# Copyright 2019-2021 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 from vyos.ethtool import Ethtool from vyos.ifconfig.interface import Interface from vyos.util import run from vyos.util import dict_search from vyos.validate import assert_list @Interface.register class EthernetIf(Interface): """ Abstraction of a Linux Ethernet Interface """ iftype = 'ethernet' definition = { **Interface.definition, **{ 'section': 'ethernet', 'prefixes': ['lan', 'eth', 'eno', 'ens', 'enp', 'enx'], 'bondable': True, 'broadcast': True, 'bridgeable': True, 'eternal': '(lan|eth|eno|ens|enp|enx)[0-9]+$', } } @staticmethod def feature(ifname, option, value): run(f'ethtool -K {ifname} {option} {value}') return False _command_set = {**Interface._command_set, **{ 'gro': { 'validate': lambda v: assert_list(v, ['on', 'off']), 'possible': lambda i, v: EthernetIf.feature(i, 'gro', v), # 'shellcmd': 'ethtool -K {ifname} gro {value}', }, 'gso': { 'validate': lambda v: assert_list(v, ['on', 'off']), 'possible': lambda i, v: EthernetIf.feature(i, 'gso', v), # 'shellcmd': 'ethtool -K {ifname} gso {value}', }, 'lro': { 'validate': lambda v: assert_list(v, ['on', 'off']), 'possible': lambda i, v: EthernetIf.feature(i, 'lro', v), # 'shellcmd': 'ethtool -K {ifname} lro {value}', }, 'sg': { 'validate': lambda v: assert_list(v, ['on', 'off']), 'possible': lambda i, v: EthernetIf.feature(i, 'sg', v), # 'shellcmd': 'ethtool -K {ifname} sg {value}', }, 'tso': { 'validate': lambda v: assert_list(v, ['on', 'off']), 'possible': lambda i, v: EthernetIf.feature(i, 'tso', v), # 'shellcmd': 'ethtool -K {ifname} tso {value}', }, 'ufo': { 'validate': lambda v: assert_list(v, ['on', 'off']), 'possible': lambda i, v: EthernetIf.feature(i, 'ufo', v), # 'shellcmd': 'ethtool -K {ifname} ufo {value}', }, }} _sysfs_set = {**Interface._sysfs_set, **{ 'rps': { 'convert': lambda cpus: cpus if cpus else '0', 'location': '/sys/class/net/{ifname}/queues/rx-0/rps_cpus', }, }} def __init__(self, ifname, **kargs): super().__init__(ifname, **kargs) self.ethtool = Ethtool(ifname) def get_driver_name(self): """ Return the driver name used by NIC. Some NICs don't support all features e.g. changing link-speed, duplex Example: >>> from vyos.ifconfig import EthernetIf >>> i = EthernetIf('eth0') >>> i.get_driver_name() 'vmxnet3' """ ifname = self.config['ifname'] sysfs_file = f'/sys/class/net/{ifname}/device/driver/module' if os.path.exists(sysfs_file): link = os.readlink(sysfs_file) return os.path.basename(link) else: return None def set_flow_control(self, enable): """ Changes the pause parameters of the specified Ethernet device. @param enable: true -> enable pause frames, false -> disable pause frames Example: >>> from vyos.ifconfig import EthernetIf >>> i = EthernetIf('eth0') >>> i.set_flow_control(True) """ ifname = self.config['ifname'] if enable not in ['on', 'off']: raise ValueError("Value out of range") driver_name = self.get_driver_name() if driver_name in ['vmxnet3', 'virtio_net', 'xen_netfront']: self._debug_msg(f'{driver_name} driver does not support changing '\ 'flow control settings!') return # Get current flow control settings: cmd = f'ethtool --show-pause {ifname}' output, code = self._popen(cmd) if code == 76: # the interface does not support it return '' if code: # never fail here as it prevent vyos to boot print(f'unexpected return code {code} from {cmd}') return '' # The above command returns - with tabs: # # Pause parameters for eth0: # Autonegotiate: on # RX: off # TX: off if re.search("Autonegotiate:\ton", output): if enable == "on": # flowcontrol is already enabled - no need to re-enable it again # this will prevent the interface from flapping as applying the # flow-control settings will take the interface down and bring # it back