Exemple #1
0
def on_new_client(clientsocket, addr):
    try:
        while True:
            # msg = clientsocket.recv(2024)
            # print('connected by',addr)
            data = clientsocket.recv(5000)
            print(sys.stderr, 'received raw "%s"', data)
            print('type raw:', type(data))
            #unpacked_data = unpacker.unpack(data)
            #print(sys.stderr, 'unpacked:', unpacked_data)
            #m = str(msg)
            #print('message',m)
            imei = binascii.hexlify(data)
            imei2 = "null"
            print('data hexlified - ', imei)
            print('type', type(imei))
            print('data ascii ed - ', imei2)
            print('type', type(imei2))
            #l = 'LOAD'
            #p = hex(crc16(imei))
            str_data = str(imei)
            parsed_data = str_data[26:30]
            first_data = str_data[2:6]
            length = '0501'
            print('first-data', first_data)
            print('length', length)
            print('parsed-data', parsed_data)
            #p = str(p)
            #s = p[2:6]
            error_check = 'ECHE'
            print('error_check - ', error_check)
            strink = first_data + length + parsed_data + error_check + '0d0a'
            ret1 = str.encode(strink)
            print('pre_output', ret1)
            mystr = strink[4:12]
            print(mystr)
            ret1 = str.encode(mystr)
            crc16 = libscrc.x25(binascii.unhexlify(ret1))
            ra = hex(crc16)
            print('pre_errorc', ra)
            ra = str(ra)
            error_check = ra[2:6]
            print('final_error', error_check)
            strink = first_data + length + parsed_data + error_check + '0d0a'
            print('final_string', strink)
            ret2 = str.encode(strink)
            ret1 = binascii.unhexlify(ret2)
            # print('crc-',hex(crc16(ret1)))
            print('ret - ', ret1)
            print('ret type - ', type(ret1))
            clientsocket.send(ret1)
            clientsocket.close()
    except socket.error as message:
        print(message)
        clientsocket.close()
Exemple #2
0
    def check_frame(self):
        if self.r[0] != flag or self.r[-1] != flag:
            if self.verbose:
                print("Flags not OK! first= 0x{0:02x} last= 0x{1:02x}".format(
                    self.r[0], self.r[-1]))
            return False

        # strip flags
        self.r = self.r[1:-1]

        packagelen = int.from_bytes(self.r[0:2], byteorder="big") & 0xfff

        if (packagelen) != len(self.r):
            if self.verbose:
                print(
                    "Length not OK! from header={0:4d} received={0:4d}".format(
                        packagelen, len(self.r)))
            return False

        crc1 = libscrc.x25(self.r[0:-2])
        self.crc2 = int.from_bytes(self.r[-2:], byteorder="little")

        if crc1 != self.crc2:
            if self.verbose:
                print(
                    "CRC not OK! calculated= 0x{0:04x} sent= 0x{1:04x}".format(
                        crc1, self.crc2))
            return False

        frameheader = self.r[3:12]
        dataheader = self.r[12:18]
        self.N_lines = self.r[N_header - 1]

        if self.debug:
            print("Package length = {0:4d}".format(packagelen))
            print("Nr of registers = {0:4d}".format(self.N_lines))

            print("\nFlag:", end="\t\t\t\t\t\t")
            print("{0:02x}".format(flag), end=" ")
            print("\nHeader:", end="\t\t\t\t\t\t")
            for i in range(N_header):
                print("{0:02x}".format(self.r[i]), end=" ")
            print("")

