zaurus/dev/ztp.c

1.1  peter /*	$NetBSD: ztp.c,v 1.1 2006/12/17 16:07:11 peter Exp $	*/
1.1  peter /* $OpenBSD: zts.c,v 1.9 2005/04/24 18:55:49 uwe Exp $ */
1.1  peter
1.1  peter /*
1.1  peter  * Copyright (c) 2005 Dale Rahn <drahn (at) openbsd.org>
1.1  peter  *
1.1  peter  * Permission to use, copy, modify, and distribute this software for any
1.1  peter  * purpose with or without fee is hereby granted, provided that the above
1.1  peter  * copyright notice and this permission notice appear in all copies.
1.1  peter  *
1.1  peter  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
1.1  peter  * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
1.1  peter  * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
1.1  peter  * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
1.1  peter  * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
1.1  peter  * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
1.1  peter  * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
1.1  peter  */
1.1  peter
1.1  peter #include <sys/cdefs.h>
1.1  peter __KERNEL_RCSID(0, "$NetBSD: ztp.c,v 1.1 2006/12/17 16:07:11 peter Exp $");
1.1  peter
1.1  peter #include "lcd.h"
1.1  peter
1.1  peter #include <sys/types.h>
1.1  peter #include <sys/param.h>
1.1  peter #include <sys/systm.h>
1.1  peter #include <sys/device.h>
1.1  peter #include <sys/malloc.h>
1.1  peter #include <sys/kernel.h>
1.1  peter #include <sys/callout.h>
1.1  peter
1.1  peter #include <dev/wscons/wsconsio.h>
1.1  peter #include <dev/wscons/wsmousevar.h>
1.1  peter #include <dev/wscons/wsdisplayvar.h>
1.1  peter
1.1  peter #include <dev/hpc/hpcfbio.h>		/* XXX: for tpctl */
1.1  peter #include <dev/hpc/hpctpanelvar.h>
1.1  peter
1.1  peter #include <arm/xscale/pxa2x0reg.h>
1.1  peter #include <arm/xscale/pxa2x0var.h>
1.1  peter #include <arm/xscale/pxa2x0_lcd.h>
1.1  peter #include <arm/xscale/pxa2x0_gpio.h>
1.1  peter
1.1  peter #include <zaurus/dev/zsspvar.h>
1.1  peter
1.1  peter /*
1.1  peter  * ADS784x touch screen controller
1.1  peter  */
1.1  peter #define ADSCTRL_PD0_SH          0       /* PD0 bit */
1.1  peter #define ADSCTRL_PD1_SH          1       /* PD1 bit */
1.1  peter #define ADSCTRL_DFR_SH          2       /* SER/DFR bit */
1.1  peter #define ADSCTRL_MOD_SH          3       /* Mode bit */
1.1  peter #define ADSCTRL_ADR_SH          4       /* Address setting */
1.1  peter #define ADSCTRL_STS_SH          7       /* Start bit */
1.1  peter
1.1  peter #define GPIO_TP_INT_C3K		11
1.1  peter #define GPIO_HSYNC_C3K		22
1.1  peter
1.1  peter #define POLL_TIMEOUT_RATE0	((hz * 150)/1000)
1.1  peter #define POLL_TIMEOUT_RATE1	(hz / 100) /* XXX every tick */
1.1  peter
1.1  peter #define CCNT_HS_400_VGA_C3K 6250	/* 15.024us */
1.1  peter
1.1  peter /* XXX need to ask zaurus_lcd.c for the screen dimension */
