#!/usr/bin/python # # Example nfcpy to wpa_supplicant wrapper for WPS NFC operations # Copyright (c) 2012-2013, Jouni Malinen # # This software may be distributed under the terms of the BSD license. # See README for more details. import os import sys import time import random import threading import argparse import nfc import nfc.ndef import nfc.llcp import nfc.handover import logging import wpaspy wpas_ctrl = '/var/run/wpa_supplicant' srv = None continue_loop = True terminate_now = False 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, error: print "Could not find wpa_supplicant: ", error return None if len(ifaces) < 1: print "No wpa_supplicant control interface found" return None for ctrl in ifaces: try: wpas = wpaspy.Ctrl(ctrl) return wpas except Exception, e: pass return None def wpas_tag_read(message): wpas = wpas_connect() if (wpas == None): return False if "FAIL" in wpas.request("WPS_NFC_TAG_READ " + str(message).encode("hex")): return False return True def wpas_get_config_token(id=None): wpas = wpas_connect() if (wpas == None): return None if id: ret = wpas.request("WPS_NFC_CONFIG_TOKEN NDEF " + id) else: ret = wpas.request("WPS_NFC_CONFIG_TOKEN NDEF") if "FAIL" in ret: return None return ret.rstrip().decode("hex") def wpas_get_er_config_token(uuid): wpas = wpas_connect() if (wpas == None): return None ret = wpas.request("WPS_ER_NFC_CONFIG_TOKEN NDEF " + uuid) if "FAIL" in ret: return None return ret.rstrip().decode("hex") def wpas_get_password_token(): wpas = wpas_connect() if (wpas == None): return None return wpas.request("WPS_NFC_TOKEN NDEF").rstrip().decode("hex") def wpas_get_handover_req(): wpas = wpas_connect() if (wpas == None): return None return wpas.request("NFC_GET_HANDOVER_REQ NDEF WPS-CR").rstrip().decode("hex") def wpas_get_handover_sel(uuid): wpas = wpas_connect() if (wpas == None): return None if uuid is None: res = wpas.request("NFC_GET_HANDOVER_SEL NDEF WPS-CR").rstrip() else: res = wpas.request("NFC_GET_HANDOVER_SEL NDEF WPS-CR " + uuid).rstrip() if "FAIL" in res: return None return res.decode("hex") def wpas_report_handover(req, sel, type): wpas = wpas_connect() if (wpas == None): return None return wpas.request("NFC_REPORT_HANDOVER " + type + " WPS " + str(req).encode("hex") + " " + str(sel).encode("hex")) class HandoverServer(nfc.handover.HandoverServer): def __init__(self, llc): super(HandoverServer, self).__init__(llc) self.sent_carrier = None self.ho_server_processing = False self.success = False def process_request(self, request): self.ho_server_processing = True print "HandoverServer - request received" try: print "Parsed handover request: " + request.pretty() except Exception, e: print e sel = nfc.ndef.HandoverSelectMessage(version="1.2") for carrier in request.carriers: print "Remote carrier type: " + carrier.type if carrier.type == "application/vnd.wfa.wsc": print "WPS carrier type match - add WPS carrier record" data = wpas_get_handover_sel(self.uuid) if data is None: print "Could not get handover select carrier record from wpa_supplicant" continue print "Handover select carrier record from wpa_supplicant:" print data.encode("hex") self.sent_carrier = data wpas_report_handover(carrier.record, self.sent_carrier, "RESP") message = nfc.ndef.Message(data); sel.add_carrier(message[0], "active", message[1:]) print "Handover select:" try: print sel.pretty() except Exception, e: print e print str(sel).encode("hex") print "Sending handover select" self.success = True return sel def wps_handover_init(llc): print "Trying to initiate WPS handover" data = wpas_get_handover_req() if (data == None): print "Could not get handover request carrier record from wpa_supplicant" return print "Handover request carrier record from wpa_supplicant: " + data.encode("hex") message = nfc.ndef.HandoverRequestMessage(version="1.2") message.nonce = random.randint(0, 0xffff) datamsg = nfc.ndef.Message(data) message.add_carrier(datamsg[0], "active", datamsg[1:]) print "Handover request:" try: print message.pretty() except Exception, e: print e print str(message).encode("hex") client = nfc.handover.HandoverClient(llc) try: print "Trying handover"; client.connect() print "Connected for handover" except nfc.llcp.ConnectRefused: print "Handover connection refused" client.close() return print "Sending handover request" if not client.send(message): print "Failed to send handover request" print "Receiving handover response" message = client._recv() if message is None: print "No response received" client.close() return if message.type != "urn:nfc:wkt:Hs": print "Response was not Hs - received: " + message.type client.close() return print "Received message" try: print message.pretty() except Exception, e: print e print str(message).encode("hex") message = nfc.ndef.HandoverSelectMessage(message) print "Handover select received" try: print message.pretty() except Exception, e: print e for carrier in message.carriers: print "Remote carrier type: " + carrier.type if carrier.type == "application/vnd.wfa.wsc": print "WPS