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- #!/usr/bin/python
- #
- # Example nfcpy to wpa_supplicant wrapper for P2P NFC operations
- # Copyright (c) 2012-2013, Jouni Malinen <j@w1.fi>
- #
- # 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'
- ifname = None
- init_on_touch = False
- in_raw_mode = False
- prev_tcgetattr = 0
- include_wps_req = True
- include_p2p_req = True
- no_input = False
- srv = None
- continue_loop = True
- terminate_now = False
- summary_file = None
- success_file = None
- def summary(txt):
- 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, 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:
- if ifname:
- if ifname not in ctrl:
- continue
- try:
- print "Trying to use control interface " + ctrl
- 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
- cmd = "WPS_NFC_TAG_READ " + str(message).encode("hex")
- global force_freq
- if force_freq:
- cmd = cmd + " freq=" + force_freq
- if "FAIL" in wpas.request(cmd):
- return False
- return True
- def wpas_get_handover_req():
- wpas = wpas_connect()
- if (wpas == None):
- return None
- res = wpas.request("NFC_GET_HANDOVER_REQ NDEF P2P-CR").rstrip()
- if "FAIL" in res:
- return None
- return res.decode("hex")
- def wpas_get_handover_req_wps():
- wpas = wpas_connect()
- if (wpas == None):
- return None
- res = wpas.request("NFC_GET_HANDOVER_REQ NDEF WPS-CR").rstrip()
- if "FAIL" in res:
- return None
- return res.decode("hex")
- def wpas_get_handover_sel(tag=False):
- wpas = wpas_connect()
- if (wpas == None):
- return None
- if tag:
- res = wpas.request("NFC_GET_HANDOVER_SEL NDEF P2P-CR-TAG").rstrip()
- else:
- res = wpas.request("NFC_GET_HANDOVER_SEL NDEF P2P-CR").rstrip()
- if "FAIL" in res:
- return None
- return res.decode("hex")
- def wpas_get_handover_sel_wps():
- wpas = wpas_connect()
- if (wpas == None):
- return None
- res = wpas.request("NFC_GET_HANDOVER_SEL NDEF WPS-CR");
- if "FAIL" in res:
- return None
- return res.rstrip().decode("hex")
- def wpas_report_handover(req, sel, type):
- wpas = wpas_connect()
- if (wpas == None):
- return None
- cmd = "NFC_REPORT_HANDOVER " + type + " P2P " + str(req).encode("hex") + " " + str(sel).encode("hex")
- global force_freq
- if force_freq:
- cmd = cmd + " freq=" + force_freq
- return wpas.request(cmd)
- def wpas_report_handover_wsc(req, sel, type):
- wpas = wpas_connect()
- if (wpas == None):
- return None
- cmd = "NFC_REPORT_HANDOVER " + type + " WPS " + str(req).encode("hex") + " " + str(sel).encode("hex")
- if force_freq:
- cmd = cmd + " freq=" + force_freq
- return wpas.request(cmd)
- def p2p_handover_client(llc):
- message = nfc.ndef.HandoverRequestMessage(version="1.2")
- message.nonce = random.randint(0, 0xffff)
- global include_p2p_req
- if include_p2p_req:
- data = wpas_get_handover_req()
- if (data == None):
- summary("Could not get handover request carrier record from wpa_supplicant")
- return
- print "Handover request carrier record from wpa_supplicant: " + data.encode("hex")
- datamsg = nfc.ndef.Message(data)
- message.add_carrier(datamsg[0], "active", datamsg[1:])
- global include_wps_req
- if include_wps_req:
- print "Handover request (pre-WPS):"
- try:
- print message.pretty()
- except Exception, e:
- print e
- data = wpas_get_handover_req_wps()
- if data:
- print "Add WPS request in addition to P2P"
- 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:
- 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, e:
- summary("Other exception: " + str(e))
- client.close()
- return
- summary("Sending handover request")
- if not client.send(message):
- summary("Failed to send handover request")
- client.close()
- return
- summary("Receiving handover response")
- message = client._recv()
- if message is None:
- summary("No response received")
- client.close()
- return
- if message.type != "urn:nfc:wkt:Hs":
- summary("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)
- summary("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.p2p":
- print "P2P carrier type match - send to wpa_supplicant"
- if "OK" in wpas_report_handover(data, carrier.record, "INIT"):
- success_report("P2P handover reported successfully (initiator)")
- else:
- summary("P2P handover report rejected")
- break
- print "Remove peer"
- client.close()
- print "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:
- print "Trying to exit.."
