evbarm/smdk2xx0/smdk2410_kbd.c

1.1.4.4  skrll /* $NetBSD: smdk2410_kbd.c,v 1.1.4.4 2004/09/21 13:14:53 skrll Exp $ */
1.1.4.2  skrll
1.1.4.2  skrll /*
1.1.4.2  skrll  * Copyright (c) 2004  Genetec Corporation.  All rights reserved.
1.1.4.2  skrll  * Written by Hiroyuki Bessho for Genetec Corporation.
1.1.4.2  skrll  *
1.1.4.2  skrll  * Redistribution and use in source and binary forms, with or without
1.1.4.2  skrll  * modification, are permitted provided that the following conditions
1.1.4.2  skrll  * are met:
1.1.4.2  skrll  * 1. Redistributions of source code must retain the above copyright
1.1.4.2  skrll  *    notice, this list of conditions and the following disclaimer.
1.1.4.2  skrll  * 2. Redistributions in binary form must reproduce the above copyright
1.1.4.2  skrll  *    notice, this list of conditions and the following disclaimer in the
1.1.4.2  skrll  *    documentation and/or other materials provided with the distribution.
1.1.4.2  skrll  * 3. The name of Genetec Corporation may not be used to endorse or
1.1.4.2  skrll  *    promote products derived from this software without specific prior
1.1.4.2  skrll  *    written permission.
1.1.4.2  skrll  *
1.1.4.2  skrll  * THIS SOFTWARE IS PROVIDED BY GENETEC CORPORATION ``AS IS'' AND
1.1.4.2  skrll  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1.4.2  skrll  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1.4.2  skrll  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL GENETEC CORPORATION
1.1.4.2  skrll  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1.4.2  skrll  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1.4.2  skrll  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1.4.2  skrll  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1.4.2  skrll  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1.4.2  skrll  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1.4.2  skrll  * POSSIBILITY OF SUCH DAMAGE.
1.1.4.2  skrll  */
1.1.4.2  skrll
1.1.4.2  skrll /*
1.1.4.2  skrll  * Support SMDK2410's keyboard.
1.1.4.2  skrll  *
1.1.4.2  skrll  * On-board keyboard controller is Semtech SPICoder SA01.
1.1.4.2  skrll  * (http://www.semtech.com/pdf/doc5-spi-sa01-ds.pdf)
1.1.4.2  skrll  *
1.1.4.2  skrll  * The controller is connected to SPI1.
1.1.4.2  skrll  * _ATN signal from the SPICoder is connected to EINT1.
1.1.4.2  skrll  */
1.1.4.2  skrll
1.1.4.2  skrll #include <sys/cdefs.h>
1.1.4.4  skrll __KERNEL_RCSID(0, "$NetBSD: smdk2410_kbd.c,v 1.1.4.4 2004/09/21 13:14:53 skrll Exp $");
1.1.4.2  skrll
1.1.4.2  skrll #include <sys/param.h>
1.1.4.2  skrll #include <sys/systm.h>
1.1.4.2  skrll #include <sys/conf.h>
1.1.4.2  skrll
1.1.4.2  skrll #include <machine/bus.h>
1.1.4.2  skrll #include <machine/cpu.h>
1.1.4.2  skrll
1.1.4.2  skrll #include <dev/wscons/wsconsio.h>
1.1.4.2  skrll #include <dev/wscons/wskbdvar.h>
1.1.4.2  skrll #include <dev/wscons/wsksymdef.h>
1.1.4.2  skrll #include <dev/wscons/wsksymvar.h>
1.1.4.2  skrll
1.1.4.2  skrll #include <arm/s3c2xx0/s3c24x0var.h>
1.1.4.2  skrll #include <arm/s3c2xx0/s3c24x0reg.h>
1.1.4.2  skrll #include <arm/s3c2xx0/s3c2410reg.h>
1.1.4.2  skrll
1.1.4.2  skrll #include <arm/s3c2xx0/s3c24x0_spi.h>
1.1.4.2  skrll
1.1.4.2  skrll #include "locators.h"
1.1.4.2  skrll
1.1.4.2  skrll /*
1.1.4.2  skrll  * Keyboard driver for Semtech keyboard controller on SMDK2410.
