hostapd/tests/hwsim/test_eht.py

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# EHT tests
# Copyright (c) 2022, Qualcomm Innovation Center, Inc.
#
# This software may be distributed under the terms of the BSD license.
# See README for more details.
import hostapd
from utils import *
from hwsim import HWSimRadio
import hwsim_utils
from wpasupplicant import WpaSupplicant
import re
from tshark import run_tshark
def eht_verify_wifi_version(dev):
status = dev.get_status()
logger.info("station status: " + str(status))
if 'wifi_generation' not in status:
raise Exception("Missing wifi_generation information")
if status['wifi_generation'] != "7":
raise Exception("Unexpected wifi_generation value: " + status['wifi_generation'])
def _eht_get_links_bitmap(wpas, name):
vfile = "/sys/kernel/debug/ieee80211/%s/netdev:%s/%s" % \
(wpas.get_driver_status_field("phyname"), wpas.ifname, name)
if wpas.cmd_execute(["ls", vfile])[0] != 0:
logger_info("%s not supported in mac80211: %s" % (name, vfile))
return 0
res, out = wpas.cmd_execute(["cat", vfile], shell=True)
if res != 0:
raise Exception("Failed to read %s" % fname)
logger.info("%s=%s" % (name, out))
return int(out, 16)
def _eht_valid_links(wpas):
return _eht_get_links_bitmap(wpas, "valid_links")
def _eht_active_links(wpas):
return _eht_get_links_bitmap(wpas, "active_links")
def _eht_verify_links(wpas, valid_links=0, active_links=0):
vlinks = _eht_valid_links(wpas)
if vlinks != valid_links:
raise Exception("Unexpected valid links (0x%04x != 0x%04x)" % (vlinks, valid_links))
alinks = _eht_active_links(wpas)
if alinks != active_links:
raise Exception("Unexpected active links (0x%04x != 0x%04x)" % (alinks, active_links))
def eht_verify_status(wpas, hapd, freq, bw, is_ht=False, is_vht=False,
mld=False, valid_links=0, active_links=0):
status = hapd.get_status()
logger.info("hostapd STATUS: " + str(status))
if is_ht and status["ieee80211n"] != "1":
raise Exception("Unexpected STATUS ieee80211n value")
if is_vht and status["ieee80211ac"] != "1":
raise Exception("Unexpected STATUS ieee80211ac value")
if status["ieee80211ax"] != "1":
raise Exception("Unexpected STATUS ieee80211ax value")
if status["ieee80211be"] != "1":
raise Exception("Unexpected STATUS ieee80211be value")
sta = hapd.get_sta(wpas.own_addr())
logger.info("hostapd STA: " + str(sta))
if is_ht and "[HT]" not in sta['flags']:
raise Exception("Missing STA flag: HT")
if is_vht and "[VHT]" not in sta['flags']:
raise Exception("Missing STA flag: VHT")
if "[HE]" not in sta['flags']:
raise Exception("Missing STA flag: HE")
if "[EHT]" not in sta['flags']:
raise Exception("Missing STA flag: EHT")
sig = wpas.request("SIGNAL_POLL").splitlines()
# TODO: With MLD connection, signal poll logic is still not implemented.
# While mac80211 maintains the station using the MLD address, the
# information is maintained in the link stations, but it is not sent to
# user space yet.
if not mld:
if "FREQUENCY=%s" % freq not in sig:
raise Exception("Unexpected SIGNAL_POLL value(1): " + str(sig))
if "WIDTH=%s MHz" % bw not in sig:
raise Exception("Unexpected SIGNAL_POLL value(2): " + str(sig))
# Active links are updated in async work after the connection.
# Sleep a bit to allow it to run.
time.sleep(0.1)
_eht_verify_links(wpas, valid_links, active_links)
def traffic_test(wpas, hapd, success=True):
hwsim_utils.test_connectivity(wpas, hapd, success_expected=success)
def test_eht_open(dev, apdev):
"""EHT AP with open mode configuration"""
params = {"ssid": "eht",
"ieee80211ax": "1",
"ieee80211be": "1"}
try:
hapd = hostapd.add_ap(apdev[0], params)
except Exception as e:
if isinstance(e, Exception) and \
str(e) == "Failed to set hostapd parameter ieee80211be":
raise HwsimSkip("EHT not supported")
raise
if hapd.get_status_field("ieee80211be") != "1":
raise Exception("AP STATUS did not indicate ieee80211be=1")
dev[0].connect("eht", key_mgmt="NONE", scan_freq="2412")
sta = hapd.get_sta(dev[0].own_addr())
if "[EHT]" not in sta['flags']:
raise Exception("Missing STA flag: EHT")
status = dev[0].request("STATUS")
if "wifi_generation=7" not in status:
raise Exception("STA STATUS did not indicate wifi_generation=7")
def test_prefer_eht_20(dev, apdev):
params = {"ssid": "eht",
"channel": "1",
"ieee80211ax": "1",
"ieee80211be" : "1",
"ieee80211n": "1"}
try:
hapd0 = hostapd.add_ap(apdev[0], params)
params["ieee80211be"] = "0"
hapd1 = hostapd.add_ap(apdev[1], params)
except Exception as e:
if isinstance(e, Exception) and \
str(e) == "Failed to set hostapd parameter ieee80211be":
raise HwsimSkip("EHT not supported")
raise
dev[0].connect("eht", key_mgmt="NONE")
if dev[0].get_status_field('bssid') != apdev[0]['bssid']:
raise Exception("dev[0] connected to unexpected AP")
est = dev[0].get_bss(apdev[0]['bssid'])['est_throughput']
if est != "172103":
raise Exception("Unexpected BSS1 est_throughput: " + est)
def start_eht_sae_ap(apdev, ml=False, transition_mode=False):
params = hostapd.wpa2_params(ssid="eht", passphrase="12345678")
params["ieee80211ax"] = "1"
params["ieee80211be"] = "1"
params['ieee80211w'] = '1' if transition_mode else '2'
params['rsn_pairwise'] = "CCMP GCMP-256" if transition_mode else "GCMP-256"
params['group_cipher'] = "CCMP" if transition_mode else "GCMP-256"
params["group_mgmt_cipher"] = "AES-128-CMAC" if transition_mode else "BIP-GMAC-256"
params['beacon_prot'] = '1'