1.1  peter #define CURRENT_DISPLAY (&sharp_zaurus_C3000)
1.1  peter extern const struct lcd_panel_geometry sharp_zaurus_C3000;
1.1  peter
1.1  peter /* Settable via sysctl. */
1.1  peter int	ztp_rawmode;
1.1  peter
1.1  peter static const struct wsmouse_calibcoords ztp_default_calib = {
1.1  peter 	/*0, 0, 639, 479,*/
1.1  peter 	0, 0, 479, 639,
1.1  peter 	4,
1.1  peter 	{{ 988,  80,   0,   0 },
1.1  peter 	 {  88,  84, 479,   0 },
1.1  peter 	 { 988, 927,   0, 639 },
1.1  peter 	 {  88, 940, 479, 639 }}
1.1  peter };
1.1  peter
1.1  peter struct ztp_softc {
1.1  peter 	struct device sc_dev;
1.1  peter 	struct callout sc_tp_poll;
1.1  peter 	void *sc_gh;
1.1  peter 	void *sc_powerhook;
1.1  peter 	int sc_enabled;
1.1  peter 	int sc_buttons; /* button emulation ? */
1.1  peter 	struct device *sc_wsmousedev;
1.1  peter 	int sc_oldx;
1.1  peter 	int sc_oldy;
1.1  peter 	int sc_oldz;
1.1  peter 	int sc_resx;
1.1  peter 	int sc_resy;
1.1  peter 	struct tpcalib_softc sc_tpcalib;
1.1  peter };
1.1  peter
1.1  peter static int	ztp_match(struct device *, struct cfdata *, void *);
1.1  peter static void	ztp_attach(struct device *, struct device *, void *);
1.1  peter
1.1  peter CFATTACH_DECL(ztp, sizeof(struct ztp_softc),
1.1  peter 	ztp_match, ztp_attach, NULL, NULL);
1.1  peter
1.1  peter static int	ztp_enable(void *);
1.1  peter static void	ztp_disable(void *);
1.1  peter static void	ztp_power(int, void *);
1.1  peter static void	ztp_poll(void *);
1.1  peter static int	ztp_irq(void *);
1.1  peter static int	ztp_ioctl(void *, u_long, caddr_t, int, struct lwp *);
1.1  peter
1.1  peter const struct wsmouse_accessops ztp_accessops = {
1.1  peter         ztp_enable,
1.1  peter 	ztp_ioctl,
1.1  peter 	ztp_disable
1.1  peter };
1.1  peter
1.1  peter static int
1.1  peter ztp_match(struct device *parent, struct cfdata *cf, void *aux)
1.1  peter {
1.1  peter
1.1  peter 	return 1;
1.1  peter }
1.1  peter
1.1  peter static void
1.1  peter ztp_attach(struct device *parent, struct device *self, void *aux)
1.1  peter {
1.1  peter 	struct ztp_softc *sc = (struct ztp_softc *)self;
1.1  peter 	struct wsmousedev_attach_args a;
1.1  peter
1.1  peter 	callout_init(&sc->sc_tp_poll);
1.1  peter 	callout_setfunc(&sc->sc_tp_poll, ztp_poll, sc);
1.1  peter
1.1  peter 	/* Initialize ADS7846 Difference Reference mode */
1.1  peter 	(void)zssp_ic_send(ZSSP_IC_ADS7846,
1.1  peter 	    (1<<ADSCTRL_ADR_SH) | (1<<ADSCTRL_STS_SH));
1.1  peter 	delay(5000);
1.1  peter 	(void)zssp_ic_send(ZSSP_IC_ADS7846,
1.1  peter 	    (3<<ADSCTRL_ADR_SH) | (1<<ADSCTRL_STS_SH));
1.1  peter 	delay(5000);
1.1  peter 	(void)zssp_ic_send(ZSSP_IC_ADS7846,
1.1  peter 	    (4<<ADSCTRL_ADR_SH) | (1<<ADSCTRL_STS_SH));
1.1  peter 	delay(5000);
