run_allowed(**kwarg): sys.stdout.write(' '.join(Section.interfaces())) def pppoe(ifname): out = cmd(f'ps -C pppd -f') if ifname in out: return 'C' elif ifname in [_.split('/')[-1] for _ in glob.glob('/etc/ppp/peers/pppoe*')]: return 'D' return '' @register('show') def run_show_intf(ifnames, iftypes, vif, vrrp): handled = [] for interface in filtered_interfaces(ifnames, iftypes, vif, vrrp): handled.append(interface.ifname) cache = interface.operational.load_counters() out = cmd(f'ip addr show {interface.ifname}') out = re.sub(f'^\d+:\s+','',out) if re.search('link/tunnel6', out): tunnel = cmd(f'ip -6 tun show {interface.ifname}') # tun0: ip/ipv6 remote ::2 local ::1 encaplimit 4 hoplimit 64 tclass inherit flowlabel inherit (flowinfo 0x00000000) tunnel = re.sub('.*encap', 'encap', tunnel) out = re.sub('(\n\s+)(link/tunnel6)', f'\g<1>{tunnel}\g<1>\g<2>', out) print(out) timestamp = int(cache.get('timestamp', 0)) if timestamp: when = interface.operational.strtime(timestamp) print(f' Last clear: {when}') description = interface.get_alias() if description: print(f' Description: {description}') print() print(interface.operational.formated_stats()) for ifname in ifnames: if ifname not in handled and ifname.startswith('pppoe'): state = pppoe(ifname) if not state: continue string = { 'C': 'Coming up', 'D': 'Link down', }[state] print('{}: {}'.format(ifname, string)) @register('show-brief') def run_show_intf_brief(ifnames, iftypes, vif, vrrp): format1 = '%-16s %-33s %-4s %s' format2 = '%-16s %s' print('Codes: S - State, L - Link, u - Up, D - Down, A - Admin Down') print(format1 % ("Interface", "IP Address", "S/L", "Description")) print(format1 % ("---------", "----------", "---", "-----------")) handled = [] for interface in filtered_interfaces(ifnames, iftypes, vif, vrrp): handled.append(interface.ifname) oper_state = interface.operational.get_state() admin_state = interface.get_admin_state() intf = [interface.ifname,] oper = ['u', ] if oper_state in ('up', 'unknown') else ['D', ] admin = ['u', ] if admin_state in ('up', 'unknown') else ['A', ] addrs = [_ for _ in interface.get_addr() if not _.startswith('fe80::')] or ['-', ] descs = list(split_text(interface.get_alias(),0)) while intf or oper or admin or addrs or descs: i = intf.pop(0) if intf else '' a = addrs.pop(0) if addrs else '' d = descs.pop(0) if descs else '' s = [admin.pop(0)] if admin else [] l = [oper.pop(0)] if oper else [] if len(a) < 33: print(format1 % (i, a, '/'.join(s+l), d)) else: print(format2 % (i, a)) print(format1 % ('', '', '/'.join(s+l), d)) for ifname in ifnames: if ifname not in handled and ifname.startswith('pppoe'): state = pppoe(ifname) if not state: continue string = { 'C': 'u/D', 'D': 'A/D', }[state] print(format1 % (ifname, '', string, '')) @register('show-count') def run_show_counters(ifnames, iftypes, vif, vrrp): formating = '%-12s %10s %10s %10s %10s' print(formating % ('Interface', 'Rx Packets', 'Rx Bytes', 'Tx Packets', 'Tx Bytes')) for interface in filtered_interfaces(ifnames, iftypes, vif, vrrp): oper = interface.operational.get_state() if oper not in ('up','unknown'): continue stats = interface.operational.get_stats() cache = interface.operational.load_counters() print(formating % ( interface.ifname, get_counter_val(cache['rx_packets'], stats['rx_packets']), get_counter_val(cache['rx_bytes'], stats['rx_bytes']), get_counter_val(cache['tx_packets'], stats['tx_packets']), get_counter_val(cache['tx_bytes'], stats['tx_bytes']), )) @register('clear') def run_clear_intf(ifnames, iftypes, vif, vrrp): for interface in filtered_interfaces(ifnames, iftypes, vif, vrrp): print(f'Clearing {interface.ifname}') interface.operational.clear_counters() @register('reset') def run_reset_intf(ifnames, iftypes, vif, vrrp): for interface in filtered_interfaces(ifnames, iftypes, vif, vrrp): interface.operational.reset_counters() if __name__ == '__main__': parser = argparse.ArgumentParser(add_help=False, description='Show interface information') parser.add_argument('--intf', action="store", type=str, default='', help='only show the specified interface(s)') parser.add_argument('--intf-type', action="store", type=str, default='', help='only show the specified interface type') parser.add_argument('--action', action="store", type=str, default='show', help='action to perform') parser.add_argument('--vif', action='store_true', default=False, help="only show vif interfaces") parser.add_argument('--vrrp', action='store_true', default=False, help="only show vrrp interfaces") parser.add_argument('--help', action='store_true', default=False, help="show help") args = parser.parse_args() def missing(*args): print('Invalid action [{args.action}]') usage() actions.get(args.action, missing)( [_ for _ in args.intf.split(' ') if _], [_ for _ in args.intf_type.split(' ') if _], args.vif, args.vrrp )