upstream u-boot with additional patches for our devices/boards: https://lists.denx.de/pipermail/u-boot/2017-March/282789.html (AXP crashes) ; Gbit ethernet patch for some LIME2 revisions ; with SPI flash support
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u-boot/drivers/serial/opencores_yanu.c

243 lines
7.6 KiB

/*
* Altera NiosII YANU serial interface by Imagos
* please see http://www.opencores.org/project,yanu for
* information/downloads
*
* Copyright 2010, Renato Andreola <renato.andreola@imagos.it>
*
* SPDX-License-Identifier: GPL-2.0+
*/
#include <common.h>
#include <watchdog.h>
#include <asm/io.h>
#include <serial.h>
DECLARE_GLOBAL_DATA_PTR;
/*-----------------------------------------------------------------*/
/* YANU Imagos serial port */
/*-----------------------------------------------------------------*/
#define YANU_MAX_PRESCALER_N ((1 << 4) - 1) /* 15 */
#define YANU_MAX_PRESCALER_M ((1 << 11) -1) /* 2047 */
#define YANU_FIFO_SIZE (16)
#define YANU_RXFIFO_SIZE (YANU_FIFO_SIZE)
#define YANU_TXFIFO_SIZE (YANU_FIFO_SIZE)
#define YANU_RXFIFO_DLY (10*11)
#define YANU_TXFIFO_THR (10)
#define YANU_DATA_CHAR_MASK (0xFF)
/* data register */
#define YANU_DATA_OFFSET (0) /* data register offset */
#define YANU_CONTROL_OFFSET (4) /* control register offset */
/* interrupt enable */
#define YANU_CONTROL_IE_RRDY (1<<0) /* ie on received character ready */
#define YANU_CONTROL_IE_OE (1<<1) /* ie on rx overrun */
#define YANU_CONTROL_IE_BRK (1<<2) /* ie on break detect */
#define YANU_CONTROL_IE_FE (1<<3) /* ie on framing error */
#define YANU_CONTROL_IE_PE (1<<4) /* ie on parity error */
#define YANU_CONTROL_IE_TRDY (1<<5) /* ie interrupt on tranmitter ready */
/* control bits */
#define YANU_CONTROL_BITS_POS (6) /* bits number pos */
#define YANU_CONTROL_BITS (1<<YANU_CONTROL_BITS_POS) /* number of rx/tx bits per word. 3 bit unsigned integer */
#define YANU_CONTROL_BITS_N (3) /* ... its bit filed length */
#define YANU_CONTROL_PARENA (1<<9) /* enable parity bit transmission/reception */
#define YANU_CONTROL_PAREVEN (1<<10) /* parity even */
#define YANU_CONTROL_STOPS (1<<11) /* number of stop bits */
#define YANU_CONTROL_HHENA (1<<12) /* Harware Handshake enable... */
#define YANU_CONTROL_FORCEBRK (1<<13) /* if set than txd = active (0) */
/* tuning part */
#define YANU_CONTROL_RDYDLY (1<<14) /* delay from "first" before setting rrdy (in bit) */
#define YANU_CONTROL_RDYDLY_N (8) /* ... its bit filed length */
#define YANU_CONTROL_TXTHR (1<<22) /* tx interrupt threshold: the trdy set if txfifo_chars<= txthr (chars) */
#define YANU_CONTROL_TXTHR_N (4) /* ... its bit field length */
#define YANU_BAUD_OFFSET (8) /* baud register offset */
#define YANU_BAUDM (1<<0) /* baud mantissa lsb */
#define YANU_BAUDM_N (12) /* ...its bit filed length */
#define YANU_BAUDE (1<<12) /* baud exponent lsb */
#define YANU_BAUDE_N (4) /* ...its bit field length */
#define YANU_ACTION_OFFSET (12) /* action register... write only */
#define YANU_ACTION_RRRDY (1<<0) /* reset rrdy */
#define YANU_ACTION_ROE (1<<1) /* reset oe */
#define YANU_ACTION_RBRK (1<<2) /* reset brk */
#define YANU_ACTION_RFE (1<<3) /* reset fe */
#define YANU_ACTION_RPE (1<<4) /* reset pe */
#define YANU_ACTION_SRRDY (1<<5) /* set rrdy */
#define YANU_ACTION_SOE (1<<6) /* set oe */
#define YANU_ACTION_SBRK (1<<7) /* set brk */
#define YANU_ACTION_SFE (1<<8) /* set fe */
#define YANU_ACTION_SPE (1<<9) /* set pe */
#define YANU_ACTION_RFIFO_PULL (1<<10) /* pull a char from rx fifo we MUST do it before taking a char */
#define YANU_ACTION_RFIFO_CLEAR (1<<11) /* clear rx fifo */
#define YANU_ACTION_TFIFO_CLEAR (1<<12) /* clear tx fifo */
#define YANU_ACTION_RTRDY (1<<13) /* clear trdy */
#define YANU_ACTION_STRDY (1<<14) /* set trdy */
#define YANU_STATUS_OFFSET (16)
#define YANU_STATUS_RRDY (1<<0) /* rxrdy flag */