1.1  peter 	(void)zssp_ic_send(ZSSP_IC_ADS7846,
1.1  peter 	    (5<<ADSCTRL_ADR_SH) | (1<<ADSCTRL_STS_SH));
1.1  peter 	delay(5000);
1.1  peter
1.1  peter 	a.accessops = &ztp_accessops;
1.1  peter 	a.accesscookie = sc;
1.1  peter 	printf("\n");
1.1  peter
1.1  peter #if NLCD > 0
1.1  peter 	sc->sc_resx = CURRENT_DISPLAY->panel_height;
1.1  peter 	sc->sc_resy = CURRENT_DISPLAY->panel_width;
1.1  peter #else
1.1  peter 	sc->sc_resx = 480;	/* XXX */
1.1  peter 	sc->sc_resy = 640;	/* XXX */
1.1  peter #endif
1.1  peter
1.1  peter 	sc->sc_wsmousedev = config_found(self, &a, wsmousedevprint);
1.1  peter
1.1  peter 	/* Initialize calibration, set default parameters. */
1.1  peter 	tpcalib_init(&sc->sc_tpcalib);
1.1  peter 	tpcalib_ioctl(&sc->sc_tpcalib, WSMOUSEIO_SCALIBCOORDS,
1.1  peter 	    __UNCONST(&ztp_default_calib), 0, 0);
1.1  peter }
1.1  peter
1.1  peter static int
1.1  peter ztp_enable(void *v)
1.1  peter {
1.1  peter 	struct ztp_softc *sc = (struct ztp_softc *)v;
1.1  peter
1.1  peter 	if (sc->sc_enabled)
1.1  peter 		return EBUSY;
1.1  peter
1.1  peter 	callout_stop(&sc->sc_tp_poll);
1.1  peter
1.1  peter 	sc->sc_powerhook = powerhook_establish(sc->sc_dev.dv_xname, ztp_power,
1.1  peter 	    sc);
1.1  peter 	if (sc->sc_powerhook == NULL) {
1.1  peter 		printf("%s: enable failed\n", sc->sc_dev.dv_xname);
1.1  peter 		return ENOMEM;
1.1  peter 	}
1.1  peter
1.1  peter 	pxa2x0_gpio_set_function(GPIO_TP_INT_C3K, GPIO_IN);
1.1  peter
1.1  peter 	/* XXX */
1.1  peter 	if (sc->sc_gh == NULL) {
1.1  peter 		sc->sc_gh = pxa2x0_gpio_intr_establish(GPIO_TP_INT_C3K,
1.1  peter 		    IST_EDGE_FALLING, IPL_TTY, ztp_irq, sc);
1.1  peter 	} else {
1.1  peter 		pxa2x0_gpio_intr_unmask(sc->sc_gh);
1.1  peter 	}
1.1  peter
1.1  peter 	/* enable interrupts */
1.1  peter 	sc->sc_enabled = 1;
1.1  peter 	sc->sc_buttons = 0;
1.1  peter
1.1  peter 	return 0;
1.1  peter }
1.1  peter
1.1  peter static void
1.1  peter ztp_disable(void *v)
1.1  peter {
1.1  peter 	struct ztp_softc *sc = (struct ztp_softc *)v;
1.1  peter
1.1  peter 	callout_stop(&sc->sc_tp_poll);
1.1  peter
1.1  peter 	if (sc->sc_powerhook != NULL) {
1.1  peter 		powerhook_disestablish(sc->sc_powerhook);
1.1  peter 		sc->sc_powerhook = NULL;
1.1  peter 	}
1.1  peter
1.1  peter 	if (sc->sc_gh != NULL) {
1.1  peter #if 0
1.1  peter 		pxa2x0_gpio_intr_disestablish(sc->sc_gh);
1.1  peter 		sc->sc_gh = NULL;
1.1  peter #endif
1.1  peter 	}
1.1  peter
1.1  peter 	/* disable interrupts */
1.1  peter 	sc->sc_enabled = 0;
1.1  peter }
1.1  peter
1.1  peter static void
1.1  peter ztp_power(int why, void *v)
1.1  peter {
1.1  peter 	struct ztp_softc *sc = (struct ztp_softc *)v;
1.1  peter
1.1  peter 	switch (why) {
1.1  peter 	case PWR_STANDBY:
1.1  peter 	case PWR_SUSPEND:
1.1  peter 		sc->sc_enabled = 0;
1.1  peter #if 0
