hpcmips/vr/vrgiu.c

1.4  takemura /*	$NetBSD: vrgiu.c,v 1.4 1999/12/23 06:26:10 takemura Exp $	*/
1.1  takemura
1.1  takemura /*-
1.1  takemura  * Copyright (c) 1999
1.1  takemura  *         Shin Takemura and PocketBSD Project. All rights reserved.
1.1  takemura  *
1.1  takemura  * Redistribution and use in source and binary forms, with or without
1.1  takemura  * modification, are permitted provided that the following conditions
1.1  takemura  * are met:
1.1  takemura  * 1. Redistributions of source code must retain the above copyright
1.1  takemura  *    notice, this list of conditions and the following disclaimer.
1.1  takemura  * 2. Redistributions in binary form must reproduce the above copyright
1.1  takemura  *    notice, this list of conditions and the following disclaimer in the
1.1  takemura  *    documentation and/or other materials provided with the distribution.
1.1  takemura  * 3. All advertising materials mentioning features or use of this software
1.1  takemura  *    must display the following acknowledgement:
1.1  takemura  *	This product includes software developed by the PocketBSD project
1.1  takemura  *	and its contributors.
1.1  takemura  * 4. Neither the name of the project nor the names of its contributors
1.1  takemura  *    may be used to endorse or promote products derived from this software
1.1  takemura  *    without specific prior written permission.
1.1  takemura  *
1.1  takemura  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.1  takemura  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1  takemura  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1  takemura  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.1  takemura  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  takemura  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1  takemura  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  takemura  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  takemura  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  takemura  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  takemura  * SUCH DAMAGE.
1.1  takemura  *
1.1  takemura  */
1.1  takemura
1.1  takemura #include <sys/param.h>
1.1  takemura #include <sys/systm.h>
1.1  takemura #include <sys/device.h>
1.1  takemura #include <sys/malloc.h>
1.1  takemura #include <sys/queue.h>
1.1  takemura #define TAILQ_FOREACH(var, head, field)					\
1.1  takemura 	for (var = TAILQ_FIRST(head); var; var = TAILQ_NEXT(var, field))
1.1  takemura #define	TAILQ_EMPTY(head) ((head)->tqh_first == NULL)
1.1  takemura
1.1  takemura #include <mips/cpuregs.h>
1.1  takemura #include <machine/bus.h>
1.1  takemura
1.1  takemura #include <hpcmips/vr/vripreg.h>
1.1  takemura #include <hpcmips/vr/vripvar.h>
1.1  takemura #include <hpcmips/vr/vrgiureg.h>
1.1  takemura
1.1  takemura #include "locators.h"
1.1  takemura
1.3  takemura #define VRGIUDEBUG
1.1  takemura #ifdef VRGIUDEBUG
1.3  takemura #define DEBUG_IO	1
1.3  takemura #define DEBUG_INTR	2
1.1  takemura int	vrgiu_debug = 1;
1.3  takemura #define	DPRINTF(flag, arg) if (vrgiu_debug & flag) printf arg;
1.1  takemura #else
1.3  takemura #define	DPRINTF(flag, arg)
1.1  takemura #endif
1.1  takemura
1.1  takemura #define	LEGAL_INTR_PORT(x)	((x) >= 0 && (x) < MAX_GPIO_INOUT)
1.1  takemura #define	LEGAL_OUT_PORT(x)	((x) >= 0 && (x) < MAX_GPIO_OUT)
1.1  takemura
1.1  takemura int vrgiu_match __P((struct device*, struct cfdata*, void*));
1.1  takemura void vrgiu_attach __P((struct device*, struct device*, void*));
