foxBMS - Unit Tests  1.4.1
The foxBMS Unit Tests API Documentation
diag_cbs_temperature.c
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41 
42 /**
43  * @file diag_cbs_temperature.c
44  * @author foxBMS Team
45  * @date 2021-02-17 (date of creation)
46  * @updated 2022-10-27 (date of last update)
47  * @version v1.4.1
48  * @ingroup ENGINE
49  * @prefix DIAG
50  *
51  * @brief Diagnosis driver implementation
52  * @details TODO
53  */
54 
55 /*========== Includes =======================================================*/
56 #include "diag_cbs.h"
57 
58 /*========== Macros and Definitions =========================================*/
59 
60 /*========== Static Constant and Variable Definitions =======================*/
61 
62 /*========== Extern Constant and Variable Definitions =======================*/
63 
64 /*========== Static Function Prototypes =====================================*/
65 
66 /*========== Static Function Implementations ================================*/
67 
68 /*========== Extern Function Implementations ================================*/
70  DIAG_ID_e diagId,
71  DIAG_EVENT_e event,
72  const DIAG_DATABASE_SHIM_s *const kpkDiagShim,
73  uint32_t stringNumber) {
74  FAS_ASSERT(diagId < DIAG_ID_MAX);
75  FAS_ASSERT((event == DIAG_EVENT_OK) || (event == DIAG_EVENT_NOT_OK) || (event == DIAG_EVENT_RESET));
76  FAS_ASSERT(kpkDiagShim != NULL_PTR);
77  FAS_ASSERT(stringNumber < BS_NR_OF_STRINGS);
78 
80  if (event == DIAG_EVENT_RESET) {
81  kpkDiagShim->pTableMsl->overtemperatureCharge[stringNumber] = 0;
82  }
83  if (event == DIAG_EVENT_NOT_OK) {
84  kpkDiagShim->pTableMsl->overtemperatureCharge[stringNumber] = 1;
85  }
86  } else if (diagId == DIAG_ID_TEMP_OVERTEMPERATURE_CHARGE_RSL) {
87  if (event == DIAG_EVENT_RESET) {
88  kpkDiagShim->pTableRsl->overtemperatureCharge[stringNumber] = 0;
89  }
90  if (event == DIAG_EVENT_NOT_OK) {
91  kpkDiagShim->pTableRsl->overtemperatureCharge[stringNumber] = 1;
92  }
93  } else if (diagId == DIAG_ID_TEMP_OVERTEMPERATURE_CHARGE_MOL) {
94  if (event == DIAG_EVENT_RESET) {
95  kpkDiagShim->pTableMol->overtemperatureCharge[stringNumber] = 0;
96  }
97  if (event == DIAG_EVENT_NOT_OK) {
98  kpkDiagShim->pTableMol->overtemperatureCharge[stringNumber] = 1;
99  }
100  }
101 }
102 
104  DIAG_ID_e diagId,
105  DIAG_EVENT_e event,
106  const DIAG_DATABASE_SHIM_s *const kpkDiagShim,
107  uint32_t stringNumber) {
108  FAS_ASSERT(diagId < DIAG_ID_MAX);
109  FAS_ASSERT((event == DIAG_EVENT_OK) || (event == DIAG_EVENT_NOT_OK) || (event == DIAG_EVENT_RESET));
110  FAS_ASSERT(kpkDiagShim != NULL_PTR);
111  FAS_ASSERT(stringNumber < BS_NR_OF_STRINGS);
112 
114  if (event == DIAG_EVENT_RESET) {
115  kpkDiagShim->pTableMsl->overtemperatureDischarge[stringNumber] = 0;
116  }
117  if (event == DIAG_EVENT_NOT_OK) {
118  kpkDiagShim->pTableMsl->overtemperatureDischarge[stringNumber] = 1;
119  }
120  } else if (diagId == DIAG_ID_TEMP_OVERTEMPERATURE_DISCHARGE_RSL) {
121  if (event == DIAG_EVENT_RESET) {
122  kpkDiagShim->pTableRsl->overtemperatureDischarge[stringNumber] = 0;
123  }