params['wpa_key_mgmt'] = "SAE SAE-EXT-KEY" if transition_mode else 'SAE-EXT-KEY'
params['sae_groups'] = "19 20" if transition_mode else "20"
params['sae_pwe'] = "2" if transition_mode else "1"
if ml:
ml_elem = "ff0d6b" + "3001" + "0a" + "021122334455" + "01" + "00" + "00"
params['vendor_elements'] = ml_elem
try:
hapd = hostapd.add_ap(apdev, params)
except Exception as e:
if isinstance(e, Exception) and \
str(e) == "Failed to set hostapd parameter ieee80211be":
raise HwsimSkip("EHT not supported")
raise
def test_eht_sae(dev, apdev):
"""EHT AP with SAE"""
check_sae_capab(dev[0])
hapd = start_eht_sae_ap(apdev[0])
try:
dev[0].set("sae_groups", "20")
dev[0].set("sae_pwe", "2")
dev[0].connect("eht", key_mgmt="SAE-EXT-KEY", psk="12345678",
ieee80211w="2", beacon_prot="1",
pairwise="GCMP-256", group="GCMP-256",
group_mgmt="BIP-GMAC-256", scan_freq="2412")
finally:
dev[0].set("sae_groups", "")
dev[0].set("sae_pwe", "0")
def test_eht_sae_mlo(dev, apdev):
"""EHT+MLO AP with SAE"""
check_sae_capab(dev[0])
hapd = start_eht_sae_ap(apdev[0], ml=True)
try:
dev[0].set("sae_groups", "20")
dev[0].set("sae_pwe", "2")
dev[0].connect("eht", key_mgmt="SAE-EXT-KEY", psk="12345678",
ieee80211w="2", beacon_prot="1",
pairwise="GCMP-256", group="GCMP-256",
group_mgmt="BIP-GMAC-256", scan_freq="2412")
finally:
dev[0].set("sae_groups", "")
dev[0].set("sae_pwe", "0")
def test_eht_sae_mlo_tm(dev, apdev):
"""EHT+MLO AP with SAE and transition mode"""
check_sae_capab(dev[0])
check_sae_capab(dev[1])
hapd = start_eht_sae_ap(apdev[0], ml=True, transition_mode=True)
try:
dev[0].set("sae_groups", "20")
dev[0].set("sae_pwe", "2")
dev[0].connect("eht", key_mgmt="SAE-EXT-KEY", psk="12345678",
ieee80211w="2", beacon_prot="1",
pairwise="GCMP-256", group="CCMP",
group_mgmt="AES-128-CMAC", scan_freq="2412")
dev[1].set("sae_groups", "19")
dev[1].connect("eht", key_mgmt="SAE-EXT-KEY", psk="12345678",
ieee80211w="2", beacon_prot="1",
pairwise="CCMP", group="CCMP",
group_mgmt="AES-128-CMAC", scan_freq="2412",
disable_eht="1")
finally:
dev[0].set("sae_groups", "")
dev[0].set("sae_pwe", "0")
dev[1].set("sae_groups", "")
def eht_mld_enable_ap(iface, params):
hapd = hostapd.add_mld_link(iface, params)
hapd.enable()
ev = hapd.wait_event(["AP-ENABLED", "AP-DISABLED"], timeout=1)
if ev is None:
raise Exception("AP startup timed out")
if "AP-ENABLED" not in ev:
raise Exception("AP startup failed")
return hapd
def eht_mld_ap_wpa2_params(ssid, passphrase=None, key_mgmt="WPA-PSK-SHA256",
mfp="2", pwe=None, beacon_prot="1"):
params = hostapd.wpa2_params(ssid=ssid, passphrase=passphrase,
wpa_key_mgmt=key_mgmt, ieee80211w=mfp)
params['ieee80211n'] = '1'
params['ieee80211ax'] = '1'
params['ieee80211be'] = '1'
params['channel'] = '1'
params['hw_mode'] = 'g'
params['group_mgmt_cipher'] = "AES-128-CMAC"
params['beacon_prot'] = beacon_prot
if pwe is not None:
params['sae_pwe'] = pwe
return params
def _eht_mld_probe_req(wpas, hapd, tsf0, link_id=-1):
if "OK" not in wpas.request("ML_PROBE_REQ bssid=%s mld_id=0 link_id=%d" % (hapd.own_addr(), link_id)):
raise Exception("Failed to request ML probe request")
ev = wpas.wait_event(["CTRL-EVENT-SCAN-STARTED"])
if ev is None:
raise Exception("Scan did not start")
ev = wpas.wait_event(["CTRL-EVENT-SCAN-RESULTS"])
if ev is None:
raise Exception("Scan did not complete")
logger.info("ML Probe request scan done")
bss = wpas.get_bss(hapd.own_addr())
if not bss:
raise Exception("AP did not reply to ML probe request")
tsf1 = int(bss['tsf'])
logger.info("tsf0=%s, tsf1=%s" % (tsf0, tsf1))
if tsf0 >= tsf1:
raise Exception("AP was not found in ML probe request scan")
def test_eht_mld_discovery(dev, apdev):
"""EHT MLD AP discovery"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
ssid = "mld_ap"
link0_params = {"ssid": ssid,
"hw_mode": "g",
"channel": "1"}
link1_params = {"ssid": ssid,
"hw_mode": "g",
"channel": "2"}
hapd0 = eht_mld_enable_ap(hapd_iface, link0_params)
hapd1 = eht_mld_enable_ap(hapd_iface, link1_params)
# Only scan link 0
res = wpas.request("SCAN freq=2412")
if "FAIL" in res:
raise Exception("Failed to start scan")
ev = wpas.wait_event(["CTRL-EVENT-SCAN-STARTED"])
if ev is None:
raise Exception("Scan did not start")
ev = wpas.wait_event(["CTRL-EVENT-SCAN-RESULTS"])
if ev is None:
raise Exception("Scan did not complete")
logger.info("Scan done")
rnr_pattern = re.compile(".*ap_info.*, mld ID=0, link ID=",
re.MULTILINE)
ml_pattern = re.compile(".*multi-link:.*, MLD addr=.*", re.MULTILINE)
bss = wpas.request("BSS " + hapd0.own_addr())
logger.info("BSS 0: " + str(bss))
if rnr_pattern.search(bss) is None:
raise Exception("RNR element not found for first link")
if ml_pattern.search(bss) is None:
raise Exception("ML element not found for first link")
# Save the tsf0 for checking ML Probe request scan later
tsf0 = int(wpas.get_bss(hapd0.own_addr())['tsf'])
if wpas.get_bss(hapd1.own_addr()) is not None:
raise Exception("BSS for link 1 found without ML probe request")
# Now send an ML probe request (for all links)
_eht_mld_probe_req(wpas, hapd0, tsf0)
tsf0 = int(wpas.get_bss(hapd0.own_addr())['tsf'])
# NOTE: hostapd incorrectly reports a TSF offset of zero
# This only works because the source is always the ML probe response
tsf1 = int(wpas.get_bss(hapd1.own_addr())['tsf'])
bss = wpas.request("BSS " + hapd1.own_addr())
logger.info("BSS 1: " + str(bss))
if rnr_pattern.search(bss) is None:
raise Exception("RNR element not found for second link")
if ml_pattern.search(bss) is None:
raise Exception("ML element not found for second link")
_eht_mld_probe_req(wpas, hapd0, tsf0, link_id=1)
if int(wpas.get_bss(hapd1.own_addr())['tsf']) <= tsf1:
raise Exception("Probe for link ID did not update BSS")
tsf0 = int(wpas.get_bss(hapd0.own_addr())['tsf'])
tsf1 = int(wpas.get_bss(hapd1.own_addr())['tsf'])
# Probing the wrong link ID should not update second link
_eht_mld_probe_req(wpas, hapd0, tsf0, link_id=4)
if int(wpas.get_bss(hapd1.own_addr())['tsf']) != tsf1:
raise Exception("Probe for other link ID not updated BSS")
def test_eht_mld_owe_two_links(dev, apdev):
"""EHT MLD AP with MLD client OWE connection using two links"""
with HWSimRadio(use_mlo=True) as (hapd0_radio, hapd0_iface), \
HWSimRadio(use_mlo=True) as (hapd1_radio, hapd1_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
ssid = "mld_ap_owe_two_link"
params = eht_mld_ap_wpa2_params(ssid, key_mgmt="OWE", mfp="2")
hapd0 = eht_mld_enable_ap(hapd0_iface, params)
params['channel'] = '6'
hapd1 = eht_mld_enable_ap(hapd0_iface, params)
# Check legacy client connection
dev[0].connect(ssid, scan_freq="2437", key_mgmt="OWE", ieee80211w="2")
wpas.connect(ssid, scan_freq="2412 2437", key_mgmt="OWE",
ieee80211w="2")
eht_verify_status(wpas, hapd0, 2412, 20, is_ht=True, mld=True,
valid_links=3, active_links=3)
eht_verify_wifi_version(wpas)
traffic_test(wpas, hapd0)
traffic_test(wpas, hapd1)
def test_eht_mld_sae_single_link(dev, apdev):
"""EHT MLD AP with MLD client SAE H2E connection using single link"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
passphrase = 'qwertyuiop'
ssid = "mld_ap_sae_single_link"
params = eht_mld_ap_wpa2_params(ssid, passphrase, key_mgmt="SAE",
mfp="2", pwe='2')
hapd0 = eht_mld_enable_ap(hapd_iface, params)
wpas.set("sae_pwe", "1")
wpas.connect(ssid, sae_password=passphrase, scan_freq="2412",
key_mgmt="SAE", ieee80211w="2")
eht_verify_status(wpas, hapd0, 2412, 20, is_ht=True, mld=True,
valid_links=1, active_links=1)
eht_verify_wifi_version(wpas)
traffic_test(wpas, hapd0)
def run_eht_mld_sae_two_links(dev, apdev, beacon_prot="1"):
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
passphrase = 'qwertyuiop'
ssid = "mld_ap_sae_two_link"
params = eht_mld_ap_wpa2_params(ssid, passphrase,
key_mgmt="SAE", mfp="2", pwe='1',
beacon_prot=beacon_prot)
hapd0 = eht_mld_enable_ap(hapd_iface, params)
params['channel'] = '6'
hapd1 = eht_mld_enable_ap(hapd_iface, params)
wpas.set("sae_pwe", "1")
wpas.connect(ssid, sae_password=passphrase, scan_freq="2412 2437",
key_mgmt="SAE", ieee80211w="2", beacon_prot="1")
eht_verify_status(wpas, hapd0, 2412, 20, is_ht=True, mld=True,
valid_links=3, active_links=3)
eht_verify_wifi_version(wpas)
traffic_test(wpas, hapd0)
traffic_test(wpas, hapd1)
def test_eht_mld_sae_two_links(dev, apdev):
"""EHT MLD AP with MLD client SAE H2E connection using two links"""
run_eht_mld_sae_two_links(dev, apdev)
def test_eht_mld_sae_two_links_no_beacon_prot(dev, apdev):
"""EHT MLD AP with MLD client SAE H2E connection using two links and no beacon protection"""
run_eht_mld_sae_two_links(dev, apdev, beacon_prot="0")
def test_eht_mld_sae_ext_one_link(dev, apdev):
"""EHT MLD AP with MLD client SAE-EXT H2E connection using single link"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
passphrase = 'qwertyuiop'
ssid = "mld_ap_sae_ext_single_link"
params = eht_mld_ap_wpa2_params(ssid, passphrase, key_mgmt="SAE-EXT-KEY")
hapd0 = eht_mld_enable_ap(hapd_iface, params)
wpas.connect(ssid, sae_password=passphrase, scan_freq="2412",
key_mgmt="SAE-EXT-KEY", ieee80211w="2")
eht_verify_status(wpas, hapd0, 2412, 20, is_ht=True, mld=True,
valid_links=1, active_links=1)
eht_verify_wifi_version(wpas)
traffic_test(wpas, hapd0)
def test_eht_mld_sae_ext_two_links(dev, apdev):
"""EHT MLD AP with MLD client SAE-EXT H2E connection using two links"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
passphrase = 'qwertyuiop'
ssid = "mld_ap_sae_two_link"
params = eht_mld_ap_wpa2_params(ssid, passphrase,
key_mgmt="SAE-EXT-KEY")
hapd0 = eht_mld_enable_ap(hapd_iface, params)
params['channel'] = '6'
hapd1 = eht_mld_enable_ap(hapd_iface, params)
wpas.connect(ssid, sae_password=passphrase, scan_freq="2412 2437",
key_mgmt="SAE-EXT-KEY", ieee80211w="2")
eht_verify_status(wpas, hapd0, 2412, 20, is_ht=True, mld=True,
valid_links=3, active_links=3)
eht_verify_wifi_version(wpas)
traffic_test(wpas, hapd0)
traffic_test(wpas, hapd1)
def test_eht_mld_sae_legacy_client(dev, apdev):
"""EHT MLD AP with legacy client SAE H2E connection"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface):
passphrase = 'qwertyuiop'
ssid = "mld_ap_sae_two_link"
params = eht_mld_ap_wpa2_params(ssid, passphrase,
key_mgmt="SAE", mfp="2", pwe='1')
hapd0 = eht_mld_enable_ap(hapd_iface, params)
params['channel'] = '6'
hapd1 = eht_mld_enable_ap(hapd_iface, params)
try:
dev[0].set("sae_groups", "")
dev[0].set("sae_pwe", "1")
dev[0].connect(ssid, sae_password=passphrase, scan_freq="2412",
key_mgmt="SAE", ieee80211w="2", beacon_prot="1")
eht_verify_status(dev[0], hapd0, 2412, 20, is_ht=True)
traffic_test(dev[0], hapd0)
finally:
dev[0].set("sae_groups", "")
dev[0].set("sae_pwe", "0")
def test_eht_mld_sae_transition(dev, apdev):
"""EHT MLD AP in SAE/PSK transition mode with MLD client connection using two links"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
