#include "GPIO.h"
#include "Telltales.h"
#include "Telltales_user.h"
#include "CAN_Communication_Matrix.h"
#include "Flash_synchronizer.h"
#include "EOL_Para.h"
#include "Sound_Scheduler.h"
#include "SEG_DISPLAY.h"
#include "Maintenance.h"
#include "Line_in.h"
#include "IS31FL3236.h"
#include "Service_TPMS.h"
#include "Data_AirPressure.h"
#include "Data_CoolantTemperature.h"
#include "FuelConfig.h"
#include "Data_Fuel_User.h"
#include "kwp2000_service.h"
#include "Common_Interface.h"
static uint8_t L12_Air_Sta ;
TelltaleLRCtrlStruct TelltaleLRCtrl;
const LED_Attribute_st LED_Attribute[LED_Max] =
{
/* 指示灯索引 是否自检 外部信号自检 工作电源状态 自检开始时间 自检持续时间 指示灯点亮条件 指示灯执行函数 */
{ em_LED_INTER_DIFF_LOCK_T , NoSelfCheck , ExterNalCheck , LED_IGN_ON_OFF , 2500u, 4500ul, LED_INTER_DIFF_LOCK_T_Judgement , LED_INTER_DIFF_LOCK_T_Execution },
{ em_LED_FOUR_MUL_FOUR_T , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_FOUR_MUL_FOUR_T_Judgement , LED_FOUR_MUL_FOUR_T_Execution },
{ em_LED_EXH_BRAKE_T , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_EXH_BRAKE_T_Judgement , LED_EXH_BRAKE_T_Execution },
{ em_LED_QOS_GLOW_T , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_QOS_GLOW_T_Judgement , LED_QOS_GLOW_T_Execution },
{ em_LED_HI_BEAM_T , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_HI_BEAM_T_Judgement , LED_HI_BEAM_T_Execution },
{ em_LED_Rr_FOG_LAMP_T , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_Rr_FOG_LAMP_T_Judgement , LED_Rr_FOG_LAMP_T_Execution },
{ em_LED_MIL_T , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_MIL_T_Judgement , LED_MIL_T_Execution },
{ em_LED_SVS_T , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_SVS_T_Judgement , LED_SVS_T_Execution },
{ em_LED_H_S_A__T , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_H_S_A_T_Judgement , LED_H_S_A_T_Execution },
{ em_LED_RETARDER_T , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_RETARDER_T_Judgement , LED_RETARDER_T_Execution },
{ em_LED_AUTO_LEVELING_T , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_AUTO_LEVELING_T_Judgement , LED_AUTO_LEVELING_T_Execution },
{ em_LED_ROWS_L , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_ROWS_L_Judgement , LED_ROWS_L_Execution },
{ em_LED_BSM_OFF_L , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_BSM_OFF_L_Judgement , LED_BSM_OFF_L_Execution },
{ em_LED_AEBS_OFF_L , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_AEBS_OFF_L_Judgement , LED_AEBS_OFF_L_Execution },
{ em_LED_LDWS_L , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_LDWS_L_Judgement , LED_LDWS_L_Execution },
{ em_LED_SRS_L , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_SRS_L_Judgement , LED_SRS_L_Execution },
{ em_LED_ENG_OIL_L , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_ENG_OIL_L_Judgement , LED_ENG_OIL_L_Execution },
{ em_LED_CHARG_L , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_CHARG_L_Judgement , LED_CHARG_L_Execution },
{ em_LED_SEAT_BELT_L , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_SEAT_BELT_L_Judgement , LED_SEAT_BELT_L_Execution },
{ em_LED_RR_DIFF_LOCK_L , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_RR_DIFF_LOCK_L_Judgement , LED_RR_DIFF_LOCK_L_Execution },
{ em_LED_TPMS_L , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_TPMS_L_Judgement , LED_TPMS_L_Execution },
{ em_LED_ASR_or_EVSC_OFF_L , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_ASR_or_EVSC_OFF_L_Judgement , LED_ASR_or_EVSC_OFF_L_Execution },
{ em_LED_EVSC_L , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_EVSC_L_Judgement , LED_EVSC_L_Execution },
{ em_LED_eco_stop_OFF_L , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_eco_stop_OFF_L_Judgement , LED_eco_stop_OFF_L_Execution },
{ em_LED_AMT_L , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_AMT_L_Judgement , LED_AMT_L_Execution },
{ em_LED_WEAR_IND_L , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_WEAR_IND_L_Judgement , LED_WEAR_IND_L_Execution },
{ em_LED_TRAILER_BRAKE_R , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_TRAILER_BRAKE_R_Judgement , LED_TRAILER_BRAKE_R_Execution },
{ em_LED_BRAKE_AIR_or_EBS_YELLOW_R , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_BRAKE_AIR_or_EBS_YELLOW_R_Judgement , LED_BRAKE_AIR_or_EBS_YELLOW_R_Execution },
{ em_LED_ACC_AIR_R , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_ACC_AIR_R_Judgement , LED_ACC_AIR_R_Execution },
{ em_LED_ABS_R , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_ABS_R_Judgement , LED_ABS_R_Execution },
{ em_LED_PARK_BRAKE_R , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_PARK_BRAKE_R_Judgement , LED_PARK_BRAKE_R_Execution },
{ em_LED_BRAKE_AIR_or_EBS_RED_R , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_BRAKE_AIR_or_EBS_RED_R_Judgement , LED_BRAKE_AIR_or_EBS_RED_R_Execution },
{ em_LED_BRAKE_LOCK_R , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_BRAKE_LOCK_R_Judgement , LED_BRAKE_LOCK_R_Execution },