124  if (event == DIAG_EVENT_NOT_OK) {
125  kpkDiagShim->pTableRsl->overtemperatureDischarge[stringNumber] = 1;
126  }
127  } else if (diagId == DIAG_ID_TEMP_OVERTEMPERATURE_DISCHARGE_MOL) {
128  if (event == DIAG_EVENT_RESET) {
129  kpkDiagShim->pTableMol->overtemperatureDischarge[stringNumber] = 0;
130  }
131  if (event == DIAG_EVENT_NOT_OK) {
132  kpkDiagShim->pTableMol->overtemperatureDischarge[stringNumber] = 1;
133  }
134  }
135 }
136 
138  DIAG_ID_e diagId,
139  DIAG_EVENT_e event,
140  const DIAG_DATABASE_SHIM_s *const kpkDiagShim,
141  uint32_t stringNumber) {
142  FAS_ASSERT(diagId < DIAG_ID_MAX);
143  FAS_ASSERT((event == DIAG_EVENT_OK) || (event == DIAG_EVENT_NOT_OK) || (event == DIAG_EVENT_RESET));
144  FAS_ASSERT(kpkDiagShim != NULL_PTR);
145  FAS_ASSERT(stringNumber < BS_NR_OF_STRINGS);
146 
148  if (event == DIAG_EVENT_RESET) {
149  kpkDiagShim->pTableMsl->undertemperatureCharge[stringNumber] = 0;
150  }
151  if (event == DIAG_EVENT_NOT_OK) {
152  kpkDiagShim->pTableMsl->undertemperatureCharge[stringNumber] = 1;
153  }
154  } else if (diagId == DIAG_ID_TEMP_UNDERTEMPERATURE_CHARGE_RSL) {
155  if (event == DIAG_EVENT_RESET) {
156  kpkDiagShim->pTableRsl->undertemperatureCharge[stringNumber] = 0;
157  }
158  if (event == DIAG_EVENT_NOT_OK) {
159  kpkDiagShim->pTableRsl->undertemperatureCharge[stringNumber] = 1;
160  }
161  } else if (diagId == DIAG_ID_TEMP_UNDERTEMPERATURE_CHARGE_MOL) {
162  if (event == DIAG_EVENT_RESET) {
163  kpkDiagShim->pTableMol->undertemperatureCharge[stringNumber] = 0;
164  }
165  if (event == DIAG_EVENT_NOT_OK) {
166  kpkDiagShim->pTableMol->undertemperatureCharge[stringNumber] = 1;
167  }
168  }
169 }
170 
172  DIAG_ID_e diagId,
173  DIAG_EVENT_e event,
174  const DIAG_DATABASE_SHIM_s *const kpkDiagShim,
175  uint32_t stringNumber) {
176  FAS_ASSERT(diagId < DIAG_ID_MAX);
177  FAS_ASSERT((event == DIAG_EVENT_OK) || (event == DIAG_EVENT_NOT_OK) || (event == DIAG_EVENT_RESET));
178  FAS_ASSERT(kpkDiagShim != NULL_PTR);
179  FAS_ASSERT(stringNumber < BS_NR_OF_STRINGS);
180 
182  if (event == DIAG_EVENT_RESET) {
183  kpkDiagShim->pTableMsl->undertemperatureDischarge[stringNumber] = 0;
184  }
185  if (event == DIAG_EVENT_NOT_OK) {
186  kpkDiagShim->pTableMsl->undertemperatureDischarge[stringNumber] = 1;
187  }
188  } else if (diagId == DIAG_ID_TEMP_UNDERTEMPERATURE_DISCHARGE_RSL) {
189  if (event == DIAG_EVENT_RESET) {
190  kpkDiagShim->pTableRsl->undertemperatureDischarge[stringNumber] = 0;
191  }
192  if (event == DIAG_EVENT_NOT_OK) {
193  kpkDiagShim->pTableRsl->undertemperatureDischarge[stringNumber] = 1;
194  }
195  } else if (diagId == DIAG_ID_TEMP_UNDERTEMPERATURE_DISCHARGE_MOL) {
196  if (event == DIAG_EVENT_RESET) {
197  kpkDiagShim->pTableMol->undertemperatureDischarge[stringNumber] = 0;
198  }
199  if (event == DIAG_EVENT_NOT_OK) {
200  kpkDiagShim->pTableMol->undertemperatureDischarge[stringNumber] = 1;
201  }
202  }
203 }
204 
205 /*========== Externalized Static Function Implementations (Unit Test) =======*/
#define BS_NR_OF_STRINGS
Number of parallel strings in the battery pack.
