예제 #1
0
 def reciveData(self,rtc,f):
     self.s.setblocking(False)
     msg=self.s.recv(128)#Get any data recieved
     #If there's any data, decrypt
     if (len(msg)>0):
         try:
             #print("encriptat: ",msg)
             cipher = AES(self.key, AES.MODE_CFB, msg[:16]) # on the decryption side
             original = cipher.decrypt(msg[16:])
             print("original ",original)
             if "Config" in original or "stop" in original or "Discover" in original or "Hello" in original or "Info" in original or "Token" in original or "Alarm" in original or "Hay" in original:
                 crc_OK,msg=self.check_crc(original)
                 if crc_OK:
                     f=open('msg_received_middle2.txt','a')
                     f.write("{}/{}/{} {}:{}:{} msg {} stats {}\n".format(rtc.now()[2],rtc.now()[1],rtc.now()[0],rtc.now()[3],rtc.now()[4],rtc.now()[5],msg,self.lora.stats()))
                     f.close()
                     return(msg)
                 else:
                     print("CRC not OK")
                     return("error")
             else:
                 return("error")
         except Exception as e:
             print(e)
             return("error")
     else:
         return("error")
예제 #2
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 def crypt(self, data):
     iv = crypto.getrandbits(
         128)  # hardware generated random IV (never reuse it)
     cipher = AES(self.key, AES.MODE_CFB, iv)
     msg = iv + cipher.encrypt(data)
     print(msg)
     return msg
예제 #3
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 def reciveData(self):
     self.s.setblocking(False)
     msg = self.s.recv(128)  #Get any data recieved
     #If there's any data, decrypt
     if (len(msg) > 0):
         try:
             #print("encriptat: ",msg)
             cipher = AES(self.key, AES.MODE_CFB,
                          msg[:16])  # on the decryption side
             original = cipher.decrypt(msg[16:])
             print("original ", original)
             if "Config" in original or "stop" in original or "Discover" in original or "Hello" in original or "Info" in original or "Token" in original or "Alarm" in original:
                 crc_OK, msg = self.check_crc(original)
                 if crc_OK:
                     return (msg)
                 else:
                     print("CRC not OK")
                     return ("error")
             else:
                 return ("error")
         except Exception as e:
             print(e)
             return ("error")
     else:
         return ("error")
예제 #4
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    def _send_with_session(self, to, session, msg_type, data):
        print("_send:", to._unit_addr, msg_type, session, to._counter_send,
              data)

        if session == None:
            raise Exception('No session')

        plain = bytearray()
        plain.append(to._unit_addr)
        plain.append(self._unit_addr)
        plain.append(msg_type)
        plain.extend(session)
        plain.extend(struct.pack('>H', to._counter_send))
        if data:
            plain.append(len(data))
            plain.extend(data)
        else:
            plain.append(0)

        plain.extend(CRC.crc16(plain))

        pads = (16 - (len(plain) % 16)) % 16
        plain.extend(pads * '=')

        print("sending:", plain)

        iv = crypto.getrandbits(32)[:2]
        aes = AES(self._crypto_key, AES.MODE_CBC, iv * 8)
        self._sock.send(self._site_id + iv + aes.encrypt(plain))