1.1  takemura int vrgiu_intr __P((void*));
1.1  takemura int vrgiu_print __P((void*, const char*));
1.1  takemura void vrgiu_callback __P((struct device*));
1.1  takemura
1.1  takemura void	vrgiu_dump_regs(struct vrgiu_softc *sc);
1.3  takemura void	vrgiu_dump_iosetting(struct vrgiu_softc *sc);
1.1  takemura u_int32_t vrgiu_regread_4 __P((vrgiu_chipset_tag_t, bus_addr_t));
1.3  takemura u_int16_t vrgiu_regread __P((vrgiu_chipset_tag_t, bus_addr_t));
1.1  takemura void	vrgiu_regwrite_4 __P((vrgiu_chipset_tag_t, bus_addr_t, u_int32_t));
1.3  takemura void	vrgiu_regwrite __P((vrgiu_chipset_tag_t, bus_addr_t, u_int16_t));
1.1  takemura
1.4  takemura int vrgiu_port_read __P((vrgiu_chipset_tag_t, int));
1.4  takemura int vrgiu_port_write __P((vrgiu_chipset_tag_t, int, int));
1.1  takemura
1.1  takemura void *vrgiu_intr_establish __P((vrgiu_chipset_tag_t, int, int, int, int (*)(void *), void*));
1.1  takemura void vrgiu_intr_disestablish __P((vrgiu_chipset_tag_t, void*));
1.1  takemura
1.1  takemura struct vrgiu_function_tag vrgiu_functions = {
1.1  takemura 	vrgiu_port_read,
1.1  takemura 	vrgiu_port_write,
1.1  takemura 	vrgiu_regread_4,
1.1  takemura 	vrgiu_regwrite_4,
1.1  takemura 	vrgiu_intr_establish,
1.1  takemura 	vrgiu_intr_disestablish
1.1  takemura };
1.1  takemura
1.1  takemura struct cfattach vrgiu_ca = {
1.1  takemura 	sizeof(struct vrgiu_softc), vrgiu_match, vrgiu_attach
1.1  takemura };
1.1  takemura
1.1  takemura int
1.1  takemura vrgiu_match(parent, cf, aux)
1.1  takemura 	struct device *parent;
1.1  takemura 	struct cfdata *cf;
1.1  takemura 	void *aux;
1.1  takemura {
1.1  takemura 	return 2; /* 1st attach group of vrip */
1.1  takemura }
1.1  takemura
1.1  takemura void
1.1  takemura vrgiu_attach(parent, self, aux)
1.1  takemura 	struct device *parent;
1.1  takemura 	struct device *self;
1.1  takemura 	void *aux;
1.1  takemura {
1.1  takemura 	struct vrip_attach_args *va = aux;
1.1  takemura 	struct vrgiu_softc *sc = (void*)self;
1.1  takemura 	struct gpbus_attach_args gpa;
1.1  takemura 	int i;
1.1  takemura
1.1  takemura 	sc->sc_vc = va->va_vc;
1.1  takemura 	sc->sc_iot = va->va_iot;
1.1  takemura 	bus_space_map(sc->sc_iot, va->va_addr, va->va_size,
1.1  takemura 		      0 /* no cache */, &sc->sc_ioh);
1.1  takemura 	/*
1.1  takemura 	 *  Disable all interrupts.
1.1  takemura 	 */
1.1  takemura 	sc->sc_intr_mask = 0;
1.1  takemura #ifdef WINCE_DEFAULT_SETTING
1.1  takemura #warning WINCE_DEFAULT_SETTING
1.1  takemura #else
1.3  takemura #ifdef VRGIUDEBUG
1.3  takemura 	if (vrgiu_debug & DEBUG_IO) {
1.3  takemura 		printf("\nWIN setting:                                ");
1.3  takemura 		vrgiu_dump_iosetting(sc);
1.3  takemura 		printf("\n");
1.3  takemura 	}
1.3  takemura #endif /* VRGIUDEBUG */
1.1  takemura 	vrgiu_regwrite_4(sc, GIUINTEN_REG, sc->sc_intr_mask);
1.1  takemura #endif
1.1  takemura
1.1  takemura 	for (i = 0; i < MAX_GPIO_INOUT; i++)
1.1  takemura 		TAILQ_INIT(&sc->sc_intr_head[i]);
1.1  takemura 	if (!(sc->sc_ih = vrip_intr_establish(va->va_vc, va->va_intr, IPL_BIO,
1.1  takemura 					      vrgiu_intr, sc))) {
1.1  takemura 		printf("%s: can't establish interrupt\n", sc->sc_dev.dv_xname);
1.1  takemura 		return;
1.1  takemura 	}
1.1  takemura 	vrgiu_functions.gf_intr_establish = vrgiu_intr_establish;
1.1  takemura 	vrgiu_functions.gf_intr_disestablish = vrgiu_intr_disestablish;
1.1  takemura 	/*
1.1  takemura 	 * Register functions to upper interface.