        # strip header and trailer
        self.r = self.r[N_header:-2]

        return True
Exemple #3
0
def crc_check(string_crc, error_check):
    crc16 = libscrc.x25(string_crc)
    var = 0
    final_crc = ""
    for j in hex(crc16):
        if var > 1:
            final_crc = final_crc + j
        var += 1
    if len(final_crc) == 3:
        final_crc = "0" + final_crc
    elif len(final_crc) == 2:
        final_crc = "00" + final_crc
    elif len(final_crc) == 1:
        final_crc = "000" + final_crc
    print(f"Generated crc: {final_crc}")
    print(f"sent by terminal: {error_check}")
    if final_crc == error_check:
        return 1
    else:
        return 0
Exemple #4
0
    def on_new_client(clientsocket, addr):
        try:
            while True:
                # msg = clientsocket.recv(2024)
                # print('connected by',addr)
                data = clientsocket.recv(5000)
                print(sys.stderr, 'received raw "%s"', data)
                print('type :', type(data))
                #unpacked_data = unpacker.unpack(data)
                #print(sys.stderr, 'unpacked:', unpacked_data)
                #m = str(msg)
                #print('message',m)
                imei = binascii.hexlify(data)
                imei2 = "null"
                # print('hexlified - ',imei)
                # print('hexlified len - ', type(imei))
                # print('hexlified string - ',str(imei))
                # str_imei = str(imei)
                # print('hexlified string length - ', len(str_data))
                #print('type',type(imei))
                #print('data ascii ed - ',imei2)
                #print('type',type(imei2))
                #l = 'LOAD'
                #p = hex(crc16(imei))
                str_data = str(imei)
                #print('01',str_data[8:10])

                if str_data[8:10] == '01':  #login packet
                    parsed_data = str_data[26:30]
                    first_data = str_data[2:6]  #7878
                    length = '0501'
                    #print('first-data', first_data)
                    #print('length', length)
                    #print('parsed-data', parsed_data)
                    #p = str(p)
                    #s = p[2:6]
                    print('str_data', str_data)
                    error_check = 'ECHE'
                    #print('error_check - ',error_check)
                    strink = first_data + length + parsed_data + error_check + '0d0a'
                    ret1 = str.encode(strink)
                    #print('pre_output',ret1)
                    # print('strink - ',strink)
                    mystr = strink[4:12]
                    #print(mystr)
                    ret1 = str.encode(mystr)
                    crc16 = libscrc.x25(binascii.unhexlify(ret1))
                    ra = hex(crc16)
                    #print('pre_errorc', ra)
                    ra = str(ra)
                    error_check = ra[2:6]
                    #print('final_error',error_check)
                    strink = first_data + length + parsed_data + error_check + '0d0a'
                    print('final_string', strink)
                    ret2 = str.encode(strink)
                    # print(type(ret2))
                    print(ret2)
                    ret1 = binascii.unhexlify(ret2)
                    #print('crc-',hex(crc16(ret1)))
                    print('ret - ', ret1)
                    #print('ret type - ',type(ret1))
                    clientsocket.send(ret1)

                elif str_data[8:10] == '13':  #status packet
                    first_data = str_data[2:6]
                    last = '0a0d'
                    #print('first-data',first_data)
                    len = '0513'
                    #print('length',len)
                    serial_no = str_data[18:22]
                    # print('serial_no',serial_no)
                    final = len + serial_no
                    re = str.encode(final)
                    crc16 = libscrc.x25(binascii.unhexlify(re))
                    ra = str(hex(crc16))
                    error_check = ra[2:6]
                    #print('errror_check',error_check)
                    finalout = first_data + final + error_check + last
                    #print('final', finalout)
                    ret2 = str.encode(finalout)
                    #print('encode',ret2)
                    ret1 = binascii.unhexlify(ret2)
                    #print('ret - ', ret1)
                    #print('ret type - ', type(ret1))
                    p = str_data[1::]
                    p = p.replace("'", "")
                    #print('after', p)
                    reqbeat = p[8:18]
                    result = status_packet(reqbeat)
                    print("result of status packet", result)
                    clientsocket.send(ret1)

                elif str_data[8:10] == '12':  #data packet
                    p = str_data[1::]
                    p = p.replace("'", "")
                    # print('after', p)
                    s = p

                    len = s[4:6]
                    protocolno = s[6:8]
                    date = s[8:20]
                    satellites = s[20:22]
                    lat = s[22:30]
                    long = s[30:38]
                    speed = s[38:40]
                    course_status = s[40:44]
                    mcc = s[44:48]
                    mnc = s[48:50]
                    lac = s[50:54]
                    cell_id = s[54:60]
                    serial_no = s[60:64]

                    resdate = date_fun(date)
                    latitude = latloncalc(lat)
                    longitude = latloncalc(long)
                    speedans = speedcalc(speed)
                    course = course_status_fun(course_status)
                    mccans = mcc_fun(mcc)

                    print('date -', resdate, 'lat - ', latitude, 'lon - ',
                          longitude, 'speed - ', speedans, 'course - ', course,
                          'mcc - ', mccans)