        to._counter_send = (to._counter_send + 1) % 0x10000
        if to._counter_send == 0:
            print("Reset after counter overflow")
            to._reset_trial = 0
            to._reset_next = time.ticks_ms()
예제 #5
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 def decrypt(self, data):
     iv = crypto.getrandbits(
         128)  # hardware generated random IV (never reuse it)
     cipher = AES(self.key, AES.MODE_CFB,
                  data[:16])  # on the decryption side
     original = cipher.decrypt(data[16:])
     print(original)
     return original
예제 #6
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 def sendData(self, misg):
     self.s.setblocking(True)
     iv = crypto.getrandbits(
         128)  # hardware generated random IV (never reuse it)
     cipher = AES(self.key, AES.MODE_CFB, iv)
     msg = iv + cipher.encrypt(misg)
     self.s.send(msg)
     self.s.setblocking(False)
예제 #7
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 def _encrypt(self, id, message):
     gc.collect()
     try:
         iv = crypto.getrandbits(128)
         cipher = AES(self._module['metrics'][id]['key'].encode('utf-8'), AES.MODE_CFB, iv)
         return b2a_base64(iv + cipher.encrypt(message.encode('utf-8'))).decode('utf-8')
     except:
         print("ERROR encrypting message for metric: " + str(id) + " of sensor " + str(self._module['name']) + ". Cannot proceed!")
         return None
예제 #8
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def recieveData():
    sock = socket.socket(socket.AF_LORA, socket.SOCK_RAW)
    sock.setblocking(False)
    time0 = time.time()
    while (time.time() - time0 < RECIEVING_WAIT_TIME):
        data = sock.recv(16 + struct.calcsize(DATA_FORMAT))
        if data:
            tmp_cipher = AES(NODE_KEY, AES.MODE_CFB, data[:16])
            data = tmp_cipher.decrypt(data[16:])
            if len(data) == struct.calcsize(DATA_FORMAT):
                id, node, data_seq, temp, hum, soil = struct.unpack(
                    DATA_FORMAT, data)
                if id == ID:
                    sendData(temp, hum, soil)
                    msg = struct.pack(DATA_ACK_FORMAT, node, data_seq)
                    IV = getrandbits(128)
                    CIPHER = AES(KEY, AES.MODE_CFB, IV)
                    msg = IV + CIPHER.encrypt(msg)
                    sock.send(msg)
                else:
                    LOG.warning('Message not mine: {} {} {} {} {}'.format(
                        id, node, data_seq, temp, hum, soil))
            elif len(data) == struct.calcsize(SETUP_FORMAT):
                id, node, data_seq = struct.unpack(SETUP_FORMAT, data)
                msg = struct.pack(SETUP_ACK_FORMAT, node, ID, data_seq)
                IV = getrandbits(128)
                CIPHER = AES(KEY, AES.MODE_CFB, IV)
                msg = IV + CIPHER.encrypt(msg)
                sock.send(msg)
        time.sleep_ms(50)
예제 #9
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 def sendData(self,msg,rtc,f):
     f=open('msg_sent_middle2.txt','a')
     f.write("{}/{}/{} {}:{}:{} msg {} stats {}\n".format(rtc.now()[2],rtc.now()[1],rtc.now()[0],rtc.now()[3],rtc.now()[4],rtc.now()[5],msg,self.lora.stats()))
     f.close()
     self.s.setblocking(True)
     iv = crypto.getrandbits(128) # hardware generated random IV (never reuse it)
     cipher = AES(self.key, AES.MODE_CFB, iv)
     misg_crc=msg+" "+str(self.calculate_crc(msg))
     msg = iv + cipher.encrypt(misg_crc)
     self.s.send(msg)
     self.s.setblocking(False)
예제 #10
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 def reciveData(self):
     self.s.setblocking(False)
     msg=self.s.recv(128)#Get any data recieved
     #If there's any data, decrypt
     if len(msg)>0:
         print("encriptat: ",msg)
         cipher = AES(self.key, AES.MODE_CFB, msg[:16]) # on the decryption side
         original = cipher.decrypt(msg[16:])
         print("original ",original)
         return(original)
     else:
         return
    def decode(self, data):
        counter = data[self.iv_layer]["ctr"]

        cipher = AES(self.enc_key, AES.MODE_CTR, None, counter)
        ciphertext = b""

        for item in self.dec_attr_generator(data):
            ciphertext += item

        plaintext = cipher.decrypt(ciphertext)

        self.update_dec_data(data, plaintext)

        return data
    def encode(self, data):
        counter = getrandbits(128)

        data[self.iv_layer][-1] = counter

        cipher = AES(self.enc_key, AES.MODE_CTR, None, counter)

        plaintext = b""

        for item in self.enc_attr_generator(data):
            plaintext += item

        ciphertext = cipher.encrypt(plaintext)

        self.update_enc_data(data, ciphertext)

        return data
예제 #13
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    def _recv(self):
        while True:
            p = self._sock.recv(128)
            p_len = len(p)
            if p_len == 0:
                break

            print("recv:", p)

            site_id_len = len(self._site_id)
            if (p_len >= (site_id_len + 16)
                    and p[:site_id_len] == self._site_id):
                iv = p[site_id_len:2 + site_id_len] * 8
                aes = AES(self._crypto_key, AES.MODE_CBC, iv)
                plain = aes.decrypt(p[2 + site_id_len:])

                print("plain:", plain)

                to_addr = plain[0]
                from_addr = plain[1]

                if to_addr == from_addr:
                    print("Error: from == to")
                    return

                msg_type = plain[2]
                sent_session = plain[3:11]
                sent_counter = struct.unpack('>H', plain[11:13])[0]
                data_len = plain[13]
                if data_len > 0:
                    data = plain[14:14 + data_len]
                else:
                    data = None

                crc = plain[14 + data_len:14 + data_len + 2]
                if crc != CRC.crc16(plain[:14 + data_len]):
                    print("Error: crc")
                    return