- global terminate_now
- terminate_now = True
- 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
- # override to avoid parser error in request/response.pretty() in nfcpy
- # due to new WSC handover format
- def _process_request(self, request):
- summary("received handover request {}".format(request.type))
- response = nfc.ndef.Message("\xd1\x02\x01Hs\x12")
- if not request.type == 'urn:nfc:wkt:Hr':
- summary("not a handover request")
- else:
- try:
- request = nfc.ndef.HandoverRequestMessage(request)
- except nfc.ndef.DecodeError as e:
- summary("error decoding 'Hr' message: {}".format(e))
- else:
- response = self.process_request(request)
- summary("send handover response {}".format(response.type))
- return response
- def process_request(self, request):
- self.ho_server_processing = True
- clear_raw_mode()
- print "HandoverServer - request received"
- try:
- print "Parsed handover request: " + request.pretty()
- except Exception, e:
- print e
- sel = nfc.ndef.HandoverSelectMessage(version="1.2")
- found = False
- for carrier in request.carriers:
- print "Remote carrier type: " + carrier.type
- if carrier.type == "application/vnd.wfa.p2p":
- print "P2P carrier type match - add P2P carrier record"
- found = True
- self.received_carrier = carrier.record
- print "Carrier record:"
- try:
- print carrier.record.pretty()
- except Exception, e:
- print e
- data = wpas_get_handover_sel()
- 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
- if "OK" in wpas_report_handover(self.received_carrier, self.sent_carrier, "RESP"):
- success_report("P2P handover reported successfully (responder)")
- else:
- summary("P2P handover report rejected")
- break
- message = nfc.ndef.Message(data);
- sel.add_carrier(message[0], "active", message[1:])
- break
- for carrier in request.carriers:
- if found:
- break
- print "Remote carrier type: " + carrier.type
- if carrier.type == "application/vnd.wfa.wsc":
- print "WSC carrier type match - add WSC carrier record"
- found = True
- self.received_carrier = carrier.record
- print "Carrier record:"
- try:
- print carrier.record.pretty()
- except Exception, e:
- print e
- data = wpas_get_handover_sel_wps()
- 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
- if "OK" in wpas_report_handover_wsc(self.received_carrier, self.sent_carrier, "RESP"):
- success_report("WSC handover reported successfully")
- else:
- summary("WSC handover report rejected")
- break
- message = nfc.ndef.Message(data);
- sel.add_carrier(message[0], "active", message[1:])
- found = True
- break
- print "Handover select:"
- try:
- print sel.pretty()
- except Exception, e:
- print e
- print str(sel).encode("hex")
- summary("Sending handover select")
- self.success = True
- 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 p2p_tag_read(tag):
- 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":
- summary("WPS tag - send to wpa_supplicant")
- success = wpas_tag_read(tag.ndef.message)
- break
- if record.type == "application/vnd.wfa.p2p":
- summary("P2P tag - send to wpa_supplicant")
- success = wpas_tag_read(tag.ndef.message)
- break
- else:
- summary("Empty tag")
- if success:
- success_report("Tag read succeeded")
- return success
- def rdwr_connected_p2p_write(tag):
- summary("Tag found - writing - " + str(tag))
- global p2p_sel_data
- tag.ndef.message = str(p2p_sel_data)
- success_report("Tag write succeeded")
- print "Done - remove tag"
- global only_one
- if only_one:
- global continue_loop
- continue_loop = False
- global p2p_sel_wait_remove
- return p2p_sel_wait_remove
- def wps_write_p2p_handover_sel(clf, wait_remove=True):
- print "Write P2P handover select"
- data = wpas_get_handover_sel(tag=True)
- if (data == None):