1.1.4.2  skrll  *
1.1.4.2  skrll  * There are several keycoder products from Semtech.
1.1.4.2  skrll  * This driver supports SPICoder(R) SA01 (UR5HCSPI-SA01) only.
1.1.4.2  skrll  *
1.1.4.2  skrll  * See http://www.semtech.com/products/ for detail.
1.1.4.2  skrll  */
1.1.4.2  skrll
1.1.4.2  skrll /*
1.1.4.2  skrll  * Commands/responce
1.1.4.2  skrll  */
1.1.4.2  skrll #define	KCDR_INITIALIZE	0xa0	/* Initialize request */
1.1.4.2  skrll #define	KCDR_INITCOMP	0xa1	/* Initialize complete */
1.1.4.2  skrll #define	KCDR_HEARTBEAT	0xa2	/* Heaartbeat request/response */
1.1.4.2  skrll #define	KCDR_IDENTIFY	0xf2	/* Identification request/response */
1.1.4.2  skrll #define	KCDR_LEDSTATUS	0xa3	/* LED status request/report */
1.1.4.2  skrll #define	KCDR_LEDMODIFY	0xa6	/* LED mode modify */
1.1.4.2  skrll #define	KCDR_RESENTREQ	0xa5	/* Re-send request upon error */
1.1.4.2  skrll #define	KCDR_IOMODE	0xa7	/* Input/output mode modify/report */
1.1.4.2  skrll #define	KCDR_OUTPUT	0xa8	/* output to GPIO0 pin */
1.1.4.2  skrll #define	KCDR_SETWAKEUP	0xa9	/* define wake-up keys */
1.1.4.2  skrll
1.1.4.2  skrll #define	KCDR_CONTROL	0x80	/* Commands from KeyCorder to Host starts with
1.1.4.2  skrll 				   this code. */
1.1.4.2  skrll #define	KCDR_ESC	0x1b	/* Commands from host to KeyCorder starts with
1.1.4.2  skrll 				   this code. */
1.1.4.2  skrll
1.1.4.2  skrll /*
1.1.4.2  skrll  * GPIO ports
1.1.4.2  skrll  */
1.1.4.2  skrll #define	SSKBD_WUP	0	/* nWUP = GPB0 */
1.1.4.2  skrll #define	SSKBD_SS	6	/* nSS = GPB6 */
1.1.4.2  skrll
1.1.4.2  skrll /*
1.1.4.2  skrll  * keymap
1.1.4.2  skrll  */
1.1.4.2  skrll
1.1.4.2  skrll #define _(col,row)	KS_KEYCODE((col)*8+(row))
1.1.4.2  skrll
1.1.4.2  skrll static const keysym_t sskbd_keydesc_0[] = {
1.1.4.2  skrll /*	_(col,row)      normal		shifted */
1.1.4.2  skrll 	_(0,0), 	KS_Alt_L,	KS_Alt_L,
1.1.4.2  skrll
1.1.4.2  skrll 	_(1,0), 	KS_grave,	KS_asciitilde,
1.1.4.2  skrll 	_(1,1),  	KS_backslash,	KS_bar,
1.1.4.2  skrll 	_(1,2), 	KS_Tab,  	KS_Tab,
1.1.4.2  skrll 	_(1,3),  	KS_z,    	KS_Z,
1.1.4.2  skrll 	_(1,4),  	KS_a,  		KS_A,
1.1.4.2  skrll 	_(1,5), 	KS_x,		KS_X,
1.1.4.2  skrll
1.1.4.2  skrll 	_(2,1), 	KS_Shift_L,	KS_Shift_L,
1.1.4.2  skrll
1.1.4.2  skrll 	_(3,0), 	KS_Control_L,	KS_Control_L,
