motor_ctl-4/User project/3.BasicFunction/Source/giant_can.c

/**
 * @file giant_can.h
 * @author Ye Jin
 * @brief giant can protocol
 * @version 0.1
 * @date 2025-01-09
 *
 * @copyright Copyright (c) 2025
 *
 */

/************************************************************************
 Beginning of File, do not put anything above here except notes
 Compiler Directives:
*************************************************************************/
#include "can.h"
#include "giant_can.h"
#include "canAppl.h"
#include "string.h"
#include "AssistCurve.h"
#include "adc.h"
#include "power.h"
#include "CodePara.h"
#include "flash_master.h"
/******************************
 *
 *  Parameter
 *
 ******************************/
GiantStandardDataFrameID_Struct_t stGiantStandardDataFrameID_rx;
GiantStandardRemoteFrameID_Struct_t stGiantStandardRemoteFrameID_rx;
GiantControlParams_Struct_t stGiantControlParams;
/***************************************************************
 Function: 
 Description: 
 Call by: 
 Input Variables: N/A
 Output/Return Variables: N/A
 Subroutine Call: N/A;
 Reference: N/A
****************************************************************/
void giant_10msTask(void)
{
    static UBYTE giant_10mscount = 0;
    
    giant_10mscount++;
    if(giant_10mscount >= 5)
    {
        giant_10mscount = 0;
        for(int i=0;i<9;i++)
        {
            giant_SendDriveChainActiveData(FG_NORMALDATA, i);
        }
        giant_SendDriveChainActiveData(FG_NORMALDATA, 0xF);
    }
}
void giant_DataProcess(void)
{
    if(pRxMsg2->rx_ft == CAN_FT_DATA)
    {
        stGiantStandardDataFrameID_rx.FunctionGroup = (UBYTE)((pRxMsg2->rx_sfid & 0x600)>>9);
        stGiantStandardDataFrameID_rx.NodeGroup = (UBYTE)((pRxMsg2->rx_sfid & 0x1E0)>>5);
        stGiantStandardDataFrameID_rx.DataBehaviors = (UBYTE)((pRxMsg2->rx_sfid & 0x010)>>4);
        stGiantStandardDataFrameID_rx.DataAddress = (UBYTE)(pRxMsg2->rx_sfid & 0x00F);
        
        switch (stGiantStandardDataFrameID_rx.NodeGroup)
        {
            case NODE_SERVICETOOL:
            {
                break;
            }
            case NODE_USERINTERFACE:
            {
                ulOBC_ComTimeOutCount = cp_ulSystickCnt;
                stGiantControlParams.RefreshFlag = TRUE;
                switch(stGiantStandardDataFrameID_rx.DataAddress)
                {
                    case 0x0:
                    {
                        if(pRxMsg2->rx_dlen == 2)//error
                        {
                            stGiantControlParams.Error = (pRxMsg2->rx_data[0] & 0x01);//Error value
                        }
                        break;
                    }
                    case 0x1:
                    {
                        if(pRxMsg2->rx_dlen == 7)//cmd1
                        {
                            stGiantControlParams.ManualSleepEn = ((pRxMsg2->rx_data[0] & 0x40)>>6);//Manual sleep
                            stGiantControlParams.AutomaticSleepEn = ((pRxMsg2->rx_data[0] & 0x20)>>5);//Automatic sleep
                            
                            stGiantControlParams.InactivateErrorDetection = ((pRxMsg2->rx_data[1] & 0x80)>>7);//Inactivate the error detection
                            
                            if((pRxMsg2->rx_data[1] & 0x10) == 0x10)//Reset fault history
                            {
                              
                            }
                            
                            stGiantControlParams.ThrottleEn = ((pRxMsg2->rx_data[1] & 0x08)>>3);//Throttle state
                            
                            if((pRxMsg2->rx_data[1] & 0x04) == 0x04)//Reset trip distance and trip time
                            {
                                MC_RideLog.TRIP_Km = 0;
                                MC_RideLog.TRIP_Time = 0;
                                MC_RunInfo.Ride_Km = 0;
                                MC_RunInfo.Ride_Time = 0;
                                cp_stHistoryPara.ulTripSum = 0;
                                cp_stHistoryPara.ulTripSumTime = 0;
                                cp_stHistoryPara.ulODOTime = cp_stHistoryPara.ulODOTime + (cp_stBikeRunInfoPara.ulRiTime >> 10) / 60;
                                cp_stBikeRunInfoPara.ulRiTime = 0;
                            }
                            