passphrase = 'qwertyuiop'
ssid = "mld_ap_sae_two_link"
params = eht_mld_ap_wpa2_params(ssid, passphrase,
key_mgmt="SAE-EXT-KEY SAE WPA-PSK WPA-PSK-SHA256",
mfp="1")
hapd0 = eht_mld_enable_ap(hapd_iface, params)
params['channel'] = '6'
hapd1 = eht_mld_enable_ap(hapd_iface, params)
wpas.connect(ssid, sae_password=passphrase, scan_freq="2412 2437",
key_mgmt="SAE-EXT-KEY", ieee80211w="2")
eht_verify_status(wpas, hapd0, 2412, 20, is_ht=True, mld=True,
valid_links=3, active_links=3)
eht_verify_wifi_version(wpas)
traffic_test(wpas, hapd0)
traffic_test(wpas, hapd1)
dev[0].set("sae_groups", "")
dev[0].connect(ssid, sae_password=passphrase, scan_freq="2412",
key_mgmt="SAE", ieee80211w="2", beacon_prot="1")
dev[1].connect(ssid, psk=passphrase, scan_freq="2412",
key_mgmt="WPA-PSK", ieee80211w="0")
def test_eht_mld_ptk_rekey(dev, apdev):
"""EHT MLD AP and PTK rekeying with MLD client connection using two links"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
passphrase = 'qwertyuiop'
ssid = "mld_ap_sae_two_link"
params = eht_mld_ap_wpa2_params(ssid, passphrase,
key_mgmt="SAE-EXT-KEY SAE WPA-PSK WPA-PSK-SHA256",
mfp="1")
params['wpa_ptk_rekey'] = '5'
hapd0 = eht_mld_enable_ap(hapd_iface, params)
params['channel'] = '6'
hapd1 = eht_mld_enable_ap(hapd_iface, params)
wpas.connect(ssid, sae_password=passphrase, scan_freq="2412 2437",
key_mgmt="SAE-EXT-KEY", ieee80211w="2")
ev0 = hapd0.wait_event(["AP-STA-CONNECT"], timeout=1)
if ev0 is None:
ev1 = hapd1.wait_event(["AP-STA-CONNECT"], timeout=1)
traffic_test(wpas, hapd0)
traffic_test(wpas, hapd1)
ev = wpas.wait_event(["WPA: Key negotiation completed",
"CTRL-EVENT-DISCONNECTED"], timeout=10)
if ev is None:
raise Exception("PTK rekey timed out")
if "CTRL-EVENT-DISCONNECTED" in ev:
raise Exception("Disconnect instead of rekey")
time.sleep(0.1)
traffic_test(wpas, hapd0)
traffic_test(wpas, hapd1)
def test_eht_mld_gtk_rekey(dev, apdev):
"""AP MLD and GTK rekeying with MLD client connection using two links"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
passphrase = 'qwertyuiop'
ssid = "mld_ap_sae_two_link"
params = eht_mld_ap_wpa2_params(ssid, passphrase,
key_mgmt="SAE-EXT-KEY SAE WPA-PSK WPA-PSK-SHA256",
mfp="1")
params['wpa_group_rekey'] = '5'
hapd0 = eht_mld_enable_ap(hapd_iface, params)
params['channel'] = '6'
hapd1 = eht_mld_enable_ap(hapd_iface, params)
wpas.connect(ssid, sae_password=passphrase, scan_freq="2412 2437",
key_mgmt="SAE-EXT-KEY", ieee80211w="2")
ev0 = hapd0.wait_event(["AP-STA-CONNECT"], timeout=1)
if ev0 is None:
ev1 = hapd1.wait_event(["AP-STA-CONNECT"], timeout=1)
traffic_test(wpas, hapd0)
traffic_test(wpas, hapd1)
for i in range(2):
ev = wpas.wait_event(["MLO RSN: Group rekeying completed",
"CTRL-EVENT-DISCONNECTED"], timeout=10)
if ev is None:
raise Exception("GTK rekey timed out")
if "CTRL-EVENT-DISCONNECTED" in ev:
raise Exception("Disconnect instead of rekey")
#TODO: Uncomment these ones GTK rekeying works for MLO
#time.sleep(0.1)
#traffic_test(wpas, hapd0)
#traffic_test(wpas, hapd1)
def test_eht_ml_probe_req(dev, apdev):
"""AP MLD with two links and non-AP MLD sending ML Probe Request"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
passphrase = 'qwertyuiop'
ssid = "mld_ap_sae_two_link"
params = eht_mld_ap_wpa2_params(ssid, passphrase,
key_mgmt="SAE-EXT-KEY")
hapd0 = eht_mld_enable_ap(hapd_iface, params)
params['channel'] = '6'
hapd1 = eht_mld_enable_ap(hapd_iface, params)
bssid = hapd0.own_addr()
wpas.scan_for_bss(bssid, freq=2412)
time.sleep(1)
cmd = "ML_PROBE_REQ bssid=" + bssid + " mld_id=0"
if "OK" not in wpas.request(cmd):
raise Exception("Failed to run: " + cmd)
ev = wpas.wait_event(["CTRL-EVENT-SCAN-RESULTS",
"CTRL-EVENT-SCAN-FAILED"], timeout=10)
if ev is None:
raise Exception("ML_PROBE_REQ did not result in scan results")
time.sleep(1)
cmd = "ML_PROBE_REQ bssid=" + bssid + " mld_id=0 link_id=2"
if "OK" not in wpas.request(cmd):
raise Exception("Failed to run: " + cmd)
ev = wpas.wait_event(["CTRL-EVENT-SCAN-RESULTS",
"CTRL-EVENT-SCAN-FAILED"], timeout=10)
if ev is None:
raise Exception("ML_PROBE_REQ did not result in scan results")
def test_eht_mld_connect_probes(dev, apdev, params):
"""MLD client sends ML probe to connect to not discovered links"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
ssid = "mld_ap"
passphrase = 'qwertyuiop'
link_params = eht_mld_ap_wpa2_params(ssid, passphrase, mfp="2",
key_mgmt="SAE", pwe='2')
link_params['channel'] = '1'
link_params['bssid'] = '00:11:22:33:44:01'
hapd0 = eht_mld_enable_ap(hapd_iface, link_params)
link_params['channel'] = '6'
link_params['bssid'] = '00:11:22:33:44:02'
hapd1 = eht_mld_enable_ap(hapd_iface, link_params)
wpas.set("sae_pwe", "1")
wpas.connect(ssid, sae_password= passphrase, ieee80211w="2",
key_mgmt="SAE", scan_freq="2412")
out = run_tshark(os.path.join(params['logdir'], 'hwsim0.pcapng'),
'wlan.fc.type_subtype == 0x0004 && wlan.ext_tag.number == 107 && wlan.ext_tag.data == 11:00:02:00:00:02:11:00',
display=['frame.number'])
if not out.splitlines():
raise Exception('ML probe request not found')
# Probe Response frame has the ML element, which will be fragmented
out = run_tshark(os.path.join(params['logdir'], "hwsim0.pcapng"),
"wlan.fc.type_subtype == 0x0005 && wlan.ext_tag.number == 107 && wlan.ext_tag.length == 254",
display=['frame.number'])
if not out.splitlines():
