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|
/* $NetBSD: kbd.c,v 1.19 1995/07/06 05:35:34 pk Exp $ */
/*
* Copyright (c) 1992, 1993
* The Regents of the University of California. All rights reserved.
*
* This software was developed by the Computer Systems Engineering group
* at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and
* contributed to Berkeley.
*
* All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Lawrence Berkeley Laboratory.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @(#)kbd.c 8.2 (Berkeley) 10/30/93
*/
/*
* Keyboard driver (/dev/kbd -- note that we do not have minor numbers
* [yet?]). Translates incoming bytes to ASCII or to `firm_events' and
* passes them up to the appropriate reader.
*/
#include <sys/param.h>
#include <sys/conf.h>
#include <sys/device.h>
#include <sys/ioctl.h>
#include <sys/kernel.h>
#include <sys/proc.h>
#include <sys/syslog.h>
#include <sys/systm.h>
#include <sys/tty.h>
#include <machine/autoconf.h>
#include <machine/vuid_event.h>
#include <sparc/dev/event_var.h>
#include <machine/kbd.h>
#include <machine/kbio.h>
/*
* Sun keyboard definitions (from Sprite).
* These apply to type 2, 3 and 4 keyboards.
*/
#define KEY_CODE(c) ((c) & KBD_KEYMASK) /* keyboard code index */
#define KEY_UP(c) ((c) & KBD_UP) /* true => key went up */
/*
* Each KEY_CODE(x) can be translated via the tables below.
* The result is either a valid ASCII value in [0..0x7f] or is one
* of the following `magic' values saying something interesting
* happened. If LSHIFT or RSHIFT has changed state the next
* lookup should come from the appropriate table; if ALLUP is
* sent all keys (including both shifts and the control key) are
* now up, and the next byte is the keyboard ID code.
*
* These tables ignore all function keys (on the theory that if you
* want these keys, you should use a window system). Note that
* `caps lock' is just mapped as `ignore' (so there!). (Only the
* type 3 and 4 keyboards have a caps lock key anyway.)
*/
#define KEY_MAGIC 0x80 /* flag => magic value */
#define KEY_IGNORE 0x80
#define KEY_L1 KEY_IGNORE
#define KEY_CAPSLOCK KEY_IGNORE
#define KEY_LSHIFT 0x81
#define KEY_RSHIFT 0x82
#define KEY_CONTROL 0x83
#define KEY_ALLUP 0x84 /* all keys are now up; also reset */
/*
* Decode tables for type 2, 3, and 4 keyboards
* (stolen from Sprite; see also kbd.h).
*/
static u_char kbd_unshifted[] = {
/* 0 */ KEY_IGNORE, KEY_L1, KEY_IGNORE, KEY_IGNORE,
/* 4 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 8 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 12 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 16 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 20 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 24 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 28 */ KEY_IGNORE, '\033', '1', '2',
/* 32 */ '3', '4', '5', '6',
/* 36 */ '7', '8', '9', '0',
/* 40 */ '-', '=', '`', '\b',
/* 44 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 48 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 52 */ KEY_IGNORE, '\t', 'q', 'w',
/* 56 */ 'e', 'r', 't', 'y',
/* 60 */ 'u', 'i', 'o', 'p',
/* 64 */ '[', ']', '\177', KEY_IGNORE,
/* 68 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 72 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 76 */ KEY_CONTROL, 'a', 's', 'd',
/* 80 */ 'f', 'g', 'h', 'j',
/* 84 */ 'k', 'l', ';', '\'',
/* 88 */ '\\', '\r', KEY_IGNORE, KEY_IGNORE,
/* 92 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 96 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_LSHIFT,
/* 100 */ 'z', 'x', 'c', 'v',
/* 104 */ 'b', 'n', 'm', ',',
/* 108 */ '.', '/', KEY_RSHIFT, '\n',
/* 112 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 116 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_CAPSLOCK,
/* 120 */ KEY_IGNORE, ' ', KEY_IGNORE, KEY_IGNORE,
/* 124 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_ALLUP,
};
static u_char kbd_shifted[] = {
/* 0 */ KEY_IGNORE, KEY_L1, KEY_IGNORE, KEY_IGNORE,
/* 4 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 8 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 12 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 16 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 20 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 24 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 28 */ KEY_IGNORE, '\033', '!', '@',
/* 32 */ '#', '$', '%', '^',
/* 36 */ '&', '*', '(', ')',
/* 40 */ '_', '+', '~', '\b',
/* 44 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 48 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 52 */ KEY_IGNORE, '\t', 'Q', 'W',
/* 56 */ 'E', 'R', 'T', 'Y',
/* 60 */ 'U', 'I', 'O', 'P',
/* 64 */ '{', '}', '\177', KEY_IGNORE,
/* 68 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 72 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 76 */ KEY_CONTROL, 'A', 'S', 'D',
/* 80 */ 'F', 'G', 'H', 'J',
/* 84 */ 'K', 'L', ':', '"',
/* 88 */ '|', '\r', KEY_IGNORE, KEY_IGNORE,
/* 92 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 96 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_LSHIFT,
/* 100 */ 'Z', 'X', 'C', 'V',
/* 104 */ 'B', 'N', 'M', '<',
/* 108 */ '>', '?', KEY_RSHIFT, '\n',
/* 112 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_IGNORE,
/* 116 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_CAPSLOCK,
/* 120 */ KEY_IGNORE, ' ', KEY_IGNORE, KEY_IGNORE,
/* 124 */ KEY_IGNORE, KEY_IGNORE, KEY_IGNORE, KEY_ALLUP,
};
/*
* We need to remember the state of the keyboard's shift and control
* keys, and we need a per-type translation table.
