zaurus/dev/scoop.c

1.1   ober /*	$NetBSD: scoop.c,v 1.2 2006/12/17 16:07:11 peter Exp $	*/
1.1   ober /*	$OpenBSD: zaurus_scoop.c,v 1.12 2005/11/17 05:26:31 uwe Exp $	*/
1.1   ober
1.1   ober /*
1.1   ober  * Copyright (c) 2005 Uwe Stuehler <uwe (at) bsdx.de>
1.1   ober  *
1.1   ober  * Permission to use, copy, modify, and distribute this software for any
1.1   ober  * purpose with or without fee is hereby granted, provided that the above
1.1   ober  * copyright notice and this permission notice appear in all copies.
1.1   ober  *
1.1   ober  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
1.1   ober  * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
1.1   ober  * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
1.1   ober  * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
1.1   ober  * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
1.1   ober  * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
1.1   ober  * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
1.1   ober  */
1.1   ober
1.1   ober #include <sys/cdefs.h>
1.1   ober __KERNEL_RCSID(0, "$NetBSD: scoop.c,v 1.2 2006/12/17 16:07:11 peter Exp $");
1.1   ober
1.1   ober #include <sys/param.h>
1.1   ober #include <sys/systm.h>
1.1   ober #include <sys/device.h>
1.1   ober #include <sys/conf.h>
1.1   ober #include <sys/gpio.h>
1.1   ober
1.1   ober #include <machine/bus.h>
1.1   ober
1.1   ober #include <arm/xscale/pxa2x0var.h>
1.1   ober
1.1   ober #include <zaurus/zaurus/zaurus_reg.h>
1.1   ober #include <zaurus/zaurus/zaurus_var.h>
1.1   ober
1.1   ober #include <zaurus/dev/scoopreg.h>
1.1   ober #include <zaurus/dev/scoopvar.h>
1.1   ober
1.1   ober #include "ioconf.h"
1.1   ober
1.1   ober struct scoop_softc {
1.2  peter 	struct device		sc_dev;
1.2  peter
1.2  peter 	bus_space_tag_t		sc_iot;
1.2  peter 	bus_space_handle_t	sc_ioh;
1.2  peter
1.2  peter 	uint16_t		sc_gpwr;	/* GPIO state before suspend */
1.1   ober };
1.1   ober
1.1   ober static int	scoopmatch(struct device *, struct cfdata *, void *);
1.1   ober static void	scoopattach(struct device *, struct device *, void *);
1.1   ober
1.1   ober CFATTACH_DECL(scoop, sizeof(struct scoop_softc),
1.1   ober 	scoopmatch, scoopattach, NULL, NULL);
1.1   ober
1.2  peter #if 0
1.2  peter static int	scoop_gpio_pin_read(struct scoop_softc *sc, int);
1.2  peter #endif
1.2  peter static void	scoop_gpio_pin_write(struct scoop_softc *sc, int, int);
1.2  peter static void	scoop_gpio_pin_ctl(struct scoop_softc *sc, int, int);
1.1   ober
1.1   ober static int
1.1   ober scoopmatch(struct device *parent, struct cfdata *cf, void *aux)
1.1   ober {
1.1   ober
1.1   ober 	/*
1.1   ober 	 * Only C3000-like models are known to have two SCOOPs.
