File content as of revision 17:bb0d64656ba1:

#include "mbed.h"
#include "TCTM.h"
#include "crc.h"
#include "EPS.h"
#include "pin_config.h"
#include "FreescaleIAP.h"
#include "inttypes.h"
#include "iostream"
#include "stdint.h"
#include "cassert"
#include"math.h"

/*define the pins for digital out*/

extern DigitalOut ATS1_SW_ENABLE; // enable of att sens2 switch
extern DigitalOut ATS2_SW_ENABLE; // enable of att sens switch

extern DigitalOut TRXY_SW;  //TR XY Switch if any TR_SW error arises then it is same as TR_SW_EN
extern DigitalOut TRZ_SW;  //TR Z Switch
extern DigitalOut CDMS_RESET; // CDMS RESET
extern DigitalOut BCN_SW;      //Beacon switch
extern uint8_t BCN_TX_STATUS;
extern uint8_t BCN_FEN;
extern BAE_HK_actual actual_data;
extern BAE_HK_min_max bae_HK_minmax;
extern uint32_t BAE_STATUS;
extern float data[6];
extern float moment[3];
extern uint8_t ACS_STATE;
extern DigitalOut EN_BTRY_HT;
extern DigitalOut phase_TR_x;
extern DigitalOut phase_TR_y;
extern DigitalOut phase_TR_z;
extern BAE_HK_quant quant_data;
//extern DigitalOut TRXY_SW;
//extern DigitalOut TRZ_SW_EN; //same as TRZ_SW
extern uint32_t BAE_ENABLE;
//extern DigitalOut ACS_ACQ_DATA_ENABLE;

/*given a default value as of now shuld read value from flash and increment it write it back very time it starts(bae)*/
extern uint8_t BAE_RESET_COUNTER=0;

//extern uint8_t BCN_FAIL_COUNT;

extern PwmOut PWM1; //x                         //Functions used to generate PWM signal
extern PwmOut PWM2; //y
extern PwmOut PWM3; //z                         //PWM output comes from pins p6

extern void F_ACS();
extern void F_BCN();
//extern void FCTN_ACS_GENPWM_MAIN();
extern void F_EPS();
extern void FCTN_ACS_GENPWM_MAIN(float Moment[3]);
extern void FCTN_ACS_INIT();


extern void FCTN_ATS_DATA_ACQ();
extern void FCTN_ACS_CNTRLALGO(float*,float*);
uint8_t telemetry[135];

void FCTN_CONVERT_UINT (uint8_t input[2], float* output)
{

    *output = (float) input[1];
    *output = *output/100.0;                    //input[0] integer part
    *output = *output + (float) input[0];       //input[1] decimal part correct to two decimal places
}

float angle(float x,float y,float z)
{
    float mag_total=sqrt(x*x + y*y + z*z);
    float cos_z = z/mag_total;
    float theta_z = acosf(cos_z);

    return theta_z;
    //printf("/n cos_zz= %f /t theta_z= %f /n",cos_z,theta_z);
}

//uint8_t tm1[134];

void FCTN_BAE_TM_TC (uint8_t* tc)

{
  //  tm1[0] = 1;
    uint8_t service_type=(tc[2]&0xF0);
    /*chaged*/
    uint8_t* tm; // without it some identifier error
    uint16_t crc16;


    switch(service_type)
    {
        case 0x60:
        {
            printf("Memory Management Service\r\n");
            uint8_t service_subtype=(tc[2]&0x0F);

            switch(service_subtype)
            {
                case 0x01:
                {
                    printf("Read from Flash\r\n");
                    uint16_t jj; 
                    uint16_t MID = ((uint16_t)tc[3] << 8) | tc[4];
                    switch(MID)
                    {case 0x1100:jj=0x00;// using uint16_t as jj typesimilarly used in FCTN_CDMS_WR_FLASH
                                break;
                     case 0x0100:jj=0x01;
                                break;
                     case 0x0101:jj=0x02;
                                break;
                     case 0x0102:jj=0x03;
                                break;
                     case 0x0107:jj=0x04;
                                break;
                     case 0x0103:jj=0x05;
                                break;
                     case 0x0104:jj=0x05;
                                break;
                     case 0x0105:jj=0x06;
                                break;
                     case 0x0106:jj=0x07;
                            break;
                    }
                    /*pointer....!!!!*/
                    uint32_t FLASH_TEMP = FCTN_CDMS_RD_FLASH(jj);
                                        
