prep/pnpbus/nvram_pnpbus.c

1.3.2.6  yamt /* $NetBSD: nvram_pnpbus.c,v 1.3.2.6 2008/01/21 09:38:32 yamt Exp $ */
1.3.2.2  yamt
1.3.2.2  yamt /*-
1.3.2.2  yamt  * Copyright (c) 2006 The NetBSD Foundation, Inc.
1.3.2.2  yamt  * All rights reserved.
1.3.2.2  yamt  *
1.3.2.2  yamt  * This code is derived from software contributed to The NetBSD Foundation
1.3.2.2  yamt  * by Tim Rightnour
1.3.2.2  yamt  *
1.3.2.2  yamt  * Redistribution and use in source and binary forms, with or without
1.3.2.2  yamt  * modification, are permitted provided that the following conditions
1.3.2.2  yamt  * are met:
1.3.2.2  yamt  * 1. Redistributions of source code must retain the above copyright
1.3.2.2  yamt  *    notice, this list of conditions and the following disclaimer.
1.3.2.2  yamt  * 2. Redistributions in binary form must reproduce the above copyright
1.3.2.2  yamt  *    notice, this list of conditions and the following disclaimer in the
1.3.2.2  yamt  *    documentation and/or other materials provided with the distribution.
1.3.2.2  yamt  * 3. All advertising materials mentioning features or use of this software
1.3.2.2  yamt  *    must display the following acknowledgement:
1.3.2.2  yamt  *        This product includes software developed by the NetBSD
1.3.2.2  yamt  *        Foundation, Inc. and its contributors.
1.3.2.2  yamt  * 4. Neither the name of The NetBSD Foundation nor the names of its
1.3.2.2  yamt  *    contributors may be used to endorse or promote products derived
1.3.2.2  yamt  *    from this software without specific prior written permission.
1.3.2.2  yamt  *
1.3.2.2  yamt  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.3.2.2  yamt  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.3.2.2  yamt  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.3.2.2  yamt  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.3.2.2  yamt  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.3.2.2  yamt  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.3.2.2  yamt  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.3.2.2  yamt  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.3.2.2  yamt  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.3.2.2  yamt  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.3.2.2  yamt  * POSSIBILITY OF SUCH DAMAGE.
1.3.2.2  yamt  */
1.3.2.2  yamt
1.3.2.2  yamt #include <sys/cdefs.h>
1.3.2.6  yamt __KERNEL_RCSID(0, "$NetBSD: nvram_pnpbus.c,v 1.3.2.6 2008/01/21 09:38:32 yamt Exp $");
1.3.2.2  yamt
1.3.2.2  yamt #include <sys/types.h>
1.3.2.2  yamt #include <sys/param.h>
1.3.2.2  yamt #include <sys/systm.h>
1.3.2.2  yamt #include <sys/ioctl.h>
1.3.2.2  yamt #include <sys/conf.h>
1.3.2.2  yamt #include <sys/kthread.h>
1.3.2.2  yamt #include <sys/device.h>
1.3.2.2  yamt #include <sys/malloc.h>
1.3.2.6  yamt #include <sys/simplelock.h>
1.3.2.6  yamt #include <sys/bus.h>
1.3.2.6  yamt #include <sys/intr.h>
1.3.2.2  yamt
1.3.2.2  yamt #include <machine/isa_machdep.h>
1.3.2.2  yamt /* clock stuff for motorolla machines */
