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hostap/wpa_supplicant/examples/dpp-nfc.py
Jouni Malinen ba3081f1dc dpp-nfc: Start listen operation more completely for NFC Tag write cases 
Share the same setup steps from the negotiated connection handover to
fix issues with NFC Tag write cases in AP mode. This addresses issues in
the AP mode DPP listen operation not actually receiving anything when
the write-a-tag code path was used.

Signed-off-by: Jouni Malinen <jouni@codeaurora.org>
2020-08-24 23:41:13 +03:00

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#!/usr/bin/python3
#
# Example nfcpy to wpa_supplicant wrapper for DPP NFC operations
# Copyright (c) 2012-2013, Jouni Malinen <j@w1.fi>
# Copyright (c) 2019-2020, The Linux Foundation
#
# This software may be distributed under the terms of the BSD license.
# See README for more details.
import binascii
import errno
import os
import struct
import sys
import time
import threading
import argparse
import nfc
import ndef
import logging
scriptsdir = os.path.dirname(os.path.realpath(sys.modules[__name__].__file__))
sys.path.append(os.path.join(scriptsdir, '..', '..', 'wpaspy'))
import wpaspy
wpas_ctrl = '/var/run/wpa_supplicant'
ifname = None
init_on_touch = False
in_raw_mode = False
prev_tcgetattr = 0
no_input = False
continue_loop = True
terminate_now = False
summary_file = None
success_file = None
netrole = None
operation_success = False
mutex = threading.Lock()
C_NORMAL = '\033[0m'
C_RED = '\033[91m'
C_GREEN = '\033[92m'
C_YELLOW = '\033[93m'
C_BLUE = '\033[94m'
C_MAGENTA = '\033[95m'
C_CYAN = '\033[96m'
def summary(txt, color=None):
with mutex:
if color:
print(color + txt + C_NORMAL)
else:
print(txt)
if summary_file:
with open(summary_file, 'a') as f:
f.write(txt + "\n")
def success_report(txt):
summary(txt)
if success_file:
with open(success_file, 'a') as f:
f.write(txt + "\n")
def wpas_connect():
ifaces = []
if os.path.isdir(wpas_ctrl):
try:
ifaces = [os.path.join(wpas_ctrl, i) for i in os.listdir(wpas_ctrl)]
except OSError as error:
summary("Could not find wpa_supplicant: %s", str(error))
return None
if len(ifaces) < 1:
summary("No wpa_supplicant control interface found")
return None
for ctrl in ifaces:
if ifname and ifname not in ctrl:
continue
if os.path.basename(ctrl).startswith("p2p-dev-"):
# skip P2P management interface
continue
try:
summary("Trying to use control interface " + ctrl)
wpas = wpaspy.Ctrl(ctrl)
return wpas
except Exception as e:
pass
summary("Could not connect to wpa_supplicant")
return None
def dpp_nfc_uri_process(uri):
wpas = wpas_connect()
if wpas is None:
return False
peer_id = wpas.request("DPP_NFC_URI " + uri)
if "FAIL" in peer_id:
summary("Could not parse DPP URI from NFC URI record", color=C_RED)
return False
peer_id = int(peer_id)
summary("peer_id=%d for URI from NFC Tag: %s" % (peer_id, uri))
cmd = "DPP_AUTH_INIT peer=%d" % peer_id
global enrollee_only, configurator_only, config_params
if enrollee_only:
cmd += " role=enrollee"
elif configurator_only:
cmd += " role=configurator"
if config_params:
cmd += " " + config_params
summary("Initiate DPP authentication: " + cmd)
res = wpas.request(cmd)
if "OK" not in res:
summary("Failed to initiate DPP Authentication", color=C_RED)
return False
summary("DPP Authentication initiated")
return True
def dpp_hs_tag_read(record):
wpas = wpas_connect()
if wpas is None:
return False
summary(record)
if len(record.data) < 5:
summary("Too short DPP HS", color=C_RED)
return False
if record.data[0] != 0:
summary("Unexpected URI Identifier Code", color=C_RED)
return False
uribuf = record.data[1:]
try:
uri = uribuf.decode()
except:
summary("Invalid URI payload", color=C_RED)
return False
summary("URI: " + uri)
if not uri.startswith("DPP:"):
summary("Not a DPP URI", color=C_RED)
return False
return dpp_nfc_uri_process(uri)
def get_status(wpas, extra=None):
if extra:
extra = "-" + extra
else:
extra = ""
res = wpas.request("STATUS" + extra)
lines = res.splitlines()
vals = dict()
for l in lines:
try:
[name, value] = l.split('=', 1)
except ValueError:
summary("Ignore unexpected status line: %s" % l)
continue
vals[name] = value
return vals
def get_status_field(wpas, field, extra=None):
vals = get_status(wpas, extra)
if field in vals:
return vals[field]
return None
def own_addr(wpas):
addr = get_status_field(wpas, "address")
if addr is None:
addr = get_status_field(wpas, "bssid[0]")
return addr