                if self._unit_addr == to_addr:
                    sender = self._nodes[from_addr]
                    if sender:
                        sender._lora_stats = self._lora.stats()
                        self._process_message(sender, msg_type, sent_session,
                                              sent_counter, data)
예제 #14
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def getGateway(seq=0):
    sock = socket.socket(socket.AF_LORA, socket.SOCK_RAW)
    sock.settimeout(SETUP_ACK_TIMEOUT)
    msg = struct.pack(SETUP_FORMAT, BROADCAST, ID, seq)
    IV = getrandbits(128)
    CIPHER = AES(KEY, AES.MODE_CFB, IV)
    msg = IV + CIPHER.encrypt(msg)
    wait_for_ack = True
    errors_count = 0
    while wait_for_ack and errors_count < SETUP_ACK_RETRIES:
        sock.send(msg)
        try:
            ack = sock.recv(16 + struct.calcsize(SETUP_ACK_FORMAT))
            if len(ack):
                tmp_cipher = AES(GATEWAY_KEY, AES.MODE_CFB, ack[:16])
                ack = tmp_cipher.decrypt(ack[16:])
                id, gateway, ack_seq = struct.unpack(SETUP_ACK_FORMAT, ack)
                if id == ID and ack_seq == seq:
                    wait_for_ack = False
                else:
                    LOG.warning('Recieved message not mine: {} {} {}'.format(
                        id, gateway, ack_seq))
        except TimeoutError:
            errors_count += 1
            if errors_count == SETUP_ACK_RETRIES:
                LOG.error('Message couldn\'t be sended. Switching off.')
                sock.close()
                sys.exit(-1)
            else:
                time.sleep(5)
        time.sleep(2)
    sock.close()
    LOG.info('My gateway is {0}'.format(gateway))
    return gateway
예제 #15
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def sendData(data, seq):
    sock = socket.socket(socket.AF_LORA, socket.SOCK_RAW)
    sock.settimeout(SETUP_ACK_TIMEOUT)
    msg = struct.pack(DATA_FORMAT, GATEWAY, ID, seq, data[0], data[1], data[2])
    IV = getrandbits(128)
    CIPHER = AES(KEY, AES.MODE_CFB, IV)
    msg = IV + CIPHER.encrypt(msg)
    wait_for_ack = True
    errors_count = 0
    while wait_for_ack and errors_count < DATA_ACK_RETRIES:
        sock.send(msg)
        LOG.debug('Data sended: {} as temp, {} as hum, {} as soil hum'.format(
            data[0], data[1], data[2]))
        try:
            ack = sock.recv(16 + struct.calcsize(DATA_ACK_FORMAT))
            if len(ack):
                tmp_cipher = AES(GATEWAY_KEY, AES.MODE_CFB, ack[:16])
                ack = tmp_cipher.decrypt(ack[16:])
                id, ack_seq = struct.unpack(DATA_ACK_FORMAT, ack)
                if id == ID and ack_seq == seq:
                    wait_for_ack = False
                    LOG.info('Message sended successfully.')
                else:
                    LOG.warning('Recieved message not mine: {} {}'.format(
                        id, ack_seq))
        except TimeoutError:
            errors_count += 1
            if errors_count == DATA_ACK_RETRIES:
                LOG.error('Message couldn\'t be sended. Switching off.')
                sock.close()
                sys.exit(-1)
            else:
                time.sleep(5)
        time.sleep(2)
    sock.close()
예제 #16
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def send(clearSend):
    key = encryptionKey
    iv = bytes(map(ord, accessToken[0:16]))

    if len(clearSend) % 16 != 0:
        pad = 16 - (len(clearSend) % 16)
        clearSend = clearSend + (pad * chr(pad))  #pad PKCS#7

    cryptor = AES(key, AES.MODE_CBC, iv)
    ciphertext = cryptor.encrypt(clearSend)

    toSend = binascii.b2a_base64(ciphertext)[:-1]

    a = urequests.post("http://" + serverAddress + ':' + str(serverPort) +
                       '/exchange',
                       headers={
                           "Connection": "close",
                           "Content-Type": "text/plain",
                           "User-Agent": "iotway-product",
                           "Host": serverAddress,
                           "Authorization": "Bearer " + productId
                       },
                       data=toSend)
# Simple example for working with encrypting data
#
import sys

# First, make sure this is running on a WiPy (pycom)
try:
    import pycom
    from crypto import AES
except ImportError:
    print("ERROR: not on a WiPy (or Pycom) board!")
    sys.exit(-1)

# Setup encryption using simple, basic encryption
# NOTICE: you normally would protect this key!
my_key = b'monkeybreadyummy'  # 128 bit (16 bytes) key
cipher = AES(my_key, AES.MODE_ECB)

# Create the file and encrypt the data
new_file = open("secret_log.txt", "w")  # use "write" mode
new_file.write(cipher.encrypt("1,apples,2.5   \n"))  # write some data
new_file.write(cipher.encrypt("2,oranges,1    \n"))  # write some data
new_file.write(cipher.encrypt("3,peaches,3    \n"))  # write some data
new_file.write(cipher.encrypt("4,grapes,21    \n"))  # write some data
new_file.close()  # close the file

