hostapd/tests/hwsim/test_p2p_messages.py
Jouni Malinen 54fe526ac4 tests: Make p2p_messages tests more robust under load
The 50 ms wait time for Action frame response was not sufficient when
the tests are run under heavy load (e.g., multiple VMs in parallel).

Signed-off-by: Jouni Malinen <jouni@qca.qualcomm.com>
2014-11-27 21:44:01 +02:00

1722 lines
70 KiB
Python

# P2P protocol tests for various messages
# Copyright (c) 2014, Jouni Malinen <j@w1.fi>
#
# This software may be distributed under the terms of the BSD license.
# See README for more details.
import binascii
import struct
import time
import logging
logger = logging.getLogger()
import hostapd
from test_p2p_persistent import form
from test_p2p_persistent import invite
MGMT_SUBTYPE_PROBE_REQ = 4
MGMT_SUBTYPE_ACTION = 13
ACTION_CATEG_PUBLIC = 4
P2P_GO_NEG_REQ = 0
P2P_GO_NEG_RESP = 1
P2P_GO_NEG_CONF = 2
P2P_INVITATION_REQ = 3
P2P_INVITATION_RESP = 4
P2P_DEV_DISC_REQ = 5
P2P_DEV_DISC_RESP = 6
P2P_PROV_DISC_REQ = 7
P2P_PROV_DISC_RESP = 8
P2P_ATTR_STATUS = 0
P2P_ATTR_MINOR_REASON_CODE = 1
P2P_ATTR_CAPABILITY = 2
P2P_ATTR_DEVICE_ID = 3
P2P_ATTR_GROUP_OWNER_INTENT = 4
P2P_ATTR_CONFIGURATION_TIMEOUT = 5
P2P_ATTR_LISTEN_CHANNEL = 6
P2P_ATTR_GROUP_BSSID = 7
P2P_ATTR_EXT_LISTEN_TIMING = 8
P2P_ATTR_INTENDED_INTERFACE_ADDR = 9
P2P_ATTR_MANAGEABILITY = 10
P2P_ATTR_CHANNEL_LIST = 11
P2P_ATTR_NOTICE_OF_ABSENCE = 12
P2P_ATTR_DEVICE_INFO = 13
P2P_ATTR_GROUP_INFO = 14
P2P_ATTR_GROUP_ID = 15
P2P_ATTR_INTERFACE = 16
P2P_ATTR_OPERATING_CHANNEL = 17
P2P_ATTR_INVITATION_FLAGS = 18
P2P_ATTR_OOB_GO_NEG_CHANNEL = 19
P2P_ATTR_VENDOR_SPECIFIC = 221
P2P_SC_SUCCESS = 0
P2P_SC_FAIL_INFO_CURRENTLY_UNAVAILABLE = 1
P2P_SC_FAIL_INCOMPATIBLE_PARAMS = 2
P2P_SC_FAIL_LIMIT_REACHED = 3
P2P_SC_FAIL_INVALID_PARAMS = 4
P2P_SC_FAIL_UNABLE_TO_ACCOMMODATE = 5
P2P_SC_FAIL_PREV_PROTOCOL_ERROR = 6
P2P_SC_FAIL_NO_COMMON_CHANNELS = 7
P2P_SC_FAIL_UNKNOWN_GROUP = 8
P2P_SC_FAIL_BOTH_GO_INTENT_15 = 9
P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD = 10
P2P_SC_FAIL_REJECTED_BY_USER = 11
WSC_ATTR_CONFIG_METHODS = 0x1008
WLAN_EID_SSID = 0
WLAN_EID_SUPP_RATES = 1
WLAN_EID_VENDOR_SPECIFIC = 221
def ie_ssid(ssid):
return struct.pack("<BB", WLAN_EID_SSID, len(ssid)) + ssid
def ie_supp_rates():
return struct.pack("<BBBBBBBBBB", WLAN_EID_SUPP_RATES, 8,
2*6, 2*9, 2*12, 2*18, 2*24, 2*36, 2*48, 2*54)
def ie_p2p(attrs):
return struct.pack("<BBBBBB", WLAN_EID_VENDOR_SPECIFIC, 4 + len(attrs),
0x50, 0x6f, 0x9a, 9) + attrs
def ie_wsc(attrs):
return struct.pack("<BBBBBB", WLAN_EID_VENDOR_SPECIFIC, 4 + len(attrs),
0x00, 0x50, 0xf2, 4) + attrs
def wsc_attr_config_methods(methods=0):
return struct.pack(">HHH", WSC_ATTR_CONFIG_METHODS, 2, methods)
def p2p_attr_status(status=P2P_SC_SUCCESS):
return struct.pack("<BHB", P2P_ATTR_STATUS, 1, status)
def p2p_attr_minor_reason_code(code=0):
return struct.pack("<BHB", P2P_ATTR_MINOR_REASON_CODE, 1, code)
def p2p_attr_capability(dev_capab=0, group_capab=0):
return struct.pack("<BHBB", P2P_ATTR_CAPABILITY, 2, dev_capab, group_capab)
def p2p_attr_device_id(addr):
val = struct.unpack('6B', binascii.unhexlify(addr.replace(':','')))
t = (P2P_ATTR_DEVICE_ID, 6) + val
return struct.pack('<BH6B', *t)
def p2p_attr_go_intent(go_intent=0, tie_breaker=0):
return struct.pack("<BHB", P2P_ATTR_GROUP_OWNER_INTENT, 1,
(go_intent << 1) | (tie_breaker & 0x01))
def p2p_attr_config_timeout(go_config_timeout=0, client_config_timeout=0):
return struct.pack("<BHBB", P2P_ATTR_CONFIGURATION_TIMEOUT, 2,
go_config_timeout, client_config_timeout)
def p2p_attr_listen_channel(op_class=81, chan=1):
return struct.pack("<BHBBBBB", P2P_ATTR_LISTEN_CHANNEL, 5,
0x58, 0x58, 0x04, op_class, chan)
def p2p_attr_group_bssid(addr):
val = struct.unpack('6B', binascii.unhexlify(addr.replace(':','')))
t = (P2P_ATTR_GROUP_BSSID, 6) + val
return struct.pack('<BH6B', *t)
def p2p_attr_ext_listen_timing(period=0, interval=0):
return struct.pack("<BHHH", P2P_ATTR_EXT_LISTEN_TIMING, 4, period, interval)
def p2p_attr_intended_interface_addr(addr):
val = struct.unpack('6B', binascii.unhexlify(addr.replace(':','')))
t = (P2P_ATTR_INTENDED_INTERFACE_ADDR, 6) + val
return struct.pack('<BH6B', *t)
def p2p_attr_manageability(bitmap=0):
return struct.pack("<BHB", P2P_ATTR_MANAGEABILITY, 1, bitmap)
def p2p_attr_channel_list():
return struct.pack("<BH3BBB11B", P2P_ATTR_CHANNEL_LIST, 16,
0x58, 0x58, 0x04,
81, 11, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
def p2p_attr_device_info(addr, name="Test", config_methods=0, dev_type="00010050F2040001"):
val = struct.unpack('6B', binascii.unhexlify(addr.replace(':','')))
val2 = struct.unpack('8B', binascii.unhexlify(dev_type))
t = (P2P_ATTR_DEVICE_INFO, 6 + 2 + 8 + 1 + 4 + len(name)) + val + (config_methods,) + val2 + (0,)
return struct.pack("<BH6BH8BB", *t) + struct.pack('>HH', 0x1011, len(name)) +name
def p2p_attr_group_id(addr, ssid):
val = struct.unpack('6B', binascii.unhexlify(addr.replace(':','')))
t = (P2P_ATTR_GROUP_ID, 6 + len(ssid)) + val
return struct.pack('<BH6B', *t) + ssid
def p2p_attr_operating_channel(op_class=81, chan=1):
return struct.pack("<BHBBBBB", P2P_ATTR_OPERATING_CHANNEL, 5,
0x58, 0x58, 0x04, op_class, chan)
def p2p_attr_invitation_flags(bitmap=0):
return struct.pack("<BHB", P2P_ATTR_INVITATION_FLAGS, 1, bitmap)
def p2p_hdr_helper(dst, src, type=None, dialog_token=1, req=True):
msg = {}
msg['fc'] = MGMT_SUBTYPE_ACTION << 4
msg['da'] = dst
msg['sa'] = src
if req:
msg['bssid'] = dst
else:
msg['bssid'] = src
msg['payload'] = struct.pack("<BBBBBB",
ACTION_CATEG_PUBLIC, 9, 0x50, 0x6f, 0x9a, 9)
if type is not None:
msg['payload'] += struct.pack("<B", type)
if dialog_token:
msg['payload'] += struct.pack("<B", dialog_token)
return msg
def p2p_hdr(dst, src, type=None, dialog_token=1):
return p2p_hdr_helper(dst, src, type, dialog_token, True)
def p2p_hdr_resp(dst, src, type=None, dialog_token=1):
return p2p_hdr_helper(dst, src, type, dialog_token, False)
def start_p2p(dev, apdev):
addr0 = dev[0].p2p_dev_addr()
dev[0].p2p_listen()
dev[1].p2p_find(social=True)
ev = dev[1].wait_event(["P2P-DEVICE-FOUND"], timeout=5)
if ev is None:
raise Exception("Device discovery timed out")
dev[1].p2p_stop_find()
peer = dev[1].get_peer(addr0)
bssid = apdev[0]['bssid']
params = { 'ssid': "test", 'beacon_int': "2000" }
if peer['listen_freq'] == "2412":
params['channel'] = '1'
elif peer['listen_freq'] == "2437":
params['channel'] = '6'
elif peer['listen_freq'] == "2462":
params['channel'] = '11'
hapd = hostapd.add_ap(apdev[0]['ifname'], params)
hapd.set("ext_mgmt_frame_handling", "1")
return addr0, bssid, hapd, int(params['channel'])
def p2p_probe(hapd, src, chan=1):
msg = {}
msg['fc'] = MGMT_SUBTYPE_PROBE_REQ << 4
msg['da'] = "ff:ff:ff:ff:ff:ff"
msg['sa'] = src
msg['bssid'] = "ff:ff:ff:ff:ff:ff"
attrs = p2p_attr_listen_channel(chan=chan)
msg['payload'] = ie_ssid("DIRECT-") + ie_supp_rates() + ie_p2p(attrs)
hapd.mgmt_tx(msg)
def parse_p2p_public_action(payload):