*/
struct kbd_state {
const u_char *kbd_unshifted; /* unshifted keys */
const u_char *kbd_shifted; /* shifted keys */
const u_char *kbd_cur; /* current keys (either of the preceding) */
union {
char c[2]; /* left and right shift keys */
short s; /* true => either shift key */
} kbd_shift;
#define kbd_lshift kbd_shift.c[0]
#define kbd_rshift kbd_shift.c[1]
#define kbd_anyshift kbd_shift.s
char kbd_control; /* true => ctrl down */
char kbd_click; /* true => keyclick enabled */
u_char kbd_pending; /* Another code from the keyboard is due */
u_char kbd_id; /* a place to store the ID */
u_char kbd_layout; /* a place to store layout */
char kbd_leds; /* LED state */
};
/*
* Keyboard driver state. The ascii and kbd links go up and down and
* we just sit in the middle doing translation. Note that it is possible
* to get just one of the two links, in which case /dev/kbd is unavailable.
* The downlink supplies us with `internal' open and close routines which
* will enable dataflow across the downlink. We promise to call open when
* we are willing to take keystrokes, and to call close when we are not.
* If /dev/kbd is not the console tty input source, we do this whenever
* /dev/kbd is in use; otherwise we just leave it open forever.
*/
struct kbd_softc {
struct tty *k_cons; /* uplink for ASCII data to console */
struct tty *k_kbd; /* downlink for output to keyboard */
void (*k_open) __P((struct tty *)); /* enable dataflow */
void (*k_close) __P((struct tty *)); /* disable dataflow */
int k_evmode; /* set if we should produce events */
struct kbd_state k_state; /* ASCII decode state */
struct evvar k_events; /* event queue state */
int k_repeatc; /* repeated character */
int k_repeating; /* we've called timeout() */
} kbd_softc;
/* Prototypes */
void kbd_ascii(struct tty *);
void kbd_serial(struct tty *, void (*)(), void (*)());
static void kbd_getid(void *);
void kbd_reset(struct kbd_state *);
static int kbd_translate(int, struct kbd_state *);
void kbd_rint(int);
int kbdopen(dev_t, int, int, struct proc *);
int kbdclose(dev_t, int, int, struct proc *);
int kbdread(dev_t, struct uio *, int);
int kbdwrite(dev_t, struct uio *, int);
int kbdioctl(dev_t, u_long, caddr_t, int, struct proc *);
int kbdselect(dev_t, int, struct proc *);
int kbd_docmd(int, int);
/* set in kbdattach() */
int kbd_repeat_start;
int kbd_repeat_step;
/*
* Attach the console keyboard ASCII (up-link) interface.
* This happens before kbd_serial.
*/
void
kbd_ascii(struct tty *tp)
{
kbd_softc.k_cons = tp;
}
/*
* Attach the console keyboard serial (down-link) interface.
* We pick up the initial keyboard click state here as well.
*/
void
kbd_serial(struct tty *tp, void (*iopen)(), void (*iclose)())
{
register struct kbd_softc *k;
register char *cp;
k = &kbd_softc;
k->k_kbd = tp;
k->k_open = iopen;
k->k_close = iclose;
if (cputyp != CPU_SUN4) {
cp = getpropstring(optionsnode, "keyboard-click?");
if (cp && strcmp(cp, "true") == 0)
k->k_state.kbd_click = 1;
}
}
/*
* Called from main() during pseudo-device setup. If this keyboard is
* the console, this is our chance to open the underlying serial port and
* send a RESET, so that we can find out what kind of keyboard it is.
