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|
/* $OpenBSD: pxa2x0_gpio.c,v 1.18 2005/06/16 21:57:29 drahn Exp $ */
/* $NetBSD: pxa2x0_gpio.c,v 1.2 2003/07/15 00:24:55 lukem Exp $ */
/*
* Copyright 2003 Wasabi Systems, Inc.
* All rights reserved.
*
* Written by Steve C. Woodford for Wasabi Systems, Inc.
*
* 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 for the NetBSD Project by
* Wasabi Systems, Inc.
* 4. The name of Wasabi Systems, Inc. may not be used to endorse
* or promote products derived from this software without specific prior
* written permission.
*
* THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``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 WASABI SYSTEMS, INC
* 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.
*/
#include <sys/cdefs.h>
/*
__KERNEL_RCSID(0, "$NetBSD: pxa2x0_gpio.c,v 1.2 2003/07/15 00:24:55 lukem Exp $");
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/device.h>
#include <sys/malloc.h>
#include <sys/evcount.h>
#include <machine/intr.h>
#include <machine/bus.h>
#include <arm/cpufunc.h>
#include <arm/xscale/pxa2x0reg.h>
#include <arm/xscale/pxa2x0var.h>
#include <arm/xscale/pxa2x0_gpio.h>
struct gpio_irq_handler {
struct gpio_irq_handler *gh_next;
int (*gh_func)(void *);
void *gh_arg;
int gh_spl;
u_int gh_gpio;
int gh_level;
int gh_irq;
struct evcount gh_count;
};
struct pxagpio_softc {
struct device sc_dev;
bus_space_tag_t sc_bust;
bus_space_handle_t sc_bush;
void *sc_irqcookie[4];
u_int32_t sc_mask[3];
#ifdef PXAGPIO_HAS_GPION_INTRS
struct gpio_irq_handler *sc_handlers[GPIO_NPINS];
int sc_minipl;
int sc_maxipl;
#else
struct gpio_irq_handler *sc_handlers[2];
#endif
int npins;
int pxa27x_pins;
};
int pxagpio_match(struct device *, void *, void *);
void pxagpio_attach(struct device *, struct device *, void *);
#ifdef __NetBSD__
CFATTACH_DECL(pxagpio, sizeof(struct pxagpio_softc),
pxagpio_match, pxagpio_attach, NULL, NULL);
#else
struct cfattach pxagpio_ca = {
sizeof (struct pxagpio_softc), pxagpio_match, pxagpio_attach
};
struct cfdriver pxagpio_cd = {
NULL, "pxagpio", DV_DULL
};
#endif
static struct pxagpio_softc *pxagpio_softc;
static vaddr_t pxagpio_regs;
#define GPIO_BOOTSTRAP_REG(reg) \
(*((volatile u_int32_t *)(pxagpio_regs + (reg))))
void pxa2x0_gpio_set_intr_level(u_int, int);
int pxagpio_intr0(void *);
int pxagpio_intr1(void *);
#ifdef PXAGPIO_HAS_GPION_INTRS
int pxagpio_dispatch(struct pxagpio_softc *, int);
int pxagpio_intrN(void *);
int pxagpio_intrlow(void *);
void pxa2x0_gpio_intr_fixup(int minipl, int maxipl);
#endif
u_int32_t pxagpio_reg_read(struct pxagpio_softc *sc, int reg);
void pxagpio_reg_write(struct pxagpio_softc *sc, int reg, u_int32_t val);
u_int32_t