1.1   ober 	 */
1.1   ober         if (ZAURUS_ISC3000)
1.1   ober 		return (cf->cf_unit < 2);
1.1   ober 	return (cf->cf_unit == 0);
1.1   ober }
1.1   ober
1.1   ober static void
1.1   ober scoopattach(struct device *parent, struct device *self, void *aux)
1.1   ober {
1.1   ober 	struct pxaip_attach_args *pxa = (struct pxaip_attach_args *)aux;
1.1   ober 	struct scoop_softc *sc = (struct scoop_softc *)self;
1.1   ober 	bus_addr_t addr;
1.1   ober 	bus_size_t size;
1.1   ober
1.1   ober 	sc->sc_iot = pxa->pxa_iot;
1.1   ober
1.1   ober 	if (pxa->pxa_addr != -1)
1.1   ober 		addr = pxa->pxa_addr;
1.1   ober 	else if (sc->sc_dev.dv_unit == 0)
1.1   ober 		addr = C3000_SCOOP0_BASE;
1.1   ober 	else
1.1   ober 		addr = C3000_SCOOP1_BASE;
1.1   ober
1.1   ober 	size = pxa->pxa_size < SCOOP_SIZE ? SCOOP_SIZE : pxa->pxa_size;
1.1   ober
1.1   ober 	if (bus_space_map(sc->sc_iot, addr, size, 0, &sc->sc_ioh) != 0) {
1.1   ober 		printf(": failed to map %s\n", sc->sc_dev.dv_xname);
1.1   ober 		return;
1.1   ober 	}
1.1   ober
1.1   ober 	if (ZAURUS_ISC3000 && sc->sc_dev.dv_unit == 1) {
1.1   ober 		scoop_gpio_pin_ctl(sc, SCOOP1_AKIN_PULLUP, GPIO_PIN_OUTPUT);
1.1   ober 		scoop_gpio_pin_write(sc, SCOOP1_AKIN_PULLUP, GPIO_PIN_LOW);
1.1   ober 	} else if (!ZAURUS_ISC3000) {
1.1   ober 		scoop_gpio_pin_ctl(sc, SCOOP0_AKIN_PULLUP, GPIO_PIN_OUTPUT);
1.1   ober 		scoop_gpio_pin_write(sc, SCOOP0_AKIN_PULLUP, GPIO_PIN_LOW);
1.1   ober 	}
1.1   ober
1.1   ober 	printf(": PCMCIA/GPIO controller\n");
1.1   ober }
1.1   ober
1.2  peter #if 0
1.2  peter static int
1.1   ober scoop_gpio_pin_read(struct scoop_softc *sc, int pin)
1.1   ober {
1.1   ober 	uint16_t bit = (1 << pin);
1.1   ober 	uint16_t rv;
1.1   ober
1.1   ober 	rv = bus_space_read_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR);
1.2  peter 	return (rv & bit) ? 1 : 0;
1.1   ober }
1.2  peter #endif
1.1   ober
1.2  peter static void
1.1   ober scoop_gpio_pin_write(struct scoop_softc *sc, int pin, int level)
1.1   ober {
1.1   ober 	uint16_t bit = (1 << pin);
1.1   ober 	uint16_t rv;
1.1   ober
1.1   ober 	rv = bus_space_read_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR);
1.1   ober 	bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR,
1.2  peter 	    (level == GPIO_PIN_LOW) ? (rv & ~bit) : (rv | bit));
1.1   ober }
1.1   ober
1.2  peter static void
1.1   ober scoop_gpio_pin_ctl(struct scoop_softc *sc, int pin, int flags)
1.1   ober {
1.1   ober 	uint16_t bit = (1 << pin);
1.1   ober 	uint16_t rv;
1.1   ober
1.1   ober 	rv = bus_space_read_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPCR);
1.1   ober 	switch (flags & (GPIO_PIN_INPUT|GPIO_PIN_OUTPUT)) {
1.1   ober 	case GPIO_PIN_INPUT:
1.1   ober 		rv &= ~bit;
1.1   ober 		break;
1.1   ober 	case GPIO_PIN_OUTPUT:
1.1   ober 		rv |= bit;
1.1   ober 		break;
1.1   ober 	}
1.1   ober 	bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPCR, rv);
1.1   ober }
1.1   ober
1.1   ober /*
1.1   ober  * Turn the LCD background light and contrast signal on or off.