*/
void
kbdattach(int nkbd)
{
register struct kbd_softc *k;
register struct tty *tp;
kbd_repeat_start = hz/5;
kbd_repeat_step = hz/20;
if (kbd_softc.k_cons != NULL) {
k = &kbd_softc;
tp = k->k_kbd;
(*k->k_open)(tp); /* never to be closed */
if (ttyoutput(KBD_CMD_RESET, tp) >= 0)
panic("kbdattach");
(*tp->t_oproc)(tp); /* get it going */
}
}
void
kbd_reset(register struct kbd_state *ks)
{
/*
* On first identification, wake up anyone waiting for type
* and set up the table pointers.
*/
if (ks->kbd_unshifted == NULL) {
wakeup((caddr_t)ks);
ks->kbd_unshifted = kbd_unshifted;
ks->kbd_shifted = kbd_shifted;
ks->kbd_cur = ks->kbd_unshifted;
}
/* Restore keyclick, if necessary */
switch (ks->kbd_id) {
case KB_SUN2:
/* Type 2 keyboards don't support keyclick */
break;
case KB_SUN3:
/* Type 3 keyboards come up with keyclick on */
if (!ks->kbd_click)
(void) kbd_docmd(KBD_CMD_NOCLICK, 0);
break;
case KB_SUN4:
/* Type 4 keyboards come up with keyclick off */
if (ks->kbd_click)
(void) kbd_docmd(KBD_CMD_CLICK, 0);
break;
default:
printf("Unknown keyboard type %d\n", ks->kbd_id);
}
ks->kbd_leds = 0;
}
/*
* Turn keyboard up/down codes into ASCII.
*/
static int
kbd_translate(register int c, register struct kbd_state *ks)
{
register int down;
if (ks->kbd_cur == NULL) {
/*
* Do not know how to translate yet.
* We will find out when a RESET comes along.
*/
return (-1);
}
down = !KEY_UP(c);
c = ks->kbd_cur[KEY_CODE(c)];
if (c & KEY_MAGIC) {
switch (c) {
case KEY_LSHIFT:
ks->kbd_lshift = down;
break;
case KEY_RSHIFT:
ks->kbd_rshift = down;
break;
case KEY_ALLUP:
ks->kbd_anyshift = 0;
ks->kbd_control = 0;
break;
case KEY_CONTROL:
ks->kbd_control = down;
/* FALLTHROUGH */
case KEY_IGNORE:
return (-1);
default:
panic("kbd_translate");
}
if (ks->kbd_anyshift)
ks->kbd_cur = ks->kbd_shifted;
else
ks->kbd_cur = ks->kbd_unshifted;
return (-1);
}
if (!down)
return (-1);
if (ks->kbd_control) {
/* control space and unshifted control atsign return null */
if (c == ' ' || c == '2')
return (0);
/* unshifted control hat */
if (c == '6')
return ('^' & 0x1f);
/* standard controls */
if (c >= '@' && c < 0x7f)
return (c & 0x1f);
}
return (c);
}
void
kbd_repeat(void *arg)
{
struct kbd_softc *k = (struct kbd_softc *)arg;
int s = spltty();
if (k->k_repeating && k->k_repeatc >= 0 && k->k_cons != NULL) {
ttyinput(k->k_repeatc, k->k_cons);
timeout(kbd_repeat, k, kbd_repeat_step);
}
splx(s);
}
void
kbd_rint(register int c)
{
register struct kbd_softc *k = &kbd_softc;
register struct firm_event *fe;
register int put;
if (k->k_repeating) {
k->k_repeating = 0;
untimeout(kbd_repeat, k);
}
/*
* Reset keyboard after serial port overrun, so we can resynch.
* The printf below should be shortened and/or replaced with a
* call to log() after this is tested (and how will we test it?!).
*/
if (c & (TTY_FE|TTY_PE)) {
printf("keyboard input parity or framing error (0x%x)\n", c);
(void) ttyoutput(KBD_CMD_RESET, k->k_kbd);
(*k->k_kbd->t_oproc)(k->k_kbd);
return;
}
/* Read the keyboard id if we read a KBD_RESET last time */
if (k->k_state.kbd_pending == KBD_RESET) {
k->k_state.kbd_pending = 0;
k->k_state.kbd_id = c;
kbd_reset(&k->k_state);
if (c == KB_SUN4) {
/* Arrange to get keyboard layout as well */
(void)ttyoutput(KBD_CMD_GLAYOUT, k->k_kbd);
(*k->k_kbd->t_oproc)(k->k_kbd);
}
return;
}
/* Read the keyboard layout if we read a KBD_LAYOUT last time */
if (k->k_state.kbd_pending == KBD_LAYOUT) {
k->k_state.kbd_pending = 0;
k->k_state.kbd_layout = c;
return;
}
/*
* If reset or layout in progress, setup to grab the accompanying
* keyboard response next time (id on reset, dip switch on layout).
