/* $NetBSD: vrpiu.c,v 1.46 2025/06/28 06:45:06 andvar Exp $ */ /* * Copyright (c) 1999-2003 TAKEMURA Shin All rights reserved. * Copyright (c) 2000-2001 SATO Kazumi, All rights reserved. * Copyright (c) 1999-2001 PocketBSD Project. All rights reserved. * * 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. * * 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. * */ /* * A/D polling part written by SATO Kazumi. */ #include __KERNEL_RCSID(0, "$NetBSD: vrpiu.c,v 1.46 2025/06/28 06:45:06 andvar Exp $"); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define PIUB_REG_OFFSSET 0 #include /* * constant and macro definitions */ #define VRPIUDEBUG #ifdef VRPIUDEBUG int vrpiu_debug = 0; #define DPRINTF(arg) if (vrpiu_debug) printf arg; #define VPRINTF(arg) if (bootverbose || vrpiu_debug) printf arg; #else #define DPRINTF(arg) #define VPRINTF(arg) if (bootverbose) printf arg; #endif #ifndef VRPIU_NO_ADHOC_BATTERY_EVENT #define VRPIU_ADHOC_BATTERY_EVENT /* currently... */ #endif /* VRPIU_NO_ADHOC_BATTERY_EVENT */ #ifndef VRPIU_AD_POLL_INTERVAL #define VRPIU_AD_POLL_INTERVAL 60 /* interval is 60 sec */ #endif /* VRPIU_AD_POLL_INTERTVAL */ #define PIUSIVL_SCANINTVAL_MIN 333 /* 10msec */ #define PIUSIVL_SCANINTVAL_MAX PIUSIVL_SCANINTVAL_MASK /* 60msec */ #define VRPIU_TP_SCAN_TIMEOUT (hz/10) /* timeout is 100msec */ #define TP_INTR (PIUINT_ALLINTR & ~PIUINT_PADADPINTR) #define AD_INTR (PIUINT_PADADPINTR) /* * data types */ /* struct vrpiu_softc is defined in vrpiuvar.h */ /* * function prototypes */ static int vrpiumatch(device_t, cfdata_t, void *); static void vrpiuattach(device_t, device_t, void *); static void vrc4173piuattach(device_t, device_t, void *); static void vrpiu_init(struct vrpiu_softc *, void *); static void vrpiu_write(struct vrpiu_softc *, int, unsigned short); static u_short vrpiu_read(struct vrpiu_softc *, int); static int vrpiu_intr(void *); static void vrpiu_tp_intr(struct vrpiu_softc *); static void vrpiu_ad_intr(struct vrpiu_softc *); #ifdef DEBUG static void vrpiu_dump_cntreg(unsigned int); #endif static int vrpiu_tp_enable(void *); static int vrpiu_tp_ioctl(void *, u_long, void *, int, struct lwp *); static void vrpiu_tp_disable(void *); static void vrpiu_tp_up(struct vrpiu_softc *); static void vrpiu_tp_timeout(void *); int vrpiu_ad_enable(void *); void vrpiu_ad_disable(void *); static void vrpiu_start_powerstate(void *); static void vrpiu_calc_powerstate(struct vrpiu_softc *); static void vrpiu_send_battery_event(struct vrpiu_softc *); static void vrpiu_power(int, void *); static u_int scan_interval(u_int data); /* mra is defined in mra.c */ int mra_Y_AX1_BX2_C(int *y, int ys, int *x1, int x1s, int *x2, int x2s, int n, int scale, int *a, int *b, int *c); /* * static or global variables */ CFATTACH_DECL_NEW(vrpiu, sizeof(struct vrpiu_softc), vrpiumatch, vrpiuattach, NULL, NULL); CFATTACH_DECL_NEW(vrc4173piu, sizeof(struct vrpiu_softc), vrpiumatch, vrc4173piuattach, NULL, NULL); const struct wsmouse_accessops vrpiu_accessops = { vrpiu_tp_enable, vrpiu_tp_ioctl, vrpiu_tp_disable, }; int vrpiu_ad_poll_interval = VRPIU_AD_POLL_INTERVAL; /* * function definitions */ static inline void vrpiu_write(struct vrpiu_softc *sc, int port, unsigned short val) { bus_space_write_2(sc->sc_iot, sc->sc_ioh, port, val); } static inline u_short vrpiu_read(struct vrpiu_softc *sc, int port) { return (bus_space_read_2(sc->sc_iot, sc->sc_ioh, port)); } static inline u_short vrpiu_buf_read(struct vrpiu_softc *sc, int port) { return (bus_space_read_2(sc->sc_iot, sc->sc_buf_ioh, port)); } static int vrpiumatch(device_t parent, cfdata_t cf, void *aux) { return (1); } static void vrpiuattach(device_t parent, device_t self, void *aux) { struct vrpiu_softc *sc = device_private(self); sc->sc_dev = self; sc->sc_ab_paddata_mask = PIUAB_PADDATA_MASK; sc->sc_pb_paddata_mask = PIUPB_PADDATA_MASK; sc->sc_pb_paddata_max = PIUPB_PADDATA_MAX; vrpiu_init(sc, aux); } static void vrc4173piuattach(device_t parent, device_t self, void *aux) { struct vrpiu_softc *sc = device_private(self); sc->sc_dev = self; sc->sc_ab_paddata_mask = VRC4173PIUAB_PADDATA_MASK; sc->sc_pb_paddata_mask = VRC4173PIUPB_PADDATA_MASK; sc->sc_pb_paddata_max = VRC4173PIUPB_PADDATA_MAX; vrpiu_init(sc, aux); } static void vrpiu_init(struct vrpiu_softc *sc, void *aux) { struct vrip_attach_args *va = aux; struct wsmousedev_attach_args wsmaa; int res; bus_space_tag_t iot = va->va_iot; struct platid_data *p; if (va->va_parent_ioh != 0) res = bus_space_subregion(iot, va->va_parent_ioh, va->va_addr, va->va_size, &sc->sc_ioh); else res = bus_space_map(iot, va->va_addr, va->va_size, 0, &sc->sc_ioh); if (res != 0) { printf(": can't map bus space\n"); return; } if (va->va_parent_ioh != 0) res = bus_space_subregion(iot, va->va_parent_ioh, va->va_addr2, va->va_size2, &sc->sc_buf_ioh); else res = bus_space_map(iot, va->va_addr2, va->va_size2, 0, &sc->sc_buf_ioh); if (res != 0) { printf(": can't map second bus space\n"); return; } sc->sc_iot = iot; sc->sc_unit = va->va_unit; sc->sc_vrip = va->va_vc; sc->sc_interval = scan_interval(WSMOUSE_RES_DEFAULT); if ((p = platid_search_data(&platid, hpcbattery_parameters)) == NULL) sc->sc_battery_spec = NULL; else sc->sc_battery_spec = p->data; /* * disable device until vrpiu_enable called */ sc->sc_tpstat = VRPIU_TP_STAT_DISABLE; /* initialize touch panel timeout structure */ callout_init(&sc->sc_tptimeout, 0); /* initialize calibration context */ tpcalib_init(&sc->sc_tpcalib); #if 1 /* * XXX, calibrate parameters */ { int i; static const struct { platid_mask_t *mask; struct wsmouse_calibcoords coords; } calibrations[] = { { &platid_mask_MACH_NEC_MCR_700, { 0, 0, 799, 599, 4, { { 115, 80, 0, 0 }, { 115, 966, 0, 599 }, { 912, 80, 799, 0 }, { 912, 966, 799, 599 } } } }, { &platid_mask_MACH_NEC_MCR_700A, { 0, 0, 799, 599, 4, { { 115, 80, 0, 0 }, { 115, 966, 0, 599 }, { 912, 80, 799, 0 }, { 912, 966, 799, 599 } } } }, { &platid_mask_MACH_NEC_MCR_730, { 0, 0, 799, 599, 4, { { 115, 80, 0, 0 }, { 115, 966, 0, 599 }, { 912, 80, 799, 0 }, { 912, 966, 799, 599 } } } }, { &platid_mask_MACH_NEC_MCR_730A, { 0, 0, 799, 599, 4, { { 115, 80, 0, 0 }, { 115, 966, 0, 599 }, { 912, 80, 799, 0 }, { 912, 966, 799, 599 } } } }, { NULL, /* samples got on my MC-R500 */ { 0, 0, 639, 239, 5, { { 502, 486, 320, 120 }, { 55, 109, 0, 0 }, { 54, 913, 0, 239 }, { 973, 924, 639, 239 }, { 975, 123, 639, 0 } } } }, }; for (i = 0; ; i++) { if (calibrations[i].mask == NULL || platid_match(&platid, calibrations[i].mask)) break; } tpcalib_ioctl(&sc->sc_tpcalib, WSMOUSEIO_SCALIBCOORDS, (void *)__UNCONST(&calibrations[i].coords), 0, 0); } #endif /* install interrupt handler and enable interrupt */ if (!(sc->sc_handler = vrip_intr_establish(sc->sc_vrip, sc->sc_unit, 0, IPL_TTY, vrpiu_intr, sc))) { printf (": can't map interrupt line.\n"); return; } /* mask level2 interrupt, stop scan sequencer and mask clock to piu */ vrpiu_tp_disable(sc); printf("\n"); wsmaa.accessops = &vrpiu_accessops; wsmaa.accesscookie = sc; /* * attach the wsmouse */ sc->sc_wsmousedev = config_found(sc->sc_dev, &wsmaa, wsmousedevprint, CFARGS_NONE); /* * power management events */ sc->sc_power_hook = powerhook_establish(device_xname(sc->sc_dev), vrpiu_power, sc); if (sc->sc_power_hook == NULL) aprint_error("%s: WARNING: couldn't establish powerhook\n", device_xname(sc->sc_dev)); /* * init A/D port polling. */ sc->sc_battery.n_values = 3; sc->sc_battery.value[0] = -1; sc->sc_battery.value[1] = -1; sc->sc_battery.value[2] = -1; sc->sc_battery.nextpoll = hz*vrpiu_ad_poll_interval; callout_init(&sc->sc_adpoll, 0); callout_reset(&sc->sc_adpoll, hz, vrpiu_start_powerstate, sc); } /* * calculate interval value * input: WSMOUSE_RES_MIN - WSMOUSE_RES_MAX * output: value for PIUSIVL_REG */ static u_int scan_interval(u_int data) { int scale; if (data < WSMOUSE_RES_MIN) data = WSMOUSE_RES_MIN; if (WSMOUSE_RES_MAX < data) data = WSMOUSE_RES_MAX; scale = WSMOUSE_RES_MAX - WSMOUSE_RES_MIN; data += WSMOUSE_RES_MIN; return PIUSIVL_SCANINTVAL_MIN + (PIUSIVL_SCANINTVAL_MAX - PIUSIVL_SCANINTVAL_MIN) * (scale - data) / scale; } int vrpiu_ad_enable(void *v) { struct vrpiu_softc *sc = v; int s; unsigned int cnt; DPRINTF(("%s(%d): vrpiu_ad_enable(): interval=0x%03x\n", __FILE__, __LINE__, sc->sc_interval)); if (sc->sc_adstat != VRPIU_AD_STAT_DISABLE) return EBUSY; /* supply clock to PIU */ vrip_power(sc->sc_vrip, sc->sc_unit, 1); /* set scan interval */ vrpiu_write(sc, PIUSIVL_REG_W, sc->sc_interval); s = spltty(); /* clear interrupt status */ vrpiu_write(sc, PIUINT_REG_W, AD_INTR); /* Disable -> Standby */ cnt = PIUCNT_PIUPWR | PIUCNT_PIUMODE_COORDINATE | PIUCNT_PADATSTART | PIUCNT_PADATSTOP; vrpiu_write(sc, PIUCNT_REG_W, cnt); /* Level2 interrupt register setting */ vrip_intr_setmask2(sc->sc_vrip, sc->sc_handler, AD_INTR, 1); /* save pen status, touch or release */ cnt = vrpiu_read(sc, PIUCNT_REG_W); /* * Enable scan sequencer operation * Standby -> WaitPenTouch */ cnt |= PIUCNT_PIUSEQEN; vrpiu_write(sc, PIUCNT_REG_W, cnt); sc->sc_adstat = VRPIU_AD_STAT_ENABLE; splx(s); return 0; } void vrpiu_ad_disable(void *v) { struct vrpiu_softc *sc = v; DPRINTF(("%s(%d): vrpiu_ad_disable()\n", __FILE__, __LINE__)); /* Set level2 interrupt register to mask interrupts */ vrip_intr_setmask2(sc->sc_vrip, sc->sc_handler, AD_INTR, 0); sc->sc_adstat = VRPIU_AD_STAT_DISABLE; if (sc->sc_tpstat == VRPIU_TP_STAT_DISABLE){ /* Disable scan sequencer operation and power off */ vrpiu_write(sc, PIUCNT_REG_W, 0); /* mask clock to PIU */ vrip_power(sc->sc_vrip, sc->sc_unit, 0); } } int vrpiu_tp_enable(void *v) { struct vrpiu_softc *sc = v; int s; unsigned int cnt; DPRINTF(("%s(%d): vrpiu_tp_enable(): interval=0x%03x\n", __FILE__, __LINE__, sc->sc_interval)); if (sc->sc_tpstat != VRPIU_TP_STAT_DISABLE) return EBUSY; /* supply clock to PIU */ vrip_power(sc->sc_vrip, sc->sc_unit, 1); /* set scan interval */ vrpiu_write(sc, PIUSIVL_REG_W, sc->sc_interval); s = spltty(); /* clear interrupt status */ vrpiu_write(sc, PIUINT_REG_W, TP_INTR); /* Disable -> Standby */ cnt = PIUCNT_PIUPWR | PIUCNT_PIUMODE_COORDINATE | PIUCNT_PADATSTART | PIUCNT_PADATSTOP; vrpiu_write(sc, PIUCNT_REG_W, cnt); /* Level2 interrupt register setting */ vrip_intr_setmask2(sc->sc_vrip, sc->sc_handler, TP_INTR, 1); /* save pen status, touch or release */ cnt = vrpiu_read(sc, PIUCNT_REG_W); /* * Enable scan sequencer operation * Standby -> WaitPenTouch */ cnt |= PIUCNT_PIUSEQEN; vrpiu_write(sc, PIUCNT_REG_W, cnt); /* transit status DISABLE -> TOUCH or RELEASE */ sc->sc_tpstat = (cnt & PIUCNT_PENSTC) ? VRPIU_TP_STAT_TOUCH : VRPIU_TP_STAT_RELEASE; splx(s); return 0; } void vrpiu_tp_disable(void *v) { struct vrpiu_softc *sc = v; DPRINTF(("%s(%d): vrpiu_tp_disable()\n", __FILE__, __LINE__)); /* Set level2 interrupt register to mask interrupts */ vrip_intr_setmask2(sc->sc_vrip, sc->sc_handler, TP_INTR, 0); sc->sc_tpstat = VRPIU_TP_STAT_DISABLE; if (sc->sc_adstat == VRPIU_AD_STAT_DISABLE){ /* Disable scan sequencer operation and power off */ vrpiu_write(sc, PIUCNT_REG_W, 0); /* mask clock to PIU */ vrip_power(sc->sc_vrip, sc->sc_unit, 0); } } int vrpiu_tp_ioctl(void *v, u_long cmd, void *data, int flag, struct lwp *l) { struct vrpiu_softc *sc = v; DPRINTF(("%s(%d): vrpiu_tp_ioctl(%08lx)\n", __FILE__, __LINE__, cmd)); switch (cmd) { case WSMOUSEIO_SRES: { int tp_enable; int ad_enable; tp_enable = (sc->sc_tpstat != VRPIU_TP_STAT_DISABLE); ad_enable = (sc->sc_adstat != VRPIU_AD_STAT_DISABLE); if (tp_enable) vrpiu_tp_disable(sc); if (ad_enable) vrpiu_ad_disable(sc); sc->sc_interval = scan_interval(*(u_int *)data); DPRINTF(("%s(%d): WSMOUSEIO_SRES: *data=%d, interval=0x%03x\n", __FILE__, __LINE__, *(u_int *)data, sc->sc_interval)); if (sc->sc_interval < PIUSIVL_SCANINTVAL_MIN) sc->sc_interval = PIUSIVL_SCANINTVAL_MIN; if (PIUSIVL_SCANINTVAL_MAX < sc->sc_interval) sc->sc_interval = PIUSIVL_SCANINTVAL_MAX; if (tp_enable) vrpiu_tp_enable(sc); if (ad_enable) vrpiu_ad_enable(sc); } break; default: return hpc_tpanel_ioctl(&sc->sc_tpcalib, cmd, data, flag, l); } return 0; } /* * PIU AD interrupt handler. */ void vrpiu_ad_intr(struct vrpiu_softc *sc) { unsigned int i; unsigned int intrstat; intrstat = vrpiu_read(sc, PIUINT_REG_W); if (sc->sc_adstat == VRPIU_AD_STAT_DISABLE) { /* * the device isn't enabled. just clear interrupt. */ vrpiu_write(sc, PIUINT_REG_W, AD_INTR); return; } if (intrstat & PIUINT_PADADPINTR) { sc->sc_battery.value[0] = (unsigned int) vrpiu_buf_read(sc, PIUAB(0)); sc->sc_battery.value[1] = (unsigned int) vrpiu_buf_read(sc, PIUAB(1)); sc->sc_battery.value[2] = (unsigned int) vrpiu_buf_read(sc, PIUAB(2)); } if (intrstat & PIUINT_PADADPINTR) { for (i = 0; i < 3; i++) { if (sc->sc_battery.value[i] & PIUAB_VALID) sc->sc_battery.value[i] &= sc->sc_ab_paddata_mask; else sc->sc_battery.value[i] = 0; } vrpiu_calc_powerstate(sc); } vrpiu_write(sc, PIUINT_REG_W, AD_INTR); return; } /* * PIU TP interrupt handler. */ void vrpiu_tp_intr(struct vrpiu_softc *sc) { unsigned int cnt, i; unsigned int intrstat, page; int tpx0, tpx1, tpy0, tpy1; int x, y, xraw, yraw; tpx0 = tpx1 = tpy0 = tpy1 = 0; /* XXX: gcc -Wuninitialized */ intrstat = vrpiu_read(sc, PIUINT_REG_W); if (sc->sc_tpstat == VRPIU_TP_STAT_DISABLE) { /* * the device isn't enabled. just clear interrupt. */ vrpiu_write(sc, PIUINT_REG_W, intrstat & TP_INTR); return; } page = (intrstat & PIUINT_OVP) ? 