1.1.4.2  skrll
1.1.4.2  skrll 	_(4,0), 	KS_Meta_L,	KS_Meta_L,
1.1.4.2  skrll
1.1.4.2  skrll 	_(5,0), 	KS_Escape, 	KS_Escape,
1.1.4.2  skrll 	_(5,1),  	KS_Delete,	KS_Delete,
1.1.4.2  skrll 	_(5,2), 	KS_q,		KS_Q,
1.1.4.2  skrll 	_(5,3), 	KS_Caps_Lock,	KS_Caps_Lock,
1.1.4.2  skrll 	_(5,4),  	KS_s,		KS_S,
1.1.4.2  skrll 	_(5,5),  	KS_c,		KS_C,
1.1.4.2  skrll 	_(5,6), 	KS_3,		KS_numbersign,
1.1.4.2  skrll
1.1.4.2  skrll 	_(6,0), 	KS_1,		KS_exclam,
1.1.4.2  skrll 	_(6,2),		KS_w,		KS_W,
1.1.4.2  skrll 	_(6,4),		KS_d,		KS_D,
1.1.4.2  skrll 	_(6,5),		KS_v,		KS_V,
1.1.4.2  skrll 	_(6,6),		KS_4,		KS_dollar,
1.1.4.2  skrll
1.1.4.2  skrll 	_(7,0),		KS_2,		KS_at,
1.1.4.2  skrll 	_(7,1),		KS_t,		KS_T,
1.1.4.2  skrll 	_(7,2),		KS_e,		KS_E,
1.1.4.2  skrll 	_(7,4),		KS_f,		KS_F,
1.1.4.2  skrll 	_(7,5),		KS_b,		KS_B,
1.1.4.2  skrll 	_(7,6),		KS_5,		KS_percent,
1.1.4.2  skrll
1.1.4.2  skrll 	_(8,0),		KS_9,		KS_parenleft,
1.1.4.2  skrll 	_(8,1),		KS_y,		KS_Y,
1.1.4.2  skrll 	_(8,2),		KS_r,		KS_R,
1.1.4.2  skrll 	_(8,3),		KS_k,		KS_K,
1.1.4.2  skrll 	_(8,4),		KS_g,		KS_G,
1.1.4.2  skrll 	_(8,5),		KS_n,		KS_N,
1.1.4.2  skrll 	_(8,6),		KS_6,		KS_asciicircum,
1.1.4.2  skrll
1.1.4.2  skrll 	_(9,0),		KS_0,		KS_parenright,
1.1.4.2  skrll 	_(9,1),		KS_u,		KS_U,
1.1.4.2  skrll 	_(9,2),		KS_o,		KS_O,
1.1.4.2  skrll 	_(9,3),		KS_l,		KS_L,
1.1.4.2  skrll 	_(9,4),		KS_h,		KS_H,
1.1.4.2  skrll 	_(9,5),		KS_m,		KS_M,
1.1.4.2  skrll 	_(9,6),		KS_7,		KS_ampersand,
1.1.4.2  skrll
1.1.4.2  skrll 	_(10,0),	KS_minus,	KS_underscore,
1.1.4.2  skrll 	_(10,1),	KS_i,		KS_I,
1.1.4.2  skrll 	_(10,2),	KS_p,		KS_P,
1.1.4.2  skrll 	_(10,3),	KS_l,		KS_L,
1.1.4.2  skrll 	_(10,4),	KS_j,		KS_J,
1.1.4.2  skrll 	_(10,5),	KS_comma,	KS_less,
1.1.4.2  skrll 	_(10,6),	KS_8,		KS_asterisk,
1.1.4.2  skrll
1.1.4.2  skrll 	_(11,0),	KS_equal,	KS_plus,
1.1.4.2  skrll 	_(11,1),	KS_Return,	KS_Return,
1.1.4.2  skrll 	_(11,2),	KS_bracketleft,	KS_braceleft,
1.1.4.2  skrll 	_(11,3),	KS_apostrophe,	KS_quotedbl,
1.1.4.2  skrll 	_(11,4),	KS_slash,	KS_question,
1.1.4.2  skrll 	_(11,5),	KS_period,	KS_greater,
1.1.4.2  skrll 	_(11,6),	KS_Menu,	KS_Menu,	/* Prog key */
1.1.4.2  skrll
1.1.4.2  skrll 	_(12,1),	KS_Shift_R,	KS_Shift_R,
1.1.4.2  skrll
1.1.4.2  skrll 	_(13,0),	KS_BackSpace,	KS_BackSpace,