def dpp_bootstrap_gen(wpas, type="qrcode", chan=None, mac=None, info=None,
curve=None, key=None):
cmd = "DPP_BOOTSTRAP_GEN type=" + type
if chan:
cmd += " chan=" + chan
if mac:
if mac is True:
mac = own_addr(wpas)
if mac is None:
summary("Could not determine local MAC address for bootstrap info")
else:
cmd += " mac=" + mac.replace(':', '')
if info:
cmd += " info=" + info
if curve:
cmd += " curve=" + curve
if key:
cmd += " key=" + key
res = wpas.request(cmd)
if "FAIL" in res:
raise Exception("Failed to generate bootstrapping info")
return int(res)
def dpp_start_listen(wpas, freq):
if get_status_field(wpas, "bssid[0]"):
summary("Own AP freq: %s MHz" % str(get_status_field(wpas, "freq")))
if get_status_field(wpas, "beacon_set", extra="DRIVER") is None:
summary("Enable beaconing to have radio ready for RX")
wpas.request("DISABLE")
wpas.request("SET start_disabled 0")
wpas.request("ENABLE")
cmd = "DPP_LISTEN %d" % freq
global enrollee_only
global configurator_only
if enrollee_only:
cmd += " role=enrollee"
elif configurator_only:
cmd += " role=configurator"
global netrole
if netrole:
cmd += " netrole=" + netrole
summary(cmd)
res = wpas.request(cmd)
if "OK" not in res:
summary("Failed to start DPP listen", color=C_RED)
return False
return True
def wpas_get_nfc_uri(start_listen=True, pick_channel=False, chan_override=None):
listen_freq = 2412
wpas = wpas_connect()
if wpas is None:
return None
global own_id, chanlist
if chan_override:
chan = chan_override
else:
chan = chanlist
if chan and chan.startswith("81/"):
listen_freq = int(chan[3:].split(',')[0]) * 5 + 2407
if chan is None and get_status_field(wpas, "bssid[0]"):
freq = get_status_field(wpas, "freq")
if freq:
freq = int(freq)
if freq >= 2412 and freq <= 2462:
chan = "81/%d" % ((freq - 2407) / 5)
summary("Use current AP operating channel (%d MHz) as the URI channel list (%s)" % (freq, chan))
listen_freq = freq
if chan is None and pick_channel:
chan = "81/6"
summary("Use channel 2437 MHz since no other preference provided")
listen_freq = 2437
own_id = dpp_bootstrap_gen(wpas, type="nfc-uri", chan=chan, mac=True)
res = wpas.request("DPP_BOOTSTRAP_GET_URI %d" % own_id).rstrip()
if "FAIL" in res:
return None
if start_listen:
if not dpp_start_listen(wpas, listen_freq):
raise Exception("Failed to start listen operation on %d MHz" % listen_freq)
return res
def wpas_report_handover_req(uri):
wpas = wpas_connect()
if wpas is None:
return None
global own_id
cmd = "DPP_NFC_HANDOVER_REQ own=%d uri=%s" % (own_id, uri)
return wpas.request(cmd)
def wpas_report_handover_sel(uri):
wpas = wpas_connect()
if wpas is None:
return None
global own_id
cmd = "DPP_NFC_HANDOVER_SEL own=%d uri=%s" % (own_id, uri)
return wpas.request(cmd)
def dpp_handover_client(handover, alt=False):
summary("About to start run_dpp_handover_client (alt=%s)" % str(alt))
if alt:
handover.i_m_selector = False
run_dpp_handover_client(handover, alt)
summary("Done run_dpp_handover_client (alt=%s)" % str(alt))
def run_client_alt(handover, alt):
if handover.start_client_alt and not alt:
handover.start_client_alt = False
summary("Try to send alternative handover request")
dpp_handover_client(handover, alt=True)
class HandoverClient(nfc.handover.HandoverClient):
def __init__(self, handover, llc):
super(HandoverClient, self).__init__(llc)
self.handover = handover
def recv_records(self, timeout=None):
msg = self.recv_octets(timeout)
if msg is None:
return None
records = list(ndef.message_decoder(msg, 'relax'))
if records and records[0].type == 'urn:nfc:wkt:Hs':
summary("Handover client received message '{0}'".format(records[0].type))
return list(ndef.message_decoder(msg, 'relax'))
summary("Handover client received invalid message: %s" + binascii.hexlify(msg))
return None
def recv_octets(self, timeout=None):
start = time.time()
msg = bytearray()
while True:
poll_timeout = 0.1 if timeout is None or timeout > 0.1 else timeout
if not self.socket.poll('recv', poll_timeout):
if timeout:
timeout -= time.time() - start
if timeout <= 0:
return None
start = time.time()
continue
try:
r = self.socket.recv()
if r is None:
return None
msg += r
except TypeError:
return b''
try:
list(ndef.message_decoder(msg, 'strict', {}))
return bytes(msg)
except ndef.DecodeError:
if timeout:
timeout -= time.time() - start
if timeout <= 0:
return None
start = time.time()
continue
return None
def run_dpp_handover_client(handover, alt=False):
chan_override = None
if alt:
chan_override = handover.altchanlist
