iou-zcrx.py \
irq.py \
loopback.sh \
- nic_link_layer.py \
- nic_performance.py \
pp_alloc_fail.py \
rss_ctx.py \
rss_input_xfrm.py \
sys.path.append(KSFT_DIR.as_posix())
from net.lib.py import *
from drivers.net.lib.py import *
- from .linkconfig import LinkConfig
except ModuleNotFoundError as e:
ksft_pr("Failed importing `net` library from kernel sources")
ksft_pr(str(e))
+++ /dev/null
-# SPDX-License-Identifier: GPL-2.0
-
-from lib.py import cmd, ethtool, ip
-from lib.py import ksft_pr, ksft_eq, KsftSkipEx
-from typing import Optional
-import re
-import time
-import json
-
-#The LinkConfig class is implemented to handle the link layer configurations.
-#Required minimum ethtool version is 6.10
-
-class LinkConfig:
- """Class for handling the link layer configurations"""
- def __init__(self, cfg: object) -> None:
- self.cfg = cfg
- self.partner_netif = self.get_partner_netif_name()
-
- """Get the initial link configuration of local interface"""
- self.common_link_modes = self.get_common_link_modes()
-
- def get_partner_netif_name(self) -> Optional[str]:
- partner_netif = None
- try:
- if not self.verify_link_up():
- return None
- """Get partner interface name"""
- partner_json_output = ip("addr show", json=True, host=self.cfg.remote)
- for interface in partner_json_output:
- for addr in interface.get('addr_info', []):
- if addr.get('local') == self.cfg.remote_addr:
- partner_netif = interface['ifname']
- ksft_pr(f"Partner Interface name: {partner_netif}")
- if partner_netif is None:
- ksft_pr("Unable to get the partner interface name")
- except Exception as e:
- print(f"Unexpected error occurred while getting partner interface name: {e}")
- self.partner_netif = partner_netif
- return partner_netif
-
- def verify_link_up(self) -> bool:
- """Verify whether the local interface link is up"""
- with open(f"/sys/class/net/{self.cfg.ifname}/operstate", "r") as fp:
- link_state = fp.read().strip()
-
- if link_state == "down":
- ksft_pr(f"Link state of interface {self.cfg.ifname} is DOWN")
- return False
- else:
- return True
-
- def reset_interface(self, local: bool = True, remote: bool = True) -> bool:
- ksft_pr("Resetting interfaces in local and remote")
- if remote:
- if self.verify_link_up():
- if self.partner_netif is not None:
- ifname = self.partner_netif
- link_up_cmd = f"ip link set up {ifname}"
- link_down_cmd = f"ip link set down {ifname}"
- reset_cmd = f"{link_down_cmd} && sleep 5 && {link_up_cmd}"
- try:
- cmd(reset_cmd, host=self.cfg.remote)
- except Exception as e:
- ksft_pr(f"Unexpected error occurred while resetting remote: {e}")
- else:
- ksft_pr("Partner interface not available")
- if local:
- ifname = self.cfg.ifname
- link_up_cmd = f"ip link set up {ifname}"
- link_down_cmd = f"ip link set down {ifname}"
- reset_cmd = f"{link_down_cmd} && sleep 5 && {link_up_cmd}"
- try:
- cmd(reset_cmd)
- except Exception as e:
- ksft_pr(f"Unexpected error occurred while resetting local: {e}")
- time.sleep(10)
- if self.verify_link_up() and self.get_ethtool_field("link-detected"):
- ksft_pr("Local and remote interfaces reset to original state")
- return True
- else:
- ksft_pr("Error occurred after resetting interfaces. Link is DOWN.")
