mac68k/dev/akbd.c

1.5  scottr /*	$NetBSD: akbd.c,v 1.5 2000/02/14 07:01:45 scottr Exp $	*/
1.1   ender
1.1   ender /*
1.1   ender  * Copyright (C) 1998	Colin Wood
1.1   ender  * All rights reserved.
1.1   ender  *
1.1   ender  * Redistribution and use in source and binary forms, with or without
1.1   ender  * modification, are permitted provided that the following conditions
1.1   ender  * are met:
1.1   ender  * 1. Redistributions of source code must retain the above copyright
1.1   ender  *    notice, this list of conditions and the following disclaimer.
1.1   ender  * 2. Redistributions in binary form must reproduce the above copyright
1.1   ender  *    notice, this list of conditions and the following disclaimer in the
1.1   ender  *    documentation and/or other materials provided with the distribution.
1.1   ender  * 3. All advertising materials mentioning features or use of this software
1.1   ender  *    must display the following acknowledgement:
1.1   ender  *	This product includes software developed by Colin Wood.
1.1   ender  * 4. The name of the author may not be used to endorse or promote products
1.1   ender  *    derived from this software without specific prior written permission.
1.1   ender  *
1.1   ender  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1.1   ender  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1.1   ender  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.1   ender  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
1.1   ender  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
1.1   ender  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
1.1   ender  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
1.1   ender  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
1.1   ender  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
1.1   ender  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1   ender  */
1.1   ender
1.5  scottr #include "opt_adb.h"
1.5  scottr
1.1   ender #include <sys/param.h>
1.1   ender #include <sys/device.h>
1.1   ender #include <sys/fcntl.h>
1.1   ender #include <sys/poll.h>
1.1   ender #include <sys/select.h>
1.1   ender #include <sys/proc.h>
1.1   ender #include <sys/signalvar.h>
1.1   ender #include <sys/systm.h>
1.1   ender
1.5  scottr #include "aed.h"
1.5  scottr #include "wskbd.h"
1.5  scottr
1.5  scottr #include <dev/wscons/wsconsio.h>
1.5  scottr #include <dev/wscons/wskbdvar.h>
1.5  scottr #include <dev/wscons/wsksymdef.h>
1.5  scottr #include <dev/wscons/wsksymvar.h>
1.5  scottr
1.1   ender #include <machine/autoconf.h>
1.5  scottr #include <machine/cpu.h>
1.5  scottr #define KEYBOARD_ARRAY
1.5  scottr #include <machine/keyboard.h>
1.5  scottr #include <machine/viareg.h>
1.1   ender
1.1   ender #include <mac68k/mac68k/macrom.h>
1.1   ender #include <mac68k/dev/adbvar.h>
1.1   ender #include <mac68k/dev/aedvar.h>
1.5  scottr #include <macppc/dev/akbdmap.h>
1.5  scottr #include <mac68k/dev/akbdvar.h>
1.5  scottr #include <mac68k/dev/amsvar.h>
1.1   ender
1.1   ender /*
1.1   ender  * Function declarations.
1.1   ender  */
1.5  scottr static int	akbdmatch __P((struct device *, struct cfdata *, void *));
1.5  scottr static void	akbdattach __P((struct device *, struct device *, void *));
1.1   ender void		kbd_adbcomplete __P((caddr_t buffer, caddr_t data_area, int adb_command));
1.5  scottr static void	kbd_processevent __P((adb_event_t *event, struct akbd_softc *));
1.1   ender #ifdef notyet
1.1   ender static u_char	getleds __P((int));
1.5  scottr static int	setleds __P((struct akbd_softc *, u_char));
1.5  scottr static void	blinkleds __P((struct akbd_softc *));
1.1   ender #endif
1.1   ender
1.1   ender /*
1.1   ender  * Local variables.