1.1  takemura 	 */
1.1  takemura 	vrip_giu_function_register(va->va_vc, &vrgiu_functions, self);
1.3  takemura #ifdef VRGIUDEBUG
1.1  takemura 	/* Display port status (Input/Output) for debugging */
1.3  takemura 	if (vrgiu_debug & DEBUG_IO) {
1.4  takemura u_int32_t preg[2];
1.3  takemura 		printf("I/O setting:                                ");
1.3  takemura 		vrgiu_dump_iosetting(sc);
1.3  takemura 		printf("\n");
1.4  takemura
1.3  takemura 		printf("       data:");
1.1  takemura 		bitdisp64(preg);
1.1  takemura 	}
1.3  takemura #endif /* VRGIUDEBUG */
1.1  takemura 	/*
1.1  takemura 	 *  General purpose bus
1.1  takemura 	 */
1.1  takemura 	gpa.gpa_busname = "gpbus";
1.1  takemura 	gpa.gpa_gc = sc;
1.1  takemura 	gpa.gpa_gf = &vrgiu_functions;
1.4  takemura 	while (config_found(self, &gpa, vrgiu_print)) ;
1.1  takemura 	/*
1.1  takemura 	 * GIU-ISA bridge
1.1  takemura 	 */
1.1  takemura #if 1 /* XXX Sometimes mounting root device failed. Why? XXX*/
1.1  takemura 	config_defer(self, vrgiu_callback);
1.1  takemura #else
1.1  takemura 	vrgiu_callback(self);
1.1  takemura #endif
1.1  takemura }
1.1  takemura
1.1  takemura void
1.1  takemura vrgiu_callback(self)
1.1  takemura 	struct device *self;
1.1  takemura {
1.1  takemura 	struct vrgiu_softc *sc = (void*)self;
1.1  takemura 	struct gpbus_attach_args gpa;
1.1  takemura
1.1  takemura 	gpa.gpa_busname = "vrisab";
1.1  takemura 	gpa.gpa_gc = sc;
1.1  takemura 	gpa.gpa_gf = &vrgiu_functions;
1.1  takemura 	config_found(self, &gpa, vrgiu_print);
1.1  takemura }
1.1  takemura
1.1  takemura int
1.1  takemura vrgiu_print(aux, pnp)
1.1  takemura 	void *aux;
1.1  takemura 	const char *pnp;
1.1  takemura {
1.1  takemura 	if (pnp)
1.1  takemura 		return (QUIET);
1.1  takemura 	return (UNCONF);
1.1  takemura }
1.1  takemura
1.1  takemura void
1.3  takemura vrgiu_dump_iosetting(sc)
1.3  takemura 	struct vrgiu_softc *sc;
1.3  takemura {
1.3  takemura 	long iosel, inten, useupdn, termupdn;
1.3  takemura 	u_int32_t m;
1.3  takemura 	iosel= vrgiu_regread_4(sc, GIUIOSEL_REG);
1.3  takemura 	inten= vrgiu_regread_4(sc, GIUINTEN_REG);
1.3  takemura 	useupdn = vrgiu_regread(sc, GIUUSEUPDN_REG_W);
1.3  takemura 	termupdn = vrgiu_regread(sc, GIUTERMUPDN_REG_W);
1.3  takemura 	for (m = 0x80000000; m; m >>=1)
1.3  takemura 		printf ("%c" , (useupdn&m) ?