{ em_LED_AIR_SUS_R , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_AIR_SUS_R_Judgement , LED_AIR_SUS_R_Execution },
{ em_LED_TRAILER_ABS_U , SelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_TRAILER_ABS_U_Judgement , LED_TRAILER_ABS_U_Execution },
{ em_LED_WORKING_LAMP_U , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_WORKING_LAMP_U_Judgement , LED_WORKING_LAMP_U_Execution },
{ em_LED_TRAILER_ABS_INFO_U , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_TRAILER_ABS_INFO_U_Judgement , LED_TRAILER_ABS_INFO_U_Execution },
{ em_LED_TEMP , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_Temp_Judgement , LED_Temp_Execution },
{ em_LED_FUEL , NoSelfCheck , NoExterNalCheck , LED_IGN_ON , 2500u, 4500ul, LED_Fuel_Judgement , LED_Fuel_Execution },
};
/*must put into 10ms task*/
void Telltales_Left_Right_KL30_Init(void);
void Telltales_Left_Right_KL30_Init(void)
{
TelltaleLRCtrl.LastRight = 0u;
TelltaleLRCtrl.LastLeft = 0u;
TelltaleLRCtrl.Delay = 0u;
L12_Air_Sta = 0u;
}
/*************************************
测试用
**************************************/
void Test_LED_AllLight(void)
{
COMMON_PowerStatus_t u8IG_st;
u8IG_st = Common_Get_IG_Sts();
if (u8IG_st == COMMON_POWER_ON)
{
LED_Left_Right_Execution(LED_ON_State);
LED_INTER_DIFF_LOCK_T_Execution(LED_ON_State);
LED_FOUR_MUL_FOUR_T_Execution(LED_ON_State);
LED_EXH_BRAKE_T_Execution(LED_ON_State);
LED_QOS_GLOW_T_Execution(LED_ON_State);
LED_HI_BEAM_T_Execution(LED_ON_State);
LED_Rr_FOG_LAMP_T_Execution(LED_ON_State);
LED_MIL_T_Execution(LED_ON_State);
LED_SVS_T_Execution(LED_ON_State);
LED_H_S_A_T_Execution(LED_ON_State);
LED_RETARDER_T_Execution(LED_ON_State);
LED_AUTO_LEVELING_T_Execution(LED_ON_State);
LED_ROWS_L_Execution(LED_ON_State);
LED_BSM_OFF_L_Execution(LED_ON_State);
LED_AEBS_OFF_L_Execution(LED_ON_State);
LED_LDWS_L_Execution(LED_ON_State);
LED_SRS_L_Execution(LED_ON_State);
LED_ENG_OIL_L_Execution(LED_ON_State);
LED_CHARG_L_Execution(LED_ON_State);
LED_SEAT_BELT_L_Execution(LED_ON_State);
LED_RR_DIFF_LOCK_L_Execution(LED_ON_State);
LED_TPMS_L_Execution(LED_ON_State);
LED_ASR_or_EVSC_OFF_L_Execution(LED_ON_State);
LED_EVSC_L_Execution(LED_ON_State);
LED_eco_stop_OFF_L_Execution(LED_ON_State);
LED_AMT_L_Execution(LED_ON_State);
LED_WEAR_IND_L_Execution(LED_ON_State);
LED_TRAILER_BRAKE_R_Execution(LED_ON_State);
LED_BRAKE_AIR_or_EBS_YELLOW_R_Execution(LED_ON_State);
LED_ACC_AIR_R_Execution(LED_ON_State);
LED_ABS_R_Execution(LED_ON_State);
LED_PARK_BRAKE_R_Execution(LED_ON_State);
LED_BRAKE_AIR_or_EBS_RED_R_Execution(LED_ON_State);
LED_BRAKE_LOCK_R_Execution(LED_ON_State);
LED_AIR_SUS_R_Execution(LED_ON_State);
LED_TRAILER_ABS_U_Execution(LED_ON_State);
LED_WORKING_LAMP_U_Execution(LED_ON_State);
LED_TRAILER_ABS_INFO_U_Execution(LED_ON_State);
LED_Temp_Execution(LED_ON_State);
LED_Fuel_Execution(LED_ON_State);
}
else
{
LED_Left_Right_Execution(LED_OFF_State);
LED_INTER_DIFF_LOCK_T_Execution(LED_OFF_State);
LED_FOUR_MUL_FOUR_T_Execution(LED_OFF_State);
LED_EXH_BRAKE_T_Execution(LED_OFF_State);
LED_QOS_GLOW_T_Execution(LED_OFF_State);
LED_HI_BEAM_T_Execution(LED_OFF_State);
LED_Rr_FOG_LAMP_T_Execution(LED_OFF_State);
LED_MIL_T_Execution(LED_OFF_State);
LED_SVS_T_Execution(LED_OFF_State);
LED_H_S_A_T_Execution(LED_OFF_State);
LED_RETARDER_T_Execution(LED_OFF_State);
LED_AUTO_LEVELING_T_Execution(LED_OFF_State);
LED_ROWS_L_Execution(LED_OFF_State);
LED_BSM_OFF_L_Execution(LED_OFF_State);
LED_AEBS_OFF_L_Execution(LED_OFF_State);
LED_LDWS_L_Execution(LED_OFF_State);
LED_SRS_L_Execution(LED_OFF_State);
LED_ENG_OIL_L_Execution(LED_OFF_State);
LED_CHARG_L_Execution(LED_OFF_State);
LED_SEAT_BELT_L_Execution(LED_OFF_State);
LED_RR_DIFF_LOCK_L_Execution(LED_OFF_State);
LED_TPMS_L_Execution(LED_OFF_State);
LED_ASR_or_EVSC_OFF_L_Execution(LED_OFF_State);
LED_EVSC_L_Execution(LED_OFF_State);
LED_eco_stop_OFF_L_Execution(LED_OFF_State);
LED_AMT_L_Execution(LED_OFF_State);
LED_WEAR_IND_L_Execution(LED_OFF_State);
LED_TRAILER_BRAKE_R_Execution(LED_OFF_State);
LED_BRAKE_AIR_or_EBS_YELLOW_R_Execution(LED_OFF_State);
LED_ACC_AIR_R_Execution(LED_OFF_State);
LED_ABS_R_Execution(LED_OFF_State);
LED_PARK_BRAKE_R_Execution(LED_OFF_State);
LED_BRAKE_AIR_or_EBS_RED_R_Execution(LED_OFF_State);
LED_BRAKE_LOCK_R_Execution(LED_OFF_State);
LED_AIR_SUS_R_Execution(LED_OFF_State);
LED_TRAILER_ABS_U_Execution(LED_OFF_State);
LED_WORKING_LAMP_U_Execution(LED_OFF_State);
LED_TRAILER_ABS_INFO_U_Execution(LED_OFF_State);
LED_Temp_Execution(LED_OFF_State);
LED_Fuel_Execution(LED_OFF_State);
}
}
/*---------------------------------------------------------------------------*/
#define XXXX 0u
#define LED_BRIGHTNESSR 0x3Fu
#define LED_BRIGHTNESSG 0x3Fu
#define LED_BRIGHTNESSY 0x3Fu
#define LED_BRIGHTNESSB 0x3Fu
/******************************************************************************
T3 L16 U1 U4 U5无灯 左右转向单独 气压1 气压2 指示灯是背光
R L5 L6 L7 L8 R1 R3 R4 (R2 水温)
G T0 T2 T4 T10 T11 T13 L13 (T11例外)