                    # print('len -', len, '__',
                    #       'protocolno', protocolno, '__',
                    #       'date', date, '__',
                    #       'satellites', satellites, '__',
                    #       'lat', lat, '__',
                    #       'long', long, '__',
                    #       'speed', speed, '__',
                    #       'course_status', course_status, '__',
                    #       'mcc ', mcc, '__',
                    #       'mnc ', mnc, '__',
                    #       'lac ', lac, '__',
                    #       'cell_id ', cell_id, '__',
                    #       'serial_no', serial_no, '__')

                else:
                    print('something new----', str_data)
                    print('closing connection....')
                    clientsocket.close()
        except socket.error as message:
            print('something wrong is happening', message)
            clientsocket.close()
Exemple #5
0
 def generateCrc(self, assign = True):
     self._crc = libscrc.x25(bytes(self._data[self.getAddress():self.getFcs()])).to_bytes(2, byteorder='little')
     if assign:
         self.assignBytes(self.getFcs(), self._crc, calcCrc = False)
Exemple #6
0
        ret1 =  str.encode(first_data+length+parsed_data+s+'0d0a')
        print('final output',ret1)
        ret2 = str.encode('LOAD')
        ret1 = binascii.unhexlify(ret1)
        #print('crc-',hex(crc16(ret1)))
        print('ret - ',ret1)
        print('ret type - ',type(ret1))
        clientsocket.send(ret1)
        clientsocket.close()
 except socket.error as message:
  print(message)
  clientsocket.close()



import libscrc
import binascii

mystr = '0d010866968031423081000f'
ret1 = str.encode(mystr)
crc16 = libscrc.x25(binascii.a2b_hex('0d010866968031423081000f'))
print('binascii', binascii.a2b_hex('0d010866968031423081000f'))
print('unhexlify', ret1=binascii.unhexlify(ret1))
print(crc16)
ans2 = libscrc.x25(b'0d010866968031423081000f')
print('ans input as string', ans2)




Exemple #7
0
def handle_client(conn, addr):
    print(f"New connection : [{addr}]")
    connected = True
    sno = 0
    snoh = 0
    snot = 0
    terminal_id = ""
    snoc = 0
    login = "******"
    while connected:
        #if login=="login_done":
        #    message=input("Enter the message you want to send: ")
        #    cpacket_length=len(message)+12
        #    cpl=hex(cpacket_length)
        #    mk=0
        #    ghj=""
        #    for i in cpl:
        #        if mk>1:
        #            ghj=ghj+i
        #        mk+=1
        #    if len(ghj)==1:
        #        ghj="0"+ghj
        #    command_len=hex(len(message)+4)
        #    jjk=""
        #    mk=0
        #    for j in command_len:
        #        if mk>1:
        #            jjk=jjk+j
        #        mk+=1
        #    if len(jjk)==1:
        #        jjk="0"+jjk
        #    enmessage=message.encode().hex()
        #    if snoc<65353:
        #            snoc+=1
        #    else:
        #            snoc=0
        #    uu=0
        #    ss=""
        #    snohmc=hex(snoc)
        #    for k in snohmc:
        #            if uu>1:
        #                ss=ss+k
        #            uu+=1
        #    if len(ss)==1:
        #            ss="000"+ss
        #    elif len(ss)==2:
        #            ss="00"+ss
        #    elif len(ss)==3:
        #            ss="0"+ss
        #    nu=0
        #    return_crc=""
        #    for cp in hex(libscrc.x25(bytes.fromhex(ghj+"80"+jjk+"0000"+enmessage+"0002"+ss))):
        #                 if nu>1:
        #                   return_crc=return_crc+cp
        #                 nu+=1
        #    if len(return_crc)==3:
        #                   return_crc="0"+return_crc