1.1   ober  */
1.1   ober void
1.1   ober scoop_set_backlight(int on, int cont)
1.1   ober {
1.1   ober
1.1   ober 	if (scoop_cd.cd_ndevs > 1 && scoop_cd.cd_devs[1] != NULL) {
1.1   ober 		/* C3000 */
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[1],
1.1   ober 		    SCOOP1_BACKLIGHT_CONT, !cont);
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[1],
1.1   ober 		    SCOOP1_BACKLIGHT_ON, on);
1.1   ober 	}
1.1   ober #if 0
1.1   ober 	else if (scoop_cd.cd_ndevs > 0 && scoop_cd.cd_devs[0] != NULL) {
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[0],
1.1   ober 		    SCOOP0_BACKLIGHT_CONT, cont);
1.1   ober 	}
1.1   ober #endif
1.1   ober }
1.1   ober
1.1   ober /*
1.1   ober  * Turn the infrared LED on or off (must be on while transmitting).
1.1   ober  */
1.1   ober void
1.1   ober scoop_set_irled(int on)
1.1   ober {
1.2  peter
1.2  peter 	if (scoop_cd.cd_ndevs > 1 && scoop_cd.cd_devs[1] != NULL) {
1.1   ober 		/* IR_ON is inverted */
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[1],
1.1   ober 		    SCOOP1_IR_ON, !on);
1.2  peter 	}
1.1   ober }
1.1   ober
1.1   ober /*
1.1   ober  * Turn the green and orange LEDs on or off.  If the orange LED is on,
1.1   ober  * then it is wired to indicate if A/C is connected.  The green LED has
1.1   ober  * no such predefined function.
1.1   ober  */
1.1   ober void
1.1   ober scoop_led_set(int led, int on)
1.1   ober {
1.1   ober
1.1   ober 	if (scoop_cd.cd_ndevs > 0 && scoop_cd.cd_devs[0] != NULL) {
1.1   ober 		if ((led & SCOOP_LED_GREEN) != 0) {
1.1   ober 			scoop_gpio_pin_write(scoop_cd.cd_devs[0],
1.1   ober 			    SCOOP0_LED_GREEN, on);
1.1   ober 		}
1.1   ober 		if (scoop_cd.cd_ndevs > 1 && (led & SCOOP_LED_ORANGE) != 0) {
1.1   ober 			scoop_gpio_pin_write(scoop_cd.cd_devs[0],
1.1   ober 			    SCOOP0_LED_ORANGE_C3000, on);
1.1   ober 		}
1.1   ober 	}
1.1   ober }
1.1   ober
1.1   ober /*
1.1   ober  * Enable or disable the headphone output connection.
1.1   ober  */
1.1   ober void
1.1   ober scoop_set_headphone(int on)
1.1   ober {
1.1   ober
1.1   ober 	if (scoop_cd.cd_ndevs < 1 || scoop_cd.cd_devs[0] == NULL)
1.1   ober 		return;
1.1   ober
1.1   ober 	scoop_gpio_pin_ctl(scoop_cd.cd_devs[0], SCOOP0_MUTE_L,
1.1   ober 	    GPIO_PIN_OUTPUT);
1.1   ober 	scoop_gpio_pin_ctl(scoop_cd.cd_devs[0], SCOOP0_MUTE_R,
1.1   ober 	    GPIO_PIN_OUTPUT);
1.1   ober
1.1   ober 	if (on) {
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[0], SCOOP0_MUTE_L,
1.1   ober 		    GPIO_PIN_HIGH);
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[0], SCOOP0_MUTE_R,
1.1   ober 		    GPIO_PIN_HIGH);
1.1   ober 	} else {
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[0], SCOOP0_MUTE_L,
1.1   ober 		    GPIO_PIN_LOW);
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[0], SCOOP0_MUTE_R,
1.1   ober 		    GPIO_PIN_LOW);
1.1   ober 	}
1.1   ober }
1.1   ober
1.1   ober /*
1.1   ober  * Turn on pullup resistor while not reading the remote control.
