forked from Telos4/LoRa-Workshop
105 lines
3.0 KiB
Python
105 lines
3.0 KiB
Python
#
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# frm_payload: data(0..N)
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#
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from .AES_CMAC import AES_CMAC
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import math
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import ucryptolib
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MODE_ECB = 1
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class DataPayload:
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def read(self, mac_payload, payload):
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self.mac_payload = mac_payload
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self.payload = payload
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def create(self, mac_payload, key, args):
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self.mac_payload = mac_payload
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self.set_payload(key, 0x00, args['data'])
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def length(self):
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return len(self.payload)
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def to_raw(self):
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return self.payload
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def set_payload(self, key, direction, data):
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self.payload = self.encrypt_payload(key, direction, data)
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def compute_mic(self, key, direction, mhdr):
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mic = [0x49]
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mic += [0x00, 0x00, 0x00, 0x00]
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mic += [direction]
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mic += self.mac_payload.get_fhdr().get_devaddr()
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mic += self.mac_payload.get_fhdr().get_fcnt()
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mic += [0x00]
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mic += [0x00]
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mic += [0x00]
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mic += [1 + self.mac_payload.length()]
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mic += [mhdr.to_raw()]
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mic += self.mac_payload.to_raw()
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cmac = AES_CMAC()
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computed_mic = cmac.encode(bytes(key), bytes(mic))[:4]
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return list(map(int, computed_mic))
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def decrypt_payload(self, key, direction, mic):
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print(self.payload, key, direction, mic)
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k = int(math.ceil(len(self.payload) / 16.0))
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a = []
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for i in range(k):
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a += [0x01]
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a += [0x00, 0x00, 0x00, 0x00]
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a += [direction]
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a += self.mac_payload.get_fhdr().get_devaddr()
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a += self.mac_payload.get_fhdr().get_fcnt()
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a += [0x00] # fcnt 32bit
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a += [0x00] # fcnt 32bit
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a += [0x00]
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a += [i+1]
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cipher = ucryptolib.aes(bytearray(key), MODE_ECB)
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s = cipher.encrypt(bytes(a))
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padded_payload = []
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for i in range(k):
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idx = (i + 1) * 16
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padded_payload += (self.payload[idx - 16:idx] + ([0x00] * 16))[:16]
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payload = []
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for i in range(len(self.payload)):
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print(s[i], padded_payload[i], s[i] ^ padded_payload[i])
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payload += [s[i] ^ padded_payload[i]]
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return list(map(int, payload))
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def encrypt_payload(self, key, direction, data):
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k = int(math.ceil(len(data) / 16.0))
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a = []
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for i in range(k):
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a += [0x01]
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a += [0x00, 0x00, 0x00, 0x00]
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a += [direction]
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a += self.mac_payload.get_fhdr().get_devaddr()
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a += self.mac_payload.get_fhdr().get_fcnt()
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a += [0x00] # fcnt 32bit
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a += [0x00] # fcnt 32bit
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a += [0x00]
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a += [i+1]
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cipher = ucryptolib.aes(bytearray(key), MODE_ECB)
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s = cipher.encrypt(bytes(a))
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padded_payload = []
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for i in range(k):
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idx = (i + 1) * 16
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padded_payload += (data[idx - 16:idx] + ([0x00] * 16))[:16]
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payload = []
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for i in range(len(data)):
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payload += [s[i] ^ padded_payload[i]]
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return list(map(int, payload))
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