B T7
Y (T1 T7 R2 R8 U2 燃油)
******************************************************************************/
/******************************************************************************
T0 左转向 T13 右转向
信号接口:
信号定义:
输出信号:
******************************************************************************/
void Telltales_Left_Right_Management_Service(void) /*10ms*/
{
uint8_t Edge;
uint8_t RIGHT_ST = 0x00u;
uint8_t LEFT_ST = 0x00u;
RIGHT_ST = Line_In_Get_Status(LINE_IN_TURN_R);
LEFT_ST = Line_In_Get_Status(LINE_IN_TURN_L);
Edge = 0xffu ;
if (LEFT_ST == 1u)//左转向
{
SEG_LED_TURN_LEFT(7);//左转向断码屏开
IS31_CHIP0_CHANNEL36 = LED_BRIGHTNESSG;
}
else
{
SEG_LED_TURN_LEFT(0);
IS31_CHIP0_CHANNEL36 = 0x00u;
}
if (TelltaleLRCtrl.LastLeft != LEFT_ST)
{
TelltaleLRCtrl.LastLeft = LEFT_ST;
Edge = LEFT_ST;
}
if (RIGHT_ST == 1u)//右转向
{
SEG_LED_TURN_RIGHT(7);//右转向断码屏开
IS31_CHIP0_CHANNEL24 = LED_BRIGHTNESSG;
}
else
{
SEG_LED_TURN_RIGHT(0);
IS31_CHIP0_CHANNEL24 = 0x00u;
}
if (TelltaleLRCtrl.LastRight != RIGHT_ST)
{
TelltaleLRCtrl.LastRight = RIGHT_ST;
Edge = RIGHT_ST;
}
// if (TelltaleLRCtrl.Delay > 0u)
// {
// TelltaleLRCtrl.Delay--;
// }
// else
// {
// if (Edge != 0xFFu)
// {
// if (Edge)
// {
// Sound_Request(SND_TICK, 1u);
// }
// else
// {
// Sound_Request(SND_TOCK, 1u);
// }
//
// TelltaleLRCtrl.Delay = 10u; /*200ms内不允许重复播放声音*/
// }
// else
// {
// Sound_Delete(SND_TICK);
// Sound_Delete(SND_TOCK);
// }
// }
}
void LED_Left_Right_Execution(uint8_t led_status)
{
if (led_status == 1u)
{
SEG_LED_TURN_LEFT(7);/*左转向断码屏开*/
IS31_CHIP0_CHANNEL36 = LED_BRIGHTNESSG;
SEG_LED_TURN_RIGHT(7);/*右转向断码屏开*/
IS31_CHIP0_CHANNEL24 = LED_BRIGHTNESSG;
}
else
{
SEG_LED_TURN_LEFT(0);/*左转向断码屏开*/
IS31_CHIP0_CHANNEL36 = 0u;
SEG_LED_TURN_RIGHT(0);/*右转向断码屏开*/
IS31_CHIP0_CHANNEL24 = 0u;
}
}
/******************************************************************************
T1 INTER DIFF LOCK
信号接口: B36 HIGH
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_INTER_DIFF_LOCK_T_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_RR_DIFF_LOCK);
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_INTER_DIFF_LOCK_T_Execution(uint8_t led_status)
{
RR_DIFF_LOCK_MCU = led_status;
if (led_status == 1)
{
SEG_LED_INTER_DIFF_LOCK_T(7);
}
else
{
SEG_LED_INTER_DIFF_LOCK_T(0);
}
}
/******************************************************************************
T2
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_FOUR_MUL_FOUR_T_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)XXXX;
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_FOUR_MUL_FOUR_T_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL35 = LED_BRIGHTNESSG;
SEG_LED_FOUR_MUL_FOUR_T(7);
}
else
{
IS31_CHIP0_CHANNEL35 = 0x00;
SEG_LED_FOUR_MUL_FOUR_T(0);
}
}
/******************************************************************************
T4 EXH BRAKE
信号接口: 0x18FF2300 Byte:2,bit:2-1==01(B) 功能调整----2022.05.10----
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_EXH_BRAKE_T_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Get_ID_18FF2300_Sig_Exh_Lamp();
if (m_Condition1 == 0x01u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_EXH_BRAKE_T_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL34 = LED_BRIGHTNESSG;
SEG_LED_EXH_BRAKE_T(7);
}
else
{
IS31_CHIP0_CHANNEL34 = 0x00;
SEG_LED_EXH_BRAKE_T(0);
}
}
/******************************************************************************
T5 QOS(GLOW)
信号接口: 0x18FF2300 Byte:2,bit:6-5==01(B)
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_QOS_GLOW_T_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Get_ID_18FF2300_Sig_Glow_Lamp();
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_QOS_GLOW_T_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL33 = LED_BRIGHTNESSY;
SEG_LED_QOS_GLOW_T(7);
}
else
{
IS31_CHIP0_CHANNEL33 = 0x00;
SEG_LED_QOS_GLOW_T(0);
}
}
/******************************************************************************
T6 HI BEAM
信号接口: A25 HIGH
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_HI_BEAM_T_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_HI_BEAM);
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_HI_BEAM_T_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL32 = LED_BRIGHTNESSY;
SEG_LED_HI_BEAM_T(7);
}
else
{
IS31_CHIP0_CHANNEL32 = 0x00;
SEG_LED_HI_BEAM_T(0);
}
}
/******************************************************************************
T7 Rr FOG LAMP
信号接口: B14 HIGH
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_Rr_FOG_LAMP_T_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_Rr_FOG_LAMP);
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_Rr_FOG_LAMP_T_Execution(uint8_t led_status)
{
T7_LED_OUT = led_status;
if (led_status == 1)
{
SEG_LED_Rr_FOG_LAMP_T(7);
}
else
{
SEG_LED_Rr_FOG_LAMP_T(0);
}
}
/******************************************************************************
T8 MIL
信号接口: A31 GND 2022-05-10
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_MIL_T_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_MIL);
