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/*
* Mach Operating System
* Copyright (c) 1993,1992 Carnegie Mellon University
* All Rights Reserved.
*
* Permission to use, copy, modify and distribute this software and its
* documentation is hereby granted, provided that both the copyright
* notice and this permission notice appear in all copies of the
* software, derivative works or modified versions, and any portions
* thereof, and that both notices appear in supporting documentation.
*
* CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
* CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
* ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
*
* Carnegie Mellon requests users of this software to return to
*
* Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU
* School of Computer Science
* Carnegie Mellon University
* Pittsburgh PA 15213-3890
*
* any improvements or extensions that they make and grant Carnegie Mellon
* the rights to redistribute these changes.
*/
/*
* File: dtop_hdw.c
* Author: Alessandro Forin, Carnegie Mellon University
* Date: 1/92
*
* Hardware-level operations for the Desktop serial line
* bus (i2c aka ACCESS).
*/
#include <dtop.h>
#if NDTOP > 0
#include <bm.h>
#include <platforms.h>
#include <machine/machspl.h> /* spl definitions */
#include <mach/std_types.h>
#include <device/io_req.h>
#include <device/tty.h>
#include <chips/busses.h>
#include <chips/serial_defs.h>
#include <chips/screen_defs.h>
#include <chips/lk201.h>
#include <mips/PMAX/tc.h>
#include <chips/dtop.h>
#define DTOP_MAX_POLL 0x7fff /* about half a sec */
#ifdef MAXINE
typedef volatile unsigned int *data_reg_t; /* uC */
#define DTOP_GET_BYTE(data) (((*(data)) >> 8) & 0xff)
#define DTOP_PUT_BYTE(data,c) { *(data) = (c) << 8; }
typedef volatile unsigned int *poll_reg_t; /* SIR */
#define DTOP_RX_AVAIL(poll) (*(poll) & 1)
#define DTOP_TX_AVAIL(poll) (*(poll) & 2)
#else
define how to get/put DTOP packets on this box
#endif
/*
* Driver status
*/
struct dtop_softc {
data_reg_t data;
poll_reg_t poll;
char polling_mode;
char probed_once;
short bad_pkts;
struct dtop_ds {
int (*handler)(dtop_device_t,
dtop_message_t,
int,
unsigned char);
dtop_device status;
} device[(DTOP_ADDR_DEFAULT - DTOP_ADDR_FIRST) >> 1];
# define DTOP_DEVICE_NO(address) (((address)-DTOP_ADDR_FIRST)>>1)
} dtop_softc_data[NDTOP];
typedef struct dtop_softc *dtop_softc_t;
dtop_softc_t dtop_softc[NDTOP];
/*
* Definition of the driver for the auto-configuration program.
*/
int dtop_probe(), dtop_intr();
static void dtop_attach();
vm_offset_t dtop_std[NDTOP] = { 0 };
struct bus_device *dtop_info[NDTOP];
struct bus_driver dtop_driver =
{ dtop_probe, 0, dtop_attach, 0, dtop_std, "dtop", dtop_info,};
int dtop_print_debug = 0;
/*
* Adapt/Probe/Attach functions
*/
set_dtop_address( dtopunit, poll_reg)
data_reg_t poll_reg;
{
int i;
extern int dtop_probe(), dtop_param(), dtop_start(),
dtop_putc(), dtop_getc(),
dtop_pollc(), dtop_mctl(), dtop_softCAR();
dtop_std[dtopunit] = (vm_offset_t)poll_reg;
/* Do this here */
console_probe = dtop_probe;
console_param = dtop_param;
console_start = dtop_start;
console_putc = dtop_putc;
console_getc = dtop_getc;
console_pollc = dtop_pollc;
console_mctl = dtop_mctl;
