arm/marvell/mvsocgpp.c

1.6    martin /*	$NetBSD: mvsocgpp.c,v 1.6 2014/01/28 13:17:19 martin Exp $	*/
1.1  kiyohara /*
1.1  kiyohara  * Copyright (c) 2008, 2010 KIYOHARA Takashi
1.1  kiyohara  * All rights reserved.
1.1  kiyohara  *
1.1  kiyohara  * Redistribution and use in source and binary forms, with or without
1.1  kiyohara  * modification, are permitted provided that the following conditions
1.1  kiyohara  * are met:
1.1  kiyohara  * 1. Redistributions of source code must retain the above copyright
1.1  kiyohara  *    notice, this list of conditions and the following disclaimer.
1.1  kiyohara  * 2. Redistributions in binary form must reproduce the above copyright
1.1  kiyohara  *    notice, this list of conditions and the following disclaimer in the
1.1  kiyohara  *    documentation and/or other materials provided with the distribution.
1.1  kiyohara  *
1.1  kiyohara  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1.1  kiyohara  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
1.1  kiyohara  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
1.1  kiyohara  * DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
1.1  kiyohara  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
1.1  kiyohara  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
1.1  kiyohara  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  kiyohara  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
1.1  kiyohara  * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
1.1  kiyohara  * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  kiyohara  * POSSIBILITY OF SUCH DAMAGE.
1.1  kiyohara  */
1.1  kiyohara
1.1  kiyohara #include <sys/cdefs.h>
1.6    martin __KERNEL_RCSID(0, "$NetBSD: mvsocgpp.c,v 1.6 2014/01/28 13:17:19 martin Exp $");
1.1  kiyohara
1.1  kiyohara #include "gpio.h"
1.1  kiyohara
1.1  kiyohara #define _INTR_PRIVATE
1.1  kiyohara
1.1  kiyohara #include <sys/param.h>
1.1  kiyohara #include <sys/bus.h>
1.1  kiyohara #include <sys/device.h>
1.1  kiyohara #include <sys/errno.h>
1.1  kiyohara #include <sys/evcnt.h>
1.1  kiyohara #include <sys/gpio.h>
1.1  kiyohara #include <sys/kmem.h>
1.1  kiyohara
1.1  kiyohara #include <machine/intr.h>
1.1  kiyohara
1.1  kiyohara #include <arm/marvell/mvsocreg.h>
1.1  kiyohara #include <arm/marvell/mvsocvar.h>
1.1  kiyohara #include <arm/marvell/mvsocgppreg.h>
1.1  kiyohara #include <arm/marvell/mvsocgppvar.h>
1.1  kiyohara #include <arm/pic/picvar.h>
1.1  kiyohara
1.1  kiyohara #include <dev/marvell/marvellvar.h>
1.1  kiyohara
1.1  kiyohara #if NGPIO > 0
