foxBMS-UnitTests  1.0.0
The foxBMS Unit Tests API Documentation
mxm_crc8.c
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41 
42 /**
43  * @file mxm_crc8.c
44  * @author foxBMS Team
45  * @date 2019-02-05 (date of creation)
46  * @updated 2020-04-27 (date of last update)
47  * @ingroup DRIVERS
48  * @prefix MXM
49  *
50  * @brief CRC8 calculation for Maxim Integrated Monitoring devices
51  *
52  * @details This module supports the calculation of a CRC8 based on the
53  * polynomial described in the Maxim datasheets.
54  * The polynomial is 0xA6.
55  *
56  */
57 
58 /*========== Includes =======================================================*/
59 #include "mxm_crc8.h"
60 
61 /*========== Macros and Definitions =========================================*/
62 
63 /*========== Static Constant and Variable Definitions =======================*/
64 
65 /**
66  * @brief Precomputed CRC8-table for polynomial 0xA6
67  * @details This array contains the precomputed results for the
68  * look-up-table-based computation of a CRC8 with polynomial 0xA6.
69  * The polynomial-number represents the coefficients of the polynomial
70  * like this:
71  * 8 7 6 5 4 3 2 1 0
72  * 1 0 1 0 0 1 1 0 1
73  * --> 14D
74  *
75  * This polynomial can also be
76  * called 0x14D according to the notation (0xA6 << 1).
77  */
78 static const uint8_t mxm_crc8Table[256] = {
79  0x00u, 0x3Eu, 0x7Cu, 0x42u, 0xF8u, 0xC6u, 0x84u, 0xBAu, 0x95u, 0xABu, 0xE9u, 0xD7u, 0x6Du, 0x53u, 0x11u, 0x2Fu,
80  0x4Fu, 0x71u, 0x33u, 0x0Du, 0xB7u, 0x89u, 0xCBu, 0xF5u, 0xDAu, 0xE4u, 0xA6u, 0x98u, 0x22u, 0x1Cu, 0x5Eu, 0x60u,
81  0x9Eu, 0xA0u, 0xE2u, 0xDCu, 0x66u, 0x58u, 0x1Au, 0x24u, 0x0Bu, 0x35u, 0x77u, 0x49u, 0xF3u, 0xCDu, 0x8Fu, 0xB1u,
82  0xD1u, 0xEFu, 0xADu, 0x93u, 0x29u, 0x17u, 0x55u, 0x6Bu, 0x44u, 0x7Au, 0x38u, 0x06u, 0xBCu, 0x82u, 0xC0u, 0xFEu,
83  0x59u, 0x67u, 0x25u, 0x1Bu, 0xA1u, 0x9Fu, 0xDDu, 0xE3u, 0xCCu, 0xF2u, 0xB0u, 0x8Eu, 0x34u, 0x0Au, 0x48u, 0x76u,
84  0x16u, 0x28u, 0x6Au, 0x54u, 0xEEu, 0xD0u, 0x92u, 0xACu, 0x83u, 0xBDu, 0xFFu, 0xC1u, 0x7Bu, 0x45u, 0x07u, 0x39u,
85  0xC7u, 0xF9u, 0xBBu, 0x85u, 0x3Fu, 0x01u, 0x43u, 0x7Du, 0x52u, 0x6Cu, 0x2Eu, 0x10u, 0xAAu, 0x94u, 0xD6u, 0xE8u,
86  0x88u, 0xB6u, 0xF4u, 0xCAu, 0x70u, 0x4Eu, 0x0Cu, 0x32u, 0x1Du, 0x23u, 0x61u, 0x5Fu, 0xE5u, 0xDBu, 0x99u, 0xA7u,
87  0xB2u, 0x8Cu, 0xCEu, 0xF0u, 0x4Au, 0x74u, 0x36u, 0x08u, 0x27u, 0x19u, 0x5Bu, 0x65u, 0xDFu, 0xE1u, 0xA3u, 0x9Du,
88  0xFDu, 0xC3u, 0x81u, 0xBFu, 0x05u, 0x3Bu, 0x79u, 0x47u, 0x68u, 0x56u, 0x14u, 0x2Au, 0x90u, 0xAEu, 0xECu, 0xD2u,
89  0x2Cu, 0x12u, 0x50u, 0x6Eu, 0xD4u, 0xEAu, 0xA8u, 0x96u, 0xB9u, 0x87u, 0xC5u, 0xFBu, 0x41u, 0x7Fu, 0x3Du, 0x03u,
90  0x63u, 0x5Du, 0x1Fu, 0x21u, 0x9Bu, 0xA5u, 0xE7u, 0xD9u, 0xF6u, 0xC8u, 0x8Au, 0xB4u, 0x0Eu, 0x30u, 0x72u, 0x4Cu,
91  0xEBu, 0xD5u, 0x97u, 0xA9u, 0x13u, 0x2Du, 0x6Fu, 0x51u, 0x7Eu, 0x40u, 0x02u, 0x3Cu, 0x86u, 0xB8u, 0xFAu, 0xC4u,