handover.alt_proposal_used = True
global test_uri, test_alt_uri
if test_uri:
summary("TEST MODE: Using specified URI (alt=%s)" % str(alt))
uri = test_alt_uri if alt else test_uri
else:
uri = wpas_get_nfc_uri(start_listen=False, chan_override=chan_override)
if uri is None:
summary("Cannot start handover client - no bootstrap URI available",
color=C_RED)
return
handover.my_uri = uri
uri = ndef.UriRecord(uri)
summary("NFC URI record for DPP: " + str(uri))
carrier = ndef.Record('application/vnd.wfa.dpp', 'A', uri.data)
global test_crn
if test_crn:
prev, = struct.unpack('>H', test_crn)
summary("TEST MODE: Use specified crn %d" % prev)
crn = test_crn
test_crn = struct.pack('>H', prev + 0x10)
else:
crn = os.urandom(2)
hr = ndef.HandoverRequestRecord(version="1.4", crn=crn)
hr.add_alternative_carrier('active', carrier.name)
message = [hr, carrier]
summary("NFC Handover Request message for DPP: " + str(message))
if handover.peer_crn is not None and not alt:
summary("NFC handover request from peer was already received - do not send own")
return
if handover.client:
summary("Use already started handover client")
client = handover.client
else:
summary("Start handover client")
client = HandoverClient(handover, handover.llc)
try:
summary("Trying to initiate NFC connection handover")
client.connect()
summary("Connected for handover")
except nfc.llcp.ConnectRefused:
summary("Handover connection refused")
client.close()
return
except Exception as e:
summary("Other exception: " + str(e))
client.close()
return
handover.client = client
if handover.peer_crn is not None and not alt:
summary("NFC handover request from peer was already received - do not send own")
return
summary("Sending handover request")
handover.my_crn_ready = True
if not client.send_records(message):
handover.my_crn_ready = False
summary("Failed to send handover request", color=C_RED)
run_client_alt(handover, alt)
return
handover.my_crn, = struct.unpack('>H', crn)
summary("Receiving handover response")
try:
start = time.time()
message = client.recv_records(timeout=3.0)
end = time.time()
summary("Received {} record(s) in {} seconds".format(len(message) if message is not None else -1, end - start))
except Exception as e:
# This is fine if we are the handover selector
if handover.hs_sent:
summary("Client receive failed as expected since I'm the handover server: %s" % str(e))
elif handover.alt_proposal_used and not alt:
summary("Client received failed for initial proposal as expected since alternative proposal was also used: %s" % str(e))
else:
summary("Client receive failed: %s" % str(e), color=C_RED)
message = None
if message is None:
if handover.hs_sent:
summary("No response received as expected since I'm the handover server")
elif handover.alt_proposal_used and not alt:
summary("No response received for initial proposal as expected since alternative proposal was also used")
elif handover.try_own and not alt:
summary("No response received for initial proposal as expected since alternative proposal will also be sent")
else:
summary("No response received", color=C_RED)
run_client_alt(handover, alt)
return
summary("Received message: " + str(message))
if len(message) < 1 or \
not isinstance(message[0], ndef.HandoverSelectRecord):
summary("Response was not Hs - received: " + message.type)
return
summary("Received handover select message")
summary("alternative carriers: " + str(message[0].alternative_carriers))
if handover.i_m_selector:
summary("Ignore the received select since I'm the handover selector")
run_client_alt(handover, alt)
return
if handover.alt_proposal_used and not alt:
summary("Ignore received handover select for the initial proposal since alternative proposal was sent")
client.close()
return
dpp_found = False
for carrier in message:
if isinstance(carrier, ndef.HandoverSelectRecord):
continue
summary("Remote carrier type: " + carrier.type)
if carrier.type == "application/vnd.wfa.dpp":
if len(carrier.data) == 0 or carrier.data[0] != 0:
summary("URI Identifier Code 'None' not seen", color=C_RED)
continue
summary("DPP carrier type match - send to wpa_supplicant")
dpp_found = True
uri = carrier.data[1:].decode("utf-8")
summary("DPP URI: " + uri)
handover.peer_uri = uri
if test_uri:
summary("TEST MODE: Fake processing")
break
res = wpas_report_handover_sel(uri)
if res is None or "FAIL" in res:
summary("DPP handover report rejected", color=C_RED)
break