1.1  peter 		pxa2x0_gpio_intr_disestablish(sc->sc_gh);
1.1  peter #endif
1.1  peter 		callout_stop(&sc->sc_tp_poll);
1.1  peter
1.1  peter 		pxa2x0_gpio_intr_mask(sc->sc_gh);
1.1  peter
1.1  peter 		/* Turn off reference voltage but leave ADC on. */
1.1  peter 		(void)zssp_ic_send(ZSSP_IC_ADS7846, (1 << ADSCTRL_PD1_SH) |
1.1  peter 		    (1 << ADSCTRL_ADR_SH) | (1 << ADSCTRL_STS_SH));
1.1  peter
1.1  peter 		pxa2x0_gpio_set_function(GPIO_TP_INT_C3K,
1.1  peter 		    GPIO_OUT | GPIO_SET);
1.1  peter 		break;
1.1  peter
1.1  peter 	case PWR_RESUME:
1.1  peter 		pxa2x0_gpio_set_function(GPIO_TP_INT_C3K, GPIO_IN);
1.1  peter 		pxa2x0_gpio_intr_mask(sc->sc_gh);
1.1  peter
1.1  peter 		/* Enable automatic low power mode. */
1.1  peter 		(void)zssp_ic_send(ZSSP_IC_ADS7846,
1.1  peter 		    (4 << ADSCTRL_ADR_SH) | (1 << ADSCTRL_STS_SH));
1.1  peter
1.1  peter #if 0
1.1  peter 		sc->sc_gh = pxa2x0_gpio_intr_establish(GPIO_TP_INT_C3K,
1.1  peter 		    IST_EDGE_FALLING, IPL_TTY, ztp_irq, sc,
1.1  peter 		    sc->sc_dev.dv_xname);
1.1  peter #else
1.1  peter 		pxa2x0_gpio_intr_unmask(sc->sc_gh);
1.1  peter #endif
1.1  peter 		sc->sc_enabled = 1;
1.1  peter 		break;
1.1  peter 	}
1.1  peter }
1.1  peter
1.1  peter struct ztp_pos {
1.1  peter 	int x;
1.1  peter 	int y;
1.1  peter 	int z;			/* touch pressure */
1.1  peter };
1.1  peter
1.1  peter #define NSAMPLES 3
1.1  peter static struct ztp_pos ztp_samples[NSAMPLES];
1.1  peter static int	ztpavgloaded = 0;
1.1  peter
1.1  peter static int	ztp_readpos(struct ztp_pos *);
1.1  peter static void	ztp_avgpos(struct ztp_pos *);
1.1  peter
1.1  peter #define HSYNC()								\
1.1  peter 	do {								\
1.1  peter 		while (pxa2x0_gpio_get_bit(GPIO_HSYNC_C3K) == 0)	\
1.1  peter 			continue;					\
1.1  peter 		while (pxa2x0_gpio_get_bit(GPIO_HSYNC_C3K) != 0)	\
1.1  peter 			continue;					\
1.1  peter 	} while (/*CONSTCOND*/0)
1.1  peter
1.1  peter static int	pxa2x0_ccnt_enable(int);
1.1  peter static uint32_t	pxa2x0_read_ccnt(void);
1.1  peter static uint32_t	ztp_sync_ads784x(int, int, uint32_t);
1.1  peter static void	ztp_sync_send(uint32_t);
1.1  peter
1.1  peter static int
1.1  peter pxa2x0_ccnt_enable(int on)
1.1  peter {
1.1  peter 	uint32_t rv;
1.1  peter
1.1  peter 	on = on ? 0x1 : 0x0;
1.1  peter 	__asm volatile("mrc p14, 0, %0, c0, c1, 0" : "=r" (rv));
1.1  peter 	__asm volatile("mcr p14, 0, %0, c0, c1, 0" : : "r" (on));
1.1  peter 	return ((int)(rv & 0x1));
1.1  peter }
1.1  peter
1.1  peter static uint32_t
1.1  peter pxa2x0_read_ccnt(void)
1.1  peter {
1.1  peter 	uint32_t rv;
1.1  peter
1.1  peter 	__asm volatile("mrc p14, 0, %0, c1, c1, 0" : "=r" (rv));
1.1  peter 	return rv;
1.1  peter }
1.1  peter
1.1  peter /*
1.1  peter  * Communicate synchronously with the ADS784x touch screen controller.