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_MIL_T_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL31 = LED_BRIGHTNESSY;
SEG_LED_MIL_T(7);
}
else
{
IS31_CHIP0_CHANNEL31 = 0x00;
SEG_LED_MIL_T(0);
}
}
/******************************************************************************
T9 SVS
信号接口: 0x18FED900 Byte:5,bit:8-7==01(B)
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_SVS_T_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Get_ID_18FED900_Sig_SVS_Lamp_Status();
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_SVS_T_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL30 = LED_BRIGHTNESSY;
SEG_LED_SVS_T(7);
}
else
{
IS31_CHIP0_CHANNEL30 = 0x00;
SEG_LED_SVS_T(0);
}
}
/******************************************************************************
T10 H.S.A
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_H_S_A_T_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)XXXX;
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else if (m_Condition1 == 2u)
{
u8Result = 2u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_H_S_A_T_Execution(uint8_t led_status)
{
if (led_status == 1u)
{
IS31_CHIP0_CHANNEL28 = 0x00; /*绿灯 灭*/
IS31_CHIP0_CHANNEL29 = LED_BRIGHTNESSY; /*黄灯 亮*/
}
else if (led_status == 2u)
{
IS31_CHIP0_CHANNEL28 = LED_BRIGHTNESSG; /*绿灯 亮*/
IS31_CHIP0_CHANNEL29 = 0x00; /*黄灯 灭*/
}
else
{
IS31_CHIP0_CHANNEL28 = 0x00; /*绿灯 灭*/
IS31_CHIP0_CHANNEL29 = 0x00; /*黄灯 灭*/
}
if (led_status != 0x00u)
{
SEG_LED_H_S_A_T(7);
}
else
{
SEG_LED_H_S_A_T(0);
}
}
/******************************************************************************
T11 RETARDER
信号接口: 0x18FF5510 Byte:1,bit:1==01(B) 绿 ---- 0x18FF5510 Byte1,Bit1 Byte:1,bit:1==10(B) 黄闪
信号定义: 2022-02-09 取消EOL配置条件
输出信号:
******************************************************************************/
uint8_t LED_RETARDER_T_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Get_ID_18FF5510_Sig_Intarder_Pilot_Lamp_State();
if (m_Condition1 == 2u)
{
u8Result = FLASH_SYNC_1Hz;
}
else if (m_Condition1 == 1u)
{
u8Result = 2u;
}
return u8Result;
}
void LED_RETARDER_T_Execution(uint8_t led_status)
{
if (led_status == 1u)
{
IS31_CHIP0_CHANNEL27 = 0x00u; /* 绿灯 灭 */
IS31_CHIP0_CHANNEL26 = 0xFFu;//LED_BRIGHTNESSY; /* 黄灯 亮 闪 */
}
else if (led_status == 2u)
{
IS31_CHIP0_CHANNEL27 = LED_BRIGHTNESSG; /* 绿灯 亮 */
IS31_CHIP0_CHANNEL26 = 0x00u; /* 黄灯 灭 */
}
else
{
IS31_CHIP0_CHANNEL27 = 0x00u; /* 绿灯 灭 */
IS31_CHIP0_CHANNEL26 = 0x00u; /* 黄灯 灭 */
}
if (led_status != 0x00u)
{
SEG_LED_RETARDER_T(7);
}
else
{
SEG_LED_RETARDER_T(0);
}
}
/******************************************************************************
T12 AUTO LEVELING
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_AUTO_LEVELING_T_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)XXXX;
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_AUTO_LEVELING_T_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL25 = LED_BRIGHTNESSY;
SEG_LED_AUTO_LEVELING_T(7);
}
else
{
IS31_CHIP0_CHANNEL25 = 0x00;
SEG_LED_AUTO_LEVELING_T(0);
}
}
/******************************************************************************
L1 ROWS
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_ROWS_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)XXXX;
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_ROWS_L_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL01 = LED_BRIGHTNESSY;
SEG_LED_ROWS_L(7);
}
else
{
IS31_CHIP0_CHANNEL01 = 0x00;
SEG_LED_ROWS_L(0);
}
}
/******************************************************************************
L2 BSM OFF
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_BSM_OFF_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)XXXX;
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_BSM_OFF_L_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL02 = LED_BRIGHTNESSY;
SEG_LED_BSM_OFF_L(7);
}
else
{
IS31_CHIP0_CHANNEL02 = 0x00;
SEG_LED_BSM_OFF_L(0);
}
}
/******************************************************************************
L3 AEBS OFF
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_AEBS_OFF_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
uint8_t m_Condition2 = 0u;
uint8_t m_Condition3 = 0u;
uint8_t m_Condition4 = 0u;
uint8_t m_Condition5 = 0u;
uint8_t m_Condition6 = 0u;
uint8_t CanStatus1 = 0u;
uint8_t CanStatus2 = 0u;
uint8_t CanStatus3 = 0u;
m_Condition1 = (uint8_t)Get_ID_CF02F2A_Sig_Advanced_Emerg_Braking_Sys_Sta();
m_Condition2 = (uint8_t)Get_ID_CF02FA1_Sig_Advanced_Emerg_Braking_Sys_Sta();
m_Condition3 = (uint8_t)Get_ID_CF02FA0_Sig_Advanced_Emerg_Braking_Sys_Sta();
CanStatus1 = CAN_MSG_Status(ID_CanMsg0CF02F2A_Msg_Count);
CanStatus2 = CAN_MSG_Status(ID_CanMsg0CF02FA1_Msg_Count);
CanStatus3 = CAN_MSG_Status(ID_CanMsg0CF02FA0_Msg_Count);
m_Condition4 = (uint8_t)Get_ID_18FECA2A_Sig_AebsOff();
m_Condition5 = (uint8_t)Get_ID_18FECAA1_Sig_AebsOff();
m_Condition6 = (uint8_t)Get_ID_18FECAA0_Sig_AebsOff();
if (K_Line_Set.K_Line_LID28 == 0x01u)