# This requires new tshark (e.g., 4.0.6); for now, ignore the issue
# to avoid forcing such upgrade.
logger.info('ML probe response not found')
#raise Exception('ML probe response not found')
eht_verify_status(wpas, hapd0, 2412, 20, is_ht=True, mld=True,
valid_links=3, active_links=3)
traffic_test(wpas, hapd0)
traffic_test(wpas, hapd1)
def test_eht_tx_link_rejected_connect_other(dev, apdev, params):
"""EHT MLD AP with MLD client being rejected on TX link, but then connecting on second link"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
ssid = "mld_ap"
passphrase = 'qwertyuiop'
link_params = eht_mld_ap_wpa2_params(ssid, passphrase, mfp="2",
key_mgmt="SAE", pwe='2')
link_params['channel'] = '1'
link_params['bssid'] = '00:11:22:33:44:01'
hapd0 = eht_mld_enable_ap(hapd_iface, link_params)
link_params['channel'] = '6'
link_params['bssid'] = '00:11:22:33:44:02'
hapd1 = eht_mld_enable_ap(hapd_iface, link_params)
wpas.set("sae_pwe", "1")
with fail_test(hapd0, 1, "hostapd_get_aid"):
wpas.connect(ssid, sae_password=passphrase, ieee80211w="2",
key_mgmt="SAE", scan_freq="2412")
eht_verify_status(wpas, hapd1, 2437, 20, is_ht=True, mld=True,
valid_links=2, active_links=2)
traffic_test(wpas, hapd0)
traffic_test(wpas, hapd1)
def test_eht_all_links_rejected(dev, apdev, params):
"""EHT MLD AP with MLD client ignores all rejected links"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
ssid = "mld_ap"
passphrase = 'qwertyuiop'
link_params = eht_mld_ap_wpa2_params(ssid, passphrase, mfp="2",
key_mgmt="SAE", pwe='2')
link_params['channel'] = '1'
link_params['bssid'] = '00:11:22:33:44:01'
hapd0 = eht_mld_enable_ap(hapd_iface, link_params)
link_params['channel'] = '6'
link_params['bssid'] = '00:11:22:33:44:02'
hapd1 = eht_mld_enable_ap(hapd_iface, link_params)
wpas.set("mld_connect_bssid_pref", "00:11:22:33:44:01")
wpas.set("sae_pwe", "1")
with fail_test(hapd0, 1, "hostapd_get_aid",
1, "hostapd_process_assoc_ml_info"):
wpas.connect(ssid, sae_password=passphrase, ieee80211w="2",
key_mgmt="SAE", scan_freq="2412", wait_connect=False)
ev = wpas.wait_event(['CTRL-EVENT-ASSOC-REJECT'])
if not ev:
raise Exception('Rejection not found')
ev1 = wpas.wait_event(['Added BSSID'])
ev2 = wpas.wait_event(['Added BSSID'])
if (not ev1 or not ev2) or \
not ((hapd0.own_addr() in ev1 and hapd1.own_addr() in ev2) or
(hapd1.own_addr() in ev1 and hapd0.own_addr() in ev2)):
raise Exception('Not all BSSs were added to the ignore list')
# After this message, a new scan clears the ignore and the STA
# connects.
wpas.wait_connected(timeout=15)
def test_eht_connect_invalid_link(dev, apdev, params):
"""EHT MLD AP where one link is incorrectly configured and rejected by mac80211"""
with HWSimRadio(use_mlo=True) as (hapd_radio, hapd_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
ssid = "mld_ap"
passphrase = 'qwertyuiop'
ssid = "mld_ap"
passphrase = 'qwertyuiop'
link_params = eht_mld_ap_wpa2_params(ssid, passphrase, mfp="2",
key_mgmt="SAE", pwe='2')
link_params['channel'] = '1'
link_params['bssid'] = '00:11:22:33:44:01'
hapd0 = eht_mld_enable_ap(hapd_iface, link_params)
link_params['channel'] = '6'
link_params['bssid'] = '00:11:22:33:44:02'
hapd1 = eht_mld_enable_ap(hapd_iface, link_params)