1.1   ender  */
1.1   ender static volatile int kbd_done;  /* Did ADBOp() complete? */
1.1   ender
1.1   ender /* Driver definition. */
1.5  scottr struct cfattach akbd_ca = {
1.5  scottr 	sizeof(struct akbd_softc), akbdmatch, akbdattach
1.5  scottr };
1.5  scottr
1.5  scottr extern struct cfdriver akbd_cd;
1.5  scottr
1.5  scottr int kbd_intr __P((adb_event_t *event));
1.5  scottr int akbd_enable __P((void *, int));
1.5  scottr void akbd_set_leds __P((void *, int));
1.5  scottr int akbd_ioctl __P((void *, u_long, caddr_t, int, struct proc *));
1.5  scottr
1.5  scottr struct wskbd_accessops akbd_accessops = {
1.5  scottr 	akbd_enable,
1.5  scottr 	akbd_set_leds,
1.5  scottr 	akbd_ioctl,
1.5  scottr };
1.5  scottr
1.5  scottr void akbd_cngetc __P((void *, u_int *, int *));
1.5  scottr void akbd_cnpollc __P((void *, int));
1.5  scottr int akbd_cnattach __P((void));
1.5  scottr
1.5  scottr struct wskbd_consops akbd_consops = {
1.5  scottr 	akbd_cngetc,
1.5  scottr 	akbd_cnpollc,
1.5  scottr };
1.5  scottr
1.5  scottr struct wskbd_mapdata akbd_keymapdata = {
1.5  scottr 	akbd_keydesctab,
1.5  scottr 	KB_US,
1.1   ender };
1.1   ender
1.5  scottr static int akbd_is_console __P((void));
1.1   ender
1.1   ender static int
1.5  scottr akbdmatch(parent, cf, aux)
1.1   ender 	struct device *parent;
1.1   ender 	struct cfdata *cf;
1.1   ender 	void   *aux;
1.1   ender {
1.1   ender 	struct adb_attach_args *aa_args = (struct adb_attach_args *)aux;
1.1   ender
1.1   ender 	if (aa_args->origaddr == ADBADDR_KBD)
1.1   ender 		return 1;
1.1   ender 	else
1.1   ender 		return 0;
1.1   ender }
1.1   ender
1.1   ender static void
1.5  scottr akbdattach(parent, self, aux)
1.1   ender 	struct device *parent, *self;
1.1   ender 	void   *aux;
1.1   ender {
1.1   ender 	ADBSetInfoBlock adbinfo;
1.5  scottr 	struct akbd_softc *sc = (struct akbd_softc *)self;
1.1   ender 	struct adb_attach_args *aa_args = (struct adb_attach_args *)aux;
1.1   ender 	int count, error;
1.1   ender 	short cmd;
1.1   ender 	u_char buffer[9];
1.5  scottr #if NWSKBD > 0
1.5  scottr 	struct wskbddev_attach_args a;
1.5  scottr #endif
1.1   ender
1.1   ender 	sc->origaddr = aa_args->origaddr;
1.1   ender 	sc->adbaddr = aa_args->adbaddr;
1.1   ender 	sc->handler_id = aa_args->handler_id;
1.1   ender
1.1   ender 	sc->sc_leds = (u_int8_t)0x00;	/* initially off */
1.1   ender
1.1   ender 	adbinfo.siServiceRtPtr = (Ptr)adb_kbd_asmcomplete;
1.1   ender 	adbinfo.siDataAreaAddr = (caddr_t)sc;
1.1   ender
1.1   ender 	switch (sc->handler_id) {
1.1   ender 	case ADB_STDKBD:
1.1   ender 		printf("standard keyboard\n");
1.1   ender 		break;
1.1   ender 	case ADB_ISOKBD:
1.1   ender 		printf("standard keyboard (ISO layout)\n");
1.1   ender 		break;
1.1   ender 	case ADB_EXTKBD:
1.1   ender 		kbd_done = 0;
1.1   ender 		cmd = (((sc->adbaddr << 4) & 0xf0) | 0x0d ); /* talk R1 */
1.1   ender 		ADBOp((Ptr)buffer, (Ptr)extdms_complete,
1.1   ender 		    (Ptr)&kbd_done, cmd);
1.1   ender
1.1   ender 		/* Wait until done, but no more than 2 secs */
1.1   ender 		count = 40000;
1.1   ender 		while (!kbd_done && count-- > 0)
1.1   ender 			delay(50);
1.1   ender
1.1   ender 		/* Ignore Logitech MouseMan/Trackman pseudo keyboard */