- summary("Could not get P2P handover select from wpa_supplicant")
- return
- global p2p_sel_wait_remove
- p2p_sel_wait_remove = wait_remove
- global p2p_sel_data
- p2p_sel_data = nfc.ndef.HandoverSelectMessage(version="1.2")
- message = nfc.ndef.Message(data);
- p2p_sel_data.add_carrier(message[0], "active", message[1:])
- print "Handover select:"
- try:
- print p2p_sel_data.pretty()
- except Exception, e:
- print e
- print str(p2p_sel_data).encode("hex")
- print "Touch an NFC tag"
- clf.connect(rdwr={'on-connect': rdwr_connected_p2p_write})
- def rdwr_connected(tag):
- global only_one, no_wait
- summary("Tag connected: " + str(tag))
- if tag.ndef:
- print "NDEF tag: " + tag.type
- try:
- print tag.ndef.message.pretty()
- except Exception, e:
- print e
- success = p2p_tag_read(tag)
- if only_one and success:
- global continue_loop
- continue_loop = False
- else:
- summary("Not an NDEF tag - remove tag")
- return True
- return not no_wait
- def llcp_worker(llc):
- global init_on_touch
- if init_on_touch:
- print "Starting handover client"
- p2p_handover_client(llc)
- return
- global no_input
- if no_input:
- print "Wait for handover to complete"
- else:
- print "Wait for handover to complete - press 'i' to initiate ('w' for WPS only, 'p' for P2P only)"
- global srv
- global wait_connection
- while not wait_connection and srv.sent_carrier is None:
- if srv.ho_server_processing:
- time.sleep(0.025)
- elif no_input:
- time.sleep(0.5)
- else:
- global include_wps_req, include_p2p_req
- res = getch()
- if res == 'i':
- include_wps_req = True
- include_p2p_req = True
- elif res == 'p':
- include_wps_req = False
- include_p2p_req = True
- elif res == 'w':
- include_wps_req = True
- include_p2p_req = False
- else:
- continue
- clear_raw_mode()
- print "Starting handover client"
- p2p_handover_client(llc)
- return
-
- clear_raw_mode()
- print "Exiting llcp_worker thread"
- def llcp_startup(clf, llc):
- print "Start LLCP server"
- global srv
- srv = HandoverServer(llc)
- return llc
- def llcp_connected(llc):
- print "P2P LLCP connected"
- global wait_connection
- wait_connection = False
- global init_on_touch
- if not init_on_touch:
- global srv
- srv.start()
- if init_on_touch or not no_input:
- threading.Thread(target=llcp_worker, args=(llc,)).start()
- 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 P2P and 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('--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-wps-req', '-N', action='store_true',
- help='do not include WPS carrier record in request')
- 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('--freq', '-f',
- help='forced frequency of operating channel in MHz')
- 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('command', choices=['write-p2p-sel'],
- nargs='?')
- args = parser.parse_args()
- global only_one
- only_one = args.only_one
- global no_wait
- no_wait = args.no_wait
- global force_freq
- force_freq = args.freq
- logging.basicConfig(level=args.loglevel)
- global init_on_touch
- init_on_touch = args.init_on_touch
- if args.ifname:
- global ifname
- ifname = args.ifname
- print "Selected ifname " + ifname
- if args.no_wps_req:
- global include_wps_req
- include_wps_req = False
- 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()
- global wait_connection
- try:
- if not clf.open("usb"):
- print "Could not open connection with an NFC device"
- raise SystemExit
- if args.command == "write-p2p-sel":
- wps_write_p2p_handover_sel(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 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},
- terminate=terminate_loop):
- break
- else:
- 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()
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