1.1.4.2  skrll 	_(13,1),	KS_Down,	KS_Next,
1.1.4.2  skrll 	_(13,2),	KS_bracketright,  KS_braceright,
1.1.4.2  skrll 	_(13,3),	KS_Up,		KS_Prior,
1.1.4.2  skrll 	_(13,4),	KS_Left,	KS_Home,
1.1.4.2  skrll 	_(13,5),	KS_space,	KS_space,
1.1.4.2  skrll 	_(13,6),	KS_Right,	KS_End,
1.1.4.2  skrll };
1.1.4.2  skrll
1.1.4.2  skrll #define KBD_MAP(name, base, map) \
1.1.4.2  skrll 			{ name, base, sizeof(map)/sizeof(keysym_t), map }
1.1.4.2  skrll
1.1.4.2  skrll static const struct wscons_keydesc sskbd_keydesctab[] = {
1.1.4.2  skrll 	KBD_MAP(KB_MACHDEP, 0, sskbd_keydesc_0),
1.1.4.2  skrll 	{0, 0, 0, 0}
1.1.4.2  skrll };
1.1.4.2  skrll
1.1.4.2  skrll const struct wskbd_mapdata sskbd_keymapdata = {
1.1.4.2  skrll 	sskbd_keydesctab,
1.1.4.2  skrll 	KB_MACHDEP,
1.1.4.2  skrll };
1.1.4.2  skrll
1.1.4.2  skrll
1.1.4.2  skrll /*
1.1.4.2  skrll  * SMDK2410 keyboard driver.
1.1.4.2  skrll  */
1.1.4.2  skrll struct sskbd_softc {
1.1.4.2  skrll         struct  device dev;
1.1.4.2  skrll
1.1.4.2  skrll 	struct device *wskbddev;
1.1.4.2  skrll 	void *atn_ih;			/* interrupt handler for nATN */
1.1.4.2  skrll 	void *spi_ih;			/* interrupt handler for SPI rx */
1.1.4.2  skrll
1.1.4.2  skrll 	void *soft_ih;			/* soft interrupt */
1.1.4.2  skrll
1.1.4.2  skrll 	bus_space_tag_t  iot;
1.1.4.2  skrll 	bus_space_handle_t ioh;
1.1.4.2  skrll 	bus_space_handle_t gpioh;
1.1.4.2  skrll
1.1.4.2  skrll #define RING_SIZE  16			/* must be power of 2 */
1.1.4.2  skrll 	short  inptr, outptr;
1.1.4.2  skrll 	unsigned char ring[RING_SIZE];
1.1.4.2  skrll #define	advance_ring_ptr(p)	((p+1) & ~RING_SIZE)
1.1.4.2  skrll
1.1.4.2  skrll 	short reading, enable;
1.1.4.2  skrll };
1.1.4.2  skrll
1.1.4.2  skrll
1.1.4.2  skrll int sskbd_match(struct device *, struct cfdata *, void *);
1.1.4.2  skrll void sskbd_attach(struct device *, struct device *, void *);
1.1.4.2  skrll
1.1.4.2  skrll CFATTACH_DECL(sskbd, sizeof(struct sskbd_softc),
1.1.4.2  skrll     sskbd_match, sskbd_attach, NULL, NULL);
1.1.4.2  skrll
1.1.4.2  skrll static  int	sskbd_enable(void *, int);
1.1.4.2  skrll static  void	sskbd_set_leds(void *, int);
1.1.4.2  skrll static  int	sskbd_ioctl(void *, u_long, caddr_t, int, struct proc *);
1.1.4.2  skrll static	int	sskbd_atn_intr(void *);
1.1.4.2  skrll static	int	sskbd_spi_intr(void *);