- return False
-
- def set_speed_and_duplex(self, speed: str, duplex: str, autoneg: bool = True) -> bool:
- """Set the speed and duplex state for the interface"""
- autoneg_state = "on" if autoneg is True else "off"
- process = None
- try:
- process = ethtool(f"--change {self.cfg.ifname} speed {speed} duplex {duplex} autoneg {autoneg_state}")
- except Exception as e:
- ksft_pr(f"Unexpected error occurred while setting speed/duplex: {e}")
- if process is None or process.ret != 0:
- return False
- else:
- ksft_pr(f"Speed: {speed} Mbps, Duplex: {duplex} set for Interface: {self.cfg.ifname}")
- return True
-
- def verify_speed_and_duplex(self, expected_speed: str, expected_duplex: str) -> bool:
- if not self.verify_link_up():
- return False
- """Verifying the speed and duplex state for the interface"""
- with open(f"/sys/class/net/{self.cfg.ifname}/speed", "r") as fp:
- actual_speed = fp.read().strip()
- with open(f"/sys/class/net/{self.cfg.ifname}/duplex", "r") as fp:
- actual_duplex = fp.read().strip()
-
- ksft_eq(actual_speed, expected_speed)
- ksft_eq(actual_duplex, expected_duplex)
- return True
-
- def set_autonegotiation_state(self, state: str, remote: bool = False) -> bool:
- common_link_modes = self.common_link_modes
- speeds, duplex_modes = self.get_speed_duplex_values(self.common_link_modes)
- speed = speeds[0]
- duplex = duplex_modes[0]
- if not speed or not duplex:
- ksft_pr("No speed or duplex modes found")
- return False
-
- speed_duplex_cmd = f"speed {speed} duplex {duplex}" if state == "off" else ""
- if remote:
- if not self.verify_link_up():
- return False
- """Set the autonegotiation state for the partner"""
- command = f"-s {self.partner_netif} {speed_duplex_cmd} autoneg {state}"
- partner_autoneg_change = None
- """Set autonegotiation state for interface in remote pc"""
- try:
- partner_autoneg_change = ethtool(command, host=self.cfg.remote)
- except Exception as e:
- ksft_pr(f"Unexpected error occurred while changing auto-neg in remote: {e}")
- if partner_autoneg_change is None or partner_autoneg_change.ret != 0:
- ksft_pr(f"Not able to set autoneg parameter for interface {self.partner_netif}.")
- return False
- ksft_pr(f"Autoneg set as {state} for {self.partner_netif}")
- else:
- """Set the autonegotiation state for the interface"""
- try:
- process = ethtool(f"-s {self.cfg.ifname} {speed_duplex_cmd} autoneg {state}")
- if process.ret != 0:
- ksft_pr(f"Not able to set autoneg parameter for interface {self.cfg.ifname}")
- return False
- except Exception as e:
- ksft_pr(f"Unexpected error occurred while changing auto-neg in local: {e}")
- return False
- ksft_pr(f"Autoneg set as {state} for {self.cfg.ifname}")
- return True
-
- def check_autoneg_supported(self, remote: bool = False) -> bool:
- if not remote:
- local_autoneg = self.get_ethtool_field("supports-auto-negotiation")
- if local_autoneg is None:
- ksft_pr(f"Unable to fetch auto-negotiation status for interface {self.cfg.ifname}")
- """Return autoneg status of the local interface"""
- return local_autoneg
- else:
- if not self.verify_link_up():
- raise KsftSkipEx("Link is DOWN")
- """Check remote auto-negotiation support status"""
- partner_autoneg = False
- if self.partner_netif is not None:
- partner_autoneg = self.get_ethtool_field("supports-auto-negotiation", remote=True)
- if partner_autoneg is None:
- ksft_pr(f"Unable to fetch auto-negotiation status for interface {self.partner_netif}")
- return partner_autoneg
-
- def get_common_link_modes(self) -> set[str]:
- common_link_modes = []
- """Populate common link modes"""
- link_modes = self.get_ethtool_field("supported-link-modes")
- partner_link_modes = self.get_ethtool_field("link-partner-advertised-link-modes")
- if link_modes is None:
- raise KsftSkipEx(f"Link modes not available for {self.cfg.ifname}")
- if partner_link_modes is None:
- raise KsftSkipEx(f"Partner link modes not available for {self.cfg.ifname}")
- common_link_modes = set(link_modes) and set(partner_link_modes)
- return common_link_modes
-
- def get_speed_duplex_values(self, link_modes: list[str]) -> tuple[list[str], list[str]]:
- speed = []
- duplex = []
- """Check the link modes"""
- for data in link_modes:
- parts = data.split('/')
- speed_value = re.match(r'\d+', parts[0])
- if speed_value:
- speed.append(speed_value.group())
- else:
- ksft_pr(f"No speed value found for interface {self.ifname}")
- return None, None
- duplex.append(parts[1].lower())
- return speed, duplex
-
- def get_ethtool_field(self, field: str, remote: bool = False) -> Optional[str]:
- process = None
- if not remote:
- """Get the ethtool field value for the local interface"""
- try:
- process = ethtool(self.cfg.ifname, json=True)
- except Exception as e:
- ksft_pr("Required minimum ethtool version is 6.10")
- ksft_pr(f"Unexpected error occurred while getting ethtool field in local: {e}")
- return None
- else:
- if not self.verify_link_up():
- return None
- """Get the ethtool field value for the remote interface"""
- self.cfg.require_cmd("ethtool", remote=True)
- if self.partner_netif is None:
- ksft_pr(f"Partner interface name is unavailable.")
- return None
- try:
- process = ethtool(self.partner_netif, json=True, host=self.cfg.remote)
- except Exception as e:
- ksft_pr("Required minimum ethtool version is 6.10")
- ksft_pr(f"Unexpected error occurred while getting ethtool field in remote: {e}")
- return None
- json_data = process[0]
- """Check if the field exist in the json data"""
- if field not in json_data:
- raise KsftSkipEx(f'Field {field} does not exist in the output of interface {json_data["ifname"]}')
- return json_data[field]
+++ /dev/null
-#!/usr/bin/env python3
-# SPDX-License-Identifier: GPL-2.0
-
-#Introduction:
-#This file has basic link layer tests for generic NIC drivers.
-#The test comprises of auto-negotiation, speed and duplex checks.
-#
-#Setup:
-#Connect the DUT PC with NIC card to partner pc back via ethernet medium of your choice(RJ45, T1)
-#
-# DUT PC Partner PC
-#┌───────────────────────┐ ┌──────────────────────────┐
-#│ │ │ │
-#│ │ │ │
-#│ ┌───────────┐ │ │
-#│ │DUT NIC │ Eth │ │
-#│ │Interface ─┼─────────────────────────┼─ any eth Interface │
-#│ └───────────┘ │ │
-#│ │ │ │
-#│ │ │ │
-#└───────────────────────┘ └──────────────────────────┘
-#
-#Configurations:
-#Required minimum ethtool version is 6.10 (supports json)
-#Default values:
-#time_delay = 8 #time taken to wait for transitions to happen, in seconds.
-
-import time
-import argparse
-from lib.py import ksft_run, ksft_exit, ksft_pr, ksft_eq
-from lib.py import KsftFailEx, KsftSkipEx
-from lib.py import NetDrvEpEnv
-from lib.py import LinkConfig
-
-def _pre_test_checks(cfg: object, link_config: LinkConfig) -> None:
- if link_config.partner_netif is None:
- KsftSkipEx("Partner interface is not available")
- if not link_config.check_autoneg_supported() or not link_config.check_autoneg_supported(remote=True):
- KsftSkipEx(f"Auto-negotiation not supported for interface {cfg.ifname} or {link_config.partner_netif}")
- if not link_config.verify_link_up():
- raise KsftSkipEx(f"Link state of interface {cfg.ifname} is DOWN")
-
-def verify_autonegotiation(cfg: object, expected_state: str, link_config: LinkConfig) -> None:
- if not link_config.verify_link_up():
- raise KsftSkipEx(f"Link state of interface {cfg.ifname} is DOWN")
- """Verifying the autonegotiation state in partner"""
- partner_autoneg_output = link_config.get_ethtool_field("auto-negotiation", remote=True)
- if partner_autoneg_output is None:
- KsftSkipEx(f"Auto-negotiation state not available for interface {link_config.partner_netif}")
- partner_autoneg_state = "on" if partner_autoneg_output is True else "off"
-
- ksft_eq(partner_autoneg_state, expected_state)
-
- """Verifying the autonegotiation state of local"""
- autoneg_output = link_config.get_ethtool_field("auto-negotiation")
- if autoneg_output is None:
- KsftSkipEx(f"Auto-negotiation state not available for interface {cfg.ifname}")
- actual_state = "on" if autoneg_output is True else "off"
-
- ksft_eq(actual_state, expected_state)
-
- """Verifying the link establishment"""
- link_available = link_config.get_ethtool_field("link-detected")
- if link_available is None:
- KsftSkipEx(f"Link status not available for interface {cfg.ifname}")
- if link_available != True:
- raise KsftSkipEx("Link not established at interface {cfg.ifname} after changing auto-negotiation")
-
-def test_autonegotiation(cfg: object, link_config: LinkConfig, time_delay: int) -> None:
- _pre_test_checks(cfg, link_config)
- for state in ["off", "on"]:
- if not link_config.set_autonegotiation_state(state, remote=True):
- raise KsftSkipEx(f"Unable to set auto-negotiation state for interface {link_config.partner_netif}")
- if not link_config.set_autonegotiation_state(state):
- raise KsftSkipEx(f"Unable to set auto-negotiation state for interface {cfg.ifname}")
- time.sleep(time_delay)
- verify_autonegotiation(cfg, state, link_config)
-
-def test_network_speed(cfg: object, link_config: LinkConfig, time_delay: int) -> None:
- _pre_test_checks(cfg, link_config)
- common_link_modes = link_config.common_link_modes
- if not common_link_modes:
- KsftSkipEx("No common link modes exist")
- speeds, duplex_modes = link_config.get_speed_duplex_values(common_link_modes)
-
- if speeds and duplex_modes and len(speeds) == len(duplex_modes):
- for idx in range(len(speeds)):
- speed = speeds[idx]
- duplex = duplex_modes[idx]
- if not link_config.set_speed_and_duplex(speed, duplex):
- raise KsftFailEx(f"Unable to set speed and duplex parameters for {cfg.ifname}")
- time.sleep(time_delay)
- if not link_config.verify_speed_and_duplex(speed, duplex):
- raise KsftSkipEx(f"Error occurred while verifying speed and duplex states for interface {cfg.ifname}")
- else:
- if not speeds or not duplex_modes:
- KsftSkipEx(f"No supported speeds or duplex modes found for interface {cfg.ifname}")
- else:
- KsftSkipEx("Mismatch in the number of speeds and duplex modes")
-
-def main() -> None:
- parser = argparse.ArgumentParser(description="Run basic link layer tests for NIC driver")
- parser.add_argument('--time-delay', type=int, default=8, help='Time taken to wait for transitions to happen(in seconds). Default is 8 seconds.')
- args = parser.parse_args()
- time_delay = args.time_delay
- with NetDrvEpEnv(__file__, nsim_test=False) as cfg:
- link_config = LinkConfig(cfg)
- ksft_run(globs=globals(), case_pfx={"test_"}, args=(cfg, link_config, time_delay,))
- link_config.reset_interface()
- ksft_exit()
-
-if __name__ == "__main__":
- main()
+++ /dev/null
-#!/usr/bin/env python3
-# SPDX-License-Identifier: GPL-2.0
-
-#Introduction:
-#This file has basic performance test for generic NIC drivers.
-#The test comprises of throughput check for TCP and UDP streams.
-#
-#Setup:
-#Connect the DUT PC with NIC card to partner pc back via ethernet medium of your choice(RJ45, T1)
-#
-# DUT PC Partner PC
-#┌───────────────────────┐ ┌──────────────────────────┐
-#│ │ │ │
-#│ │ │ │
-#│ ┌───────────┐ │ │
-#│ │DUT NIC │ Eth │ │
-#│ │Interface ─┼─────────────────────────┼─ any eth Interface │
-#│ └───────────┘ │ │
-#│ │ │ │
-#│ │ │ │
-#└───────────────────────┘ └──────────────────────────┘
-#
-#Configurations:
-#To prevent interruptions, Add ethtool, ip to the sudoers list in remote PC and get the ssh key from remote.