1.1   ender 		if (kbd_done && buffer[1] == 0x9a && buffer[2] == 0x20) {
1.1   ender 			printf("Mouseman (non-EMP) pseudo keyboard\n");
1.1   ender 			adbinfo.siServiceRtPtr = (Ptr)0;
1.1   ender 			adbinfo.siDataAreaAddr = (Ptr)0;
1.1   ender 		} else if (kbd_done && buffer[1] == 0x9a && buffer[2] == 0x21) {
1.1   ender 			printf("Trackman (non-EMP) pseudo keyboard\n");
1.1   ender 			adbinfo.siServiceRtPtr = (Ptr)0;
1.1   ender 			adbinfo.siDataAreaAddr = (Ptr)0;
1.1   ender 		} else {
1.1   ender 			printf("extended keyboard\n");
1.1   ender #ifdef notyet
1.1   ender 			blinkleds(sc);
1.1   ender #endif
1.1   ender 		}
1.1   ender 		break;
1.1   ender 	case ADB_EXTISOKBD:
1.1   ender 		printf("extended keyboard (ISO layout)\n");
1.1   ender #ifdef notyet
1.1   ender 		blinkleds(sc);
1.1   ender #endif
1.1   ender 		break;
1.1   ender 	case ADB_KBDII:
1.1   ender 		printf("keyboard II\n");
1.1   ender 		break;
1.1   ender 	case ADB_ISOKBDII:
1.1   ender 		printf("keyboard II (ISO layout)\n");
1.1   ender 		break;
1.1   ender 	case ADB_PBKBD:
1.1   ender 		printf("PowerBook keyboard\n");
1.1   ender 		break;
1.1   ender 	case ADB_PBISOKBD:
1.1   ender 		printf("PowerBook keyboard (ISO layout)\n");
1.1   ender 		break;
1.1   ender 	case ADB_ADJKPD:
1.1   ender 		printf("adjustable keypad\n");
1.1   ender 		break;
1.1   ender 	case ADB_ADJKBD:
1.1   ender 		printf("adjustable keyboard\n");
1.1   ender 		break;
1.1   ender 	case ADB_ADJISOKBD:
1.1   ender 		printf("adjustable keyboard (ISO layout)\n");
1.1   ender 		break;
1.1   ender 	case ADB_ADJJAPKBD:
1.1   ender 		printf("adjustable keyboard (Japanese layout)\n");
1.1   ender 		break;
1.1   ender 	case ADB_PBEXTISOKBD:
1.1   ender 		printf("PowerBook extended keyboard (ISO layout)\n");
1.1   ender 		break;
1.1   ender 	case ADB_PBEXTJAPKBD:
1.1   ender 		printf("PowerBook extended keyboard (Japanese layout)\n");
1.1   ender 		break;
1.5  scottr 	case ADB_JPKBDII:
1.5  scottr 		printf("keyboard II (Japanese layout)\n");
1.5  scottr 		break;
1.1   ender 	case ADB_PBEXTKBD:
1.1   ender 		printf("PowerBook extended keyboard\n");
1.1   ender 		break;
1.1   ender 	case ADB_DESIGNKBD:
1.1   ender 		printf("extended keyboard\n");
1.1   ender #ifdef notyet
1.1   ender 		blinkleds(sc);
1.1   ender #endif
1.1   ender 		break;
1.5  scottr 	case ADB_PBJPKBD:
1.5  scottr 		printf("PowerBook keyboard (Japanese layout)\n");
1.5  scottr 		break;
1.1   ender 	default:
1.1   ender 		printf("mapped device (%d)\n", sc->handler_id);
1.1   ender 		break;
1.1   ender 	}
1.1   ender 	error = SetADBInfo(&adbinfo, sc->adbaddr);
1.1   ender #ifdef ADB_DEBUG
1.1   ender 	if (adb_debug)
1.5  scottr 		printf("akbd: returned %d from SetADBInfo\n", error);
1.1   ender #endif
1.1   ender
1.5  scottr #if NWSKBD > 0
1.5  scottr 	a.console = akbd_is_console();
1.5  scottr 	a.keymap = &akbd_keymapdata;
1.5  scottr 	a.accessops = &akbd_accessops;
1.5  scottr 	a.accesscookie = sc;
1.5  scottr
1.5  scottr 	sc->sc_wskbddev = config_found(self, &a, wskbddevprint);
1.5  scottr #endif
1.1   ender }
1.1   ender
1.1   ender
1.1   ender /*
1.1   ender  * Handle putting the keyboard data received from the ADB into
1.1   ender  * an ADB event record.