1.1  peter  */
1.1  peter static uint32_t
1.1  peter ztp_sync_ads784x(int dorecv/* XXX */, int dosend/* XXX */, uint32_t cmd)
1.1  peter {
1.1  peter 	int ccen;
1.1  peter 	uint32_t rv;
1.1  peter
1.1  peter 	/* XXX poll hsync only if LCD is enabled */
1.1  peter
1.1  peter 	/* start clock counter */
1.1  peter 	ccen = pxa2x0_ccnt_enable(1);
1.1  peter
1.1  peter 	HSYNC();
1.1  peter
1.1  peter 	if (dorecv) {
1.1  peter 		/* read SSDR and disable ADS784x */
1.1  peter 		rv = zssp_ic_stop(ZSSP_IC_ADS7846);
1.1  peter 	} else {
1.1  peter 		rv = 0;
1.1  peter 	}
1.1  peter
1.1  peter 	if (dosend)
1.1  peter 		ztp_sync_send(cmd);
1.1  peter
1.1  peter 	/* stop clock counter */
1.1  peter 	pxa2x0_ccnt_enable(ccen);
1.1  peter
1.1  peter 	return rv;
1.1  peter }
1.1  peter
1.1  peter void
1.1  peter ztp_sync_send(uint32_t cmd)
1.1  peter {
1.1  peter 	uint32_t tck;
1.1  peter 	uint32_t a, b;
1.1  peter
1.1  peter 	/* XXX */
1.1  peter 	tck = CCNT_HS_400_VGA_C3K - 151;
1.1  peter
1.1  peter 	/* send dummy command; discard SSDR */
1.1  peter 	(void)zssp_ic_send(ZSSP_IC_ADS7846, cmd);
1.1  peter
1.1  peter 	/* wait for refresh */
1.1  peter 	HSYNC();
1.1  peter
1.1  peter 	/* wait after refresh */
1.1  peter 	a = pxa2x0_read_ccnt();
1.1  peter 	b = pxa2x0_read_ccnt();
1.1  peter 	while ((b - a) < tck)
1.1  peter 		b = pxa2x0_read_ccnt();
1.1  peter
1.1  peter 	/* send the actual command; keep ADS784x enabled */
1.1  peter 	zssp_ic_start(ZSSP_IC_ADS7846, cmd);
1.1  peter }
1.1  peter
1.1  peter static int
1.1  peter ztp_readpos(struct ztp_pos *pos)
1.1  peter {
1.1  peter 	int cmd;
1.1  peter 	int t0, t1;
1.1  peter 	int down;
1.1  peter
1.1  peter 	/* XXX */
1.1  peter 	pxa2x0_gpio_set_function(GPIO_HSYNC_C3K, GPIO_IN);
1.1  peter
1.1  peter 	/* check that pen is down */
1.1  peter 	cmd = (1 << ADSCTRL_PD0_SH) | (1 << ADSCTRL_PD1_SH) |
1.1  peter 	    (3 << ADSCTRL_ADR_SH) | (1 << ADSCTRL_STS_SH);
1.1  peter
1.1  peter 	t0 = zssp_ic_send(ZSSP_IC_ADS7846, cmd);
1.1  peter 	down = !(t0 < 10);
1.1  peter 	if (down == 0)
1.1  peter 		goto out;
1.1  peter
1.1  peter 	/* Y */
1.1  peter 	cmd = (1 << ADSCTRL_PD0_SH) | (1 << ADSCTRL_PD1_SH) |
1.1  peter 	    (1 << ADSCTRL_ADR_SH) | (1 << ADSCTRL_STS_SH);
1.1  peter
1.1  peter 	(void)ztp_sync_ads784x(0, 1, cmd);
