hakkoso/crc8_helper.py

94 lines
2.9 KiB
Python

# Usage: AHT20 crc8 checker.
# A total of 6 * 8 bits data need to check. G(x) = x8 + x5 + x4 + 1 -> 0x131(0x31), Initial value = 0xFF. No XOROUT.
# Author: XU Zifeng.
# Email: zifeng.xu@foxmail.com
N_DATA = 6
# 1 * 8 bits CRC
N_CRC = 1
# Initial value. Equal to bit negation the first data (status of AHT20)
INIT = 0xFF
# Useful value to help calculate
LAST_8_bit = 0xFF
# Devide number retrieve from CRC-8 MAXIM G(x) = x8 + x5 + x4 + 1
CRC_DEVIDE_NUMBER = 0x131
# Data and CRC taken from AHT20, use this for testing?
TEST_DATA = [[28, 184, 245, 165, 156, 208, 163], [28, 185, 16, 149, 156, 83, 112], [
28, 184, 249, 85, 156, 114, 213], [28, 185, 9, 53, 156, 54, 45], [28, 185, 70, 117, 156, 189, 33], [28, 185, 64, 165, 156, 61, 209]]
def mod2_division_8bits(a, b, number_of_bytes, init_value):
"calculate mod2 division in 8 bits. a mod b. init_value is for crc8 init value."
head_of_a = 0x80
# Processiong a
a = a << 8
# Preprocessing head_of_a
for i in range(0, number_of_bytes):
head_of_a = head_of_a << 8
b = b << 8
init_value = init_value << 8
a = a ^ init_value
while (head_of_a > 0x80):
# Find a 1
if (head_of_a & a):
head_of_a = head_of_a >> 1
b = b >> 1
a = a ^ b
else:
head_of_a = head_of_a >> 1
b = b >> 1
# This will show calculate the remainder
# print("a:{0}\thead of a:{1}\tb:{2}".format(
# bin(a), bin(head_of_a), bin(b)))
return a
def AHT20_crc8_calculate(all_data_int):
init_value = INIT
# Preprocess all the data and CRCCode from AHT20
data_from_AHT20 = 0x00
# Preprocessing the first data (status)
# print(bin(data_from_AHT20))
for i_data in range(0, len(all_data_int)):
data_from_AHT20 = (data_from_AHT20 << 8) | all_data_int[i_data]
# print(bin(data_from_AHT20))
mod_value = mod2_division_8bits(
data_from_AHT20, CRC_DEVIDE_NUMBER, len(all_data_int), init_value)
# print(mod_value)
return mod_value
def AHT20_crc8_check(all_data_int):
"""
The input data shoule be:
Status Humidity0 Humidity1 Humidity2|Temperature0 Temperature1 Temperature2 CRCCode.
In python's int64.
"""
mod_value = AHT20_crc8_calculate(all_data_int[:-1])
if (mod_value == all_data_int[-1]):
return True
else:
return False
def CRC8_check(all_data_int, init_value=0x00):
divider = 0x107
DATA_FOR_CHECK = all_data_int[0]
for data in all_data_int[1:-1]:
DATA_FOR_CHECK = (DATA_FOR_CHECK << 8) | data
remainder = mod2_division_8bits(
DATA_FOR_CHECK, divider, len(all_data_int) - 1, init_value)
if (remainder == all_data_int[-1]):
return True
else:
return False
if __name__ == "__main__":
print(CRC8_check([0x66, 0x44, 0x33, 0x22, 0x24], 0))
for data in TEST_DATA:
print(AHT20_crc8_check(data))