{
if (
(m_Condition1 == 0x02u) || (m_Condition2 == 0x02u) || (m_Condition3 == 0x02u) ||
((CanStatus1 == CAN_SIG_LOST) && (CanStatus2 == CAN_SIG_LOST) && (CanStatus3 == CAN_SIG_LOST)) ||
(m_Condition4 == 0x01u) || (m_Condition5 == 0x01u) || (m_Condition6 == 0x01u)
)
{
u8Result = 1u;
}
else if ((m_Condition1 == 0x0Eu) || (m_Condition2 == 0x0Eu) || (m_Condition3 == 0x0Eu))
{
u8Result = FLASH_SYNC_1Hz;
}
else
{
u8Result = 0u;
}
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_AEBS_OFF_L_Execution(uint8_t led_status)
{
if (K_Line_Set.K_Line_LID28 == 0x01u)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL03 = LED_BRIGHTNESSY;
SEG_LED_AEBS_OFF_L(7);
}
else
{
IS31_CHIP0_CHANNEL03 = 0x00;
SEG_LED_AEBS_OFF_L(0);
}
}
else
{
IS31_CHIP0_CHANNEL03 = 0x00;
SEG_LED_AEBS_OFF_L(0);
}
}
/******************************************************************************
L4 LDWS
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_LDWS_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
uint8_t m_Condition2 = 0u;
uint8_t CanStatus1 = 0u;
uint8_t CanStatus2 = 0u;
m_Condition1 = (uint8_t)Get_ID_18FE5BE8_Sig_Lane_Departure_Warning_Sys_Sta();
m_Condition2 = (uint8_t)Get_ID_18FECAE8_Sig_Amber_Warning_Lamp_Status();
CanStatus1 = CAN_MSG_Status(ID_CanMsg18FE5BE8_Msg_Count);
CanStatus2 = CAN_MSG_Status(ID_CanMsg18FECAE8_Msg_Count);
if (K_Line_Set.K_Line_LID27 == 0x01u)
{
if ((CanStatus1 == CAN_SIG_LOST) || (m_Condition1 == 0x02u) || (m_Condition2 == 0x01u))
{
u8Result = 1u;
}
else if ((m_Condition1 == 0x00u) || (m_Condition1 == 0x05u) || (m_Condition1 == 0x0Eu))
{
u8Result = FLASH_SYNC_1Hz;
}
else
{
u8Result = 0u;
}
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_LDWS_L_Execution(uint8_t led_status)
{
if (K_Line_Set.K_Line_LID27 == 0x01u)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL04 = LED_BRIGHTNESSY;
SEG_LED_LDWS_L(7);
}
else
{
IS31_CHIP0_CHANNEL04 = 0x00;
SEG_LED_LDWS_L(0);
}
}
else
{
IS31_CHIP0_CHANNEL04 = 0x00;
SEG_LED_LDWS_L(0);
}
}
/******************************************************************************
L5 SRS
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_SRS_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)XXXX;
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_SRS_L_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL20 = LED_BRIGHTNESSR;
SEG_LED_SRS_L(7);
}
else
{
IS31_CHIP0_CHANNEL20 = 0x00;
SEG_LED_SRS_L(0);
}
}
/******************************************************************************
L6 ENG OIL
信号接口: A32 LOW
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_ENG_OIL_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_ENG_OIL);
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_ENG_OIL_L_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL21 = LED_BRIGHTNESSR;
SEG_LED_ENG_OIL_L(7);
}
else
{
IS31_CHIP0_CHANNEL21 = 0x00;
SEG_LED_ENG_OIL_L(0);
}
}
/******************************************************************************
L7 CHARG
信号接口: A34 LOW
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_CHARG_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_CHARGE);
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_CHARG_L_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL22 = LED_BRIGHTNESSB;
SEG_LED_CHARG_L(7);
}
else
{
IS31_CHIP0_CHANNEL22 = 0x00;
SEG_LED_CHARG_L(0);
}
}
/******************************************************************************
L8 SEAT BELT
信号接口: A30 LOW
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_SEAT_BELT_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_SEAT_BELT);
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_SEAT_BELT_L_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL23 = LED_BRIGHTNESSR;
SEG_LED_SEAT_BELT_L(7);
}
else
{
IS31_CHIP0_CHANNEL23 = 0x00;
SEG_LED_SEAT_BELT_L(0);
}
}
/******************************************************************************
L9 RR DIFF LOCK
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_RR_DIFF_LOCK_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = XXXX;
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_RR_DIFF_LOCK_L_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL16 = LED_BRIGHTNESSY;
SEG_LED_RR_DIFF_LOCK_L(7);
}
else
{
IS31_CHIP0_CHANNEL16 = 0x00;
SEG_LED_RR_DIFF_LOCK_L(0);
}
}
/******************************************************************************
L10 TPMS
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_TPMS_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t CanStatus1 = 0x00u;
uint8_t Low_Presure = 0u;
uint8_t High_Presure = 0u;
uint8_t High_Temperature = 0u;
uint8_t No_signal = 0u;
uint8_t Sensor_fault = 0u;
Low_Presure = (uint8_t)Get_TPMSLow_Presure_Sta();
High_Presure = (uint8_t)Get_TPMSHigh_Presure_Sta();
High_Temperature = (uint8_t)Get_TPMSHigh_Temperature_Sta();
No_signal = (uint8_t)Get_TPMSNo_signal_Sta();
Sensor_fault = (uint8_t)Get_TPMSSensor_fault_Sta();
CanStatus1 = CAN_MSG_Status(ID_CanMsg18011733_Msg_Count);
