i386/pci/elan520.c

1.37    dyoung /*	$NetBSD: elan520.c,v 1.37 2009/02/06 01:40:36 dyoung Exp $	*/
 1.1   thorpej
 1.1   thorpej /*-
 1.1   thorpej  * Copyright (c) 2002 The NetBSD Foundation, Inc.
 1.1   thorpej  * All rights reserved.
 1.1   thorpej  *
 1.1   thorpej  * This code is derived from software contributed to The NetBSD Foundation
 1.1   thorpej  * by Jason R. Thorpe.
 1.1   thorpej  *
 1.1   thorpej  * Redistribution and use in source and binary forms, with or without
 1.1   thorpej  * modification, are permitted provided that the following conditions
 1.1   thorpej  * are met:
 1.1   thorpej  * 1. Redistributions of source code must retain the above copyright
 1.1   thorpej  *    notice, this list of conditions and the following disclaimer.
 1.1   thorpej  * 2. Redistributions in binary form must reproduce the above copyright
 1.1   thorpej  *    notice, this list of conditions and the following disclaimer in the
 1.1   thorpej  *    documentation and/or other materials provided with the distribution.
 1.1   thorpej  *
 1.1   thorpej  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.1   thorpej  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.1   thorpej  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1   thorpej  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.1   thorpej  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1   thorpej  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1   thorpej  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1   thorpej  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1   thorpej  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1   thorpej  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1   thorpej  * POSSIBILITY OF SUCH DAMAGE.
 1.1   thorpej  */
 1.1   thorpej
 1.1   thorpej /*
 1.1   thorpej  * Device driver for the AMD Elan SC520 System Controller.  This attaches
 1.1   thorpej  * where the "pchb" driver might normally attach, and provides support for
 1.1   thorpej  * extra features on the SC520, such as the watchdog timer and GPIO.
 1.1   thorpej  *
 1.1   thorpej  * Information about the GP bus echo bug work-around is from code posted
 1.1   thorpej  * to the "soekris-tech" mailing list by Jasper Wallace.
 1.1   thorpej  */
 1.1   thorpej
 1.1   thorpej #include <sys/cdefs.h>
 1.1   thorpej
1.37    dyoung __KERNEL_RCSID(0, "$NetBSD: elan520.c,v 1.37 2009/02/06 01:40:36 dyoung Exp $");
 1.1   thorpej
 1.1   thorpej #include <sys/param.h>
 1.1   thorpej #include <sys/systm.h>
1.22    dyoung #include <sys/time.h>
 1.1   thorpej #include <sys/device.h>
1.19    dyoung #include <sys/gpio.h>
1.19    dyoung #include <sys/mutex.h>
 1.1   thorpej #include <sys/wdog.h>
1.35    dyoung #include <sys/reboot.h>
 1.1   thorpej
 1.5   thorpej #include <uvm/uvm_extern.h>
 1.5   thorpej
 1.1   thorpej #include <machine/bus.h>
 1.1   thorpej
 1.1   thorpej #include <dev/pci/pcivar.h>
 1.1   thorpej
 1.1   thorpej #include <dev/pci/pcidevs.h>
 1.1   thorpej
1.10  drochner #include "gpio.h"
1.10  drochner #if NGPIO > 0
 1.9       riz #include <dev/gpio/gpiovar.h>
1.10  drochner #endif
 1.9       riz
 1.1   thorpej #include <arch/i386/pci/elan520reg.h>
 1.1   thorpej
 1.1   thorpej #include <dev/sysmon/sysmonvar.h>
 1.1   thorpej
1.22    dyoung #define	ELAN_IRQ	1
1.23    dyoung #define	PG0_PROT_SIZE	PAGE_SIZE
1.22    dyoung
 1.1   thorpej struct elansc_softc {
1.29    dyoung 	device_t sc_dev;
1.36    dyoung 	device_t sc_gpio;
1.22    dyoung 	device_t sc_par;
1.22    dyoung 	device_t sc_pex;
1.31    dyoung 	device_t sc_pci;
1.22    dyoung
1.22    dyoung 	pci_chipset_tag_t sc_pc;
1.22    dyoung 	pcitag_t sc_tag;
 1.1   thorpej 	bus_space_tag_t sc_memt;
 1.1   thorpej 	bus_space_handle_t sc_memh;
 1.1   thorpej 	int sc_echobug;
 1.1   thorpej
1.19    dyoung 	kmutex_t sc_mtx;
1.19    dyoung
 1.1   thorpej 	struct sysmon_wdog sc_smw;
1.22    dyoung 	void		*sc_eih;
1.22    dyoung 	void		*sc_pih;
1.22    dyoung 	void		*sc_sh;
1.22    dyoung 	uint8_t		sc_mpicmode;
1.22    dyoung 	uint8_t		sc_picicr;
1.23    dyoung 	int		sc_pg0par;
1.27    dyoung 	int		sc_textpar[3];
1.11       riz #if NGPIO > 0
 1.9       riz 	/* GPIO interface */
 1.9       riz 	struct gpio_chipset_tag sc_gpio_gc;
 1.9       riz 	gpio_pin_t sc_gpio_pins[ELANSC_PIO_NPINS];
1.11       riz #endif
 1.1   thorpej };
 1.1   thorpej
1.31    dyoung static bool elansc_attached = false;
1.22    dyoung int elansc_wpvnmi = 1;
1.22    dyoung int elansc_pcinmi = 1;
1.23    dyoung int elansc_do_protect_pg0 = 1;
1.22    dyoung
1.10  drochner #if NGPIO > 0
 1.9       riz static int	elansc_gpio_pin_read(void *, int);
 1.9       riz static void	elansc_gpio_pin_write(void *, int, int);
 1.9       riz static void	elansc_gpio_pin_ctl(void *, int, int);
1.10  drochner #endif
 1.9       riz
1.22    dyoung static void elansc_print_par(device_t, int, uint32_t);
1.31    dyoung
1.22    dyoung static void elanpar_intr_establish(device_t, struct elansc_softc *);
1.22    dyoung static void elanpar_intr_disestablish(struct elansc_softc *);
1.26    dyoung static bool elanpar_shutdown(device_t, int);
1.31    dyoung
1.31    dyoung static void elanpex_intr_establish(device_t, struct elansc_softc *);
1.31    dyoung static void elanpex_intr_disestablish(struct elansc_softc *);
1.26    dyoung static bool elanpex_shutdown(device_t, int);
1.22    dyoung
1.27    dyoung static void elansc_protect(struct elansc_softc *, int, paddr_t, uint32_t);
1.27    dyoung
1.28    dyoung static const uint32_t sfkb = 64 * 1024, fkb = 4 * 1024;
1.28    dyoung
 1.1   thorpej static void
1.19    dyoung elansc_childdetached(device_t self, device_t child)
1.19    dyoung {
1.22    dyoung 	struct elansc_softc *sc = device_private(self);
1.22    dyoung
1.22    dyoung 	if (child == sc->sc_par)
1.22    dyoung 		sc->sc_par = NULL;
1.22    dyoung 	if (child == sc->sc_pex)
1.22    dyoung 		sc->sc_pex = NULL;
1.31    dyoung 	if (child == sc->sc_pci)
1.31    dyoung 		sc->sc_pci = NULL;
1.31    dyoung
1.22    dyoung 	/* elansc does not presently keep a pointer to
1.22    dyoung 	 * the gpio, so there is nothing to do if it is detached.
1.19    dyoung 	 */
1.19    dyoung }
1.19    dyoung
1.31    dyoung static int
1.31    dyoung elansc_match(device_t parent, cfdata_t match, void *aux)
1.31    dyoung {
1.31    dyoung 	struct pcibus_attach_args *pba = aux;
1.31    dyoung 	pcitag_t tag;
1.31    dyoung 	pcireg_t id;
1.31    dyoung
1.31    dyoung 	if (elansc_attached)
1.31    dyoung 		return 0;
1.31    dyoung
1.31    dyoung 	if (pcimatch(parent, match, aux) == 0)
1.31    dyoung 		return 0;
1.31    dyoung
1.31    dyoung 	if (pba->pba_bus != 0)
1.31    dyoung 		return 0;
1.31    dyoung
1.31    dyoung 	tag = pci_make_tag(pba->pba_pc, 0, 0, 0);
1.31    dyoung 	id = pci_conf_read(pba->pba_pc, tag, PCI_ID_REG);
1.31    dyoung
1.31    dyoung 	if (PCI_VENDOR(id) == PCI_VENDOR_AMD &&
1.31    dyoung 	    PCI_PRODUCT(id) == PCI_PRODUCT_AMD_SC520_SC)
1.31    dyoung 		return 10;
1.31    dyoung
1.31    dyoung 	return 0;
1.31    dyoung }
1.31    dyoung
1.31    dyoung /*
1.31    dyoung  * Performance tuning for Soekris net4501:
1.31    dyoung  *   - enable SDRAM write buffer and read prefetching
1.31    dyoung  */
1.31    dyoung #if 0
1.31    dyoung 	uint8_t dbctl;
1.31    dyoung
1.31    dyoung 	dbctl = bus_space_read_1(memt, memh, MMCR_DBCTL);
1.31    dyoung  	dbctl &= ~MMCR_DBCTL_WB_WM_MASK;
1.31    dyoung 	dbctl |= MMCR_DBCTL_WB_WM_16DW;
1.31    dyoung 	dbctl |= MMCR_DBCTL_WB_ENB | MMCR_DBCTL_RAB_ENB;
1.31    dyoung 	bus_space_write_1(memt, memh, MMCR_DBCTL, dbctl);
1.31    dyoung #endif
1.31    dyoung
1.31    dyoung /*
1.31    dyoung  * Performance tuning for PCI bus on the AMD Elan SC520:
1.31    dyoung  *   - enable concurrent arbitration of PCI and CPU busses
1.31    dyoung  *     (and PCI buffer)
1.31    dyoung  *   - enable PCI automatic delayed read transactions and
1.31    dyoung  *     write posting
1.31    dyoung  *   - enable PCI read buffer snooping (coherency)
1.31    dyoung  */
1.31    dyoung static void
1.31    dyoung elansc_perf_tune(device_t self, bus_space_tag_t memt, bus_space_handle_t memh)
1.31    dyoung {
1.31    dyoung 	uint8_t sysarbctl;
