rockbox/firmware/target/arm/uc870x.c
Cástor Muñoz 8fb67f48ab iPod Classic: updates for uc8702 driver
- Small rework on the UC8702 UART controller to make it compatible with
  other s5l870x SOCs. Files moved and renamed, many conditional code
  added to deal with capabilities and 'features' of the different CPUs.

- A couple of optimizacions that should not affect the functionality.

Change-Id: I705169f7e8b18d5d1da642f81ffc31c4089780a6
2016-05-13 23:21:42 +02:00

506 lines
16 KiB
C

/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2014 by Cástor Muñoz
*
* 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.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#include <stdint.h>
#include <stdbool.h>
#include "config.h"
#include "system.h"
#include "uart-target.h"
#include "uc870x.h"
/*
* UC870x: UART controller for s5l870x
*/
/* Rx related masks */
#if CONFIG_CPU == S5L8700
#define UTRSTAT_RX_RELATED_INTS (UTRSTAT_RX_INT_BIT | UTRSTAT_ERR_INT_BIT)
#define UCON_RX_RELATED_INTS (UCON_RX_INT_BIT | UCON_ERR_INT_BIT)
#elif CONFIG_CPU == S5L8701
#define UTRSTAT_RX_RELATED_INTS \
(UTRSTAT_RX_INT_BIT | UTRSTAT_ERR_INT_BIT | UTRSTAT_AUTOBR_INT_BIT)
#define UCON_RX_RELATED_INTS \
(UCON_RX_INT_BIT | UCON_ERR_INT_BIT | UCON_AUTOBR_INT_BIT)
#else /* CONFIG_CPU == S5L8702 */
#define UTRSTAT_RX_RELATED_INTS \
(UTRSTAT_RX_INT_BIT | UTRSTAT_ERR_INT_BIT | \
UTRSTAT_AUTOBR_INT_BIT | UTRSTAT_RX_TOUT_INT_BIT)
#define UCON_RX_RELATED_INTS \
(UCON_RX_INT_BIT | UCON_ERR_INT_BIT | \
UCON_AUTOBR_INT_BIT | UCON_RX_TOUT_INT_BIT)
#endif
#define UART_PORT_BASE(u,i) (((u)->baddr) + (u)->port_off * (i))
/* Initialization */
static void uartc_reset_port_id(const struct uartc* uartc, int port_id)
{
uart_target_disable_irq(uartc->id, port_id);
uart_target_disable_gpio(uartc->id, port_id);
/* set port registers to default reset values */
uint32_t baddr = UART_PORT_BASE(uartc, port_id);
UCON(baddr) = 0;
ULCON(baddr) = 0;
UMCON(baddr) = 0;
UFCON(baddr) = UFCON_RX_FIFO_RST_BIT | UFCON_TX_FIFO_RST_BIT;
UTRSTAT(baddr) = ~0; /* clear all interrupts */
UBRDIV(baddr) = 0;
#if CONFIG_CPU == S5L8702
UBRCONTX(baddr) = 0;
UBRCONRX(baddr) = 0;
#endif
uartc->port_l[port_id] = (void*)0;
}
static void uartc_reset(const struct uartc* uartc)
{
for (int port_id = 0; port_id < uartc->n_ports; port_id++)
uartc_reset_port_id(uartc, port_id);
}
void uartc_open(const struct uartc *uartc)
{
uart_target_enable_clocks(uartc->id);
uartc_reset(uartc);
}
void uartc_close(const struct uartc *uartc)
{
uartc_reset(uartc);
uart_target_disable_clocks(uartc->id);
}
void uartc_port_open(struct uartc_port *port)
{
const struct uartc *uartc = port->uartc;
uint32_t baddr = UART_PORT_BASE(uartc, port->id);