carrier type match - send to wpa_supplicant" wpas_report_handover(data, carrier.record, "INIT") # nfcpy does not support the new format.. #wifi = nfc.ndef.WifiConfigRecord(carrier.record) #print wifi.pretty() print "Remove peer" client.close() print "Done with handover" global only_one if only_one: global continue_loop continue_loop = False global no_wait if no_wait: print "Trying to exit.." global terminate_now terminate_now = True def wps_tag_read(tag, wait_remove=True): success = False if len(tag.ndef.message): for record in tag.ndef.message: print "record type " + record.type if record.type == "application/vnd.wfa.wsc": print "WPS tag - send to wpa_supplicant" success = wpas_tag_read(tag.ndef.message) break else: print "Empty tag" if wait_remove: print "Remove tag" while tag.is_present: time.sleep(0.1) return success def rdwr_connected_write(tag): print "Tag found - writing" global write_data tag.ndef.message = str(write_data) print "Done - remove tag" global only_one if only_one: global continue_loop continue_loop = False global write_wait_remove while write_wait_remove and tag.is_present: time.sleep(0.1) def wps_write_config_tag(clf, id=None, wait_remove=True): print "Write WPS config token" global write_data, write_wait_remove write_wait_remove = wait_remove write_data = wpas_get_config_token(id) if write_data == None: print "Could not get WPS config token from wpa_supplicant" sys.exit(1) return print "Touch an NFC tag" clf.connect(rdwr={'on-connect': rdwr_connected_write}) def wps_write_er_config_tag(clf, uuid, wait_remove=True): print "Write WPS ER config token" global write_data, write_wait_remove write_wait_remove = wait_remove write_data = wpas_get_er_config_token(uuid) if write_data == None: print "Could not get WPS config token from wpa_supplicant" return print "Touch an NFC tag" clf.connect(rdwr={'on-connect': rdwr_connected_write}) def wps_write_password_tag(clf, wait_remove=True): print "Write WPS password token" global write_data, write_wait_remove write_wait_remove = wait_remove write_data = wpas_get_password_token() if write_data == None: print "Could not get WPS password token from wpa_supplicant" return print "Touch an NFC tag" clf.connect(rdwr={'on-connect': rdwr_connected_write}) def rdwr_connected(tag): global only_one, no_wait print "Tag connected: " + str(tag) if tag.ndef: print "NDEF tag: " + tag.type try: print tag.ndef.message.pretty() except Exception, e: print e success = wps_tag_read(tag, not only_one) if only_one and success: global continue_loop continue_loop = False else: print "Not an NDEF tag - remove tag" return not no_wait def llcp_worker(llc): global arg_uuid if arg_uuid is None: wps_handover_init(llc) print "Exiting llcp_worker thread" return global srv global wait_connection while not wait_connection and srv.sent_carrier is None: if srv.ho_server_processing: time.sleep(0.025) def llcp_startup(clf, llc): global arg_uuid if arg_uuid: print "Start LLCP server" global srv srv = HandoverServer(llc) if arg_uuid is "ap": print "Trying to handle WPS handover" srv.uuid = None else: print "Trying to handle WPS handover with AP " + arg_uuid srv.uuid = arg_uuid return llc def llcp_connected(llc): print "P2P LLCP connected" global wait_connection wait_connection = False global arg_uuid if arg_uuid: global srv srv.start() else: threading.Thread(target=llcp_worker, args=(llc,)).start() print "llcp_connected returning" 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 WPS 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('--no-wait', action='store_true', help='do not wait for tag to be removed before exiting') parser.add_argument('--uuid', help='UUID of an AP (used for WPS ER operations)') parser.add_argument('--id', help='network id (used for WPS ER operations)') parser.add_argument('command', choices=['write-config', 'write-er-config', 'write-password'], nargs='?') args = parser.parse_args() global arg_uuid arg_uuid = args.uuid global only_one only_one = args.only_one global no_wait no_wait = args.no_wait logging.basicConfig(level=args.loglevel) try: if not clf.open("usb"): print "Could not open connection with an NFC device" raise SystemExit if args.command == "write-config": wps_write_config_tag(clf, id=args.id, wait_remove=not args.no_wait) raise SystemExit if args.command == "write-er-config": wps_write_er_config_tag(clf, args.uuid, wait_remove=not args.no_wait) raise SystemExit if args.command == "write-password": wps_write_password_tag(clf, wait_remove=not args.no_wait) raise SystemExit global continue_loop while continue_loop: print "Waiting for a tag or peer to be touched" wait_connection = True try: if not clf.connect(rdwr={'on-connect': rdwr_connected}, llcp={'on-startup': llcp_startup, 'on-connect': llcp_connected}, terminate=terminate_loop): break except Exception, e: print "clf.connect failed" global srv if only_one and srv and srv.success: raise SystemExit except KeyboardInterrupt: raise SystemExit finally: clf.close() raise SystemExit if __name__ == '__main__': main()