# Step 2: Open the file and read data
old_file = open("secret_log.txt", "r")  # use "read" mode
# Use a loop to read all rows in the file
for row in old_file.readlines():
    data = cipher.decrypt(row).decode('ascii')
    columns = data.strip("\n").split(",")  # split row by commas
예제 #18
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 def _crypt(self, data, key):
     """Crypt a data with the key, key.
     add the iv at the beginning of the message"""
     iv = crypto.getrandbits(128)
     cipher = AES(key, AES.MODE_CFB, iv)
     return (iv + cipher.encrypt(data))
예제 #19
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 def _decrypt(self, data, key):
     """Decrypt a message"""
     print(data[:16])
     cipher = AES(key, AES.MODE_CFB, data[:16])
     return (cipher.decrypt(data[16:]))
예제 #20
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def decrypt(recv_pkg):
    cipher = AES(key, AES.MODE_CFB, recv_pkg[:16])  # on the decryption side
    recv_pkg = cipher.decrypt(recv_pkg[16:])
    return (recv_pkg)
예제 #21
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def encrypt(send_pkg):
    cipher = AES(key, AES.MODE_CFB, iv)
    send_pkg = iv + cipher.encrypt(send_pkg)
    return (send_pkg)
예제 #22
0
파일: main.py 프로젝트: waheb2020/ts-lora
def join_request(_sf):
    global lora
    global DevEUI
    global lora_sock
    global active_tx
    global active_rx
    global my_slot
    global AppKey
    global DevNonce
    global AppSKey
    rmsg = DevEUI+":"+JoinEUI+":"+str(DevNonce)+":"+str(_sf)
    pkg = struct.pack(_LORA_PKG_FORMAT % len(rmsg), MY_ID, len(rmsg), rmsg)
    i = 0
    while (i == 0):
        pycom.rgbled(blue)
        lora.init(mode=LoRa.LORA, tx_iq=True, region=LoRa.EU868, frequency=freqs[0], power_mode=LoRa.TX_ONLY, bandwidth=LoRa.BW_125KHZ, sf=12, tx_power=7)
        start = time.ticks_us()
        # while(lora.ischannel_free(-90) == False):
        #     time.sleep(1)
        lora_sock.send(pkg)
        active_tx += time.ticks_us()-start
        print("Request sent!", pkg)
        time.sleep_ms(100)
        lora_sock.setblocking(True)
        lora.init(mode=LoRa.LORA, rx_iq=True, region=LoRa.EU868, frequency=freqs[1], power_mode=LoRa.ALWAYS_ON, bandwidth=LoRa.BW_125KHZ, sf=12)
        start = time.ticks_us()
        pycom.rgbled(green)
        lora_sock.settimeout(5)
        try:
            while (True):
                recv_pkg = lora_sock.recv(50)
                if (len(recv_pkg) > 2):
                    recv_pkg_len = recv_pkg[1]
                    recv_pkg_id = recv_pkg[0]
                    if (int(recv_pkg_id) == 1):
                        dev_id, leng, rmsg = struct.unpack(_LORA_RCV_PKG_FORMAT % recv_pkg_len, recv_pkg)
                        print('Device: %d - Pkg:  %s' % (dev_id, rmsg))
                        rmsg = str(rmsg)[2:]
                        rmsg = rmsg[:-1]
                        (dev_id, DevAddr, JoinNonce) = str(rmsg).split(":")
                        if (int(dev_id) == int(MY_ID)):
                            pycom.rgbled(blue)
                            lora.power_mode(LoRa.SLEEP)
                            active_rx += time.ticks_us()-start
                            start = -10000
                            i = 1
                            break
        except:
            if (i == 0):
                lora.power_mode(LoRa.SLEEP)
                active_rx += time.ticks_us()-start
                random_sleep(5)
                DevNonce += 1

    # AppSKey generation
    text = "".join( [AppKey[:2], JoinNonce, JoinEUI, str(DevNonce)] )
    while (len(str(text)) < 32):
        text = "".join([str(text),"0"])
    encryptor = AES(AppKey, AES.MODE_ECB)
    AppSKey = encryptor.encrypt(binascii.unhexlify(text))
    # slot generation
    text = "".join([DevAddr, DevEUI])
    thash = uhashlib.sha256()
    thash.update(text)
    thash = int(ubinascii.hexlify(thash.digest()), 16)
    my_slot = thash % S
    print("Slot =", my_slot, "DevAddr = ", DevAddr)
    print("joining the network lasted (s):", (time.ticks_us()-join_start)/1e6)
    sync()