1.1.4.2  skrll static	void	sskbd_soft_intr(void *);
1.1.4.2  skrll
1.1.4.2  skrll const struct wskbd_accessops sskbd_accessops = {
1.1.4.2  skrll 	sskbd_enable,
1.1.4.2  skrll 	sskbd_set_leds,
1.1.4.2  skrll 	sskbd_ioctl,
1.1.4.2  skrll };
1.1.4.2  skrll
1.1.4.2  skrll #if 0
1.1.4.2  skrll void	sskbd_cngetc(void *, u_int *, int *);
1.1.4.2  skrll void	sskbd_cnpollc(void *, int);
1.1.4.2  skrll void	sskbd_cnbell(void *, u_int, u_int, u_int);
1.1.4.2  skrll
1.1.4.2  skrll const struct wskbd_consops sskbd_consops = {
1.1.4.2  skrll 	sskbd_cngetc,
1.1.4.2  skrll 	sskbd_cnpollc,
1.1.4.2  skrll 	sskbd_cnbell,
1.1.4.2  skrll };
1.1.4.2  skrll #endif
1.1.4.2  skrll
1.1.4.2  skrll int
1.1.4.2  skrll sskbd_match(struct device *parent, struct cfdata *cf, void *aux)
1.1.4.2  skrll {
1.1.4.2  skrll 	return 1;
1.1.4.2  skrll }
1.1.4.2  skrll
1.1.4.2  skrll void
1.1.4.2  skrll sskbd_attach(struct device *parent, struct device *self, void *aux)
1.1.4.2  skrll {
1.1.4.2  skrll 	struct sskbd_softc *sc = (void *)self;
1.1.4.2  skrll 	struct ssspi_attach_args *spia = aux;
1.1.4.2  skrll 	uint32_t reg;
1.1.4.2  skrll 	bus_space_handle_t gpioh;
1.1.4.2  skrll 	bus_space_tag_t iot;
1.1.4.2  skrll 	struct wskbddev_attach_args a;
1.1.4.2  skrll
1.1.4.2  skrll 	aprint_normal("\n");
1.1.4.2  skrll
1.1.4.2  skrll 	sc->iot = iot = spia->spia_iot;
1.1.4.2  skrll 	sc->ioh = spia->spia_ioh;
1.1.4.2  skrll 	sc->gpioh = gpioh = spia->spia_gpioh;
1.1.4.2  skrll
1.1.4.2  skrll 	/* enable pullup register for MISO */
1.1.4.2  skrll 	reg = bus_space_read_2(iot, gpioh, GPIO_PGUP);
1.1.4.2  skrll 	bus_space_write_2(iot, gpioh, GPIO_PGUP, reg & ~(1<<5));
1.1.4.2  skrll
1.1.4.2  skrll 	/* nSS and wakeup */
1.1.4.2  skrll 	bus_space_write_2(iot, gpioh, GPIO_PBDAT,
1.1.4.2  skrll 			  (1<<SSKBD_SS) | (1<<SSKBD_WUP) |
1.1.4.2  skrll 			  bus_space_read_2(iot, gpioh, GPIO_PBDAT));
1.1.4.2  skrll 	reg = bus_space_read_4(iot, gpioh, GPIO_PBCON);
1.1.4.2  skrll 	reg = GPIO_SET_FUNC(reg, SSKBD_WUP, PCON_OUTPUT);
1.1.4.2  skrll 	reg = GPIO_SET_FUNC(reg, SSKBD_SS, PCON_OUTPUT);
1.1.4.2  skrll 	bus_space_write_4(iot, gpioh, GPIO_PBCON, reg);
1.1.4.2  skrll
1.1.4.2  skrll 	/* nATN input to EINT1 */
1.1.4.2  skrll 	reg = bus_space_read_4(iot, gpioh, GPIO_PFCON);