1.31    dyoung 	uint16_t hbctl;
1.31    dyoung 	const bool concurrency = true;	/* concurrent bus arbitration */
1.31    dyoung
1.31    dyoung 	sysarbctl = bus_space_read_1(memt, memh, MMCR_SYSARBCTL);
1.31    dyoung 	if ((sysarbctl & MMCR_SYSARBCTL_CNCR_MODE_ENB) != 0) {
1.31    dyoung 		aprint_debug_dev(self,
1.31    dyoung 		    "concurrent arbitration mode is active\n");
1.31    dyoung 	} else if (concurrency) {
1.31    dyoung 		aprint_verbose_dev(self, "activating concurrent "
1.31    dyoung 		    "arbitration mode\n");
1.31    dyoung 		/* activate concurrent bus arbitration */
1.31    dyoung 		sysarbctl |= MMCR_SYSARBCTL_CNCR_MODE_ENB;
1.31    dyoung 		bus_space_write_1(memt, memh, MMCR_SYSARBCTL, sysarbctl);
1.31    dyoung 	}
1.31    dyoung
1.31    dyoung 	hbctl = bus_space_read_2(memt, memh, MMCR_HBCTL);
1.31    dyoung
1.31    dyoung 	/* target read FIFO snoop */
1.31    dyoung 	if ((hbctl & MMCR_HBCTL_T_PURGE_RD_ENB) != 0)
1.31    dyoung 		aprint_debug_dev(self, "read-FIFO snooping is active\n");
1.31    dyoung 	else {
1.31    dyoung 		aprint_verbose_dev(self, "activating read-FIFO snooping\n");
1.31    dyoung 		hbctl |= MMCR_HBCTL_T_PURGE_RD_ENB;
1.31    dyoung 	}
1.31    dyoung
1.31    dyoung 	if ((hbctl & MMCR_HBCTL_M_WPOST_ENB) != 0)
1.31    dyoung 		aprint_debug_dev(self, "CPU->PCI write-posting is active\n");
1.31    dyoung 	else if (concurrency) {
1.31    dyoung 		aprint_verbose_dev(self, "activating CPU->PCI write-posting\n");
1.31    dyoung 		hbctl |= MMCR_HBCTL_M_WPOST_ENB;
1.31    dyoung 	}
1.31    dyoung
1.31    dyoung 	/* auto delay read txn: looks safe, but seems to cause
1.31    dyoung 	 * net4526 w/ minipci ath fits
1.31    dyoung 	 */
1.31    dyoung #if 0
1.31    dyoung 	if ((hbctl & MMCR_HBCTL_T_DLYTR_ENB_AUTORETRY) != 0)
1.31    dyoung 		aprint_debug_dev(self,
1.31    dyoung 		    "automatic read transaction delay is active\n");
1.31    dyoung 	else {
1.31    dyoung 		aprint_verbose_dev(self,
1.31    dyoung 		    "activating automatic read transaction delay\n");
1.31    dyoung 		hbctl |= MMCR_HBCTL_T_DLYTR_ENB_AUTORETRY;
1.31    dyoung 	}
1.31    dyoung #endif
1.31    dyoung 	bus_space_write_2(memt, memh, MMCR_HBCTL, hbctl);
1.31    dyoung }
1.31    dyoung
1.19    dyoung static void
 1.1   thorpej elansc_wdogctl_write(struct elansc_softc *sc, uint16_t val)
 1.1   thorpej {
 1.6  christos 	uint8_t echo_mode = 0; /* XXX: gcc */
 1.1   thorpej
1.19    dyoung 	KASSERT(mutex_owned(&sc->sc_mtx));
 1.1   thorpej
 1.1   thorpej 	/* Switch off GP bus echo mode if we need to. */
 1.1   thorpej 	if (sc->sc_echobug) {
 1.1   thorpej 		echo_mode = bus_space_read_1(sc->sc_memt, sc->sc_memh,
 1.1   thorpej 		    MMCR_GPECHO);
 1.1   thorpej 		bus_space_write_1(sc->sc_memt, sc->sc_memh,
 1.1   thorpej 		    MMCR_GPECHO, echo_mode & ~GPECHO_GP_ECHO_ENB);
 1.1   thorpej 	}
 1.1   thorpej
 1.1   thorpej 	/* Unlock the register. */
 1.1   thorpej 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_WDTMRCTL,
 1.1   thorpej 	    WDTMRCTL_UNLOCK1);
 1.1   thorpej 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_WDTMRCTL,
 1.1   thorpej 	    WDTMRCTL_UNLOCK2);
 1.1   thorpej
 1.1   thorpej 	/* Write the value. */
 1.1   thorpej 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_WDTMRCTL, val);
 1.1   thorpej
 1.1   thorpej 	/* Switch GP bus echo mode back. */
 1.1   thorpej 	if (sc->sc_echobug)
 1.1   thorpej 		bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_GPECHO,
 1.1   thorpej 		    echo_mode);
 1.1   thorpej }
 1.1   thorpej
 1.1   thorpej static void
 1.1   thorpej elansc_wdogctl_reset(struct elansc_softc *sc)
 1.1   thorpej {
 1.7  christos 	uint8_t echo_mode = 0/* XXX: gcc */;
 1.1   thorpej
1.19    dyoung 	KASSERT(mutex_owned(&sc->sc_mtx));
 1.1   thorpej
 1.1   thorpej 	/* Switch off GP bus echo mode if we need to. */
 1.1   thorpej 	if (sc->sc_echobug) {
 1.1   thorpej 		echo_mode = bus_space_read_1(sc->sc_memt, sc->sc_memh,
 1.1   thorpej 		    MMCR_GPECHO);
 1.1   thorpej 		bus_space_write_1(sc->sc_memt, sc->sc_memh,
 1.1   thorpej 		    MMCR_GPECHO, echo_mode & ~GPECHO_GP_ECHO_ENB);
 1.1   thorpej 	}
 1.1   thorpej
 1.1   thorpej 	/* Reset the watchdog. */
 1.1   thorpej 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_WDTMRCTL,
 1.1   thorpej 	    WDTMRCTL_RESET1);
 1.1   thorpej 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_WDTMRCTL,
 1.1   thorpej 	    WDTMRCTL_RESET2);
 1.1   thorpej
 1.1   thorpej 	/* Switch GP bus echo mode back. */
 1.1   thorpej 	if (sc->sc_echobug)
 1.1   thorpej 		bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_GPECHO,
 1.1   thorpej 		    echo_mode);
 1.1   thorpej }
 1.1   thorpej
 1.1   thorpej static const struct {
 1.1   thorpej 	int	period;		/* whole seconds */
 1.1   thorpej 	uint16_t exp;		/* exponent select */
 1.1   thorpej } elansc_wdog_periods[] = {
 1.1   thorpej 	{ 1,	WDTMRCTL_EXP_SEL25 },
 1.1   thorpej 	{ 2,	WDTMRCTL_EXP_SEL26 },
 1.1   thorpej 	{ 4,	WDTMRCTL_EXP_SEL27 },
 1.1   thorpej 	{ 8,	WDTMRCTL_EXP_SEL28 },
 1.1   thorpej 	{ 16,	WDTMRCTL_EXP_SEL29 },
 1.1   thorpej 	{ 32,	WDTMRCTL_EXP_SEL30 },
 1.1   thorpej 	{ 0,	0 },
 1.1   thorpej };
 1.1   thorpej
 1.1   thorpej static int
1.19    dyoung elansc_wdog_arm(struct elansc_softc *sc)
 1.1   thorpej {
1.19    dyoung 	struct sysmon_wdog *smw = &sc->sc_smw;
 1.1   thorpej 	int i;
 1.7  christos 	uint16_t exp_sel = 0; /* XXX: gcc */
 1.1   thorpej
1.19    dyoung 	KASSERT(mutex_owned(&sc->sc_mtx));
1.17    dyoung
1.19    dyoung 	if (smw->smw_period == WDOG_PERIOD_DEFAULT) {
1.19    dyoung 		smw->smw_period = 32;
1.19    dyoung 		exp_sel = WDTMRCTL_EXP_SEL30;
 1.1   thorpej 	} else {
1.19    dyoung 		for (i = 0; elansc_wdog_periods[i].period != 0; i++) {
1.19    dyoung 			if (elansc_wdog_periods[i].period ==
1.19    dyoung 			    smw->smw_period) {
1.19    dyoung 				exp_sel = elansc_wdog_periods[i].exp;
1.19    dyoung 				break;
 1.1   thorpej 			}
 1.1   thorpej 		}
1.19    dyoung 		if (elansc_wdog_periods[i].period == 0)
1.19    dyoung 			return EINVAL;
 1.1   thorpej 	}
1.19    dyoung 	elansc_wdogctl_write(sc, WDTMRCTL_ENB |
1.19    dyoung 	    WDTMRCTL_WRST_ENB | exp_sel);
1.19    dyoung 	elansc_wdogctl_reset(sc);
1.19    dyoung 	return 0;
1.19    dyoung }
1.19    dyoung
1.19    dyoung static int
1.19    dyoung elansc_wdog_setmode(struct sysmon_wdog *smw)
1.19    dyoung {
1.19    dyoung 	struct elansc_softc *sc = smw->smw_cookie;
1.19    dyoung 	int rc = 0;
1.19    dyoung
1.19    dyoung 	mutex_enter(&sc->sc_mtx);
1.19    dyoung
1.29    dyoung 	if (!device_is_active(sc->sc_dev))
1.19    dyoung 		rc = EBUSY;
1.19    dyoung 	else if ((smw->smw_mode & WDOG_MODE_MASK) == WDOG_MODE_DISARMED) {
1.19    dyoung 		elansc_wdogctl_write(sc,
1.19    dyoung 		    WDTMRCTL_WRST_ENB | WDTMRCTL_EXP_SEL30);
1.19    dyoung 	} else
1.19    dyoung 		rc = elansc_wdog_arm(sc);
1.19    dyoung
1.19    dyoung 	mutex_exit(&sc->sc_mtx);
1.19    dyoung 	return rc;
 1.1   thorpej }
 1.1   thorpej
 1.1   thorpej static int
 1.1   thorpej elansc_wdog_tickle(struct sysmon_wdog *smw)
 1.1   thorpej {
 1.1   thorpej 	struct elansc_softc *sc = smw->smw_cookie;
 1.1   thorpej
1.19    dyoung 	mutex_enter(&sc->sc_mtx);
 1.1   thorpej 	elansc_wdogctl_reset(sc);
1.19    dyoung 	mutex_exit(&sc->sc_mtx);
1.19    dyoung 	return 0;
 1.1   thorpej }
 1.1   thorpej
 1.1   thorpej static const char *elansc_speeds[] = {
 1.1   thorpej 	"(reserved 00)",
 1.1   thorpej 	"100MHz",
 1.1   thorpej 	"133MHz",
 1.1   thorpej 	"(reserved 11)",
 1.1   thorpej };
 1.1   thorpej
1.22    dyoung static int
1.22    dyoung elanpar_intr(void *arg)
1.22    dyoung {
1.22    dyoung 	struct elansc_softc *sc = arg;
1.22    dyoung 	uint16_t wpvsta;
1.22    dyoung 	unsigned win;
1.22    dyoung 	uint32_t par;
1.22    dyoung 	const char *wpvstr;
1.22    dyoung
1.22    dyoung 	wpvsta = bus_space_read_2(sc->sc_memt, sc->sc_memh, MMCR_WPVSTA);
1.22    dyoung
1.22    dyoung 	if ((wpvsta & MMCR_WPVSTA_WPV_STA) == 0)
1.22    dyoung 		return 0;
1.22    dyoung
1.22    dyoung 	win = __SHIFTOUT(wpvsta, MMCR_WPVSTA_WPV_WINDOW);
1.22    dyoung
1.22    dyoung 	par = bus_space_read_4(sc->sc_memt, sc->sc_memh, MMCR_PAR(win));
1.22    dyoung