pos = payload
(category, action) = struct.unpack('BB', pos[0:2])
if category != ACTION_CATEG_PUBLIC:
return None
if action != 9:
return None
pos = pos[2:]
(oui1,oui2,oui3,subtype) = struct.unpack('BBBB', pos[0:4])
if oui1 != 0x50 or oui2 != 0x6f or oui3 != 0x9a or subtype != 9:
return None
pos = pos[4:]
(subtype,dialog_token) = struct.unpack('BB', pos[0:2])
p2p = {}
p2p['subtype'] = subtype
p2p['dialog_token'] = dialog_token
pos = pos[2:]
p2p['elements'] = pos
while len(pos) > 2:
(id,elen) = struct.unpack('BB', pos[0:2])
pos = pos[2:]
if elen > len(pos):
raise Exception("Truncated IE in P2P Public Action frame (elen=%d left=%d)" % (elen, len(pos)))
if id == WLAN_EID_VENDOR_SPECIFIC:
if elen < 4:
raise Exception("Too short vendor specific IE in P2P Public Action frame (elen=%d)" % elen)
(oui1,oui2,oui3,subtype) = struct.unpack('BBBB', pos[0:4])
if oui1 == 0x50 and oui2 == 0x6f and oui3 == 0x9a and subtype == 9:
if 'p2p' in p2p:
p2p['p2p'] += pos[4:elen]
else:
p2p['p2p'] = pos[4:elen]
if oui1 == 0x00 and oui2 == 0x50 and oui3 == 0xf2 and subtype == 4:
p2p['wsc'] = pos[4:elen]
pos = pos[elen:]
if len(pos) > 0:
raise Exception("Invalid element in P2P Public Action frame")
if 'p2p' in p2p:
p2p['p2p_attrs'] = {}
pos = p2p['p2p']
while len(pos) >= 3:
(id,alen) = struct.unpack('<BH', pos[0:3])
pos = pos[3:]
if alen > len(pos):
logger.info("P2P payload: " + binascii.hexlify(p2p['p2p']))
raise Exception("Truncated P2P attribute in P2P Public Action frame (alen=%d left=%d p2p-payload=%d)" % (alen, len(pos), len(p2p['p2p'])))
p2p['p2p_attrs'][id] = pos[0:alen]
pos = pos[alen:]
if P2P_ATTR_STATUS in p2p['p2p_attrs']:
p2p['p2p_status'] = struct.unpack('B', p2p['p2p_attrs'][P2P_ATTR_STATUS])[0]
if 'wsc' in p2p:
p2p['wsc_attrs'] = {}
pos = p2p['wsc']
while len(pos) >= 4:
(id,alen) = struct.unpack('>HH', pos[0:4])
pos = pos[4:]
if alen > len(pos):
logger.info("WSC payload: " + binascii.hexlify(p2p['wsc']))
raise Exception("Truncated WSC attribute in P2P Public Action frame (alen=%d left=%d wsc-payload=%d)" % (alen, len(pos), len(p2p['wsc'])))
p2p['wsc_attrs'][id] = pos[0:alen]
pos = pos[alen:]
return p2p
def test_p2p_msg_empty(dev, apdev):
"""P2P protocol test: empty P2P Public Action frame"""
dst, src, hapd, channel = start_p2p(dev, apdev)
msg = p2p_hdr(dst, src)
hapd.mgmt_tx(msg)
def test_p2p_msg_invitation_req(dev, apdev):
"""P2P protocol tests for invitation request processing"""
dst, src, hapd, channel = start_p2p(dev, apdev)
# Empty P2P Invitation Request (missing dialog token)
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=None)
hapd.mgmt_tx(msg)
dialog_token = 0
# Various p2p_parse() failure cases due to invalid attributes
# Too short attribute header
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BB", P2P_ATTR_CAPABILITY, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Minimal attribute underflow
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BH", P2P_ATTR_CAPABILITY, 1)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Large attribute underflow
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BHB", P2P_ATTR_CAPABILITY, 0xffff, 1)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too short Capability attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BHB", P2P_ATTR_CAPABILITY, 1, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too short Device ID attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
val = struct.unpack('5B', binascii.unhexlify("1122334455"))
t = (P2P_ATTR_DEVICE_ID, 5) + val
attrs = struct.pack('<BH5B', *t)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too short GO Intent attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BH", P2P_ATTR_GROUP_OWNER_INTENT, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too short Status attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BH", P2P_ATTR_STATUS, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# null Listen channel and too short Listen Channel attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BH", P2P_ATTR_LISTEN_CHANNEL, 0)
attrs += struct.pack("<BHB", P2P_ATTR_LISTEN_CHANNEL, 1, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# null Operating channel and too short Operating Channel attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BH", P2P_ATTR_OPERATING_CHANNEL, 0)
attrs += struct.pack("<BHB", P2P_ATTR_OPERATING_CHANNEL, 1, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too short Channel List attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BHBB", P2P_ATTR_CHANNEL_LIST, 2, 1, 2)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too short Device Info attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BHBB", P2P_ATTR_DEVICE_INFO, 2, 1, 2)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Truncated Secondary Device Types in Device Info attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BH6BH8BB", P2P_ATTR_DEVICE_INFO, 6 + 2 + 8 + 1,
0, 0, 0, 0, 0, 0,
0,
0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0xff, 0x11, 0x22,
255)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Missing Device Name in Device Info attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BH6BH8BB8B", P2P_ATTR_DEVICE_INFO, 6 + 2 + 8 + 1 + 8,
0, 0, 0, 0, 0, 0,
0,
0, 0, 0, 0, 0, 0, 0, 0,
1,
1, 2, 3, 4, 5, 6, 7, 8)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Invalid Device Name header in Device Info attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BH6BH8BB8B4B", P2P_ATTR_DEVICE_INFO, 6 + 2 + 8 + 1 + 8 + 4,
0, 0, 0, 0, 0, 0,
0,
0, 0, 0, 0, 0, 0, 0, 0,
1,
1, 2, 3, 4, 5, 6, 7, 8,
0x11, 0x12, 0, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Invalid Device Name header length in Device Info attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BH6BH8BB8B4B", P2P_ATTR_DEVICE_INFO, 6 + 2 + 8 + 1 + 8 + 4,
0, 0, 0, 0, 0, 0,
0,
0, 0, 0, 0, 0, 0, 0, 0,
1,
1, 2, 3, 4, 5, 6, 7, 8,
0x10, 0x11, 0xff, 0xff)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Invalid Device Name header length in Device Info attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
devname = 'A'
attrs = struct.pack("<BH6BH8BB8B4B", P2P_ATTR_DEVICE_INFO, 6 + 2 + 8 + 1 + 8 + 4 + len(devname),
0, 0, 0, 0, 0, 0,
0,
0, 0, 0, 0, 0, 0, 0, 0,
1,
1, 2, 3, 4, 5, 6, 7, 8,
0x10, 0x11, 0, len(devname) + 1) + devname
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Device Name filtering and too long Device Name in Device Info attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BH6BH8BB8B4B4B", P2P_ATTR_DEVICE_INFO, 6 + 2 + 8 + 1 + 8 + 4 + 4,
0, 0, 0, 0, 0, 0,
0,
0, 0, 0, 0, 0, 0, 0, 0,
1,
1, 2, 3, 4, 5, 6, 7, 8,
0x10, 0x11, 0, 4,
64, 9, 0, 64)
devname = '123456789012345678901234567890123'
attrs += struct.pack("<BH6BH8BB8B4B", P2P_ATTR_DEVICE_INFO, 6 + 2 + 8 + 1 + 8 + 4 + len(devname),
0, 0, 0, 0, 0, 0,
0,
0, 0, 0, 0, 0, 0, 0, 0,
1,
1, 2, 3, 4, 5, 6, 7, 8,
0x10, 0x11, 0, len(devname)) + devname
