/* $OpenBSD: tctrl.c,v 1.19 2008/06/26 05:42:13 ray Exp $ */ /* $NetBSD: tctrl.c,v 1.2 1999/08/11 00:46:06 matt Exp $ */ /*- * Copyright (c) 1998 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Matt Thomas. * * 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 NETBSD FOUNDATION, INC. 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 FOUNDATION 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. */ /* * The /dev/apm{,ctl} interface code falls under the following license * terms: * * Copyright (c) 1998-2001 Michael Shalayeff. All rights reserved. * Copyright (c) 1995 John T. Kohl. 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. * 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 MIND, 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. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * Flags to control kernel display * SCFLAG_NOPRINT: do not output APM power messages due to * a power change event. * * SCFLAG_PCTPRINT: do not output APM power messages due to * to a power change event unless the battery * percentage changes. */ #define SCFLAG_NOPRINT 0x0008000 #define SCFLAG_PCTPRINT 0x0004000 #define SCFLAG_PRINT (SCFLAG_NOPRINT|SCFLAG_PCTPRINT) const char *tctrl_ext_status[16] = { "main power available", "internal battery attached", "external battery attached", "external VGA attached", "external keyboard attached", "external mouse attached", "lid down", "internal battery charging", "external battery charging", "internal battery discharging", "external battery discharging", }; /* Request "packet" */ struct tctrl_req { u_int8_t cmdbuf[16]; u_int cmdlen; u_int8_t rspbuf[16]; u_int rsplen; }; struct tctrl_softc { struct device sc_dev; struct uctrl_regs *sc_regs; struct intrhand sc_ih; u_int sc_ext_status; u_int sc_flags; #define TCTRL_SEND_REQUEST 0x0001 #define TCTRL_ISXT 0x0002 u_int sc_wantdata; enum { TCTRL_IDLE, TCTRL_ARGS, TCTRL_ACK, TCTRL_DATA } sc_state; u_int8_t sc_cmdbuf[16]; u_int8_t sc_rspbuf[16]; u_int8_t sc_tft_on; u_int8_t sc_pcmcia_on; u_int8_t sc_brightness; u_int8_t sc_op; u_int sc_cmdoff; u_int sc_cmdlen; u_int sc_rspoff; u_int sc_rsplen; u_int sc_rspack; u_int sc_bellfreq; u_int sc_bellvol; struct timeout sc_tmo; /* /dev/apm{,ctl} fields */ struct klist sc_note; u_int sc_apmflags; /* external video control callback */ void (*sc_evcb)(void *, int); void *sc_evdata; }; int tctrl_match(struct device *, void *, void *); void tctrl_attach(struct device *, struct device *, void *); void tctrl_bell(struct tctrl_softc *, int, int); void tctrl_brightness(struct tctrl_softc *, int, int); void tctrl_init_lcd(struct tctrl_softc *); int tctrl_intr(void *); void tctrl_lcd(struct tctrl_softc *, int, int); u_int8_t tctrl_read_data(struct tctrl_softc *); void tctrl_read_event_status(void *); void tctrl_read_ext_status(struct tctrl_softc *); int tctrl_request(struct tctrl_softc *, struct tctrl_req *); void tctrl_tft(struct tctrl_softc *); void tctrl_write_data(struct tctrl_softc *, u_int8_t); int apm_record_event(struct tctrl_softc *, u_int); struct cfattach tctrl_ca = { sizeof(struct tctrl_softc), tctrl_match, tctrl_attach }; struct cfdriver tctrl_cd = { NULL, "tctrl", DV_DULL }; int tctrl_match(parent, vcf, aux) struct device *parent; void *vcf; void *aux; { struct confargs *ca = aux; struct romaux *ra = &ca->ca_ra; /* * Tadpole 3GX/3GS uses "uctrl" for the Tadpole Microcontroller * (which is really part of the TS102 PCMCIA controller, but there * exists a distinct OpenProm node for the microcontroller interface). */ if (strcmp("uctrl", ra->ra_name)) return (0); return (1); } void tctrl_attach(parent, self, aux) struct device *parent, *self; void *aux; { struct confargs *ca = aux; struct tctrl_softc *sc = (void *)self; u_int i, v; int pri; if (ca->ca_ra.ra_nintr != 1) { printf(": expected 1 interrupt, got %d\n", ca->ca_ra.ra_nintr); return; } pri = ca->ca_ra.ra_intr[0].int_pri; if (ca->ca_ra.ra_nreg != 1) { printf(": expected 1 register, got %d\n", ca->ca_ra.ra_nreg); return; } sc->sc_regs = mapiodev(&(ca->ca_ra.ra_reg[0]), 0, ca->ca_ra.ra_reg[0].rr_len); printf(" pri %d\n", pri); /* * We need to check if we are running on the SPARCbook S3XT, which * needs extra work to control the TFT power. */ sc->sc_flags = 0; if (strcmp(mainbus_model, "Tadpole_S3000XT") == 0) sc->sc_flags |= TCTRL_ISXT; sc->sc_tft_on = 1; /* clear any pending data */ for (i = 0; i < 10000; i++) { if ((TS102_UCTRL_STS_RXNE_STA & sc->sc_regs->stat) == 0) break; v = sc->sc_regs->data; sc->sc_regs->stat = TS102_UCTRL_STS_RXNE_STA; } sc->sc_ih.ih_fun = tctrl_intr; sc->sc_ih.ih_arg = sc; intr_establish(pri, &sc->sc_ih, -1, self->dv_xname); timeout_set(&sc->sc_tmo, tctrl_read_event_status, sc); /* See what the external status is */ tctrl_read_ext_status(sc); if (sc->sc_ext_status != 0) { const char *sep; u_int len; v = sc->sc_ext_status; len = 0; sep = ""; for (i = 0; v != 0; i++, v >>= 1) { if ((v & 1) == 0) continue; /* wrap to next line if necessary */ if (len != 0 && len + strlen(sep) + strlen(tctrl_ext_status[i]) > 80) { printf("\n"); len = 0; } if (len == 0) { printf("%s: ", sc->sc_dev.dv_xname); len = 2 + strlen(sc->sc_dev.dv_xname); sep = ""; } printf("%s%s", sep, tctrl_ext_status[i]); len += strlen(sep) + strlen(tctrl_ext_status[i]); sep = ", "; } if (len != 0) printf("\n"); } /* Get a few status values */ tctrl_bell(sc, 0xff, 0); tctrl_brightness(sc, 0xff, 0); /* Blank video if lid is closed during boot */ if (sc->sc_ext_status & TS102_EXT_STATUS_LID_DOWN) tctrl_tft(sc); sc->sc_regs->intr = TS102_UCTRL_INT_RXNE_REQ|TS102_UCTRL_INT_RXNE_MSK; sc->sc_wantdata = 0; /* Initialize the LCD icons */ tctrl_init_lcd(sc); } int tctrl_intr(void *arg) { struct tctrl_softc *sc = arg; unsigned int v, d; int progress = 0; again: /* find out the cause(s) of the interrupt */ v = sc->sc_regs->stat & TS102_UCTRL_STS_MASK; /* clear the cause(s) of the interrupt */ sc->sc_regs->stat = v; v &= ~(TS102_UCTRL_STS_RXO_STA|TS102_UCTRL_STS_TXE_STA); if (sc->sc_cmdoff >= sc->sc_cmdlen) { v &= ~TS102_UCTRL_STS_TXNF_STA; if (sc->sc_regs->intr & TS102_UCTRL_INT_TXNF_REQ) { sc->sc_regs->intr = 0; progress = 1; } } if (v == 0 && ((sc->sc_flags & TCTRL_SEND_REQUEST) == 0 || sc->sc_state != TCTRL_IDLE)) { return (progress); } progress = 1; if (v & TS102_UCTRL_STS_RXNE_STA) { d = tctrl_read_data(sc); switch (sc->sc_state) { case TCTRL_IDLE: if (d == TS102_UCTRL_INTR) { /* external event */ timeout_add(&sc->sc_tmo, 1); } else { printf("%s: (op=0x%02x): unexpected data (0x%02x)\n", sc->sc_dev.dv_xname, sc->sc_op, d); } goto again; case TCTRL_ACK: #ifdef TCTRLDEBUG printf(" ack=0x%02x", d); #endif switch (d) { case TS102_UCTRL_ACK: sc->sc_rspack = 1; sc->sc_rsplen--; sc->sc_rspoff = 0; sc->sc_state = sc->sc_rsplen ? TCTRL_DATA : TCTRL_IDLE; sc->sc_wantdata = sc->sc_rsplen ? 1 : 0; #ifdef TCTRLDEBUG if (sc->sc_rsplen > 0) { printf(" [data(%u)]", sc->sc_rsplen); } else { printf(" [idle]\n"); } #endif goto again; default: printf("%s: (op=0x%02x): unexpected return value (0x%02x)\n", sc->sc_dev.dv_xname, sc->sc_op, d); /* FALLTHROUGH */ case TS102_UCTRL_NACK: printf("%s: command %x failed\n", sc->sc_dev.dv_xname, sc->sc_op); sc->sc_rspack = 0; sc->sc_wantdata = 0; sc->sc_state = TCTRL_IDLE; break; } break; case TCTRL_DATA: sc->sc_rspbuf[sc->sc_rspoff++] = d; #ifdef TCTRLDEBUG printf(" [%d]=0x%02x", sc->sc_rspoff-1, d); #endif if (sc->sc_rspoff == sc->sc_rsplen) { #ifdef TCTRLDEBUG printf(" [idle]\n"); #endif sc->sc_state = TCTRL_IDLE; sc->sc_wantdata = 0; } goto again; default: printf("%s: (op=0x%02x): unexpected data (0x%02x) in state %d\n", sc->sc_dev.dv_xname, sc->sc_op, d, sc->sc_state); goto again; } } if ((sc->sc_state == TCTRL_IDLE && sc->sc_wantdata == 0) || (sc->sc_flags & TCTRL_SEND_REQUEST)) { if (sc->sc_flags & TCTRL_SEND_REQUEST) { sc->sc_flags &= ~TCTRL_SEND_REQUEST; sc->sc_wantdata = 1; } if (sc->sc_cmdlen > 0) { sc->sc_regs->intr = sc->sc_regs->intr | TS102_UCTRL_INT_TXNF_MSK |TS102_UCTRL_INT_TXNF_REQ; v = sc->sc_regs->stat; } } if ((sc->sc_cmdoff < sc->sc_cmdlen) && (v & TS102_UCTRL_STS_TXNF_STA)) { tctrl_write_data(sc, sc->sc_cmdbuf[sc->sc_cmdoff++]); #ifdef TCTRLDEBUG if (sc->sc_cmdoff == 1) { printf("%s: op=0x%02x(l=%u)", sc->sc_dev.dv_xname, sc->sc_cmdbuf[0], sc->sc_rsplen); } else { printf(" [%d]=0x%02x", sc->sc_cmdoff-1, sc->sc_cmdbuf[sc->sc_cmdoff-1]); } #endif if (sc->sc_cmdoff == sc->sc_cmdlen) { sc->sc_state = sc->sc_rsplen ? TCTRL_ACK : TCTRL_IDLE; #ifdef TCTRLDEBUG printf(" %s", sc->sc_rsplen ? "[ack]" : "[idle]\n"); #endif if (sc->sc_cmdoff == 1) { sc->sc_op = sc->sc_cmdbuf[0]; } sc->sc_regs->intr = sc->sc_regs->intr & (~TS102_UCTRL_INT_TXNF_MSK |TS102_UCTRL_INT_TXNF_REQ); } else if (sc->sc_state == TCTRL_IDLE) { sc->sc_op = sc->sc_cmdbuf[0]; sc->sc_state = TCTRL_ARGS; #ifdef TCTRLDEBUG printf(" [args]"); #endif } } goto again; } /* * The Tadpole microcontroller is not preprogrammed with icon * representations. The machine boots with the DC-IN light as * a blank (all 0x00) and the other lights, as 4 rows of horizontal * bars. The below code initializes the few icons the