1.22    dyoung 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_WPVSTA,
1.22    dyoung 	    MMCR_WPVSTA_WPV_STA);
1.22    dyoung
1.22    dyoung 	switch (wpvsta & MMCR_WPVSTA_WPV_MSTR) {
1.22    dyoung 	case MMCR_WPVSTA_WPV_MSTR_CPU:
1.22    dyoung 		wpvstr = "cpu";
1.22    dyoung 		break;
1.22    dyoung 	case MMCR_WPVSTA_WPV_MSTR_PCI:
1.22    dyoung 		wpvstr = "pci";
1.22    dyoung 		break;
1.22    dyoung 	case MMCR_WPVSTA_WPV_MSTR_GP:
1.22    dyoung 		wpvstr = "gp";
1.22    dyoung 		break;
1.22    dyoung 	default:
1.22    dyoung 		wpvstr = "unknown";
1.22    dyoung 		break;
1.22    dyoung 	}
1.35    dyoung 	printf_tolog("%s: %s violated write-protect window %u\n",
1.35    dyoung 	    device_xname(sc->sc_par), wpvstr, win);
1.22    dyoung 	elansc_print_par(sc->sc_par, win, par);
1.22    dyoung 	return 0;
1.22    dyoung }
1.22    dyoung
1.22    dyoung static int
1.22    dyoung elanpex_intr(void *arg)
1.22    dyoung {
1.22    dyoung 	static struct {
1.22    dyoung 		const char *string;
1.22    dyoung 		bool nonfatal;
1.22    dyoung 	} cmd[16] = {
1.22    dyoung 		  [0] =	{.string = "not latched"}
1.22    dyoung 		, [1] =	{.string = "special cycle"}
1.22    dyoung 		, [2] =	{.string = "i/o read"}
1.22    dyoung 		, [3] =	{.string = "i/o write"}
1.22    dyoung 		, [4] =	{.string = "4"}
1.22    dyoung 		, [5] =	{.string = "5"}
1.22    dyoung 		, [6] =	{.string = "memory rd"}
1.22    dyoung 		, [7] =	{.string = "memory wr"}
1.22    dyoung 		, [8] =	{.string = "8"}
1.22    dyoung 		, [9] =	{.string = "9"}
1.22    dyoung 		, [10] = {.string = "cfg rd", .nonfatal = true}
1.22    dyoung 		, [11] = {.string = "cfg wr"}
1.22    dyoung 		, [12] = {.string = "memory rd mul"}
1.22    dyoung 		, [13] = {.string = "dual-address cycle"}
1.22    dyoung 		, [14] = {.string = "memory rd line"}
1.22    dyoung 		, [15] = {.string = "memory wr & inv"}
1.22    dyoung 	};
1.22    dyoung
1.22    dyoung 	static const struct {
1.22    dyoung 		uint16_t bit;
1.22    dyoung 		const char *msg;
1.22    dyoung 	} mmsg[] = {
1.22    dyoung 		  {MMCR_HBMSTIRQSTA_M_RTRTO_IRQ_STA, "retry timeout"}
1.22    dyoung 		, {MMCR_HBMSTIRQSTA_M_TABRT_IRQ_STA, "target abort"}
1.22    dyoung 		, {MMCR_HBMSTIRQSTA_M_MABRT_IRQ_STA, "abort"}
1.22    dyoung 		, {MMCR_HBMSTIRQSTA_M_SERR_IRQ_STA, "system error"}
1.22    dyoung 		, {MMCR_HBMSTIRQSTA_M_RPER_IRQ_STA, "received parity error"}
1.22    dyoung 		, {MMCR_HBMSTIRQSTA_M_DPER_IRQ_STA, "detected parity error"}
1.22    dyoung 	}, tmsg[] = {
1.22    dyoung 		  {MMCR_HBTGTIRQSTA_T_DLYTO_IRQ_STA, "delayed txn timeout"}
1.22    dyoung 		, {MMCR_HBTGTIRQSTA_T_APER_IRQ_STA, "address parity"}
1.22    dyoung 		, {MMCR_HBTGTIRQSTA_T_DPER_IRQ_STA, "data parity"}
1.22    dyoung 	};
1.22    dyoung 	uint8_t pciarbsta;
1.22    dyoung 	uint16_t mstcmd, mstirq, tgtid, tgtirq;
1.22    dyoung 	uint32_t mstaddr;
1.22    dyoung 	uint16_t mstack = 0, tgtack = 0;
1.22    dyoung 	int fatal = 0, i, handled = 0;
1.22    dyoung 	struct elansc_softc *sc = arg;
1.22    dyoung
1.22    dyoung 	pciarbsta = bus_space_read_1(sc->sc_memt, sc->sc_memh, MMCR_PCIARBSTA);
1.22    dyoung 	mstirq = bus_space_read_2(sc->sc_memt, sc->sc_memh, MMCR_HBMSTIRQSTA);
1.22    dyoung 	mstaddr = bus_space_read_4(sc->sc_memt, sc->sc_memh, MMCR_MSTINTADD);
1.22    dyoung 	tgtirq = bus_space_read_2(sc->sc_memt, sc->sc_memh, MMCR_HBTGTIRQSTA);
1.22    dyoung
1.22    dyoung 	if ((pciarbsta & MMCR_PCIARBSTA_GNT_TO_STA) != 0) {
1.35    dyoung 		printf_tolog(
1.35    dyoung 		    "%s: grant time-out, GNT%" __PRIuBITS "# asserted\n",
1.35    dyoung 		    device_xname(sc->sc_pex),
1.22    dyoung 		    __SHIFTOUT(pciarbsta, MMCR_PCIARBSTA_GNT_TO_ID));
1.22    dyoung 		bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_PCIARBSTA,
1.22    dyoung 		    MMCR_PCIARBSTA_GNT_TO_STA);
1.22    dyoung 		handled = true;
1.22    dyoung 	}
1.22    dyoung
1.22    dyoung 	mstcmd = __SHIFTOUT(mstirq, MMCR_HBMSTIRQSTA_M_CMD_IRQ_ID);
1.22    dyoung
1.22    dyoung 	for (i = 0; i < __arraycount(mmsg); i++) {
1.22    dyoung 		if ((mstirq & mmsg[i].bit) == 0)
1.22    dyoung 			continue;
1.35    dyoung 		printf_tolog("%s: %s %08" PRIx32 " master %s\n",
1.35    dyoung 		    device_xname(sc->sc_pex), cmd[mstcmd].string, mstaddr,
1.35    dyoung 		    mmsg[i].msg);
1.22    dyoung
1.22    dyoung 		mstack |= mmsg[i].bit;
1.22    dyoung 		if (!cmd[mstcmd].nonfatal)
1.22    dyoung 			fatal = true;
1.22    dyoung 	}
1.22    dyoung
1.22    dyoung 	tgtid = __SHIFTOUT(tgtirq, MMCR_HBTGTIRQSTA_T_IRQ_ID);
1.22    dyoung
1.22    dyoung 	for (i = 0; i < __arraycount(tmsg); i++) {
1.22    dyoung 		if ((tgtirq & tmsg[i].bit) == 0)
1.22    dyoung 			continue;
1.35    dyoung 		printf_tolog("%s: %1x target %s\n", device_xname(sc->sc_pex),
1.35    dyoung 		    tgtid, tmsg[i].msg);
1.22    dyoung 		tgtack |= tmsg[i].bit;
1.22    dyoung 	}
1.22    dyoung
1.22    dyoung 	/* acknowledge interrupts */
1.22    dyoung 	if (tgtack != 0) {
1.22    dyoung 		handled = true;
1.22    dyoung 		bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_HBTGTIRQSTA,
1.22    dyoung 		    tgtack);
1.22    dyoung 	}
1.22    dyoung 	if (mstack != 0) {
1.22    dyoung 		handled = true;
1.22    dyoung 		bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_HBMSTIRQSTA,
1.22    dyoung 		    mstack);
1.22    dyoung 	}
1.22    dyoung 	return fatal ? 0 : (handled ? 1 : 0);
1.22    dyoung }
1.22    dyoung
1.22    dyoung #define	elansc_print_1(__dev, __sc, __reg)				\
1.22    dyoung do {									\
1.22    dyoung 	aprint_debug_dev(__dev,						\
1.22    dyoung 	    "%s: %s %02" PRIx8 "\n", __func__, #__reg,			\
1.22    dyoung 	    bus_space_read_1((__sc)->sc_memt, (__sc)->sc_memh, __reg));	\
1.22    dyoung } while (/*CONSTCOND*/0)
1.22    dyoung
1.22    dyoung static void
1.22    dyoung elansc_print_par(device_t dev, int i, uint32_t par)
1.22    dyoung {
1.22    dyoung 	uint32_t addr, sz, unit;
1.22    dyoung 	const char *tgtstr;
1.22    dyoung
1.35    dyoung 	if ((boothowto & AB_DEBUG) == 0)
1.35    dyoung 		return;
1.35    dyoung
1.22    dyoung 	switch (par & MMCR_PAR_TARGET) {
1.22    dyoung 	default:
1.22    dyoung 	case MMCR_PAR_TARGET_OFF:
1.22    dyoung 		tgtstr = "off";
1.22    dyoung 		break;
1.22    dyoung 	case MMCR_PAR_TARGET_GPIO:
1.22    dyoung 		tgtstr = "gpio";
1.22    dyoung 		break;
1.22    dyoung 	case MMCR_PAR_TARGET_GPMEM:
1.22    dyoung 		tgtstr = "gpmem";
1.22    dyoung 		break;
1.22    dyoung 	case MMCR_PAR_TARGET_PCI:
1.22    dyoung 		tgtstr = "pci";
1.22    dyoung 		break;
1.22    dyoung 	case MMCR_PAR_TARGET_BOOTCS:
1.22    dyoung 		tgtstr = "bootcs";
1.22    dyoung 		break;
1.22    dyoung 	case MMCR_PAR_TARGET_ROMCS1:
1.22    dyoung 		tgtstr = "romcs1";
1.22    dyoung 		break;
1.22    dyoung 	case MMCR_PAR_TARGET_ROMCS2:
1.22    dyoung 		tgtstr = "romcs2";
1.22    dyoung 		break;
1.22    dyoung 	case MMCR_PAR_TARGET_SDRAM:
1.22    dyoung 		tgtstr = "sdram";
1.22    dyoung 		break;
1.22    dyoung 	}
1.22    dyoung 	if ((par & MMCR_PAR_TARGET) == MMCR_PAR_TARGET_GPIO) {
1.22    dyoung 		unit = 1;
1.22    dyoung 		sz = __SHIFTOUT(par, MMCR_PAR_IO_SZ);
1.22    dyoung 		addr = __SHIFTOUT(par, MMCR_PAR_IO_ST_ADR);
1.22    dyoung 	} else if ((par & MMCR_PAR_PG_SZ) != 0) {
1.22    dyoung 		unit = 64 * 1024;
1.22    dyoung 		sz = __SHIFTOUT(par, MMCR_PAR_64KB_SZ);
1.22    dyoung 		addr = __SHIFTOUT(par, MMCR_PAR_64KB_ST_ADR);
1.22    dyoung 	} else {
1.22    dyoung 		unit = 4 * 1024;
1.22    dyoung 		sz = __SHIFTOUT(par, MMCR_PAR_4KB_SZ);
1.22    dyoung 		addr = __SHIFTOUT(par, MMCR_PAR_4KB_ST_ADR);
1.22    dyoung 	}
1.22    dyoung
1.35    dyoung 	printf_tolog(
1.35    dyoung 	    "%s: PAR[%d] %08" PRIx32 " tgt %s attr %1" __PRIxBITS
1.35    dyoung 	    " start %08" PRIx32 " size %" PRIu32 "\n", device_xname(dev),
1.22    dyoung 	    i, par, tgtstr, __SHIFTOUT(par, MMCR_PAR_ATTR),
1.22    dyoung 	    addr * unit, (sz + 1) * unit);
1.22    dyoung }
1.22    dyoung
1.22    dyoung static void
1.22    dyoung elansc_print_all_par(device_t dev,
1.22    dyoung     bus_space_tag_t memt, bus_space_handle_t memh)
1.22    dyoung {
1.22    dyoung 	int i;
1.22    dyoung 	uint32_t par;
1.22    dyoung
1.22    dyoung 	for (i = 0; i < 16; i++) {