1.1   ober  */
1.1   ober void
1.1   ober scoop_akin_pullup(int enable)
1.1   ober {
1.1   ober
1.1   ober 	if (scoop_cd.cd_ndevs > 1 && scoop_cd.cd_devs[1] != NULL) {
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[1],
1.1   ober 		    SCOOP1_AKIN_PULLUP, enable);
1.1   ober 	} else {
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[0],
1.1   ober 		    SCOOP0_AKIN_PULLUP, enable);
1.1   ober 	}
1.1   ober }
1.1   ober
1.1   ober void
1.1   ober scoop_battery_temp_adc(int enable)
1.1   ober {
1.1   ober
1.1   ober 	if (scoop_cd.cd_ndevs > 0 && scoop_cd.cd_devs[0] != NULL) {
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[0],
1.1   ober 		    SCOOP0_ADC_TEMP_ON_C3000, enable);
1.1   ober 	}
1.1   ober }
1.1   ober
1.1   ober void
1.1   ober scoop_charge_battery(int enable, int voltage_high)
1.1   ober {
1.1   ober
1.1   ober 	if (scoop_cd.cd_ndevs > 0 && scoop_cd.cd_devs[0] != NULL) {
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[0],
1.1   ober 		    SCOOP0_JK_B_C3000, voltage_high);
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[0],
1.1   ober 		    SCOOP0_CHARGE_OFF_C3000, !enable);
1.1   ober 	}
1.1   ober }
1.1   ober
1.1   ober void
1.1   ober scoop_discharge_battery(int enable)
1.1   ober {
1.1   ober
1.1   ober 	if (scoop_cd.cd_ndevs > 0 && scoop_cd.cd_devs[0] != NULL) {
1.1   ober 		scoop_gpio_pin_write(scoop_cd.cd_devs[0],
1.1   ober 		    SCOOP0_JK_A_C3000, enable);
1.1   ober 	}
1.1   ober }
1.1   ober
1.2  peter void
1.2  peter scoop_set_sd_power(int enable)
1.2  peter {
1.2  peter 	struct scoop_softc *sc;
1.2  peter 	bus_space_tag_t iot;
1.2  peter 	bus_space_handle_t ioh;
1.2  peter 	uint16_t v;
1.2  peter
1.2  peter 	if (scoop_cd.cd_ndevs > 1 && scoop_cd.cd_devs[1] != NULL) {
1.2  peter 		sc = scoop_cd.cd_devs[0];
1.2  peter 		iot = sc->sc_iot;
1.2  peter 		ioh = sc->sc_ioh;
1.2  peter
1.2  peter 		if (enable) {
1.2  peter 			v = bus_space_read_2(iot, ioh, SCOOP_GPWR);
1.2  peter 			v |= (1 << SCOOP0_CF_POWER_C3000);
1.2  peter 			bus_space_write_2(iot, ioh, SCOOP_GPWR, v);
1.2  peter
1.2  peter 			v = bus_space_read_2(iot, ioh, SCOOP_CPR);
1.2  peter 			v |= (1 << SCP_CPR_SD);
1.2  peter 			bus_space_write_2(iot, ioh, SCOOP_CPR, v);
1.2  peter 		} else {
1.2  peter 			v = bus_space_read_2(iot, ioh, SCOOP_CPR);
1.2  peter 			v &= ~(1 << SCP_CPR_SD);
1.2  peter 			bus_space_write_2(iot, ioh, SCOOP_CPR, v);
1.2  peter #if 0	/* XXX */
1.2  peter 			v = bus_space_read_2(iot, ioh, SCOOP_GPWR);
1.2  peter 			v &= ~(1 << SCOOP0_CF_POWER_C3000);
1.2  peter 			bus_space_write_2(iot, ioh, SCOOP_GPWR, v);
1.2  peter #endif	/* XXX */
1.2  peter 		}
1.2  peter 	}
1.2  peter }
1.2  peter
1.1   ober void
1.1   ober scoop_check_mcr(void)
1.1   ober {
1.1   ober 	struct scoop_softc *sc;