                           tm[0] = 0x60;
                           tm[1] = tc[0];
                           tm[2] = ACK_CODE;
                           for(int i=0; i<8*4; i+=4)
                           {
                                  tm[4+i] =(uint8_t )(((FLASH_TEMP)>>24)&0xFF);
                                tm[5+i] =(uint8_t ) (((FLASH_TEMP)>>16)&0xFF);
                                tm[6+i] =(uint8_t ) (((FLASH_TEMP)>>8)&0xFF); 
                                tm[7+i] =(uint8_t ) ((FLASH_TEMP) & 0xFF);   
                               
                            }

                                                 
                           for (int i=4+8*4; i<132;i++)
                           {
                               tm[i] = 0x00;
                           }
                           crc16 = CRC::crc16_gen(tm,132);
                           tm[132] = (uint8_t)((crc16&0xFF00)>>8);
                           tm[133] = (uint8_t)(crc16&0x00FF); 
                    
                    break;
                }
                case 0x02:
                {
                    printf("Read from RAM\r\n");
                    uint16_t MID = ((uint16_t)tc[3] << 8) | tc[4];
                    switch(MID)
                    {

                        case 0x0001:
                        {
                            printf("\nRead from MID 0001 hk\n");

                            /*taking some varible till we find some thing more useful*/
                            //uint8_t ref_val=0x01;
                            telemetry[0] = 1;
                            telemetry[1] = tc[0];
                            telemetry[2] = ACK_CODE;
                            /*random or with bcn_tx_sw_enable assuming it is 1 bit in length
                            how to get that we dont know, now we just assume it to be so*/
                            telemetry[3] = (BCN_SW);
                            telemetry[3] = telemetry[3]|(TRXY_SW<<1);
                            telemetry[3] = telemetry[3]|(TRZ_SW<<2);
                            telemetry[3] = telemetry[3]|(ATS1_SW_ENABLE<<3);
                            telemetry[3] = telemetry[3]|(ATS2_SW_ENABLE<<4);

                            if(BCN_TX_STATUS==2)
                                telemetry[3] = telemetry[3]|0x20;
                            else
                            telemetry[3] = telemetry[3] & 0xDF;

                            telemetry[3] = telemetry[3]|(BCN_FEN<<6);
                            uint8_t mask_val=BAE_ENABLE & 0x00000008;
                            /*can be a problem see if any error occurs*/
                            telemetry[3] = telemetry[3]|(mask_val<<7);

                            /*not included in the code yet*/
                            telemetry[4] = BAE_RESET_COUNTER;
                            telemetry[5] = ACS_STATE;
                            telemetry[5] = telemetry[5]|(EN_BTRY_HT<<3);
                            telemetry[5] = telemetry[5]|(phase_TR_x<<4);
                            telemetry[5] = telemetry[5]|(phase_TR_y<<5);
                            telemetry[5] = telemetry[5]|(phase_TR_z<<6);
                            /*spare to be fixed*/
                            //telemetry[5] = telemetry[5]|(Spare))<<7);
                            /**/
                            uint8_t soc_powerlevel_2=50;
                            uint8_t soc_powerlevel_3=65;

                            telemetry[6] = soc_powerlevel_2;
                            telemetry[7] = soc_powerlevel_3;

                            /*to be fixed*/
                            telemetry[8] = 0;
                            telemetry[9] = 0;
                            telemetry[10] = 0;
                            telemetry[11] = 0;
                            //telemetry[8] = Torque Rod X Offset;
                            //telemetry[9] = Torque Rod Y Offset;
                            //telemetry[10] = Torque Rod Z Offset;
                            //telemetry[11] = ACS_DEMAG_TIME_DELAY;
                            telemetry[12] = (BAE_STATUS>>24) & 0xFF;
                            telemetry[13] = (BAE_STATUS>>16) & 0xFF;
                            telemetry[14] = (BAE_STATUS>>8) & 0xFF;
                            telemetry[15] = BAE_STATUS & 0xFF;

                            /*to be fixed*/
                            //telemetry[16] = BCN_FAIL_COUNT;
                            telemetry[17] = actual_data.power_mode;
                            /*to be fixed*/
                            uint16_t P_BAE_I2CRX_COUNTER=0;
                            uint16_t P_ACS_MAIN_COUNTER=0;
                            uint16_t P_BCN_TX_MAIN_COUNTER=0;
                            uint16_t P_EPS_MAIN_COUNTER=0;

                            telemetry[18] = P_BAE_I2CRX_COUNTER>>8;
                            telemetry[19] = P_BAE_I2CRX_COUNTER;
                            telemetry[20] = P_ACS_MAIN_COUNTER>>8;
                            telemetry[21] = P_ACS_MAIN_COUNTER;
                            telemetry[22] = P_BCN_TX_MAIN_COUNTER>>8;
                            telemetry[23] = P_BCN_TX_MAIN_COUNTER;
                            telemetry[24] = P_EPS_MAIN_COUNTER>>8;
                            telemetry[25] = P_EPS_MAIN_COUNTER;