1.1  kiyohara #include <sys/gpio.h>
1.1  kiyohara #include <dev/gpio/gpiovar.h>
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara #define MVSOCGPP_DUMPREG
1.1  kiyohara
1.1  kiyohara #define MVSOCGPP_READ(sc, reg) \
1.1  kiyohara 	bus_space_read_4((sc)->sc_iot, (sc)->sc_ioh, (reg))
1.1  kiyohara #define MVSOCGPP_WRITE(sc, reg, val) \
1.1  kiyohara 	bus_space_write_4((sc)->sc_iot, (sc)->sc_ioh, (reg), (val))
1.1  kiyohara
1.1  kiyohara struct mvsocgpp_softc {
1.1  kiyohara 	device_t sc_dev;
1.1  kiyohara
1.1  kiyohara 	bus_space_tag_t sc_iot;
1.1  kiyohara 	bus_space_handle_t sc_ioh;
1.1  kiyohara
1.1  kiyohara 	struct mvsocgpp_pic {
1.1  kiyohara 		struct pic_softc gpio_pic;
1.1  kiyohara 		int group;
1.4   msaitoh 		int shift;
1.1  kiyohara 		uint32_t edge;
1.1  kiyohara 		uint32_t level;
1.1  kiyohara 	} *sc_pic;
1.1  kiyohara
1.1  kiyohara #if NGPIO > 0
1.1  kiyohara 	struct gpio_chipset_tag sc_gpio_chipset;
1.1  kiyohara 	gpio_pin_t *sc_pins;
1.1  kiyohara #endif
1.1  kiyohara };
1.1  kiyohara
1.1  kiyohara static int mvsocgpp_match(device_t, struct cfdata *, void *);
1.1  kiyohara static void mvsocgpp_attach(device_t, device_t, void *);
1.1  kiyohara
1.1  kiyohara #ifdef MVSOCGPP_DUMPREG
1.1  kiyohara static void mvsocgpp_dump_reg(struct mvsocgpp_softc *);
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara static void gpio_pic_unblock_irqs(struct pic_softc *, size_t, uint32_t);
1.1  kiyohara static void gpio_pic_block_irqs(struct pic_softc *, size_t, uint32_t);
1.1  kiyohara static int gpio_pic_find_pending_irqs(struct pic_softc *);
1.1  kiyohara static void gpio_pic_establish_irq(struct pic_softc *, struct intrsource *);
1.1  kiyohara
1.1  kiyohara static struct pic_ops gpio_pic_ops = {
1.1  kiyohara 	.pic_unblock_irqs = gpio_pic_unblock_irqs,
1.1  kiyohara 	.pic_block_irqs = gpio_pic_block_irqs,
1.1  kiyohara 	.pic_find_pending_irqs = gpio_pic_find_pending_irqs,
1.1  kiyohara 	.pic_establish_irq = gpio_pic_establish_irq,
1.1  kiyohara };
1.1  kiyohara
1.1  kiyohara static struct mvsocgpp_softc *mvsocgpp_softc;	/* One unit per One SoC */
1.1  kiyohara int gpp_irqbase = 0;
1.1  kiyohara int gpp_npins = 0;
1.1  kiyohara
1.1  kiyohara
1.1  kiyohara CFATTACH_DECL_NEW(mvsocgpp, sizeof(struct mvsocgpp_softc),
1.1  kiyohara     mvsocgpp_match, mvsocgpp_attach, NULL, NULL);
1.1  kiyohara
1.1  kiyohara
1.1  kiyohara /* ARGSUSED */
1.1  kiyohara static int
1.1  kiyohara mvsocgpp_match(device_t parent, struct cfdata *match, void *aux)
1.1  kiyohara {
1.1  kiyohara 	struct marvell_attach_args *mva = aux;