up every time. return '' # Assemble command executed on system. Unfortunately there is no way # to change this setting via sysfs cmd = f'ethtool --pause {ifname} autoneg {enable} tx {enable} rx {enable}' output, code = self._popen(cmd) if code: print(f'could not set flowcontrol for {ifname}') return output def set_speed_duplex(self, speed, duplex): """ Set link speed in Mbit/s and duplex. @speed can be any link speed in MBit/s, e.g. 10, 100, 1000 auto @duplex can be half, full, auto Example: >>> from vyos.ifconfig import EthernetIf >>> i = EthernetIf('eth0') >>> i.set_speed_duplex('auto', 'auto') """ if speed not in ['auto', '10', '100', '1000', '2500', '5000', '10000', '25000', '40000', '50000', '100000', '400000']: raise ValueError("Value out of range (speed)") if duplex not in ['auto', 'full', 'half']: raise ValueError("Value out of range (duplex)") driver_name = self.get_driver_name() if driver_name in ['vmxnet3', 'virtio_net', 'xen_netfront']: self._debug_msg(f'{driver_name} driver does not support changing '\ 'speed/duplex settings!') return # Get current speed and duplex settings: ifname = self.config['ifname'] cmd = f'ethtool {ifname}' tmp = self._cmd(cmd) if re.search("\tAuto-negotiation: on", tmp): if speed == 'auto' and duplex == 'auto': # bail out early as nothing is to change return else: # read in current speed and duplex settings cur_speed = 0 cur_duplex = '' for line in tmp.splitlines(): if line.lstrip().startswith("Speed:"): non_decimal = re.compile(r'[^\d.]+') cur_speed = non_decimal.sub('', line) continue if line.lstrip().startswith("Duplex:"): cur_duplex = line.split()[-1].lower() break if (cur_speed == speed) and (cur_duplex == duplex): # bail out early as nothing is to change return cmd = f'ethtool -s {ifname}' if speed == 'auto' or duplex == 'auto': cmd += ' autoneg on' else: cmd += f' speed {speed} duplex {duplex} autoneg off' return self._cmd(cmd) def set_gro(self, state): """ Enable Generic Receive Offload. State can be either True or False. Example: >>> from vyos.ifconfig import EthernetIf >>> i = EthernetIf('eth0') >>> i.set_gro(True) """ if not isinstance(state, bool): raise ValueError('Value out of range') enabled, fixed = self.ethtool.get_generic_receive_offload() if enabled != state: if not fixed: return self.set_interface('gro', 'on' if state else 'off') else: print('Adapter does not support changing generic-receive-offload settings!') return False def set_gso(self, state): """ Enable Generic Segmentation offload. State can be either True or False. Example: >>> from vyos.ifconfig import EthernetIf >>> i = EthernetIf('eth0') >>> i.set_gso(True) """ if not isinstance(state, bool): raise ValueError('Value out of range') enabled, fixed = self.ethtool.get_generic_segmentation_offload() if enabled != state: if not fixed: return self.set_interface('gso', 'on' if state else 'off') else: print('Adapter does not support changing generic-segmentation-offload settings!') return False def set_lro(self, state): """ Enable Large Receive offload. State can be either True or False. Example: >>> from vyos.ifconfig import EthernetIf >>> i = EthernetIf('eth0') >>> i.set_lro(True) """ if not isinstance(state, bool): raise ValueError('Value out of range') enabled, fixed = self.ethtool.get_large_receive_offload() if enabled != state: if not fixed: return self.set_interface('gro', 'on' if state else 'off') else: print('Adapter does not support changing large-receive-offload settings!') return False def set_rps(self, state): if not isinstance(state, bool): raise ValueError('Value out of range') rps_cpus = '0' if state: # Enable RPS on all available CPUs except CPU0 which we will not # utilize so the system has one spare core when it's under high # preasure to server other means. Linux