pxagpio_reg_read(struct pxagpio_softc *sc, int reg)
{
if (__predict_true(sc != NULL))
return (bus_space_read_4(sc->sc_bust, sc->sc_bush, reg));
else
if (pxagpio_regs)
return (GPIO_BOOTSTRAP_REG(reg));
panic("pxagpio_reg_read: not bootstrapped");
}
void
pxagpio_reg_write(struct pxagpio_softc *sc, int reg, u_int32_t val)
{
if (__predict_true(sc != NULL))
bus_space_write_4(sc->sc_bust, sc->sc_bush, reg, val);
else
if (pxagpio_regs)
GPIO_BOOTSTRAP_REG(reg) = val;
else
panic("pxagpio_reg_write: not bootstrapped");
return;
}
int
pxagpio_match(struct device *parent, void *cf, void *aux)
{
struct pxaip_attach_args *pxa = aux;
if (pxagpio_softc != NULL || pxa->pxa_addr != PXA2X0_GPIO_BASE)
return (0);
pxa->pxa_size = PXA2X0_GPIO_SIZE;
return (1);
}
void
pxagpio_attach(struct device *parent, struct device *self, void *aux)
{
struct pxagpio_softc *sc = (struct pxagpio_softc *)self;
struct pxaip_attach_args *pxa = aux;
sc->sc_bust = pxa->pxa_iot;
printf(": GPIO Controller\n");
if ((cputype & ~CPU_ID_XSCALE_COREREV_MASK) == CPU_ID_PXA27X) {
sc->npins = GPIO_NPINS;
sc->pxa27x_pins = 1;
} else {
sc->npins = GPIO_NPINS_25x;
sc->pxa27x_pins = 0;
}
if (bus_space_map(sc->sc_bust, pxa->pxa_addr, pxa->pxa_size, 0,
&sc->sc_bush)) {
printf("%s: Can't map registers!\n", sc->sc_dev.dv_xname);
return;
}
memset(sc->sc_handlers, 0, sizeof(sc->sc_handlers));
/*
* Disable all GPIO interrupts
*/
pxagpio_reg_write(sc, GPIO_GRER0, 0);
pxagpio_reg_write(sc, GPIO_GRER1, 0);
pxagpio_reg_write(sc, GPIO_GRER2, 0);
pxagpio_reg_write(sc, GPIO_GRER3, 0);
pxagpio_reg_write(sc, GPIO_GFER0, 0);
pxagpio_reg_write(sc, GPIO_GFER1, 0);
pxagpio_reg_write(sc, GPIO_GFER2, 0);
pxagpio_reg_write(sc, GPIO_GFER3, 0);
pxagpio_reg_write(sc, GPIO_GEDR0, ~0);
pxagpio_reg_write(sc, GPIO_GEDR1, ~0);
pxagpio_reg_write(sc, GPIO_GEDR2, ~0);
pxagpio_reg_write(sc, GPIO_GEDR3, ~0);
#ifdef PXAGPIO_HAS_GPION_INTRS
sc->sc_minipl = IPL_NONE;
sc->sc_maxipl = IPL_NONE;
#endif
sc->sc_irqcookie[0] = sc->sc_irqcookie[1] = NULL;
pxagpio_softc = sc;
}
void
pxa2x0_gpio_bootstrap(vaddr_t gpio_regs)
{
pxagpio_regs = gpio_regs;
}
void *
pxa2x0_gpio_intr_establish(u_int gpio, int level, int spl, int (*func)(void *),
void *arg, char *name)
{
struct pxagpio_softc *sc = pxagpio_softc;
struct gpio_irq_handler *gh;
u_int32_t bit;
#ifdef DEBUG
#ifdef PXAGPIO_HAS_GPION_INTRS
if (gpio >= sc->npins)
panic("pxa2x0_gpio_intr_establish: bad pin number: %d", gpio);
#else
if (gpio > 1)
panic("pxa2x0_gpio_intr_establish: bad pin number: %d", gpio);
#endif
#endif
if (GPIO_FN_IS_OUT(pxa2x0_gpio_get_function(gpio)) != GPIO_IN)
panic("pxa2x0_gpio_intr_establish: Pin %d not GPIO_IN", gpio);
MALLOC(gh, struct gpio_irq_handler *, sizeof(struct gpio_irq_handler),