success_report("DPP handover reported successfully (initiator)")
summary("peer_id=" + res)
peer_id = int(res)
wpas = wpas_connect()
if wpas is None:
break
global enrollee_only
global config_params
if enrollee_only:
extra = " role=enrollee"
elif config_params:
extra = " role=configurator " + config_params
else:
# TODO: Single Configurator instance
res = wpas.request("DPP_CONFIGURATOR_ADD")
if "FAIL" in res:
summary("Failed to initiate Configurator", color=C_RED)
break
conf_id = int(res)
extra = " conf=sta-dpp configurator=%d" % conf_id
global own_id
summary("Initiate DPP authentication")
cmd = "DPP_AUTH_INIT peer=%d own=%d" % (peer_id, own_id)
cmd += extra
res = wpas.request(cmd)
if "FAIL" in res:
summary("Failed to initiate DPP authentication", color=C_RED)
break
if not dpp_found and handover.no_alt_proposal:
summary("DPP carrier not seen in response - do not allow alternative proposal anymore")
elif not dpp_found:
summary("DPP carrier not seen in response - allow peer to initiate a new handover with different parameters")
handover.alt_proposal = True
handover.my_crn_ready = False
handover.my_crn = None
handover.peer_crn = None
handover.hs_sent = False
summary("Returning from dpp_handover_client")
return
summary("Remove peer")
handover.close()
summary("Done with handover")
global only_one
if only_one:
print("only_one -> stop loop")
global continue_loop
continue_loop = False
global no_wait
if no_wait or only_one:
summary("Trying to exit..")
global terminate_now
terminate_now = True
summary("Returning from dpp_handover_client")
class HandoverServer(nfc.handover.HandoverServer):
def __init__(self, handover, llc):
super(HandoverServer, self).__init__(llc)
self.sent_carrier = None
self.ho_server_processing = False
self.success = False
self.llc = llc
self.handover = handover
def serve(self, socket):
peer_sap = socket.getpeername()
summary("Serving handover client on remote sap {0}".format(peer_sap))
send_miu = socket.getsockopt(nfc.llcp.SO_SNDMIU)
try:
while socket.poll("recv"):
req = bytearray()
while socket.poll("recv"):
r = socket.recv()
if r is None:
return None
summary("Received %d octets" % len(r))
req += r
if len(req) == 0:
continue
try:
list(ndef.message_decoder(req, 'strict', {}))
except ndef.DecodeError:
continue
summary("Full message received")
resp = self._process_request_data(req)
if resp is None or len(resp) == 0:
summary("No handover select to send out - wait for a possible alternative handover request")
handover.alt_proposal = True
req = bytearray()
continue
for offset in range(0, len(resp), send_miu):
if not socket.send(resp[offset:offset + send_miu]):
summary("Failed to send handover select - connection closed")
return
summary("Sent out full handover select")
if handover.terminate_on_hs_send_completion:
handover.delayed_exit()
except nfc.llcp.Error as e:
global terminate_now
summary("HandoverServer exception: %s" % e,
color=None if e.errno == errno.EPIPE or terminate_now else C_RED)
finally:
socket.close()
summary("Handover serve thread exiting")
def process_handover_request_message(self, records):
handover = self.handover
self.ho_server_processing = True
global in_raw_mode
was_in_raw_mode = in_raw_mode
clear_raw_mode()
if was_in_raw_mode:
print("\n")
summary("HandoverServer - request received: " + str(records))
for carrier in records:
if not isinstance(carrier, ndef.HandoverRequestRecord):
continue
if carrier.collision_resolution_number:
handover.peer_crn = carrier.collision_resolution_number
summary("peer_crn: %d" % handover.peer_crn)
if handover.my_crn is None and handover.my_crn_ready:
summary("Still trying to send own handover request - wait a moment to see if that succeeds before checking crn values")
for i in range(10):
if handover.my_crn is not None:
break
time.sleep(0.01)
if handover.my_crn is not None:
summary("my_crn: %d" % handover.my_crn)
if handover.my_crn is not None and handover.peer_crn is not None:
if handover.my_crn == handover.peer_crn:
summary("Same crn used - automatic collision resolution failed")
# TODO: Should generate a new Handover Request message
return ''
if ((handover.my_crn & 1) == (handover.peer_crn & 1) and \
handover.my_crn > handover.peer_crn) or \
((handover.my_crn & 1) != (handover.peer_crn & 1) and \
handover.my_crn < handover.peer_crn):
summary("I'm the Handover Selector Device")
handover.i_m_selector = True
else:
summary("Peer is the Handover Selector device")
summary("Ignore the received request.")