1.22    dyoung 		par = bus_space_read_4(memt, memh, MMCR_PAR(i));
1.22    dyoung 		elansc_print_par(dev, i, par);
1.22    dyoung 	}
1.22    dyoung }
1.22    dyoung
1.22    dyoung static int
1.22    dyoung elansc_alloc_par(bus_space_tag_t memt, bus_space_handle_t memh)
1.22    dyoung {
1.22    dyoung 	int i;
1.22    dyoung 	uint32_t par;
1.22    dyoung
1.22    dyoung 	for (i = 0; i < 16; i++) {
1.22    dyoung
1.22    dyoung 		par = bus_space_read_4(memt, memh, MMCR_PAR(i));
1.22    dyoung
1.22    dyoung 		if ((par & MMCR_PAR_TARGET) == MMCR_PAR_TARGET_OFF)
1.22    dyoung 			break;
1.22    dyoung 	}
1.22    dyoung 	if (i == 16)
1.22    dyoung 		return -1;
1.22    dyoung 	return i;
1.22    dyoung }
1.22    dyoung
1.22    dyoung static void
1.22    dyoung elansc_disable_par(bus_space_tag_t memt, bus_space_handle_t memh, int idx)
1.22    dyoung {
1.22    dyoung 	uint32_t par;
1.22    dyoung 	par = bus_space_read_4(memt, memh, MMCR_PAR(idx));
1.22    dyoung 	par &= ~MMCR_PAR_TARGET;
1.22    dyoung 	par |= MMCR_PAR_TARGET_OFF;
1.22    dyoung 	bus_space_write_4(memt, memh, MMCR_PAR(idx), par);
1.22    dyoung }
1.22    dyoung
1.27    dyoung struct pareg {
1.27    dyoung 	paddr_t start;
1.27    dyoung 	paddr_t end;
1.27    dyoung };
1.27    dyoung
1.22    dyoung static int
1.27    dyoung region_paddr_to_par(struct pareg *region0, struct pareg *regions, uint32_t unit)
1.27    dyoung {
1.27    dyoung 	struct pareg *residue = regions;
1.27    dyoung 	paddr_t start, end;
1.27    dyoung 	paddr_t start0, end0;
1.27    dyoung
1.27    dyoung 	start0 = region0->start;
1.27    dyoung 	end0 = region0->end;
1.27    dyoung
1.27    dyoung 	if (start0 % unit != 0)
1.27    dyoung 		start = start0 + unit - start0 % unit;
1.27    dyoung 	else
1.27    dyoung 		start = start0;
1.27    dyoung
1.27    dyoung 	end = end0 - end0 % unit;
1.27    dyoung
1.27    dyoung 	if (start >= end)
1.27    dyoung 		return 0;
1.27    dyoung
1.27    dyoung 	residue->start = start;
1.27    dyoung 	residue->end = end;
1.27    dyoung 	residue++;
1.27    dyoung
1.27    dyoung 	if (start0 < start) {
1.27    dyoung 		residue->start = start0;
1.27    dyoung 		residue->end = start;
1.27    dyoung 		residue++;
1.27    dyoung 	}
1.27    dyoung 	if (end < end0) {
1.27    dyoung 		residue->start = end;
1.27    dyoung 		residue->end = end0;
1.27    dyoung 		residue++;
1.27    dyoung 	}
1.27    dyoung 	return residue - regions;
1.27    dyoung }
1.27    dyoung
1.27    dyoung static void
1.22    dyoung elansc_protect_text(device_t self, struct elansc_softc *sc)
1.22    dyoung {
1.27    dyoung 	int i, j, nregion, pidx, tidx = 0, xnregion;
1.22    dyoung 	uint32_t par;
1.22    dyoung 	uint32_t protsize, unprotsize;
1.22    dyoung 	paddr_t start_pa, end_pa;
1.22    dyoung 	extern char kernel_text, etext;
1.22    dyoung 	bus_space_tag_t memt;
1.22    dyoung 	bus_space_handle_t memh;
1.27    dyoung 	struct pareg region0, regions[3], xregions[3];
1.27    dyoung
1.27    dyoung 	sc->sc_textpar[0] = sc->sc_textpar[1] = sc->sc_textpar[2] = -1;
1.22    dyoung
1.22    dyoung 	memt = sc->sc_memt;
1.22    dyoung 	memh = sc->sc_memh;
1.22    dyoung
1.27    dyoung 	if (!pmap_extract(pmap_kernel(), (vaddr_t)&kernel_text,
1.27    dyoung 	                  &region0.start) ||
1.27    dyoung 	    !pmap_extract(pmap_kernel(), (vaddr_t)&etext,
1.27    dyoung 	                  &region0.end))
1.27    dyoung 		return;
1.22    dyoung
1.27    dyoung 	if (&etext - &kernel_text != region0.end - region0.start) {
1.22    dyoung 		aprint_error_dev(self, "kernel text may not be contiguous\n");
1.27    dyoung 		return;
1.22    dyoung 	}
1.22    dyoung
1.27    dyoung 	if ((pidx = elansc_alloc_par(memt, memh)) == -1) {
1.22    dyoung 		aprint_error_dev(self, "cannot allocate PAR\n");
1.27    dyoung 		return;
1.22    dyoung 	}
1.22    dyoung
1.27    dyoung 	par = bus_space_read_4(memt, memh, MMCR_PAR(pidx));
1.22    dyoung
1.22    dyoung 	aprint_debug_dev(self,
1.22    dyoung 	    "protect kernel text at physical addresses %p - %p\n",
1.27    dyoung 	    (void *)region0.start, (void *)region0.end);
1.27    dyoung
1.27    dyoung 	nregion = region_paddr_to_par(&region0, regions, sfkb);
1.27    dyoung 	if (nregion == 0) {
1.27    dyoung 		aprint_error_dev(self, "kernel text is unprotected\n");
1.27    dyoung 		return;
1.27    dyoung 	}
1.27    dyoung
1.27    dyoung 	unprotsize = 0;
1.27    dyoung 	for (i = 1; i < nregion; i++)
1.27    dyoung 		unprotsize += regions[i].end - regions[i].start;
1.22    dyoung
1.27    dyoung 	start_pa = regions[0].start;
1.27    dyoung 	end_pa = regions[0].end;
1.22    dyoung
1.22    dyoung 	aprint_debug_dev(self,
1.22    dyoung 	    "actually protect kernel text at physical addresses %p - %p\n",
1.22    dyoung 	    (void *)start_pa, (void *)end_pa);
1.22    dyoung
1.22    dyoung 	aprint_verbose_dev(self,
1.22    dyoung 	    "%" PRIu32 " bytes of kernel text are unprotected\n", unprotsize);
1.22    dyoung
1.22    dyoung 	protsize = end_pa - start_pa;
1.22    dyoung
1.27    dyoung #if 0
1.27    dyoung 	/* set PG_SZ, attribute, target, size, address. */
1.22    dyoung 	par = MMCR_PAR_TARGET_SDRAM | MMCR_PAR_ATTR_NOWRITE | MMCR_PAR_PG_SZ;
1.22    dyoung 	par |= __SHIFTIN(protsize / sfkb - 1, MMCR_PAR_64KB_SZ);
1.22    dyoung 	par |= __SHIFTIN(start_pa / sfkb, MMCR_PAR_64KB_ST_ADR);
1.27    dyoung 	bus_space_write_4(memt, memh, MMCR_PAR(pidx), par);
1.27    dyoung #else
1.27    dyoung 	elansc_protect(sc, pidx, start_pa, protsize);
1.27    dyoung #endif
1.27    dyoung
1.27    dyoung 	sc->sc_textpar[tidx++] = pidx;
1.27    dyoung
1.27    dyoung 	unprotsize = 0;
1.27    dyoung 	for (i = 1; i < nregion; i++) {
1.27    dyoung 		xnregion = region_paddr_to_par(&regions[i], xregions, fkb);
1.27    dyoung 		if (xnregion == 0) {
1.27    dyoung 			aprint_verbose_dev(self, "skip region %p - %p\n",
1.27    dyoung 			    (void *)regions[i].start, (void *)regions[i].end);
1.27    dyoung 			continue;
1.27    dyoung 		}
1.27    dyoung 		if ((pidx = elansc_alloc_par(memt, memh)) == -1) {
1.27    dyoung 			unprotsize += regions[i].end - regions[i].start;
1.27    dyoung 			continue;
1.27    dyoung 		}
1.27    dyoung 		elansc_protect(sc, pidx, xregions[0].start,
1.27    dyoung 		    xregions[0].end - xregions[0].start);
1.27    dyoung 		sc->sc_textpar[tidx++] = pidx;
1.27    dyoung
1.27    dyoung 		aprint_debug_dev(self,
1.27    dyoung 		    "protect add'l kernel text at physical addresses %p - %p\n",
1.27    dyoung 		    (void *)xregions[0].start, (void *)xregions[0].end);
1.27    dyoung
1.27    dyoung 		for (j = 1; j < xnregion; j++)
1.27    dyoung 			unprotsize += xregions[j].end - xregions[j].start;
1.27    dyoung 	}
1.27    dyoung 	aprint_verbose_dev(self,
1.27    dyoung 	    "%" PRIu32 " bytes of kernel text still unprotected\n", unprotsize);
1.27    dyoung
1.27    dyoung }
1.27    dyoung
1.27    dyoung static void
1.27    dyoung elansc_protect(struct elansc_softc *sc, int pidx, paddr_t addr, uint32_t sz)
1.27    dyoung {
1.27    dyoung 	uint32_t addr_field, blksz, par, size_field;
1.27    dyoung
1.27    dyoung 	/* set attribute, target. */
1.27    dyoung 	par = MMCR_PAR_TARGET_SDRAM | MMCR_PAR_ATTR_NOWRITE;
1.27    dyoung
1.27    dyoung 	KASSERT(addr % fkb == 0 && sz % fkb == 0);
1.27    dyoung
1.27    dyoung 	if (addr % sfkb == 0 && sz % sfkb == 0) {
1.27    dyoung 		par |= MMCR_PAR_PG_SZ;
1.27    dyoung
1.27    dyoung 		size_field = MMCR_PAR_64KB_SZ;
1.27    dyoung 		addr_field = MMCR_PAR_64KB_ST_ADR;
1.27    dyoung 		blksz = 64 * 1024;
1.27    dyoung 	} else {
1.27    dyoung 		size_field = MMCR_PAR_4KB_SZ;
1.27    dyoung 		addr_field = MMCR_PAR_4KB_ST_ADR;
1.27    dyoung 		blksz = 4 * 1024;
1.27    dyoung 	}
1.27    dyoung
1.27    dyoung 	KASSERT(sz / blksz - 1 <= __SHIFTOUT_MASK(size_field));
1.27    dyoung 	KASSERT(addr / blksz <= __SHIFTOUT_MASK(addr_field));
1.27    dyoung
1.27    dyoung 	/* set size and address. */
1.27    dyoung 	par |= __SHIFTIN(sz / blksz - 1, size_field);
1.27    dyoung 	par |= __SHIFTIN(addr / blksz, addr_field);
1.27    dyoung
1.27    dyoung 	bus_space_write_4(sc->sc_memt, sc->sc_memh, MMCR_PAR(pidx), par);
1.22    dyoung }
1.22    dyoung
