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#include "defines.h"
#include "UART1.h"

static UART1_DATA *uart_data_ptr;

/* Note: BRGH values are different from PIC18!
 *
 * Baud Rate Calculation (BRGH = 0):
 * Baud Rate = PerfBusFreq / (16 * (BRG + 1))
 * BRG = PerfBusFreq / (16 * Baud Rate) - 1
 *
 * Baud Rate Calculation (BRGH = 1):
 * Baud Rate = PerfBusFreq / (4 * (BRG + 1))
 * BRG = PerfBusFreq / (4 * Baud Rate) - 1
 */

void UART1_Init(UART1_DATA *data, void (*rx_callback)(uint8_t)) {
    uart_data_ptr = data;
    uart_data_ptr->rx_callback = rx_callback;
    uart_data_ptr->buffer_out_len = 0;
    uart_data_ptr->buffer_out_ind = 0;

    INTDisableInterrupts();

    IEC0CLR   = 0x1C000000; // Disable all UART1 interrupts
    IFS0CLR   = 0x1C000000; // Clear any existing events
    IPC6SET   = 0x00000009; // Set Priority = 2, Subpriority = 1
    
    U1MODE    = 0x00008008; // UART enabled, BRGH = 1
    U1STA     = 0x00009400; // TX interrupt on buffer empty, RX interrupt on buffer not empty

//    U1BRG     = 173;        // Set baud rate to 115200 @ 80MHz (0.22% error)
    U1BRG     = 86;         // Set baud rate to 230400 @ 80MHz (0.22% error)
//    U1BRG     = 77;         // Set baud rate to 256000 @ 80MHz (0.12% error)
//    U1BRG     = 42;         // Set baud rate to 460800 @ 80MHz (0.94% error)
//    U1BRG     = 21;         // Set baud rate to 921600 @ 80MHz (1.36% error)
    
    IEC0SET   = 0x0C000000; // Enable the RX and Error interrupts

    INTEnableInterrupts();
}

uint8_t UART1_Write(uint8_t *string, uint32_t length) {
    if (length > UART1_BUFFER_SIZE)
        return 0;
    if (uart_data_ptr->buffer_out_len != 0)
        return 0;

    // Put the data to send into the outbound buffer
    uart_data_ptr->buffer_out_len = length;
    uart_data_ptr->buffer_out_ind = 0;
    uint8_t i;
    for (i = 0; i < length; i++) {
        uart_data_ptr->buffer_out[i] = string[i];
    }
    IEC0SET = 0x10000000; // Enable TX interrupt
    return 1;
}

void __ISR(_UART_1_VECTOR, ipl2) __UART_1_Interrupt_Handler(void) {
    // Process UART1 error flag
    if (IFS0bits.U1EIF) {
        if (U1STAbits.PERR) { // Process parity error

        }
        if (U1STAbits.FERR) { // Process frame error

        }
        if (U1STAbits.OERR) { // Process receive buffer overrun error
            U1STAbits.OERR = 0; // Clear the overrun error if set
        }
        IFS0CLR = 0x04000000; // Clear the error flag
    }

    // Process UART1 recieve flag
    if (IFS0bits.U1RXIF) {
        // Read the data received from the last transfer
        while (U1STAbits.URXDA) {
            uint8_t c = U1RXREG;
            // Call the RX callback function on each received data
            if (uart_data_ptr->rx_callback != NULL) {
                (*uart_data_ptr->rx_callback)(c);
            }
        }
        IFS0CLR = 0x08000000; // Clear the recieve flag
    }

    // Process UART1 transmit flag
    if (IFS0bits.U1TXIF && IEC0bits.U1TXIE) {
        // Disable the transmit interrupt if all data has been sent
        if (uart_data_ptr->buffer_out_ind == uart_data_ptr->buffer_out_len) {
            IEC0CLR = 0x10000000;
            uart_data_ptr->buffer_out_len = 0;
        } else {
            // Start filling the transmit buffer
            while (!U1STAbits.UTXBF) {
                U1TXREG = uart_data_ptr->buffer_out[uart_data_ptr->buffer_out_ind];
                uart_data_ptr->buffer_out_ind++;
                if (uart_data_ptr->buffer_out_ind == uart_data_ptr->buffer_out_len)
                    break;
            }
        }
        IFS0CLR = 0x10000000; // Clear the transmit flag
    }
}