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ben-blinkenlights/libubb/swuart.c

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/*
* swuart/swuart.c - Software-implemented UART for UBB
*
* Written 2012 by Werner Almesberger
* Copyright 2012 Werner Almesberger
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*/
#include <stdbool.h>
#include <string.h>
#include <sys/mman.h>
#include <ubb/ubb.h>
#include <ubb/regs4740.h>
#include <ubb/swuart.h>
#define TIMER 7
static uint32_t tx_mask, rx_mask;
static uint32_t ticks;
/* ----- Hardware timer ---------------------------------------------------- */
/*
* We run the hardware timer at PCLK/16 = 7 MHz. This gives us 60 cycles at
* 115200 bps and sets the lowest data rate to 106.8 bps.
*/
#define PCLK (112*1000*1000) /* 112 MHz */
#define TCLK (PCLK/16) /* 7 MHz */
static void get_timer(uint32_t cycle)
{
TSCR = 1 << TIMER; /* enable clock to timer */
TDFR(TIMER) = cycle-1; /* cycle = one bit time */
TCSR(TIMER) = (2 << 3) | 1; /* count at PCLK/16 */
}
static void reset_timer(void)
{
TECR = 1 << TIMER; /* disable timer */
TCNT(TIMER) = 0; /* reset timer */
TFCR = 0x10001 << TIMER; /* clear flags */
TESR = 1 << TIMER; /* enable timer */
}
static void set_half_cycle(uint32_t cycle)
{
uint32_t t;
t = (uint16_t) TCNT(TIMER)+(cycle >> 1);
/* TCNT+cycle/2 mod cycle-1 */
if (t >= cycle-1)
t -= cycle-1;
TDHR(TIMER) = t;
TFCR = 0x10000 << TIMER; /* clear half flags */
}
static void release_timer(void)
{
TECR = 1 << TIMER; /* disable timer */
TFCR = 0x10001 << TIMER; /* clear flags */
TSSR = 1 << TIMER; /* disable clock to timer */
}
static inline bool timer_full(void)
{
if (!(TFR & (1 << TIMER)))
return 0;
TFCR = 1 << TIMER;
return 1;
}
static inline bool timer_half(void)
{
if (!(TFR & (0x10000 << TIMER)))
return 0;
TFCR = 0x10000 << TIMER;
return 1;
}
/* ----- Enable/disable interrupts ----------------------------------------- */
static uint32_t old_icmr;
static void disable_interrupts(void)
{
old_icmr = ICMR;
ICMSR = 0xffffffff;
}
static void enable_interrupts(void)
{
ICMCR = ~old_icmr;
}
/* ----- Transmit a block -------------------------------------------------- */
static struct swuart_err errors;
static int trx(uint8_t *out, int out_size, uint8_t *in, int in_size,
unsigned wait_bits, unsigned idle_bits)
{
unsigned tx, rx = 0, idle = 0;
int tx_bits = 0, rx_bits = 0;
int in_len = 0;
reset_timer();
while (1) {
full:
/* timer has just crossed FULL */
if (tx_bits) {
if (tx & 1)
SET(tx_mask);
else
CLR(tx_mask);
tx >>= 1;
tx_bits--;
} else {
if (out_size) {
CLR(tx_mask);
tx = *out++ | 0x100;
out_size--;
tx_bits = 9;
} else {
if (idle++ == wait_bits)
return in_len;
}
}
/* wait for reception (if any) */
if (rx_bits) {
while (!timer_half());
} else {
while (!timer_full())
if (!PIN(rx_mask)) {
set_half_cycle(ticks);
rx_bits = 10;
break;
}
if (!rx_bits)
continue;
while (!timer_half())
if (timer_full())
goto full;
}
/* timer has just crossed HALF */
rx = (rx >> 1) | (PIN(rx_mask) ? 0x200 : 0);
if (!--rx_bits) {
if (rx & 1) {
errors.glitch++;
} else if (!(rx & 0x200)) {
errors.framing++;
} else if (in_len == in_size) {
errors.overflow++;
} else {
*in++ = rx >> 1;
in_len++;
idle = 0;
wait_bits = idle_bits;
}
}
while (!timer_full());
}
}
int swuart_trx(void *out, int out_size, void *in, int in_size,
int wait_bits, int idle_bits)
{
int got;
disable_interrupts();
get_timer(ticks);
got = trx(out, out_size, in, in_size, wait_bits, idle_bits);
release_timer();
enable_interrupts();
return got;
}
/* ----- Access error counters --------------------------------------------- */
unsigned swuart_get_errors(struct swuart_err *res)
{
unsigned sum = errors.glitch+errors.framing+errors.overflow;
if (res)
*res = errors;
return sum;
}
void swuart_clear_errors(void)
{
memset(&errors, 0, sizeof(errors));
}
/* ----- Open/close the software UART -------------------------------------- */
int swuart_open(uint32_t tx, uint32_t rx, int bps)
{
/*
* Make sure code and rx/tx buffers are locked into memory before we
* disable interrupts in swuart_trx.
*/
if (mlockall(MCL_CURRENT | MCL_FUTURE))
return -1;
ticks = TCLK/bps-1;
tx_mask = tx;
rx_mask = rx;
OUT(tx);
SET(tx);
IN(rx);
return 0;
}
void swuart_close(void)
{
munlockall();
}