# We scan for both APs, then try to connect to link 0, but only the
# second attempt will work if mac80211 rejects the second link.
wpas.set("mld_connect_bssid_pref", "00:11:22:33:44:01")
wpas.set("sae_pwe", "1")
with fail_test(wpas, 1, "assoc;wpa_driver_nl80211_associate",
2, "link;wpa_driver_nl80211_associate"):
wpas.connect(ssid, sae_password=passphrase, ieee80211w="2",
key_mgmt="SAE", scan_freq="2412")
eht_verify_status(wpas, hapd0, 2412, 20, is_ht=True, mld=True,
valid_links=1, active_links=1)
out = run_tshark(os.path.join(params['logdir'], 'hwsim0.pcapng'),
'wlan.fc.type_subtype == 0x0000 && wlan.ext_tag.data == 00:01:09:%s:00:00' % wpas.own_addr(),
display=['frame.number'])
if not out.splitlines():
raise Exception('Association request send by mac80211 had unexpected ML element content (probably it contained a second link)')
def test_eht_mld_link_removal(dev, apdev):
"""EHT MLD with two links. Links removed during association"""
with HWSimRadio(use_mlo=True) as (hapd0_radio, hapd0_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
ssid = "mld_ap_owe_two_link"
params = eht_mld_ap_wpa2_params(ssid, key_mgmt="OWE", mfp="2")
hapd0 = eht_mld_enable_ap(hapd0_iface, params)
params['channel'] = '6'
hapd1 = eht_mld_enable_ap(hapd0_iface, params)
wpas.connect(ssid, scan_freq="2412 2437", key_mgmt="OWE",
ieee80211w="2")
eht_verify_status(wpas, hapd0, 2412, 20, is_ht=True, mld=True,
valid_links=3, active_links=3)
eht_verify_wifi_version(wpas)
traffic_test(wpas, hapd0)
logger.info("Disable the 2nd link in 4 beacon intervals")
hapd1.link_remove(4)
time.sleep(0.6)
logger.info("Test traffic after 2nd link disabled")
traffic_test(wpas, hapd0)
if "OK" not in hapd0.request("REKEY_GTK"):
raise Exception("REKEY_GTK failed")
ev = wpas.wait_event(["MLO RSN: Group rekeying completed"], timeout=2)
if ev is None:
raise Exception("GTK rekey timed out")
traffic_test(wpas, hapd0)
logger.info("Disable the 1st link in 20 beacon intervals")
hapd0.link_remove(20)
time.sleep(1)
logger.info("Verify that traffic is valid before the link is removed")
traffic_test(wpas, hapd0)
time.sleep(2)
logger.info("Test traffic after 1st link disabled")
traffic_test(wpas, hapd0, success=False)
def test_eht_mld_bss_trans_mgmt_link_removal_imminent(dev, apdev):
"""EHT MLD with two links. BSS transition management with link removal imminent"""
with HWSimRadio(use_mlo=True) as (hapd0_radio, hapd0_iface), \
HWSimRadio(use_mlo=True) as (wpas_radio, wpas_iface):
wpas = WpaSupplicant(global_iface='/tmp/wpas-wlan5')
wpas.interface_add(wpas_iface)
ssid = "mld_ap_owe_two_link"
params = eht_mld_ap_wpa2_params(ssid, key_mgmt="OWE", mfp="2")
params["bss_transition"] = "1"
params["mbo"] = "1"
hapd0 = eht_mld_enable_ap(hapd0_iface, params)
params['channel'] = '6'
hapd1 = eht_mld_enable_ap(hapd0_iface, params)
wpas.connect(ssid, scan_freq="2412 2437", key_mgmt="OWE",
ieee80211w="2")
eht_verify_status(wpas, hapd0, 2412, 20, is_ht=True, mld=True,
valid_links=3, active_links=3)
eht_verify_wifi_version(wpas)
hapd0.wait_sta()
hapd1.wait_sta()
traffic_test(wpas, hapd0)
addr = wpas.own_addr()
cmd = "BSS_TM_REQ " + addr + " disassoc_timer=3 disassoc_imminent=1 link_removal_imminent=1 bss_term=0,1"
if "OK" not in hapd0.request(cmd):
raise Exception("BSS_TM_REQ command failed")
# Only one link is terminate, so the STA is expected to remain
# associated and not start a scan.
ev = hapd0.wait_event(['BSS-TM-RESP'], timeout=5)
# For now, allow this to pass without the BSS TM response since that
# functionality with MLD needs a recent kernel change.
#if ev is None:
# raise Exception("No BSS TM response received")
if ev and "status_code=0" not in ev:
raise Exception("Unexpected BSS TM response contents: " + ev)
ev = wpas.wait_event(["CTRL-EVENT-SCAN-STARTED",
"CTRL-EVENT-DISCONNECTED"], timeout=10)
if ev is not None:
raise Exception("Unexpected action on STA: " + ev)
def send_check(hapd, frame, no_tx_status=False):
cmd = "MGMT_RX_PROCESS freq=2412 datarate=0 ssi_signal=-30 frame="
hapd.request(cmd + frame)
if no_tx_status:
return
ev = hapd.wait_event(["MGMT-TX-STATUS"], timeout=1)
if ev is None:
raise Exception("No TX status")
def test_eht_ap_mld_proto(dev, apdev):
"""AP MLD protocol testing"""
with HWSimRadio(use_mlo=True) as (hapd0_radio, hapd0_iface), \
HWSimRadio(use_mlo=True) as (hapd1_radio, hapd1_iface):
ssid = "mld_ap_owe_two_link"
params = eht_mld_ap_wpa2_params(ssid, key_mgmt="OWE", mfp="2")
hapd0 = eht_mld_enable_ap(hapd0_iface, params)
params['channel'] = '6'
hapd1 = eht_mld_enable_ap(hapd0_iface, params)
ap_mld_addr = hapd0.get_status_field("mld_addr[0]").replace(':', '')
bssid0 = hapd0.own_addr().replace(':', '')
bssid1 = hapd1.own_addr().replace(':', '')
time.sleep(1)
hapd0.set("ext_mgmt_frame_handling", "1")
hapd1.set("ext_mgmt_frame_handling", "1")
# Truncated EML missing MLD Capabilities And operations field
hapd0.note("Truncated EML missing MLD Capabilities And operations field")
addr0 = "021122334400"
addr1 = "021122334401"
mld_addr = "02112233440f"
hdr = "b0003a01" + bssid0 + addr0 + bssid0 + "1000"
mle = "ff0a6b000007" + mld_addr
auth = hdr + "0000" + "0100" + "0000" + mle