1.1.4.2  skrll 	reg = GPIO_SET_FUNC(reg, 1, PCON_ALTFUN);
1.1.4.2  skrll 	bus_space_write_4(iot, gpioh, GPIO_PFCON, reg);
1.1.4.2  skrll
1.1.4.2  skrll #if 0 	/*  Controller doesn't seem to respond to this. */
1.1.4.2  skrll
1.1.4.2  skrll 	/* wakeup pulse */
1.1.4.2  skrll 	reg = bus_space_read_4(iot, gpioh, GPIO_PBDAT);
1.1.4.2  skrll 	reg &= ~(1<<SSKBD_WUP);
1.1.4.2  skrll 	bus_space_write_4(iot, gpioh, GPIO_PBDAT, reg);
1.1.4.2  skrll 	delay(100);
1.1.4.2  skrll 	reg |= (1<<SSKBD_WUP);
1.1.4.2  skrll 	bus_space_write_4(iot, gpioh, GPIO_PBDAT, reg);
1.1.4.2  skrll
1.1.4.2  skrll 	delay(1000);
1.1.4.2  skrll
1.1.4.2  skrll 	/* Send initialize command. */
1.1.4.2  skrll 	sskbd_send(sc, KCDR_ESC);
1.1.4.2  skrll 	sskbd_send(sc, KCDR_INITIALIZE);
1.1.4.2  skrll 	sskbd_send(sc, 0x7b);
1.1.4.2  skrll #endif
1.1.4.2  skrll
1.1.4.2  skrll 	sc->inptr = sc->outptr = 0;
1.1.4.2  skrll 	sc->reading = sc->enable = 0;
1.1.4.2  skrll
1.1.4.2  skrll 	sc->atn_ih = s3c24x0_intr_establish(spia->spia_aux_intr, IPL_TTY,
1.1.4.2  skrll 	    IST_EDGE_FALLING, sskbd_atn_intr, sc);
1.1.4.2  skrll
1.1.4.2  skrll 	sc->spi_ih = s3c24x0_intr_establish(spia->spia_intr, IPL_SERIAL,
1.1.4.2  skrll 	    0, sskbd_spi_intr, sc);
1.1.4.2  skrll
1.1.4.2  skrll 	sc->soft_ih = softintr_establish(IPL_SOFTSERIAL, sskbd_soft_intr,
1.1.4.2  skrll 	    sc);
1.1.4.2  skrll
1.1.4.2  skrll 	if (sc->atn_ih == NULL || sc->spi_ih == NULL)
1.1.4.2  skrll 		aprint_error("%s: can't establish interrupt handler\n",
1.1.4.2  skrll 		    sc->dev.dv_xname);
1.1.4.2  skrll
1.1.4.2  skrll 	/* setup SPI control register, and prescaler */
1.1.4.2  skrll 	s3c24x0_spi_setup((struct ssspi_softc *)self->dv_parent,
1.1.4.2  skrll 			  SPCON_SMOD_INT | SPCON_ENSCK |
1.1.4.2  skrll 			  SPCON_MSTR | SPCON_IDLELOW_RISING,
1.1.4.2  skrll 			  100*1000, 0);
1.1.4.2  skrll
1.1.4.2  skrll
1.1.4.2  skrll 	/* Attach the wskbd. */
1.1.4.2  skrll 	a.console = 0;
1.1.4.2  skrll 	a.keymap = &sskbd_keymapdata;
1.1.4.2  skrll 	a.accessops = &sskbd_accessops;
1.1.4.2  skrll 	a.accesscookie = sc;
1.1.4.2  skrll
1.1.4.2  skrll 	sc->wskbddev = config_found(self, &a, wskbddevprint);
1.1.4.2  skrll }
1.1.4.2  skrll
1.1.4.2  skrll
1.1.4.2  skrll /*
1.1.4.2  skrll  * Interrupt handler for nATN signal.