1.3  takemura 			((termupdn&m) ? 'U' : 'D') :
1.3  takemura 			((iosel&m) ? 'o' : ((inten&m)?'I':'i')));
1.3  takemura }
1.3  takemura
1.3  takemura void
1.1  takemura vrgiu_dump_regs(sc)
1.1  takemura 	struct vrgiu_softc *sc;
1.1  takemura {
1.1  takemura 	if (sc == NULL) {
1.1  takemura 		panic("%s(%d): VRGIU device not initialized\n",
1.1  takemura 		      __FILE__, __LINE__);
1.1  takemura 	}
1.1  takemura 	printf("    IOSEL: %08x\n", vrgiu_regread_4(sc, GIUIOSEL_REG));
1.1  takemura 	printf("     PIOD: %08x\n", vrgiu_regread_4(sc, GIUPIOD_REG));
1.1  takemura 	printf("    PODAT: %08x\n", vrgiu_regread_4(sc, GIUPODAT_REG));
1.1  takemura 	printf("  INTSTAT: %08x\n", vrgiu_regread_4(sc, GIUINTSTAT_REG));
1.1  takemura 	printf("    INTEN: %08x\n", vrgiu_regread_4(sc, GIUINTEN_REG));
1.1  takemura 	printf("   INTTYP: %08x\n", vrgiu_regread_4(sc, GIUINTTYP_REG));
1.1  takemura 	printf(" INTALSEL: %08x\n", vrgiu_regread_4(sc, GIUINTALSEL_REG));
1.1  takemura 	printf(" INTHTSEL: %08x\n", vrgiu_regread_4(sc, GIUINTHTSEL_REG));
1.1  takemura }
1.1  takemura /*
1.1  takemura  * GIU regster access method.
1.1  takemura  */
1.1  takemura u_int32_t
1.1  takemura vrgiu_regread_4(vc, offs)
1.1  takemura 	vrgiu_chipset_tag_t vc;
1.1  takemura 	bus_addr_t offs;
1.1  takemura {
1.1  takemura 	struct vrgiu_softc *sc = (void*)vc;
1.1  takemura 	u_int16_t reg[2];
1.1  takemura 	bus_space_read_region_2 (sc->sc_iot, sc->sc_ioh, offs, reg, 2);
1.1  takemura 	return reg[0]|(reg[1]<<16);
1.1  takemura }
1.1  takemura
1.3  takemura u_int16_t
1.3  takemura vrgiu_regread(vc, off)
1.3  takemura 	vrgiu_chipset_tag_t vc;
1.3  takemura 	bus_addr_t off;
1.3  takemura {
1.3  takemura 	struct vrgiu_softc *sc = (void*)vc;
1.3  takemura 	return bus_space_read_2(sc->sc_iot, sc->sc_ioh, off);
1.3  takemura }
1.3  takemura
1.1  takemura void
1.1  takemura vrgiu_regwrite_4(vc, offs, data)
1.1  takemura 	vrgiu_chipset_tag_t vc;
1.1  takemura 	bus_addr_t offs;
1.1  takemura 	u_int32_t data;
1.1  takemura {
1.1  takemura 	struct vrgiu_softc *sc = (void*)vc;
1.1  takemura
1.1  takemura 	u_int16_t reg[2];
1.1  takemura 	reg[0] = data & 0xffff;
1.1  takemura 	reg[1] = (data>>16)&0xffff;
1.1  takemura 	bus_space_write_region_2 (sc->sc_iot, sc->sc_ioh, offs, reg, 2);
1.1  takemura }
1.3  takemura
1.3  takemura void
1.3  takemura vrgiu_regwrite(vc, off, data)
1.3  takemura 	vrgiu_chipset_tag_t vc;
1.3  takemura 	bus_addr_t off;
1.3  takemura 	u_int16_t data;
1.3  takemura {
1.3  takemura 	struct vrgiu_softc *sc = (void*)vc;