M_DEVBUF, M_NOWAIT);
gh->gh_func = func;
gh->gh_arg = arg;
gh->gh_spl = spl;
gh->gh_gpio = gpio;
gh->gh_irq = gpio+32;
gh->gh_level = level;
evcount_attach(&gh->gh_count, name, (void *)&gh->gh_irq, &evcount_intr);
gh->gh_next = sc->sc_handlers[gpio];
sc->sc_handlers[gpio] = gh;
if (gpio == 0) {
KDASSERT(sc->sc_irqcookie[0] == NULL);
sc->sc_irqcookie[0] = pxa2x0_intr_establish(PXA2X0_INT_GPIO0,
spl, pxagpio_intr0, sc, NULL);
KDASSERT(sc->sc_irqcookie[0]);
} else if (gpio == 1) {
KDASSERT(sc->sc_irqcookie[1] == NULL);
sc->sc_irqcookie[1] = pxa2x0_intr_establish(PXA2X0_INT_GPIO1,
spl, pxagpio_intr1, sc, NULL);
KDASSERT(sc->sc_irqcookie[1]);
} else {
#ifdef PXAGPIO_HAS_GPION_INTRS
int minipl, maxipl;
if (sc->sc_maxipl == IPL_NONE || spl > sc->sc_maxipl) {
maxipl = spl;
} else {
maxipl = sc->sc_maxipl;
}
if (sc->sc_minipl == IPL_NONE || spl < sc->sc_minipl) {
minipl = spl;
} else {
minipl = sc->sc_minipl;
}
pxa2x0_gpio_intr_fixup(minipl, maxipl);
#endif
}
bit = GPIO_BIT(gpio);
sc->sc_mask[GPIO_BANK(gpio)] |= bit;
pxa2x0_gpio_set_intr_level(gpio, gh->gh_level);
return (gh);
}
void
pxa2x0_gpio_intr_disestablish(void *cookie)
{
struct pxagpio_softc *sc = pxagpio_softc;
struct gpio_irq_handler *gh = cookie;
u_int32_t bit, reg;
evcount_detach(&gh->gh_count);
bit = GPIO_BIT(gh->gh_gpio);
reg = pxagpio_reg_read(sc, GPIO_REG(GPIO_GFER0, gh->gh_gpio));
reg &= ~bit;
pxagpio_reg_write(sc, GPIO_REG(GPIO_GFER0, gh->gh_gpio), reg);
reg = pxagpio_reg_read(sc, GPIO_REG(GPIO_GRER0, gh->gh_gpio));
reg &= ~bit;
pxagpio_reg_write(sc, GPIO_REG(GPIO_GRER0, gh->gh_gpio), reg);
pxagpio_reg_write(sc, GPIO_REG(GPIO_GEDR0, gh->gh_gpio), bit);
sc->sc_mask[GPIO_BANK(gh->gh_gpio)] &= ~bit;
sc->sc_handlers[gh->gh_gpio] = NULL;
if (gh->gh_gpio == 0) {
pxa2x0_intr_disestablish(sc->sc_irqcookie[0]);
sc->sc_irqcookie[0] = NULL;
} else if (gh->gh_gpio == 1) {
pxa2x0_intr_disestablish(sc->sc_irqcookie[1]);
sc->sc_irqcookie[1] = NULL;
} else {
#ifdef PXAGPIO_HAS_GPION_INTRS
int i, minipl, maxipl, ipl;
minipl = IPL_HIGH;
maxipl = IPL_NONE;
for (i = 2; i < sc->npins; i++) {
if (sc->sc_handlers[i] != NULL) {
ipl = sc->sc_handlers[i]->gh_spl;
if (minipl > ipl)
minipl = ipl;
if (maxipl < ipl)
maxipl = ipl;
}
}
pxa2x0_gpio_intr_fixup(minipl, maxipl);
#endif /* PXAGPIO_HAS_GPION_INTRS */
}
FREE(gh, M_DEVBUF);
}
#ifdef PXAGPIO_HAS_GPION_INTRS
void
pxa2x0_gpio_intr_fixup(int minipl, int maxipl)
{
struct pxagpio_softc *sc = pxagpio_softc;
int save = disable_interrupts(I32_bit);
if (maxipl == IPL_NONE && minipl == IPL_HIGH) {
/* no remaining interrupts */
if (sc->sc_irqcookie[2])
pxa2x0_intr_disestablish(sc->sc_irqcookie[2]);
sc->sc_irqcookie[2] = NULL;
if (sc->sc_irqcookie[3])
