def readRFIDTag(self): while(self.lock == True): print "still locked (readRFIDTag)" time.sleep(0.15) self.lock = True (status,TagType) = RFIDReader.MFRC522_Request(RFIDReader.PICC_REQIDL) # If a card is found #if status == RFIDReader.MI_OK: # print "rfid tag detected" # Get the UID of the card (status,uid) = RFIDReader.MFRC522_Anticoll() # If we have the UID, continue if status == RFIDReader.MI_OK: # Print UID #print "Card read UID: "+str(uid[0])+"."+str(uid[1])+"."+str(uid[2])+"."+str(uid[3]) self.tagInfo.tagId = str(uid[0])+"."+str(uid[1])+"."+str(uid[2])+"."+str(uid[3]) self.tagInfo.userInfo = "" # This is the default key for authentication key = [0xFF,0xFF,0xFF,0xFF,0xFF,0xFF] # Select the scanned tag RFIDReader.MFRC522_SelectTag(uid) # Authenticate status = RFIDReader.MFRC522_Auth(RFIDReader.PICC_AUTHENT1A, 8, key, uid) # Check if authenticated if status == RFIDReader.MI_OK: user = User.query.filter_by(cardID=self.tagInfo.tagId).first() if user is None: print "No user asigned to card" else: self.tagInfo.userInfo = user.email if user.checkUserAccessPrivleges() == "access granted": self.requestOpening = True print user.email RFIDReader.MFRC522_StopCrypto1() self.lock = False return True else: print "Authentication error" self.lock = False return False self.lock = False return False
def assignRFIDTag(self, user): while(self.lock == True): print "still locked (assignRFIDTag)" time.sleep(0.15) self.lock = True print "background-worker assign" (status,TagType) = RFIDReader.MFRC522_Request(RFIDReader.PICC_REQIDL) (status,uid) = RFIDReader.MFRC522_Anticoll() # If we have the UID, continue if status == RFIDReader.MI_OK: # Print UID uid_str = str(uid[0])+"." +str(uid[1])+"."+str(uid[2])+"."+str(uid[3]) print "Card read UID: " + uid_str if(uid_str != user.cardID) print "Wrong cardID detected while assigning RFID-tag to user" return False # This is the default key for authentication key = [] secret = [] # extract keyA from database and print it formated_key_list = user.cardAuthKeyA.split() for x in formated_key_list: key.append(int(x, 16)) print key # extract secret from database and print it formated_secret_list = user.cardSecret.split() for x in formated_secret_list: secret.append(int(x, 16)) print secret # Select the scanned tag RFIDReader.MFRC522_SelectTag(uid) # Authenticate for auth-sector status = RFIDReader.MFRC522_Auth(RFIDReader.PICC_AUTHENT1A, user.cardAuthSector * 4 + user, key, uid) # Check if authenticated if status == RFIDReader.MI_OK: # read trailer from auth-sector RFIDReader.MFRC522_Read(user.cardAuthSector * 4 + 3) # read auth block in auth-sector RFIDReader.MFRC522_Read(user.cardAuthSector * 4 + user.cardAuthBlock) # write secret to auth block in auth-sector RFIDReader.MFRC522_Write(user.cardAuthSector * 4 + user.cardAuthBlock, secret) # read back secret from auth block in auth-sector RFIDReader.MFRC522_Read(user.cardAuthSector * 4 + user.cardAuthBlock) RFIDReader.MFRC522_StopCrypto1() # unlock and return succesfully self.lock = False return True else: print "Authentication error" self.lock = False return False self.lock = False return False
def withdrawRFIDTag(self, user): while (self.lock == True): if config.DEBUG == False: print "still locked (withdrawRFIDTag)" time.sleep(0.3) try: self.lock = True time.sleep(0.2) print "background-worker withdrawRFIDTag" for i in range(0, 4): (status, TagType) = RFIDReader.MFRC522_Request(RFIDReader.PICC_REQIDL) (status, uid) = RFIDReader.MFRC522_Anticoll() if status == RFIDReader.MI_OK: break else: print "retry anticoll card (withdrawRFIDTag)" time.sleep(0.3) # If we have the UID, continue if status == RFIDReader.MI_OK: # Print UID uid_str = str(uid[0]) + "." + str(uid[1]) + "." + str( uid[2]) + "." + str(uid[3]) print "Card read UID: " + uid_str if (uid_str != user.cardID): print "Wrong cardID detected while withdrawing RFID-tag to user" self.lock = False return False # This is the default key for authentication defaultkey = [0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF] defaultsecret = [ 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF ] userkey = [] usersecret = [] userkeyString = user.cardAuthKeyA for x in userkeyString.split('-'): userkey.append(int(x, 16)) print "Userkey: " + str(userkey) usersecretString = user.cardSecret for x in usersecretString.split('-'): usersecret.append(int(x, 16)) print "Usersecret: " + str(usersecret) SecretBlockAddr = user.cardAuthSector * 4 + user.cardAuthBlock TrailerBlockAddr = user.cardAuthSector * 4 + 3 # Select the scanned tag RFIDReader.MFRC522_SelectTag(uid) # Authenticate for secret-block status = RFIDReader.MFRC522_Auth(RFIDReader.PICC_AUTHENT1A, SecretBlockAddr, userkey, uid) # write user secret if status == RFIDReader.MI_OK: RFIDReader.MFRC522_Write(SecretBlockAddr, defaultsecret) else: print "Authentication error while write rfid-tag secret sector" self.lock = False return False status = RFIDReader.MFRC522_Auth(RFIDReader.PICC_AUTHENT1A, TrailerBlockAddr, userkey, uid) # Check if authenticated if status == RFIDReader.MI_OK: print "Read TrailerBlock :" # Read block 8 result = RFIDReader.MFRC522_Read(TrailerBlockAddr) print result for x in range(0, 6): result[x] = 0xFF print result print "Write new trailer:" # Write the data RFIDReader.MFRC522_Write(TrailerBlockAddr, result) print "\n" RFIDReader.MFRC522_StopCrypto1() # unlock and return succesfully self.lock = False return True else: print "Authentication error while write rfid-tag key sector" self.lock = False return False else: print "Authentication error while looking for cards" self.lock = False return False except: self.lock = False print "unexpected error withdrawRFIDTag" raise