1.1  kiyohara
1.1  kiyohara 	if (strcmp(mva->mva_name, match->cf_name) != 0)
1.1  kiyohara 		return 0;
1.1  kiyohara 	if (mva->mva_offset == MVA_OFFSET_DEFAULT ||
1.1  kiyohara 	    mva->mva_irq == MVA_IRQ_DEFAULT)
1.1  kiyohara 		return 0;
1.1  kiyohara
1.1  kiyohara 	mva->mva_size = MVSOC_GPP_SIZE;
1.1  kiyohara 	return 1;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara /* ARGSUSED */
1.1  kiyohara static void
1.1  kiyohara mvsocgpp_attach(device_t parent, device_t self, void *aux)
1.1  kiyohara {
1.1  kiyohara 	struct mvsocgpp_softc *sc = device_private(self);
1.1  kiyohara 	struct marvell_attach_args *mva = aux;
1.1  kiyohara 	struct pic_softc *gpio_pic;
1.1  kiyohara #if NGPIO > 0
1.1  kiyohara 	struct gpiobus_attach_args gba;
1.1  kiyohara 	gpio_pin_t *pins;
1.2  jakllsch 	uint32_t mask, dir, valin, valout, polarity, blink;
1.1  kiyohara #endif
1.1  kiyohara 	int i, j;
1.1  kiyohara
1.2  jakllsch 	dir = valin = valout = polarity = blink = 0;
1.2  jakllsch
1.1  kiyohara 	aprint_normal(": Marvell SoC General Purpose I/O Port Interface\n");
1.1  kiyohara 	aprint_naive("\n");
1.1  kiyohara
1.1  kiyohara 	sc->sc_dev = self;
1.1  kiyohara 	sc->sc_iot = mva->mva_iot;
1.1  kiyohara 	/* Map I/O registers for oriongpp */
1.1  kiyohara 	if (bus_space_subregion(mva->mva_iot, mva->mva_ioh,
1.1  kiyohara 				mva->mva_offset, mva->mva_size, &sc->sc_ioh)) {
1.1  kiyohara 		aprint_error_dev(self, "can't map registers\n");
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	if (gpp_npins > 0)
1.1  kiyohara 		aprint_normal_dev(self, "%d gpio pins\n", gpp_npins);
1.1  kiyohara 	else {
1.1  kiyohara 		aprint_error_dev(self, "gpp_npins not initialized\n");
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	mvsocgpp_softc = sc;
1.1  kiyohara
1.1  kiyohara 	for (i = 0; i < gpp_npins; i += 32)
1.1  kiyohara 		MVSOCGPP_WRITE(sc, MVSOCGPP_GPIOIC(i), 0);
1.1  kiyohara
1.1  kiyohara 	sc->sc_pic =
1.5   msaitoh 	    kmem_zalloc(sizeof(struct mvsocgpp_pic) * howmany(gpp_npins, 8),
1.5   msaitoh 		KM_SLEEP);
1.1  kiyohara 	for (i = 0, j = 0; i < gpp_npins; i += 8, j++) {
1.1  kiyohara 		gpio_pic = &(sc->sc_pic + j)->gpio_pic;
1.1  kiyohara 		gpio_pic->pic_ops = &gpio_pic_ops;
1.1  kiyohara 		snprintf(gpio_pic->pic_name, sizeof(gpio_pic->pic_name),
1.1  kiyohara 		    "%s[%d:%d]", device_xname(self), i + 7, i);
1.1  kiyohara 		gpio_pic->pic_maxsources =
1.1  kiyohara 		    (gpp_npins - i) > 8 ? 8 : gpp_npins - i;
1.1  kiyohara 		pic_add(gpio_pic, gpp_irqbase + i);
1.1  kiyohara 		aprint_normal_dev(self, "interrupts %d..%d",