1.1  peter
1.1  peter 	/* Y */
1.1  peter 	cmd = (1 << ADSCTRL_PD0_SH) | (1 << ADSCTRL_PD1_SH) |
1.1  peter 	    (1 << ADSCTRL_ADR_SH) | (1 << ADSCTRL_STS_SH);
1.1  peter
1.1  peter 	(void)ztp_sync_ads784x(1, 1, cmd);
1.1  peter
1.1  peter 	/* X */
1.1  peter 	cmd = (1 << ADSCTRL_PD0_SH) | (1 << ADSCTRL_PD1_SH) |
1.1  peter 	    (5 << ADSCTRL_ADR_SH) | (1 << ADSCTRL_STS_SH);
1.1  peter
1.1  peter 	pos->y = ztp_sync_ads784x(1, 1, cmd);
1.1  peter
1.1  peter 	/* T0 */
1.1  peter 	cmd = (1 << ADSCTRL_PD0_SH) | (1 << ADSCTRL_PD1_SH) |
1.1  peter 	    (3 << ADSCTRL_ADR_SH) | (1 << ADSCTRL_STS_SH);
1.1  peter
1.1  peter 	pos->x = ztp_sync_ads784x(1, 1, cmd);
1.1  peter
1.1  peter 	/* T1 */
1.1  peter 	cmd = (1 << ADSCTRL_PD0_SH) | (1 << ADSCTRL_PD1_SH) |
1.1  peter 	    (4 << ADSCTRL_ADR_SH) | (1 << ADSCTRL_STS_SH);
1.1  peter
1.1  peter 	t0 = ztp_sync_ads784x(1, 1, cmd);
1.1  peter 	t1 = ztp_sync_ads784x(1, 0, cmd);
1.1  peter
1.1  peter 	/* check that pen is still down */
1.1  peter 	/* XXX pressure sensitivity varies with X or what? */
1.1  peter 	if (t0 == 0 || (pos->x * (t1 - t0) / t0) >= 15000)
1.1  peter 		down = 0;
1.1  peter 	pos->z = down;
1.1  peter
1.1  peter out:
1.1  peter 	/* Enable automatic low power mode. */
1.1  peter         cmd = (4 << ADSCTRL_ADR_SH) | (1 << ADSCTRL_STS_SH);
1.1  peter 	(void)zssp_ic_send(ZSSP_IC_ADS7846, cmd);
1.1  peter
1.1  peter 	return down;
1.1  peter }
1.1  peter
1.1  peter #define NAVGSAMPLES (NSAMPLES < 3 ? NSAMPLES : 3)
1.1  peter
1.1  peter static void
1.1  peter ztp_avgpos(struct ztp_pos *pos)
1.1  peter {
1.1  peter 	struct ztp_pos *tpp = ztp_samples;
1.1  peter 	int diff[NAVGSAMPLES];
1.1  peter 	int mindiff, mindiffv;
1.1  peter 	int n;
1.1  peter 	int i;
1.1  peter 	static int tail;
1.1  peter
1.1  peter 	if (ztpavgloaded < NAVGSAMPLES) {
1.1  peter 		tpp[(tail + ztpavgloaded) % NSAMPLES] = *pos;
1.1  peter 		ztpavgloaded++;
1.1  peter 		return;
1.1  peter 	}
1.1  peter
1.1  peter 	tpp[tail] = *pos;
1.1  peter 	tail = (tail+1) % NSAMPLES;
1.1  peter
1.1  peter 	/* X */
1.1  peter 	i = tail;
1.1  peter 	for (n = 0 ; n < NAVGSAMPLES; n++) {
1.1  peter 		int alt;
1.1  peter 		alt = (i+1) % NSAMPLES;
1.1  peter 		diff[n] = tpp[i].x - tpp[alt].x;
1.1  peter 		if (diff[n] < 0)