1.22    dyoung static int
1.23    dyoung elansc_protect_pg0(device_t self, struct elansc_softc *sc)
1.22    dyoung {
1.27    dyoung 	int pidx;
1.23    dyoung 	const paddr_t pg0_paddr = 0;
1.22    dyoung 	bus_space_tag_t memt;
1.22    dyoung 	bus_space_handle_t memh;
1.22    dyoung
1.22    dyoung 	memt = sc->sc_memt;
1.22    dyoung 	memh = sc->sc_memh;
1.22    dyoung
1.23    dyoung 	if (elansc_do_protect_pg0 == 0)
1.22    dyoung 		return -1;
1.22    dyoung
1.27    dyoung 	if ((pidx = elansc_alloc_par(memt, memh)) == -1)
1.22    dyoung 		return -1;
1.22    dyoung
1.23    dyoung 	aprint_debug_dev(self, "protect page 0\n");
1.22    dyoung
1.27    dyoung #if 0
1.27    dyoung 	/* set PG_SZ, attribute, target, size, address. */
1.22    dyoung 	par = MMCR_PAR_TARGET_SDRAM | MMCR_PAR_ATTR_NOWRITE;
1.23    dyoung 	par |= __SHIFTIN(PG0_PROT_SIZE / PAGE_SIZE - 1, MMCR_PAR_4KB_SZ);
1.23    dyoung 	par |= __SHIFTIN(pg0_paddr / PAGE_SIZE, MMCR_PAR_4KB_ST_ADR);
1.27    dyoung 	bus_space_write_4(memt, memh, MMCR_PAR(pidx), par);
1.27    dyoung #else
1.27    dyoung 	elansc_protect(sc, pidx, pg0_paddr, PG0_PROT_SIZE);
1.27    dyoung #endif
1.27    dyoung 	return pidx;
1.22    dyoung }
1.22    dyoung
1.22    dyoung static void
1.22    dyoung elanpex_intr_ack(bus_space_tag_t memt, bus_space_handle_t memh)
1.22    dyoung {
1.22    dyoung 	bus_space_write_1(memt, memh, MMCR_PCIARBSTA,
1.22    dyoung 	    MMCR_PCIARBSTA_GNT_TO_STA);
1.22    dyoung 	bus_space_write_2(memt, memh, MMCR_HBTGTIRQSTA, MMCR_TGTIRQ_ACT);
1.22    dyoung 	bus_space_write_2(memt, memh, MMCR_HBMSTIRQSTA, MMCR_MSTIRQ_ACT);
1.22    dyoung }
1.22    dyoung
1.17    dyoung static bool
1.24    dyoung elansc_suspend(device_t dev PMF_FN_ARGS)
1.17    dyoung {
1.19    dyoung 	bool rc;
1.17    dyoung 	struct elansc_softc *sc = device_private(dev);
1.17    dyoung
1.19    dyoung 	mutex_enter(&sc->sc_mtx);
1.19    dyoung 	rc = ((sc->sc_smw.smw_mode & WDOG_MODE_MASK) == WDOG_MODE_DISARMED);
1.19    dyoung 	mutex_exit(&sc->sc_mtx);
1.19    dyoung 	if (!rc)
1.17    dyoung 		aprint_debug_dev(dev, "watchdog enabled, suspend forbidden");
1.19    dyoung 	return rc;
1.17    dyoung }
1.17    dyoung
1.17    dyoung static bool
1.24    dyoung elansc_resume(device_t dev PMF_FN_ARGS)
1.17    dyoung {
1.17    dyoung 	struct elansc_softc *sc = device_private(dev);
1.17    dyoung
1.19    dyoung 	mutex_enter(&sc->sc_mtx);
1.17    dyoung 	/* Set up the watchdog registers with some defaults. */
1.17    dyoung 	elansc_wdogctl_write(sc, WDTMRCTL_WRST_ENB | WDTMRCTL_EXP_SEL30);
1.17    dyoung
1.17    dyoung 	/* ...and clear it. */
1.17    dyoung 	elansc_wdogctl_reset(sc);
1.19    dyoung 	mutex_exit(&sc->sc_mtx);
1.17    dyoung
1.31    dyoung 	elansc_perf_tune(dev, sc->sc_memt, sc->sc_memh);
1.31    dyoung
1.17    dyoung 	return true;
1.17    dyoung }
1.17    dyoung
1.18    dyoung static int
1.18    dyoung elansc_detach(device_t self, int flags)
1.18    dyoung {
1.19    dyoung 	int rc;
1.18    dyoung 	struct elansc_softc *sc = device_private(self);
1.18    dyoung
1.19    dyoung 	if ((rc = config_detach_children(self, flags)) != 0)
1.19    dyoung 		return rc;
1.19    dyoung
1.18    dyoung 	pmf_device_deregister(self);
1.18    dyoung
1.19    dyoung 	if ((rc = sysmon_wdog_unregister(&sc->sc_smw)) != 0) {
1.19    dyoung 		if (rc == ERESTART)
1.19    dyoung 			rc = EINTR;
1.19    dyoung 		return rc;
1.19    dyoung 	}
1.19    dyoung
1.19    dyoung 	mutex_enter(&sc->sc_mtx);
1.18    dyoung
1.18    dyoung 	/* Set up the watchdog registers with some defaults. */
1.18    dyoung 	elansc_wdogctl_write(sc, WDTMRCTL_WRST_ENB | WDTMRCTL_EXP_SEL30);
1.18    dyoung
1.18    dyoung 	/* ...and clear it. */
1.18    dyoung 	elansc_wdogctl_reset(sc);
1.18    dyoung
1.37    dyoung 	bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_PICICR, sc->sc_picicr);
1.37    dyoung 	bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_MPICMODE,
1.37    dyoung 	    sc->sc_mpicmode);
1.37    dyoung
1.19    dyoung 	mutex_exit(&sc->sc_mtx);
1.19    dyoung 	mutex_destroy(&sc->sc_mtx);
1.33    dyoung
1.33    dyoung 	bus_space_unmap(sc->sc_memt, sc->sc_memh, PAGE_SIZE);
1.31    dyoung 	elansc_attached = false;
1.18    dyoung 	return 0;
1.18    dyoung }
1.18    dyoung
1.22    dyoung static void *
1.22    dyoung elansc_intr_establish(device_t dev, int (*handler)(void *), void *arg)
1.22    dyoung {
1.22    dyoung 	struct pic *pic;
1.22    dyoung 	void *ih;
1.22    dyoung
1.22    dyoung 	if ((pic = intr_findpic(ELAN_IRQ)) == NULL) {
1.22    dyoung 		aprint_error_dev(dev, "PIC for irq %d not found\n",
1.22    dyoung 		    ELAN_IRQ);
1.22    dyoung 		return NULL;
1.22    dyoung 	} else if ((ih = intr_establish(ELAN_IRQ, pic, ELAN_IRQ,
1.34        ad 	    IST_LEVEL, IPL_HIGH, handler, arg, false)) == NULL) {
1.22    dyoung 		aprint_error_dev(dev,
1.22    dyoung 		    "could not establish interrupt\n");
1.22    dyoung 		return NULL;
1.22    dyoung 	}
1.22    dyoung 	aprint_verbose_dev(dev, "interrupting at irq %d\n", ELAN_IRQ);
1.22    dyoung 	return ih;
1.22    dyoung }
1.22    dyoung
1.22    dyoung static bool
1.24    dyoung elanpex_resume(device_t self PMF_FN_ARGS)
1.22    dyoung {
1.22    dyoung 	struct elansc_softc *sc = device_private(device_parent(self));
1.22    dyoung
1.22    dyoung 	elanpex_intr_establish(self, sc);
1.22    dyoung 	return sc->sc_eih != NULL;
1.22    dyoung }
1.22    dyoung
1.22    dyoung static bool
1.24    dyoung elanpex_suspend(device_t self PMF_FN_ARGS)
1.22    dyoung {
1.22    dyoung 	struct elansc_softc *sc = device_private(device_parent(self));
1.22    dyoung
1.22    dyoung 	elanpex_intr_disestablish(sc);
1.22    dyoung
1.22    dyoung 	return true;
1.22    dyoung }
1.22    dyoung
1.22    dyoung static bool
1.24    dyoung elanpar_resume(device_t self PMF_FN_ARGS)
1.22    dyoung {
1.22    dyoung 	struct elansc_softc *sc = device_private(device_parent(self));
1.22    dyoung
1.22    dyoung 	elanpar_intr_establish(self, sc);
1.22    dyoung 	return sc->sc_pih != NULL;
1.22    dyoung }
1.22    dyoung
1.22    dyoung static bool
1.24    dyoung elanpar_suspend(device_t self PMF_FN_ARGS)
1.22    dyoung {
1.22    dyoung 	struct elansc_softc *sc = device_private(device_parent(self));
1.22    dyoung
1.25    dyoung 	elanpar_intr_disestablish(sc);
1.22    dyoung
1.22    dyoung 	return true;
1.22    dyoung }
1.22    dyoung
1.22    dyoung static void
1.22    dyoung elanpex_intr_establish(device_t self, struct elansc_softc *sc)
1.22    dyoung {
1.22    dyoung 	uint8_t sysarbctl;
1.22    dyoung 	uint16_t pcihostmap, mstirq, tgtirq;
1.22    dyoung
1.22    dyoung 	pcihostmap = bus_space_read_2(sc->sc_memt, sc->sc_memh,
1.22    dyoung 	    MMCR_PCIHOSTMAP);
1.22    dyoung 	/* Priority P2 (Master PIC IR1) */
1.22    dyoung 	pcihostmap &= ~MMCR_PCIHOSTMAP_PCI_IRQ_MAP;
1.22    dyoung 	pcihostmap |= __SHIFTIN(__BIT(ELAN_IRQ), MMCR_PCIHOSTMAP_PCI_IRQ_MAP);
1.22    dyoung 	if (elansc_pcinmi)
1.22    dyoung 		pcihostmap |= MMCR_PCIHOSTMAP_PCI_NMI_ENB;
1.22    dyoung 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_PCIHOSTMAP,
1.22    dyoung 	    pcihostmap);
1.22    dyoung
1.22    dyoung 	elanpex_intr_ack(sc->sc_memt, sc->sc_memh);
1.22    dyoung
1.22    dyoung 	sysarbctl = bus_space_read_1(sc->sc_memt, sc->sc_memh, MMCR_SYSARBCTL);
1.22    dyoung 	mstirq = bus_space_read_2(sc->sc_memt, sc->sc_memh, MMCR_HBMSTIRQCTL);
1.22    dyoung 	tgtirq = bus_space_read_2(sc->sc_memt, sc->sc_memh, MMCR_HBTGTIRQCTL);
1.22    dyoung
1.22    dyoung 	sysarbctl |= MMCR_SYSARBCTL_GNT_TO_INT_ENB;
1.22    dyoung
1.22    dyoung 	mstirq |= MMCR_HBMSTIRQCTL_M_RTRTO_IRQ_ENB;
1.22    dyoung 	mstirq |= MMCR_HBMSTIRQCTL_M_TABRT_IRQ_ENB;
1.22    dyoung 	mstirq |= MMCR_HBMSTIRQCTL_M_MABRT_IRQ_ENB;
1.22    dyoung 	mstirq |= MMCR_HBMSTIRQCTL_M_SERR_IRQ_ENB;
1.22    dyoung 	mstirq |= MMCR_HBMSTIRQCTL_M_RPER_IRQ_ENB;
1.22    dyoung 	mstirq |= MMCR_HBMSTIRQCTL_M_DPER_IRQ_ENB;
1.22    dyoung
1.22    dyoung 	tgtirq |= MMCR_HBTGTIRQCTL_T_DLYTO_IRQ_ENB;
1.22    dyoung 	tgtirq |= MMCR_HBTGTIRQCTL_T_APER_IRQ_ENB;
1.22    dyoung 	tgtirq |= MMCR_HBTGTIRQCTL_T_DPER_IRQ_ENB;
1.22    dyoung
1.22    dyoung 	if (elansc_pcinmi) {
1.22    dyoung 		sc->sc_eih = nmi_establish(elanpex_intr, sc);