                            stGiantControlParams.BrakeleEn = ((pRxMsg2->rx_data[1] & 0x02)>>1);//Brake state
                            stGiantControlParams.WalkEn = (pRxMsg2->rx_data[1] & 0x01);//Walk
                            
                            if(pRxMsg2->rx_data[2] > 100)
                            {
                                stGiantControlParams.ThrottlePowerPercentage = 0;
                            }
                            else
                            {
                                stGiantControlParams.ThrottlePowerPercentage = pRxMsg2->rx_data[2];//Throttle power percentage %,else 0%
                            }
                            
                            stGiantControlParams.RidingModeEn = ((pRxMsg2->rx_data[3] & 0x80)>>7);//Riding mode
                            stGiantControlParams.AdjustingMode = (pRxMsg2->rx_data[3] & 0x1F);//Adjusting mode
                            if((stGiantControlParams.AdjustingMode  >= 0x6) && (stGiantControlParams.AdjustingMode  <= 0xA))//Service mode
                            {
                              
                            }
                            else if(stGiantControlParams.AdjustingMode  == 0xB)//Check mode
                            {
                              
                            }
                            else if(stGiantControlParams.AdjustingMode  == 0xC)//Off mode
                            {
                              
                            }
                            else if(stGiantControlParams.AdjustingMode  == 0xD)//error state
                            {
                                
                            }
                            else
                            {
                              
                            }
                            
                            if((pRxMsg2->rx_data[4] & 0x04) == 0x04)//Reset odometer distance and odometer time
                            {
                              
                            }
                            
                            ass_stParaCong.uwStartMode = ((pRxMsg2->rx_data[6] & 0xC0) >> 6);//Start mode,1-soft,2-normal,3-strong
                        }
                        break;
                    }
                    case 0x2:
                    {
                        if(pRxMsg2->rx_dlen == 7)//cmd2
                        {
                            if((pRxMsg2->rx_data[0] & 0x30) == 0x00)
                            {
                                MC_ControlCode.LightSwitch = MC_LightSwitch_OFF;//light off
                            }
                            else if((pRxMsg2->rx_data[0] & 0x30) == 0x10)
                            {
                                MC_ControlCode.LightSwitch = MC_LightSwitch_ON;//light on
                            }
                            else
                            {
                              //rsv
                            }
                            MC_RunInfo.LightSwitch = MC_ControlCode.LightSwitch;
                            
                            stGiantControlParams.WheelCircumference = (pRxMsg2->rx_data[2] + (pRxMsg2->rx_data[3]<<8));//Tire circumference,900-2500mm                            
//                            if(stGiantControlParams.WheelCircumference < 900)
//                            {
//                                stGiantControlParams.WheelCircumference = 900;//default
//                            }
//                            else if(stGiantControlParams.WheelCircumference > 2500)
//                            {
//                                stGiantControlParams.WheelCircumference = 2500;//default
//                            }
        
                            stGiantControlParams.MaximumTorque = ((pRxMsg2->rx_data[4] & 0xF0)>>4);//Maximum torque,*10Nm
//                            if(0 == stGiantControlParams.MaximumTorque)
//                            {
//                                stGiantControlParams.MaximumTorque = 0;//default
//                            }
                            
                            stGiantControlParams.Acceleration = (pRxMsg2->rx_data[4] & 0x0F);//Acceleration,*30Nm/s
//                            if(0 == stGiantControlParams.Acceleration)
//                            {
//                                stGiantControlParams.Acceleration = 0;//default
//                            }
                            