send_check(hapd0, auth)
hdr = "00000000" + bssid0 + mld_addr + bssid0 + "1000"
ssid = "00136d6c645f61705f6f77655f74776f5f6c696e6b"
supp_rates = "010802040b160c121824"
ext_supp_rates = "32043048606c"
rsne = "301a0100000fac040100000fac040100000fac12cc000000000fac06"
ht_capab = "2d1afe131bffff000000000000000000000100000000000000000000"
ext_capab = "7f0a04004a02014000400001"
he_capab = "ff16230178c81a400000bfce0000000000000000fafffaff"
eht_capab = "ff126c07007c0000feffff7f0100888888880000"
supp_op_classes = "3b155151525354737475767778797a7b7c7d7e7f808182"
dh_param = "ff23201300ea85e693343a079500cf4d461011a0ff90ec4de1af40165adbea94a3f36eb071"
wmm = "dd070050f202000100"
assocreq_start = "3004" + "0500" + ssid + supp_rates + ext_supp_rates + rsne + ht_capab + ext_capab + he_capab
assocreq_end = eht_capab + supp_op_classes + dh_param + wmm
# --> Not enough bytes for common info
mle = "ff0a6b000109" + mld_addr
send_check(hapd0, hdr + assocreq_start + mle + assocreq_end)
# Truncated Non-Inheritance element
hapd0.note("Truncated Non-Inheritance element")
addr0 = "021122334410"
addr1 = "021122334411"
mld_addr = "02112233441f"
hdr = "b0003a01" + bssid0 + addr0 + bssid0 + "1000"
mle = "ff0a6b000007" + mld_addr
auth = hdr + "0000" + "0100" + "0000" + mle
send_check(hapd0, auth)
# --> MLD: Invalid inheritance
mle = "ff7d6b000109" + mld_addr + "0000"
mle += "0067" + "3100" + "07" + addr1
mle += "3004" + "010802040b160c121824" + "32043048606c" + "2d1afe131bffff000000000000000000000100000000000000000000" + "ff16230178c81a400000bfce0000000000000000fafffaff" + "ff126c07007c0000feffff7f0100888888880000"
# Non-Inhericance element
mle += "ff023800"
# Unknown optional subelement
mle += "aa00"
# Vendor-Specific subelement
mle += "dd0411223344"
hdr = "00000000" + bssid0 + mld_addr + bssid0 + "1000"
send_check(hapd0, hdr + assocreq_start + mle + assocreq_end,
no_tx_status=True)
# Empty Non-Inheritance element
hapd0.note("Empty Non-Inheritance element")
addr0 = "021122334420"
addr1 = "021122334421"
mld_addr = "02112233442f"
hdr = "b0003a01" + bssid0 + addr0 + bssid0 + "1000"
mle = "ff0a6b000007" + mld_addr
auth = hdr + "0000" + "0100" + "0000" + mle
send_check(hapd0, auth)
mle = "ff7e6b000109" + mld_addr + "0000"
mle += "0068" + "3100" + "07" + addr1
mle += "3004" + "010802040b160c121824" + "32043048606c" + "2d1afe131bffff000000000000000000000100000000000000000000" + "ff16230178c81a400000bfce0000000000000000fafffaff" + "ff126c07007c0000feffff7f0100888888880000"
# Non-Inhericance element
mle += "ff03380000"
# Unknown optional subelement
mle += "aa00"
# Vendor-Specific subelement
mle += "dd0411223344"
hdr = "00000000" + bssid0 + mld_addr + bssid0 + "1000"
send_check(hapd0, hdr + assocreq_start + mle + assocreq_end)
# Non-Inheritance element
hapd0.note("Non-Inheritance element")
addr0 = "021122334430"
addr1 = "021122334431"
mld_addr = "02112233443f"
hdr = "b0003a01" + bssid0 + addr0 + bssid0 + "1000"
mle = "ff0a6b000007" + mld_addr
auth = hdr + "0000" + "0100" + "0000" + mle
send_check(hapd0, auth)
mle = "ff9e6b000109" + mld_addr + "0000"
mle += "0088" + "3100" + "07" + addr1
mle += "3004" + "010802040b160c121824" + "32043048606c" + "2d1afe131bffff000000000000000000000100000000000000000000" + "ff16230178c81a400000bfce0000000000000000fafffaff" + "ff126c07007c0000feffff7f0100888888880000"
# Non-Inhericance element
mle += "ff2338" + "1010032a362137387172756b548bedeff0" + "106b01020304050607080c0d21643b3a36"
# Unknown optional subelement
mle += "aa00"
# Vendor-Specific subelement
mle += "dd0411223344"
hdr = "00000000" + bssid0 + mld_addr + bssid0 + "1000"
send_check(hapd0, hdr + assocreq_start + mle + assocreq_end)
# No Non-Inheritance element
hapd0.note("No Non-Inheritance element")
addr0 = "021122334440"
addr1 = "021122334441"
mld_addr = "02112233444f"
hdr = "b0003a01" + bssid0 + addr0 + bssid0 + "1000"
mle = "ff0a6b000007" + mld_addr
auth = hdr + "0000" + "0100" + "0000" + mle
send_check(hapd0, auth)
mle = "ff716b000109" + mld_addr + "0000"
mle += "0063" + "3100" + "07" + addr1
mle += "3004010802040b160c12182432043048606c2d1afe131bffff000000000000000000000100000000000000000000ff16230178c81a400000bfce0000000000000000fafffaffff126c07007c0000feffff7f0100888888880000"
hdr = "00000000" + bssid0 + mld_addr + bssid0 + "1000"
send_check(hapd0, hdr + assocreq_start + mle + assocreq_end)
def _5ghz_chanwidth_to_bw(op):
return {
0: "40",
1: "80",
2: "160",
3: "80+80",
}.get(op, "20")
def _test_eht_5ghz(dev, apdev, channel, chanwidth, ccfs1, ccfs2=0,
eht_oper_puncturing_override=None):
try:
params = {"ssid": "eht",
"country_code": "US",
"hw_mode": "a",
"channel": str(channel),
"ieee80211n": "1",
"ieee80211ac": "1",
"ieee80211ax": "1",
"ieee80211be": "1",
"vht_oper_chwidth": str(chanwidth),
"vht_oper_centr_freq_seg0_idx": str(ccfs1),
"vht_oper_centr_freq_seg1_idx": str(ccfs2),
"he_oper_chwidth": str(chanwidth),
"he_oper_centr_freq_seg1_idx": str(ccfs2),
"he_oper_centr_freq_seg0_idx": str(ccfs1),
"eht_oper_centr_freq_seg0_idx": str(ccfs1),
"eht_oper_chwidth": str(chanwidth)}
if chanwidth == 0:
if channel == ccfs1:
bw = "20"
elif channel < ccfs1:
params["ht_capab"] = "[HT40+]"