1.1  peter 			diff[n] = -diff[n]; /* ABS */
1.1  peter 		i = alt;
1.1  peter 	}
1.1  peter 	mindiffv = diff[0];
1.1  peter 	mindiff = 0;
1.1  peter 	for (n = 1; n < NAVGSAMPLES; n++) {
1.1  peter 		if (diff[n] < mindiffv) {
1.1  peter 			mindiffv = diff[n];
1.1  peter 			mindiff = n;
1.1  peter 		}
1.1  peter 	}
1.1  peter 	pos->x = (tpp[(tail + mindiff) % NSAMPLES].x +
1.1  peter 	    tpp[(tail + mindiff + 1) % NSAMPLES].x) / 2;
1.1  peter
1.1  peter 	/* Y */
1.1  peter 	i = tail;
1.1  peter 	for (n = 0 ; n < NAVGSAMPLES; n++) {
1.1  peter 		int alt;
1.1  peter 		alt = (i+1) % NSAMPLES;
1.1  peter 		diff[n] = tpp[i].y - tpp[alt].y;
1.1  peter 		if (diff[n] < 0)
1.1  peter 			diff[n] = -diff[n]; /* ABS */
1.1  peter 		i = alt;
1.1  peter 	}
1.1  peter 	mindiffv = diff[0];
1.1  peter 	mindiff = 0;
1.1  peter 	for (n = 1; n < NAVGSAMPLES; n++) {
1.1  peter 		if (diff[n] < mindiffv) {
1.1  peter 			mindiffv = diff[n];
1.1  peter 			mindiff = n;
1.1  peter 		}
1.1  peter 	}
1.1  peter 	pos->y = (tpp[(tail + mindiff) % NSAMPLES].y +
1.1  peter 	    tpp[(tail + mindiff + 1) % NSAMPLES].y) / 2;
1.1  peter }
1.1  peter
1.1  peter static void
1.1  peter ztp_poll(void *v)
1.1  peter {
1.1  peter 	int s;
1.1  peter
1.1  peter 	s = spltty();
1.1  peter 	(void)ztp_irq(v);
1.1  peter 	splx(s);
1.1  peter }
1.1  peter
1.1  peter #define TS_STABLE 8
1.1  peter static int
1.1  peter ztp_irq(void *v)
1.1  peter {
1.1  peter 	extern int zkbd_modstate;
1.1  peter 	struct ztp_softc *sc = (struct ztp_softc *)v;
1.1  peter 	struct ztp_pos tp = { 0, 0, 0 };
1.1  peter 	int pindown;
1.1  peter 	int down;
1.1  peter 	int x, y;
1.1  peter 	int s;
1.1  peter
1.1  peter 	if (!sc->sc_enabled)
1.1  peter 		return 0;
1.1  peter
1.1  peter 	s = splhigh();
1.1  peter
1.1  peter 	pindown = pxa2x0_gpio_get_bit(GPIO_TP_INT_C3K) ? 0 : 1;
1.1  peter 	if (pindown) {
1.1  peter 		pxa2x0_gpio_intr_mask(sc->sc_gh);
1.1  peter 		callout_schedule(&sc->sc_tp_poll, POLL_TIMEOUT_RATE1);
1.1  peter 	}
1.1  peter
1.1  peter 	down = ztp_readpos(&tp);
1.1  peter
1.1  peter 	if (!pindown) {
1.1  peter 		pxa2x0_gpio_intr_unmask(sc->sc_gh);
1.1  peter 		callout_schedule(&sc->sc_tp_poll, POLL_TIMEOUT_RATE0);
1.1  peter 		ztpavgloaded = 0;
1.1  peter 	}
1.1  peter 	pxa2x0_gpio_clear_intr(GPIO_TP_INT_C3K);