1.1  kiyohara 		    gpp_irqbase + i, gpp_irqbase + i + 7);
1.6    martin 		intr_establish(mva->mva_irq + j,
1.1  kiyohara 		    IPL_HIGH, IST_LEVEL_HIGH, pic_handle_intr, gpio_pic);
1.1  kiyohara 		aprint_normal(", intr %d\n", mva->mva_irq + j);
1.1  kiyohara
1.1  kiyohara 		(sc->sc_pic + j)->group = j;
1.4   msaitoh 		(sc->sc_pic + j)->shift = (j & 3) * 8;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara #ifdef MVSOCGPP_DUMPREG
1.1  kiyohara 	mvsocgpp_dump_reg(sc);
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara #if NGPIO > 0
1.2  jakllsch 	sc->sc_pins = kmem_zalloc(sizeof(gpio_pin_t) * gpp_npins, KM_SLEEP);
1.1  kiyohara
1.1  kiyohara 	for (i = 0, mask = 1; i < gpp_npins; i++, mask <<= 1) {
1.2  jakllsch 		if ((i & (32 - 1)) == 0) {
1.2  jakllsch 			mask = 1;
1.2  jakllsch 			dir = MVSOCGPP_READ(sc, MVSOCGPP_GPIODOEC(i));
1.2  jakllsch 			valin = MVSOCGPP_READ(sc, MVSOCGPP_GPIODI(i));
1.2  jakllsch 			valout = MVSOCGPP_READ(sc, MVSOCGPP_GPIODO(i));
1.2  jakllsch 			polarity = MVSOCGPP_READ(sc, MVSOCGPP_GPIODIP(i));
1.2  jakllsch 			blink = MVSOCGPP_READ(sc, MVSOCGPP_GPIOBE(i));
1.2  jakllsch 		}
1.1  kiyohara 		pins = &sc->sc_pins[i];
1.1  kiyohara 		pins->pin_num = i;
1.2  jakllsch 		pins->pin_caps = (GPIO_PIN_INPUT | GPIO_PIN_OUTPUT |
1.2  jakllsch 		    GPIO_PIN_INVIN | GPIO_PIN_PULSATE);
1.2  jakllsch 		if (dir & mask) {
1.1  kiyohara 			pins->pin_flags = GPIO_PIN_INPUT;
1.1  kiyohara 			pins->pin_state =
1.1  kiyohara 			    (valin & mask) ? GPIO_PIN_HIGH : GPIO_PIN_LOW;
1.1  kiyohara 		} else {
1.1  kiyohara 			pins->pin_flags = GPIO_PIN_OUTPUT;
1.1  kiyohara 			pins->pin_state =
1.1  kiyohara 			    (valout & mask) ? GPIO_PIN_HIGH : GPIO_PIN_LOW;
1.1  kiyohara 		}
1.2  jakllsch 		if (polarity & mask) {
1.2  jakllsch 			pins->pin_flags |= GPIO_PIN_INVIN;
1.2  jakllsch 		}
1.2  jakllsch 		if (blink & mask) {
1.2  jakllsch 			pins->pin_flags |= GPIO_PIN_PULSATE;
1.2  jakllsch 		}
1.1  kiyohara 	}
1.1  kiyohara 	sc->sc_gpio_chipset.gp_cookie = sc;
1.1  kiyohara 	sc->sc_gpio_chipset.gp_pin_read = mvsocgpp_pin_read;
1.1  kiyohara 	sc->sc_gpio_chipset.gp_pin_write = mvsocgpp_pin_write;
1.1  kiyohara 	sc->sc_gpio_chipset.gp_pin_ctl = mvsocgpp_pin_ctl;
1.1  kiyohara 	gba.gba_gc = &sc->sc_gpio_chipset;
1.1  kiyohara 	gba.gba_pins = sc->sc_pins;
1.1  kiyohara 	gba.gba_npins = gpp_npins;
1.1  kiyohara 	config_found_ia(self, "gpiobus", &gba, gpiobus_print);
1.1  kiyohara #endif
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara /*
1.1  kiyohara  * arch/arm/pic functions.