1.1   ender  */
1.1   ender void
1.1   ender kbd_adbcomplete(buffer, data_area, adb_command)
1.1   ender 	caddr_t buffer;
1.1   ender 	caddr_t data_area;
1.1   ender 	int adb_command;
1.1   ender {
1.1   ender 	adb_event_t event;
1.5  scottr 	struct akbd_softc *ksc;
1.1   ender 	int adbaddr;
1.1   ender #ifdef ADB_DEBUG
1.1   ender 	int i;
1.1   ender
1.1   ender 	if (adb_debug)
1.1   ender 		printf("adb: transaction completion\n");
1.1   ender #endif
1.1   ender
1.1   ender 	adbaddr = (adb_command & 0xf0) >> 4;
1.5  scottr 	ksc = (struct akbd_softc *)data_area;
1.1   ender
1.1   ender 	event.addr = adbaddr;
1.1   ender 	event.hand_id = ksc->handler_id;
1.1   ender 	event.def_addr = ksc->origaddr;
1.1   ender 	event.byte_count = buffer[0];
1.1   ender 	memcpy(event.bytes, buffer + 1, event.byte_count);
1.1   ender
1.1   ender #ifdef ADB_DEBUG
1.1   ender 	if (adb_debug) {
1.5  scottr 		printf("akbd: from %d at %d (org %d) %d:", event.addr,
1.1   ender 		    event.hand_id, event.def_addr, buffer[0]);
1.1   ender 		for (i = 1; i <= buffer[0]; i++)
1.1   ender 			printf(" %x", buffer[i]);
1.1   ender 		printf("\n");
1.1   ender 	}
1.1   ender #endif
1.1   ender
1.1   ender 	microtime(&event.timestamp);
1.1   ender
1.1   ender 	kbd_processevent(&event, ksc);
1.1   ender }
1.1   ender
1.1   ender /*
1.1   ender  * Given a keyboard ADB event, record the keycodes and call the key
1.1   ender  * repeat handler, optionally passing the event through the mouse
1.1   ender  * button emulation handler first.