                            //actual_data.AngularSpeed_actual[0]=5.32498;
                            for(int i=0; i<3; i++)
                                FCTN_CONVERT_FLOAT((float)actual_data.Bvalue_actual[i],&telemetry[26+ (i*4)]);
                            for(int i=0; i<3; i++)
                                FCTN_CONVERT_FLOAT((float)actual_data.AngularSpeed_actual[i],&telemetry[38+(i*4)]);
                                
                            //printf("\n\rthe value is 38\t %x\n",telemetry[38]);
                            //printf("\n\rthe value is 39\t%x\n",telemetry[39]);
                             //printf("\n\rthe value is 40\t%x\n",telemetry[40]);
                              //printf("\n\rthe value is 41\t%x\n",telemetry[41]);
                              //printf("\n\rthe value true\t%f\n",actual_data.AngularSpeed_actual[0]);
                            
                              
                              //uint32_t input_stage1=0x00000000;
                              //uint8_t output1[4];
    //output1[0]=(uint32_t)(telemetry[38]);
    //output1[1]=(uint32_t)(telemetry[39]);
    //output1[2]=(uint32_t)(telemetry[40]);
    //output1[3]=(uint32_t)(telemetry[41]);
    
    //input_stage1=output[3]+(output[2]*(0x100))+(output[1]*(0x10000))+(output[0]*(0x1000000));
    //input_stage1=(output1[0]<<24) | (output1[1]<<16) | (output1[2]<<8) | (output1[3]);
    
    
    //assert(sizeof(float) == sizeof(uint32_t));
    //float* temp1 = reinterpret_cast<float*>(&input_stage1);
    
    //printf("\n\r the value is: %f \n",*temp1); 

                            //FAULT_FLAG();
                            telemetry[50] = actual_data.faultIr_status;
                            telemetry[51] = actual_data.faultPoll_status;
                            //Bdot Rotation Speed of Command  telemetry[52-53]
                            //Bdot Output Current   telemetry[54]
                            //float l_pmw1 = (PWM1);
                            //float l_pmw2 = PWM2;
                            //float l_pmw3 = PWM3;

                           /*__________________________________________________________________*/

                           /*change and check if changing it to PWM1 causes problem*/

                           /*___________________________________________________________________*/

                           float PWM_measured[3];

                           PWM_measured[0] = PWM1.read();
                           PWM_measured[1] = PWM2.read();
                           PWM_measured[2] = PWM3.read();

                           FCTN_CONVERT_FLOAT(PWM_measured[0], &telemetry[55]);
                           FCTN_CONVERT_FLOAT(PWM_measured[1], &telemetry[59]);
                           FCTN_CONVERT_FLOAT(PWM_measured[2], &telemetry[63]);
                           float attitude_ang =  angle(actual_data.Bvalue_actual[0],actual_data.Bvalue_actual[1],actual_data.Bvalue_actual[2]);
                           FCTN_CONVERT_FLOAT(attitude_ang, &telemetry[67]);

                           for (int i=0; i<16; i++)
                                telemetry[68+i] = quant_data.voltage_quant[i];
                           for (int i=0; i<12; i++)
                                telemetry[84+i] = quant_data.current_quant[i];
                           //telemetry[96]
                           //telemetry[97]
                           //telemetry[98]
                           //telemetry[99]
                           telemetry[100] = quant_data.Batt_voltage_quant;
                           telemetry[101] = quant_data.BAE_temp_quant;
                           telemetry[102] = quant_data.Batt_gauge_quant[1];
                           telemetry[103] = quant_data.Batt_temp_quant[0];
                           telemetry[104] = quant_data.Batt_temp_quant[1];

                           //telemetry[105] = beacon temperature;

                           for (int i=105; i<132;i++)
                           {
                               telemetry[i] = 0x00;
                           }
                           crc16 = CRC::crc16_gen(telemetry,132);
                           telemetry[132] = (uint8_t)((crc16&0xFF00)>>8);
                           telemetry[133] = (uint8_t)(crc16&0x00FF);

                           break;
                        }
                        case 0x0002:
                        {
                            printf("\r\n");
                            telemetry[0] = 0x60;
                            telemetry[1] = tc[0];
                            telemetry[2] = ACK_CODE;

                            for(int i;i<16;i++)
                            telemetry[i+3] = bae_HK_minmax.voltage_max[i];

                            for(int i;i<12;i++)
                            telemetry[i+18] = bae_HK_minmax.current_max[i];