Diagnosis driver header.
void DIAG_ErrorOvertemperatureDischarge(DIAG_ID_e diagId, DIAG_EVENT_e event, const DIAG_DATABASE_SHIM_s *const kpkDiagShim, uint32_t stringNumber)
diagnosis callback function for overtemperature discharge events
void DIAG_ErrorUndertemperatureCharge(DIAG_ID_e diagId, DIAG_EVENT_e event, const DIAG_DATABASE_SHIM_s *const kpkDiagShim, uint32_t stringNumber)
diagnosis callback function for undertemperature charge events
void DIAG_ErrorOvertemperatureCharge(DIAG_ID_e diagId, DIAG_EVENT_e event, const DIAG_DATABASE_SHIM_s *const kpkDiagShim, uint32_t stringNumber)
diagnosis callback function for overtemperature charge events
void DIAG_ErrorUndertemperatureDischarge(DIAG_ID_e diagId, DIAG_EVENT_e event, const DIAG_DATABASE_SHIM_s *const kpkDiagShim, uint32_t stringNumber)
diagnosis callback function for undertemperature discharge events
DIAG_EVENT_e
Definition: diag_cfg.h:256
@ DIAG_EVENT_RESET
Definition: diag_cfg.h:259
@ DIAG_EVENT_NOT_OK
Definition: diag_cfg.h:258
@ DIAG_EVENT_OK
Definition: diag_cfg.h:257
DIAG_ID_e
Definition: diag_cfg.h:174
@ DIAG_ID_TEMP_OVERTEMPERATURE_DISCHARGE_MSL
Definition: diag_cfg.h:202
@ DIAG_ID_TEMP_UNDERTEMPERATURE_CHARGE_MSL
Definition: diag_cfg.h:205
@ DIAG_ID_TEMP_OVERTEMPERATURE_DISCHARGE_RSL
Definition: diag_cfg.h:203
@ DIAG_ID_TEMP_UNDERTEMPERATURE_DISCHARGE_RSL
Definition: diag_cfg.h:209
@ DIAG_ID_TEMP_UNDERTEMPERATURE_CHARGE_RSL
Definition: diag_cfg.h:206
@ DIAG_ID_TEMP_OVERTEMPERATURE_DISCHARGE_MOL
Definition: diag_cfg.h:204
@ DIAG_ID_TEMP_OVERTEMPERATURE_CHARGE_MSL
Definition: diag_cfg.h:199
@ DIAG_ID_TEMP_OVERTEMPERATURE_CHARGE_MOL
Definition: diag_cfg.h:201
@ DIAG_ID_TEMP_UNDERTEMPERATURE_CHARGE_MOL
Definition: diag_cfg.h:207
@ DIAG_ID_MAX
Definition: diag_cfg.h:252
@ DIAG_ID_TEMP_UNDERTEMPERATURE_DISCHARGE_MOL
Definition: diag_cfg.h:210
@ DIAG_ID_TEMP_OVERTEMPERATURE_CHARGE_RSL
Definition: diag_cfg.h:200
@ DIAG_ID_TEMP_UNDERTEMPERATURE_DISCHARGE_MSL
Definition: diag_cfg.h:208
#define FAS_ASSERT(x)
Assertion macro that asserts that x is true.
Definition: fassert.h:248
#define NULL_PTR
Null pointer.
Definition: fstd_types.h:76
uint8_t undertemperatureDischarge[BS_NR_OF_STRINGS]
Definition: database_cfg.h:488
uint8_t overtemperatureDischarge[BS_NR_OF_STRINGS]
Definition: database_cfg.h:486
uint8_t overtemperatureCharge[BS_NR_OF_STRINGS]
Definition: database_cfg.h:485
uint8_t undertemperatureCharge[BS_NR_OF_STRINGS]
Definition: database_cfg.h:487
uint8_t undertemperatureDischarge[BS_NR_OF_STRINGS]
Definition: database_cfg.h:448
uint8_t overtemperatureCharge[BS_NR_OF_STRINGS]
Definition: database_cfg.h:445
uint8_t overtemperatureDischarge[BS_NR_OF_STRINGS]
Definition: database_cfg.h:446
uint8_t undertemperatureCharge[BS_NR_OF_STRINGS]
Definition: database_cfg.h:447
uint8_t undertemperatureDischarge[BS_NR_OF_STRINGS]
Definition: database_cfg.h:468
uint8_t undertemperatureCharge[BS_NR_OF_STRINGS]
Definition: database_cfg.h:467
uint8_t overtemperatureDischarge[BS_NR_OF_STRINGS]
Definition: database_cfg.h:466
uint8_t overtemperatureCharge[BS_NR_OF_STRINGS]
Definition: database_cfg.h:465
DATA_BLOCK_MOL_FLAG_s * pTableMol
Definition: diag_cfg.h:165
DATA_BLOCK_RSL_FLAG_s * pTableRsl
Definition: diag_cfg.h:166
DATA_BLOCK_MSL_FLAG_s * pTableMsl
Definition: diag_cfg.h:167