-#Required minimum ethtool version is 6.10
-#Change the below configuration based on your hw needs.
-# """Default values"""
-#time_delay = 8 #time taken to wait for transitions to happen, in seconds.
-#test_duration = 10 #performance test duration for the throughput check, in seconds.
-#send_throughput_threshold = 80 #percentage of send throughput required to pass the check
-#receive_throughput_threshold = 50 #percentage of receive throughput required to pass the check
-
-import time
-import json
-import argparse
-from lib.py import ksft_run, ksft_exit, ksft_pr, ksft_true
-from lib.py import KsftFailEx, KsftSkipEx, GenerateTraffic
-from lib.py import NetDrvEpEnv, bkg, wait_port_listen
-from lib.py import cmd
-from lib.py import LinkConfig
-
-class TestConfig:
- def __init__(self, time_delay: int, test_duration: int, send_throughput_threshold: int, receive_throughput_threshold: int) -> None:
- self.time_delay = time_delay
- self.test_duration = test_duration
- self.send_throughput_threshold = send_throughput_threshold
- self.receive_throughput_threshold = receive_throughput_threshold
-
-def _pre_test_checks(cfg: object, link_config: LinkConfig) -> None:
- if not link_config.verify_link_up():
- KsftSkipEx(f"Link state of interface {cfg.ifname} is DOWN")
- common_link_modes = link_config.common_link_modes
- if common_link_modes is None:
- KsftSkipEx("No common link modes found")
- if link_config.partner_netif == None:
- KsftSkipEx("Partner interface is not available")
- if link_config.check_autoneg_supported():
- KsftSkipEx("Auto-negotiation not supported by local")
- if link_config.check_autoneg_supported(remote=True):
- KsftSkipEx("Auto-negotiation not supported by remote")
- cfg.require_cmd("iperf3", remote=True)
-
-def check_throughput(cfg: object, link_config: LinkConfig, test_config: TestConfig, protocol: str, traffic: GenerateTraffic) -> None:
- common_link_modes = link_config.common_link_modes
- speeds, duplex_modes = link_config.get_speed_duplex_values(common_link_modes)
- """Test duration in seconds"""
- duration = test_config.test_duration
-
- ksft_pr(f"{protocol} test")
- test_type = "-u" if protocol == "UDP" else ""
-
- send_throughput = []
- receive_throughput = []
- for idx in range(0, len(speeds)):
- if link_config.set_speed_and_duplex(speeds[idx], duplex_modes[idx]) == False:
- raise KsftFailEx(f"Not able to set speed and duplex parameters for {cfg.ifname}")
- time.sleep(test_config.time_delay)
- if not link_config.verify_link_up():
- raise KsftSkipEx(f"Link state of interface {cfg.ifname} is DOWN")
-
- send_command=f"{test_type} -b 0 -t {duration} --json"
- receive_command=f"{test_type} -b 0 -t {duration} --reverse --json"
-
- send_result = traffic.run_remote_test(cfg, command=send_command)
- if send_result.ret != 0:
- raise KsftSkipEx("Error occurred during data transmit: {send_result.stdout}")
-
- send_output = send_result.stdout
- send_data = json.loads(send_output)
-
- """Convert throughput to Mbps"""
- send_throughput.append(round(send_data['end']['sum_sent']['bits_per_second'] / 1e6, 2))
- ksft_pr(f"{protocol}: Send throughput: {send_throughput[idx]} Mbps")
-
- receive_result = traffic.run_remote_test(cfg, command=receive_command)
- if receive_result.ret != 0:
- raise KsftSkipEx("Error occurred during data receive: {receive_result.stdout}")
-
- receive_output = receive_result.stdout
- receive_data = json.loads(receive_output)
-
- """Convert throughput to Mbps"""
- receive_throughput.append(round(receive_data['end']['sum_received']['bits_per_second'] / 1e6, 2))