1.1.4.2  skrll  */
1.1.4.2  skrll static int
1.1.4.2  skrll sskbd_atn_intr(void *arg)
1.1.4.2  skrll {
1.1.4.2  skrll 	struct sskbd_softc *sc = arg;
1.1.4.2  skrll 	int s;
1.1.4.2  skrll 	uint32_t reg;
1.1.4.2  skrll
1.1.4.2  skrll 	/* make sure SPI transmitter is ready */
1.1.4.2  skrll 	if (!(bus_space_read_1(sc->iot, sc->ioh, SPI_SPSTA) & SPSTA_REDY))
1.1.4.2  skrll 		return 1;
1.1.4.2  skrll
1.1.4.2  skrll
1.1.4.2  skrll 	if (advance_ring_ptr(sc->inptr) == sc->outptr) {
1.1.4.2  skrll 		/* ring buffer is full. ignore this nATN signale */
1.1.4.2  skrll 		softintr_schedule(sc->soft_ih);
1.1.4.2  skrll 		return 1;
1.1.4.2  skrll 	}
1.1.4.2  skrll
1.1.4.2  skrll 	/* nSS = L */
1.1.4.2  skrll 	s = splserial();
1.1.4.2  skrll 	sc->reading = 1;
1.1.4.2  skrll 	reg = bus_space_read_2(sc->iot, sc->gpioh, GPIO_PBDAT);
1.1.4.2  skrll 	bus_space_write_2(sc->iot, sc->gpioh, GPIO_PBDAT,
1.1.4.2  skrll 	    reg & ~(1<<SSKBD_SS));
1.1.4.2  skrll
1.1.4.2  skrll 	/* generate clock to receive data from the controller */
1.1.4.2  skrll 	bus_space_write_1(sc->iot, sc->ioh, SPI_SPTDAT, 0xff);
1.1.4.2  skrll
1.1.4.2  skrll 	splx(s);
1.1.4.2  skrll
1.1.4.2  skrll 	return 1;
1.1.4.2  skrll }
1.1.4.2  skrll
1.1.4.2  skrll /*
1.1.4.2  skrll  * Interrupt handler for SPI rx
1.1.4.2  skrll  */
1.1.4.2  skrll static int
1.1.4.2  skrll sskbd_spi_intr(void *arg)
1.1.4.2  skrll {
1.1.4.2  skrll 	struct sskbd_softc *sc = arg;
1.1.4.2  skrll 	int data;
1.1.4.2  skrll 	uint32_t reg;
1.1.4.2  skrll
1.1.4.2  skrll 	if (sc->reading == 0)
1.1.4.2  skrll 		return 1;	/* Ignore garbate input. */
1.1.4.2  skrll
1.1.4.2  skrll 	sc->reading = 0;
1.1.4.2  skrll
1.1.4.2  skrll 	data = bus_space_read_1(sc->iot, sc->ioh, SPI_SPRDAT);
1.1.4.2  skrll
1.1.4.2  skrll 	/* nSS = H */
1.1.4.2  skrll 	reg = bus_space_read_2(sc->iot, sc->gpioh, GPIO_PBDAT);
1.1.4.2  skrll 	bus_space_write_2(sc->iot, sc->gpioh, GPIO_PBDAT,
1.1.4.2  skrll 	    reg | (1<<SSKBD_SS));
1.1.4.2  skrll
1.1.4.2  skrll 	if (sc->enable) {
1.1.4.2  skrll 		sc->ring[sc->inptr] = data;
1.1.4.2  skrll 		sc->inptr = advance_ring_ptr(sc->inptr);
1.1.4.2  skrll
1.1.4.2  skrll 		softintr_schedule(sc->soft_ih);
1.1.4.2  skrll 	}
1.1.4.2  skrll #ifdef KBD_DEBUG
1.1.4.2  skrll 	else {
1.1.4.2  skrll 		printf("discard %x\n", data);
1.1.4.2  skrll 	}
1.1.4.2  skrll #endif
1.1.4.2  skrll
1.1.4.2  skrll 	return 1;
1.1.4.2  skrll }
1.1.4.2  skrll
1.1.4.2  skrll static void
1.1.4.2  skrll sskbd_soft_intr(void *arg)
1.1.4.2  skrll {
1.1.4.2  skrll 	struct sskbd_softc *sc = arg;
1.1.4.2  skrll 	int key, up;
1.1.4.2  skrll