1.1   ender  */
1.1   ender static void
1.1   ender kbd_processevent(event, ksc)
1.1   ender         adb_event_t *event;
1.5  scottr         struct akbd_softc *ksc;
1.1   ender {
1.1   ender         adb_event_t new_event;
1.1   ender
1.1   ender         new_event = *event;
1.1   ender 	new_event.u.k.key = event->bytes[0];
1.1   ender 	new_event.bytes[1] = 0xff;
1.5  scottr #if NAED > 0
1.5  scottr 	if (adb_polling || !aed_input(&new_event))
1.5  scottr #endif
1.5  scottr #if NWSKBD > 0
1.5  scottr 		kbd_intr(&new_event);
1.5  scottr #else
1.5  scottr 		/* do nothing */ ;
1.5  scottr #endif
1.1   ender 	if (event->bytes[1] != 0xff) {
1.1   ender 		new_event.u.k.key = event->bytes[1];
1.1   ender 		new_event.bytes[0] = event->bytes[1];
1.1   ender 		new_event.bytes[1] = 0xff;
1.5  scottr #if NAED > 0
1.5  scottr 		if (adb_polling || !aed_input(&new_event))
1.5  scottr #endif
1.5  scottr #if NWSKBD > 0
1.5  scottr 			kbd_intr(&new_event);
1.5  scottr #else
1.5  scottr 			/* do nothing */ ;
1.5  scottr #endif
1.1   ender 	}
1.1   ender
1.1   ender }
1.1   ender
1.1   ender #ifdef notyet
1.1   ender /*
1.1   ender  * Get the actual hardware LED state and convert it to softc format.
1.1   ender  */
1.1   ender static u_char
1.1   ender getleds(addr)
1.1   ender 	int	addr;
1.1   ender {
1.1   ender 	short cmd;
1.1   ender 	u_char buffer[9], leds;
1.1   ender
1.1   ender 	leds = 0x00;	/* all off */
1.1   ender 	buffer[0] = 0;
1.1   ender 	kbd_done = 0;
1.1   ender
1.1   ender 	/* talk R2 */
1.1   ender 	cmd = ((addr & 0xf) << 4) | 0x0c | 0x02;
1.1   ender 	ADBOp((Ptr)buffer, (Ptr)extdms_complete, (Ptr)&kbd_done, cmd);
1.1   ender 	while (!kbd_done)
1.1   ender 		/* busy-wait until done */ ;
1.1   ender
1.1   ender 	if (buffer[0] > 0)
1.1   ender 		leds = ~(buffer[2]) & 0x07;
1.1   ender
1.1   ender 	return (leds);
1.1   ender }
1.1   ender
1.1   ender /*
1.1   ender  * Set the keyboard LED's.
1.1   ender  *
1.1   ender  * Automatically translates from ioctl/softc format to the
1.1   ender  * actual keyboard register format
1.1   ender  */
1.1   ender static int
1.1   ender setleds(ksc, leds)
1.5  scottr 	struct akbd_softc *ksc;
1.1   ender 	u_char	leds;
1.1   ender {
1.1   ender 	int addr;
1.1   ender 	short cmd;
1.1   ender 	u_char buffer[9];
1.1   ender
1.1   ender 	if ((leds & 0x07) == (ksc->sc_leds & 0x07))
1.1   ender 		return (0);
1.1   ender
1.2   ender 	addr = ksc->adbaddr;
1.1   ender 	buffer[0] = 0;
1.1   ender 	kbd_done = 0;
1.1   ender
1.1   ender 	/* talk R2 */
1.1   ender 	cmd = ((addr & 0xf) << 4) | 0x0c | 0x02;
1.1   ender 	ADBOp((Ptr)buffer, (Ptr)extdms_complete, (Ptr)&kbd_done, cmd);
1.1   ender 	while (!kbd_done)
1.1   ender 		/* busy-wait until done */ ;
1.1   ender
1.1   ender 	if (buffer[0] == 0)
1.1   ender 		return (EIO);
1.1   ender
1.1   ender 	leds = ~leds & 0x07;
1.1   ender 	buffer[2] &= 0xf8;
1.1   ender 	buffer[2] |= leds;
1.1   ender
1.1   ender 	/* listen R2 */
1.1   ender 	cmd = ((addr & 0xf) << 4) | 0x08 | 0x02;
1.1   ender 	ADBOp((Ptr)buffer, (Ptr)extdms_complete, (Ptr)&kbd_done, cmd);
1.1   ender 	while (!kbd_done)
1.1   ender 		/* busy-wait until done */ ;
1.1   ender
1.1   ender 	/* talk R2 */
1.1   ender 	cmd = ((addr & 0xf) << 4) | 0x0c | 0x02;
1.1   ender 	ADBOp((Ptr)buffer, (Ptr)extdms_complete, (Ptr)&kbd_done, cmd);
1.1   ender 	while (!kbd_done)
1.1   ender 		/* busy-wait until done */ ;
1.1   ender
1.1   ender 	if (buffer[0] == 0)
1.1   ender 		return (EIO);
1.1   ender
1.1   ender 	ksc->sc_leds = ~((u_int8_t)buffer[2]) & 0x07;
1.1   ender
1.1   ender 	if ((buffer[2] & 0xf8) != leds)
1.1   ender 		return (EIO);
1.1   ender 	else
1.1   ender 		return (0);
1.1   ender }
1.1   ender
1.1   ender /*
1.1   ender  * Toggle all of the LED's on and off, just for show.