sysfs excepts a bitmask # representation of the CPUs which should participate on RPS, we # can enable more CPUs that are physically present on the system, # Linux will clip that internally! rps_cpus = 'ffffffff,ffffffff,ffffffff,fffffffe' # send bitmask representation as hex string without leading '0x' return self.set_interface('rps', rps_cpus) def set_sg(self, state): """ Enable Scatter-Gather support. State can be either True or False. Example: >>> from vyos.ifconfig import EthernetIf >>> i = EthernetIf('eth0') >>> i.set_sg(True) """ if not isinstance(state, bool): raise ValueError('Value out of range') enabled, fixed = self.ethtool.get_scatter_gather() if enabled != state: if not fixed: return self.set_interface('gro', 'on' if state else 'off') else: print('Adapter does not support changing scatter-gather settings!') return False def set_tso(self, state): """ Enable TCP segmentation offloading. State can be either True or False. Example: >>> from vyos.ifconfig import EthernetIf >>> i = EthernetIf('eth0') >>> i.set_tso(False) """ if not isinstance(state, bool): raise ValueError('Value out of range') enabled, fixed = self.ethtool.get_tcp_segmentation_offload() if enabled != state: if not fixed: return self.set_interface('gro', 'on' if state else 'off') else: print('Adapter does not support changing tcp-segmentation-offload settings!') return False def set_ufo(self, state): """ Enable UDP fragmentation offloading. State can be either True or False. Example: >>> from vyos.ifconfig import EthernetIf >>> i = EthernetIf('eth0') >>> i.set_udp_offload(True) """ if not isinstance(state, bool): raise ValueError('Value out of range') enabled, fixed = self.ethtool.get_udp_fragmentation_offload() if enabled != state: if not fixed: return self.set_interface('gro', 'on' if state else 'off') else: print('Adapter does not support changing udp-fragmentation-offload settings!') return False def set_ring_buffer(self, b_type, b_size): """ Example: >>> from vyos.ifconfig import EthernetIf >>> i = EthernetIf('eth0') >>> i.set_ring_buffer('rx', '4096') """ ifname = self.config['ifname'] cmd = f'ethtool -G {ifname} {b_type} {b_size}' output, code = self._popen(cmd) # ethtool error codes: # 80 - value already setted # 81 - does not possible to set value if code and code != 80: print(f'could not set "{b_type}" ring-buffer for {ifname}') return output def update(self, config): """ General helper function which works on a dictionary retrived by get_config_dict(). It's main intention is to consolidate the scattered interface setup code and provide a single point of entry when workin on any interface. """ # disable ethernet flow control (pause frames) value = 'off' if 'disable_flow_control' in config else 'on' self.set_flow_control(value) # GRO (generic receive offload) self.set_gro(dict_search('offload.gro', config) != None) # GSO (generic segmentation offload) self.set_gso(dict_search('offload.gso', config) != None) # LRO (large receive offload) self.set_lro(dict_search('offload.lro', config) != None) # RPS - Receive Packet Steering self.set_rps(dict_search('offload.rps', config) != None) # scatter-gather option self.set_sg(dict_search('offload.sg', config) != None) # TSO (TCP segmentation offloading) self.set_tso(dict_search('offload.tso', config) != None) # UDP fragmentation offloading self.set_ufo(dict_search('offload.ufo', config) != None) # Set physical interface speed and duplex if {'speed', 'duplex'} <= set(config): speed = config.get('speed') duplex = config.get('duplex') self.set_speed_duplex(speed, duplex) # Set interface ring buffer if 'ring_buffer' in config: for b_type in config['ring_buffer']: self.set_ring_buffer(b_type, config['ring_buffer'][b_type]) # call base class first super().update(config)