#define YANU_STATUS_TRDY (1<<1) /* txrdy flag */
#define YANU_STATUS_OE (1<<2) /* rx overrun error */
#define YANU_STATUS_BRK (1<<3) /* rx break detect flag */
#define YANU_STATUS_FE (1<<4) /* rx framing error flag */
#define YANU_STATUS_PE (1<<5) /* rx parity erro flag */
#define YANU_RFIFO_CHARS_POS (6)
#define YANU_RFIFO_CHARS (1<<RFIFO_CHAR_POS) /* number of chars into rx fifo */
#define YANU_RFIFO_CHARS_N (5) /* ...its bit field length: 32 chars */
#define YANU_TFIFO_CHARS_POS (11)
#define YANU_TFIFO_CHARS (1<<TFIFO_CHAR_POS) /* number of chars into tx fifo */
#define YANU_TFIFO_CHARS_N (5) /* ...its bit field length: 32 chars */
typedef volatile struct {
volatile unsigned data;
volatile unsigned control; /* control register (RW) 32-bit */
volatile unsigned baud; /* baud/prescaler register (RW) 32-bit */
volatile unsigned action; /* action register (W) 32-bit */
volatile unsigned status; /* status register (R) 32-bit */
volatile unsigned magic; /* magic register (R) 32-bit */
} yanu_uart_t;
static yanu_uart_t *uart = (yanu_uart_t *)CONFIG_SYS_NIOS_CONSOLE;
static void oc_serial_setbrg(void)
{
int n, k;
const unsigned max_uns = 0xFFFFFFFF;
unsigned best_n, best_m, baud;
unsigned baudrate;
#if defined(CONFIG_SYS_NIOS_FIXEDBAUD)
/* Everything's already setup for fixed-baud PTF assignment */
baudrate = CONFIG_BAUDRATE;
#else
baudrate = gd->baudrate;
#endif
/* compute best N and M couple */
best_n = YANU_MAX_PRESCALER_N;
for (n = YANU_MAX_PRESCALER_N; n >= 0; n--) {
if ((unsigned)CONFIG_SYS_CLK_FREQ / (1 << (n + 4)) >=
baudrate) {
best_n = n;
break;
}
}
for (k = 0;; k++) {
if (baudrate <= (max_uns >> (15+n-k)))
break;
}
best_m =
(baudrate * (1 << (15 + n - k))) /
((unsigned)CONFIG_SYS_CLK_FREQ >> k);
baud = best_m + best_n * YANU_BAUDE;
writel(baud, &uart->baud);
return;
}
static int oc_serial_init(void)
{
unsigned action,control;
/* status register cleanup */
action = YANU_ACTION_RRRDY |
YANU_ACTION_RTRDY |
YANU_ACTION_ROE |
YANU_ACTION_RBRK |
YANU_ACTION_RFE |
YANU_ACTION_RPE |
YANU_ACTION_RFE | YANU_ACTION_RFIFO_CLEAR | YANU_ACTION_TFIFO_CLEAR;
writel(action, &uart->action);
/*
* control register cleanup
* no interrupts enabled
* one stop bit
* hardware flow control disabled
* 8 bits
*/
control = (0x7 << YANU_CONTROL_BITS_POS);
/* enven parity just to be clean */
control |= YANU_CONTROL_PAREVEN;
/* we set threshold for fifo */
control |= YANU_CONTROL_RDYDLY * YANU_RXFIFO_DLY;
control |= YANU_CONTROL_TXTHR * YANU_TXFIFO_THR;
writel(control, &uart->control);
/* to set baud rate */
serial_setbrg();
return (0);
}
/*-----------------------------------------------------------------------
* YANU CONSOLE
*---------------------------------------------------------------------*/
static void oc_serial_putc(char c)
{
int tx_chars;
unsigned status;
if (c == '\n')
serial_putc ('\r');
while (1) {
status = readl(&uart->status);
tx_chars = (status>>YANU_TFIFO_CHARS_POS)
& ((1<<YANU_TFIFO_CHARS_N)-1);
if (tx_chars < YANU_TXFIFO_SIZE-1)
break;
WATCHDOG_RESET ();
}
writel((unsigned char)c, &uart->data);
}
static int oc_serial_tstc(void)
{
unsigned status ;
status = readl(&uart->status);
return (((status >> YANU_RFIFO_CHARS_POS) &
((1 << YANU_RFIFO_CHARS_N) - 1)) > 0);
}
static int oc_serial_getc(void)
{
while (serial_tstc() == 0)
WATCHDOG_RESET ();
/* first we pull the char */
writel(YANU_ACTION_RFIFO_PULL, &uart->action);
return(readl(&uart->data) & YANU_DATA_CHAR_MASK);
}
static struct serial_device oc_serial_drv = {
.name = "oc_serial",
.start = oc_serial_init,
.stop = NULL,
.setbrg = oc_serial_setbrg,
.putc = oc_serial_putc,
.puts = default_serial_puts,
.getc = oc_serial_getc,
.tstc = oc_serial_tstc,
};
void oc_serial_initialize(void)
{
serial_register(&oc_serial_drv);
}
__weak struct serial_device *default_serial_console(void)
{
return &oc_serial_drv;
}