1.1.4.2  skrll 	while (sc->outptr != sc->inptr) {
1.1.4.2  skrll 		key = sc->ring[sc->outptr];
1.1.4.2  skrll 		sc->outptr = advance_ring_ptr(sc->outptr);
1.1.4.2  skrll
1.1.4.2  skrll 		up = key & 0x80;
1.1.4.2  skrll 		key &= ~0x80;
1.1.4.2  skrll
1.1.4.2  skrll 		key -= 1;
1.1.4.2  skrll 		if (key < 0 || 8*14 < key)
1.1.4.2  skrll 			continue;
1.1.4.2  skrll
1.1.4.2  skrll #ifdef KBD_DEBUG
1.1.4.2  skrll 		printf("key %d %s\n", key, up ? "up" : "down");
1.1.4.2  skrll #endif
1.1.4.2  skrll 		wskbd_input(sc->wskbddev,
1.1.4.2  skrll 		    up ? WSCONS_EVENT_KEY_UP : WSCONS_EVENT_KEY_DOWN,
1.1.4.2  skrll 		    key);
1.1.4.2  skrll 	}
1.1.4.2  skrll }
1.1.4.2  skrll
1.1.4.2  skrll static int
1.1.4.2  skrll sskbd_enable(void *v, int on)
1.1.4.2  skrll {
1.1.4.2  skrll 	struct sskbd_softc *sc = v;
1.1.4.2  skrll
1.1.4.2  skrll #ifdef KBD_DEBUG
1.1.4.2  skrll 	printf("%s: enable\n", sc->dev.dv_xname);
1.1.4.2  skrll #endif
1.1.4.2  skrll
1.1.4.2  skrll #if 0
1.1.4.2  skrll 	if (!on && isconsole(sc))
1.1.4.2  skrll 		return EBUSY;
1.1.4.2  skrll #endif
1.1.4.2  skrll
1.1.4.2  skrll 	sc->enable = on;
1.1.4.2  skrll 	return (0);
1.1.4.2  skrll }
1.1.4.2  skrll
1.1.4.2  skrll
1.1.4.2  skrll static void
1.1.4.2  skrll sskbd_set_leds(void *v, int leds)
1.1.4.2  skrll {
1.1.4.2  skrll }
1.1.4.2  skrll
1.1.4.2  skrll static int
1.1.4.2  skrll sskbd_ioctl(void *v, u_long cmd, caddr_t data, int flag, struct proc *p)
1.1.4.2  skrll {
1.1.4.2  skrll 	/*struct sskbd_softc *sc = v;*/
1.1.4.2  skrll
1.1.4.2  skrll 	switch (cmd) {
1.1.4.2  skrll 	    case WSKBDIO_GTYPE:
1.1.4.2  skrll 		*(int *)data = WSKBD_TYPE_HPC_KBD; /* XXX */
1.1.4.2  skrll 		return 0;
1.1.4.2  skrll 	    case WSKBDIO_COMPLEXBELL:
1.1.4.2  skrll #ifdef notyet
1.1.4.2  skrll #define d ((struct wskbd_bell_data *)data)
1.1.4.2  skrll 		/*
1.1.4.2  skrll 		 * Keyboard can't beep directly; we have an
1.1.4.2  skrll 		 * externally-provided global hook to do this.
1.1.4.2  skrll 		 */
1.1.4.2  skrll 		sskbd_bell(d->pitch, d->period, d->volume, 0);
1.1.4.2  skrll #undef d
1.1.4.2  skrll #endif
1.1.4.2  skrll 		return (0);
1.1.4.2  skrll #ifdef WSDISPLAY_COMPAT_RAWKBD
1.1.4.2  skrll 	    case WSKBDIO_SETMODE:
1.1.4.2  skrll 		sc->rawkbd = (*(int *)data == WSKBD_RAW);
1.1.4.2  skrll 		return (0);
1.1.4.2  skrll #endif
1.1.4.2  skrll
1.1.4.2  skrll #if 0
1.1.4.2  skrll 	    case WSKBDIO_SETLEDS:
1.1.4.2  skrll 	    case WSKBDIO_GETLEDS:
1.1.4.2  skrll 		    /* no LED support */
1.1.4.2  skrll #endif
1.1.4.2  skrll 	}
1.1.4.2  skrll 	return EPASSTHROUGH;
1.1.4.2  skrll }