return ''
hs = ndef.HandoverSelectRecord('1.4')
sel = [hs]
found = False
for carrier in records:
if isinstance(carrier, ndef.HandoverRequestRecord):
continue
summary("Remote carrier type: " + carrier.type)
if carrier.type == "application/vnd.wfa.dpp":
summary("DPP carrier type match - add DPP carrier record")
if len(carrier.data) == 0 or carrier.data[0] != 0:
summary("URI Identifier Code 'None' not seen", color=C_RED)
continue
uri = carrier.data[1:].decode("utf-8")
summary("Received DPP URI: " + uri)
global test_uri, test_alt_uri
if test_uri:
summary("TEST MODE: Using specified URI")
data = test_sel_uri if test_sel_uri else test_uri
elif handover.alt_proposal and handover.altchanlist:
summary("Use alternative channel list while processing alternative proposal from peer")
data = wpas_get_nfc_uri(start_listen=False,
chan_override=handover.altchanlist,
pick_channel=True)
else:
data = wpas_get_nfc_uri(start_listen=False,
pick_channel=True)
summary("Own URI (pre-processing): %s" % data)
if test_uri:
summary("TEST MODE: Fake processing")
res = "OK"
data += " [%s]" % uri
else:
res = wpas_report_handover_req(uri)
if res is None or "FAIL" in res:
summary("DPP handover request processing failed",
color=C_RED)
if handover.altchanlist:
data = wpas_get_nfc_uri(start_listen=False,
chan_override=handover.altchanlist)
summary("Own URI (try another channel list): %s" % data)
continue
if test_alt_uri:
summary("TEST MODE: Reject initial proposal")
continue
found = True
if not test_uri:
wpas = wpas_connect()
if wpas is None:
continue
global own_id
data = wpas.request("DPP_BOOTSTRAP_GET_URI %d" % own_id).rstrip()
if "FAIL" in data:
continue
summary("Own URI (post-processing): %s" % data)
handover.my_uri = data
handover.peer_uri = uri
uri = ndef.UriRecord(data)
summary("Own bootstrapping NFC URI record: " + str(uri))
if not test_uri:
info = wpas.request("DPP_BOOTSTRAP_INFO %d" % own_id)
freq = None
for line in info.splitlines():
if line.startswith("use_freq="):
freq = int(line.split('=')[1])
if freq is None or freq == 0:
summary("No channel negotiated over NFC - use channel 6")
freq = 2437
else:
summary("Negotiated channel: %d MHz" % freq)
if not dpp_start_listen(wpas, freq):
break
carrier = ndef.Record('application/vnd.wfa.dpp', 'A', uri.data)
summary("Own DPP carrier record: " + str(carrier))
hs.add_alternative_carrier('active', carrier.name)
sel = [hs, carrier]
break
summary("Sending handover select: " + str(sel))
if found:
summary("Handover completed successfully")
handover.terminate_on_hs_send_completion = True
self.success = True
handover.hs_sent = True
handover.i_m_selector = True
elif handover.no_alt_proposal:
summary("Do not try alternative proposal anymore - handover failed",
color=C_RED)
handover.hs_sent = True
else:
summary("Try to initiate with alternative parameters")
handover.try_own = True
handover.hs_sent = False
handover.no_alt_proposal = True
if handover.client_thread:
handover.start_client_alt = True
else:
handover.client_thread = threading.Thread(target=llcp_worker,
args=(self.llc, True))
handover.client_thread.start()
return sel
def clear_raw_mode():
import sys, tty, termios
global prev_tcgetattr, in_raw_mode
if not in_raw_mode:
return
fd = sys.stdin.fileno()
termios.tcsetattr(fd, termios.TCSADRAIN, prev_tcgetattr)
in_raw_mode = False
def getch():
import sys, tty, termios, select
global prev_tcgetattr, in_raw_mode
fd = sys.stdin.fileno()
prev_tcgetattr = termios.tcgetattr(fd)
ch = None
try:
tty.setraw(fd)
in_raw_mode = True
[i, o, e] = select.select([fd], [], [], 0.05)
if i:
ch = sys.stdin.read(1)
finally:
termios.tcsetattr(fd, termios.TCSADRAIN, prev_tcgetattr)
in_raw_mode = False
return ch
def dpp_tag_read(tag):
success = False
for record in tag.ndef.records:
summary(record)
summary("record type " + record.type)
if record.type == "application/vnd.wfa.dpp":
summary("DPP HS tag - send to wpa_supplicant")
success = dpp_hs_tag_read(record)
break
if isinstance(record, ndef.UriRecord):