                            telemetry[29] = bae_HK_minmax.Batt_voltage_max;;
                            telemetry[30] = bae_HK_minmax.BAE_temp_max;

                            /*battery soc*/
                            //telemetry[31] = BAE_HK_min_max bae_HK_minmax.voltage_max;

                            telemetry[32] = bae_HK_minmax.Batt_temp_max[0];
                            telemetry[33] = bae_HK_minmax.Batt_temp_max[1];

                            /*BCN  temp not there*/
                            //telemetry[34] = BAE_HK_min_max bae_HK_minmax.;

                            for(int i=0; i<3; i++)
                                FCTN_CONVERT_FLOAT(bae_HK_minmax.Bvalue_max[i],&telemetry[35+(i*4)]);

                            for(int i=0; i<3; i++)
                                FCTN_CONVERT_FLOAT(bae_HK_minmax.AngularSpeed_max[i],&telemetry[47+(i*4)]);

                            /*min data*/

                            for(int i;i<16;i++)
                                telemetry[i+59] = bae_HK_minmax.voltage_min[i];

                            for(int i;i<12;i++)
                                telemetry[i+74] = bae_HK_minmax.current_min[i];

                            telemetry[86] = bae_HK_minmax.Batt_voltage_min;
                            telemetry[87] = bae_HK_minmax.BAE_temp_min;

                            /*battery soc*/
                            //telemetry[88] = BAE_HK_min_max bae_HK_minmax.voltage_max;

                            telemetry[89] = bae_HK_minmax.Batt_temp_min[0];
                            telemetry[90] = bae_HK_minmax.Batt_temp_min[1];
                            //huhu//

                            /*BCN  temp not there*/
                            //telemetry[91] = BAE_HK_min_max bae_HK_minmax.;

                            for(int i=0; i<3; i++)
                                FCTN_CONVERT_FLOAT(bae_HK_minmax.Bvalue_min[i],&telemetry[91+(i*4)]);

                            for(int i=0; i<3; i++)
                                FCTN_CONVERT_FLOAT(bae_HK_minmax.AngularSpeed_min[i],&telemetry[103+(i*4)]);


                            for (int i=115; i<132;i++)
                            {
                               telemetry[i] = 0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,132);
                            telemetry[132] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[133] = (uint8_t)(crc16&0x00FF);
                            break;
                        }
                    }
                    break;
                }
                case 0x05:
                {
                    printf("\nRead from MID 0001 min max\n");
                    /*changed*/
                    printf("\n\rwrite on flash\n");
                     uint32_t FLASH_DATA[8];
                    
                    uint16_t MID = ((uint16_t)tc[3] << 8) | tc[4];
                    switch(MID )
                    {
                        
                        case 0x0100: 
                        {   
                            FLASH_DATA[0] = (((uint32_t)tc[5] << 24) | ((uint32_t)tc[6] << 16) | ((uint32_t)tc[7] << 8) | (uint32_t)tc[6]);
                            FCTN_CDMS_WR_FLASH(0x00,FLASH_DATA[0]);
                            break;
                        }
                        case 0x0101: 
                        {
                            FLASH_DATA[1] = (((uint32_t)tc[5] << 24) | ((uint32_t)tc[6] << 16) | ((uint32_t)tc[7] << 8) | (uint32_t)tc[6]);
                            FCTN_CDMS_WR_FLASH(0x01,FLASH_DATA[1]);
                            break;
                        }
                            
                        case 0x0102: 
                            {
                                FLASH_DATA[2] = (((uint32_t)tc[5] << 24) | ((uint32_t)tc[6] << 16) | ((uint32_t)tc[7] << 8) | (uint32_t)tc[6]);
                                FCTN_CDMS_WR_FLASH(0x02,FLASH_DATA[2]);
                                break;
                            }
                            
                        case 0x0103: 
                            {
                                FLASH_DATA[3] = (((uint32_t)tc[5] << 24) | ((uint32_t)tc[6] << 16) | ((uint32_t)tc[7] << 8) | (uint32_t)tc[6]);
                                FCTN_CDMS_WR_FLASH(0x03,FLASH_DATA[3]);
                                break;                         
                            }
                        case 0x0104: 
                            {
                                FLASH_DATA[4] = (((uint32_t)tc[5] << 24) | ((uint32_t)tc[6] << 16) | ((uint32_t)tc[7] << 8) | (uint32_t)tc[6]);
                                FCTN_CDMS_WR_FLASH(0x04,FLASH_DATA[4]);
                                break;
                            }
                            