1.22    dyoung
1.35    dyoung 		/* Activate NMI instead of maskable interrupts for
1.35    dyoung 		 * all PCI exceptions:
1.35    dyoung 		 */
1.22    dyoung 		mstirq |= MMCR_HBMSTIRQCTL_M_RTRTO_IRQ_SEL;
1.22    dyoung 		mstirq |= MMCR_HBMSTIRQCTL_M_TABRT_IRQ_SEL;
1.22    dyoung 		mstirq |= MMCR_HBMSTIRQCTL_M_MABRT_IRQ_SEL;
1.22    dyoung 		mstirq |= MMCR_HBMSTIRQCTL_M_SERR_IRQ_SEL;
1.22    dyoung 		mstirq |= MMCR_HBMSTIRQCTL_M_RPER_IRQ_SEL;
1.22    dyoung 		mstirq |= MMCR_HBMSTIRQCTL_M_DPER_IRQ_SEL;
1.22    dyoung
1.22    dyoung 		tgtirq |= MMCR_HBTGTIRQCTL_T_DLYTO_IRQ_SEL;
1.22    dyoung 		tgtirq |= MMCR_HBTGTIRQCTL_T_APER_IRQ_SEL;
1.22    dyoung 		tgtirq |= MMCR_HBTGTIRQCTL_T_DPER_IRQ_SEL;
1.22    dyoung 	} else
1.22    dyoung 		sc->sc_eih = elansc_intr_establish(self, elanpex_intr, sc);
1.22    dyoung
1.22    dyoung 	bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_SYSARBCTL, sysarbctl);
1.22    dyoung 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_HBMSTIRQCTL, mstirq);
1.22    dyoung 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_HBTGTIRQCTL, tgtirq);
1.22    dyoung }
1.22    dyoung
1.22    dyoung static void
1.22    dyoung elanpex_attach(device_t parent, device_t self, void *aux)
1.22    dyoung {
1.22    dyoung 	struct elansc_softc *sc = device_private(parent);
1.22    dyoung
1.22    dyoung 	aprint_naive(": PCI Exceptions\n");
1.22    dyoung 	aprint_normal(": AMD Elan SC520 PCI Exceptions\n");
1.22    dyoung
1.22    dyoung 	elanpex_intr_establish(self, sc);
1.22    dyoung
1.22    dyoung 	aprint_debug_dev(self, "HBMSTIRQCTL %04x\n",
1.22    dyoung 	    bus_space_read_2(sc->sc_memt, sc->sc_memh, MMCR_HBMSTIRQCTL));
1.22    dyoung
1.22    dyoung 	aprint_debug_dev(self, "HBTGTIRQCTL %04x\n",
1.22    dyoung 	    bus_space_read_2(sc->sc_memt, sc->sc_memh, MMCR_HBTGTIRQCTL));
1.22    dyoung
1.22    dyoung 	aprint_debug_dev(self, "PCIHOSTMAP %04x\n",
1.22    dyoung 	    bus_space_read_2(sc->sc_memt, sc->sc_memh, MMCR_PCIHOSTMAP));
1.22    dyoung
1.22    dyoung 	pci_conf_write(sc->sc_pc, sc->sc_tag, PCI_COMMAND_STATUS_REG,
1.22    dyoung 	    pci_conf_read(sc->sc_pc, sc->sc_tag, PCI_COMMAND_STATUS_REG) |
1.22    dyoung 	    PCI_COMMAND_PARITY_ENABLE|PCI_COMMAND_SERR_ENABLE);
1.22    dyoung
1.26    dyoung 	if (!pmf_device_register1(self, elanpex_suspend, elanpex_resume,
1.26    dyoung 	                          elanpex_shutdown))
1.22    dyoung 		aprint_error_dev(self, "could not establish power hooks\n");
1.22    dyoung }
1.22    dyoung
1.26    dyoung static bool
1.26    dyoung elanpex_shutdown(device_t self, int flags)
1.22    dyoung {
1.26    dyoung 	struct elansc_softc *sc = device_private(device_parent(self));
1.22    dyoung 	uint8_t sysarbctl;
1.22    dyoung 	uint16_t pcihostmap, mstirq, tgtirq;
1.22    dyoung
1.22    dyoung 	sysarbctl = bus_space_read_1(sc->sc_memt, sc->sc_memh, MMCR_SYSARBCTL);
1.22    dyoung 	sysarbctl &= ~MMCR_SYSARBCTL_GNT_TO_INT_ENB;
1.22    dyoung 	bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_SYSARBCTL, sysarbctl);
1.22    dyoung
1.22    dyoung 	mstirq = bus_space_read_2(sc->sc_memt, sc->sc_memh, MMCR_HBMSTIRQCTL);
1.22    dyoung 	mstirq &= ~MMCR_HBMSTIRQCTL_M_RTRTO_IRQ_ENB;
1.22    dyoung 	mstirq &= ~MMCR_HBMSTIRQCTL_M_TABRT_IRQ_ENB;
1.22    dyoung 	mstirq &= ~MMCR_HBMSTIRQCTL_M_MABRT_IRQ_ENB;
1.22    dyoung 	mstirq &= ~MMCR_HBMSTIRQCTL_M_SERR_IRQ_ENB;
1.22    dyoung 	mstirq &= ~MMCR_HBMSTIRQCTL_M_RPER_IRQ_ENB;
1.22    dyoung 	mstirq &= ~MMCR_HBMSTIRQCTL_M_DPER_IRQ_ENB;
1.22    dyoung 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_HBMSTIRQCTL, mstirq);
1.22    dyoung
1.22    dyoung 	tgtirq = bus_space_read_2(sc->sc_memt, sc->sc_memh, MMCR_HBTGTIRQCTL);
1.22    dyoung 	tgtirq &= ~MMCR_HBTGTIRQCTL_T_DLYTO_IRQ_ENB;
1.22    dyoung 	tgtirq &= ~MMCR_HBTGTIRQCTL_T_APER_IRQ_ENB;
1.22    dyoung 	tgtirq &= ~MMCR_HBTGTIRQCTL_T_DPER_IRQ_ENB;
1.22    dyoung 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_HBTGTIRQCTL, tgtirq);
1.22    dyoung
1.22    dyoung 	pcihostmap = bus_space_read_2(sc->sc_memt, sc->sc_memh,
1.22    dyoung 	    MMCR_PCIHOSTMAP);
1.22    dyoung 	/* Priority P2 (Master PIC IR1) */
1.22    dyoung 	pcihostmap &= ~MMCR_PCIHOSTMAP_PCI_IRQ_MAP;
1.22    dyoung 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_PCIHOSTMAP,
1.22    dyoung 	    pcihostmap);
1.22    dyoung
1.26    dyoung 	return true;
1.26    dyoung }
1.26    dyoung
1.26    dyoung static void
1.26    dyoung elanpex_intr_disestablish(struct elansc_softc *sc)
1.26    dyoung {
1.26    dyoung 	elanpex_shutdown(sc->sc_pex, 0);
1.26    dyoung
1.22    dyoung 	if (elansc_pcinmi)
1.22    dyoung 		nmi_disestablish(sc->sc_eih);
1.22    dyoung 	else
1.22    dyoung 		intr_disestablish(sc->sc_eih);
1.22    dyoung 	sc->sc_eih = NULL;
1.22    dyoung
1.22    dyoung }
1.22    dyoung
1.22    dyoung static int
1.22    dyoung elanpex_detach(device_t self, int flags)
1.22    dyoung {
1.22    dyoung 	struct elansc_softc *sc = device_private(device_parent(self));
1.22    dyoung
1.22    dyoung 	pmf_device_deregister(self);
1.22    dyoung 	elanpex_intr_disestablish(sc);
1.22    dyoung
1.22    dyoung 	return 0;
1.22    dyoung }
1.22    dyoung
1.22    dyoung static void
1.22    dyoung elanpar_intr_establish(device_t self, struct elansc_softc *sc)
1.22    dyoung {
1.22    dyoung 	uint8_t adddecctl, wpvmap;
1.22    dyoung
1.22    dyoung 	wpvmap = bus_space_read_1(sc->sc_memt, sc->sc_memh, MMCR_WPVMAP);
1.22    dyoung 	wpvmap &= ~MMCR_WPVMAP_INT_MAP;
1.22    dyoung 	if (elansc_wpvnmi)
1.22    dyoung 		wpvmap |= MMCR_WPVMAP_INT_NMI;
1.22    dyoung 	else
1.22    dyoung 		wpvmap |= __SHIFTIN(__BIT(ELAN_IRQ), MMCR_WPVMAP_INT_MAP);
1.22    dyoung 	bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_WPVMAP, wpvmap);
1.22    dyoung
1.22    dyoung 	/* clear interrupt status */
1.22    dyoung 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_WPVSTA,
1.22    dyoung 	    MMCR_WPVSTA_WPV_STA);
1.22    dyoung
1.22    dyoung 	/* establish interrupt */
1.22    dyoung 	if (elansc_wpvnmi)
1.22    dyoung 		sc->sc_pih = nmi_establish(elanpar_intr, sc);
1.22    dyoung 	else
1.22    dyoung 		sc->sc_pih = elansc_intr_establish(self, elanpar_intr, sc);
1.22    dyoung
1.22    dyoung 	adddecctl = bus_space_read_1(sc->sc_memt, sc->sc_memh, MMCR_ADDDECCTL);
1.22    dyoung 	adddecctl |= MMCR_ADDDECCTL_WPV_INT_ENB;
1.22    dyoung 	bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_ADDDECCTL, adddecctl);
1.22    dyoung }
1.22    dyoung
1.26    dyoung static bool
1.26    dyoung elanpar_shutdown(device_t self, int flags)
1.26    dyoung {
1.27    dyoung 	int i;
1.26    dyoung 	struct elansc_softc *sc = device_private(device_parent(self));
1.26    dyoung
1.27    dyoung 	for (i = 0; i < __arraycount(sc->sc_textpar); i++) {
1.27    dyoung 		if (sc->sc_textpar[i] == -1)
1.27    dyoung 			continue;
1.27    dyoung 		elansc_disable_par(sc->sc_memt, sc->sc_memh, sc->sc_textpar[i]);
1.27    dyoung 		sc->sc_textpar[i] = -1;
1.26    dyoung 	}
1.26    dyoung 	if (sc->sc_pg0par != -1) {
1.26    dyoung 		elansc_disable_par(sc->sc_memt, sc->sc_memh, sc->sc_pg0par);
1.26    dyoung 		sc->sc_pg0par = -1;
1.26    dyoung 	}
1.26    dyoung 	return true;
1.26    dyoung }
1.26    dyoung
1.22    dyoung static void
1.30    dyoung elanpar_deferred_attach(device_t self)
1.30    dyoung {
1.30    dyoung 	struct elansc_softc *sc = device_private(device_parent(self));
1.30    dyoung
1.30    dyoung 	elansc_protect_text(self, sc);
1.30    dyoung }
1.30    dyoung
1.30    dyoung static void
1.22    dyoung elanpar_attach(device_t parent, device_t self, void *aux)
1.22    dyoung {
1.22    dyoung 	struct elansc_softc *sc = device_private(parent);
1.22    dyoung
1.22    dyoung 	aprint_naive(": Programmable Address Regions\n");
1.22    dyoung 	aprint_normal(": AMD Elan SC520 Programmable Address Regions\n");
1.22    dyoung
1.22    dyoung 	elansc_print_1(self, sc, MMCR_WPVMAP);
1.22    dyoung 	elansc_print_all_par(self, sc->sc_memt, sc->sc_memh);
1.22    dyoung
1.23    dyoung 	sc->sc_pg0par = elansc_protect_pg0(self, sc);
1.30    dyoung 	/* XXX grotty hack to avoid trapping writes by x86_patch()
1.30    dyoung 	 * to the kernel text on a MULTIPROCESSOR kernel.