                            stGiantControlParams.AssistRatio = pRxMsg2->rx_data[5];;//Assist ratio, *10%
                            
                            stGiantControlParams.MaximumPower = pRxMsg2->rx_data[6];//Maximum power, *10Watt
                        }
                        break;
                    }
                    case 0x3:
                    {
                        if(pRxMsg2->rx_dlen == 7)//cmd3
                        {
                            stGiantControlParams.SpeedLimitation = (UWORD)(pRxMsg2->rx_data[5] + (pRxMsg2->rx_data[6]<<8));//speed limitation,0.01km/h
//                            if(0 == stGiantControlParams.SpeedLimitation)
//                            {
//                                stGiantControlParams.SpeedLimitation = 2500;//DU default
//                            }
                        }
                        break;
                    }
                    default:
                        break;
                }
                break;
            }
            case NODE_MOTINOVA:
            {
                break;
            }
            case NODE_ENERGYPACK:
            {
                ulBMS_ComTimeOutCount = cp_ulSystickCnt;
                switch(stGiantStandardDataFrameID_rx.DataAddress)
                {
                    case 0x1:
                    {
                        if(pRxMsg2->rx_dlen == 8)//Capacity
                        {
                            BMS_RunInfo.SOC = pRxMsg2->rx_data[0];
                        }
                        break;
                    }
                    default:
                        break;
                }
                break;
            }
            case NODE_GIANTAPP:
            {
                switch(stGiantStandardDataFrameID_rx.DataAddress)
                {
                    case 0x4:
                    {
                        if(pRxMsg2->rx_dlen == 8)//Customized Version
                        {
                            memcpy(MC_RsASSCII.CustomASCII1, pRxMsg2->rx_data, 8);
                            //执行存储操作
                            memcpy(flash_stPara.ubRsASSCII.CustomASCII1, MC_RsASSCII.CustomASCII1, sizeof(MC_RsASSCII.CustomASCII1));
                        }
                        break;
                    }
                    default:
                        break;
                }
                break;
            }
            default:
                break;
        }
    }
    else if(pRxMsg2->rx_ft == CAN_FT_REMOTE)
    {
        stGiantStandardRemoteFrameID_rx.MotionGroup = (UBYTE)((pRxMsg2->rx_sfid & 0x700)>>8);
        stGiantStandardRemoteFrameID_rx.RequireNodeGroup = (UBYTE)((pRxMsg2->rx_sfid & 0x0F0)>>4);
        stGiantStandardRemoteFrameID_rx.ResponseNodeGroup = (UBYTE)(pRxMsg2->rx_sfid & 0x00F);
        
        if((stGiantStandardRemoteFrameID_rx.ResponseNodeGroup == NODE_ALL) || (stGiantStandardRemoteFrameID_rx.ResponseNodeGroup == NODE_DRIVECHAIN))//
        {
            switch(stGiantStandardRemoteFrameID_rx.MotionGroup)
            {
                case MG_HEARTBEAT:
                {
                    giant_SendDriveChainPassiveData(stGiantStandardRemoteFrameID_rx.MotionGroup,0xF);
                    break;
                }
                case MG_CONFIRMATION:
                {
                    giant_SendDriveChainPassiveData(stGiantStandardRemoteFrameID_rx.MotionGroup,0xF);
                    break;
                }
                case MG_ACTIVEDATA1:
                {
                    for(int i=0;i<8;i++)
                    {
                        giant_SendDriveChainActiveData(FG_RESPONSEDATA, i);
                    }
                    break;
                }
                case MG_ACTIVEDATA2:
                {
                    giant_SendDriveChainActiveData(FG_RESPONSEDATA, 0x8);
                    giant_SendDriveChainActiveData(FG_RESPONSEDATA, 0xF);
                    break;
                }
                case MG_PASSIVEDATA1:
                {
                    giant_SendDriveChainPassiveData(stGiantStandardRemoteFrameID_rx.MotionGroup,0x0);
                    giant_SendDriveChainPassiveData(stGiantStandardRemoteFrameID_rx.MotionGroup,0x1);
                    giant_SendDriveChainPassiveData(stGiantStandardRemoteFrameID_rx.MotionGroup,0x2);
                    break;
                }
                case MG_PASSIVEDATA2:
                {
                    giant_SendDriveChainPassiveData(stGiantStandardRemoteFrameID_rx.MotionGroup,0x3);
                    giant_SendDriveChainPassiveData(stGiantStandardRemoteFrameID_rx.MotionGroup,0x4);
                    giant_SendDriveChainPassiveData(stGiantStandardRemoteFrameID_rx.MotionGroup,0x5);
                    break;
                }
                case MG_PASSIVEDATA3:
                {
                    
                    break;
                }
                case MG_PASSIVEDATA4:
                {
                    giant_SendDriveChainPassiveData(stGiantStandardRemoteFrameID_rx.MotionGroup,0xB);
                    giant_SendDriveChainPassiveData(stGiantStandardRemoteFrameID_rx.MotionGroup,0xC);
                    break;
                }
                default:
                    break;
            }
        }
    }
}

void giant_SendDriveChainPassiveData(UBYTE remoteMG, UBYTE DataAddr)
{
    UBYTE len = 8;
    UBYTE data[8] = {0,};
    UWORD ID = 0;
    
