#!/usr/bin/env python3 # # Copyright (C) 2020-2024 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 unittest from glob import glob from json import loads from netifaces import AF_INET from netifaces import AF_INET6 from netifaces import ifaddresses from base_interfaces_test import BasicInterfaceTest from vyos.configsession import ConfigSessionError from vyos.ifconfig import Section from vyos.utils.process import cmd from vyos.utils.process import popen from vyos.utils.file import read_file from vyos.utils.network import is_ipv6_link_local class EthernetInterfaceTest(BasicInterfaceTest.TestCase): @classmethod def setUpClass(cls): cls._base_path = ['interfaces', 'ethernet'] cls._mirror_interfaces = ['dum21354'] # We only test on physical interfaces and not VLAN (sub-)interfaces if 'TEST_ETH' in os.environ: tmp = os.environ['TEST_ETH'].split() cls._interfaces = tmp else: for tmp in Section.interfaces('ethernet', vlan=False): cls._interfaces.append(tmp) cls._macs = {} for interface in cls._interfaces: cls._macs[interface] = read_file(f'/sys/class/net/{interface}/address') # call base-classes classmethod super(EthernetInterfaceTest, cls).setUpClass() def tearDown(self): for interface in self._interfaces: # when using a dedicated interface to test via TEST_ETH environment # variable only this one will be cleared in the end - usable to test # ethernet interfaces via SSH self.cli_delete(self._base_path + [interface]) self.cli_set(self._base_path + [interface, 'duplex', 'auto']) self.cli_set(self._base_path + [interface, 'speed', 'auto']) self.cli_set(self._base_path + [interface, 'hw-id', self._macs[interface]]) self.cli_commit() # Verify that no address remains on the system as this is an eternal # interface. for interface in self._interfaces: self.assertNotIn(AF_INET, ifaddresses(interface)) # required for IPv6 link-local address self.assertIn(AF_INET6, ifaddresses(interface)) for addr in ifaddresses(interface)[AF_INET6]: # checking link local addresses makes no sense if is_ipv6_link_local(addr['addr']): continue self.assertFalse(is_intf_addr_assigned(interface, addr['addr'])) # Ensure no VLAN interfaces are left behind tmp = [x for x in Section.interfaces('ethernet') if x.startswith(f'{interface}.')] self.assertListEqual(tmp, []) def test_offloading_rps(self): # enable RPS on all available CPUs, RPS works with a CPU bitmask, # where each bit represents a CPU (core/thread). The formula below # expands to rps_cpus = 255 for a 8 core system rps_cpus = (1 << os.cpu_count()) -1 # XXX: we should probably reserve one core when the system is under # high preasure so we can still have a core left for housekeeping. # This is done by masking out the lowst bit so CPU0 is spared from # receive packet steering. rps_cpus &= ~1 for interface in self._interfaces: self.cli_set(self._base_path + [interface, 'offload', 'rps']) self.cli_commit() for interface in self._interfaces: cpus = read_file(f'/sys/class/net/{interface}/queues/rx-0/rps_cpus') # remove the nasty ',' separation on larger strings cpus = cpus.replace(',','') cpus = int(cpus, 16) self.assertEqual(f'{cpus:x}', f'{rps_cpus:x}') def test_offloading_rfs(self): global_rfs_flow = 32768 rfs_flow = global_rfs_flow for interface in self._interfaces: self.cli_set(self._base_path + [interface, 'offload', 'rfs']) self.cli_commit() for interface in self._interfaces: queues = len(glob(f'/sys/class/net/{interface}/queues/rx-*')) rfs_flow = int(global_rfs_flow/queues) for i in range(0, queues): tmp = read_file(f'/sys/class/net/{interface}/queues/rx-{i}/rps_flow_cnt') self.assertEqual(int(tmp), rfs_flow) tmp = read_file(f'/proc/sys/net/core/rps_sock_flow_entries') self.assertEqual(int(tmp), global_rfs_flow) # delete configuration of RFS and check all values returned to default "0" for interface in self._interfaces: self.cli_delete(self._base_path + [interface, 'offload', 'rfs']) self.cli_commit() for interface in self._interfaces: queues = len(glob(f'/sys/class/net/{interface}/queues/rx-*')) rfs_flow = int(global_rfs_flow/queues) for i in range(0, queues): tmp = read_file(f'/sys/class/net/{interface}/queues/rx-{i}/rps_flow_cnt') self.assertEqual(int(tmp), 0) def test_non_existing_interface(self): unknonw_interface = self._base_path + ['eth667'] self.cli_set(unknonw_interface) # check validate() - interface does not exist with self.assertRaises(ConfigSessionError): self.cli_commit() # we need to remove this wrong interface from the configuration # manually, else tearDown() will have problem in commit() self.cli_delete(unknonw_interface) def test_speed_duplex_verify(self): for interface in self._interfaces: self.cli_set(self._base_path + [interface, 'speed', '1000']) # check validate() - if either speed or duplex is not auto, the # other one must be manually configured, too with self.assertRaises(ConfigSessionError): self.cli_commit() self.cli_set(self._base_path + [interface, 'speed', 'auto']) self.cli_commit() def test_ethtool_ring_buffer(self): for interface in self._interfaces: # We do not use vyos.ethtool here to not have any chance # for invalid testcases. Re-gain data by hand tmp = cmd(f'sudo ethtool --json --show-ring {interface}') tmp = loads(tmp) max_rx = str(tmp[0]['rx-max']) max_tx = str(tmp[0]['tx-max']) self.cli_set(self._base_path + [interface, 'ring-buffer', 'rx', max_rx]) self.cli_set(self._base_path + [interface, 'ring-buffer', 'tx', max_tx]) self.cli_commit() for interface in self._interfaces: tmp = cmd(f'sudo ethtool --json --show-ring {interface}') tmp = loads(tmp) max_rx = str(tmp[0]['rx-max']) max_tx = str(tmp[0]['tx-max']) rx = str(tmp[0]['rx']) tx = str(tmp[0]['tx']) # validate if the above change was carried out properly and the # ring-buffer size got increased self.assertEqual(max_rx, rx) self.assertEqual(max_tx, tx) def test_ethtool_flow_control(self): for interface in self._interfaces: # Disable flow-control self.cli_set(self._base_path + [interface, 'disable-flow-control']) # Check current flow-control state on ethernet interface out, err = popen(f'sudo ethtool --json --show-pause {interface}') # Flow-control not supported - test if it bails out with a proper # this is a dynamic path where err = 1 on VMware, but err = 0 on # a physical box. if bool(err): with self.assertRaises(ConfigSessionError): self.cli_commit() else: out = loads(out) # Flow control is on self.assertTrue(out[0]['autonegotiate']) # commit change on CLI to disable-flow-control and re-test self.cli_commit() out, err = popen(f'sudo ethtool --json --show-pause {interface}') out = loads(out) self.assertFalse(out[0]['autonegotiate']) def test_ethtool_evpn_uplink_tarcking(self): for interface in self._interfaces: self.cli_set(self._base_path + [interface, 'evpn', 'uplink']) self.cli_commit() for interface in self._interfaces: frrconfig = self.getFRRconfig(f'interface {interface}', daemon='zebra') self.assertIn(f' evpn mh uplink', frrconfig) if __name__ == '__main__': unittest.main(verbosity=2, failfast=True)