uart_target_enable_gpio(uartc->id, port->id);
/* disable Tx/Rx and mask all interrupts */
UCON(baddr) = 0;
/* clear all interrupts */
UTRSTAT(baddr) = ~0;
/* configure registers */
UFCON(baddr) = UFCON_FIFO_ENABLE_BIT
| UFCON_RX_FIFO_RST_BIT
| UFCON_TX_FIFO_RST_BIT
| ((port->rx_trg & UFCON_RX_FIFO_TRG_MASK) << UFCON_RX_FIFO_TRG_POS)
| ((port->tx_trg & UFCON_TX_FIFO_TRG_MASK) << UFCON_TX_FIFO_TRG_POS);
UMCON(baddr) = UMCON_RTS_BIT; /* activate nRTS (low level) */
UCON(baddr) = (UCON_MODE_DISABLED << UCON_RX_MODE_POS)
| (UCON_MODE_DISABLED << UCON_TX_MODE_POS)
| ((port->clksel & UCON_CLKSEL_MASK) << UCON_CLKSEL_POS)
| (port->rx_cb ? UCON_RX_RELATED_INTS|UCON_RX_TOUT_EN_BIT : 0)
| (port->tx_cb ? UCON_TX_INT_BIT : 0);
/* init and register port struct */
port->baddr = baddr;
port->utrstat_int_mask = (port->rx_cb ? UTRSTAT_RX_RELATED_INTS : 0)
| (port->tx_cb ? UTRSTAT_TX_INT_BIT : 0);
#if CONFIG_CPU != S5L8700
port->abr_aborted = 0;
#endif
uartc->port_l[port->id] = port;
/* enable interrupts */
uart_target_clear_irq(uartc->id, port->id);
/*if (port->utrstat_int_mask)*/
uart_target_enable_irq(uartc->id, port->id);
}
void uartc_port_close(struct uartc_port *port)
{
uartc_reset_port_id(port->uartc, port->id);
}
/* Configuration */
void uartc_port_config(struct uartc_port *port,
uint8_t data_bits, uint8_t parity, uint8_t stop_bits)
{
ULCON(port->baddr) = ((parity & ULCON_PARITY_MASK) << ULCON_PARITY_POS)
| ((stop_bits & ULCON_STOP_BITS_MASK) << ULCON_STOP_BITS_POS)
| ((data_bits & ULCON_DATA_BITS_MASK) << ULCON_DATA_BITS_POS);
}
/* set bitrate using precalculated values */
void uartc_port_set_bitrate_raw(struct uartc_port *port, uint32_t brdata)
{
uint32_t baddr = port->baddr;
UBRDIV(baddr) = brdata & 0xff;
#if CONFIG_CPU == S5L8702
UBRCONRX(baddr) = brdata >> 8;
UBRCONTX(baddr) = brdata >> 8;
#endif
}
#if 0
/* calculate values to set real bitrate as close as possible to the
requested speed */
void uartc_port_set_bitrate(struct uartc_port *port, unsigned int speed)
{
int uclk = port->clkhz;
/* Real baud width in UCLK/16 ticks: trunc(UCLK/(16*speed) + 0.5) */
int brdiv = (uclk + (speed << 3)) / (speed << 4);
uint32_t brdata = brdiv - 1;
#if CONFIG_CPU == S5L8702
/* Fine adjust:
*
* Along the whole frame, insert/remove "jittered" bauds when needed
* to minimize frame lenght accumulated error.
*
* jitter_width: "jittered" bauds are 1/16 wider/narrower than normal
* bauds, so step is 1/16 of real baud width = brdiv (in UCLK ticks)
*
* baud_err_width: it is the difference between theoric width and real
* width = CLK/speed - brdiv*16 (in UCLK ticks)
*
* Previous widths are scaled by 'speed' factor to simplify operations
* and preserve precision using integer operations.