def checkRFIDTag(self): #if self.first == True: # self.first = False # raise ValueError('A very specific bad thing happened') while (self.lock == True): print "still locked (checkRFIDTag)" time.sleep(0.2) try: self.lock = True (status, TagType) = RFIDReader.MFRC522_Request(RFIDReader.PICC_REQIDL) for i in range(0, 2): (status, uid) = RFIDReader.MFRC522_Anticoll() if status == RFIDReader.MI_OK: break else: time.sleep(0.2) self.resetTagInfo() # If we have the UID, continue if status == RFIDReader.MI_OK: # Print UID self.tagInfo.tagId = str(uid[0]) + "." + str( uid[1]) + "." + str(uid[2]) + "." + str(uid[3]) self.tagInfo.userInfo = "" user = User.query.filter_by(cardID=self.tagInfo.tagId).first() if user is None: self.ledState = self.LED_STATE_ACCESS_DENIED self.lock = False return self.tagInfo.userInfo = user.email # print user.email # This is the default key for authentication defaultkey = [0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF] userkey = [] usersecret = [] userkeyString = user.cardAuthKeyA for x in userkeyString.split('-'): userkey.append(int(x, 16)) # print "Userkey: " + str(userkey) usersecretString = user.cardSecret for x in usersecretString.split('-'): usersecret.append(int(x, 16)) # print "Usersecret: " + str(usersecret) SecretBlockAddr = user.cardAuthSector * 4 + user.cardAuthBlock TrailerBlockAddr = user.cardAuthSector * 4 + 3 # Select the scanned tag RFIDReader.MFRC522_SelectTag(uid) # Authenticate status = RFIDReader.MFRC522_Auth(RFIDReader.PICC_AUTHENT1A, SecretBlockAddr, userkey, uid) # Check if authenticated if status == RFIDReader.MI_OK: readSecret = RFIDReader.MFRC522_Read(SecretBlockAddr) # print readSecret readSecretString = '' i = 0 if not readSecret: print "Read secret string is empty." self.lock = False RFIDReader.MFRC522_StopCrypto1() return False for x in readSecret: if i != 0: readSecretString = readSecretString + '-' i = i + 1 readSecretString = readSecretString + format(x, '02X') # print readSecretString if readSecretString == user.cardSecret: print "correct secret" if security.checkUserAccessPrivleges( datetime.datetime.now(), user) == "Access granted.": if datetime.datetime.now( ) > user.lastAccessDateTime + datetime.timedelta( minutes=config.NODE_LOG_MERGE): user.lastAccessDateTime = datetime.datetime.now( ) logentry = Action( datetime.datetime.utcnow(), config.NODE_NAME, user.firstName + ' ' + user.lastName, user.email, 'Opening request (' + str(1) + ' attempts)', 'Opening request', 'L2', 1, 'Card based', Action.ACTION_OPENING_REQUEST, 1) print "Log-entry created" try: db.session.add(logentry) db.session.commit() except: self.ledState = self.LED_STATE_ACCESS_DENIED db.session.rollback() raise else: lastlogEntry = Action.query.filter_by( logType='Opening request', userMail=user.email).order_by( Action.date.desc()).first() if lastlogEntry is not None: if lastlogEntry.synced is 0: lastlogEntry.date = datetime.datetime.utcnow( ) lastlogEntry.actionParameter += 1 lastlogEntry.logText = 'Opening request (' + str( lastlogEntry.actionParameter ) + ' attempts)' else: lastlogEntry.synced = 0 lastlogEntry.date = datetime.datetime.utcnow( ) lastlogEntry.actionParameter = 1 lastlogEntry.logText = 'Opening request (' + str( lastlogEntry.actionParameter ) + ' attempts)' print "Log-entry is in merge-range ts = " + str( datetime.datetime.now( )) + " last = " + str( user.lastAccessDateTime ) + " merge = " + str( config.NODE_LOG_MERGE) + " minutes" try: db.session.commit() except: self.ledState = self.LED_STATE_ACCESS_DENIED db.session.rollback() raise self.requestOpening = True self.ledState = self.LED_STATE_ACCESS_GRANTED else: self.ledState = self.LED_STATE_ACCESS_DENIED print "no user-access privilege" else: self.tagInfo.userInfo = user.email + '(inv. sec.)' print "no user-access privilege" self.ledState = self.LED_STATE_ACCESS_DENIED RFIDReader.MFRC522_StopCrypto1() self.lock = False return True else: self.tagInfo.userInfo = user.email + '(inv. key.)' print "Authentication error" self.ledState = self.LED_STATE_ACCESS_DENIED self.lock = False return False else: self.lock = False return False except: self.lock = False print "unexpected error in checkRFIDTag" self.ledState = self.LED_STATE_ACCESS_DENIED raise