summary("URI record: uri=" + record.uri)
summary("URI record: iri=" + record.iri)
if record.iri.startswith("DPP:"):
summary("DPP URI")
if not dpp_nfc_uri_process(record.iri):
break
success = True
else:
summary("Ignore unknown URI")
break
if success:
success_report("Tag read succeeded")
return success
def rdwr_connected_write_tag(tag):
summary("Tag found - writing - " + str(tag))
if not tag.ndef:
summary("Not a formatted NDEF tag", color=C_RED)
return
if not tag.ndef.is_writeable:
summary("Not a writable tag", color=C_RED)
return
global dpp_tag_data
if tag.ndef.capacity < len(dpp_tag_data):
summary("Not enough room for the message")
return
try:
tag.ndef.records = dpp_tag_data
except ValueError as e:
summary("Writing the tag failed: %s" % str(e), color=C_RED)
return
success_report("Tag write succeeded")
summary("Tag writing completed - remove tag", color=C_GREEN)
global only_one, operation_success
operation_success = True
if only_one:
global continue_loop
continue_loop = False
global dpp_sel_wait_remove
return dpp_sel_wait_remove
def write_nfc_uri(clf, wait_remove=True):
summary("Write NFC URI record")
data = wpas_get_nfc_uri()
if data is None:
summary("Could not get NFC URI from wpa_supplicant", color=C_RED)
return
global dpp_sel_wait_remove
dpp_sel_wait_remove = wait_remove
summary("URI: %s" % data)
uri = ndef.UriRecord(data)
summary(uri)
summary("Touch an NFC tag to write URI record", color=C_CYAN)
global dpp_tag_data
dpp_tag_data = [uri]
clf.connect(rdwr={'on-connect': rdwr_connected_write_tag})
def write_nfc_hs(clf, wait_remove=True):
summary("Write NFC Handover Select record on a tag")
data = wpas_get_nfc_uri()
if data is None:
summary("Could not get NFC URI from wpa_supplicant", color=C_RED)
return
global dpp_sel_wait_remove
dpp_sel_wait_remove = wait_remove
summary("URI: %s" % data)
uri = ndef.UriRecord(data)
summary(uri)
carrier = ndef.Record('application/vnd.wfa.dpp', 'A', uri.data)
hs = ndef.HandoverSelectRecord('1.4')
hs.add_alternative_carrier('active', carrier.name)
summary(hs)
summary(carrier)
summary("Touch an NFC tag to write HS record", color=C_CYAN)
global dpp_tag_data
dpp_tag_data = [hs, carrier]
summary(dpp_tag_data)
clf.connect(rdwr={'on-connect': rdwr_connected_write_tag})
def rdwr_connected(tag):
global only_one, no_wait
summary("Tag connected: " + str(tag))
if tag.ndef:
summary("NDEF tag: " + tag.type)
summary(tag.ndef.records)
success = dpp_tag_read(tag)
if only_one and success:
global continue_loop
continue_loop = False
else:
summary("Not an NDEF tag - remove tag", color=C_RED)
return True
return not no_wait
def llcp_worker(llc, try_alt):
global handover
print("Start of llcp_worker()")
if try_alt:
summary("Starting handover client (try_alt)")
dpp_handover_client(handover, alt=True)
summary("Exiting llcp_worker thread (try_alt)")
return
global init_on_touch
if init_on_touch:
summary("Starting handover client (init_on_touch)")
dpp_handover_client(handover)
summary("Exiting llcp_worker thread (init_on_touch)")
return
global no_input
if no_input:
summary("Wait for handover to complete")
else:
print("Wait for handover to complete - press 'i' to initiate")
while not handover.wait_connection and handover.srv.sent_carrier is None:
if handover.try_own:
handover.try_own = False
summary("Try to initiate another handover with own parameters")
handover.my_crn_ready = False
handover.my_crn = None
handover.peer_crn = None
handover.hs_sent = False
dpp_handover_client(handover, alt=True)
summary("Exiting llcp_worker thread (retry with own parameters)")
return
if handover.srv.ho_server_processing:
time.sleep(0.025)
elif no_input:
time.sleep(0.5)
else:
res = getch()
if res != 'i':
continue
clear_raw_mode()
summary("Starting handover client")
dpp_handover_client(handover)
summary("Exiting llcp_worker thread (manual init)")
return
global in_raw_mode
was_in_raw_mode = in_raw_mode
clear_raw_mode()
if was_in_raw_mode:
print("\r")
summary("Exiting llcp_worker thread")