1.30    dyoung 	 */
1.30    dyoung 	config_interrupts(self, elanpar_deferred_attach);
1.27    dyoung
1.27    dyoung 	elansc_print_all_par(self, sc->sc_memt, sc->sc_memh);
1.22    dyoung
1.22    dyoung 	elanpar_intr_establish(self, sc);
1.22    dyoung
1.22    dyoung 	elansc_print_1(self, sc, MMCR_ADDDECCTL);
1.22    dyoung
1.26    dyoung 	if (!pmf_device_register1(self, elanpar_suspend, elanpar_resume,
1.26    dyoung 	                          elanpar_shutdown))
1.22    dyoung 		aprint_error_dev(self, "could not establish power hooks\n");
1.22    dyoung }
1.22    dyoung
1.22    dyoung static void
1.22    dyoung elanpar_intr_disestablish(struct elansc_softc *sc)
1.22    dyoung {
1.22    dyoung 	uint8_t adddecctl, wpvmap;
1.22    dyoung
1.22    dyoung 	/* disable interrupt, acknowledge it, disestablish our
1.22    dyoung 	 * handler, unmap it
1.22    dyoung 	 */
1.22    dyoung 	adddecctl = bus_space_read_1(sc->sc_memt, sc->sc_memh, MMCR_ADDDECCTL);
1.22    dyoung 	adddecctl &= ~MMCR_ADDDECCTL_WPV_INT_ENB;
1.22    dyoung 	bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_ADDDECCTL, adddecctl);
1.22    dyoung
1.22    dyoung 	bus_space_write_2(sc->sc_memt, sc->sc_memh, MMCR_WPVSTA,
1.22    dyoung 	    MMCR_WPVSTA_WPV_STA);
1.22    dyoung
1.22    dyoung 	if (elansc_wpvnmi)
1.22    dyoung 		nmi_disestablish(sc->sc_pih);
1.22    dyoung 	else
1.22    dyoung 		intr_disestablish(sc->sc_pih);
1.22    dyoung 	sc->sc_pih = NULL;
1.22    dyoung
1.22    dyoung 	wpvmap = bus_space_read_1(sc->sc_memt, sc->sc_memh, MMCR_WPVMAP);
1.22    dyoung 	wpvmap &= ~MMCR_WPVMAP_INT_MAP;
1.22    dyoung 	bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_WPVMAP, wpvmap);
1.22    dyoung }
1.22    dyoung
1.22    dyoung static int
1.22    dyoung elanpar_detach(device_t self, int flags)
1.22    dyoung {
1.22    dyoung 	struct elansc_softc *sc = device_private(device_parent(self));
1.22    dyoung
1.22    dyoung 	pmf_device_deregister(self);
1.22    dyoung
1.26    dyoung 	elanpar_shutdown(self, 0);
1.22    dyoung
1.22    dyoung 	elanpar_intr_disestablish(sc);
1.22    dyoung
1.22    dyoung 	return 0;
1.22    dyoung }
1.22    dyoung
 1.1   thorpej static void
1.21    dyoung elansc_attach(device_t parent, device_t self, void *aux)
 1.1   thorpej {
1.17    dyoung 	struct elansc_softc *sc = device_private(self);
1.31    dyoung 	struct pcibus_attach_args *pba = aux;
 1.1   thorpej 	uint16_t rev;
1.22    dyoung 	uint8_t cpuctl, picicr, ressta;
1.10  drochner #if NGPIO > 0
1.10  drochner 	struct gpiobus_attach_args gba;
1.22    dyoung 	int pin, reg, shift;
 1.9       riz 	uint16_t data;
1.10  drochner #endif
1.29    dyoung
1.29    dyoung 	sc->sc_dev = self;
1.29    dyoung
1.31    dyoung 	sc->sc_pc = pba->pba_pc;
1.31    dyoung 	sc->sc_tag = pci_make_tag(sc->sc_pc, 0, 0, 0);
 1.1   thorpej
1.14   thorpej 	aprint_naive(": System Controller\n");
1.14   thorpej 	aprint_normal(": AMD Elan SC520 System Controller\n");
 1.1   thorpej
1.31    dyoung 	sc->sc_memt = pba->pba_memt;
 1.5   thorpej 	if (bus_space_map(sc->sc_memt, MMCR_BASE_ADDR, PAGE_SIZE, 0,
 1.1   thorpej 	    &sc->sc_memh) != 0) {
1.29    dyoung 		aprint_error_dev(sc->sc_dev, "unable to map registers\n");
 1.1   thorpej 		return;
 1.1   thorpej 	}
 1.1   thorpej
1.19    dyoung 	mutex_init(&sc->sc_mtx, MUTEX_DEFAULT, IPL_HIGH);
1.19    dyoung
 1.1   thorpej 	rev = bus_space_read_2(sc->sc_memt, sc->sc_memh, MMCR_REVID);
 1.1   thorpej 	cpuctl = bus_space_read_1(sc->sc_memt, sc->sc_memh, MMCR_CPUCTL);
 1.1   thorpej
1.29    dyoung 	aprint_normal_dev(sc->sc_dev,
1.21    dyoung 	    "product %d stepping %d.%d, CPU clock %s\n",
 1.1   thorpej 	    (rev & REVID_PRODID) >> REVID_PRODID_SHIFT,
 1.1   thorpej 	    (rev & REVID_MAJSTEP) >> REVID_MAJSTEP_SHIFT,
 1.1   thorpej 	    (rev & REVID_MINSTEP),
 1.1   thorpej 	    elansc_speeds[cpuctl & CPUCTL_CPU_CLK_SPD_MASK]);
 1.1   thorpej
 1.1   thorpej 	/*
 1.1   thorpej 	 * SC520 rev A1 has a bug that affects the watchdog timer.  If
 1.1   thorpej 	 * the GP bus echo mode is enabled, writing to the watchdog control
 1.1   thorpej 	 * register is blocked.
 1.1   thorpej 	 *
 1.1   thorpej 	 * The BIOS in some systems (e.g. the Soekris net4501) enables
 1.1   thorpej 	 * GP bus echo for various reasons, so we need to switch it off
 1.1   thorpej 	 * when we talk to the watchdog timer.
 1.1   thorpej 	 *
 1.1   thorpej 	 * XXX The step 1.1 (B1?) in my Soekris net4501 also has this
 1.1   thorpej 	 * XXX problem, so we'll just enable it for all Elan SC520s
 1.8    keihan 	 * XXX for now.  --thorpej (at) NetBSD.org
 1.1   thorpej 	 */
 1.1   thorpej 	if (1 || rev == ((PRODID_ELAN_SC520 << REVID_PRODID_SHIFT) |
 1.1   thorpej 		    (0 << REVID_MAJSTEP_SHIFT) | (1)))
 1.1   thorpej 		sc->sc_echobug = 1;
 1.1   thorpej
 1.1   thorpej 	/*
 1.1   thorpej 	 * Determine cause of the last reset, and issue a warning if it
 1.1   thorpej 	 * was due to watchdog expiry.