                        case 0x0105: 
                            {
                                FLASH_DATA[5] = (((uint32_t)tc[5] << 24) | ((uint32_t)tc[6] << 16) | ((uint32_t)tc[7] << 8) | (uint32_t)tc[6]);
                                FCTN_CDMS_WR_FLASH(0x05,FLASH_DATA[5]);
                                break;
                            }
                        case 0x0106: 
                            {
                                FLASH_DATA[6] = (((uint32_t)tc[5] << 24) | ((uint32_t)tc[6] << 16) | ((uint32_t)tc[7] << 8) | (uint32_t)tc[6]);
                                FCTN_CDMS_WR_FLASH(0x06,FLASH_DATA[6]);
                                break;
                            }
                            
                        case 0x0107: 
                            {
                                FLASH_DATA[7] = (((uint32_t)tc[5] << 24) | ((uint32_t)tc[6] << 16) | ((uint32_t)tc[7] << 8) | (uint32_t)tc[6]);
                                FCTN_CDMS_WR_FLASH(0x07,FLASH_DATA[7]);
                                break;
                            }
                            
                        default:
                        {
                            printf("Invalid MMS\r\n");
                        }
                    }                       
                
                       
                    for (int i=4; i<132;i++)
                           {
                               tm[i] = 0x00;
                           }
                           crc16 = CRC::crc16_gen(tm,132);
                           tm[132] = (uint8_t)((crc16&0xFF00)>>8);
                           tm[133] = (uint8_t)(crc16&0x00FF); 
                           tm[0] = 0x60;
                           tm[1] = tc[0];
                           tm[2] = ACK_CODE;
                    
                    printf("Written on Flash\r\n");
                    break;
                }
                default:
                {
                    printf("Invalid TC");
                    //ACK_L234_telemetry
                    telemetry[0]=0xB0;
                    telemetry[1]=tc[0];
                    telemetry[2]=ACK_CODE;
                    for(uint8_t i=3;i<11;i++)
                    {
                        telemetry[i]=0x00;
                    }
                    crc16 = CRC::crc16_gen(telemetry,11);
                    telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                    telemetry[12] = (uint8_t)(crc16&0x00FF);
                    for(uint8_t i=13;i<134;i++)
                    {
                        telemetry[i]=0x00;
                    }
                    break;
                }
            }
            break;
        }
        case 0x80:
        {
            //printf("Function Management Service\r\n");
            uint8_t service_subtype=(tc[2]&0x0F);
            switch(service_subtype)
            {
                case 0x01:
                {
                    printf("FMS Activated\r\n");
                    uint8_t pid=tc[3];
                    switch(pid)
                    {
                        case 0xE0:
                        {
                            float B[3],W[3];
                            printf("ACS_COMSN\r\n");
                            //ACK_L234_telemetry

                            uint8_t B_x[2];
                            uint8_t B_y[2];
                            uint8_t B_z[2];
                            uint8_t W_x[2];
                            uint8_t W_y[2];
                            uint8_t W_z[2];

                            B_x[0]=tc[3];
                            B_x[1]=tc[4];
                            B_y[0]=tc[5];
                            B_y[1]=tc[6];
                            B_z[0]=tc[7];
                            B_z[1]=tc[8];

                            W_x[0]=tc[9];
                            W_x[1]=tc[10];
                            W_y[0]=tc[11];
                            W_y[1]=tc[12];
                            W_z[0]=tc[13];
                            W_z[1]=tc[14];

                            FCTN_CONVERT_UINT(B_x,&B[0]);
                            FCTN_CONVERT_UINT(B_y,&B[1]);
                            FCTN_CONVERT_UINT(B_z,&B[2]);

                            FCTN_CONVERT_UINT (W_x, &W[0]);
                            FCTN_CONVERT_UINT (W_y, &W[1]);
                            FCTN_CONVERT_UINT (W_z, &W[2]);