class ConnectionHandover():
def __init__(self):
self.client = None
self.client_thread = None
self.reset()
self.exit_thread = None
def reset(self):
self.wait_connection = False
self.my_crn_ready = False
self.my_crn = None
self.peer_crn = None
self.hs_sent = False
self.no_alt_proposal = False
self.alt_proposal_used = False
self.i_m_selector = False
self.start_client_alt = False
self.terminate_on_hs_send_completion = False
self.try_own = False
self.my_uri = None
self.peer_uri = None
self.connected = False
self.alt_proposal = False
def start_handover_server(self, llc):
summary("Start handover server")
self.llc = llc
self.srv = HandoverServer(self, llc)
def close(self):
if self.client:
self.client.close()
self.client = None
def run_delayed_exit(self):
summary("Trying to exit (delayed)..")
time.sleep(0.25)
summary("Trying to exit (after wait)..")
global terminate_now
terminate_now = True
def delayed_exit(self):
global only_one
if only_one:
self.exit_thread = threading.Thread(target=self.run_delayed_exit)
self.exit_thread.start()
def llcp_startup(llc):
global handover
handover.start_handover_server(llc)
return llc
def llcp_connected(llc):
summary("P2P LLCP connected")
global handover
handover.connected = True
handover.srv.start()
if init_on_touch or not no_input:
handover.client_thread = threading.Thread(target=llcp_worker,
args=(llc, False))
handover.client_thread.start()
return True
def llcp_release(llc):
summary("LLCP release")
global handover
handover.close()
return True
def terminate_loop():
global terminate_now
return terminate_now
def main():
clf = nfc.ContactlessFrontend()
parser = argparse.ArgumentParser(description='nfcpy to wpa_supplicant integration for DPP NFC operations')
parser.add_argument('-d', const=logging.DEBUG, default=logging.INFO,
action='store_const', dest='loglevel',
help='verbose debug output')
parser.add_argument('-q', const=logging.WARNING, action='store_const',
dest='loglevel', help='be quiet')
parser.add_argument('--only-one', '-1', action='store_true',
help='run only one operation and exit')
parser.add_argument('--init-on-touch', '-I', action='store_true',
help='initiate handover on touch')
parser.add_argument('--no-wait', action='store_true',
help='do not wait for tag to be removed before exiting')
parser.add_argument('--ifname', '-i',
help='network interface name')
parser.add_argument('--no-input', '-a', action='store_true',
help='do not use stdout input to initiate handover')
parser.add_argument('--tag-read-only', '-t', action='store_true',
help='tag read only (do not allow connection handover)')
parser.add_argument('--handover-only', action='store_true',
help='connection handover only (do not allow tag read)')
parser.add_argument('--enrollee', action='store_true',
help='run as Enrollee-only')
parser.add_argument('--configurator', action='store_true',
help='run as Configurator-only')
parser.add_argument('--config-params', default='',
help='configurator parameters')
parser.add_argument('--ctrl', default='/var/run/wpa_supplicant',
help='wpa_supplicant/hostapd control interface')
parser.add_argument('--summary',
help='summary file for writing status updates')
parser.add_argument('--success',
help='success file for writing success update')
parser.add_argument('--device', default='usb', help='NFC device to open')
parser.add_argument('--chan', default=None, help='channel list')
parser.add_argument('--altchan', default=None, help='alternative channel list')
parser.add_argument('--netrole', default=None, help='netrole for Enrollee')
parser.add_argument('--test-uri', default=None,
help='test mode: initial URI')
parser.add_argument('--test-alt-uri', default=None,
help='test mode: alternative URI')
parser.add_argument('--test-sel-uri', default=None,
help='test mode: handover select URI')
parser.add_argument('--test-crn', default=None,
help='test mode: hardcoded crn')
parser.add_argument('command', choices=['write-nfc-uri',
'write-nfc-hs'],
nargs='?')
