osc2025/lib/uart.c

#include <uart.h>
#include <gpio.h>
#include <stddef.h>

/* Auxilary mini UART registers */
#define AUX_ENABLE      ((volatile unsigned int*)(MMIO_BASE+0x00215004))
#define AUX_MU_IO       ((volatile unsigned int*)(MMIO_BASE+0x00215040))
#define AUX_MU_IER      ((volatile unsigned int*)(MMIO_BASE+0x00215044))
#define AUX_MU_IIR      ((volatile unsigned int*)(MMIO_BASE+0x00215048))
#define AUX_MU_LCR      ((volatile unsigned int*)(MMIO_BASE+0x0021504C))
#define AUX_MU_MCR      ((volatile unsigned int*)(MMIO_BASE+0x00215050))
#define AUX_MU_LSR      ((volatile unsigned int*)(MMIO_BASE+0x00215054))
#define AUX_MU_MSR      ((volatile unsigned int*)(MMIO_BASE+0x00215058))
#define AUX_MU_SCRATCH  ((volatile unsigned int*)(MMIO_BASE+0x0021505C))
#define AUX_MU_CNTL     ((volatile unsigned int*)(MMIO_BASE+0x00215060))
#define AUX_MU_STAT     ((volatile unsigned int*)(MMIO_BASE+0x00215064))
#define AUX_MU_BAUD     ((volatile unsigned int*)(MMIO_BASE+0x00215068))

int is_uart_init = 0;

/**
 * Set baud rate and characteristics (115200 8N1) and map to GPIO
 */
void uart_init()
{
    register unsigned int r;
    
    /* initialize UART */
    *AUX_ENABLE |=1;       // enable UART1, AUX mini uart
    *AUX_MU_IER = 0;
    *AUX_MU_CNTL = 0;
    *AUX_MU_LCR = 3;       // 8 bits
    *AUX_MU_MCR = 0;
    *AUX_MU_IER = 0;
    *AUX_MU_IIR = 0xc6;    // disable interrupts
    *AUX_MU_BAUD = 270;    // 115200 baud
    /* map UART1 to GPIO pins */
    r=*GPFSEL1;
    r&=~((7<<12)|(7<<15)); // gpio14, gpio15
    r|=(2<<12)|(2<<15);    // alt5
    *GPFSEL1 = r;
    *GPPUD = 0;            // enable pins 14 and 15
    r=150; while(r--) { asm volatile("nop"); }
    *GPPUDCLK0 = (1<<14)|(1<<15);
    r=150; while(r--) { asm volatile("nop"); }
    *GPPUDCLK0 = 0;        // flush GPIO setup
    *AUX_MU_CNTL = 3;      // enable Tx, Rx

    is_uart_init = 1;
}

/**
 * Send a character
 */
void uart_send(unsigned int c) {
    /* wait until we can send */
    do{asm volatile("nop");}while(!(*AUX_MU_LSR&0x20));
    /* write the character to the buffer */
    *AUX_MU_IO=c;
}

uint8_t uart_getb()
{
  uint8_t r;
  /* wait until something is in the buffer */
  do{asm volatile("nop");}while(!(*AUX_MU_LSR&0x01));
  /* read it and return */
  r=(uint8_t)(*AUX_MU_IO);

  return r;
}

/**
 * Receive a character
 */
char uart_getc() {
  char r = (char)uart_getb();

  /* convert carrige return to newline */
  return r=='\r'?'\n':r;
}

/**
 * Display a string
 */
void uart_puts(const char *s) {
    while(*s) {
        /* convert newline to carrige return + newline */
        if(*s=='\n')
            uart_send('\r');
        uart_send(*s++);
    }
}

/**
 * Display a binary value in hexadecimal
 */
void uart_hex(const unsigned int d) {
    unsigned int n;
    int c;
    for(c=28;c>=0;c-=4) {
        // get highest tetrad
        n=(d>>c)&0xF;
        // 0-9 => '0'-'9', 10-15 => 'A'-'F'
        n+=n>9?0x37:0x30;
        uart_send(n);
    }
}

void uart_int(int d)
{
  unsigned int buf[11];
  int size = 0;
 
  if (d == 0) {
    uart_send((unsigned int)'0');
    return;
  }

  int is_neg = (d < 0);

  while (d != 0) {
    buf[size++] = '0' + d % 10;
    d /= 10;
  }

  if (is_neg)
    uart_send((unsigned int)'-');
  while (size--)
    uart_send(buf[size]);
}