- ksft_pr(f"{protocol}: Receive throughput: {receive_throughput[idx]} Mbps")
-
- """Check whether throughput is not below the threshold (default values set at start)"""
- for idx in range(0, len(speeds)):
- send_threshold = float(speeds[idx]) * float(test_config.send_throughput_threshold / 100)
- receive_threshold = float(speeds[idx]) * float(test_config.receive_throughput_threshold / 100)
- ksft_true(send_throughput[idx] >= send_threshold, f"{protocol}: Send throughput is below threshold for {speeds[idx]} Mbps in {duplex_modes[idx]} duplex")
- ksft_true(receive_throughput[idx] >= receive_threshold, f"{protocol}: Receive throughput is below threshold for {speeds[idx]} Mbps in {duplex_modes[idx]} duplex")
-
-def test_tcp_throughput(cfg: object, link_config: LinkConfig, test_config: TestConfig, traffic: GenerateTraffic) -> None:
- _pre_test_checks(cfg, link_config)
- check_throughput(cfg, link_config, test_config, 'TCP', traffic)
-
-def test_udp_throughput(cfg: object, link_config: LinkConfig, test_config: TestConfig, traffic: GenerateTraffic) -> None:
- _pre_test_checks(cfg, link_config)
- check_throughput(cfg, link_config, test_config, 'UDP', traffic)
-
-def main() -> None:
- parser = argparse.ArgumentParser(description="Run basic performance test for NIC driver")
- parser.add_argument('--time-delay', type=int, default=8, help='Time taken to wait for transitions to happen(in seconds). Default is 8 seconds.')
- parser.add_argument('--test-duration', type=int, default=10, help='Performance test duration for the throughput check, in seconds. Default is 10 seconds.')
- parser.add_argument('--stt', type=int, default=80, help='Send throughput Threshold: Percentage of send throughput upon actual throughput required to pass the throughput check (in percentage). Default is 80.')
- parser.add_argument('--rtt', type=int, default=50, help='Receive throughput Threshold: Percentage of receive throughput upon actual throughput required to pass the throughput check (in percentage). Default is 50.')
- args=parser.parse_args()
- test_config = TestConfig(args.time_delay, args.test_duration, args.stt, args.rtt)
- with NetDrvEpEnv(__file__, nsim_test=False) as cfg:
- traffic = GenerateTraffic(cfg)
- link_config = LinkConfig(cfg)
- ksft_run(globs=globals(), case_pfx={"test_"}, args=(cfg, link_config, test_config, traffic, ))
- link_config.reset_interface()
- ksft_exit()
-
-if __name__ == "__main__":
- main()
import time
-from lib.py import ksft_pr, cmd, ip, rand_port, wait_port_listen, bkg
+from lib.py import ksft_pr, cmd, ip, rand_port, wait_port_listen
class GenerateTraffic:
def __init__(self, env, port=None):
self.stop(verbose=True)
raise Exception("iperf3 traffic did not ramp up")
- def run_remote_test(self, env: object, port=None, command=None):
- if port is None:
- port = rand_port()
- try:
- server_cmd = f"iperf3 -s 1 -p {port} --one-off"
- with bkg(server_cmd, host=env.remote):
- #iperf3 opens TCP connection as default in server
- #-u to be specified in client command for UDP
- wait_port_listen(port, host=env.remote)
- except Exception as e:
- raise Exception(f"Unexpected error occurred while running server command: {e}")
- try:
- client_cmd = f"iperf3 -c {env.remote_addr} -p {port} {command}"
- proc = cmd(client_cmd)
- return proc
- except Exception as e:
- raise Exception(f"Unexpected error occurred while running client command: {e}")
-
def _wait_pkts(self, pkt_cnt=None, pps=None):
"""
Wait until we've seen pkt_cnt or until traffic ramps up to pps.
projects / users / dwmw2 / linux.git / commitdiff