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_P008_Wiegand_RFID.py
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_P008_Wiegand_RFID.py
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#!/usr/bin/env python3
#############################################################################
############### Wiegand Reader 2 plugin for RPIEasy #########################
#############################################################################
#
# This plugin using a C unit which is build on wiringpi. If you see such error messages:
# wiringPiISR: unable to open /sys/class/gpio/gpio18/value: No such file or directory
# Then fix it with:
# echo "18" > /sys/class/gpio/export
#
# This is a highly experimental plugin which is in theory can be used at 4 times,
# so 4x Wiegand reader may be used at a time.
#
# Copyright (C) 2019 by Alexander Nagy - https://bitekmindenhol.blog.hu/
#
import plugin
import webserver
import rpieGlobals
import rpieTime
import misc
import threading
import time
import hashlib
from lib.lib_wiegandio import * #import wiegand_io2
class Plugin(plugin.PluginProto):
PLUGIN_ID = 8
PLUGIN_NAME = "RFID - Wiegand"
PLUGIN_VALUENAME1 = "Tag"
def __init__(self,taskindex): # general init
plugin.PluginProto.__init__(self,taskindex)
self.dtype = rpieGlobals.DEVICE_TYPE_DUAL
self.vtype = rpieGlobals.SENSOR_TYPE_TEXT
self.valuecount = 1
self.senddataoption = True
self.timeroption = False
self.timeroptional = False
self.formulaoption = False
self.bgreader = None
self.WR = None
self.processing = False
def plugin_init(self,enableplugin=None):
plugin.PluginProto.plugin_init(self,enableplugin)
self.decimals[0] = -1
self.initialized = False
if self.taskdevicepin[0]>=0 and self.taskdevicepin[1]>=0 and self.enabled:
try:
if (self.WR is not None) and (self.WR):
if (self.WR.isinitialized() == 1):
self.initialized = True
except:
pass
try:
if self.initialized == False:
self.WR = Wiegand2()
self.WR.begin(int(self.taskdevicepin[0]),int(self.taskdevicepin[1]))
if (self.WR.isinitialized() == 1):
self.initialized = True
except Exception as e:
print("Wiegand IO ERROR:",e)
self.initialized = False
if self.initialized:
self.bgreader = BackgroundThread(self.callbackfunc,0.005,self.WR) # 0.005?
self.processing = True
# print("background thread started")
else:
self.initialized = False
self.enabled = False
if self.bgreader is not None:
self.bgreader.stoprun()
self.processing = False
def __del__(self):
if self.bgreader is not None:
self.bgreader.stoprun()
def plugin_exit(self):
self.__del__()
return True
def webform_load(self):
choice1 = self.taskdevicepluginconfig[0]
options = ["RAW","SHA1 encoded","SHA1 encoded except starting with 0"]
optionvalues = [0,1,2]
webserver.addFormSelector("Sending format","p008_format",3,options,optionvalues,None,choice1)
webserver.addFormNumericBox("Expected PIN digits","p008_minlen",self.taskdevicepluginconfig[1],0,10)
webserver.addFormNumericBox("Maximal card bit length","p008_maxlen",self.taskdevicepluginconfig[2],0,34)
return True
def webform_save(self,params):
par = webserver.arg("p008_format",params)
if par == "":
par = 0
self.taskdevicepluginconfig[0] = int(par)
par = webserver.arg("p008_minlen",params)
if par == "":
par = 0
self.taskdevicepluginconfig[1] = int(par)
par = webserver.arg("p008_maxlen",params)
if par == "":
par = 0
self.taskdevicepluginconfig[2] = int(par)
return True
def callbackfunc(self,ctype,rfid): # this function is called by wiegand io if RFID card showed or PIN entered
# print(ctype,rfid) # DEBUG
if self.processing:
sval = ""