pxa2x0_intr_disestablish(sc->sc_irqcookie[3]);
sc->sc_irqcookie[3] = NULL;
sc->sc_minipl = IPL_NONE;
sc->sc_maxipl = IPL_NONE;
restore_interrupts(save);
return;
}
if (sc->sc_maxipl == IPL_NONE || maxipl > sc->sc_maxipl) {
if (sc->sc_irqcookie[2])
pxa2x0_intr_disestablish(sc->sc_irqcookie[2]);
sc->sc_maxipl = maxipl;
sc->sc_irqcookie[2] =
pxa2x0_intr_establish(PXA2X0_INT_GPION,
maxipl, pxagpio_intrN, sc, NULL);
if (sc->sc_irqcookie[2] == NULL) {
printf("%s: failed to hook main "
"GPIO interrupt\n",
sc->sc_dev.dv_xname);
/* XXX - panic? */
}
}
if (sc->sc_minipl == IPL_NONE || minipl < sc->sc_minipl) {
if (sc->sc_irqcookie[3])
pxa2x0_intr_disestablish(sc->sc_irqcookie[3]);
sc->sc_minipl = minipl;
sc->sc_irqcookie[3] =
pxa2x0_intr_establish(PXA2X0_INT_GPION,
sc->sc_minipl, pxagpio_intrlow, sc, NULL);
if (sc->sc_irqcookie[3] == NULL) {
printf("%s: failed to hook main "
"GPIO interrupt\n",
sc->sc_dev.dv_xname);
/* XXX - panic? */
}
}
restore_interrupts(save);
}
#endif /* PXAGPIO_HAS_GPION_INTRS */
const char *
pxa2x0_gpio_intr_string(void *cookie)
{
static char irqstr[32];
struct gpio_irq_handler *gh = cookie;
if (gh == NULL)
snprintf(irqstr, sizeof irqstr, "couldn't establish interrupt");
else
snprintf(irqstr, sizeof irqstr, "irq %ld", gh->gh_irq);
return(irqstr);
}
int
pxagpio_intr0(void *arg)
{
struct pxagpio_softc *sc = arg;
int ret;
#ifdef DIAGNOSTIC
if (sc->sc_handlers[0] == NULL) {
printf("%s: stray GPIO#0 edge interrupt\n",
sc->sc_dev.dv_xname);
return (0);
}
#endif
bus_space_write_4(sc->sc_bust, sc->sc_bush, GPIO_REG(GPIO_GEDR0, 0),
GPIO_BIT(0));
ret = (sc->sc_handlers[0]->gh_func)(sc->sc_handlers[0]->gh_arg);
if (ret != 0)
sc->sc_handlers[0]->gh_count.ec_count++;
return ret;
}
int
pxagpio_intr1(void *arg)
{
struct pxagpio_softc *sc = arg;
int ret;
#ifdef DIAGNOSTIC
if (sc->sc_handlers[1] == NULL) {
printf("%s: stray GPIO#1 edge interrupt\n",
sc->sc_dev.dv_xname);
return (0);
}
#endif
bus_space_write_4(sc->sc_bust, sc->sc_bush, GPIO_REG(GPIO_GEDR0, 1),
GPIO_BIT(1));
ret = (sc->sc_handlers[1]->gh_func)(sc->sc_handlers[1]->gh_arg);
if (ret != 0)
sc->sc_handlers[1]->gh_count.ec_count++;
return ret;
}
#ifdef PXAGPIO_HAS_GPION_INTRS
int
pxagpio_dispatch(struct pxagpio_softc *sc, int gpio_base)
{
struct gpio_irq_handler **ghp, *gh;
int i, s, nhandled, handled, pins;
u_int32_t gedr, mask;
int bank;
/* Fetch bitmap of pending interrupts on this GPIO bank */
gedr = pxagpio_reg_read(sc, GPIO_REG(GPIO_GEDR0, gpio_base));
/* Don't handle GPIO 0/1 here */
if (gpio_base == 0)
gedr &= ~(GPIO_BIT(0) | GPIO_BIT(1));
/* Bail early if there are no pending interrupts in this bank */
if (gedr == 0)
return (0);
/* Acknowledge pending interrupts. */