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too short Configuration Timeout attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BHB", P2P_ATTR_CONFIGURATION_TIMEOUT, 1, 1)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too short Intended P2P Interface Address attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BHB", P2P_ATTR_INTENDED_INTERFACE_ADDR, 1, 1)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too short P2P Group BSSID attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BHB", P2P_ATTR_GROUP_BSSID, 1, 1)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too short P2P Group ID attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BHB", P2P_ATTR_GROUP_ID, 1, 1)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too long P2P Group ID attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BH6B", P2P_ATTR_GROUP_ID, 6 + 33, 0, 0, 0, 0, 0, 0) + "123456789012345678901234567890123"
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too short Invitation Flags attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BH", P2P_ATTR_INVITATION_FLAGS, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Valid and too short Manageability attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_manageability()
attrs += struct.pack("<BH", P2P_ATTR_MANAGEABILITY, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Too short NoA attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BHB", P2P_ATTR_NOTICE_OF_ABSENCE, 1, 1)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Valid and too short Extended Listen Timing attributes
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_ext_listen_timing(period=100, interval=50)
attrs += struct.pack("<BHBBB", P2P_ATTR_EXT_LISTEN_TIMING, 3, 0, 0, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Valid and too short Minor Reason Code attributes
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_minor_reason_code(code=2)
attrs += struct.pack("<BH", P2P_ATTR_MINOR_REASON_CODE, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
# Unknown attribute and too short OOB GO Negotiation Channel attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BHB", 99, 1, 1)
attrs += struct.pack("<BHB", P2P_ATTR_OOB_GO_NEG_CHANNEL, 1, 1)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=0.5) is not None:
raise Exception("Unexpected management frame received")
dev[0].dump_monitor()
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
attrs += p2p_attr_invitation_flags()
attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_bssid(src)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_group_id(src, "DIRECT-foo")
attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
ev = dev[0].wait_event(["P2P-DEVICE-FOUND"], timeout=5)
if ev is None:
raise Exception("Timeout on device found event")
ev = dev[0].wait_event(["P2P-INVITATION-RECEIVED"], timeout=5)
if ev is None:
raise Exception("Timeout on invitation event " + str(dialog_token))
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
time.sleep(0.1)
dev[0].dump_monitor()
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
attrs += p2p_attr_invitation_flags()
attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_bssid(src)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_group_id(src, "DIRECT-foo")
attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
ev = dev[0].wait_event(["P2P-INVITATION-RECEIVED"], timeout=5)
if ev is None:
raise Exception("Timeout on invitation event " + str(dialog_token))
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
time.sleep(0.1)
dev[0].dump_monitor()
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
#attrs = p2p_attr_config_timeout()
attrs = p2p_attr_invitation_flags()
attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_bssid(src)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_group_id(src, "DIRECT-foo")
attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
time.sleep(0.1)
dev[0].dump_monitor()
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
#attrs = p2p_attr_invitation_flags()
attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_bssid(src)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_group_id(src, "DIRECT-foo")
attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
time.sleep(0.1)
dev[0].dump_monitor()
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
attrs = p2p_attr_invitation_flags()
#attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_bssid(src)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_group_id(src, "DIRECT-foo")
attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
time.sleep(0.1)
dev[0].dump_monitor()
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
attrs = p2p_attr_invitation_flags()
attrs += p2p_attr_operating_channel()
#attrs += p2p_attr_group_bssid(src)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_group_id(src, "DIRECT-foo")
attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
time.sleep(0.1)
dev[0].dump_monitor()
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
attrs = p2p_attr_invitation_flags()
attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_bssid(src)
#attrs += p2p_attr_channel_list()
attrs += p2p_attr_group_id(src, "DIRECT-foo")
attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
time.sleep(0.1)
dev[0].dump_monitor()
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
attrs = p2p_attr_invitation_flags()
attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_bssid(src)
attrs += p2p_attr_channel_list()
#attrs += p2p_attr_group_id(src, "DIRECT-foo")
attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
time.sleep(0.1)
dev[0].dump_monitor()
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
attrs = p2p_attr_invitation_flags()
attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_bssid(src)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_group_id(src, "DIRECT-foo")
#attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
time.sleep(0.1)
dev[0].dump_monitor()
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
# Unusable peer operating channel preference
time.sleep(0.1)
dev[0].dump_monitor()
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
attrs = p2p_attr_invitation_flags()
attrs += p2p_attr_operating_channel(chan=15)
attrs += p2p_attr_group_bssid(src)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_group_id(src, "DIRECT-foo")
attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
def test_p2p_msg_invitation_req_to_go(dev, apdev):
"""P2P protocol tests for invitation request processing on GO device"""
res = form(dev[0], dev[1])
dev[0].dump_monitor()
dev[1].dump_monitor()
addr0 = dev[0].p2p_dev_addr()
addr1 = dev[1].p2p_dev_addr()
peer = dev[1].get_peer(addr0)
listen_freq = peer['listen_freq']
if "FAIL" in dev[1].request("SET ext_mgmt_frame_handling 1"):
raise Exception("Failed to enable external management frame handling")
networks = dev[0].list_networks()
if len(networks) != 1:
raise Exception("Unexpected number of networks")
if "[P2P-PERSISTENT]" not in networks[0]['flags']:
raise Exception("Not the persistent group data")
dev[0].p2p_start_go(persistent=networks[0]['id'], freq=listen_freq)
dialog_token = 0
# Unusable peer operating channel preference
dialog_token += 1
msg = p2p_hdr(addr0, addr1, type=P2P_INVITATION_REQ,
dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
attrs = p2p_attr_invitation_flags(bitmap=1)
attrs += p2p_attr_operating_channel(chan=15)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_group_id(res['go_dev_addr'], res['ssid'])
attrs += p2p_attr_device_info(addr1, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[1], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr0, addr0, peer['listen_freq'], binascii.hexlify(msg['payload'])))
rx_msg = dev[1].mgmt_rx()
if rx_msg is None:
raise Exception("MGMT-RX timeout")
p2p = parse_p2p_public_action(rx_msg['payload'])
if p2p is None:
raise Exception("Not a P2P Public Action frame " + str(dialog_token))
if p2p['subtype'] != P2P_INVITATION_RESP:
raise Exception("Unexpected subtype %d" % p2p['subtype'])
if p2p['p2p_status'] != 0:
raise Exception("Unexpected status %d" % p2p['p2p_status'])
# Forced channel re-selection due to channel list
dialog_token += 1
msg = p2p_hdr(addr0, addr1, type=P2P_INVITATION_REQ,
dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
attrs = p2p_attr_invitation_flags(bitmap=1)
attrs += struct.pack("<BH3BBBB", P2P_ATTR_CHANNEL_LIST, 6,
0x58, 0x58, 0x04,
81, 1, 3)
attrs += p2p_attr_group_id(res['go_dev_addr'], res['ssid'])
attrs += p2p_attr_device_info(addr1, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[1], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr0, addr0, peer['listen_freq'], binascii.hexlify(msg['payload'])))
rx_msg = dev[1].mgmt_rx()
if rx_msg is None:
raise Exception("MGMT-RX timeout")
p2p = parse_p2p_public_action(rx_msg['payload'])
if p2p is None:
raise Exception("Not a P2P Public Action frame " + str(dialog_token))
if p2p['subtype'] != P2P_INVITATION_RESP:
raise Exception("Unexpected subtype %d" % p2p['subtype'])
if p2p['p2p_status'] != 7:
raise Exception("Unexpected status %d" % p2p['p2p_status'])
def test_p2p_msg_invitation_req_unknown(dev, apdev):
"""P2P protocol tests for invitation request from unknown peer"""
dst, src, hapd, channel = start_p2p(dev, apdev)
dialog_token = 0
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
attrs += p2p_attr_invitation_flags()
attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_bssid(src)
attrs += p2p_attr_channel_list()
#attrs += p2p_attr_group_id(src, "DIRECT-foo")
#attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
ev = dev[0].wait_event(["P2P-INVITATION-RECEIVED"], timeout=5)
if ev is None:
raise Exception("Timeout on invitation event " + str(dialog_token))
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
def test_p2p_msg_invitation_no_common_channels(dev, apdev):
"""P2P protocol tests for invitation request without common channels"""
dst, src, hapd, channel = start_p2p(dev, apdev)
dialog_token = 0
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_INVITATION_REQ, dialog_token=dialog_token)
attrs = p2p_attr_config_timeout()
attrs += p2p_attr_invitation_flags()
attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_bssid(src)
attrs += struct.pack("<BH3BBB", P2P_ATTR_CHANNEL_LIST, 5,
0x58, 0x58, 0x04,
81, 0)
attrs += p2p_attr_group_id(src, "DIRECT-foo")
attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No invitation response " + str(dialog_token))
ev = dev[0].wait_event(["P2P-INVITATION-RECEIVED"], timeout=0.1)
if ev is not None:
raise Exception("Unexpected invitation event")
def test_p2p_msg_invitation_resp(dev, apdev):
"""P2P protocol tests for invitation response processing"""
form(dev[0], dev[1])
dev[0].dump_monitor()
dev[1].dump_monitor()
dst, src, hapd, channel = start_p2p(dev, apdev)
addr0 = dev[0].p2p_dev_addr()
addr1 = dev[1].p2p_dev_addr()
peer = dev[1].get_peer(addr0)
# P2P Invitation Response from unknown peer
msg = p2p_hdr(dst, src, type=P2P_INVITATION_RESP, dialog_token=1)
hapd.mgmt_tx(msg)
# P2P Invitation Response from peer that is not in invitation
msg = p2p_hdr(dst, src, type=P2P_INVITATION_RESP, dialog_token=2)
attrs = p2p_attr_status()
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[1], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr0, addr0, peer['listen_freq'], binascii.hexlify(msg['payload'])))
time.sleep(0.25)
if "FAIL" in dev[1].request("SET ext_mgmt_frame_handling 1"):
raise Exception("Failed to enable external management frame handling")
invite(dev[0], dev[1])
rx_msg = dev[1].mgmt_rx()
if rx_msg is None:
raise Exception("MGMT-RX timeout")
p2p = parse_p2p_public_action(rx_msg['payload'])
if p2p is None:
raise Exception("Not a P2P Public Action frame " + str(dialog_token))
if p2p['subtype'] != P2P_INVITATION_REQ:
raise Exception("Unexpected subtype %d" % p2p['subtype'])
# Invalid attribute to cause p2p_parse() failure
msg = p2p_hdr(dst, src, type=P2P_INVITATION_RESP, dialog_token=p2p['dialog_token'])
attrs = struct.pack("<BB", P2P_ATTR_CAPABILITY, 0)
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[1], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr0, addr0, rx_msg['freq'], binascii.hexlify(msg['payload'])))
invite(dev[0], dev[1])
rx_msg = dev[1].mgmt_rx()
if rx_msg is None:
raise Exception("MGMT-RX timeout")
p2p = parse_p2p_public_action(rx_msg['payload'])
if p2p is None:
raise Exception("Not a P2P Public Action frame " + str(dialog_token))
if p2p['subtype'] != P2P_INVITATION_REQ:
raise Exception("Unexpected subtype %d" % p2p['subtype'])
# missing mandatory Status attribute
msg = p2p_hdr(dst, src, type=P2P_INVITATION_RESP, dialog_token=p2p['dialog_token'])
attrs = p2p_attr_channel_list()
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[1], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr0, addr0, rx_msg['freq'], binascii.hexlify(msg['payload'])))
invite(dev[0], dev[1])
rx_msg = dev[1].mgmt_rx()
if rx_msg is None:
raise Exception("MGMT-RX timeout")
p2p = parse_p2p_public_action(rx_msg['payload'])
if p2p is None:
raise Exception("Not a P2P Public Action frame " + str(dialog_token))
if p2p['subtype'] != P2P_INVITATION_REQ:
raise Exception("Unexpected subtype %d" % p2p['subtype'])
# no channel match (no common channel found at all)
msg = p2p_hdr(dst, src, type=P2P_INVITATION_RESP, dialog_token=p2p['dialog_token'])
attrs = p2p_attr_status()
attrs += struct.pack("<BH3BBBB", P2P_ATTR_CHANNEL_LIST, 6,
0x58, 0x58, 0x04,
81, 1, 15)
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[1], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr0, addr0, rx_msg['freq'], binascii.hexlify(msg['payload'])))
invite(dev[0], dev[1])
rx_msg = dev[1].mgmt_rx()
if rx_msg is None:
raise Exception("MGMT-RX timeout")
p2p = parse_p2p_public_action(rx_msg['payload'])
if p2p is None:
raise Exception("Not a P2P Public Action frame " + str(dialog_token))