1.3  takemura 	bus_space_write_2(sc->sc_iot, sc->sc_ioh, off, data);
1.3  takemura }
1.4  takemura
1.1  takemura /*
1.1  takemura  * PORT
1.1  takemura  */
1.1  takemura int
1.4  takemura vrgiu_port_read(vc, port)
1.1  takemura 	vrgiu_chipset_tag_t vc;
1.4  takemura 	int port;
1.1  takemura {
1.4  takemura 	struct vrgiu_softc *sc = (void*)vc;
1.4  takemura 	int on;
1.4  takemura
1.4  takemura 	if (!LEGAL_OUT_PORT(port))
1.4  takemura 		panic("vrgiu_port_read: illegal gpio port");
1.4  takemura
1.4  takemura 	if (port < 32)
1.4  takemura 		on = (vrgiu_regread_4(vc, GIUPIOD_REG) & (1 << port));
1.4  takemura 	else
1.4  takemura 		on = (vrgiu_regread_4(vc, GIUPODAT_REG) & (1 << (port - 32)));
1.4  takemura
1.4  takemura 	return (on ? 1 : 0);
1.1  takemura }
1.1  takemura
1.1  takemura int
1.4  takemura vrgiu_port_write(vc, port, onoff)
1.1  takemura 	vrgiu_chipset_tag_t vc;
1.4  takemura 	int port;
1.1  takemura 	int onoff;
1.1  takemura {
1.4  takemura 	u_int32_t reg[2];
1.4  takemura 	int bank;
1.1  takemura
1.1  takemura 	if (!LEGAL_OUT_PORT(port))
1.1  takemura 		panic("vrgiu_port_write: illegal gpio port");
1.1  takemura
1.4  takemura 	reg[0] = vrgiu_regread_4(vc, GIUPIOD_REG);
1.4  takemura 	reg[1] = vrgiu_regread_4(vc, GIUPODAT_REG);
1.1  takemura 	bank = port < 32 ? 0 : 1;
1.1  takemura 	if (bank == 1)
1.1  takemura 		port -= 32;
1.1  takemura
1.1  takemura 	if (onoff)
1.1  takemura 		reg[bank] |= (1<<port);
1.1  takemura 	else
1.1  takemura 		reg[bank] &= ~(1<<port);
1.1  takemura 	vrgiu_regwrite_4(vc, GIUPIOD_REG, reg[0]);
1.1  takemura 	vrgiu_regwrite_4(vc, GIUPODAT_REG, reg[1]);
1.1  takemura
1.1  takemura 	return 0;
1.1  takemura }
1.1  takemura /*
1.1  takemura  *  For before autoconfiguration.
1.1  takemura  */
1.1  takemura void
1.1  takemura __vrgiu_out(port, data)
1.1  takemura 	int port;
1.1  takemura 	int data;
1.1  takemura {
1.1  takemura 	u_int16_t reg;
1.1  takemura 	u_int32_t addr;
1.1  takemura 	int offs;
1.1  takemura
1.1  takemura 	if (!LEGAL_OUT_PORT(port))
1.1  takemura 		panic("__vrgiu_out: illegal gpio port");
1.1  takemura 	if (port < 16) {
1.1  takemura 		addr = MIPS_PHYS_TO_KSEG1((VRIP_GIU_ADDR + GIUPIOD_L_REG_W));
1.1  takemura 		offs = port;
1.1  takemura 	} else if (port < 32) {
1.1  takemura 		addr = MIPS_PHYS_TO_KSEG1((VRIP_GIU_ADDR + GIUPIOD_H_REG_W));
1.1  takemura 		offs = port - 16;
1.1  takemura 	} else if (port < 48) {
1.1  takemura 		addr = MIPS_PHYS_TO_KSEG1((VRIP_GIU_ADDR + GIUPODAT_L_REG_W));
1.1  takemura 		offs = port - 32;
1.1  takemura 	} else {
1.1  takemura 		addr = MIPS_PHYS_TO_KSEG1((VRIP_GIU_ADDR + GIUPODAT_H_REG_W));