*/
int jitter_width = brdiv * speed;
int baud_err_width = uclk - (jitter_width << 4);
int jitter_incdec = UBRCON_JITTER_INC;
if (baud_err_width < 0) {
baud_err_width = -baud_err_width;
jitter_incdec = UBRCON_JITTER_DEC;
}
int err_width = 0;
uint32_t brcon = 0;
for (int bit = 0; bit < UC_FRAME_MAX_LEN; bit++) {
err_width += baud_err_width;
/* adjust to the nearest width */
if (jitter_width < (err_width << 1)) {
brcon |= jitter_incdec << UBRCON_JITTER_POS(bit);
err_width -= jitter_width;
}
}
brdata |= (brcon << 8);
#endif /* CONFIG_CPU == S5L8702 */
uartc_port_set_rawbr(port, brdata);
}
#endif
/* Select Tx/Rx modes: disabling Tx/Rx resets HW, including
FIFOs and shift registers */
void uartc_port_set_rx_mode(struct uartc_port *port, uint32_t mode)
{
UCON(port->baddr) = (mode << UCON_RX_MODE_POS) |
(_UCON_RD(port->baddr) & ~(UCON_RX_MODE_MASK << UCON_RX_MODE_POS));
}
void uartc_port_set_tx_mode(struct uartc_port *port, uint32_t mode)
{
UCON(port->baddr) = (mode << UCON_TX_MODE_POS) |
(_UCON_RD(port->baddr) & ~(UCON_TX_MODE_MASK << UCON_TX_MODE_POS));
}
/* Transmit */
bool uartc_port_tx_ready(struct uartc_port *port)
{
return (UTRSTAT(port->baddr) & UTRSTAT_TXBUF_EMPTY_BIT);
}
void uartc_port_tx_byte(struct uartc_port *port, uint8_t ch)
{
UTXH(port->baddr) = ch;
#ifdef UC870X_DEBUG
port->n_tx_bytes++;
#endif
}
void uartc_port_send_byte(struct uartc_port *port, uint8_t ch)
{
/* wait for transmit buffer empty */
while (!uartc_port_tx_ready(port));
uartc_port_tx_byte(port, ch);
}
/* Receive */
bool uartc_port_rx_ready(struct uartc_port *port)
{
/* test receive buffer data ready */
return (UTRSTAT(port->baddr) & UTRSTAT_RXBUF_RDY_BIT);
}
uint8_t uartc_port_rx_byte(struct uartc_port *port)
{
return URXH(port->baddr) & 0xff;
}
uint8_t uartc_port_read_byte(struct uartc_port *port)
{
while (!uartc_port_rx_ready(port));
return uartc_port_rx_byte(port);
}
#if CONFIG_CPU != S5L8700
/* Autobauding */
static inline int uartc_port_abr_status(struct uartc_port *port)
{
return UABRSTAT(port->baddr) & UABRSTAT_STATUS_MASK;
}
void uartc_port_abr_start(struct uartc_port *port)
{
port->abr_aborted = 0;
UCON(port->baddr) = _UCON_RD(port->baddr) | UCON_AUTOBR_START_BIT;
}
void uartc_port_abr_stop(struct uartc_port *port)
{
if (uartc_port_abr_status(port) == UABRSTAT_STATUS_COUNTING)
/* There is no known way to stop the HW once COUNTING is
* in progress.
* If we disable AUTOBR_START_BIT now, COUNTING is not
* aborted, instead the HW will launch interrupts for
* every new rising edge detected while AUTOBR_START_BIT
* remains disabled.
* If AUTOBR_START_BIT is enabled, the HW will stop by
* itself when a rising edge is detected.
* So, do not disable AUTOBR_START_BIT and wait for the
* next rising edge.
