#!/usr/bin/env python3 # SPDX-License-Identifier: GPL-2.0 """Run the tools/testing/selftests/net/csum testsuite.""" import fcntl import socket import struct import termios import time from lib.py import ksft_pr, ksft_run, ksft_exit, KsftSkipEx, KsftXfailEx from lib.py import ksft_eq, ksft_ge, ksft_lt from lib.py import EthtoolFamily, NetdevFamily, NetDrvEpEnv from lib.py import bkg, cmd, defer, ethtool, ip, rand_port, wait_port_listen def sock_wait_drain(sock, max_wait=1000): """Wait for all pending write data on the socket to get ACKed.""" for _ in range(max_wait): one = b'\0' * 4 outq = fcntl.ioctl(sock.fileno(), termios.TIOCOUTQ, one) outq = struct.unpack("I", outq)[0] if outq == 0: break time.sleep(0.01) ksft_eq(outq, 0) def tcp_sock_get_retrans(sock): """Get the number of retransmissions for the TCP socket.""" info = sock.getsockopt(socket.SOL_TCP, socket.TCP_INFO, 512) return struct.unpack("I", info[100:104])[0] def run_one_stream(cfg, ipver, remote_v4, remote_v6, should_lso): cfg.require_cmd("socat", remote=True) port = rand_port() listen_cmd = f"socat -{ipver} -t 2 -u TCP-LISTEN:{port},reuseport /dev/null,ignoreeof" with bkg(listen_cmd, host=cfg.remote) as nc: wait_port_listen(port, host=cfg.remote) if ipver == "4": sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) sock.connect((remote_v4, port)) else: sock = socket.socket(socket.AF_INET6, socket.SOCK_STREAM) sock.connect((remote_v6, port)) # Small send to make sure the connection is working. sock.send("ping".encode()) sock_wait_drain(sock) # Send 4MB of data, record the LSO packet count. qstat_old = cfg.netnl.qstats_get({"ifindex": cfg.ifindex}, dump=True)[0] buf = b"0" * 1024 * 1024 * 4 sock.send(buf) sock_wait_drain(sock) qstat_new = cfg.netnl.qstats_get({"ifindex": cfg.ifindex}, dump=True)[0] # No math behind the 10 here, but try to catch cases where # TCP falls back to non-LSO. ksft_lt(tcp_sock_get_retrans(sock), 10) sock.close() # Check that at least 90% of the data was sent as LSO packets. # System noise may cause false negatives. Also header overheads # will add up to 5% of extra packes... The check is best effort. total_lso_wire = len(buf) * 0.90 // cfg.dev["mtu"] total_lso_super = len(buf) * 0.90 // cfg.dev["tso_max_size"] if should_lso: if cfg.have_stat_super_count: ksft_ge(qstat_new['tx-hw-gso-packets'] - qstat_old['tx-hw-gso-packets'], total_lso_super, comment="Number of LSO super-packets with LSO enabled") if cfg.have_stat_wire_count: ksft_ge(qstat_new['tx-hw-gso-wire-packets'] - qstat_old['tx-hw-gso-wire-packets'], total_lso_wire, comment="Number of LSO wire-packets with LSO enabled") else: if cfg.have_stat_super_count: ksft_lt(qstat_new['tx-hw-gso-packets'] - qstat_old['tx-hw-gso-packets'], 15, comment="Number of LSO super-packets with LSO disabled") if cfg.have_stat_wire_count: ksft_lt(qstat_new['tx-hw-gso-wire-packets'] - qstat_old['tx-hw-gso-wire-packets'], 500, comment="Number of LSO wire-packets with LSO disabled") def build_tunnel(cfg, outer_ipver, tun_info): local_v4 = NetDrvEpEnv.nsim_v4_pfx + "1" local_v6 = NetDrvEpEnv.nsim_v6_pfx + "1" remote_v4 = NetDrvEpEnv.nsim_v4_pfx + "2" remote_v6 = NetDrvEpEnv.nsim_v6_pfx + "2" local_addr = cfg.addr_v[outer_ipver] remote_addr = cfg.remote_addr_v[outer_ipver] tun_type = tun_info[0] tun_arg = tun_info[2] ip(f"link add {tun_type}-ksft type {tun_type} {tun_arg} local {local_addr} remote {remote_addr} dev {cfg.ifname}") defer(ip, f"link del {tun_type}-ksft") ip(f"link set dev {tun_type}-ksft up") ip(f"addr add {local_v4}/24 dev {tun_type}-ksft") ip(f"addr add {local_v6}/64 dev {tun_type}-ksft") ip(f"link add {tun_type}-ksft type {tun_type} {tun_arg} local {remote_addr} remote {local_addr} dev {cfg.remote_ifname}", host=cfg.remote) defer(ip, f"link del {tun_type}-ksft", host=cfg.remote) ip(f"link set dev {tun_type}-ksft up", host=cfg.remote) ip(f"addr add {remote_v4}/24 dev {tun_type}-ksft", host=cfg.remote) ip(f"addr add {remote_v6}/64 dev {tun_type}-ksft", host=cfg.remote) return remote_v4, remote_v6 def test_builder(name, cfg, outer_ipver, feature, tun=None, inner_ipver=None): """Construct specific tests from the common template.""" def f(cfg): cfg.require_ipver(outer_ipver) if not cfg.have_stat_super_count and \ not cfg.have_stat_wire_count: raise KsftSkipEx(f"Device does not support LSO queue stats") ipver = outer_ipver if tun: remote_v4, remote_v6 = build_tunnel(cfg, ipver, tun) ipver = inner_ipver else: remote_v4 = cfg.remote_addr_v["4"] remote_v6 = cfg.remote_addr_v["6"] tun_partial = tun and tun[1] # Tunnel which can silently fall back to gso-partial has_gso_partial = tun and 'tx-gso-partial' in cfg.features # For TSO4 via partial we need mangleid if ipver == "4" and feature in cfg.partial_features: ksft_pr("Testing with mangleid enabled") if 'tx-tcp-mangleid-segmentation' not in cfg.features: ethtool(f"-K {cfg.ifname} tx-tcp-mangleid-segmentation on") defer(ethtool, f"-K {cfg.ifname} tx-tcp-mangleid-segmentation off") # First test without the feature enabled. ethtool(f"-K {cfg.ifname} {feature} off") if has_gso_partial: ethtool(f"-K {cfg.ifname} tx-gso-partial off") run_one_stream(cfg, ipver, remote_v4, remote_v6, should_lso=False) # Now test with the feature enabled. # For compatible tunnels only - just GSO partial, not specific feature. if has_gso_partial: ethtool(f"-K {cfg.ifname} tx-gso-partial on") run_one_stream(cfg, ipver, remote_v4, remote_v6, should_lso=tun_partial) # Full feature enabled. if feature in cfg.features: ethtool(f"-K {cfg.ifname} {feature} on") run_one_stream(cfg, ipver, remote_v4, remote_v6, should_lso=True) else: raise KsftXfailEx(f"Device does not support {feature}") f.__name__ = name + ((outer_ipver + "_") if tun else "") + "ipv" + inner_ipver return f def query_nic_features(cfg) -> None: """Query and cache the NIC features.""" cfg.have_stat_super_count = False cfg.have_stat_wire_count = False cfg.features = set() features = cfg.ethnl.features_get({"header": {"dev-index": cfg.ifindex}}) for f in features["active"]["bits"]["bit"]: cfg.features.add(f["name"]) # Check which features are supported via GSO partial cfg.partial_features = set() if 'tx-gso-partial' in cfg.features: ethtool(f"-K {cfg.ifname} tx-gso-partial off") no_partial = set() features = cfg.ethnl.features_get({"header": {"dev-index": cfg.ifindex}}) for f in features["active"]["bits"]["bit"]: no_partial.add(f["name"]) cfg.partial_features = cfg.features - no_partial ethtool(f"-K {cfg.ifname} tx-gso-partial on") stats = cfg.netnl.qstats_get({"ifindex": cfg.ifindex}, dump=True) if stats: if 'tx-hw-gso-packets' in stats[0]: ksft_pr("Detected qstat for LSO super-packets") cfg.have_stat_super_count = True if 'tx-hw-gso-wire-packets' in stats[0]: ksft_pr("Detected qstat for LSO wire-packets") cfg.have_stat_wire_count = True def main() -> None: with NetDrvEpEnv(__file__, nsim_test=False) as cfg: cfg.ethnl = EthtoolFamily() cfg.netnl = NetdevFamily() query_nic_features(cfg) test_info = ( # name, v4/v6 ethtool_feature tun:(type, partial, args) ("", "4", "tx-tcp-segmentation", None), ("", "6", "tx-tcp6-segmentation", None), ("vxlan", "", "tx-udp_tnl-segmentation", ("vxlan", True, "id 100 dstport 4789 noudpcsum")), ("vxlan_csum", "", "tx-udp_tnl-csum-segmentation", ("vxlan", False, "id 100 dstport 4789 udpcsum")), ("gre", "4", "tx-gre-segmentation", ("ipgre", False, "")), ("gre", "6", "tx-gre-segmentation", ("ip6gre", False, "")), ) cases = [] for outer_ipver in ["4", "6"]: for info in test_info: # Skip if test which only works for a specific IP version if info[1] and outer_ipver != info[1]: continue cases.append(test_builder(info[0], cfg, outer_ipver, info[2], tun=info[3], inner_ipver="4")) if info[3]: cases.append(test_builder(info[0], cfg, outer_ipver, info[2], tun=info[3], inner_ipver="6")) ksft_run(cases=cases, args=(cfg, )) ksft_exit() if __name__ == "__main__": main()