1.1  kiyohara  */
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara gpio_pic_unblock_irqs(struct pic_softc *pic, size_t irqbase, uint32_t irq_mask)
1.1  kiyohara {
1.1  kiyohara 	struct mvsocgpp_softc *sc = mvsocgpp_softc;
1.1  kiyohara 	struct mvsocgpp_pic *mvsocgpp_pic = (struct mvsocgpp_pic *)pic;
1.1  kiyohara 	uint32_t mask;
1.1  kiyohara 	int pin = mvsocgpp_pic->group << 3;
1.1  kiyohara
1.4   msaitoh 	irq_mask = irq_mask << mvsocgpp_pic->shift;
1.1  kiyohara 	MVSOCGPP_WRITE(sc, MVSOCGPP_GPIOIC(pin),
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIOIC(pin)) & ~irq_mask);
1.1  kiyohara 	if (irq_mask & mvsocgpp_pic->edge) {
1.1  kiyohara 		mask = MVSOCGPP_READ(sc, MVSOCGPP_GPIOIM(pin));
1.1  kiyohara 		mask |= (irq_mask & mvsocgpp_pic->edge);
1.1  kiyohara 		MVSOCGPP_WRITE(sc, MVSOCGPP_GPIOIM(pin), mask);
1.1  kiyohara 	}
1.1  kiyohara 	if (irq_mask & mvsocgpp_pic->level) {
1.1  kiyohara 		mask = MVSOCGPP_READ(sc, MVSOCGPP_GPIOILM(pin));
1.1  kiyohara 		mask |= (irq_mask & mvsocgpp_pic->level);
1.1  kiyohara 		MVSOCGPP_WRITE(sc, MVSOCGPP_GPIOILM(pin), mask);
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara /* ARGSUSED */
1.1  kiyohara static void
1.1  kiyohara gpio_pic_block_irqs(struct pic_softc *pic, size_t irqbase, uint32_t irq_mask)
1.1  kiyohara {
1.1  kiyohara 	struct mvsocgpp_softc *sc = mvsocgpp_softc;
1.1  kiyohara 	struct mvsocgpp_pic *mvsocgpp_pic = (struct mvsocgpp_pic *)pic;
1.1  kiyohara 	int pin = mvsocgpp_pic->group << 3;
1.1  kiyohara
1.4   msaitoh 	irq_mask = irq_mask << mvsocgpp_pic->shift;
1.1  kiyohara 	MVSOCGPP_WRITE(sc, MVSOCGPP_GPIOIM(pin),
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIOIM(pin)) & ~irq_mask);
1.1  kiyohara 	MVSOCGPP_WRITE(sc, MVSOCGPP_GPIOILM(pin),
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIOILM(pin)) & ~irq_mask);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static int
1.1  kiyohara gpio_pic_find_pending_irqs(struct pic_softc *pic)
1.1  kiyohara {
1.1  kiyohara 	struct mvsocgpp_softc *sc = mvsocgpp_softc;
1.1  kiyohara 	struct mvsocgpp_pic *mvsocgpp_pic = (struct mvsocgpp_pic *)pic;
1.1  kiyohara 	uint32_t pending;
1.1  kiyohara 	int pin = mvsocgpp_pic->group << 3;
1.1  kiyohara
1.1  kiyohara 	pending = MVSOCGPP_READ(sc, MVSOCGPP_GPIOIC(pin));
1.4   msaitoh 	pending &= (0xff << mvsocgpp_pic->shift);
1.1  kiyohara 	pending &= (MVSOCGPP_READ(sc, MVSOCGPP_GPIOIM(pin)) |
1.1  kiyohara 		    MVSOCGPP_READ(sc, MVSOCGPP_GPIOILM(pin)));
1.4   msaitoh 	pending = pending >> mvsocgpp_pic->shift;
1.3  jakllsch
1.1  kiyohara 	if (pending == 0)
1.1  kiyohara 		return 0;
1.3  jakllsch
1.3  jakllsch 	return pic_mark_pending_sources(pic, 0, pending);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara gpio_pic_establish_irq(struct pic_softc *pic, struct intrsource *is)
1.1  kiyohara {
1.1  kiyohara 	struct mvsocgpp_softc *sc = mvsocgpp_softc;
1.1  kiyohara 	struct mvsocgpp_pic *mvsocgpp_pic = (struct mvsocgpp_pic *)pic;
1.1  kiyohara 	uint32_t im, ilm, mask;
1.1  kiyohara 	int type, pin;
1.1  kiyohara
1.1  kiyohara 	type = is->is_type;
1.1  kiyohara 	pin = pic->pic_irqbase + is->is_irq - gpp_irqbase;
1.1  kiyohara 	mask = MVSOCGPP_GPIOPIN(pin);
1.1  kiyohara
1.1  kiyohara 	switch (type) {
1.1  kiyohara 	case IST_LEVEL_LOW:
1.1  kiyohara 	case IST_EDGE_FALLING:
1.1  kiyohara 		mvsocgpp_pin_ctl(NULL, pin, GPIO_PIN_INPUT | GPIO_PIN_INVIN);
1.1  kiyohara 		break;
1.1  kiyohara
1.1  kiyohara 	case IST_LEVEL_HIGH:
1.1  kiyohara 	case IST_EDGE_RISING:
1.1  kiyohara 		mvsocgpp_pin_ctl(NULL, pin, GPIO_PIN_INPUT);
1.1  kiyohara 		break;
1.1  kiyohara
1.1  kiyohara 	default:
1.1  kiyohara 		panic("unknwon interrupt type %d for pin %d.\n", type, pin);
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	im = MVSOCGPP_READ(sc, MVSOCGPP_GPIOIM(pin));
1.1  kiyohara 	ilm = MVSOCGPP_READ(sc, MVSOCGPP_GPIOILM(pin));
1.1  kiyohara 	switch (type) {
1.1  kiyohara 	case IST_EDGE_FALLING:
1.1  kiyohara 	case IST_EDGE_RISING:
1.1  kiyohara 		im |= mask;
1.1  kiyohara 		ilm &= ~mask;
1.1  kiyohara 		mvsocgpp_pic->edge |= mask;
1.1  kiyohara 		mvsocgpp_pic->level &= ~mask;
1.1  kiyohara 		break;
1.1  kiyohara
1.1  kiyohara 	case IST_LEVEL_LOW:
1.1  kiyohara 	case IST_LEVEL_HIGH:
1.1  kiyohara 		im &= ~mask;
1.1  kiyohara 		ilm |= mask;
1.1  kiyohara 		mvsocgpp_pic->edge &= ~mask;
1.1  kiyohara 		mvsocgpp_pic->level |= mask;
1.1  kiyohara 		break;
1.1  kiyohara 	}
1.1  kiyohara 	MVSOCGPP_WRITE(sc, MVSOCGPP_GPIOIM(pin), im);
1.1  kiyohara 	MVSOCGPP_WRITE(sc, MVSOCGPP_GPIOILM(pin), ilm);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara
1.1  kiyohara /*
1.1  kiyohara  * gpio(4) functions, and can call you.
1.1  kiyohara  */
1.1  kiyohara
1.1  kiyohara /* ARGSUSED */
1.1  kiyohara int
1.1  kiyohara mvsocgpp_pin_read(void *arg, int pin)
1.1  kiyohara {
1.1  kiyohara 	struct mvsocgpp_softc *sc = mvsocgpp_softc;
1.1  kiyohara 	uint32_t val;
1.1  kiyohara
1.1  kiyohara 	KASSERT(sc != NULL);
1.1  kiyohara
1.1  kiyohara 	val = MVSOCGPP_READ(sc, MVSOCGPP_GPIODI(pin));
1.1  kiyohara 	return (val & MVSOCGPP_GPIOPIN(pin)) != 0;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara /* ARGSUSED */
1.1  kiyohara void
1.1  kiyohara mvsocgpp_pin_write(void *arg, int pin, int value)
1.1  kiyohara {
1.1  kiyohara 	struct mvsocgpp_softc *sc = mvsocgpp_softc;
1.1  kiyohara 	uint32_t old, new, mask = MVSOCGPP_GPIOPIN(pin);
1.1  kiyohara
1.1  kiyohara 	KASSERT(sc != NULL);
1.1  kiyohara
1.1  kiyohara 	old = MVSOCGPP_READ(sc, MVSOCGPP_GPIODO(pin));
1.1  kiyohara 	if (value)
1.1  kiyohara 		new = old | mask;
1.1  kiyohara 	else
1.1  kiyohara 		new = old & ~mask;
1.1  kiyohara 	if (new != old)
1.1  kiyohara 		MVSOCGPP_WRITE(sc, MVSOCGPP_GPIODO(pin), new);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara /* ARGSUSED */
1.1  kiyohara void
1.1  kiyohara mvsocgpp_pin_ctl(void *arg, int pin, int flags)
1.1  kiyohara {
1.1  kiyohara 	struct mvsocgpp_softc *sc = mvsocgpp_softc;
1.1  kiyohara 	uint32_t old, new, mask = MVSOCGPP_GPIOPIN(pin);
1.1  kiyohara
1.1  kiyohara 	KASSERT(sc != NULL);
1.1  kiyohara
1.1  kiyohara 	old = MVSOCGPP_READ(sc, MVSOCGPP_GPIODOEC(pin));
1.1  kiyohara 	switch (flags & (GPIO_PIN_INPUT|GPIO_PIN_OUTPUT)) {
1.1  kiyohara 	case GPIO_PIN_INPUT:
1.1  kiyohara 		new = old | mask;
1.1  kiyohara 		break;
1.1  kiyohara
1.1  kiyohara 	case GPIO_PIN_OUTPUT:
1.1  kiyohara 		new = old & ~mask;
1.1  kiyohara 		break;
1.1  kiyohara
1.1  kiyohara 	default:
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara 	if (new != old)
1.1  kiyohara 		MVSOCGPP_WRITE(sc, MVSOCGPP_GPIODOEC(pin), new);