1.1  takemura 		offs = port - 48;
1.1  takemura 		panic ("__vrgiu_out: not coded yet.");
1.1  takemura 	}
1.1  takemura 	printf ("__vrgiu_out: addr %08x bit %d\n", addr, offs);
1.1  takemura
1.1  takemura 	wbflush();
1.1  takemura 	reg = *((volatile u_int16_t*)addr);
1.1  takemura 	if (data) {
1.1  takemura 		reg |= (1 << offs);
1.1  takemura 	} else {
1.1  takemura 		reg &= ~(1 << offs);
1.1  takemura 	}
1.1  takemura 	*((volatile u_int16_t*)addr) = reg;
1.1  takemura 	wbflush();
1.1  takemura }
1.1  takemura /*
1.1  takemura  * Interrupt staff
1.1  takemura  */
1.1  takemura void *
1.1  takemura vrgiu_intr_establish(ic, port, mode, level, ih_fun, ih_arg)
1.1  takemura 	vrgiu_chipset_tag_t ic;
1.1  takemura 	int port; /* GPIO pin # */
1.1  takemura 	int mode; /* GIU trigger setting */
1.1  takemura 	int level;  /* XXX not yet */
1.1  takemura 	int (*ih_fun) __P((void*));
1.1  takemura 	void *ih_arg;
1.1  takemura {
1.1  takemura 	struct vrgiu_softc *sc = (void*)ic;
1.1  takemura 	int s;
1.1  takemura 	u_int32_t reg, mask;
1.1  takemura 	struct vrgiu_intr_entry *ih;
1.1  takemura
1.1  takemura 	if (!LEGAL_INTR_PORT(port))
1.1  takemura 		panic ("vrgiu_intr_establish: bogus interrupt line.");
1.1  takemura 	if (sc->sc_intr_mode[port] && mode != sc->sc_intr_mode[port])
1.1  takemura 		panic ("vrgiu_intr_establish: bogus interrupt type.");
1.1  takemura 	else
1.1  takemura 		sc->sc_intr_mode[port] = mode;
1.1  takemura 	mask = (1 << port);
1.1  takemura
1.1  takemura 	s = splhigh();
1.1  takemura
1.1  takemura 	if (!(ih = malloc(sizeof(struct vrgiu_intr_entry), M_DEVBUF, M_NOWAIT)))
1.1  takemura 		panic ("vrgiu_intr_establish: no memory.");
1.1  takemura
1.1  takemura 	ih->ih_port = port;
1.1  takemura 	ih->ih_fun = ih_fun;
1.1  takemura 	ih->ih_arg = ih_arg;
1.1  takemura 	TAILQ_INSERT_TAIL(&sc->sc_intr_head[port], ih, ih_link);
1.1  takemura #ifdef WINCE_DEFAULT_SETTING
1.1  takemura #warning WINCE_DEFAULT_SETTING
1.1  takemura #else
1.1  takemura 	/*
1.1  takemura 	 *  Setup registers
1.1  takemura 	 */
1.1  takemura 	/* Input mode */
1.1  takemura 	reg = vrgiu_regread_4(sc, GIUIOSEL_REG);
1.1  takemura 	reg &= ~mask;
1.1  takemura 	vrgiu_regwrite_4(sc, GIUIOSEL_REG, reg);
1.1  takemura
1.1  takemura 	/* interrupt type */
1.1  takemura 	reg = vrgiu_regread_4(sc, GIUINTTYP_REG);
1.3  takemura 	DPRINTF(DEBUG_INTR, ("[%s->",reg & mask ? "edge" : "level"));
1.1  takemura 	if (mode & VRGIU_INTR_EDGE) {
1.3  takemura 		DPRINTF(DEBUG_INTR, ("edge]"));
1.1  takemura 		reg |= mask;	/* edge */