system will use * to sane values. * * Programming the icons is simple. It is a 5x8 matrix, with each row a * bitfield in the order 0x10 0x08 0x04 0x02 0x01. */ static void tctrl_set_glyph(struct tctrl_softc *, u_int, const u_int8_t *); static const u_int8_t tctrl_glyph_dc[] = { 0x00, 0x00, 0x1f, 0x00, 0x15, 0x00, 0x00, 0x00 }, #if 0 tctrl_glyph_bs[] = { 0x00, 0x10, 0x08, 0x04, 0x02, 0x01, 0x00, 0x00 }, tctrl_glyph_w1[] = { 0x0c, 0x16, 0x10, 0x15, 0x10, 0x16, 0x0c, 0x00 }, tctrl_glyph_w2[] = { 0x0c, 0x0d, 0x01, 0x15, 0x01, 0x0d, 0x0c, 0x00 }, tctrl_glyph_l1[] = { 0x00, 0x04, 0x08, 0x13, 0x08, 0x04, 0x00, 0x00 }, tctrl_glyph_l2[] = { 0x00, 0x04, 0x02, 0x19, 0x02, 0x04, 0x00, 0x00 }, #endif tctrl_glyph_pc[] = { 0x00, 0x0e, 0x0e, 0x1f, 0x1f, 0x1f, 0x1f, 0x00 }; void tctrl_init_lcd(struct tctrl_softc *sc) { tctrl_set_glyph(sc, TS102_BLK_OFF_DEF_DC_GOOD, tctrl_glyph_dc); #if 0 tctrl_set_glyph(sc, TS102_BLK_OFF_DEF_BACKSLASH, tctrl_glyph_bs); tctrl_set_glyph(sc, TS102_BLK_OFF_DEF_WAN1, tctrl_glyph_w1); tctrl_set_glyph(sc, TS102_BLK_OFF_DEF_WAN2, tctrl_glyph_w2); tctrl_set_glyph(sc, TS102_BLK_OFF_DEF_LAN1, tctrl_glyph_l1); tctrl_set_glyph(sc, TS102_BLK_OFF_DEF_LAN2, tctrl_glyph_l2); #endif tctrl_set_glyph(sc, TS102_BLK_OFF_DEF_PCMCIA, tctrl_glyph_pc); } static void tctrl_set_glyph(struct tctrl_softc *sc, u_int glyph, const u_int8_t *data) { struct tctrl_req req; req.cmdbuf[0] = TS102_OP_BLK_DEF_SPCL_CHAR; req.cmdbuf[1] = 8; req.cmdbuf[2] = glyph; bcopy(data, req.cmdbuf + 3, 8); req.cmdlen = 3 + 8; req.rsplen = 1; tctrl_request(sc, &req); } void tctrl_read_event_status(void *arg) { struct tctrl_softc *sc = (struct tctrl_softc *)arg; struct tctrl_req req; unsigned int v; req.cmdbuf[0] = TS102_OP_RD_EVENT_STATUS; req.cmdlen = 1; req.rsplen = 3; tctrl_request(sc, &req); v = req.rspbuf[0] * 256 + req.rspbuf[1]; /* * Read the new external status value if necessary */ if (v & (TS102_EVENT_STATUS_DC_STATUS_CHANGE | TS102_EVENT_STATUS_LID_STATUS_CHANGE | TS102_EVENT_STATUS_EXTERNAL_VGA_STATUS_CHANGE)) tctrl_read_ext_status(sc); if (v & TS102_EVENT_STATUS_SHUTDOWN_REQUEST) { printf("%s: SHUTDOWN REQUEST!\n", sc->sc_dev.dv_xname); } #ifdef TCTRLDEBUG /* Obviously status change */ if (v & TS102_EVENT_STATUS_VERY_LOW_POWER_WARNING) { if (sc->sc_apmflags & SCFLAG_PCTPRINT) printf("%s: Battery level change\n", sc->sc_dev.dv_xname); } #endif if (v & TS102_EVENT_STATUS_LOW_POWER_WARNING) { if ((sc->sc_apmflags & SCFLAG_NOPRINT) == 0) printf("%s: LOW POWER WARNING!\n", sc->sc_dev.dv_xname); apm_record_event(sc, APM_BATTERY_LOW); } if (v & TS102_EVENT_STATUS_DC_STATUS_CHANGE) { if ((sc->sc_apmflags & SCFLAG_NOPRINT) == 0) printf("%s: main power %s\n", sc->sc_dev.dv_xname, (sc->sc_ext_status & TS102_EXT_STATUS_MAIN_POWER_AVAILABLE) ? "restored" : "removed"); apm_record_event(sc, APM_POWER_CHANGE); #if 0 /* automatically done for us */ tctrl_lcd(sc, ~TS102_LCD_DC_OK, sc->sc_ext_status & TS102_EXT_STATUS_MAIN_POWER_AVAILABLE ? TS102_LCD_DC_OK : 0); #endif } if (v & TS102_EVENT_STATUS_LID_STATUS_CHANGE) { /* blank or restore video if necessary */ if (sc->sc_tft_on) tctrl_tft(sc); #ifdef TCTRLDEBUG printf("%s: lid %s\n", sc->sc_dev.dv_xname, (sc->sc_ext_status & TS102_EXT_STATUS_LID_DOWN) ? "closed" : "opened"); #endif } if (v & TS102_EVENT_STATUS_EXTERNAL_VGA_STATUS_CHANGE) { printf("%s: external vga %s\n", sc->sc_dev.dv_xname, sc->sc_ext_status & TS102_EXT_STATUS_EXTERNAL_VGA_ATTACHED ? "attached" : "detached"); #ifdef TCTRLDEBUG req.cmdbuf[0] = TS102_OP_RD_EXT_VGA_PORT; req.cmdlen = 1; req.rsplen = 2; tctrl_request(sc, &req); printf("%s: vga status %x\n", sc->sc_dev.dv_xname, req.rspbuf[0]); #endif if (sc->sc_evcb != NULL) (*sc->sc_evcb)(sc->sc_evdata, sc->sc_ext_status & TS102_EXT_STATUS_EXTERNAL_VGA_ATTACHED); } } void tctrl_read_ext_status(struct tctrl_softc *sc) { struct tctrl_req req; req.cmdbuf[0] = TS102_OP_RD_EXT_STATUS; req.cmdlen = 1; req.rsplen = 3; #ifdef TCTRLDEBUG printf("tctrl_read_ext_status: before, ext_status = %x\n", sc->sc_ext_status); #endif tctrl_request(sc, &req); sc->sc_ext_status = req.rspbuf[0] * 256 + req.rspbuf[1]; #ifdef TCTRLDEBUG printf("tctrl_read_ext_status: after, ext_status = %x\n", sc->sc_ext_status); #endif } void tctrl_bell(struct tctrl_softc *sc, int mask, int value) { struct tctrl_req req; req.cmdbuf[0] = TS102_OP_CTL_SPEAKER_VOLUME; req.cmdbuf[1] = mask; req.cmdbuf[2] = value; req.cmdlen = 3; req.rsplen = 2; tctrl_request(sc, &req); /* * Note that rspbuf[0] returns the previous value, before any * adjustment happened. */ if (mask == 0) sc->sc_bellvol = value; else sc->sc_bellvol = req.rspbuf[0]; } void tctrl_brightness(struct tctrl_softc *sc, int mask, int value) { struct tctrl_req req; req.cmdbuf[0] = TS102_OP_CTL_TFT_BRIGHTNESS; req.cmdbuf[1] = mask; req.cmdbuf[2] = value; req.cmdlen = 3; req.rsplen = 2; tctrl_request(sc, &req); /* * Note that rspbuf[0] returns the previous value, before any * adjustment happened. */ if (mask == 0) sc->sc_brightness = value; else sc->sc_brightness = req.rspbuf[0]; } void tctrl_tft(struct tctrl_softc *sc) { struct tctrl_req req; int enable; enable = (sc->sc_ext_status & TS102_EXT_STATUS_LID_DOWN) == 0 && sc->sc_tft_on; req.cmdbuf[0] = TS102_OP_CTL_BITPORT; req.cmdbuf[1] = ~TS102_BITPORT_TFTPWR; req.cmdbuf[2] = enable ? 0 : TS102_BITPORT_TFTPWR; req.cmdlen = 3; req.rsplen = 2; if ((sc->sc_flags & TCTRL_ISXT) != 0 && enable) { sb_auxregbisc(0, AUXIO_TFT, 0); delay(100000); /* XXX is such a long delay really necessary? */ } tctrl_request(sc, &req); if ((sc->sc_flags & TCTRL_ISXT) != 0 && !enable) { delay(100000); /* XXX is such a long delay really necessary? */ sb_auxregbisc(0, 0, AUXIO_TFT); } } void tctrl_lcd(struct tctrl_softc *sc, int mask, int value) { struct tctrl_req req; req.cmdbuf[0] = TS102_OP_CTL_LCD; /* * The mask setup for this particular command is *very* bizarre * and totally undocumented. * One would expect the cmdlen and rsplen to be 5 and 3, * respectively, as well. Though luck, they are not... */ req.cmdbuf[1] = mask & 0xff; req.cmdbuf[4] = (mask >> 8) & 0x01; req.cmdbuf[2] = value & 0xff; req.cmdbuf[3] = (value >> 8 & 0x01); req.cmdlen = 3; req.rsplen = 2; tctrl_request(sc, &req); } int tctrl_request(struct tctrl_softc *sc, struct tctrl_req *req) { int s, rv; while (sc->sc_wantdata != 0) { DELAY(1); } s = splhigh(); sc->sc_flags |= TCTRL_SEND_REQUEST; bcopy(req->cmdbuf, sc->sc_cmdbuf, req->cmdlen); sc->sc_wantdata = 1; sc->sc_rsplen = req->rsplen; sc->sc_cmdlen = req->cmdlen; sc->sc_cmdoff = sc->sc_rspoff = 0; do { tctrl_intr(sc); } while (sc->sc_state != TCTRL_IDLE); sc->sc_wantdata = 0; /* just in case... */ rv = sc->sc_rspack; if (rv != 0) bcopy(sc->sc_rspbuf, req->rspbuf, sc->sc_rsplen); else bzero(req->rspbuf, req->rsplen); /* safety */ splx(s); return (rv); } void tctrl_write_data(sc, v) struct tctrl_softc *sc; u_int8_t v; { unsigned int i; for (i = 0; i < 100; i++) { if (sc->sc_regs->stat & TS102_UCTRL_STS_TXNF_STA) break; } sc->sc_regs->data = v; } u_int8_t tctrl_read_data(sc) struct tctrl_softc *sc; { unsigned int i, v; for (i = 0; i < 100000; i++) { if (sc->sc_regs->stat & TS102_UCTRL_STS_RXNE_STA) break; DELAY(1); } v = sc->sc_regs->data; sc->sc_regs->stat = TS102_UCTRL_STS_RXNE_STA; return v; } /* * External interfaces, used by the display and pcmcia drivers, as well * as the powerdown code. */ void tadpole_powerdown(void) { struct tctrl_softc *sc; struct tctrl_req req; if (tctrl_cd.cd_ndevs == 0 || tctrl_cd.cd_devs[0] == NULL) { return; } sc = (struct tctrl_softc *)tctrl_cd.cd_devs[0]; req.cmdbuf[0] = TS102_OP_ADMIN_POWER_OFF; req.cmdlen = 1; req.rsplen = 1; tctrl_request(sc, &req); } void tadpole_set_brightness(int value) { struct tctrl_softc *sc; if (tctrl_cd.cd_ndevs == 0 || tctrl_cd.cd_devs[0] == NULL) { return; } sc = (struct tctrl_softc *)tctrl_cd.cd_devs[0]; if (value != sc->sc_brightness) tctrl_brightness(sc, 0, value); } int tadpole_get_brightness() { struct tctrl_softc *sc; if (tctrl_cd.cd_ndevs == 0 || tctrl_cd.cd_devs[0] == NULL) { return 0; } sc = (struct tctrl_softc *)tctrl_cd.cd_devs[0]; return sc->sc_brightness; } void tadpole_set_video(int enabled) { struct tctrl_softc *sc; if (tctrl_cd.cd_ndevs == 0 || tctrl_cd.cd_devs[0] == NULL) { return; } sc = (struct tctrl_softc *)tctrl_cd.cd_devs[0]; if (sc->sc_tft_on ^ enabled) { sc->sc_tft_on = enabled; /* nothing to do if the lid is down */ if ((sc->sc_ext_status & TS102_EXT_STATUS_LID_DOWN) == 0) tctrl_tft(sc); } } u_int tadpole_get_video() { struct tctrl_softc *sc; unsigned int status; if (tctrl_cd.cd_ndevs == 0 || tctrl_cd.cd_devs[0] == NULL) { return 0; } sc = (struct tctrl_softc *)tctrl_cd.cd_devs[0]; status = sc->sc_tft_on ? TV_ON : 0; return status; } void tadpole_register_extvideo(void (*cb)(void *, int), void *data) { struct tctrl_softc *sc; if (tctrl_cd.cd_ndevs == 0 || tctrl_cd.cd_devs[0] == NULL) { return; } sc = (struct tctrl_softc *)tctrl_cd.cd_devs[0]; sc->sc_evcb = cb; sc->sc_evdata = data; (*cb)(data, sc->sc_ext_status & TS102_EXT_STATUS_EXTERNAL_VGA_ATTACHED); } void tadpole_set_pcmcia(int slot, int