1.1  peter
1.1  peter 	splx(s);
1.1  peter
1.1  peter 	if (down) {
1.1  peter 		ztp_avgpos(&tp);
1.1  peter 		if (!ztp_rawmode) {
1.1  peter 			tpcalib_trans(&sc->sc_tpcalib, tp.x, tp.y, &x, &y);
1.1  peter 			tp.x = x;
1.1  peter 			tp.y = y;
1.1  peter 		}
1.1  peter 	}
1.1  peter
1.1  peter 	if (zkbd_modstate != 0 && down) {
1.1  peter 		if(zkbd_modstate & (1 << 1)) {
1.1  peter 			/* Fn */
1.1  peter 			down = 2;
1.1  peter 		}
1.1  peter 		if(zkbd_modstate & (1 << 2)) {
1.1  peter 			/* 'Alt' */
1.1  peter 			down = 4;
1.1  peter 		}
1.1  peter 	}
1.1  peter 	if (!down) {
1.1  peter 		/* x/y values are not reliable when pen is up */
1.1  peter 		tp.x = sc->sc_oldx;
1.1  peter 		tp.y = sc->sc_oldy;
1.1  peter 		tp.z = sc->sc_oldz;
1.1  peter 	}
1.1  peter
1.1  peter 	if (down || sc->sc_buttons != down) {
1.1  peter 		wsmouse_input(sc->sc_wsmousedev, down, tp.x, tp.y, tp.z, 0,
1.1  peter 		    WSMOUSE_INPUT_ABSOLUTE_X | WSMOUSE_INPUT_ABSOLUTE_Y |
1.1  peter 		    WSMOUSE_INPUT_ABSOLUTE_Z);
1.1  peter 		sc->sc_buttons = down;
1.1  peter 		sc->sc_oldx = tp.x;
1.1  peter 		sc->sc_oldy = tp.y;
1.1  peter 		sc->sc_oldz = tp.z;
1.1  peter 	}
1.1  peter
1.1  peter 	return 1;
1.1  peter }
1.1  peter
1.1  peter static int
1.1  peter ztp_ioctl(void *v, u_long cmd, caddr_t data, int flag, struct lwp *l)
1.1  peter {
1.1  peter 	struct ztp_softc *sc = (struct ztp_softc *)v;
1.1  peter 	struct wsmouse_id *id;
1.1  peter
1.1  peter 	switch (cmd) {
1.1  peter 	case WSMOUSEIO_GTYPE:
1.1  peter 		*(u_int *)data = WSMOUSE_TYPE_TPANEL;
1.1  peter 		return 0;
1.1  peter
1.1  peter 	case WSMOUSEIO_GETID:
1.1  peter 		/*
1.1  peter 		 * return unique ID string,
1.1  peter 		 * "<vendor> <model> <serial number>"
1.1  peter 		 */
1.1  peter 		id = (struct wsmouse_id *)data;
1.1  peter 		if (id->type != WSMOUSE_ID_TYPE_UIDSTR)
1.1  peter 			return EINVAL;
1.1  peter 		strlcpy(id->data, "Sharp SL-C3x00 SN000000", WSMOUSE_ID_MAXLEN);
1.1  peter 		id->length = strlen(id->data);
1.1  peter 		return 0;
1.1  peter
1.1  peter 	case WSMOUSEIO_SCALIBCOORDS:
1.1  peter 	case WSMOUSEIO_GCALIBCOORDS:
1.1  peter 		return hpc_tpanel_ioctl(&sc->sc_tpcalib, cmd, data, flag, l);
1.1  peter 	}
1.1  peter
1.1  peter 	return EPASSTHROUGH;
1.1  peter }