                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=ACK_CODE;
                            //FCTN_ATS_DATA_ACQ();  //get data
                            printf("gyro values\n\r");
                            for(int i=0; i<3; i++)
                                printf("%f\n\r",W[i]);
                            printf("mag values\n\r");
                            for(int i=0; i<3; i++)
                                printf("%f\n\r",B[i]);
                   /*         FCTN_CONVERT_FLOAT(data[0],&telemetry[4]); //telemetry[4] - telemetry[7]
                            FCTN_CONVERT_FLOAT(data[1],&telemetry[8]); //telemetry[8] - telemetry[11]
                            FCTN_CONVERT_FLOAT(data[2],&telemetry[12]); //telemetry[12] - telemetry[15]
                            FCTN_CONVERT_FLOAT(data[0],&telemetry[16]); //telemetry[16] - telemetry[19]
                            FCTN_CONVERT_FLOAT(data[1],&telemetry[20]); //telemetry[20] - telemetry[23]
                            FCTN_CONVERT_FLOAT(data[2],&telemetry[24]); //telemetry[24] - telemetry[27]
                            if((data[0]<8) && (data[1]<8) && (data[2] <8))
                                telemetry[28] = 1; // gyro values in correct range
                            else
                                telemetry[28] = 0;
                            if ((data[3] > 20 ) && (data[4] >20) && (data[5]>20)&& (data[3] < 50 ) && (data[4] <50) && (data[5]<50))
                                telemetry[29] = 1;   // mag values in correct range
                            else
                                telemetry[29] = 0;
                     */
                       //     float B[3],W[3];
                       //     B[0] = B0;
                       //     B[1] = B1;
                       //     B[2] = B2;
                       //     W[0] = W0;
                       //     W[1] = W1;
                       //     W[2] = W2;
                            // Control algo commissioning
                        /*    FCTN_ACS_CNTRLALGO(B,W);
                            FCTN_CONVERT_FLOAT(moment[0],&telemetry[30]); //telemetry[30] - telemetry[33]
                            FCTN_CONVERT_FLOAT(moment[1],&telemetry[34]); //telemetry[34] - telemetry[37]
                            FCTN_CONVERT_FLOAT(moment[2],&telemetry[38]); //telemetry[38] - telemetry[41]
                            // to include commission TR as well
                            for(uint8_t i=42;i<132;i++)
                            {
                                telemetry[i]=0x00;
                            }

                            crc16 = CRC::crc16_gen(telemetry,132);
                            telemetry[133] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[134] = (uint8_t)(crc16&0x00FF);
                            break;
                         */

                           // Control algo commissioning
                            FCTN_ACS_CNTRLALGO(B,W);
                            FCTN_CONVERT_FLOAT(moment[0],&telemetry[4]); //telemetry[4] - telemetry[7]
                            FCTN_CONVERT_FLOAT(moment[1],&telemetry[8]); //telemetry[8] - telemetry[11]
                            FCTN_CONVERT_FLOAT(moment[2],&telemetry[12]); //telemetry[12] - telemetry[15]
                            // to include commission TR as well
                            for(uint8_t i=16;i<132;i++)
                            {
                                telemetry[i]=0x00;
                            }

                            crc16 = CRC::crc16_gen(telemetry,132);
                            telemetry[133] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[134] = (uint8_t)(crc16&0x00FF);
                            break;
                        }
                        case 0xE1:
                        {
                            float moment_tc[3];
                            printf("HARDWARE_COMSN\r\n");
                            //ACK_L234_telemetry
                            uint8_t M0[2];
                            uint8_t M1[2];
                            uint8_t M2[2];

                            M0[0]=tc[3];
                            M0[1]=tc[4];
                            M1[0]=tc[5];
                            M1[1]=tc[6];
                            M2[0]=tc[7];
                            M2[1]=tc[8];


                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=ACK_CODE;
                            
                            float PWM_measured[3];
                            
                            
                            FCTN_CONVERT_UINT(M0,&moment_tc[0]);
                            moment_tc[1] = 0;
                            moment_tc[2] = 0;
                            FCTN_ACS_GENPWM_MAIN(moment_tc);
                            PWM_measured[0] = PWM1.read();
                            FCTN_CONVERT_FLOAT(actual_data.current_actual[5],&telemetry[16 + (0*4)]);
                            
                            FCTN_CONVERT_UINT(M1, &moment_tc[1]);
                            moment_tc[0] = 0;
                            moment_tc[2] = 0;
                            FCTN_ACS_GENPWM_MAIN(moment_tc);
                            PWM_measured[1] = PWM2.read();
                            FCTN_CONVERT_FLOAT(actual_data.current_actual[5],&telemetry[16 + (1*4)]);
                            
                            FCTN_CONVERT_UINT(M2, &moment_tc[2]);
                            moment_tc[0] = 0;
                            moment_tc[1] = 0;
                            FCTN_ACS_GENPWM_MAIN(moment_tc);
                            PWM_measured[2] = PWM3.read();
                            FCTN_CONVERT_FLOAT(actual_data.current_actual[5],&telemetry[16 + (2*4)]);

                            FCTN_CONVERT_FLOAT(PWM_measured[0],&telemetry[4]);    //4-7
                            FCTN_CONVERT_FLOAT(PWM_measured[1],&telemetry[8]);    //8-11
                            FCTN_CONVERT_FLOAT(PWM_measured[2],&telemetry[12]);  //12-15
                            