*/
if (c == KBD_RESET || c == KBD_LAYOUT) {
k->k_state.kbd_pending = c;
return;
}
/*
* If /dev/kbd is not connected in event mode, but we are sending
* data to /dev/console, translate and send upstream. Note that
* we will get this while opening /dev/kbd if it is not already
* open and we do not know its type.
*/
if (!k->k_evmode) {
c = kbd_translate(c, &k->k_state);
if (c >= 0 && k->k_cons != NULL) {
ttyinput(c, k->k_cons);
k->k_repeating = 1;
k->k_repeatc = c;
timeout(kbd_repeat, k, kbd_repeat_start);
}
return;
}
/*
* IDLEs confuse the MIT X11R4 server badly, so we must drop them.
* This is bad as it means the server will not automatically resync
* on all-up IDLEs, but I did not drop them before, and the server
* goes crazy when it comes time to blank the screen....
*/
if (c == KBD_IDLE)
return;
/*
* Keyboard is generating events. Turn this keystroke into an
* event and put it in the queue. If the queue is full, the
* keystroke is lost (sorry!).
*/
put = k->k_events.ev_put;
fe = &k->k_events.ev_q[put];
put = (put + 1) % EV_QSIZE;
if (put == k->k_events.ev_get) {
log(LOG_WARNING, "keyboard event queue overflow\n"); /* ??? */
return;
}
fe->id = KEY_CODE(c);
fe->value = KEY_UP(c) ? VKEY_UP : VKEY_DOWN;
fe->time = time;
k->k_events.ev_put = put;
EV_WAKEUP(&k->k_events);
}
int
kbdopen(dev_t dev, int flags, int mode, struct proc *p)
{
int s, error;
struct tty *tp;
if (kbd_softc.k_events.ev_io)
return (EBUSY);
kbd_softc.k_events.ev_io = p;
/*
* If no console keyboard, tell the device to open up, maybe for
* the first time. Then make sure we know what kind of keyboard
* it is.
*/
tp = kbd_softc.k_kbd;
if (kbd_softc.k_cons == NULL)
(*kbd_softc.k_open)(tp);
error = 0;
s = spltty();
if (kbd_softc.k_state.kbd_cur == NULL) {
(void) ttyoutput(KBD_CMD_RESET, tp);
(*tp->t_oproc)(tp);
error = tsleep((caddr_t)&kbd_softc.k_state, PZERO | PCATCH,
devopn, hz);
if (error == EWOULDBLOCK) /* no response */
error = ENXIO;
}
splx(s);
if (error) {
kbd_softc.k_events.ev_io = NULL;
return (error);
}
ev_init(&kbd_softc.k_events);
return (0);
}
int
kbdclose(dev_t dev, int flags, int mode, struct proc *p)
{
/*
* Turn off event mode, dump the queue, and close the keyboard
* unless it is supplying console input.
*/
kbd_softc.k_evmode = 0;
ev_fini(&kbd_softc.k_events);
if (kbd_softc.k_cons == NULL)
(*kbd_softc.k_close)(kbd_softc.k_kbd);
kbd_softc.k_events.ev_io = NULL;
return (0);
}
int
kbdread(dev_t dev, struct uio *uio, int flags)
{
return (ev_read(&kbd_softc.k_events, uio, flags));
}
/* this routine should not exist, but is convenient to write here for now */
int
kbdwrite(dev_t dev, struct uio *uio, int flags)
{
return (EOPNOTSUPP);
}
int
kbdioctl(dev_t dev, u_long cmd, register caddr_t data, int flag, struct proc *p)
{
register struct kbd_softc *k = &kbd_softc;
register struct kiockey *kmp;
register u_char *tp;
switch (cmd) {
case KIOCTRANS:
if (*(int *)data == TR_UNTRANS_EVENT)
return (0);
break;
case KIOCGTRANS:
/*
* Get translation mode
*/
*(int *)data = TR_UNTRANS_EVENT;
return (0);
case KIOCGETKEY:
if (((struct okiockey *)data)->kio_station == 118) {
/*
* This is X11 asking if a type 3 keyboard is
* really a type 3 keyboard. Say yes.