if p2p['subtype'] != P2P_INVITATION_REQ:
raise Exception("Unexpected subtype %d" % p2p['subtype'])
# no channel match (no acceptable P2P channel)
msg = p2p_hdr(dst, src, type=P2P_INVITATION_RESP, dialog_token=p2p['dialog_token'])
attrs = p2p_attr_status()
attrs += struct.pack("<BH3BBBB", P2P_ATTR_CHANNEL_LIST, 6,
0x58, 0x58, 0x04,
81, 1, 12)
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[1], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr0, addr0, rx_msg['freq'], binascii.hexlify(msg['payload'])))
invite(dev[0], dev[1])
rx_msg = dev[1].mgmt_rx()
if rx_msg is None:
raise Exception("MGMT-RX timeout")
p2p = parse_p2p_public_action(rx_msg['payload'])
if p2p is None:
raise Exception("Not a P2P Public Action frame " + str(dialog_token))
if p2p['subtype'] != P2P_INVITATION_REQ:
raise Exception("Unexpected subtype %d" % p2p['subtype'])
# missing mandatory Channel List attribute (ignored as a workaround)
msg = p2p_hdr(dst, src, type=P2P_INVITATION_RESP, dialog_token=p2p['dialog_token'])
attrs = p2p_attr_status()
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[1], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr0, addr0, rx_msg['freq'], binascii.hexlify(msg['payload'])))
ev = dev[0].wait_global_event(["P2P-GROUP-STARTED"], timeout=15);
if ev is None:
raise Exception("Group was not started")
def test_p2p_msg_pd_req(dev, apdev):
"""P2P protocol tests for provision discovery request processing"""
dst, src, hapd, channel = start_p2p(dev, apdev)
dialog_token = 0
# Too short attribute header
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_PROV_DISC_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BB", P2P_ATTR_CAPABILITY, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=0.5) is not None:
raise Exception("Unexpected management frame received")
# No attributes
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_PROV_DISC_REQ, dialog_token=dialog_token)
attrs = ""
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No PD response " + str(dialog_token))
# Valid request
time.sleep(0.1)
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_PROV_DISC_REQ, dialog_token=dialog_token)
attrs = wsc_attr_config_methods(methods=0x1008)
msg['payload'] += ie_wsc(attrs)
attrs = p2p_attr_capability()
attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
ev = dev[0].wait_event(["P2P-DEVICE-FOUND"], timeout=5)
if ev is None:
raise Exception("Timeout on device found event")
ev = dev[0].wait_event(["P2P-PROV-DISC-SHOW-PIN"], timeout=5)
if ev is None:
raise Exception("Timeout on PD event")
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No PD response " + str(dialog_token))
# Unknown group
time.sleep(0.1)
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_PROV_DISC_REQ, dialog_token=dialog_token)
attrs = wsc_attr_config_methods(methods=0x1008)
msg['payload'] += ie_wsc(attrs)
attrs = p2p_attr_capability()
attrs += p2p_attr_device_info(src, config_methods=0x0108)
attrs += p2p_attr_group_id("02:02:02:02:02:02", "DIRECT-foo")
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No PD response " + str(dialog_token))
ev = dev[0].wait_event(["P2P-PROV-DISC-SHOW-PIN"], timeout=1)
if ev is not None:
raise Exception("Unexpected PD event")
# Listen channel is not yet known
if "FAIL" not in dev[0].global_request("P2P_PROV_DISC " + src + " display"):
raise Exception("Unexpected P2P_PROV_DISC success")
# Unknown peer
if "FAIL" not in dev[0].global_request("P2P_PROV_DISC 02:03:04:05:06:07 display"):
raise Exception("Unexpected P2P_PROV_DISC success (2)")
def test_p2p_msg_pd(dev, apdev):
"""P2P protocol tests for provision discovery request processing (known)"""
dst, src, hapd, channel = start_p2p(dev, apdev)
dialog_token = 0
p2p_probe(hapd, src, chan=channel)
time.sleep(0.1)
# Valid request
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_PROV_DISC_REQ, dialog_token=dialog_token)
attrs = wsc_attr_config_methods(methods=0x1008)
msg['payload'] += ie_wsc(attrs)
attrs = p2p_attr_capability()
attrs += p2p_attr_device_info(src, config_methods=0x0108)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
ev = dev[0].wait_event(["P2P-DEVICE-FOUND"], timeout=5)
if ev is None:
raise Exception("Timeout on device found event")
ev = dev[0].wait_event(["P2P-PROV-DISC-SHOW-PIN"], timeout=5)
if ev is None:
raise Exception("Timeout on PD event")
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No PD response " + str(dialog_token))
if "FAIL" in dev[0].global_request("P2P_PROV_DISC " + src + " display"):
raise Exception("Unexpected P2P_PROV_DISC failure")
frame = hapd.mgmt_rx(timeout=1)
if frame is None:
raise Exception("No PD request " + str(dialog_token))
p2p = parse_p2p_public_action(frame['payload'])
if p2p is None:
raise Exception("Failed to parse PD request")
# invalid dialog token
msg = p2p_hdr_resp(dst, src, type=P2P_PROV_DISC_RESP,
dialog_token=p2p['dialog_token'] + 1)
hapd.mgmt_tx(msg)
ev = dev[0].wait_event(["P2P-PROV-DISC-FAILURE"], timeout=0.1)
if ev is not None:
raise Exception("Unexpected PD result event")
# valid dialog token
msg = p2p_hdr_resp(dst, src, type=P2P_PROV_DISC_RESP,
dialog_token=p2p['dialog_token'])
hapd.mgmt_tx(msg)
ev = dev[0].wait_event(["P2P-PROV-DISC-FAILURE"], timeout=5)
if ev is None:
raise Exception("Timeout on PD result event")
# valid dialog token
msg = p2p_hdr_resp(dst, src, type=P2P_PROV_DISC_RESP,
dialog_token=p2p['dialog_token'])
hapd.mgmt_tx(msg)
ev = dev[0].wait_event(["P2P-PROV-DISC-FAILURE"], timeout=0.1)
if ev is not None:
raise Exception("Unexpected PD result event")
def check_p2p_response(hapd, dialog_token, status):
resp = hapd.mgmt_rx(timeout=1)
if resp is None:
raise Exception("No GO Neg Response " + str(dialog_token))
p2p = parse_p2p_public_action(resp['payload'])
if p2p is None:
raise Exception("Not a P2P Public Action frame " + str(dialog_token))
if dialog_token != p2p['dialog_token']:
raise Exception("Unexpected dialog token in response")
if p2p['p2p_status'] != status:
raise Exception("Unexpected status code %s in response (expected %d)" % (p2p['p2p_status'], status))
def test_p2p_msg_go_neg_both_start(dev, apdev):
"""P2P protocol test for simultaneous GO Neg initiation"""
addr0 = dev[0].p2p_dev_addr()
addr1 = dev[1].p2p_dev_addr()
dev[0].p2p_listen()
dev[1].discover_peer(addr0)
dev[1].p2p_listen()
dev[0].discover_peer(addr1)
dev[0].p2p_listen()
if "FAIL" in dev[0].request("SET ext_mgmt_frame_handling 1"):
raise Exception("Failed to enable external management frame handling")
if "FAIL" in dev[1].request("SET ext_mgmt_frame_handling 1"):
raise Exception("Failed to enable external management frame handling")
dev[0].request("P2P_CONNECT {} pbc".format(addr1))
dev[1].request("P2P_CONNECT {} pbc".format(addr0))
msg = dev[0].mgmt_rx()
if msg is None:
raise Exception("MGMT-RX timeout")
msg = dev[1].mgmt_rx()
if msg is None:
raise Exception("MGMT-RX timeout(2)")
if "FAIL" in dev[0].request("SET ext_mgmt_frame_handling 0"):