1.1   ender  */
1.1   ender static void
1.1   ender blinkleds(ksc)
1.5  scottr 	struct akbd_softc *ksc;
1.1   ender {
1.1   ender 	int addr, i;
1.1   ender 	u_char blinkleds, origleds;
1.1   ender
1.2   ender 	addr = ksc->adbaddr;
1.1   ender 	origleds = getleds(addr);
1.1   ender 	blinkleds = LED_NUMLOCK | LED_CAPSLOCK | LED_SCROLL_LOCK;
1.1   ender
1.1   ender 	(void)setleds(ksc, blinkleds);
1.1   ender
1.1   ender 	for (i = 0; i < 10000; i++)
1.1   ender 		delay(50);
1.1   ender
1.1   ender 	/* make sure that we restore the LED settings */
1.1   ender 	i = 10;
1.1   ender 	do {
1.1   ender 		(void)setleds(ksc, (u_char)0x00);
1.1   ender 	} while (setleds(ksc, (u_char)0x00) && (i-- > 0));
1.1   ender
1.1   ender 	return;
1.1   ender }
1.1   ender #endif
1.1   ender
1.1   ender int
1.5  scottr akbd_is_console()
1.5  scottr {
1.5  scottr 	extern struct mac68k_machine_S mac68k_machine;
1.5  scottr
1.5  scottr 	return ((mac68k_machine.serial_console & 0x03) == 0);
1.5  scottr }
1.5  scottr
1.5  scottr int
1.5  scottr akbd_enable(v, on)
1.5  scottr 	void *v;
1.5  scottr 	int on;
1.5  scottr {
1.5  scottr 	return 0;
1.5  scottr }
1.5  scottr
1.5  scottr void
1.5  scottr akbd_set_leds(v, on)
1.5  scottr 	void *v;
1.5  scottr 	int on;
1.5  scottr {
1.5  scottr }
1.5  scottr
1.5  scottr int
1.5  scottr akbd_ioctl(v, cmd, data, flag, p)
1.5  scottr 	void *v;
1.5  scottr 	u_long cmd;
1.1   ender 	caddr_t data;
1.5  scottr 	int flag;
1.1   ender 	struct proc *p;
1.1   ender {
1.5  scottr 	switch (cmd) {
1.1   ender
1.5  scottr 	case WSKBDIO_GTYPE:
1.5  scottr 		*(int *)data = 0;		/* XXX */
1.5  scottr 		return 0;
1.5  scottr 	case WSKBDIO_SETLEDS:
1.5  scottr 		return 0;
1.5  scottr 	case WSKBDIO_GETLEDS:
1.5  scottr 		*(int *)data = 0;
1.5  scottr 		return 0;
1.5  scottr 	case WSKBDIO_BELL:
1.5  scottr 	case WSKBDIO_COMPLEXBELL:
1.5  scottr #define d ((struct wskbd_bell_data *)data)
1.5  scottr 		mac68k_ring_bell(d->pitch, d->period * HZ / 1000, 100);
1.5  scottr 		/* comes in as msec, goes out as ticks; volume ignored */
1.5  scottr #undef d
1.5  scottr 		return (0);
1.5  scottr 	}
1.5  scottr 	/* kbdioctl(...); */
1.1   ender
1.5  scottr 	return -1;
1.5  scottr }
1.5  scottr
1.5  scottr static int polledkey;
1.5  scottr extern int adb_polling;