        #    command="7878"+ghj+"80"+jjk+"0000"+enmessage+"0002"+ss+return_crc+"0d0a"
        #    command=bytes.fromhex(command)
        #    conn.send(command)
        #    return_crc=""

        #command="787810800900004487888823000200011dab0d0a"
        #scommand=bytes.fromhex(command)
        #print(scommand)
        #conn.send(scommand)
        #login="******"

        start_bit = conn.recv(2)

        if start_bit.hex() == '7878':
            packet_length = conn.recv(1)
            protocol = conn.recv(1)
            print(protocol.hex())

            if protocol.hex() == '01':  #login packet complete
                terminal_id = conn.recv(8)
                code = conn.recv(2)
                time_zone = conn.recv(2)
                snol = conn.recv(2)
                error_check = conn.recv(2)
                stop_bit = conn.recv(2)
                snoh = 0
                snot = 0
                snoc = 0
                if sno < 65353:
                    sno += 1
                else:
                    sno = 0
                uu = 0
                ss = ""
                snom = hex(sno)
                for k in snom:
                    if uu > 1:
                        ss = ss + k
                    uu += 1
                if len(ss) == 1:
                    ss = "000" + ss
                elif len(ss) == 2:
                    ss = "00" + ss
                elif len(ss) == 3:
                    ss = "0" + ss
                print(f"serial number of the message: {ss}")
                string_crc = packet_length + protocol + terminal_id + code + time_zone + snol
                print(f"Login packet recieved: {string_crc.hex()}")
                bollen = crc_check(string_crc, error_check.hex())
                if bollen:
                    nu = 0
                    return_crc = ""
                    for cp in hex(libscrc.x25(bytes.fromhex("0501" + ss))):
                        if nu > 1:
                            return_crc = return_crc + cp
                        nu += 1
                    if len(return_crc) == 3:
                        return_crc = "0" + return_crc
                    elif len(return_crc) == 2:
                        return_crc = "00" + return_crc
                    elif len(return_crc) == 1:
                        return_crc = "000" + return_crc
                    response = "7878" + "05" + "01" + ss + return_crc + "0d0a"
                    response = bytes.fromhex(response)
                    conn.send(response)
                    return_crc = ""
                    print("response of login sent")
                    Data_Base.login_insert(terminal_id.hex(), snol.hex())
                else:
                    print("[Invalid crc]")