if (K_Line_Set.K_Line_LID3E == 0x01u)
{
if ((Low_Presure == 1u) || (High_Presure == 1u) || (High_Temperature == 1u))
{
u8Result = 1u;
}
else if ((No_signal == 1u) || (Sensor_fault == 1u) || (CanStatus1 == CAN_SIG_LOST))
{
u8Result = FLASH_SYNC_1Hz;
}
else
{
u8Result = 0u;
}
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_TPMS_L_Execution(uint8_t led_status)
{
if (K_Line_Set.K_Line_LID3E == 0x01u)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL17 = LED_BRIGHTNESSY;
SEG_LED_TPMS_L(7);
}
else
{
IS31_CHIP0_CHANNEL17 = 0x00;
SEG_LED_TPMS_L(0);
}
}
else
{
IS31_CHIP0_CHANNEL17 = 0x00u;
SEG_LED_TPMS_L(0);
}
}
/******************************************************************************
L11 ASR/EVSC OFF
信号接口: 18F0010B Byte:3 Bit:3-4==01(B)
信号定义:
输出信号:
说明:调整依据 SXS-VC66-22_EBS WARNING & INDICATOR (7“LCD)改訂1-1_20211116
******************************************************************************/
uint8_t LED_ASR_or_EVSC_OFF_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Get_ID_18F0010B_Sig_ASR_Offroad_Switch();
if (K_Line_Set.K_Line_LID22 == 0x01u)
{
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_ASR_or_EVSC_OFF_L_Execution(uint8_t led_status)
{
if (K_Line_Set.K_Line_LID22 == 0x01u)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL18 = LED_BRIGHTNESSY;
SEG_LED_ASR_or_EVSC_OFF_L(7);
}
else
{
IS31_CHIP0_CHANNEL18 = 0x00;
SEG_LED_ASR_or_EVSC_OFF_L(0);
}
}
else
{
IS31_CHIP0_CHANNEL18 = 0x0u;
SEG_LED_ASR_or_EVSC_OFF_L(0);
}
}
/******************************************************************************
L12 EVSC
信号接口:
信号定义:
输出信号:
调整依据:SXS-VC66-22_EBS WARNING & INDICATOR (7“LCD)改訂1-1_20211116
******************************************************************************/
uint8_t LED_EVSC_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t CanStatus1 = 0u;
uint8_t CanStatus2 = 0u;
uint8_t m_Condition1 = 0u;
uint8_t m_Condition2 = 0u;
uint8_t m_Condition3 = 0u;
uint8_t m_Condition4 = 0u;
uint8_t m_Condition5 = 0u;
uint8_t m_Condition8 = 0u;
uint16_t m_Condition6 = 0u;
uint16_t m_Condition7 = 0u;
uint8_t m_AirSta1 = 0u;
uint8_t m_AirSta2 = 0u;
CanStatus1 = CAN_MSG_Status(ID_CanMsg18FE4F0B_Msg_Count);
CanStatus2 = CAN_MSG_Status(ID_CanMsg18F0010B_Msg_Count);
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_BRAKE_AIR_EBS); /*A28*/
m_Condition2 = (uint8_t)Get_ID_18F0010B_Sig_EBS_Red_Warning_Lamp_State(); /*byte6 34*/
m_Condition8 = (uint8_t)Get_ID_18F0010B_Sig_EBS_Amber_Warning_State();/*byte6 56*/
m_Condition3 = (uint8_t)Get_ID_18F0010B_Sig_ATC_or_ASR_Lamp_State();/*byte6 78*/
m_Condition4 = (uint8_t)Get_ID_18FE4F0B_Sig_VDC_Lamp_State();/*byte1 12*/
m_Condition5 = (uint8_t)Get_ID_18FE4F0B_Sig_VDC_Fully_operational();/*byte1 34*/
m_Condition6 = Common_Get_Air1_Data(); /*气压1 1.89以下*/
m_Condition7 = Common_Get_Air2_Data(); /*气压1 1.89以下*/
m_AirSta1 = Common_Get_Air1_Valid();
m_AirSta2 = Common_Get_Air2_Valid();
if (((m_Condition6 < 1890u) && (m_AirSta1 == 1u)) || ((m_Condition7 < 1890u) && (m_AirSta2 == 1u)))
{
L12_Air_Sta = 1u;
}
else if (((m_Condition6 >= 1990u) && (m_Condition7 >= 1990u)) ||
((m_Condition6 >= 1990u) && (m_AirSta2 == 0u)) ||
((m_Condition7 >= 1990u) && (m_AirSta1 == 0u)) ||
((m_AirSta1 == 0u) && (m_AirSta2 == 0u)))
{
L12_Air_Sta = 0u;
}
if (
(m_Condition1 == 1u) || (Common_Get_L12_Air_Sta() == 1u) ||
(((m_Condition2 == 1u) || (CanStatus2 == CAN_SIG_LOST)) && (K_Line_Set.K_Line_LID21 == 0x01u)) ||
(((m_Condition5 == 0u) || (CanStatus1 == CAN_SIG_LOST)) && (K_Line_Set.K_Line_LID22 == 0x01u))
)
{
u8Result = 1u;
}
else if (((m_Condition8 == 1u) && (K_Line_Set.K_Line_LID21 == 0x01u)) ||
((m_Condition4 == 1u) && (K_Line_Set.K_Line_LID22 == 0x01u)))
{
u8Result = FLASH_SYNC_2Hz;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_EVSC_L_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL19 = LED_BRIGHTNESSY;
SEG_LED_EVSC_L(7);
}
else
{
IS31_CHIP0_CHANNEL19 = 0x00;
SEG_LED_EVSC_L(0);
}
}
/******************************************************************************
L13 ECO STOP OFF
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_eco_stop_OFF_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)XXXX;
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_eco_stop_OFF_L_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL12 = LED_BRIGHTNESSG; /* 绿灯 亮 */
IS31_CHIP0_CHANNEL13 = 0x00u; /* 黄灯 灭 */
}
else if (led_status == 2)
{
IS31_CHIP0_CHANNEL12 = 0x00u; /* 绿灯 灭 */
IS31_CHIP0_CHANNEL13 = LED_BRIGHTNESSY; /* 黄灯 亮 */
}
else
{
IS31_CHIP0_CHANNEL12 = 0x00u; /* 绿灯 灭 */
IS31_CHIP0_CHANNEL13 = 0x00u; /* 黄灯 灭 */
}
if ((led_status == 1) || (led_status == 2))
{
SEG_LED_eco_stop_OFF_L(7);
}
else
{
SEG_LED_eco_stop_OFF_L(0);
}
}
/******************************************************************************
L14 AMT
信号接口: 无多包处理 /18EBFF03/18ECFF03 PGN:65226 DM1
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_AMT_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
uint8_t m_Condition2 = 0u;