console_softCAR = dtop_softCAR;
}
dtop_probe( data_reg, ui)
data_reg_t data_reg;
struct bus_device *ui;
{
int dtopunit = ui->unit, i;
dtop_softc_t dtop;
dtop = &dtop_softc_data[dtopunit];
dtop_softc[dtopunit] = dtop;
dtop->poll = (poll_reg_t)dtop_std[dtopunit];
dtop->data = data_reg;
for (i = 0; i < DTOP_MAX_DEVICES; i++)
dtop->device[i].handler = dtop_null_device_handler;
/* a lot more needed here, fornow: */
dtop->device[DTOP_DEVICE_NO(0x6a)].handler = dtop_locator_handler;
dtop->device[DTOP_DEVICE_NO(0x6a)].status.locator.type =
DEV_MOUSE;
dtop->device[DTOP_DEVICE_NO(0x6a)].status.locator.relative =
1;
dtop->device[DTOP_DEVICE_NO(0x6a)].status.locator.button_code[0] =
KEY_LEFT_BUTTON;
dtop->device[DTOP_DEVICE_NO(0x6a)].status.locator.button_code[1] =
KEY_RIGHT_BUTTON;
dtop->device[DTOP_DEVICE_NO(0x6a)].status.locator.button_code[2] =
KEY_MIDDLE_BUTTON;
dtop->device[DTOP_DEVICE_NO(0x6a)].status.locator.n_coords =
2;
dtop->device[DTOP_DEVICE_NO(0x6c)].handler = dtop_keyboard_handler;
dtop->device[DTOP_DEVICE_NO(0x6c)].status.keyboard.poll_frequency =
(hz * 5) / 100; /* x0.01 secs */
dtop->device[DTOP_DEVICE_NO(0x6c)].status.keyboard.bell_volume =
DTOP_CLICK_VOLUME_MAX;
return 1;
}
static void
dtop_attach(ui)
struct bus_device *ui;
{
int i;
/* Initialize all the console ttys */
for (i = 0; i < 4; i++)
ttychars(console_tty[i]);
/* Mark keyboard and mouse present */
for (i = 0; i < 2; i++)
console_tty[i]->t_addr = (char*)1;
}
/*
* Polled I/O (debugger)
*/
dtop_pollc(unit, on)
boolean_t on;
{
dtop_softc_t dtop;
dtop = dtop_softc[unit];
if (on) {
dtop->polling_mode++;
#if NBM > 0
screen_on_off(unit, TRUE);
#endif NBM > 0
} else
dtop->polling_mode--;
}
/*
* Interrupt routine
*/
dtop_intr (unit, spllevel, recvd)
spl_t spllevel;
boolean_t recvd;
{
if (recvd) {
dtop_message msg;
int devno;
dtop_softc_t dtop;
ssaver_bump(unit);
#ifdef mips
splx(spllevel);
#endif
dtop = dtop_softc[unit];
if (dtop_get_packet(dtop, &msg) < 0) {
if (dtop_print_debug)
printf("%s", "dtop: overrun (or stray)\n");
return;
}
devno = DTOP_DEVICE_NO(msg.src_address);
if (devno < 0 || devno > 15) return; /* sanity */
(void) (*dtop->device[devno].handler)
(&dtop->device[devno].status, &msg,
DTOP_EVENT_RECEIVE_PACKET, 0);
} else {
/* fornow xmit is not intr based */
(*tc_enable_interrupt)( dtop_info[unit]->adaptor, FALSE, TRUE);
}
}
boolean_t
dtop_start(tp)
struct tty *tp;
{
register int line, temp;
/* no, we do not need a char out first */
return FALSE;
}
dtop_w_test(n, a,b,c,d,e,f,g,h)
{
int *p = (int*)0xbc2a0000;
if (n <= 0) return;
a <<= 8; *p = a;
if (--n == 0) goto out;
delay(20);
b <<= 8; *p = b;
if (--n == 0) goto out;
delay(20);
c <<= 8; *p = c;
if (--n == 0) goto out;
delay(20);
d <<= 8; *p = d;
if (--n == 0) goto out;
delay(20);
e <<= 8; *p = e;
if (--n == 0) goto out;
delay(20);
f <<= 8; *p = f;
if (--n == 0) goto out;
delay(20);
g <<= 8; *p = g;
if (--n == 0) goto out;
delay(20);
h <<= 8; *p = h;
out:
delay(10000);
{
int buf[100];
delay(20);
a = *p;
buf[0] = a;
c = 1;
for (n = 0; n < 100; n++) {
delay(20);
b = *p;
if (b != a) {
buf[c++] = b;
b = a;
}
}
for (n = 0; n < c; n++)
db_printf("%x ", ((buf[n])>>8)&0xff);
}
return c;
}
/*
* Take a packet off dtop interface
* A packet MUST be there, this is not checked for.