            elif protocol.hex() == '23':  #heart beat packet complete
                info_content = conn.recv(1)
                voltage_level = conn.recv(2)
                gsm_signal = conn.recv(1)
                port_status = conn.recv(2)
                snoj = conn.recv(2)
                error_check = conn.recv(2)
                stop_bit = conn.recv(2)
                if snoh < 65353:
                    snoh += 1
                else:
                    snoh = 0
                uu = 0
                ss = ""
                snohm = hex(snoh)
                for k in snohm:
                    if uu > 1:
                        ss = ss + k
                    uu += 1
                if len(ss) == 1:
                    ss = "000" + ss
                elif len(ss) == 2:
                    ss = "00" + ss
                elif len(ss) == 3:
                    ss = "0" + ss
                print(f"serial number of the message: {ss}")
                string_crc = packet_length + protocol + info_content + voltage_level + gsm_signal + port_status + snoj
                print(f"Heart Beat packet recieved: {string_crc.hex()}")
                bollen = crc_check(string_crc, error_check.hex())
                if bollen:
                    nu = 0
                    for cp in hex(libscrc.x25(bytes.fromhex("0523" + ss))):
                        if nu > 1:
                            return_crc = return_crc + cp
                        nu += 1
                    if len(return_crc) == 3:
                        return_crc = "0" + return_crc
                    elif len(return_crc) == 2:
                        return_crc = "00" + return_crc
                    elif len(return_crc) == 1:
                        return_crc = "000" + return_crc
                    response = "7878" + "05" + "23" + ss + return_crc + "0d0a"
                    print(f"response sent: {response}")
                    response = bytes.fromhex(response)
                    conn.send(response)
                    return_crc = ""
                    print("[response of heart beat sent]")
                    Data_Base.heartbeat_insert(info_content.hex(),
                                               voltage_level.hex(),
                                               gsm_signal.hex(), snoj.hex())
                    login = "******"
                else:
                    print("[Invalid crc]")
            elif protocol.hex() == '22':  #GPS packet complete
                date_time = conn.recv(6)
                quantity = conn.recv(1)
                latitude = conn.recv(4)
                longitude = conn.recv(4)
                speed = conn.recv(1)
                course = conn.recv(2)
                mcc = conn.recv(2)
                mnc = conn.recv(1)
                lac = conn.recv(2)
                cell_id = conn.recv(3)
                acc = conn.recv(1)
                data_upload = conn.recv(1)
                gps_reupload = conn.recv(1)
                snogg = conn.recv(2)
                error_check = conn.recv(2)
                stop_bit = conn.recv(2)
                print(f"Date Time: {date_time}")
                print(f"Latitude: {latitude}, {int(latitude.hex(),16)}")
                print(f"Longitude: {longitude}, {int(longitude.hex(),16)}")
                print(datetime.now())
                Data_Base.location_insert(terminal_id.hex(), datetime.now(),
                                          int(latitude.hex(), 16),
                                          int(longitude.hex(),
                                              16), course.hex(), mcc.hex(),
                                          mnc.hex(), lac.hex(), cell_id.hex(),
                                          data_upload.hex(),
                                          gps_reupload.hex(), snogg.hex())
                print("[No response]")
            elif protocol.hex() == '8a':  #time packet incomplete
                snotg = conn.recv(2)
                error_check = conn.recv(2)
                stop_bit = conn.recv(2)
                if snot < 65353:
                    snot += 1
                else:
                    snot = 0
                uu = 0
                ss = ""
                snotm = hex(snot)
                for k in snotm:
                    if uu > 1:
                        ss = ss + k
                    uu += 1
                if len(ss) == 1:
                    ss = "000" + ss
                elif len(ss) == 2:
                    ss = "00" + ss
                elif len(ss) == 3:
                    ss = "0" + ss
                print(f"serial number of the message: {ss}")
                string_crc = packet_length + protocol + snotg
                print(f"Time packet recieved: {string_crc.hex()}")
                bollen = crc_check(string_crc, error_check.hex())
                if bollen:
                    nu = 0
                    for cp in hex(libscrc.x25(bytes.fromhex("0b8a" + ss))):
                        if nu > 1:
                            return_crc = return_crc + cp
                        nu += 1
                    if len(return_crc) == 3:
                        return_crc = "0" + return_crc
                    elif len(return_crc) == 2:
                        return_crc = "00" + return_crc
                    elif len(return_crc) == 1:
                        return_crc = "000" + return_crc
                    response = "7878" + "05" + "8a" + ss + return_crc + "0d0a"
                    response = bytes.fromhex(response)
                    conn.send(response)
                    return_crc = ""
                    print("[response of time sent]")
                else:
                    print("[Invalid crc]")

            elif protocol.hex() == '2c':  #wifi packet
                full_packet = conn.recv(72)
                print(f"wifi packet recieved: {full_packet.hex()}")
                print("[No response]")
            elif protocol.hex() == '28':
                full_packet = conn.recv(61)  #LBS packet
                print("[No response]")

        elif start_bit == '7979':  #information transmission packet
            packet_length = conn.recv(2)
            protocol = conn.recv(1)
            print(protocol)
            length = int(packet_length.hex())
            full_packet = conn.recv(length + 1)
            print(f"info packet recieved: {full_packet.hex()}")
            print("[No response]")

    conn.close()