1.5  scottr
1.5  scottr int
1.5  scottr kbd_intr(event)
1.5  scottr 	adb_event_t *event;
1.5  scottr {
1.5  scottr 	int key, press, val;
1.5  scottr 	int type;
1.5  scottr
1.5  scottr 	struct akbd_softc *sc = akbd_cd.cd_devs[0];
1.5  scottr
1.5  scottr 	key = event->u.k.key;
1.5  scottr 	press = ADBK_PRESS(key);
1.5  scottr 	val = ADBK_KEYVAL(key);
1.5  scottr
1.5  scottr 	type = press ? WSCONS_EVENT_KEY_DOWN : WSCONS_EVENT_KEY_UP;
1.5  scottr
1.5  scottr 	if (key == 185) {	/* Caps Lock released */
1.5  scottr 		type = WSCONS_EVENT_KEY_DOWN;
1.5  scottr 		wskbd_input(sc->sc_wskbddev, type, val);
1.5  scottr 		type = WSCONS_EVENT_KEY_UP;
1.5  scottr 	}
1.5  scottr
1.5  scottr 	if (adb_polling)
1.5  scottr 		polledkey = key;
1.5  scottr 	else
1.5  scottr 		wskbd_input(sc->sc_wskbddev, type, val);
1.5  scottr
1.5  scottr 	return 0;
1.5  scottr }
1.5  scottr
1.5  scottr int
1.5  scottr akbd_cnattach()
1.5  scottr {
1.5  scottr 	if (!akbd_is_console())
1.5  scottr 		return -1;
1.5  scottr
1.5  scottr 	wskbd_cnattach(&akbd_consops, NULL, &akbd_keymapdata);
1.5  scottr
1.5  scottr 	return 0;
1.5  scottr }
1.5  scottr
1.5  scottr void
1.5  scottr akbd_cngetc(v, type, data)
1.5  scottr 	void *v;
1.5  scottr 	u_int *type;
1.5  scottr 	int *data;
1.5  scottr {
1.5  scottr 	int intbits, key, press, val;
1.5  scottr 	int s;
1.5  scottr
1.5  scottr 	s = splhigh();
1.5  scottr
1.5  scottr 	polledkey = -1;
1.5  scottr 	adb_polling = 1;
1.5  scottr
1.5  scottr 	while (polledkey == -1) {
1.5  scottr 		intbits = via_reg(VIA1, vIFR);
1.5  scottr
1.5  scottr 		if (intbits & V1IF_ADBRDY) {
1.5  scottr 			mrg_adbintr();
1.5  scottr 			via_reg(VIA1, vIFR) = V1IF_ADBRDY;
1.5  scottr 		}
1.5  scottr 		if (intbits & 0x10) {
1.5  scottr 			mrg_pmintr();
1.5  scottr 			via_reg(VIA1, vIFR) = 0x10;
1.5  scottr 		}
1.1   ender 	}
1.5  scottr
1.5  scottr 	adb_polling = 0;
1.5  scottr 	splx(s);
1.5  scottr
1.5  scottr 	key = polledkey;
1.5  scottr 	press = ADBK_PRESS(key);
1.5  scottr 	val = ADBK_KEYVAL(key);
1.5  scottr
1.5  scottr 	*data = val;
1.5  scottr 	*type = press ? WSCONS_EVENT_KEY_DOWN : WSCONS_EVENT_KEY_UP;
1.5  scottr }
1.5  scottr
1.5  scottr void
1.5  scottr akbd_cnpollc(v, on)
1.5  scottr 	void *v;
1.5  scottr 	int on;
1.5  scottr {
1.1   ender }