raise Exception("Failed to disable external management frame handling")
ev = dev[0].wait_global_event(["P2P-GO-NEG-SUCCESS"], timeout=2)
if ev is not None:
raise Exception("Unexpected GO Neg success")
if "FAIL" in dev[1].request("SET ext_mgmt_frame_handling 0"):
raise Exception("Failed to disable external management frame handling")
ev = dev[0].wait_global_event(["P2P-GO-NEG-SUCCESS"], timeout=10)
if ev is None:
raise Exception("GO Neg did not succeed")
ev = dev[0].wait_global_event(["P2P-GROUP-STARTED"], timeout=5);
if ev is None:
raise Exception("Group formation not succeed")
ev = dev[1].wait_global_event(["P2P-GROUP-STARTED"], timeout=5);
if ev is None:
raise Exception("Group formation not succeed")
def test_p2p_msg_go_neg_req(dev, apdev):
"""P2P protocol tests for invitation request from unknown peer"""
dst, src, hapd, channel = start_p2p(dev, apdev)
dialog_token = 0
# invalid attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
attrs = struct.pack("<BB", P2P_ATTR_CAPABILITY, 0)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
frame = hapd.mgmt_rx(timeout=0.1)
if frame is not None:
print frame
raise Exception("Unexpected GO Neg Response")
# missing atributes
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
attrs = p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
#attrs += p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
attrs += p2p_attr_intended_interface_addr("02:02:02:02:02:02")
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(src, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No GO Neg Response " + str(dialog_token))
time.sleep(0.1)
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
attrs = p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
attrs += p2p_attr_intended_interface_addr("02:02:02:02:02:02")
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(src, config_methods=0x0108)
#attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No GO Neg Response " + str(dialog_token))
time.sleep(0.1)
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
attrs = p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
attrs += p2p_attr_intended_interface_addr("02:02:02:02:02:02")
#attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(src, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No GO Neg Response " + str(dialog_token))
time.sleep(0.1)
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
attrs = p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
#attrs += p2p_attr_intended_interface_addr("02:02:02:02:02:02")
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(src, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No GO Neg Response " + str(dialog_token))
time.sleep(0.1)
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
attrs = p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
attrs += p2p_attr_intended_interface_addr("02:02:02:02:02:02")
attrs += p2p_attr_channel_list()
#attrs += p2p_attr_device_info(src, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No GO Neg Response " + str(dialog_token))
time.sleep(0.1)
# SA != P2P Device address
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
attrs = p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
attrs += p2p_attr_intended_interface_addr("02:02:02:02:02:02")
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info("02:02:02:02:02:02", config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No GO Neg Response " + str(dialog_token))
time.sleep(0.1)
# unexpected Status attribute
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
attrs = p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
attrs += p2p_attr_intended_interface_addr("02:02:02:02:02:02")
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(src, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
attrs += p2p_attr_status(status=P2P_SC_FAIL_INFO_CURRENTLY_UNAVAILABLE)
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No GO Neg Response(1) " + str(dialog_token))
time.sleep(0.1)
# valid (with workarounds) GO Neg Req
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
#attrs = p2p_attr_capability()
#attrs += p2p_attr_go_intent()
#attrs += p2p_attr_config_timeout()
attrs = p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
attrs += p2p_attr_intended_interface_addr("02:02:02:02:02:02")
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(src, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
check_p2p_response(hapd, dialog_token,
P2P_SC_FAIL_INFO_CURRENTLY_UNAVAILABLE)
ev = dev[0].wait_event(["P2P-GO-NEG-REQUEST"], timeout=1)
if ev is None:
raise Exception("Timeout on GO Neg event " + str(dialog_token))
dev[0].request("P2P_CONNECT " + src + " 12345670 display auth")
# ready - missing attributes (with workarounds) GO Neg Req
time.sleep(0.1)
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
#attrs = p2p_attr_capability()
#attrs += p2p_attr_go_intent()
#attrs += p2p_attr_config_timeout()
attrs = p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
attrs += p2p_attr_intended_interface_addr("02:02:02:02:02:02")
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(src, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
if hapd.mgmt_rx(timeout=1) is None:
raise Exception("No GO Neg Response " + str(dialog_token))
# ready - invalid GO Intent GO Neg Req
time.sleep(0.1)
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
#attrs = p2p_attr_capability()
attrs = p2p_attr_go_intent(go_intent=16)
#attrs += p2p_attr_config_timeout()
attrs += p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
attrs += p2p_attr_intended_interface_addr("02:02:02:02:02:02")
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(src, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
check_p2p_response(hapd, dialog_token, P2P_SC_FAIL_INVALID_PARAMS)
# ready - invalid Channel List
time.sleep(0.1)
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
attrs = p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
attrs += p2p_attr_intended_interface_addr("02:02:02:02:02:02")
attrs += struct.pack("<BH3BBB11B", P2P_ATTR_CHANNEL_LIST, 16,
0x58, 0x58, 0x04,
81, 12, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
attrs += p2p_attr_device_info(src, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
check_p2p_response(hapd, dialog_token, P2P_SC_FAIL_NO_COMMON_CHANNELS)
# ready - invalid GO Neg Req (unsupported Device Password ID)
time.sleep(0.1)
dialog_token += 1
msg = p2p_hdr(dst, src, type=P2P_GO_NEG_REQ, dialog_token=dialog_token)
attrs = p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
attrs += p2p_attr_intended_interface_addr("02:02:02:02:02:02")
# very long channel list
attrs += struct.pack("<BH3BBB11B30B", P2P_ATTR_CHANNEL_LIST, 46,
0x58, 0x58, 0x04,
81, 11, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
1, 1, 1, 2, 1, 2, 3, 1, 3, 4, 1, 4, 5, 1, 5,
6, 1, 6, 7, 1, 7, 8, 1, 8, 9, 1, 9, 10, 1, 10)