try:
rfid = str(rfid).strip()
rfidbin = str(bin(int(rfid)))
except Exception as e:
print("String malformed!",str(e))
return False
if len(str(rfid))>0:
# precheck
if (int(self.taskdevicepluginconfig[1]) != 0) and (ctype==2):
wlen = int(self.taskdevicepluginconfig[1])
if len(str(rfid)) in [wlen+1,wlen+2]:
rfid = str(rfid)[-wlen:]
if (int(self.taskdevicepluginconfig[2]) != 0) and (ctype==3):
wlen = int(self.taskdevicepluginconfig[2])
if len(str(rfidbin)) in [wlen+1,wlen+2]:
rfid = str(int(str(rfidbin)[-wlen:],2))
if ctype == 1:
sval = str(rfid)
elif ctype>1:
if self.taskdevicepluginconfig[0]==0: # RAW
sval = str(rfid)
elif self.taskdevicepluginconfig[0]==2: # SHA1ex0
try:
if (str(rfid)[0] == '0') and (len(rfid)<20): # exclude commands (entered to keypad) that identified by starting zero
sval = str(rfid)
else:
sval = hashlib.sha1(bytes(rfid,'utf-8')).hexdigest()
if sval[0] == '0':
sval[0] = '1' # dirty hack to remove zero from the start
except:
sval = ""
elif self.taskdevicepluginconfig[0]==1: # SHA1
try:
sval = hashlib.sha1(bytes(rfid,'utf-8')).hexdigest()
except:
sval = ""
# print("encoded wiegand data:",sval) # DEBUG
if sval != "":
self.set_value(1,sval,True)
def plugin_write(self,cmd): # Handling commands
res = False
cmdarr = cmd.split(",")
cmdarr[0] = cmdarr[0].strip().lower()
if cmdarr[0]== "rfidclear":
try:
rname = cmdarr[1].strip()
except:
rname = ""
if rname != "" and rname.lower() == self.gettaskname().lower():
self.uservar[0] = "0"
if self.bgreader is not None:
try:
self.bgreader.clearbuffer()
except:
pass
res = True
elif cmdarr[0]== "rfidenable":
try:
rname = cmdarr[1].strip()
except:
rname = ""
if rname != "" and rname.lower() == self.gettaskname().lower():
if self.bgreader is not None:
try:
self.bgreader.clearbuffer()
except:
pass
self.processing = True
res = True
elif cmdarr[0]== "rfiddisable":
try:
rname = cmdarr[1].strip()
except:
rname = ""
if rname != "" and rname.lower() == self.gettaskname().lower():
self.processing = False
res = True
return res
class BackgroundThread(object):
KEYPAD_ESC = 10
KEYPAD_ENT = 11
def __init__(self,callbackaddr,interval=0.005,WiegandOBJ=None):
self.interval = interval
self.pin = ""
self.enablerun = True
self.callbackfunc = callbackaddr
self.WR = WiegandOBJ
thread = threading.Thread(target=self.run, args=())
thread.daemon = True
thread.start()
def analyzekey(self,keycode):
key = int(keycode,2)
# print("K:",key)
if (key>=0) and (key<10):
self.pin = ''.join([self.pin,chr(48+key)])
elif key == self.KEYPAD_ESC:
if len(self.pin)>0:
self.pin = "" # if PIN entered, delete from buffer
else:
self.callbackfunc(1,'ESC') # if no PIN in buffer, send ESC key
elif key == self.KEYPAD_ENT:
if len(self.pin)>0:
self.callbackfunc(2,str(self.pin)) # if PIN buffer not empty, send PIN
self.pin = "" # then clear buffer
else:
self.callbackfunc(1,'ENT') # if PIN buffer emtpy, send ENT key
def run(self):
while (self.enablerun):
if (self.WR.GetPendingBitCount() > 0):
try:
wstr,wbl = self.WR.ReadData()
# print("Python res:",wstr,wbl)
if wbl>3 and wbl<5:
self.analyzekey(wstr)
elif wbl>6 and wbl<9:
self.analyzekey(wstr[:4])
self.analyzekey(wstr[4:8])
elif wbl > 20:
self.callbackfunc(3,str(self.binaryToInt(wstr,wbl))) # send Card number as integer
except:
pass
time.sleep(self.interval)
def stoprun(self):
self.enablerun = False
def clearbuffer(self):
self.pin = ""
def binaryToInt(self,binary_string,blen):
binary_string = binary_string[1:(blen-1)] #Removing the first and last bit (Non-data bits)
try:
result = int(binary_string, 2)
except:
result = 0
return result