charge_controller_target_mspm0L1304/main_target.c

#include "src/battery_data/battery.h"
#include "ti_msp_dl_config.h"
//#include "ti/driverlib/dl_i2c.h"
#include <stdio.h>
#include "src/interfaces/i2c_target.h"
#include "src/interfaces/i2c_controller.h"


#define DELAY_CYCLE  (50000000)

volatile bool mcu_CommandPending= false;

void I2C_controller_INST_IRQHandler(void) {
  // printf("I2C Interrupt Triggered to ADC!\n");
  switch (DL_I2C_getPendingInterrupt(I2C_controller_INST)) { 
    
    case DL_I2C_IIDX_CONTROLLER_START:
        controllerRxPackage.count = 0;
        
        DL_I2C_flushControllerTXFIFO(I2C_controller_INST);
        break;

    case DL_I2C_IIDX_CONTROLLER_RXFIFO_TRIGGER:
        /* Store bytes received from target in Rx Msg Buffer */
        while (DL_I2C_isControllerRXFIFOEmpty(I2C_controller_INST) != true) {
            if (controllerRxPackage.count < controllerRxPackage.len) {
                controllerRxPackage.packet[controllerRxPackage.count] =
                    DL_I2C_receiveControllerData(I2C_controller_INST);
                    ;
                controllerRxPackage.count++;

            } else {
                /* Ignore and remove from FIFO if the buffer is full */
                DL_I2C_receiveControllerData(I2C_controller_INST);
            }
        }
            if (controllerRxPackage.count >= controllerRxPackage.len) {
            controllerRxPackage.complete = true;
            DL_I2C_enableInterrupt(I2C_controller_INST,
                                    DL_I2C_INTERRUPT_CONTROLLER_STOP);
            }
        break;
    /*TRANSMIT data to ADC*/
    case DL_I2C_IIDX_CONTROLLER_TXFIFO_TRIGGER:
        if (controllerTxPackage.count < controllerTxPackage.len) {
            DL_I2C_fillControllerTXFIFO(I2C_controller_INST,
                                        &controllerTxPackage.packet[controllerTxPackage.count],
                                        (controllerTxPackage.len - controllerTxPackage.count));
            controllerTxPackage.count++;
        } else {
            /*Prevent overflow and just ignore data*/
            DL_I2C_fillTargetTXFIFO(I2C_controller_INST, (uint8_t[]){0x00}, 1);
            controllerTxPackage.complete = true;
        }
        if(controllerTxPackage.count >= controllerTxPackage.len){
            controllerTxPackage.complete= true;
        }
        break;
    /*STOP condition*/
    case DL_I2C_IIDX_CONTROLLER_STOP:
        controllerTxPackage.complete = true;
        controllerRxPackage.complete = true;
        break;
    case DL_I2C_IIDX_CONTROLLER_ARBITRATION_LOST:
        break;
    case DL_I2C_IIDX_CONTROLLER_NACK:
        break;
    default:
        break;
    }
}

/**** Interrupt for Pi to MCU ****/
void I2C_target_INST_IRQHandler(void) {

  uint32_t status = DL_I2C_getPendingInterrupt(I2C_target_INST);
  switch (status) {
  case DL_I2C_IIDX_TARGET_START:
    DL_I2C_flushTargetTXFIFO(I2C_target_INST);
    break;
  case DL_I2C_IIDX_TARGET_STOP:
    mcu_CommandPending= true;
    DL_I2C_flushTargetTXFIFO(I2C_target_INST);
    DL_I2C_flushTargetRXFIFO(I2C_target_INST);
    break;
  case DL_I2C_IIDX_TARGET_RXFIFO_TRIGGER:
    if (DL_I2C_isTargetRXFIFOEmpty(I2C_target_INST)) {
      return;
    }
    mcu_CommandPending= true;
    break;
  case DL_I2C_IIDX_TARGET_TXFIFO_TRIGGER:
    mcu_CommandPending= true;
    break;
  case DL_I2C_IIDX_TARGET_ARBITRATION_LOST:
    break;
  default:
    break;
  }
}

int main(void)

{   
    SYSCFG_DL_init();
    battery_slotmgr.init();
    NVIC_EnableIRQ(I2C_controller_INST_INT_IRQN);
    NVIC_EnableIRQ(I2C_target_INST_INT_IRQN);
    
    while (1) {

        if(mcu_CommandPending){
            printf("Step 1: Calling MCU target interrupt\n");
            mcu_i2c_handle(I2C_target_INST);
            mcu_CommandPending= false;
        }
        
        for(uint8_t slot= 0; slot< NUM_SLOTS; slot++){

            // step 1: update the voltage readings
            battery_slotmgr.read_state(slot);

            // step 2: control loop to adjust the dac / adc values,
            // but only if no error happens
            // (0x80 is the error flag of the state)
            if ((*battery_slots[slot].state & 0x80) == 0) {
                battery_slotmgr.adjust_current(slot);
            } else {
                battery_slotmgr.disable(slot);
            }

            
        }
        
        delay_cycles(DELAY_CYCLE);
        
    }
}