*/
((struct okiockey *)data)->kio_entry = HOLE;
return (0);
}
break;
case KIOCSKEY:
kmp = (struct kiockey *)data;
switch (kmp->kio_tablemask) {
case KIOC_NOMASK:
tp = kbd_unshifted;
break;
case KIOC_SHIFTMASK:
tp = kbd_shifted;
break;
default:
/* Silently ignore unsupported masks */
return (0);
}
if (kmp->kio_entry & 0xff80)
/* Silently ignore funny entries */
return (0);
tp[kmp->kio_station] = kmp->kio_entry;
return (0);
case KIOCGKEY:
kmp = (struct kiockey *)data;
switch (kmp->kio_tablemask) {
case KIOC_NOMASK:
tp = kbd_unshifted;
break;
case KIOC_SHIFTMASK:
tp = kbd_shifted;
break;
default:
return (0);
}
kmp->kio_entry = tp[kmp->kio_station] & ~KEY_MAGIC;
return (0);
case KIOCCMD:
/*
* ``unimplemented commands are ignored'' (blech)
* so cannot check return value from kbd_docmd
*/
#ifdef notyet
while (kbd_docmd(*(int *)data, 1) == ENOSPC) /*ERESTART?*/
(void) sleep((caddr_t)&lbolt, TTOPRI);
#else
(void) kbd_docmd(*(int *)data, 1);
#endif
return (0);
case KIOCTYPE:
*(int *)data = k->k_state.kbd_id;
return (0);
case KIOCSDIRECT:
k->k_evmode = *(int *)data;
return (0);
case KIOCLAYOUT:
*(unsigned int *)data = k->k_state.kbd_layout;
return (0);
case KIOCSLED:
if (k->k_state.kbd_id != KB_SUN4) {
/* xxx NYI */
k->k_state.kbd_leds = *(char*)data;
} else {
int s;
char leds = *(char *)data;
struct tty *tp = kbd_softc.k_kbd;
s = spltty();
if (tp->t_outq.c_cc > 120)
(void) tsleep((caddr_t)&lbolt, TTIPRI,
ttyout, 0);
splx(s);
if (ttyoutput(KBD_CMD_SETLED, tp) >= 0)
return (ENOSPC); /* ERESTART? */
k->k_state.kbd_leds = leds;
if (ttyoutput(leds, tp) >= 0)
return (ENOSPC); /* ERESTART? */
(*tp->t_oproc)(tp);
}
return (0);
case KIOCGLED:
*(char *)data = k->k_state.kbd_leds;
return (0);
case FIONBIO: /* we will remove this someday (soon???) */
return (0);
case FIOASYNC:
k->k_events.ev_async = *(int *)data != 0;
return (0);
case TIOCSPGRP:
if (*(int *)data != k->k_events.ev_io->p_pgid)
return (EPERM);
return (0);
default:
return (ENOTTY);
}
/*
* We identified the ioctl, but we do not handle it.
*/
return (EOPNOTSUPP); /* misuse, but what the heck */
}
int
kbdselect(dev_t dev, int rw, struct proc *p)
{
return (ev_select(&kbd_softc.k_events, rw, p));
}
/*
* Execute a keyboard command; return 0 on success.
* If `isuser', force a small delay before output if output queue
* is flooding. (The keyboard runs at 1200 baud, or 120 cps.)
*/
int
kbd_docmd(int cmd, int isuser)
{
register struct tty *tp = kbd_softc.k_kbd;
register struct kbd_softc *k = &kbd_softc;
int s;
if (tp == NULL)
return (ENXIO); /* ??? */
switch (cmd) {
case KBD_CMD_BELL:
case KBD_CMD_NOBELL:
/* Supported by type 2, 3, and 4 keyboards */
break;
case KBD_CMD_CLICK:
/* Unsupported by type 2 keyboards */
if (k->k_state.kbd_id != KB_SUN2) {
k->k_state.kbd_click = 1;
break;
}
return (EINVAL);
case KBD_CMD_NOCLICK:
/* Unsupported by type 2 keyboards */
if (k->k_state.kbd_id != KB_SUN2) {
k->k_state.kbd_click = 0;
break;
}
return (EINVAL);
default:
return (EINVAL); /* ENOTTY? EOPNOTSUPP? */
}
if (isuser) {
s = spltty();
if (tp->t_outq.c_cc > 120)
(void) tsleep((caddr_t)&lbolt, TTIPRI,
ttyout, 0);
splx(s);
}
if (ttyoutput(cmd, tp) >= 0)
return (ENOSPC); /* ERESTART? */
(*tp->t_oproc)(tp);
return (0);
}
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