    ID = ((FG_RESPONSEDATA<<9)
          |(NODE_DRIVECHAIN<<5)
          |(DB_PASSIVEDATA<<4)
          |DataAddr);
      
    switch(DataAddr)
    {
        case 0x0:
        {
            memcpy(data, MC_VerInfo.Mode, 8);//Mode name
            break;
        }
        case 0x1:
        {
            memcpy(data, MC_VerInfo.FW_Version, 8);//FW1
            break;
        }
        case 0x2:
        {
            memcpy(data, &MC_VerInfo.FW_Version[8], 8);//FW2
            break;
        }
        case 0x3:
        {
            memcpy(data, MC_VerInfo.HW_Version, 8);//HW1
            break;
        }
        case 0x4:
        {
            memcpy(data, &MC_VerInfo.HW_Version[8], 8);//HW2
            break;
        }
        case 0x5:
        {
            memcpy(data, MC_RsASSCII.CustomASCII1, 8);//Customized Version
            break;
        }
        case 0xB:
        {
            memcpy(data, MC_VerInfo.SN_Num, 8);//SN1
            break;
        }
        case 0xC:
        {
            memcpy(data, &MC_VerInfo.SN_Num[8], 8);//SN2
            break;
        }
        case 0xF:
        {
            len = 4;
            data[0] = 0x1;//success
            if(remoteMG == MG_HEARTBEAT)
            {
                data[1] = 0x00;
                data[2] = 0x00;
            }
            else
            {
                memcpy(&data[1], &ass_stParaCong.uwWheelPerimeter, 2);//circumference
            }
            data[3] = (UBYTE)ass_stParaCong.swDeltPerimeter;
            break;
        }
        default:
            break;
    }
    CAN_SendData(ID, data, len);
}

void giant_SendDriveChainActiveData(UBYTE functiongroup, UBYTE dataaddr)
{
    UBYTE len = 8;
    UBYTE data[8] = {0,};
    UWORD ID = 0;
    
    ID = ((functiongroup<<9)
          |(NODE_DRIVECHAIN<<5)
          |(DB_ACTIVEDATA<<4)
          |dataaddr);
    