1 : 0; if (intrstat & (PIUINT_PADPAGE0INTR | PIUINT_PADPAGE1INTR)) { tpx0 = vrpiu_buf_read(sc, PIUPB(page, 0)); tpx1 = vrpiu_buf_read(sc, PIUPB(page, 1)); tpy0 = vrpiu_buf_read(sc, PIUPB(page, 2)); tpy1 = vrpiu_buf_read(sc, PIUPB(page, 3)); } if (intrstat & PIUINT_PADDLOSTINTR) { page = page ? 0 : 1; for (i = 0; i < 4; i++) vrpiu_buf_read(sc, PIUPB(page, i)); } cnt = vrpiu_read(sc, PIUCNT_REG_W); #ifdef DEBUG if (vrpiu_debug) vrpiu_dump_cntreg(cnt); #endif /* clear interrupt status */ vrpiu_write(sc, PIUINT_REG_W, intrstat & TP_INTR); #if 0 DPRINTF(("vrpiu_intr: OVP=%d", page)); if (intrstat & PIUINT_PADCMDINTR) DPRINTF((" CMD")); if (intrstat & PIUINT_PADADPINTR) DPRINTF((" A/D")); if (intrstat & PIUINT_PADPAGE1INTR) DPRINTF((" PAGE1")); if (intrstat & PIUINT_PADPAGE0INTR) DPRINTF((" PAGE0")); if (intrstat & PIUINT_PADDLOSTINTR) DPRINTF((" DLOST")); if (intrstat & PIUINT_PENCHGINTR) DPRINTF((" PENCHG")); DPRINTF(("\n")); #endif if (intrstat & (PIUINT_PADPAGE0INTR | PIUINT_PADPAGE1INTR)) { /* * just ignore scan data if status isn't Touch. */ if (sc->sc_tpstat == VRPIU_TP_STAT_TOUCH) { /* reset tp scan timeout */ callout_reset(&sc->sc_tptimeout, VRPIU_TP_SCAN_TIMEOUT, vrpiu_tp_timeout, sc); if (!((tpx0 & PIUPB_VALID) && (tpx1 & PIUPB_VALID) && (tpy0 & PIUPB_VALID) && (tpy1 & PIUPB_VALID))) { printf("vrpiu: internal error," " data is not valid!\n"); } else { tpx0 &= sc->sc_pb_paddata_mask; tpx1 &= sc->sc_pb_paddata_mask; tpy0 &= sc->sc_pb_paddata_mask; tpy1 &= sc->sc_pb_paddata_mask; #define ISVALID(n, c) ((c) - (c)/5 < (n) && (n) < (c) + (c)/5) if (ISVALID(tpx0 + tpx1, sc->sc_pb_paddata_max) && ISVALID(tpy0 + tpy1, sc->sc_pb_paddata_max)) { #if 0 DPRINTF(("%04x %04x %04x %04x\n", tpx0, tpx1, tpy0, tpy1)); DPRINTF(("%3d %3d (%4d %4d)->", tpx0, tpy0, tpx0 + tpx1, tpy0 + tpy1)); #endif xraw = tpy1 * sc->sc_pb_paddata_max / (tpy0 + tpy1); yraw = tpx1 * sc->sc_pb_paddata_max / (tpx0 + tpx1); DPRINTF(("%3d %3d", xraw, yraw)); tpcalib_trans(&sc->sc_tpcalib, xraw, yraw, &x, &y); DPRINTF(("->%4d %4d", x, y)); wsmouse_input(sc->sc_wsmousedev, 1, /* button 0 down */ x, /* x */ y, /* y */ 0, /* z */ 0, /* w */ WSMOUSE_INPUT_ABSOLUTE_X | WSMOUSE_INPUT_ABSOLUTE_Y); DPRINTF(("\n")); } } } } if (cnt & PIUCNT_PENSTC) { if (sc->sc_tpstat == VRPIU_TP_STAT_RELEASE) { /* * pen touch */ DPRINTF(("PEN TOUCH\n")); sc->sc_tpstat = VRPIU_TP_STAT_TOUCH; /* * We should not report button down event while * we don't know where it occur. */ /* set tp scan timeout */ callout_reset(&sc->sc_tptimeout, VRPIU_TP_SCAN_TIMEOUT, vrpiu_tp_timeout, sc); } } else { vrpiu_tp_up(sc); } if (intrstat & PIUINT_PADDLOSTINTR) { cnt |= PIUCNT_PIUSEQEN; vrpiu_write(sc, PIUCNT_REG_W, cnt); } return; } void vrpiu_tp_up(struct vrpiu_softc *sc) { if (sc->sc_tpstat == VRPIU_TP_STAT_TOUCH) { /* * pen release */ DPRINTF(("RELEASE\n")); sc->sc_tpstat = VRPIU_TP_STAT_RELEASE; /* clear tp scan timeout */ callout_stop(&sc->sc_tptimeout); /* button 0 UP */ wsmouse_input(sc->sc_wsmousedev, 0, 0, 0, 0, 0, 0); } } /* touch panel timeout handler */ void vrpiu_tp_timeout(void *v) { struct vrpiu_softc *sc = (struct vrpiu_softc *)v; #ifdef VRPIUDEBUG { unsigned int cnt = vrpiu_read(sc, PIUCNT_REG_W); DPRINTF(("TIMEOUT: stat=%s reg=%s\n", (sc->sc_tpstat == VRPIU_TP_STAT_TOUCH)?"touch":"release", (cnt & PIUCNT_PENSTC)?"touch":"release")); } #endif vrpiu_tp_up(sc); } /* * PIU interrupt handler. */ int vrpiu_intr(void *arg) { struct vrpiu_softc *sc = arg; vrpiu_ad_intr(sc); vrpiu_tp_intr(sc); return 0; } void vrpiu_start_powerstate(void *v) { int mask; struct vrpiu_softc *sc = (struct vrpiu_softc *)v; vrpiu_ad_enable(sc); mask = vrpiu_read(sc, PIUAMSK_REG_W); mask &= 0xff8f; /* XXX */ vrpiu_write(sc, PIUAMSK_REG_W, mask); vrpiu_write(sc, PIUASCN_REG_W, PIUACN_ADPSSTART); /* * restart next A/D polling */ callout_reset(&sc->sc_adpoll, hz*vrpiu_ad_poll_interval, vrpiu_start_powerstate, sc); } void vrpiu_calc_powerstate(struct vrpiu_softc *sc) { extern void vrgiu_diff_io(void); vrpiu_ad_disable(sc); VPRINTF(("vrpiu:AD: %d, %d, %d\n", sc->sc_battery.value[0], sc->sc_battery.value[1], sc->sc_battery.value[2])); sc->sc_battery.nextpoll = hz*vrpiu_ad_poll_interval; vrpiu_send_battery_event(sc); /* * restart next A/D polling if change polling timing. */ if (sc->sc_battery.nextpoll != hz*vrpiu_ad_poll_interval) callout_reset(&sc->sc_adpoll, sc->sc_battery.nextpoll, vrpiu_start_powerstate, sc); if (bootverbose) vrgiu_diff_io(); } static void vrpiu_power(int why, void *arg) { struct vrpiu_softc *sc = arg; switch (why) { case PWR_STANDBY: case PWR_SUSPEND: break; case PWR_RESUME: callout_reset(&sc->sc_adpoll, hz, vrpiu_start_powerstate, sc); break; } } static void vrpiu_send_battery_event(struct vrpiu_softc *sc) { #ifdef VRPIU_ADHOC_BATTERY_EVENT static int batteryhigh = 0; static int batterylow = 0; static int critical = 0; if (sc->sc_battery_spec == NULL || sc->sc_battery_spec->main_port == -1) return; if (sc->sc_battery.value[sc->sc_battery_spec->main_port] <= sc->sc_battery_spec->dc_critical) { batteryhigh = 0; config_hook_call(CONFIG_HOOK_PMEVENT, CONFIG_HOOK_PMEVENT_BATTERY, (void *)CONFIG_HOOK_BATT_CRITICAL); batterylow = 3; if (critical) { config_hook_call(CONFIG_HOOK_PMEVENT, CONFIG_HOOK_PMEVENT_SUSPENDREQ, (void *)0); critical = 0; batterylow = 0; } critical++; } else if (sc->sc_battery.value[sc->sc_battery_spec->main_port] <= sc->sc_battery_spec->dc_20p) { batteryhigh = 0; if (batterylow == 1) config_hook_call(CONFIG_HOOK_PMEVENT, CONFIG_HOOK_PMEVENT_BATTERY, (void *)CONFIG_HOOK_BATT_20P); config_hook_call(CONFIG_HOOK_PMEVENT, CONFIG_HOOK_PMEVENT_BATTERY, (void *)CONFIG_HOOK_BATT_LOW); batterylow = 2; } else if (sc->sc_battery.value[sc->sc_battery_spec->main_port] <= sc->sc_battery_spec->dc_50p) { batteryhigh = 0; if (batterylow == 0) { batterylow = 1; config_hook_call(CONFIG_HOOK_PMEVENT, CONFIG_HOOK_PMEVENT_BATTERY, (void *)CONFIG_HOOK_BATT_50P); } } else if (sc->sc_battery.value[sc->sc_battery_spec->main_port] >= sc->sc_battery_spec->ac_80p) { batterylow = 0; if (batteryhigh == 0) { batteryhigh = 1; config_hook_call(CONFIG_HOOK_PMEVENT, CONFIG_HOOK_PMEVENT_BATTERY, (void *)CONFIG_HOOK_BATT_80P); config_hook_call(CONFIG_HOOK_PMEVENT, CONFIG_HOOK_PMEVENT_BATTERY, (void *)CONFIG_HOOK_BATT_HIGH); } } #else /* VRPIU_ADHOC_BATTERY_EVENT */ config_hook_call(CONFIG_HOOK_SET, CONFIG_HOOK_BATTERYVAL, (void *)&sc->sc_battery); #endif /* VRPIU_ADHOC_BATTERY_EVENT */ } #ifdef DEBUG void vrpiu_dump_cntreg(unsigned int cnt) { printf("%s", (cnt & PIUCNT_PENSTC) ? "Touch" : "Release"); printf(" state="); if ((cnt & PIUCNT_PADSTATE_MASK) == PIUCNT_PADSTATE_CmdScan) printf("CmdScan"); if ((cnt & PIUCNT_PADSTATE_MASK) == PIUCNT_PADSTATE_IntervalNextScan) printf("IntervalNextScan"); if ((cnt & PIUCNT_PADSTATE_MASK) == PIUCNT_PADSTATE_PenDataScan) printf("PenDataScan"); if ((cnt & PIUCNT_PADSTATE_MASK) == PIUCNT_PADSTATE_WaitPenTouch) printf("WaitPenTouch"); if ((cnt & PIUCNT_PADSTATE_MASK) == PIUCNT_PADSTATE_RFU) printf("???"); if ((cnt & PIUCNT_PADSTATE_MASK) == PIUCNT_PADSTATE_ADPortScan) printf("ADPortScan"); if ((cnt & PIUCNT_PADSTATE_MASK) == PIUCNT_PADSTATE_Standby) printf("Standby"); if ((cnt & PIUCNT_PADSTATE_MASK) == PIUCNT_PADSTATE_Disable) printf("Disable"); if (cnt & PIUCNT_PADATSTOP) printf(" AutoStop"); if (cnt & PIUCNT_PADATSTART) printf(" AutoStart"); if (cnt & PIUCNT_PADSCANSTOP) printf(" Stop"); if (cnt & PIUCNT_PADSCANSTART) printf(" Start"); if (cnt & PIUCNT_PADSCANTYPE) printf(" ScanPressure"); if ((cnt & PIUCNT_PIUMODE_MASK) == PIUCNT_PIUMODE_ADCONVERTER) printf(" A/D"); if ((cnt & PIUCNT_PIUMODE_MASK) == PIUCNT_PIUMODE_COORDINATE) printf(" Coordinate"); if (cnt & PIUCNT_PIUSEQEN) printf(" SeqEn"); if ((cnt & PIUCNT_PIUPWR) == 0) printf(" PowerOff"); if ((cnt & PIUCNT_PADRST) == 0) printf(" Reset"); printf("\n"); } #endif