*/
#define DTOP_ESC_CHAR 0xf8
dtop_escape(c)
{
/* I donno much about this stuff.. */
switch (c) {
case 0xe8: return 0xf8;
case 0xe9: return 0xf9;
case 0xea: return 0xfa;
case 0xeb: return 0xfb;
default: /* printf("{esc %x}", c); */
return c;
}
}
dtop_get_packet(dtop, pkt)
dtop_softc_t dtop;
dtop_message_t pkt;
{
register poll_reg_t poll;
register data_reg_t data;
register int max, i, len;
register unsigned char c;
poll = dtop->poll;
data = dtop->data;
/*
* The interface does not handle us the first byte,
* which is our address and cannot ever be anything
* else but 0x50. This is a good thing, it makes
* the average packet exactly one word long, too.
*/
pkt->src_address = DTOP_GET_BYTE(data);
for (max = 0; (max < DTOP_MAX_POLL) && !DTOP_RX_AVAIL(poll); max++)
delay(16);
if (max == DTOP_MAX_POLL) goto bad;
pkt->code.bits = DTOP_GET_BYTE(data);
/*
* Now get data and checksum
*/
len = pkt->code.val.len + 1;
c = 0;
for (i = 0; i < len; i++) {
again: for (max = 0; (max < DTOP_MAX_POLL) && !DTOP_RX_AVAIL(poll); max++)
delay(16);
if (max == DTOP_MAX_POLL) goto bad;
if (c == DTOP_ESC_CHAR) {
c = dtop_escape(DTOP_GET_BYTE(data) & 0xff);
} else {
c = DTOP_GET_BYTE(data);
if (c == DTOP_ESC_CHAR)
goto again;
}
pkt->body[i] = c;
}
return len;
bad:
dtop->bad_pkts++;
return -1;
}
/* Conversely... */
dtop_put_packet(dtop, pkt)
dtop_softc_t dtop;
dtop_message_t pkt;
{
register int i, max;
register unsigned char *cp;
register unsigned int spl;
register unsigned char c;
spl = spltty();
pkt->src_address = pkt->dest_address;
i = 0;
cp = (unsigned char *)&pkt->src_address;
while (i < pkt->code.val.len + 2) {
for (max = 0; max < DTOP_MAX_POLL && !DTOP_TX_AVAIL(dtop->poll);
max++);
if (max == DTOP_MAX_POLL)
goto bad;
DTOP_PUT_BYTE(dtop->data, *cp);
cp++;
i++;
}
for (max = 0; (max < DTOP_MAX_POLL) && !DTOP_RX_AVAIL(dtop->poll); max++)
delay(16);
if (max == DTOP_MAX_POLL)
goto bad;
c = DTOP_GET_BYTE(dtop->data);
if (c == DTOP_ESC_CHAR) {
for (max = 0; (max < DTOP_MAX_POLL)
&& !DTOP_RX_AVAIL(dtop->poll); max++)
delay(16);
if (max == DTOP_MAX_POLL)
goto bad;
c = DTOP_GET_BYTE(dtop->data);
}
splx(spl);
switch (c) {
case 0xfb: /* XMT, ok */
break;
default:
return 0;
}
return 1;
bad:
splx(spl);
return 0;
}
/*
* Get a char from a specific DTOP line
* [this is only used for console&screen purposes]
*/
dtop_getc( unit, line, wait, raw )
boolean_t wait;
boolean_t raw;
{
register int c;
dtop_softc_t dtop;
dtop = dtop_softc[unit];
again:
c = -1;
/*
* Try rconsole first
*/
if (rcline && line == SCREEN_LINE_KEYBOARD) {
c = scc_getc( 0, rcline, FALSE, raw);
if (c != -1) return c;
}
/*
* Now check keyboard
*/
if (DTOP_RX_AVAIL(dtop->poll)) {
dtop_message msg;
struct dtop_ds *ds;
if (dtop_get_packet(dtop, &msg) >= 0) {
ds = &dtop->device[DTOP_DEVICE_NO(msg.src_address)];
if (ds->handler == dtop_keyboard_handler) {
c = dtop_keyboard_handler(
&ds->status, &msg,
DTOP_EVENT_RECEIVE_PACKET, -1);
if (c > 0) return c;
c = -1;
}
}
}
if (wait && (c == -1)) {