else:
params["ht_capab"] = "[HT40-]"
else:
params["ht_capab"] = "[HT40+]"
if chanwidth == 2:
params["vht_capab"] = "[VHT160]"
elif chanwidth == 3:
params["vht_capab"] = "[VHT160-80PLUS80]"
if eht_oper_puncturing_override:
params['eht_oper_puncturing_override'] = eht_oper_puncturing_override
freq = 5000 + channel * 5
if chanwidth != 0 or channel != ccfs1:
bw = _5ghz_chanwidth_to_bw(chanwidth)
hapd = hostapd.add_ap(apdev[0], params)
dev[0].connect("eht", key_mgmt="NONE", scan_freq=str(freq))
hapd.wait_sta()
eht_verify_status(dev[0], hapd, freq, bw, is_ht=True, is_vht=True)
eht_verify_wifi_version(dev[0])
hwsim_utils.test_connectivity(dev[0], hapd)
if eht_oper_puncturing_override:
hapd.set("eht_oper_puncturing_override", "0x0")
hapd.request("UPDATE_BEACON")
time.sleep(1)
finally:
dev[0].request("DISCONNECT")
dev[0].wait_disconnected()
hapd.wait_sta_disconnect()
set_world_reg(apdev[0], None, dev[0])
def test_eht_5ghz_20mhz(dev, apdev):
"""EHT with 20 MHz channel width on 5 GHz"""
_test_eht_5ghz(dev, apdev, 36, 0, 36, 0)
def test_eht_5ghz_40mhz_low(dev, apdev):
"""EHT with 40 MHz channel width on 5 GHz - secondary channel above"""
_test_eht_5ghz(dev, apdev, 36, 0, 38, 0)
def test_eht_5ghz_40mhz_high(dev, apdev):
"""EHT with 80 MHz channel width on 5 GHz - secondary channel below"""
_test_eht_5ghz(dev, apdev, 40, 0, 38, 0)
def test_eht_5ghz_80mhz_1(dev, apdev):
"""EHT with 80 MHz channel width on 5 GHz - primary=149"""
_test_eht_5ghz(dev, apdev, 36, 1, 42, 0)
def test_eht_5ghz_80mhz_2(dev, apdev):
"""EHT with 80 MHz channel width on 5 GHz - primary=149"""
_test_eht_5ghz(dev, apdev, 149, 1, 155, 0)
def test_eht_5ghz_80mhz_puncturing_override_1(dev, apdev):
"""EHT with 80 MHz channel width on 5 GHz - primary=36 - puncturing override (2nd)"""
# The 2nd 20 MHz is punctured
_test_eht_5ghz(dev, apdev, 36, 1, 42, 0,
eht_oper_puncturing_override="0x0002")
def test_eht_5ghz_80mhz_puncturing_override_2(dev, apdev):
"""EHT with 80 MHz channel width on 5 GHz - primary=149 - puncturing override (3rd)"""
# The 3rd 20 MHz is punctured
_test_eht_5ghz(dev, apdev, 149, 1, 155, 0,
eht_oper_puncturing_override="0x0004")
def test_eht_5ghz_80mhz_puncturing_override_3(dev, apdev):
"""EHT with 80 MHz channel width on 5 GHz - primary=149 - puncturing override (4th)"""
# The 4th 20 MHz is punctured
_test_eht_5ghz(dev, apdev, 149, 1, 155, 0,
eht_oper_puncturing_override="0x0008")
def test_eht_5ghz_80p80mhz(dev, apdev):
"""EHT with 80+80 MHz channel width on 5 GHz"""
_test_eht_5ghz(dev, apdev, 36, 3, 42, 155)
def _6ghz_op_class_to_bw(op):
return {
131: "20",
132: "40",
133: "80",
134: "160",
137: "320",
}.get(op, "20")
def _test_eht_6ghz(dev, apdev, channel, op_class, ccfs1):
check_sae_capab(dev[0])
# CA enables 320 MHz channels without NO-IR restriction
dev[0].cmd_execute(['iw', 'reg', 'set', 'CA'])
wait_regdom_changes(dev[0])
try:
ssid = "eht_6ghz_sae"
passphrase = "12345678"
params = hostapd.he_wpa2_params(ssid=ssid, passphrase=passphrase)
params["ieee80211be"] = "1"
params["channel"] = str(channel)
params["op_class"] = str(op_class)
params["he_oper_centr_freq_seg0_idx"] = str(ccfs1)
params["eht_oper_centr_freq_seg0_idx"] = str(ccfs1)
params["country_code"] = "CA"
if not he_6ghz_supported():
raise HwsimSkip("6 GHz frequency is not supported")
if op_class == 137 and not eht_320mhz_supported():
raise HwsimSkip("320 MHz channels are not supported")
hapd = hostapd.add_ap(apdev[0], params)
status = hapd.get_status()
logger.info("hostapd STATUS: " + str(status))
if hapd.get_status_field("ieee80211ax") != "1":
raise Exception("STATUS did not indicate ieee80211ax=1")
if hapd.get_status_field("ieee80211be") != "1":
raise Exception("STATUS did not indicate ieee80211be=1")
dev[0].set("sae_pwe", "1")
freq = 5950 + channel * 5
bw = _6ghz_op_class_to_bw(op_class)
dev[0].connect(ssid, key_mgmt="SAE", psk=passphrase, ieee80211w="2",
scan_freq=str(freq))
hapd.wait_sta()
eht_verify_status(dev[0], hapd, freq, bw)
eht_verify_wifi_version(dev[0])
hwsim_utils.test_connectivity(dev[0], hapd)
dev[0].request("DISCONNECT")
dev[0].wait_disconnected()
hapd.wait_sta_disconnect()
hapd.disable()
finally:
dev[0].set("sae_pwe", "0")
dev[0].cmd_execute(['iw', 'reg', 'set', '00'])
wait_regdom_changes(dev[0])
def test_eht_6ghz_20mhz(dev, apdev):
"""EHT with 20 MHz channel width on 6 GHz"""
_test_eht_6ghz(dev, apdev, 5, 131, 5)
def test_eht_6ghz_40mhz(dev, apdev):
"""EHT with 40 MHz channel width on 6 GHz"""
_test_eht_6ghz(dev, apdev, 5, 132, 3)
def test_eht_6ghz_80mhz(dev, apdev):
"""EHT with 80 MHz channel width on 6 GHz"""
_test_eht_6ghz(dev, apdev, 5, 133, 7)
def test_eht_6ghz_160mhz(dev, apdev):
"""EHT with 160 MHz channel width on 6 GHz"""
_test_eht_6ghz(dev, apdev, 5, 134, 15)
def test_eht_6ghz_320mhz(dev, apdev):
"""EHT with 320 MHz channel width on 6 GHz"""
_test_eht_6ghz(dev, apdev, 5, 137, 31)
def test_eht_6ghz_320mhz_2(dev, apdev):
"""EHT with 320 MHz channel width on 6 GHz center 63"""
_test_eht_6ghz(dev, apdev, 37, 137, 63)
def test_eht_6ghz_320mhz_3(dev, apdev):
"""EHT with 320 MHz channel width on 6 GHz center 31 primary 37"""
_test_eht_6ghz(dev, apdev, 37, 137, 31)