enabled) { struct tctrl_softc *sc; int mask; if (tctrl_cd.cd_ndevs == 0 || tctrl_cd.cd_devs[0] == NULL) { return; } sc = (struct tctrl_softc *)tctrl_cd.cd_devs[0]; mask = 1 << slot; enabled = enabled ? mask : 0; if ((sc->sc_pcmcia_on ^ enabled) & mask) { sc->sc_pcmcia_on ^= mask; tctrl_lcd(sc, ~TS102_LCD_PCMCIA_ACTIVE, sc->sc_pcmcia_on ? TS102_LCD_PCMCIA_ACTIVE : 0); } } int tadpole_bell(u_int duration, u_int freq, u_int volume) { struct tctrl_softc *sc; struct tctrl_req req; if (tctrl_cd.cd_ndevs == 0 || tctrl_cd.cd_devs[0] == NULL) { return (0); } sc = (struct tctrl_softc *)tctrl_cd.cd_devs[0]; /* Adjust frequency if necessary (first time or frequence change) */ if (freq > 0 && freq <= 0xffff && freq != sc->sc_bellfreq) { req.cmdbuf[0] = TS102_OP_CMD_SET_BELL_FREQ; req.cmdbuf[1] = (freq >> 8) & 0xff; req.cmdbuf[2] = freq & 0xff; req.cmdlen = 3; req.rsplen = 1; tctrl_request(sc, &req); sc->sc_bellfreq = freq; } /* Adjust volume if necessary */ if (volume >= 0 && volume <= 100) { volume = (volume * 255) / 100; if (volume != sc->sc_bellvol) tctrl_bell(sc, 0, volume); } req.cmdbuf[0] = TS102_OP_CMD_RING_BELL; req.cmdbuf[1] = (duration >> 8) & 0xff; req.cmdbuf[2] = duration & 0xff; req.cmdlen = 3; req.rsplen = 1; tctrl_request(sc, &req); return (1); } /* * /dev/apm{,ctl} interface code */ #define APMUNIT(dev) (minor(dev)&0xf0) #define APMDEV(dev) (minor(dev)&0x0f) #define APMDEV_NORMAL 0 #define APMDEV_CTL 8 int apmkqfilter(dev_t dev, struct knote *kn); void filt_apmrdetach(struct knote *kn); int filt_apmread(struct knote *kn, long hint); struct filterops apmread_filtops = { 1, NULL, filt_apmrdetach, filt_apmread}; #define SCFLAG_OREAD (1 << 0) #define SCFLAG_OWRITE (1 << 1) #define SCFLAG_OPEN (SCFLAG_OREAD|SCFLAG_OWRITE) int apmopen(dev_t dev, int flag, int mode, struct proc *p) { struct tctrl_softc *sc; int error = 0; if (tctrl_cd.cd_ndevs == 0 || tctrl_cd.cd_devs[0] == NULL) { return (ENXIO); } /* apm0 only */ if (APMUNIT(dev) != 0) return (ENODEV); sc = (struct tctrl_softc *)tctrl_cd.cd_devs[0]; switch (APMDEV(dev)) { case APMDEV_CTL: if (!(flag & FWRITE)) { error = EINVAL; break; } if (sc->sc_apmflags & SCFLAG_OWRITE) { error = EBUSY; break; } sc->sc_apmflags |= SCFLAG_OWRITE; break; case APMDEV_NORMAL: if (!(flag & FREAD) || (flag & FWRITE)) { error = EINVAL; break; } sc->sc_apmflags |= SCFLAG_OREAD; break; default: error = ENXIO; break; } return (error); } int apmclose(dev_t dev, int flag, int mode, struct proc *p) { struct tctrl_softc *sc; if (tctrl_cd.cd_ndevs == 0 || tctrl_cd.cd_devs[0] == NULL) { return (ENXIO); } /* apm0 only */ if (APMUNIT(dev) != 0) return (ENODEV); sc = (struct tctrl_softc *)tctrl_cd.cd_devs[0]; switch (APMDEV(dev)) { case APMDEV_CTL: sc->sc_apmflags &= ~SCFLAG_OWRITE; break; case APMDEV_NORMAL: sc->sc_apmflags &= ~SCFLAG_OREAD; break; } return (0); } int apmioctl(dev_t dev, u_long cmd, caddr_t data, int flag, struct proc *p) { struct tctrl_softc *sc; struct tctrl_req req; struct apm_power_info *power; u_int8_t c; int error = 0; if (tctrl_cd.cd_ndevs == 0 || tctrl_cd.cd_devs[0] == NULL) { return (ENXIO); } /* apm0 only */ if (APMUNIT(dev) != 0) return (ENODEV); sc = (struct tctrl_softc *)tctrl_cd.cd_devs[0]; switch (cmd) { /* some ioctl names from linux */ case APM_IOC_STANDBY: if ((flag & FWRITE) == 0) error = EBADF; else error = EOPNOTSUPP; /* XXX */ break; case APM_IOC_SUSPEND: if ((flag & FWRITE) == 0) error = EBADF; else error = EOPNOTSUPP; /* XXX */ break; case APM_IOC_PRN_CTL: if ((flag & FWRITE) == 0) error = EBADF; else { int flag = *(int *)data; switch (flag) { case APM_PRINT_ON: /* enable printing */ sc->sc_apmflags &= ~SCFLAG_PRINT; break; case APM_PRINT_OFF: /* disable printing */ sc->sc_apmflags &= ~SCFLAG_PRINT; sc->sc_apmflags |= SCFLAG_NOPRINT; break; case APM_PRINT_PCT: /* disable some printing */ sc->sc_apmflags &= ~SCFLAG_PRINT; sc->sc_apmflags |= SCFLAG_PCTPRINT; break; default: error = EINVAL; break; } } break; case APM_IOC_GETPOWER: power = (struct apm_power_info *)data; if (sc->sc_ext_status & TS102_EXT_STATUS_INTERNAL_BATTERY_ATTACHED) { req.cmdbuf[0] = TS102_OP_RD_INT_CHARGE_RATE; req.cmdlen = 1; req.rsplen = 2; tctrl_request(sc, &req); if (req.rspbuf[0] != 0) power->battery_state = APM_BATT_CHARGING; else power->battery_state = APM_BATT_UNKNOWN; req.cmdbuf[0] = TS102_OP_RD_INT_CHARGE_LEVEL; req.cmdlen = 1; req.rsplen = 3; tctrl_request(sc, &req); c = req.rspbuf[0]; if (c >= TS102_CHARGE_UNKNOWN) power->battery_life = 0; else { power->battery_life = c; if (power->battery_state != APM_BATT_CHARGING) { if (c < 0x20) power->battery_state = APM_BATT_CRITICAL; else if (c < 0x40) power->battery_state = APM_BATT_HIGH; else if (c < 0x66) power->battery_state = APM_BATT_HIGH; } } } else { power->battery_state = APM_BATTERY_ABSENT; power->battery_life = 0; } power->minutes_left = (u_int)-1; /* unknown */ if (sc->sc_ext_status & TS102_EXT_STATUS_MAIN_POWER_AVAILABLE) power->ac_state = APM_AC_ON; else power->ac_state = APM_AC_OFF; break; default: error = ENOTTY; } return (error); } int apm_record_event(struct tctrl_softc *sc, u_int type) { static int apm_evindex; /* skip if no user waiting */ if ((sc->sc_apmflags & SCFLAG_OPEN) == 0) return (1); apm_evindex++; KNOTE(&sc->sc_note, APM_EVENT_COMPOSE(type, apm_evindex)); return (0); } void filt_apmrdetach(struct knote *kn) { struct tctrl_softc *sc = (struct tctrl_softc *)kn->kn_hook; SLIST_REMOVE(&sc->sc_note, kn, knote, kn_selnext); } int filt_apmread(struct knote *kn, long hint) { /* XXX weird kqueue_scan() semantics */ if (hint && !kn->kn_data) kn->kn_data = (int)hint; return (1); } int apmkqfilter(dev_t dev, struct knote *kn) { struct tctrl_softc *sc; if (tctrl_cd.cd_ndevs == 0 || tctrl_cd.cd_devs[0] == NULL) { return (ENXIO); } /* apm0 only */ if (APMUNIT(dev) != 0) return (ENODEV); sc = (struct tctrl_softc *)tctrl_cd.cd_devs[0]; switch (kn->kn_filter) { case EVFILT_READ: kn->kn_fop = &apmread_filtops; break; default: return (1); } kn->kn_hook = (caddr_t)sc; SLIST_INSERT_HEAD(&sc->sc_note, kn, kn_selnext); return (0); }