attrs += p2p_attr_device_info(src, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
hapd.mgmt_tx(msg)
check_p2p_response(hapd, dialog_token, P2P_SC_FAIL_INCOMPATIBLE_PROV_METHOD)
def mgmt_tx(dev, msg):
for i in range(0, 20):
if "FAIL" in dev.request(msg):
raise Exception("Failed to send Action frame")
ev = dev.wait_event(["MGMT-TX-STATUS"], timeout=10)
if ev is None:
raise Exception("Timeout on MGMT-TX-STATUS")
if "result=SUCCESS" in ev:
break
time.sleep(0.01)
if "result=SUCCESS" not in ev:
raise Exception("Peer did not ack Action frame")
def rx_go_neg_req(dev):
msg = dev.mgmt_rx()
if msg is None:
raise Exception("MGMT-RX timeout")
p2p = parse_p2p_public_action(msg['payload'])
if p2p is None:
raise Exception("Not a P2P Public Action frame " + str(dialog_token))
if p2p['subtype'] != P2P_GO_NEG_REQ:
raise Exception("Unexpected subtype %d" % p2p['subtype'])
p2p['freq'] = msg['freq']
return p2p
def rx_go_neg_conf(dev, status=None, dialog_token=None):
msg = dev.mgmt_rx()
if msg is None:
raise Exception("MGMT-RX timeout")
p2p = parse_p2p_public_action(msg['payload'])
if p2p is None:
raise Exception("Not a P2P Public Action frame " + str(dialog_token))
if p2p['subtype'] != P2P_GO_NEG_CONF:
raise Exception("Unexpected subtype %d" % p2p['subtype'])
if dialog_token is not None and dialog_token != p2p['dialog_token']:
raise Exception("Unexpected dialog token")
if status is not None and p2p['p2p_status'] != status:
raise Exception("Unexpected status %d" % p2p['p2p_status'])
def check_p2p_go_neg_fail_event(dev, status):
ev = dev.wait_global_event(["P2P-GO-NEG-FAILURE"], timeout=5)
if ev is None:
raise Exception("GO Negotiation failure not reported")
if "status=%d" % status not in ev:
raise Exception("Unexpected failure reason: " + ev)
def test_p2p_msg_go_neg_req_reject(dev, apdev):
"""P2P protocol tests for user reject incorrectly in GO Neg Req"""
addr0 = dev[0].p2p_dev_addr()
addr1 = dev[1].p2p_dev_addr()
dev[0].p2p_listen()
dev[1].discover_peer(addr0)
dev[1].group_request("P2P_CONNECT " + addr0 + " pbc")
ev = dev[0].wait_global_event(["P2P-GO-NEG-REQUEST"], timeout=10)
if ev is None:
raise Exception("Timeout on GO Neg Req")
peer = dev[0].get_peer(addr1)
dev[0].p2p_stop_find()
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_REQ, dialog_token=123)
attrs = p2p_attr_capability()
attrs += p2p_attr_status(status=P2P_SC_FAIL_REJECTED_BY_USER)
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_listen_channel()
attrs += p2p_attr_ext_listen_timing()
attrs += p2p_attr_intended_interface_addr(addr0)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(addr0, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=10 no_cck=1 action={}".format(addr1, addr1, peer['listen_freq'], binascii.hexlify(msg['payload'])))
ev = dev[1].wait_global_event(["P2P-GO-NEG-FAILURE"], timeout=5)
if ev is None:
raise Exception("GO Negotiation failure not reported")
if "status=%d" % P2P_SC_FAIL_REJECTED_BY_USER not in ev:
raise Exception("Unexpected failure reason: " + ev)
def test_p2p_msg_unexpected_go_neg_resp(dev, apdev):
"""P2P protocol tests for unexpected GO Neg Resp"""
addr0 = dev[0].p2p_dev_addr()
addr1 = dev[1].p2p_dev_addr()
dev[1].p2p_listen()
dev[0].discover_peer(addr1)
dev[0].p2p_stop_find()
peer = dev[0].get_peer(addr1)
logger.debug("GO Neg Resp without GO Neg session")
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_RESP, dialog_token=123)
attrs = p2p_attr_status()
attrs += p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_intended_interface_addr(addr0)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(addr0, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=10 no_cck=1 action={}".format(addr1, addr1, peer['listen_freq'], binascii.hexlify(msg['payload'])))
dev[0].p2p_listen()
dev[1].discover_peer(addr0)
logger.debug("Unexpected GO Neg Resp while waiting for new GO Neg session")
if "FAIL" in dev[1].global_request("P2P_CONNECT " + addr0 + " pbc"):
raise Exception("P2P_CONNECT failed")
ev = dev[0].wait_global_event(["P2P-GO-NEG-REQUEST"], timeout=10)
if ev is None:
raise Exception("Timeout on GO Neg Req")
dev[0].p2p_stop_find()
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=10 no_cck=1 action={}".format(addr1, addr1, peer['listen_freq'], binascii.hexlify(msg['payload'])))
logger.debug("Invalid attribute in GO Neg Response")
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_RESP, dialog_token=197)
attrs = struct.pack("<BB", P2P_ATTR_CAPABILITY, 0)
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=10 no_cck=1 action={}".format(addr1, addr1, peer['listen_freq'], binascii.hexlify(msg['payload'])))
frame = dev[0].mgmt_rx(timeout=0.1)
if frame is not None:
raise Exception("Unexpected GO Neg Confirm")
logger.debug("GO Neg Resp with unexpected dialog token")
dev[1].p2p_stop_find()
if "FAIL" in dev[0].request("SET ext_mgmt_frame_handling 1"):
raise Exception("Failed to enable external management frame handling")
dev[0].p2p_listen()
if "FAIL" in dev[1].global_request("P2P_CONNECT " + addr0 + " pbc"):
raise Exception("P2P_CONNECT failed(2)")
p2p = rx_go_neg_req(dev[0])
dev[0].p2p_stop_find()
dialog_token = p2p['dialog_token']
if dialog_token < 255:
dialog_token += 1
else:
dialog_token = 1
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_RESP, dialog_token=dialog_token)
attrs = p2p_attr_status()
attrs += p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_intended_interface_addr(addr0)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(addr0, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr1, addr1, p2p['freq'], binascii.hexlify(msg['payload'])))
logger.debug("GO Neg Resp without Status")
dev[1].p2p_stop_find()
dev[0].p2p_listen()
if "FAIL" in dev[1].global_request("P2P_CONNECT " + addr0 + " pbc"):
raise Exception("P2P_CONNECT failed(2)")
p2p = rx_go_neg_req(dev[0])
dev[0].p2p_stop_find()
dialog_token = p2p['dialog_token']
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_RESP, dialog_token=dialog_token)
#attrs = p2p_attr_status()
attrs = p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_intended_interface_addr(addr0)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(addr0, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr1, addr1, p2p['freq'], binascii.hexlify(msg['payload'])))
check_p2p_go_neg_fail_event(dev[1], P2P_SC_FAIL_INVALID_PARAMS)
rx_go_neg_conf(dev[0], P2P_SC_FAIL_INVALID_PARAMS, dialog_token)
logger.debug("GO Neg Resp without Intended Address")
dev[1].p2p_stop_find()
dev[0].p2p_listen()
if "FAIL" in dev[1].global_request("P2P_CONNECT " + addr0 + " pbc"):
raise Exception("P2P_CONNECT failed(2)")
p2p = rx_go_neg_req(dev[0])
dev[0].p2p_stop_find()
dialog_token = p2p['dialog_token']
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_RESP, dialog_token=dialog_token)
attrs = p2p_attr_status()
#attrs += p2p_attr_capability()
attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
#attrs += p2p_attr_intended_interface_addr(addr0)
attrs += p2p_attr_channel_list()