delay(100);
goto again;
}
return c;
}
/*
* Put a char on a specific DTOP line
*/
dtop_putc( unit, line, c )
{
if (rcline && line == rcline) {
scc_putc(0, rcline, c);
}
/* dprintf("%c", c); */
}
dtop_param(tp, line)
struct tty *tp;
{
if (tp->t_ispeed == 0)
ttymodem(tp, 0);
else
/* called too early to invoke ttymodem, sigh */
tp->t_state |= TS_CARR_ON;
}
/*
* Modem control functions, we don't need 'em
*/
dtop_mctl(dev, bits, how)
int dev;
int bits, how;
{
return 0;
}
dtop_softCAR(unit, line, on)
{
}
/* Some keyboard specific stuff, probably belongs elsewhere */
dtop_kbd_probe(unit)
{
if (dtop_std[unit]) {
lk201_probe(unit);
return 1;
}
return 0;
}
io_return_t
dtop_set_status(unit, flavor, status, status_count)
int unit;
int flavor;
dev_status_t status;
unsigned int status_count;
{
dtop_device_t dev;
dev = &dtop_softc[unit]->device[DTOP_DEVICE_NO(0x6c)].status;
switch (flavor) {
case LK201_SEND_CMD: {
register lk201_cmd_t *cmd = (lk201_cmd_t *)status;
unsigned int cnt;
if ((status_count < (sizeof(*cmd)/sizeof(int))) ||
((cnt = cmd->len) > 2))
return D_INVALID_SIZE;
switch (cmd->command) {
case LK_CMD_ENB_BELL:
cmd->params[0] ^= 0x7;
if (dtop_print_debug)
printf("LK_CMD_ENB_BELL %d\n", cmd->params[0]);
dev->keyboard.bell_volume = cmd->params[0] & 0x7;
break;
case LK_CMD_DIS_BELL:
dev->keyboard.bell_volume = 0;
break;
case LK_CMD_BELL:
dtop_ring_bell(unit);
break;
case LK_CMD_LEDS_ON:
cmd->params[0] &= ~0x80;
if (dtop_print_debug)
printf("LK_CMD_LEDS_ON %d %x\n",
cmd->params[0], cmd->params[0]);
dev->keyboard.led_status |= cmd->params[0];
dtop_leds(unit, dev->keyboard.led_status);
break;
case LK_CMD_LEDS_OFF:
cmd->params[0] &= ~0x80;
dev->keyboard.led_status &= ~cmd->params[0];
dtop_leds(unit, dev->keyboard.led_status);
break;
case LK_CMD_ENB_KEYCLK:
case LK_CMD_DIS_KEYCLK:
case LK_CMD_SOUND_CLK:
case LK_CMD_DIS_CTLCLK:
case LK_CMD_ENB_CTLCLK:
break;
default:
break;
}
break;
}
default:
break;
}
return lk201_set_status(unit, flavor, status, status_count);
}
dtop_kbd_reset(unit)
{
return lk201_reset(unit);
}
#define DTOP_BITS(p, len) (((p) << 7) | (len))
dtop_ring_bell(unit)
{
dtop_message msg;
dtop_device_t dev;
int vol;
dev = &dtop_softc[unit]->device[DTOP_DEVICE_NO(0x6c)].status;
vol = dev->keyboard.bell_volume;
if (dtop_print_debug)
printf("dtop_ring_bell: %d\n", vol);
msg.dest_address = DTOP_ADDR_KBD;
msg.code.bits = DTOP_BITS(1, 2);
msg.body[0] = DTOP_KMSG_BELL;
msg.body[1] = vol;
if (!dtop_put_packet(dtop_softc[unit], &msg)) {
if (dtop_print_debug)
printf("dtop_ring_bell: dtop_put_packet failed\n");
return -1;
}
return 0;
}
dtop_leds(unit, mask)
{
dtop_message msg;
if (dtop_print_debug)
printf("dtop_leds %x\n", mask);
msg.dest_address = DTOP_ADDR_KBD;
msg.code.bits = DTOP_BITS(1, 2);
msg.body[0] = DTOP_KMSG_LED;
msg.body[1] = mask;
if (!dtop_put_packet(dtop_softc[unit], &msg)) {
if (dtop_print_debug)
printf("dtop_leds: dtop_put_packet failed\n");
return -1;
}
return 0;
}
#endif NDTOP > 0
|