args = parser.parse_args()
summary(args)
global handover
handover = ConnectionHandover()
global only_one
only_one = args.only_one
global no_wait
no_wait = args.no_wait
global chanlist, netrole, test_uri, test_alt_uri, test_sel_uri
global test_crn
chanlist = args.chan
handover.altchanlist = args.altchan
netrole = args.netrole
test_uri = args.test_uri
test_alt_uri = args.test_alt_uri
test_sel_uri = args.test_sel_uri
if args.test_crn:
test_crn = struct.pack('>H', int(args.test_crn))
else:
test_crn = None
logging.basicConfig(level=args.loglevel)
for l in ['nfc.clf.rcs380',
'nfc.clf.transport',
'nfc.clf.device',
'nfc.clf.__init__',
'nfc.llcp',
'nfc.handover']:
log = logging.getLogger(l)
log.setLevel(args.loglevel)
global init_on_touch
init_on_touch = args.init_on_touch
global enrollee_only
enrollee_only = args.enrollee
global configurator_only
configurator_only = args.configurator
global config_params
config_params = args.config_params
if args.ifname:
global ifname
ifname = args.ifname
summary("Selected ifname " + ifname)
if args.ctrl:
global wpas_ctrl
wpas_ctrl = args.ctrl
if args.summary:
global summary_file
summary_file = args.summary
if args.success:
global success_file
success_file = args.success
if args.no_input:
global no_input
no_input = True
clf = nfc.ContactlessFrontend()
try:
if not clf.open(args.device):
summary("Could not open connection with an NFC device", color=C_RED)
raise SystemExit(1)
if args.command == "write-nfc-uri":
write_nfc_uri(clf, wait_remove=not args.no_wait)
if not operation_success:
raise SystemExit(1)
raise SystemExit
if args.command == "write-nfc-hs":
write_nfc_hs(clf, wait_remove=not args.no_wait)
if not operation_success:
raise SystemExit(1)
raise SystemExit
global continue_loop
while continue_loop:
global in_raw_mode
was_in_raw_mode = in_raw_mode
clear_raw_mode()
if was_in_raw_mode:
print("\r")
if args.handover_only:
summary("Waiting a peer to be touched", color=C_MAGENTA)
elif args.tag_read_only:
summary("Waiting for a tag to be touched", color=C_BLUE)
else:
summary("Waiting for a tag or peer to be touched",
color=C_GREEN)
handover.wait_connection = True
try:
if args.tag_read_only:
if not clf.connect(rdwr={'on-connect': rdwr_connected}):
break
elif args.handover_only:
if not clf.connect(llcp={'on-startup': llcp_startup,
'on-connect': llcp_connected,
'on-release': llcp_release},
terminate=terminate_loop):
break
else:
if not clf.connect(rdwr={'on-connect': rdwr_connected},
llcp={'on-startup': llcp_startup,
'on-connect': llcp_connected,
'on-release': llcp_release},
terminate=terminate_loop):
break
except Exception as e:
summary("clf.connect failed: " + str(e))
break
if only_one and handover.connected:
role = "selector" if handover.i_m_selector else "requestor"
summary("Connection handover result: I'm the %s" % role,
color=C_YELLOW)
if handover.peer_uri:
summary("Peer URI: " + handover.peer_uri, color=C_YELLOW)
if handover.my_uri:
summary("My URI: " + handover.my_uri, color=C_YELLOW)
if not (handover.peer_uri and handover.my_uri):
summary("Negotiated connection handover failed",
color=C_YELLOW)
break
except KeyboardInterrupt:
raise SystemExit
finally:
clf.close()
raise SystemExit
if __name__ == '__main__':
main()
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