                            
                            // for(int i=0; i<12; i++)
                             //   FCTN_CONVERT_FLOAT(actual_data.current_actual[i],&telemetry[16 + (i*4)]);


                           // FCTN_ATS_DATA_ACQ();  //get data


                            // to include commission TR as well
                            for(uint8_t i=28;i<132;i++)
                            {
                                telemetry[i]=0x00;
                            }

                            crc16 = CRC::crc16_gen(telemetry,132);
                            telemetry[133] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[134] = (uint8_t)(crc16&0x00FF);
                            break;
                        }
                        case 0x02:
                        {

                            printf("Run P_EPS_MAIN\r\n");
                            F_EPS();
                            //ACK_L234_telemetry
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=ACK_CODE;
                            for(uint8_t i=0;i<133;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,132);
                            telemetry[132] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[133] = (uint8_t)(crc16&0x00FF);

                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x03:
                        {
                            printf("Run P_ACS_INIT\r\n");
                            FCTN_ACS_INIT();
                            //ACK_L234_telemetry
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=ACK_CODE;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x04:
                        {

                            printf("Run P_ACS_ACQ_DATA\r\n");
                            FCTN_ATS_DATA_ACQ();
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=ACK_CODE;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x05:
                        {
                            printf("Run P_ACS_MAIN\r\n");
                            F_ACS();
                            for(int i=0; i<3; i++)
                                FCTN_CONVERT_FLOAT(actual_data.Bvalue_actual[i],&telemetry[(i*4)]);
                            for(int i=0; i<3; i++)
                                FCTN_CONVERT_FLOAT(actual_data.AngularSpeed_actual[i],&telemetry[12+(i*4)]);

                            telemetry[24] = ACS_STATE;
                            telemetry[24] = telemetry[5]|(EN_BTRY_HT<<3);
                            telemetry[24] = telemetry[5]|(phase_TR_x<<4);
                            telemetry[24] = telemetry[5]|(phase_TR_y<<5);
                            telemetry[24] = telemetry[5]|(phase_TR_z<<6);

                           /*___________________change / check pwm working__________________________________*/

                            FCTN_CONVERT_FLOAT(PWM1,&telemetry[25]);
                            FCTN_CONVERT_FLOAT(PWM2,&telemetry[29]);
                            FCTN_CONVERT_FLOAT(PWM3,&telemetry[33]);

                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=ACK_CODE;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }

                            crc16 = CRC::crc16_gen(telemetry,37);
                            telemetry[37] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[38] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=39;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x06:
                        {
                            F_BCN();
                            printf("Run P_BCN_INIT\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=ACK_CODE;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,0);
                            telemetry[0] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[1] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=2;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x07:
                        {
                            printf("Run P_BCN_TX_MAIN\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=ACK_CODE;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x11:
                        {
                            printf("SW_ON_ACS_ATS1_SW_ENABLE\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=1;
                            ATS1_SW_ENABLE = 1;  // making sure we switch off the other
                            ATS1_SW_ENABLE = 0;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x12:
                        {
                            printf("SW_ON_ACS_ATS2_SW_ENABLE\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            ATS1_SW_ENABLE = 1; //make sure u switch off the other
                            ATS2_SW_ENABLE = 0;
                            telemetry[2]=1;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x13:
                        {
                            printf("SW_ON_ACS_TR_XY_ENABLE\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            TRXY_SW = 1;
                            telemetry[2]=1;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                         case 0x14:
                        {
                            printf("SW_ON_ACS_TR_Z_ENABLE\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=1;
                            TRZ_SW = 1;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x15:
                        {
                            printf("SW_ON_BCN_TX_SW_ENABLE\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=1;
                            BCN_SW = 0;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                         case 0x21:
                        {
                            printf("SW_OFF_ACS_ATS1_SW_ENABLE\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=1;
                            ATS1_SW_ENABLE = 1;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x22:
                        {
                            printf("SW_OFF_ACS_ATS2_SW_ENABLE\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=1;
                            ATS2_SW_ENABLE = 1;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x23:
                        {
                            printf("SW_OFF_ACS_TR_XY_ENABLE\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=1;
                            TRXY_SW= 0;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                         case 0x24:
                        {
                            printf("SW_OFF_ACS_TR_Z_ENABLE\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=1;
                            TRZ_SW = 0;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x25:
                        {
                            printf("SW_OFF_BCN_TX_SW_ENABLE\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=1;
                            BCN_SW = 1;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                         case 0x31:
                        {
                            printf("ACS_ATS1_SW_RESET\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=1;
                            ATS1_SW_ENABLE = 1;
                            wait_us(1);
                            ATS1_SW_ENABLE = 0;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x32:
                        {
                            printf("BCN_SW_RESET\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=1;
                            BCN_SW = 1;
                            wait_us(1);
                            BCN_SW = 0;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x33:
                        {
                            printf("ACS_ATS2_SW_RESET\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=1;
                            ATS1_SW_ENABLE = 1;
                            wait_us(1);
                            ATS1_SW_ENABLE = 0;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        case 0x34:
                        {
                            printf("CDMS_SW_RESET\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=1;
                            CDMS_RESET = 0;
                            wait_us(1);
                            CDMS_RESET = 1;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                        default:
                        {
                            printf("Invalid TC\r\n");
                            //ACK_L234_TM
                            telemetry[0]=0xB0;
                            telemetry[1]=tc[0];
                            telemetry[2]=ACK_CODE;
                            for(uint8_t i=3;i<11;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            crc16 = CRC::crc16_gen(telemetry,11);
                            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                            telemetry[12] = (uint8_t)(crc16&0x00FF);
                            for(uint8_t i=13;i<134;i++)
                            {
                                telemetry[i]=0x00;
                            }
                            break;
                        }
                    }
                    break;
                }
                default:
                {
                        printf("Invalid TC\r\n");
                        //ACK_L234_TM
                        telemetry[0]=0xB0;
                        telemetry[1]=tc[0];
                        telemetry[2]=ACK_CODE;
                        for(uint8_t i=3;i<11;i++)
                        {
                            telemetry[i]=0x00;
                        }
                        crc16 = CRC::crc16_gen(telemetry,11);
                        telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
                        telemetry[12] = (uint8_t)(crc16&0x00FF);
                        for(uint8_t i=13;i<134;i++)
                        {
                            telemetry[i]=0x00;
                        }
                        break;
                }
            }
            break;
        }
        default:
        {
            printf("Invalid TC\r\n");
            //ACK_L234_TM
            telemetry[0]=0xB0;
            telemetry[1]=tc[0];
            telemetry[2]=ACK_CODE;
            for(uint8_t i=3;i<11;i++)
            {
                telemetry[i]=0x00;
            }
            crc16 = CRC::crc16_gen(telemetry,11);
            telemetry[11] = (uint8_t)((crc16&0xFF00)>>8);
            telemetry[12] = (uint8_t)(crc16&0x00FF);
            for(uint8_t i=13;i<134;i++)
            {
                telemetry[i]=0x00;
            }
            break;
        }
    }
}




int strt_add = flash_size() - (2*SECTOR_SIZE);
uint32_t flasharray[8];    //256+(3*1024)
char *nativeflash = (char*)strt_add;

/*Writing to the Flash*/
void FCTN_CDMS_WR_FLASH(uint16_t j,uint32_t fdata)  //j-position to write address  ; fdata - flash data to be written
{
    for(int i=0;i<8;i++)
    {
        flasharray[i]=nativeflash[i];
    }
    flasharray[j]=fdata;
    erase_sector(strt_add);
    program_flash(strt_add, (char*)&flasharray,4*8);
}
/*End*/

/*Reading from Flash*/
uint32_t FCTN_CDMS_RD_FLASH(uint16_t j)
{
    for(int i=0;i<8;i++)
    {
        flasharray[i]=nativeflash[i];
    }
    return flasharray[j];
}
/*End*/

// Convert float to 4 uint8_t


void FCTN_CONVERT_FLOAT(float input, uint8_t output[4])
{
    assert(sizeof(float) == sizeof(uint32_t));
    uint32_t* temp = reinterpret_cast<uint32_t*>(&input);

    //float* output1 = reinterpret_cast<float*>(temp);

    //printf("\n\r %f  ", input);
    //std::cout << "\n\r uint32"<<*temp << std::endl;

    output[0] =(uint8_t )(((*temp)>>24)&0xFF);
    output[1] =(uint8_t ) (((*temp)>>16)&0xFF);
    output[2] =(uint8_t ) (((*temp)>>8)&0xFF); 
    output[3] =(uint8_t ) ((*temp) & 0xFF);           // verify the logic 
    
    printf("\n\rthe values generated are\n");
     /*printf("\n\r%x\n",output[0]);
     printf("\n\r%x\n",output[1]);
     printf("\n\r%x\n",output[2]);
     printf("\n\r%x\n",output[3]);
     to check the values generated
     */
    //printf("\n\r inside %d %d %d %d", output[3],output[2],output[1],output[0]);
    //std:: cout << "\n\r uint8  inside " << output[3] << '\t' << output[2] << '\t' << output[1] << '\t' << output[0] <<std::endl;
}