#attrs += p2p_attr_device_info(addr0, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr1, addr1, p2p['freq'], binascii.hexlify(msg['payload'])))
check_p2p_go_neg_fail_event(dev[1], P2P_SC_FAIL_INVALID_PARAMS)
rx_go_neg_conf(dev[0], P2P_SC_FAIL_INVALID_PARAMS, dialog_token)
logger.debug("GO Neg Resp without GO Intent")
dev[1].p2p_stop_find()
dev[0].p2p_listen()
if "FAIL" in dev[1].global_request("P2P_CONNECT " + addr0 + " pbc"):
raise Exception("P2P_CONNECT failed(2)")
p2p = rx_go_neg_req(dev[0])
dev[0].p2p_stop_find()
dialog_token = p2p['dialog_token']
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_RESP, dialog_token=dialog_token)
attrs = p2p_attr_status()
attrs += p2p_attr_capability()
#attrs += p2p_attr_go_intent()
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_intended_interface_addr(addr0)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(addr0, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr1, addr1, p2p['freq'], binascii.hexlify(msg['payload'])))
check_p2p_go_neg_fail_event(dev[1], P2P_SC_FAIL_INVALID_PARAMS)
rx_go_neg_conf(dev[0], P2P_SC_FAIL_INVALID_PARAMS, dialog_token)
logger.debug("GO Neg Resp with invalid GO Intent")
dev[1].p2p_stop_find()
dev[0].p2p_listen()
if "FAIL" in dev[1].global_request("P2P_CONNECT " + addr0 + " pbc"):
raise Exception("P2P_CONNECT failed(2)")
p2p = rx_go_neg_req(dev[0])
dev[0].p2p_stop_find()
dialog_token = p2p['dialog_token']
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_RESP, dialog_token=dialog_token)
attrs = p2p_attr_status()
attrs += p2p_attr_capability()
attrs += p2p_attr_go_intent(go_intent=16)
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_intended_interface_addr(addr0)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(addr0, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr1, addr1, p2p['freq'], binascii.hexlify(msg['payload'])))
check_p2p_go_neg_fail_event(dev[1], P2P_SC_FAIL_INVALID_PARAMS)
rx_go_neg_conf(dev[0], P2P_SC_FAIL_INVALID_PARAMS, dialog_token)
logger.debug("GO Neg Resp with incompatible GO Intent")
dev[1].p2p_stop_find()
dev[0].p2p_listen()
if "FAIL" in dev[1].global_request("P2P_CONNECT " + addr0 + " pbc go_intent=15"):
raise Exception("P2P_CONNECT failed(2)")
p2p = rx_go_neg_req(dev[0])
dev[0].p2p_stop_find()
dialog_token = p2p['dialog_token']
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_RESP, dialog_token=dialog_token)
attrs = p2p_attr_status()
attrs += p2p_attr_capability()
attrs += p2p_attr_go_intent(go_intent=15)
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_intended_interface_addr(addr0)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(addr0, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr1, addr1, p2p['freq'], binascii.hexlify(msg['payload'])))
check_p2p_go_neg_fail_event(dev[1], P2P_SC_FAIL_INCOMPATIBLE_PARAMS)
rx_go_neg_conf(dev[0], P2P_SC_FAIL_INCOMPATIBLE_PARAMS, dialog_token)
logger.debug("GO Neg Resp without P2P Group ID")
dev[1].p2p_stop_find()
dev[0].p2p_listen()
if "FAIL" in dev[1].global_request("P2P_CONNECT " + addr0 + " pbc go_intent=0"):
raise Exception("P2P_CONNECT failed(2)")
p2p = rx_go_neg_req(dev[0])
dev[0].p2p_stop_find()
dialog_token = p2p['dialog_token']
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_RESP, dialog_token=dialog_token)
attrs = p2p_attr_status()
attrs += p2p_attr_capability()
attrs += p2p_attr_go_intent(go_intent=15)
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_intended_interface_addr(addr0)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(addr0, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
#attrs += p2p_attr_group_id(src, "DIRECT-foo")
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr1, addr1, p2p['freq'], binascii.hexlify(msg['payload'])))
check_p2p_go_neg_fail_event(dev[1], P2P_SC_FAIL_INVALID_PARAMS)
rx_go_neg_conf(dev[0], P2P_SC_FAIL_INVALID_PARAMS, dialog_token)
logger.debug("GO Neg Resp without Operating Channel")
dev[1].p2p_stop_find()
dev[0].p2p_listen()
if "FAIL" in dev[1].global_request("P2P_CONNECT " + addr0 + " pbc go_intent=0"):
raise Exception("P2P_CONNECT failed(2)")
p2p = rx_go_neg_req(dev[0])
dev[0].p2p_stop_find()
dialog_token = p2p['dialog_token']
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_RESP, dialog_token=dialog_token)
attrs = p2p_attr_status()
attrs += p2p_attr_capability()
attrs += p2p_attr_go_intent(go_intent=15)
#attrs += p2p_attr_config_timeout()
attrs += p2p_attr_intended_interface_addr(addr0)
attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(addr0, config_methods=0x0108)
#attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_id(addr0, "DIRECT-foo")
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr1, addr1, p2p['freq'], binascii.hexlify(msg['payload'])))
check_p2p_go_neg_fail_event(dev[1], P2P_SC_FAIL_INVALID_PARAMS)
rx_go_neg_conf(dev[0], P2P_SC_FAIL_INVALID_PARAMS, dialog_token)
logger.debug("GO Neg Resp without Channel List")
dev[1].p2p_stop_find()
dev[0].p2p_listen()
if "FAIL" in dev[1].global_request("P2P_CONNECT " + addr0 + " pbc go_intent=0"):
raise Exception("P2P_CONNECT failed(2)")
p2p = rx_go_neg_req(dev[0])
dev[0].p2p_stop_find()
dialog_token = p2p['dialog_token']
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_RESP, dialog_token=dialog_token)
attrs = p2p_attr_status()
attrs += p2p_attr_capability()
attrs += p2p_attr_go_intent(go_intent=15)
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_intended_interface_addr(addr0)
#attrs += p2p_attr_channel_list()
attrs += p2p_attr_device_info(addr0, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_id(addr0, "DIRECT-foo")
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr1, addr1, p2p['freq'], binascii.hexlify(msg['payload'])))
check_p2p_go_neg_fail_event(dev[1], P2P_SC_FAIL_INVALID_PARAMS)
rx_go_neg_conf(dev[0], P2P_SC_FAIL_INVALID_PARAMS, dialog_token)
logger.debug("GO Neg Resp without common channels")
dev[1].p2p_stop_find()
dev[0].p2p_listen()
if "FAIL" in dev[1].global_request("P2P_CONNECT " + addr0 + " pbc go_intent=0"):
raise Exception("P2P_CONNECT failed(2)")
p2p = rx_go_neg_req(dev[0])
dev[0].p2p_stop_find()
dialog_token = p2p['dialog_token']
msg = p2p_hdr(addr1, addr0, type=P2P_GO_NEG_RESP, dialog_token=dialog_token)
attrs = p2p_attr_status()
attrs += p2p_attr_capability()
attrs += p2p_attr_go_intent(go_intent=15)
attrs += p2p_attr_config_timeout()
attrs += p2p_attr_intended_interface_addr(addr0)
attrs += struct.pack("<BH3BBB", P2P_ATTR_CHANNEL_LIST, 5,
0x58, 0x58, 0x04,
81, 0)
attrs += p2p_attr_device_info(addr0, config_methods=0x0108)
attrs += p2p_attr_operating_channel()
attrs += p2p_attr_group_id(addr0, "DIRECT-foo")
msg['payload'] += ie_p2p(attrs)
mgmt_tx(dev[0], "MGMT_TX {} {} freq={} wait_time=200 no_cck=1 action={}".format(addr1, addr1, p2p['freq'], binascii.hexlify(msg['payload'])))
check_p2p_go_neg_fail_event(dev[1], P2P_SC_FAIL_NO_COMMON_CHANNELS)
rx_go_neg_conf(dev[0], P2P_SC_FAIL_NO_COMMON_CHANNELS, dialog_token)