1.1  kiyohara
1.1  kiyohara 	/* Blink every 2^24 TCLK */
1.1  kiyohara 	old = MVSOCGPP_READ(sc, MVSOCGPP_GPIOBE(pin));
1.1  kiyohara 	if (flags & GPIO_PIN_PULSATE)
1.1  kiyohara 		new = old | mask;
1.1  kiyohara 	else
1.1  kiyohara 		new = old & ~mask;
1.1  kiyohara 	if (new != old)
1.1  kiyohara 		MVSOCGPP_WRITE(sc, MVSOCGPP_GPIOBE(pin), new);
1.1  kiyohara
1.1  kiyohara 	old = MVSOCGPP_READ(sc, MVSOCGPP_GPIODIP(pin));
1.1  kiyohara 	if (flags & GPIO_PIN_INVIN)
1.1  kiyohara 		new = old | mask;
1.1  kiyohara 	else
1.1  kiyohara 		new = old & ~mask;
1.1  kiyohara 	if (new != old)
1.1  kiyohara 		MVSOCGPP_WRITE(sc, MVSOCGPP_GPIODIP(pin), new);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara
1.1  kiyohara #ifdef MVSOCGPP_DUMPREG
1.1  kiyohara static void
1.1  kiyohara mvsocgpp_dump_reg(struct mvsocgpp_softc *sc)
1.1  kiyohara {
1.1  kiyohara
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  Data Out:                 \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIODO(0)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  Data Out Enable Control:  \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIODOEC(0)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  Data Blink Enable:        \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIOBE(0)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  Data In Polarity:         \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIODIP(0)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  Data In:                  \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIODI(0)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  Interrupt Cause:          \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIOIC(0)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  Interrupt Mask:           \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIOIM(0)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  Interrupt Level Mask:     \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIOILM(0)));
1.1  kiyohara
1.1  kiyohara 	if (gpp_npins <= 32)
1.1  kiyohara 		return;
1.1  kiyohara
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  High Data Out:            \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIODO(32)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  High Data Out Enable Ctrl:\t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIODOEC(32)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  High Blink Enable:        \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIOBE(32)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  High Data In Polarity:    \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIODIP(32)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  High Data In:             \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIODI(32)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  High Interrupt Cause:     \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIOIC(32)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  High Interrupt Mask:      \t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIOIM(32)));
1.1  kiyohara 	aprint_normal_dev(sc->sc_dev, "  High Interrupt Level Mask:\t0x%08x\n",
1.1  kiyohara 	    MVSOCGPP_READ(sc, MVSOCGPP_GPIOILM(32)));
1.1  kiyohara }
1.1  kiyohara #endif