pxagpio_reg_write(sc, GPIO_REG(GPIO_GEDR0, gpio_base), gedr);
bank = GPIO_BANK(gpio_base);
/*
* We're only interested in those for which we have a handler
* registered
*/
#ifdef DEBUG
if ((gedr & sc->sc_mask[bank]) == 0) {
printf("%s: stray GPIO interrupt. Bank %d, GEDR 0x%08x, mask 0x%08x\n",
sc->sc_dev.dv_xname, bank, gedr, sc->sc_mask[bank]);
return (1); /* XXX: Pretend we dealt with it */
}
#endif
gedr &= sc->sc_mask[bank];
ghp = &sc->sc_handlers[gpio_base];
if (sc->pxa27x_pins == 1)
pins = (gpio_base < 96) ? 32 : 25;
else
pins = (gpio_base < 64) ? 32 : 17;
handled = 0;
for (i = 0, mask = 1; i < pins && gedr; i++, ghp++, mask <<= 1) {
if ((gedr & mask) == 0)
continue;
gedr &= ~mask;
if ((gh = *ghp) == NULL) {
printf("%s: unhandled GPIO interrupt. GPIO#%d\n",
sc->sc_dev.dv_xname, gpio_base + i);
continue;
}
s = _splraise(gh->gh_spl);
do {
nhandled = (gh->gh_func)(gh->gh_arg);
if (nhandled != 0)
gh->gh_count.ec_count++;
handled |= nhandled;
gh = gh->gh_next;
} while (gh != NULL);
splx(s);
}
return (handled);
}
int
pxagpio_intrN(void *arg)
{
struct pxagpio_softc *sc = arg;
int handled;
handled = pxagpio_dispatch(sc, 0);
handled |= pxagpio_dispatch(sc, 32);
handled |= pxagpio_dispatch(sc, 64);
handled |= pxagpio_dispatch(sc, 96);
return (handled);
}
int
pxagpio_intrlow(void *arg)
{
/* dummy */
return 0;
}
#endif /* PXAGPIO_HAS_GPION_INTRS */
u_int
pxa2x0_gpio_get_function(u_int gpio)
{
struct pxagpio_softc *sc = pxagpio_softc;
u_int32_t rv, io;
if (__predict_true(sc != NULL))
KDASSERT(gpio < sc->npins);
rv = pxagpio_reg_read(sc, GPIO_FN_REG(gpio)) >> GPIO_FN_SHIFT(gpio);
rv = GPIO_FN(rv);
io = pxagpio_reg_read(sc, GPIO_REG(GPIO_GPDR0, gpio));
if (io & GPIO_BIT(gpio))
rv |= GPIO_OUT;
io = pxagpio_reg_read(sc, GPIO_REG(GPIO_GPLR0, gpio));
if (io & GPIO_BIT(gpio))
rv |= GPIO_SET;
return (rv);
}
u_int
pxa2x0_gpio_set_function(u_int gpio, u_int fn)
{
struct pxagpio_softc *sc = pxagpio_softc;
u_int32_t rv, bit;
u_int oldfn;
if (__predict_true(sc != NULL))
KDASSERT(gpio < sc->npins);
oldfn = pxa2x0_gpio_get_function(gpio);
if (GPIO_FN(fn) == GPIO_FN(oldfn) &&
GPIO_FN_IS_OUT(fn) == GPIO_FN_IS_OUT(oldfn)) {
/*
* The pin's function is not changing.
* For Alternate Functions and GPIO input, we can just
* return now.
* For GPIO output pins, check the initial state is
* the same.
*
* Return 'fn' instead of 'oldfn' so the caller can
* reliably detect that we didn't change anything.
* (The initial state might be different for non-
* GPIO output pins).
*/
if (!GPIO_IS_GPIO_OUT(fn) ||
GPIO_FN_IS_SET(fn) == GPIO_FN_IS_SET(oldfn))
return (fn);
}
/*
* See section 4.1.3.7 of the PXA2x0 Developer's Manual for
* the correct procedure for changing GPIO pin functions.