*/
port->abr_aborted = 1;
else
UCON(port->baddr) = _UCON_RD(port->baddr) & ~UCON_AUTOBR_START_BIT;
}
#endif /* CONFIG_CPU != S5L8700 */
/* ISR */
void ICODE_ATTR uartc_callback(const struct uartc* uartc, int port_id)
{
struct uartc_port *port = uartc->port_l[port_id];
uint32_t baddr = port->baddr;
/* filter registered interrupts */
uint32_t ints = UTRSTAT(baddr) & port->utrstat_int_mask;
/* clear interrupts, events ocurring while processing
this ISR will be processed in the next call */
UTRSTAT(baddr) = ints;
if (ints & UTRSTAT_RX_RELATED_INTS)
{
int len = 0;
#if CONFIG_CPU != S5L8700
uint32_t abr_cnt = 0;
if (ints & UTRSTAT_AUTOBR_INT_BIT)
{
if (uartc_port_abr_status(port) == UABRSTAT_STATUS_COUNTING) {
#ifdef UC870X_DEBUG
if (_UCON_RD(baddr) & UCON_AUTOBR_START_BIT) port->n_abnormal0++;
else port->n_abnormal1++;
#endif
/* try to fix abnormal situations */
UCON(baddr) = _UCON_RD(baddr) | UCON_AUTOBR_START_BIT;
}
else if (!port->abr_aborted)
abr_cnt = UABRCNT(baddr);
}
if (ints & (UTRSTAT_RX_RELATED_INTS ^ UTRSTAT_AUTOBR_INT_BIT))
#endif /* CONFIG_CPU != S5L8700 */
{
/* get FIFO count */
uint32_t ufstat = UFSTAT(baddr);
len = (ufstat & UFSTAT_RX_FIFO_CNT_MASK) |
((ufstat & UFSTAT_RX_FIFO_FULL_BIT) >> (8 - 4));
for (int i = 0; i < len; i++) {
/* must read error status first, then data */
port->rx_err[i] = UERSTAT(baddr);
port->rx_data[i] = URXH(baddr);
}
}
/* 'len' might be zero due to RX_TOUT interrupts are
* raised by the hardware even when RX FIFO is empty.
* When overrun, it is marked on the first error:
* overrun = len ? (rx_err[0] & UERSTAT_OVERRUN_BIT) : 0
*/
#if CONFIG_CPU == S5L8700
port->rx_cb(len, port->rx_data, port->rx_err);
#else
/* 'abr_cnt' is zero when no ABR interrupt exists */
port->rx_cb(len, port->rx_data, port->rx_err, abr_cnt);
#endif
#ifdef UC870X_DEBUG
if (len) {
port->n_rx_bytes += len;
if (port->rx_err[0] & UERSTAT_OVERRUN_BIT)
port->n_ovr_err++;
for (int i = 0; i < len; i++) {
if (port->rx_err[i] & UERSTAT_PARITY_ERR_BIT)
port->n_parity_err++;
if (port->rx_err[i] & UERSTAT_FRAME_ERR_BIT)
port->n_frame_err++;
if (port->rx_err[i] & UERSTAT_BREAK_DETECT_BIT)
port->n_break_detect++;
}
}
#endif
}
#if 0
/* not used and not tested */
if (ints & UTRSTAT_TX_INT_BIT)
{
port->tx_cb(UART_FIFO_SIZE - ((UFSTAT(baddr) & \
UFSTAT_TX_FIFO_CNT_MASK) >> UFSTAT_TX_FIFO_CNT_POS));
}
#endif
}
#ifdef UC870X_DEBUG
/*#define LOGF_ENABLE*/
#include "logf.h"
#if CONFIG_CPU == S5L8702
static int get_bitrate(int uclk, int brdiv, int brcon, int frame_len)
{
logf("get_bitrate(%d, %d, 0x%08x, %d)", uclk, brdiv, brcon, frame_len);
int avg_speed;
int speed_sum = 0;
unsigned int frame_width = 0; /* in UCLK clock ticks */
/* calculate resulting speed for every frame len */
for (int bit = 0; bit < frame_len; bit++)
{
frame_width += brdiv * 16;