uint8_t m_Condition3 = 0u;
uint8_t m_Condition4 = 0u;
uint8_t m_Condition5 = 0u;
uint8_t m_Condition6 = 0u;
m_Condition1 = (uint8_t)Get_ID_18FECA03_Sig_Amber_Warning_Lamp_Status();
m_Condition2 = (uint8_t)Get_ID_18FECA03_Sig_Malfunction_indicator_Lamp();
if (K_Line_Set.K_Line_LID41 == 0x13u)
{
if ((m_Condition1 == 1u) || (m_Condition2 == 1u))
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_AMT_L_Execution(uint8_t led_status)
{
if (K_Line_Set.K_Line_LID41 == 0x13u)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL14 = LED_BRIGHTNESSY;
SEG_LED_AMT_L(7);
}
else
{
IS31_CHIP0_CHANNEL14 = 0x00;
SEG_LED_AMT_L(0);
}
}
else
{
IS31_CHIP0_CHANNEL14 = 0x00u;
SEG_LED_AMT_L(0);
}
}
/******************************************************************************
L15 WEAR IND
信号接口: B38 0V B40 0V
信号定义:
输出信号: 接地熄灭20220524
******************************************************************************/
uint8_t LED_WEAR_IND_L_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
uint8_t m_Condition2 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_WEAR_IND);
m_Condition2 = (uint8_t)Line_In_Get_Status(LINE_IN_WEAR2);
if ((m_Condition1 == 0x01u) && (m_Condition2 == 0x01u))
{
u8Result = 0u;
}
else
{
u8Result = 1u;
}
return u8Result;
}
void LED_WEAR_IND_L_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL15 = LED_BRIGHTNESSY;
SEG_LED_WEAR_IND_L(7);
}
else
{
IS31_CHIP0_CHANNEL15 = 0x00;
SEG_LED_WEAR_IND_L(0);
}
}
/******************************************************************************
R1 PARK BRAKE
信号接口: A23 GND
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_PARK_BRAKE_R_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_PARK_BRAKE);
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_PARK_BRAKE_R_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL08 = LED_BRIGHTNESSR;
SEG_LED_PARK_BRAKE_R(7);
}
else
{
IS31_CHIP0_CHANNEL08 = 0x00;
SEG_LED_PARK_BRAKE_R(0);
}
}
/******************************************************************************
R2 BRAKE AIR/EBS
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_BRAKE_AIR_or_EBS_RED_R_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t CanStatus = 0u;
uint8_t m_Condition1 = 0u;
uint8_t m_Condition3 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_BRAKE_AIR_EBS);
m_Condition3 = (uint8_t)Get_ID_18F0010B_Sig_EBS_Red_Warning_Lamp_State();
CanStatus = CAN_MSG_Status(ID_CanMsg18F0010B_Msg_Count);
if ((m_Condition1 == 0x01u) || (Common_Get_L12_Air_Sta() == 0x01u) ||
((K_Line_Set.K_Line_LID21 == 0x01u) && ((m_Condition3 == 1u) || (CanStatus == CAN_SIG_LOST))))
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_BRAKE_AIR_or_EBS_RED_R_Execution(uint8_t led_status)
{
BRAKE_AIR_EBS_LED_MCU = led_status;
if (led_status == 1)
{
SEG_LED_BRAKE_AIR_or_EBS_RED_R(7);
}
else
{
SEG_LED_BRAKE_AIR_or_EBS_RED_R(0);
}
}
/******************************************************************************
R3 BRAKE LOCK
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_BRAKE_LOCK_R_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)XXXX;
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_BRAKE_LOCK_R_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL07 = LED_BRIGHTNESSR;
SEG_LED_BRAKE_LOCK_R(7);
}
else
{
IS31_CHIP0_CHANNEL07 = 0x00;
SEG_LED_BRAKE_LOCK_R(0);
}
}
/******************************************************************************
R4 AIR SUS
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_AIR_SUS_R_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_AIR_SUS);
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_AIR_SUS_R_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL06 = LED_BRIGHTNESSR;
SEG_LED_AIR_SUS_R(7);
}
else
{
IS31_CHIP0_CHANNEL06 = 0x00;
SEG_LED_AIR_SUS_R(0);
}
}
/******************************************************************************
R5 TRAILER BRAKE
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_TRAILER_BRAKE_R_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_TRAILER_BRAKE);
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_TRAILER_BRAKE_R_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL10 = LED_BRIGHTNESSY;
SEG_LED_TRAILER_BRAKE_R(7);
}
else
{
IS31_CHIP0_CHANNEL10 = 0x00;
SEG_LED_TRAILER_BRAKE_R(0);
}
}
/******************************************************************************
R6 BRAKE AIR/EBS
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_BRAKE_AIR_or_EBS_YELLOW_R_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
//m_Condition1 = (uint8_t)Get_ID_18F0010B_Sig_EBS_Amber_Warning_State();
if (m_Condition1 == 1u)
{
u8Result = 0u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_BRAKE_AIR_or_EBS_YELLOW_R_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL09 = LED_BRIGHTNESSY;
SEG_LED_BRAKE_AIR_or_EBS_YELLOW_R(7);
}
else
{
IS31_CHIP0_CHANNEL09 = 0x00;
SEG_LED_BRAKE_AIR_or_EBS_YELLOW_R(0);
}
}
/******************************************************************************
R7 ACC AIR
信号接口:
信号定义:
输出信号: R6_LED_OUT
******************************************************************************/
uint8_t LED_ACC_AIR_R_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_ACC_AIR);
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_ACC_AIR_R_Execution(uint8_t led_status)
{
R6_LED_OUT = led_status;
if (led_status == 1)
{
SEG_LED_ACC_AIR_R(7);
}
else
{
SEG_LED_ACC_AIR_R(0);
}
}
/******************************************************************************
R8 ABS
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_ABS_R_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
uint8_t m_Condition2 = 0u;
uint8_t CanStatus1 = 0u;
m_Condition2 = (uint8_t)Get_ID_18F0010B_Sig_EBS_Amber_Warning_State();
CanStatus1 = CAN_MSG_Status(ID_CanMsg18F0010B_Msg_Count);
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_ABS);
if ((((CanStatus1 == CAN_SIG_LOST) || (m_Condition2 == 1u)) && (K_Line_Set.K_Line_LID21 == 0x01u)) ||
(m_Condition1 == 1u) && (K_Line_Set.K_Line_LID21 == 0x03u))
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_ABS_R_Execution(uint8_t led_status)
{
ABS_LED_MCU_OUT = led_status;
if (led_status == 1)
{
SEG_LED_ABS_R(7);
}
else
{
SEG_LED_ABS_R(0);
}
}
/******************************************************************************
U2 TRAILER ABS
信号接口:
信号定义:
输出信号:U2_LED_OUT
******************************************************************************/
uint8_t LED_TRAILER_ABS_U_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_TRAILER_ABS);
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_TRAILER_ABS_U_Execution(uint8_t led_status)
{
TRAILER_ABS_LED_MCU_OUT = led_status;
if (led_status == 1)
{
SEG_LED_TRAILER_ABS_U(7);
}
else
{
SEG_LED_TRAILER_ABS_U(0);
}
}
/******************************************************************************
U3 WORKING LAMP
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_WORKING_LAMP_U_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)XXXX;
if (m_Condition1 == 1u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_WORKING_LAMP_U_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL11 = LED_BRIGHTNESSY;
SEG_LED_WORKING_LAMP_U(7);
}
else
{
IS31_CHIP0_CHANNEL11 = 0x00;
SEG_LED_WORKING_LAMP_U(0);
}
}
/******************************************************************************
U6 TRAILE ABS INFO
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_TRAILER_ABS_INFO_U_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t m_Condition1 = 0u;
m_Condition1 = (uint8_t)Line_In_Get_Status(LINE_IN_TRAILER_ABS_INFO);
if (m_Condition1 == 0x01u)
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_TRAILER_ABS_INFO_U_Execution(uint8_t led_status)
{
if (led_status == 1)
{
IS31_CHIP0_CHANNEL05 = LED_BRIGHTNESSY;
SEG_LED_TRAILER_ABS_INFO_U(7);
}
else
{
IS31_CHIP0_CHANNEL05 = 0x00;
SEG_LED_TRAILER_ABS_INFO_U(0);
}
}
/******************************************************************************
Temp
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_Temp_Judgement(void)
{
static uint8_t u8Result = 0u;
uint32_t u32IG_ON_Timer = 0x00u;
uint8_t m_Condition1 = 0u;
m_Condition1 = Coolant_Get_CurSeg();
u32IG_ON_Timer = Common_GetIgnOnTime();
if ((m_Condition1 >= 11u) && (Coolant_Get_Valid() == 1u) && (u32IG_ON_Timer >= 5500))// && (K_Line_Set.K_Line_LID43 == 0x82u))
{
u8Result = 1u;
}
else if (m_Condition1 <= 9u)
{
u8Result = 0u;
}
return u8Result;
}
void LED_Temp_Execution(uint8_t led_status)
{
COMMON_PowerStatus_t u8IG_st;
u8IG_st = Common_Get_IG_Sts();
if (u8IG_st == COMMON_POWER_ON)
{
//if (led_status == 1u)
if (0)
{
TEMP_R_LED_OUT = 1u ;/*水温红灯*/
//Water_Temp_Led_R_MCU_OUT = 1u;
TEMP_W_LED_OUT = 0u ;//水温字符白色指示灯
//Water_Temp_Led_W_MCU_OUT = 1u;
}
else
{
TEMP_R_LED_OUT = 0u ;/*水温红灯*/
//Water_Temp_Led_R_MCU_OUT = 0u;
TEMP_W_LED_OUT = 1u ;//水温字符白色指示灯
//Water_Temp_Led_W_MCU_OUT = 1u;
}
}
else
{
TEMP_R_LED_OUT = 0u ;/*水温红灯*/
//Water_Temp_Led_R_MCU_OUT = 0u;
TEMP_W_LED_OUT = 0u ;//水温字符白色指示灯
//Water_Temp_Led_W_MCU_OUT = 0u;
}
}
/******************************************************************************
Fuel
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t LED_Fuel_Judgement(void)
{
uint8_t u8Result = 0u;
uint8_t variable_1 = 0x00u;
variable_1 = Fuel_Get_Popup_Sta();
if (variable_1 == 1)//&& (K_Line_Set.K_Line_LID43 == 0x82u))
{
u8Result = 1u;
}
else
{
u8Result = 0u;
}
return u8Result;
}
void LED_Fuel_Execution(uint8_t led_status)
{
COMMON_PowerStatus_t u8IG_st;
u8IG_st = Common_Get_IG_Sts();
if (u8IG_st == COMMON_POWER_ON)
{
if (led_status == 1u)
{
FUEL_LED_Y_MCU = 1u ;
//FUEL_W_LED_OUT = 0u ;
}
else
{
FUEL_LED_Y_MCU = 0u ;
//FUEL_W_LED_OUT = 1u ;
}
}
else
{
FUEL_LED_Y_MCU = 0u ;
//FUEL_W_LED_OUT = 0u ;
}
}
/******************************************************************************
Common_Get_L12_Air_Sta
信号接口:
信号定义:
输出信号:
******************************************************************************/
uint8_t Common_Get_L12_Air_Sta(void)
{
return L12_Air_Sta ;
}