1.1  takemura 	} else {
1.3  takemura 		DPRINTF(DEBUG_INTR, ("level]"));
1.1  takemura 		reg &= ~mask;	/* level */
1.1  takemura 	}
1.1  takemura 	vrgiu_regwrite_4(sc, GIUINTTYP_REG, reg);
1.1  takemura
1.1  takemura 	/* interrupt level */
1.1  takemura 	if (!(mode & VRGIU_INTR_EDGE)) {
1.1  takemura 		reg = vrgiu_regread_4(sc, GIUINTALSEL_REG);
1.3  takemura 		DPRINTF(DEBUG_INTR, ("[%s->",reg & mask ? "high" : "low"));
1.1  takemura 		if (mode & VRGIU_INTR_HIGH) {
1.3  takemura 			DPRINTF(DEBUG_INTR, ("high]"));
1.1  takemura 			reg |= mask;	/* high */
1.1  takemura 		} else {
1.3  takemura 			DPRINTF(DEBUG_INTR, ("low]"));
1.1  takemura 			reg &= ~mask;	/* low */
1.1  takemura 		}
1.1  takemura 		vrgiu_regwrite_4(sc, GIUINTALSEL_REG, reg);
1.1  takemura 	}
1.1  takemura 	/* hold or through */
1.1  takemura 	reg = vrgiu_regread_4(sc, GIUINTHTSEL_REG);
1.3  takemura 	DPRINTF(DEBUG_INTR, ("[%s->",reg & mask ? "hold" : "through"));
1.1  takemura 	if (mode & VRGIU_INTR_HOLD) {
1.3  takemura 		DPRINTF(DEBUG_INTR, ("hold]"));
1.1  takemura 		reg |= mask;	/* hold */
1.1  takemura 	} else {
1.3  takemura 		DPRINTF(DEBUG_INTR, ("through]"));
1.1  takemura 		reg &= ~mask;	/* through */
1.1  takemura 	}
1.1  takemura 	vrgiu_regwrite_4(sc, GIUINTHTSEL_REG, reg);
1.1  takemura #endif
1.1  takemura 	/*
1.1  takemura 	 *  clear interrupt status
1.1  takemura 	 */
1.1  takemura 	reg = vrgiu_regread_4(sc, GIUINTSTAT_REG);
1.1  takemura 	reg &= ~mask;
1.1  takemura 	vrgiu_regwrite_4(sc, GIUINTSTAT_REG, reg);
1.1  takemura 	/*
1.1  takemura 	 *  enable interrupt
1.1  takemura 	 */
1.1  takemura #ifdef WINCE_DEFAULT_SETTING
1.1  takemura #warning WINCE_DEFAULT_SETTING
1.1  takemura #else
1.1  takemura 	sc->sc_intr_mask |= mask;
1.1  takemura 	vrgiu_regwrite_4(sc, GIUINTEN_REG, sc->sc_intr_mask);
1.1  takemura 	/* Unmask GIU level 2 mask register */
1.1  takemura 	vrip_intr_setmask2(sc->sc_vc, sc->sc_ih, (1<<port), 1);
1.1  takemura #endif
1.1  takemura 	splx(s);
1.1  takemura
1.3  takemura 	DPRINTF(DEBUG_INTR, ("\n"));
1.1  takemura #if 0 && defined VRGIUDEBUG
1.1  takemura 	vrgiu_dump_regs(sc);
1.1  takemura #endif
1.1  takemura
1.1  takemura 	return ih;
1.1  takemura }
1.1  takemura
1.1  takemura void
1.1  takemura vrgiu_intr_disestablish(ic, arg)
1.1  takemura 	vrgiu_chipset_tag_t ic;
1.1  takemura 	void *arg;
1.1  takemura {
1.1  takemura 	struct vrgiu_intr_entry *ihe = arg;
1.1  takemura 	struct vrgiu_softc *sc = (void*)ic;
1.1  takemura 	int port = ihe->ih_port;
1.1  takemura 	struct vrgiu_intr_entry *ih;
1.1  takemura 	int s;