1.1   ober 	uint16_t v;
1.1   ober
1.1   ober 	/* C3000 */
1.1   ober 	if (scoop_cd.cd_ndevs > 1 && scoop_cd.cd_devs[1] != NULL) {
1.1   ober 		sc = scoop_cd.cd_devs[0];
1.1   ober 		v = bus_space_read_2(sc->sc_iot, sc->sc_ioh, SCOOP_MCR);
1.1   ober 		if ((v & 0x100) == 0) {
1.1   ober 			bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_MCR,
1.1   ober 			    0x0101);
1.1   ober 		}
1.1   ober
1.1   ober 		sc = scoop_cd.cd_devs[1];
1.1   ober 		v = bus_space_read_2(sc->sc_iot, sc->sc_ioh, SCOOP_MCR);
1.1   ober 		if ((v & 0x100) == 0) {
1.1   ober 			bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_MCR,
1.1   ober 			    0x0101);
1.1   ober 		}
1.1   ober 	}
1.1   ober }
1.1   ober
1.1   ober void
1.1   ober scoop_suspend(void)
1.1   ober {
1.1   ober 	struct scoop_softc *sc;
1.1   ober 	uint32_t rv;
1.1   ober
1.1   ober 	if (scoop_cd.cd_ndevs > 0 && scoop_cd.cd_devs[0] != NULL) {
1.1   ober 		sc = scoop_cd.cd_devs[0];
1.1   ober 		sc->sc_gpwr = bus_space_read_2(sc->sc_iot, sc->sc_ioh,
1.1   ober 		    SCOOP_GPWR);
1.1   ober 		/* C3000 */
1.1   ober 		bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR,
1.1   ober 		    sc->sc_gpwr & ~((1<<SCOOP0_MUTE_L) | (1<<SCOOP0_MUTE_R) |
1.1   ober 		    (1<<SCOOP0_JK_A_C3000) | (1<<SCOOP0_ADC_TEMP_ON_C3000) |
1.1   ober 		    (1<<SCOOP0_LED_GREEN)));
1.1   ober 	}
1.1   ober
1.1   ober 	/* C3000 */
1.1   ober 	if (scoop_cd.cd_ndevs > 1 && scoop_cd.cd_devs[1] != NULL) {
1.1   ober 		sc = scoop_cd.cd_devs[1];
1.1   ober 		sc->sc_gpwr = bus_space_read_2(sc->sc_iot, sc->sc_ioh,
1.1   ober 		    SCOOP_GPWR);
1.1   ober 		bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR,
1.1   ober 		    sc->sc_gpwr & ~((1<<SCOOP1_RESERVED_4) |
1.1   ober 		    (1<<SCOOP1_RESERVED_5) | (1<<SCOOP1_RESERVED_6) |
1.1   ober 		    (1<<SCOOP1_BACKLIGHT_CONT) | (1<<SCOOP1_BACKLIGHT_ON) |
1.1   ober 		    (1<<SCOOP1_MIC_BIAS)));
1.1   ober 		rv = bus_space_read_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR);
1.1   ober 		bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR,
1.1   ober 		    rv | ((1<<SCOOP1_IR_ON) | (1<<SCOOP1_RESERVED_3)));
1.1   ober 	}
1.1   ober }
1.1   ober
1.1   ober void
1.1   ober scoop_resume(void)
1.1   ober {
1.1   ober 	struct scoop_softc *sc;
1.1   ober
1.1   ober 	if (scoop_cd.cd_ndevs > 0 && scoop_cd.cd_devs[0] != NULL) {
1.1   ober 		sc = scoop_cd.cd_devs[0];
1.1   ober 		bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR,
1.1   ober 		    sc->sc_gpwr);
1.1   ober 	}
1.1   ober
1.1   ober 	if (scoop_cd.cd_ndevs > 1 && scoop_cd.cd_devs[1] != NULL) {
1.1   ober 		sc = scoop_cd.cd_devs[1];
1.1   ober 		bus_space_write_2(sc->sc_iot, sc->sc_ioh, SCOOP_GPWR,
1.1   ober 		    sc->sc_gpwr);
1.1   ober 	}
1.1   ober }