 1.1   thorpej 	 */
 1.1   thorpej 	ressta = bus_space_read_1(sc->sc_memt, sc->sc_memh, MMCR_RESSTA);
 1.1   thorpej 	if (ressta & RESSTA_WDT_RST_DET)
1.29    dyoung 		aprint_error_dev(sc->sc_dev,
1.21    dyoung 		    "WARNING: LAST RESET DUE TO WATCHDOG EXPIRATION!\n");
 1.1   thorpej 	bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_RESSTA, ressta);
 1.1   thorpej
1.22    dyoung 	elansc_print_1(self, sc, MMCR_MPICMODE);
1.22    dyoung 	elansc_print_1(self, sc, MMCR_SL1PICMODE);
1.22    dyoung 	elansc_print_1(self, sc, MMCR_SL2PICMODE);
1.22    dyoung 	elansc_print_1(self, sc, MMCR_PICICR);
1.22    dyoung
1.22    dyoung 	sc->sc_mpicmode = bus_space_read_1(sc->sc_memt, sc->sc_memh,
1.22    dyoung 	    MMCR_MPICMODE);
1.22    dyoung 	bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_MPICMODE,
1.22    dyoung 	    sc->sc_mpicmode | __BIT(ELAN_IRQ));
1.22    dyoung
1.22    dyoung 	sc->sc_picicr = bus_space_read_1(sc->sc_memt, sc->sc_memh, MMCR_PICICR);
1.22    dyoung 	picicr = sc->sc_picicr;
1.22    dyoung 	if (elansc_pcinmi || elansc_wpvnmi)
1.22    dyoung 		picicr |= MMCR_PICICR_NMI_ENB;
1.22    dyoung #if 0
1.22    dyoung 	/* PC/AT compatibility */
1.22    dyoung 	picicr |= MMCR_PICICR_S1_GINT_MODE|MMCR_PICICR_M_GINT_MODE;
1.22    dyoung #endif
1.22    dyoung 	bus_space_write_1(sc->sc_memt, sc->sc_memh, MMCR_PICICR, picicr);
1.22    dyoung
1.22    dyoung 	elansc_print_1(self, sc, MMCR_PICICR);
1.22    dyoung 	elansc_print_1(self, sc, MMCR_MPICMODE);
1.22    dyoung
1.22    dyoung 	mutex_enter(&sc->sc_mtx);
 1.1   thorpej 	/* Set up the watchdog registers with some defaults. */
 1.1   thorpej 	elansc_wdogctl_write(sc, WDTMRCTL_WRST_ENB | WDTMRCTL_EXP_SEL30);
 1.1   thorpej
 1.1   thorpej 	/* ...and clear it. */
 1.1   thorpej 	elansc_wdogctl_reset(sc);
1.22    dyoung 	mutex_exit(&sc->sc_mtx);
 1.9       riz
1.22    dyoung 	if (!pmf_device_register(self, elansc_suspend, elansc_resume))
1.22    dyoung 		aprint_error_dev(self, "could not establish power hooks\n");
1.17    dyoung
1.10  drochner #if NGPIO > 0
 1.9       riz 	/* Initialize GPIO pins array */
 1.9       riz 	for (pin = 0; pin < ELANSC_PIO_NPINS; pin++) {
 1.9       riz 		sc->sc_gpio_pins[pin].pin_num = pin;
 1.9       riz 		sc->sc_gpio_pins[pin].pin_caps = GPIO_PIN_INPUT |
 1.9       riz 		    GPIO_PIN_OUTPUT;
 1.9       riz
 1.9       riz 		/* Read initial state */
 1.9       riz 		reg = (pin < 16 ? MMCR_PIODIR15_0 : MMCR_PIODIR31_16);
 1.9       riz 		shift = pin % 16;
 1.9       riz 		data = bus_space_read_2(sc->sc_memt, sc->sc_memh, reg);
 1.9       riz 		if ((data & (1 << shift)) == 0)
 1.9       riz 			sc->sc_gpio_pins[pin].pin_flags = GPIO_PIN_INPUT;
 1.9       riz 		else
 1.9       riz 			sc->sc_gpio_pins[pin].pin_flags = GPIO_PIN_OUTPUT;
 1.9       riz 		if (elansc_gpio_pin_read(sc, pin) == 0)
 1.9       riz 			sc->sc_gpio_pins[pin].pin_state = GPIO_PIN_LOW;
 1.9       riz 		else
 1.9       riz 			sc->sc_gpio_pins[pin].pin_state = GPIO_PIN_HIGH;
 1.9       riz 	}
 1.9       riz
 1.9       riz 	/* Create controller tag */
 1.9       riz 	sc->sc_gpio_gc.gp_cookie = sc;
 1.9       riz 	sc->sc_gpio_gc.gp_pin_read = elansc_gpio_pin_read;
 1.9       riz 	sc->sc_gpio_gc.gp_pin_write = elansc_gpio_pin_write;
 1.9       riz 	sc->sc_gpio_gc.gp_pin_ctl = elansc_gpio_pin_ctl;
 1.9       riz
 1.9       riz 	gba.gba_gc = &sc->sc_gpio_gc;
 1.9       riz 	gba.gba_pins = sc->sc_gpio_pins;
 1.9       riz 	gba.gba_npins = ELANSC_PIO_NPINS;
 1.9       riz
1.29    dyoung 	sc->sc_par = config_found_ia(sc->sc_dev, "elanparbus", NULL, NULL);
1.29    dyoung 	sc->sc_pex = config_found_ia(sc->sc_dev, "elanpexbus", NULL, NULL);
 1.9       riz 	/* Attach GPIO framework */
1.36    dyoung 	sc->sc_gpio = config_found_ia(sc->sc_dev, "gpiobus", &gba,
1.36    dyoung 	    gpiobus_print);
1.10  drochner #endif /* NGPIO */
1.19    dyoung
1.19    dyoung 	/*
1.19    dyoung 	 * Hook up the watchdog timer.
1.19    dyoung 	 */
1.29    dyoung 	sc->sc_smw.smw_name = device_xname(sc->sc_dev);
1.19    dyoung 	sc->sc_smw.smw_cookie = sc;
1.19    dyoung 	sc->sc_smw.smw_setmode = elansc_wdog_setmode;
1.19    dyoung 	sc->sc_smw.smw_tickle = elansc_wdog_tickle;
1.19    dyoung 	sc->sc_smw.smw_period = 32;	/* actually 32.54 */
1.21    dyoung 	if (sysmon_wdog_register(&sc->sc_smw) != 0) {
1.29    dyoung 		aprint_error_dev(sc->sc_dev,
1.21    dyoung 		    "unable to register watchdog with sysmon\n");
1.21    dyoung 	}
1.31    dyoung 	elansc_attached = true;
1.31    dyoung 	sc->sc_pci = config_found_ia(self, "pcibus", pba, pcibusprint);
 1.1   thorpej }
 1.1   thorpej
1.22    dyoung static int
1.36    dyoung elanpex_match(device_t parent, cfdata_t match, void *aux)
1.22    dyoung {
1.22    dyoung 	struct elansc_softc *sc = device_private(parent);
1.22    dyoung
1.22    dyoung 	return sc->sc_pex == NULL;
1.22    dyoung }
1.22    dyoung
1.22    dyoung static int
1.36    dyoung elanpar_match(device_t parent, cfdata_t match, void *aux)
1.22    dyoung {
1.22    dyoung 	struct elansc_softc *sc = device_private(parent);
1.22    dyoung
1.22    dyoung 	return sc->sc_par == NULL;
1.22    dyoung }
1.22    dyoung
1.36    dyoung static bool
1.36    dyoung ifattr_match(const char *snull, const char *t)
1.36    dyoung {
1.36    dyoung 	return (snull == NULL) || strcmp(snull, t) == 0;
1.36    dyoung }
1.36    dyoung
1.36    dyoung /* scan for new children */
1.36    dyoung static int
1.36    dyoung elansc_rescan(device_t self, const char *ifattr, const int *locators)
1.36    dyoung {
1.36    dyoung 	struct elansc_softc *sc = device_private(self);
1.36    dyoung
1.36    dyoung 	if (ifattr_match(ifattr, "gpiobus") && sc->sc_gpio == NULL) {
1.36    dyoung #if NGPIO > 0
1.36    dyoung 		struct gpiobus_attach_args gba;
1.36    dyoung
1.36    dyoung 		gba.gba_gc = &sc->sc_gpio_gc;
1.36    dyoung 		gba.gba_pins = sc->sc_gpio_pins;
1.36    dyoung 		gba.gba_npins = ELANSC_PIO_NPINS;
1.36    dyoung 		sc->sc_gpio = config_found_ia(sc->sc_dev, "gpiobus", &gba,
1.36    dyoung 		    gpiobus_print);
1.36    dyoung #endif
1.36    dyoung 	}
1.36    dyoung
1.36    dyoung 	if (ifattr_match(ifattr, "elanparbus") && sc->sc_par == NULL)
1.36    dyoung 		sc->sc_par = config_found_ia(sc->sc_dev, ifattr, NULL, NULL);
1.36    dyoung
1.36    dyoung 	if (ifattr_match(ifattr, "elanpexbus") && sc->sc_pex == NULL)
1.36    dyoung 		sc->sc_pex = config_found_ia(sc->sc_dev, ifattr, NULL, NULL);
1.36    dyoung
1.36    dyoung 	if (ifattr_match(ifattr, "pcibus") && sc->sc_pci == NULL) {
1.36    dyoung #if 0
1.36    dyoung 		/* TBD */
1.36    dyoung 		sc->sc_pci = config_found_ia(self, "pcibus", pba, pcibusprint);
1.36    dyoung #endif
1.36    dyoung 	}
1.36    dyoung 	return 0;
1.36    dyoung }
1.36    dyoung
1.31    dyoung CFATTACH_DECL_NEW(elanpar, 0,
1.22    dyoung     elanpar_match, elanpar_attach, elanpar_detach, NULL);
1.22    dyoung
1.31    dyoung CFATTACH_DECL_NEW(elanpex, 0,
1.22    dyoung     elanpex_match, elanpex_attach, elanpex_detach, NULL);
1.22    dyoung
1.29    dyoung CFATTACH_DECL2_NEW(elansc, sizeof(struct elansc_softc),
1.36    dyoung     elansc_match, elansc_attach, elansc_detach, NULL, elansc_rescan,
1.19    dyoung     elansc_childdetached);
 1.9       riz
1.10  drochner #if NGPIO > 0
 1.9       riz static int
 1.9       riz elansc_gpio_pin_read(void *arg, int pin)
 1.9       riz {
 1.9       riz 	struct elansc_softc *sc = arg;
 1.9       riz 	int reg, shift;
1.13     perry 	uint16_t data;
 1.9       riz
 1.9       riz 	reg = (pin < 16 ? MMCR_PIODATA15_0 : MMCR_PIODATA31_16);
 1.9       riz 	shift = pin % 16;
1.19    dyoung
1.19    dyoung 	mutex_enter(&sc->sc_mtx);
 1.9       riz 	data = bus_space_read_2(sc->sc_memt, sc->sc_memh, reg);
1.19    dyoung 	mutex_exit(&sc->sc_mtx);
 1.9       riz
 1.9       riz 	return ((data >> shift) & 0x1);
 1.9       riz }
 1.9       riz
 1.9       riz static void
 1.9       riz elansc_gpio_pin_write(void *arg, int pin, int value)
 1.9       riz {
 1.9       riz 	struct elansc_softc *sc = arg;
 1.9       riz 	int reg, shift;
1.13     perry 	uint16_t data;
 1.9       riz
 1.9       riz 	reg = (pin < 16 ? MMCR_PIODATA15_0 : MMCR_PIODATA31_16);
 1.9       riz 	shift = pin % 16;
1.19    dyoung
1.19    dyoung 	mutex_enter(&sc->sc_mtx);
 1.9       riz 	data = bus_space_read_2(sc->sc_memt, sc->sc_memh, reg);
 1.9       riz 	if (value == 0)
 1.9       riz 		data &= ~(1 << shift);
 1.9       riz 	else if (value == 1)
 1.9       riz 		data |= (1 << shift);
 1.9       riz
 1.9       riz 	bus_space_write_2(sc->sc_memt, sc->sc_memh, reg, data);
1.19    dyoung 	mutex_exit(&sc->sc_mtx);
 1.9       riz }
 1.9       riz
 1.9       riz static void
 1.9       riz elansc_gpio_pin_ctl(void *arg, int pin, int flags)
 1.9       riz {
 1.9       riz 	struct elansc_softc *sc = arg;
 1.9       riz 	int reg, shift;
1.13     perry 	uint16_t data;
 1.9       riz
 1.9       riz 	reg = (pin < 16 ? MMCR_PIODIR15_0 : MMCR_PIODIR31_16);
 1.9       riz 	shift = pin % 16;
1.19    dyoung 	mutex_enter(&sc->sc_mtx);
 1.9       riz 	data = bus_space_read_2(sc->sc_memt, sc->sc_memh, reg);
 1.9       riz 	if (flags & GPIO_PIN_INPUT)
 1.9       riz 		data &= ~(1 << shift);
 1.9       riz 	if (flags & GPIO_PIN_OUTPUT)
 1.9       riz 		data |= (1 << shift);
 1.9       riz
 1.9       riz 	bus_space_write_2(sc->sc_memt, sc->sc_memh, reg, data);
1.19    dyoung 	mutex_exit(&sc->sc_mtx);
 1.9       riz }
1.10  drochner #endif /* NGPIO */