1.1  takemura
1.1  takemura 	s = splhigh();
1.1  takemura 	TAILQ_FOREACH(ih, &sc->sc_intr_head[port], ih_link) {
1.1  takemura 		if (ih == ihe) {
1.1  takemura 			TAILQ_REMOVE(&sc->sc_intr_head[port], ih, ih_link);
1.1  takemura 			free(ih, M_DEVBUF);
1.1  takemura 			if (TAILQ_EMPTY(&sc->sc_intr_head[port])) {
1.1  takemura 				/* Disable interrupt */
1.1  takemura #ifdef WINCE_DEFAULT_SETTING
1.1  takemura #warning WINCE_DEFAULT_SETTING
1.1  takemura #else
1.1  takemura 				sc->sc_intr_mask &= ~(1<<port);
1.1  takemura 				vrgiu_regwrite_4(sc, GIUINTEN_REG, sc->sc_intr_mask);
1.1  takemura #endif
1.1  takemura 			}
1.1  takemura 			splx(s);
1.1  takemura 			return;
1.1  takemura 		}
1.1  takemura 	}
1.1  takemura 	panic("vrgiu_intr_disetablish: no such a handle.");
1.1  takemura 	/* NOTREACHED */
1.1  takemura }
1.1  takemura
1.1  takemura int
1.1  takemura vrgiu_intr(arg)
1.1  takemura 	void *arg;
1.1  takemura {
1.1  takemura #ifdef DUMP_GIU_LEVEL2_INTR
1.1  takemura #warning DUMP_GIU_LEVEL2_INTR
1.1  takemura 	static u_int32_t oreg;
1.1  takemura #endif
1.1  takemura 	struct vrgiu_softc *sc = arg;
1.1  takemura 	int i;
1.1  takemura 	u_int32_t reg;
1.1  takemura 	/* Get Level 2 interrupt status */
1.1  takemura 	vrip_intr_get_status2 (sc->sc_vc, sc->sc_ih, &reg);
1.1  takemura #ifdef DUMP_GIU_LEVEL2_INTR
1.1  takemura #warning DUMP_GIU_LEVEL2_INTR
1.1  takemura 	{
1.1  takemura 		u_int32_t uedge, dedge, j;
1.1  takemura 		for (j = 0x80000000; j > 0; j >>=1)
1.1  takemura 			printf ("%c" , reg&j ? '|' : '.');
1.1  takemura 		uedge = (reg ^ oreg) & reg;
1.1  takemura 		dedge = (reg ^ oreg) & ~reg;
1.1  takemura 		if (uedge || dedge) {
1.1  takemura 			for (j = 0; j < 32; j++) {
1.1  takemura 				if (uedge & (1 << j))
1.1  takemura 					printf ("+%d", j);
1.1  takemura 				else if (dedge & (1 << j))
1.1  takemura 					printf ("-%d", j);
1.1  takemura 			}
1.1  takemura 		}
1.1  takemura 		oreg = reg;
1.1  takemura 		printf ("\n");
1.1  takemura 	}
1.1  takemura #endif
1.2       uch 	/* Clear interrupt */
1.2       uch 	vrgiu_regwrite_4(sc, GIUINTSTAT_REG, vrgiu_regread_4(sc, GIUINTSTAT_REG));
1.2       uch
1.1  takemura 	/* Dispatch handler */
1.1  takemura 	for (i = 0; i < MAX_GPIO_INOUT; i++) {
1.1  takemura 		if (reg & (1 << i)) {
1.1  takemura 			register struct vrgiu_intr_entry *ih;
1.1  takemura 			TAILQ_FOREACH(ih, &sc->sc_intr_head[i], ih_link) {
1.1  takemura 				ih->ih_fun(ih->ih_arg);
1.1  takemura 			}
1.1  takemura 		}
1.1  takemura 	}
1.2       uch
1.1  takemura 	return 0;
1.1  takemura }