92  0xA4u, 0x9Au, 0xD8u, 0xE6u, 0x5Cu, 0x62u, 0x20u, 0x1Eu, 0x31u, 0x0Fu, 0x4Du, 0x73u, 0xC9u, 0xF7u, 0xB5u, 0x8Bu,
93  0x75u, 0x4Bu, 0x09u, 0x37u, 0x8Du, 0xB3u, 0xF1u, 0xCFu, 0xE0u, 0xDEu, 0x9Cu, 0xA2u, 0x18u, 0x26u, 0x64u, 0x5Au,
94  0x3Au, 0x04u, 0x46u, 0x78u, 0xC2u, 0xFCu, 0xBEu, 0x80u, 0xAFu, 0x91u, 0xD3u, 0xEDu, 0x57u, 0x69u, 0x2Bu, 0x15u,
95 };
96 
97 /*========== Extern Constant and Variable Definitions =======================*/
98 
99 /*========== Static Function Prototypes =====================================*/
100 
101 /*========== Static Function Implementations ================================*/
102 
103 /*========== Extern Function Implementations ================================*/
104 
105 extern uint8_t MXM_CRC8WithInitValue(uint16_t *pData, int32_t lenData, uint8_t crcInit) {
106  uint8_t crc = crcInit;
107  int32_t len = lenData;
108  uint16_t *data = pData;
109  while (len > 0) {
110  crc = mxm_crc8Table[*data ^ crc];
111  data++;
112  len--;
113  }
114  return crc;
115 }
116 
117 extern uint8_t MXM_CRC8(uint16_t *pData, int32_t lenData) {
118  return MXM_CRC8WithInitValue(pData, lenData, 0);
119 }
120 
122  uint16_t testSequence1[4] = {0x02u, 0x12u, 0xB1u, 0xB2u};
123  FAS_ASSERT(MXM_CRC8(testSequence1, 4) == 0xC4u);
124 
125  uint16_t testSequence2[3] = {0x03u, 0x12u, 0x00u};
126  FAS_ASSERT(MXM_CRC8(testSequence2, 3) == 0xCBu);
127 
128  uint16_t testSequence3[10] = {0x02u, 0x5Bu, 0x12u, 0x42u, 0xFFu, 0xD3u, 0x13u, 0x77u, 0xA1u, 0x31u};
129  FAS_ASSERT(MXM_CRC8(testSequence3, 10) == 0x7Eu);
130 
131  uint16_t testSequence4[3] = {0x03u, 0x66u, 0x00u};
132  FAS_ASSERT(MXM_CRC8(testSequence4, 3) == 0x43u);
133 
134  return STD_OK;
135 }
136 
137 /*========== Externalized Static Function Implementations (Unit Test) =======*/
MXM_CRC8SelfTest
STD_RETURN_TYPE_e must_check_return MXM_CRC8SelfTest()
Test the CRC8-algorithm with a known pattern.
Definition: mxm_crc8.c:121
STD_RETURN_TYPE_e
enum STD_RETURN_TYPE STD_RETURN_TYPE_e
MXM_CRC8WithInitValue
uint8_t MXM_CRC8WithInitValue(uint16_t *pData, int32_t lenData, uint8_t crcInit)
Compute CRC8 (0xA6) with initial value.
Definition: mxm_crc8.c:105
mxm_crc8.h
Headers for the CRC8 calculation for Maxim Integrated Monitoring devices.
FAS_ASSERT
#define FAS_ASSERT(x)
Assertion macro that asserts that x is true.
Definition: fassert.h:233
MXM_CRC8
uint8_t MXM_CRC8(uint16_t *pData, int32_t lenData)
Compute CRC8 with initial value set to 0x00.
Definition: mxm_crc8.c:117
must_check_return
#define must_check_return
Allows functions to generate warnings in GCC for unused returns.
Definition: general.h:95
STD_OK
@ STD_OK
Definition: fstd_types.h:72
mxm_crc8Table
static const uint8_t mxm_crc8Table[256]
Precomputed CRC8-table for polynomial 0xA6.
Definition: mxm_crc8.c:78