int incdec = ((brcon >> UBRCON_JITTER_POS(bit)) & UBRCON_JITTER_MASK);
if (incdec == UBRCON_JITTER_INC) frame_width += brdiv;
else if (incdec == UBRCON_JITTER_DEC) frame_width -= brdiv;
/* speed = truncate((UCLK / (real_frame_width / NBITS)) + 0.5)
XXX: overflows for big UCLK */
int speed = (((uclk*(bit+1))<<1) + frame_width) / (frame_width<<1);
speed_sum += speed;
logf(" %d: %c %d", bit, ((incdec == UBRCON_JITTER_INC) ? 'i' :
((incdec == UBRCON_JITTER_DEC) ? 'd' : '.')), speed);
}
/* average of the speed for all frame lengths */
avg_speed = speed_sum / frame_len;
logf(" avg speed = %d", avg_speed);
return avg_speed;
}
#endif /* CONFIG_CPU == S5L8702 */
void uartc_port_get_line_info(struct uartc_port *port,
int *tx_status, int *rx_status,
int *tx_speed, int *rx_speed, char *line_cfg)
{
uint32_t baddr = port->baddr;
uint32_t ucon = _UCON_RD(baddr);
if (tx_status)
*tx_status = ((ucon >> UCON_TX_MODE_POS) & UCON_TX_MODE_MASK) ? 1 : 0;
if (rx_status)
*rx_status = ((ucon >> UCON_RX_MODE_POS) & UCON_RX_MODE_MASK) ? 1 : 0;
uint32_t ulcon = ULCON(baddr);
int n_data = ((ulcon >> ULCON_DATA_BITS_POS) & ULCON_DATA_BITS_MASK) + 5;
int n_stop = ((ulcon >> ULCON_STOP_BITS_POS) & ULCON_STOP_BITS_MASK) + 1;
int parity = (ulcon >> ULCON_PARITY_POS) & ULCON_PARITY_MASK;
uint32_t brdiv = UBRDIV(baddr) + 1;
#if CONFIG_CPU == S5L8702
int frame_len = 1 + n_data + (parity ? 1 : 0) + n_stop;
if (tx_speed)
*tx_speed = get_bitrate(port->clkhz, brdiv, UBRCONTX(baddr), frame_len);
if (rx_speed)
*rx_speed = get_bitrate(port->clkhz, brdiv, UBRCONRX(baddr), frame_len);
#else
/* speed = truncate(UCLK/(16*brdiv) + 0.5) */
int speed = (port->clkhz + (brdiv << 3)) / (brdiv << 4);
if (tx_speed) *tx_speed = speed;
if (rx_speed) *rx_speed = speed;
#endif
if (line_cfg) {
line_cfg[0] = '0' + n_data;
line_cfg[1] = ((parity == ULCON_PARITY_NONE) ? 'N' :
((parity == ULCON_PARITY_EVEN) ? 'E' :
((parity == ULCON_PARITY_ODD) ? 'O' :
((parity == ULCON_PARITY_FORCE_1) ? 'M' :
((parity == ULCON_PARITY_FORCE_0) ? 'S' : '?')))));
line_cfg[2] = '0' + n_stop;
line_cfg[3] = '\0';
}
}
#if CONFIG_CPU != S5L8700
/* Autobauding */
int uartc_port_get_abr_info(struct uartc_port *port, uint32_t *abr_cnt)
{
int status;
uint32_t abr_status;
int flags = disable_irq_save();
abr_status = uartc_port_abr_status(port);
if (_UCON_RD(port->baddr) & UCON_AUTOBR_START_BIT) {
if (abr_status == UABRSTAT_STATUS_COUNTING)
status = ABR_INFO_ST_COUNTING; /* waiting for rising edge */
else
status = ABR_INFO_ST_LAUNCHED; /* waiting for falling edge */
}
else {
if (abr_status == UABRSTAT_STATUS_COUNTING)
status = ABR_INFO_ST_ABNORMAL;
else
status = ABR_INFO_ST_IDLE;
}
if (abr_cnt)
*abr_cnt = UABRCNT(port->baddr);
restore_irq(flags);
return status;
}
#endif /* CONFIG_CPU != S5L8700 */
#endif /* UC870X_DEBUG */