    switch(dataaddr)
    {
        case 0x0:       //Error
        {
            len = 2;
            if(0)
            {
                data[0] |= 0x01;// Corresponding error occurs
            }
            else
            {
                data[0] &= 0xFE;// Corresponding error was gone
            }
            data[1] = 0x60;//Error code-Normal
            break;
        }
        case 0x1:       //Cycling State
        {
            len = 5;
            data[0] |= 0x00;//Communication sleep
            if(MC_RunInfo.LightSwitch == MC_LightSwitch_ON)
            {
                data[2] |= (0x01<<6);
            }   
            data[2] |= (ass_stParaCong.uwStartMode<<4);
            data[2] |= (MC_RunInfo.CadenceDir<<2);
            data[3] = (UBYTE)(stGiantControlParams.SpeedLimitation & 0xFF);// speed limitation，0.01km/h
            data[4] = (UBYTE)((stGiantControlParams.SpeedLimitation & 0xFF00) >> 8);
            break;
        }
        case 0x2:        //Cycling data
        {
            len = 8;
            data[0] = (UBYTE)(MC_RunInfo.BikeSpeed & 0xFF);// bike speed,0.1km/h
            data[1] = (UBYTE)((MC_RunInfo.BikeSpeed & 0xFF00) >> 8);
            data[2] = (UBYTE)((MC_RunInfo.Torque*10) & 0xFF);// pedal torque,0.1Nm
            data[3] = (UBYTE)(((MC_RunInfo.Torque*10) & 0xFF00) >> 8);
            data[4] = (UBYTE)((MC_RunInfo.Cadence*10) & 0xFF);// cadence,0.1RPM
            data[5] = (UBYTE)(((MC_RunInfo.Cadence*10) & 0xFF00) >> 8);
            data[6] = (UBYTE)((MC_RunInfo.BusCurrent/10) & 0xFF);// phase current,0.01A
            data[7] = (UBYTE)(((MC_RunInfo.BusCurrent/10) & 0xFF00) >> 8);
            break;
        }
        case 0x3:       //cycling data 1
        {
            len = 8;
            if(blBMSCommFault == TRUE)
            {
                data[1] = MC_RunInfo.SOC;//%
            }
            else
            {
                data[1] = 0xFF;
            }
            data[2] = (UBYTE)(MC_RideLog.TRIP_Km & 0xFF);//  trip distance,0.1km
            data[3] = (UBYTE)((MC_RideLog.TRIP_Km & 0xFF00) >> 8);
            data[4] = (UBYTE)(MC_RideLog.TRIP_Time & 0xFF);//  trip time,min
            data[5] = (UBYTE)((MC_RideLog.TRIP_Time & 0xFF00) >> 8);
            data[6] = (UBYTE)((MC_RideLog.ODO_Km /10) & 0xFF);// odometer distance,km
            data[7] = (UBYTE)(((MC_RideLog.ODO_Km /10) & 0xFF00) >> 8);
            break;
        }
        case 0x4:
        {
            len = 8;
            data[0] = (UBYTE)((MC_RideLog.ODO_Time/60) & 0xFF);//  odometer time,h
            data[1] = (UBYTE)(((MC_RideLog.ODO_Time/60) & 0xFF00) >> 8);
            if(adc_stUpOut.PCBTemp>254)
            {
                data[2] = 127;
                data[5] = 127;
            }
            else if(adc_stUpOut.PCBTemp>127)
            {
                data[2] = 127;
                data[5] = (UBYTE)(adc_stUpOut.PCBTemp/2);
            }
            else
            {
                data[2] = (UBYTE)adc_stUpOut.PCBTemp;
                data[5] = (UBYTE)(adc_stUpOut.PCBTemp/2);
            }
            break;
        }
        case 0x6:
        {
            len = 8;
            data[0] = (UBYTE)(MC_RunInfo.BusVoltage & 0xFF);//  bus input voltage,mV
            data[1] = (UBYTE)((MC_RunInfo.BusVoltage & 0xFF00) >> 8);
            data[2] = (UBYTE)((BMS_VoltEstimat.uwIbusLpf/10) & 0xFF);//bus input current,0.01A
            data[3] = (UBYTE)(((BMS_VoltEstimat.uwIbusLpf/10) & 0xFF00) >> 8);
            data[4] = (UBYTE)(MC_RunInfo.MotorSpeed & 0xFF);//  motor rotor speed,RPM
            data[5] = (UBYTE)((MC_RunInfo.MotorSpeed & 0xFF00) >> 8);
//            data[6] = (UBYTE)(MC_RunInfo.RemainDistance & 0xFF);// remaining range of drive chain system,km
//            data[7] = (UBYTE)((MC_RunInfo.RemainDistance & 0xFF00) >> 8);
            break;
        }
        case 0x7:
        {
            len = 8;
            data[0] = (UBYTE)(MC_RunInfo.Ride_Km & 0xFF);//  ride distance after power on,0.1km
            data[1] = (UBYTE)((MC_RunInfo.Ride_Km & 0xFF00) >> 8);
            data[2] = (UBYTE)((MC_RunInfo.Ride_Time/60) & 0xFF);//ride time after power on,min
            data[3] = (UBYTE)(((MC_RunInfo.Ride_Time/60) & 0xFF00) >> 8);
//            data[4] = (UBYTE)((MC_RideLog.ODO_Km/10) & 0xFF);//  total ride distance Can’t be reset
//            data[5] = (UBYTE)(((MC_RideLog.ODO_Km/10) & 0xFF00) >> 8);
//            data[6] = (UBYTE)((MC_RideLog.ODO_Time/60) & 0xFF);// rtotal ride time Can’t be reset
//            data[7] = (UBYTE)(((MC_RideLog.ODO_Time/60) & 0xFF00) >> 8);
            break;
        }
        case 0x8:
        {
            len = 5;
            data[0] = stGiantControlParams.AssistRatio;//  Assist ratio state
            data[1] = stGiantControlParams.MaximumPower;//Maximum power
            data[2] = (stGiantControlParams.MaximumTorque<<4)|(stGiantControlParams.Acceleration);// rtotal ride time Can’t be reset
            if(adc_stUpOut.PCBTemp>254)
            {
                data[3] = 127;
            }
            else
            {
                data[3] = (UBYTE)(adc_stUpOut.PCBTemp/2);
            }
            data[4] = MC_RunInfo.PowerPerKm;//Average power consumption ,0.01Ah/km
            break;
        }
        case 0xF:
        {
            len = 6;
//            data[4] = (UBYTE)(MC_RunInfo.RemainDistance & 0xFF);// human power 
//            data[5] = (UBYTE)((MC_RunInfo.RemainDistance & 0xFF00) >> 8);
            break;
        }
        default:
            break;
    }
    CAN_SendData(ID, data, len);
}

void giant_CanProcess(void)
{
    if(stGiantControlParams.RefreshFlag)
    {
        stGiantControlParams.RefreshFlag = FALSE;
        
        if((stGiantControlParams.AdjustingMode  == 0xC) || (stGiantControlParams.ManualSleepEn) || (stGiantControlParams.AutomaticSleepEn) || ((cp_ulSystickCnt - ulOBC_ComTimeOutCount) < 3000))//Off state
        {
            power_stPowStateOut.powerstate = POWER_OFF;
            power_stPowStateOut.blPowerStartupFlg = FALSE;
        }   
    }
}
/*************************************************************************
 End of this File (EOF)!
 Do not put anything after this part!
*************************************************************************/