*/
bit = GPIO_BIT(gpio);
/*
* 1. Configure the correct set/clear state of the pin
*/
if (GPIO_FN_IS_SET(fn))
pxagpio_reg_write(sc, GPIO_REG(GPIO_GPSR0, gpio), bit);
else
pxagpio_reg_write(sc, GPIO_REG(GPIO_GPCR0, gpio), bit);
/*
* 2. Configure the pin as an input or output as appropriate
*/
rv = pxagpio_reg_read(sc, GPIO_REG(GPIO_GPDR0, gpio)) & ~bit;
if (GPIO_FN_IS_OUT(fn))
rv |= bit;
pxagpio_reg_write(sc, GPIO_REG(GPIO_GPDR0, gpio), rv);
/*
* 3. Configure the pin's function
*/
bit = GPIO_FN_MASK << GPIO_FN_SHIFT(gpio);
fn = GPIO_FN(fn) << GPIO_FN_SHIFT(gpio);
rv = pxagpio_reg_read(sc, GPIO_FN_REG(gpio)) & ~bit;
pxagpio_reg_write(sc, GPIO_FN_REG(gpio), rv | fn);
return (oldfn);
}
/*
* Quick function to read pin value
*/
int
pxa2x0_gpio_get_bit(u_int gpio)
{
struct pxagpio_softc *sc = pxagpio_softc;
int bit;
bit = GPIO_BIT(gpio);
if (pxagpio_reg_read(sc, GPIO_REG(GPIO_GPLR0, gpio)) & bit)
return 1;
else
return 0;
}
/*
* Quick function to set pin to 1
*/
void
pxa2x0_gpio_set_bit(u_int gpio)
{
struct pxagpio_softc *sc = pxagpio_softc;
int bit;
bit = GPIO_BIT(gpio);
pxagpio_reg_write(sc, GPIO_REG(GPIO_GPSR0, gpio), bit);
}
/*
* Quick function to set pin to 0
*/
void
pxa2x0_gpio_clear_bit(u_int gpio)
{
struct pxagpio_softc *sc = pxagpio_softc;
int bit;
bit = GPIO_BIT(gpio);
pxagpio_reg_write(sc, GPIO_REG(GPIO_GPCR0, gpio), bit);
}
/*
* Quick function to change pin direction
*/
void
pxa2x0_gpio_set_dir(u_int gpio, int dir)
{
struct pxagpio_softc *sc = pxagpio_softc;
int bit;
u_int32_t reg;
bit = GPIO_BIT(gpio);
reg = pxagpio_reg_read(sc, GPIO_REG(GPIO_GPDR0, gpio)) & ~bit;
if (GPIO_FN_IS_OUT(dir))
reg |= bit;
pxagpio_reg_write(sc, GPIO_REG(GPIO_GPDR0, gpio), reg);
}
/*
* Quick function to clear interrupt status on a pin
* GPIO pins may be toggle in an interrupt and we dont want
* extra spurious interrupts to occur.
* Suppose this causes a slight race if a key is pressed while
* the interrupt handler is running. (yes this is for the keyboard driver)
*/
void
pxa2x0_gpio_clear_intr(u_int gpio)
{
struct pxagpio_softc *sc = pxagpio_softc;
int bit;
bit = GPIO_BIT(gpio);
pxagpio_reg_write(sc, GPIO_REG(GPIO_GEDR0, gpio), bit);
}
/*
* Quick function to mask (disable) a GPIO interrupt
*/
void
pxa2x0_gpio_intr_mask(void *v)
{
struct gpio_irq_handler *gh = v;
pxa2x0_gpio_set_intr_level(gh->gh_gpio, IPL_NONE);
}
/*
* Quick function to unmask (enable) a GPIO interrupt
*/
void
pxa2x0_gpio_intr_unmask(void *v)
{
struct gpio_irq_handler *gh = v;
pxa2x0_gpio_set_intr_level(gh->gh_gpio, gh->gh_level);
}
/*
* Configure the edge sensitivity of interrupt pins
*/
void
pxa2x0_gpio_set_intr_level(u_int gpio, int level)
{
struct pxagpio_softc *sc = pxagpio_softc;
u_int32_t bit;
u_int32_t gfer;
u_int32_t grer;
int s;
s = splhigh();
bit = GPIO_BIT(gpio);
gfer = pxagpio_reg_read(sc, GPIO_REG(GPIO_GFER0, gpio));
grer = pxagpio_reg_read(sc, GPIO_REG(GPIO_GRER0, gpio));
switch (level) {
case IST_NONE:
gfer &= ~bit;
grer &= ~bit;
break;
case IST_EDGE_FALLING:
gfer |= bit;
grer &= ~bit;
break;
case IST_EDGE_RISING:
gfer &= ~bit;
grer |= bit;
break;
case IST_EDGE_BOTH:
gfer |= bit;
grer |= bit;
break;
default:
panic("pxa2x0_gpio_set_intr_level: bad level: %d", level);
break;
}
pxagpio_reg_write(sc, GPIO_REG(GPIO_GFER0, gpio), gfer);
pxagpio_reg_write(sc, GPIO_REG(GPIO_GRER0, gpio), grer);
splx(s);
}
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