1.3.2.2  yamt #include <dev/clock_subr.h>
1.3.2.2  yamt #include <dev/ic/mk48txxreg.h>
1.3.2.2  yamt
1.3.2.4  yamt #include <uvm/uvm_extern.h>
1.3.2.4  yamt
1.3.2.4  yamt #include <machine/residual.h>
1.3.2.2  yamt #include <machine/nvram.h>
1.3.2.2  yamt
1.3.2.2  yamt #include <prep/pnpbus/pnpbusvar.h>
1.3.2.2  yamt
1.3.2.2  yamt #include "opt_nvram.h"
1.3.2.2  yamt
1.3.2.2  yamt static char *nvramData;
1.3.2.2  yamt static NVRAM_MAP *nvram;
1.3.2.2  yamt static char *nvramGEAp;		/* pointer to the GE area */
1.3.2.2  yamt static char *nvramCAp;		/* pointer to the Config area */
1.3.2.2  yamt static char *nvramOSAp;		/* pointer to the OSArea */
1.3.2.2  yamt struct simplelock nvram_slock;	/* lock */
1.3.2.2  yamt
1.3.2.2  yamt int prep_clock_mk48txx;
1.3.2.2  yamt
1.3.2.2  yamt extern char bootpath[256];
1.3.2.4  yamt extern RESIDUAL resdata;
1.3.2.2  yamt
1.3.2.2  yamt #define NVRAM_STD_DEV 0
1.3.2.2  yamt
1.3.2.2  yamt static int	nvram_pnpbus_probe(struct device *, struct cfdata *, void *);
1.3.2.2  yamt static void	nvram_pnpbus_attach(struct device *, struct device *, void *);
1.3.2.2  yamt uint8_t		prep_nvram_read_val(int);
1.3.2.2  yamt char		*prep_nvram_next_var(char *);
1.3.2.2  yamt char		*prep_nvram_find_var(const char *);
1.3.2.2  yamt char		*prep_nvram_get_var(const char *);
1.3.2.2  yamt int		prep_nvram_get_var_len(const char *);
1.3.2.2  yamt int		prep_nvram_count_vars(void);
1.3.2.2  yamt void		prep_nvram_write_val(int, uint8_t);
1.3.2.2  yamt uint8_t		mkclock_pnpbus_nvrd(struct mk48txx_softc *, int);
1.3.2.2  yamt void		mkclock_pnpbus_nvwr(struct mk48txx_softc *, int, uint8_t);
1.3.2.2  yamt
1.3.2.2  yamt CFATTACH_DECL(nvram_pnpbus, sizeof(struct nvram_pnpbus_softc),
1.3.2.2  yamt     nvram_pnpbus_probe, nvram_pnpbus_attach, NULL, NULL);
1.3.2.2  yamt
1.3.2.2  yamt dev_type_open(prep_nvramopen);
1.3.2.2  yamt dev_type_ioctl(prep_nvramioctl);
1.3.2.2  yamt dev_type_close(prep_nvramclose);
1.3.2.4  yamt dev_type_read(prep_nvramread);
1.3.2.2  yamt
1.3.2.4  yamt const struct cdevsw nvram_cdevsw = {
1.3.2.4  yamt 	prep_nvramopen, prep_nvramclose, prep_nvramread, nowrite,
1.3.2.4  yamt 	prep_nvramioctl, nostop, notty, nopoll, nommap, nokqfilter, D_OTHER,
1.3.2.2  yamt };
1.3.2.2  yamt
1.3.2.2  yamt extern struct cfdriver nvram_cd;
1.3.2.2  yamt
1.3.2.2  yamt static int
1.3.2.2  yamt nvram_pnpbus_probe(struct device *parent, struct cfdata *match, void *aux)
1.3.2.2  yamt {
1.3.2.2  yamt 	struct pnpbus_dev_attach_args *pna = aux;
1.3.2.2  yamt 	int ret = 0;
1.3.2.2  yamt
1.3.2.2  yamt 	if (strcmp(pna->pna_devid, "IBM0008") == 0)
1.3.2.2  yamt 		ret = 1;
1.3.2.2  yamt
1.3.2.2  yamt 	if (ret)
1.3.2.2  yamt 		pnpbus_scan(pna, pna->pna_ppc_dev);
1.3.2.2  yamt
1.3.2.2  yamt 	return ret;
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.2  yamt static void
1.3.2.2  yamt nvram_pnpbus_attach(struct device *parent, struct device *self, void *aux)
1.3.2.2  yamt {
1.3.2.2  yamt 	struct nvram_pnpbus_softc *sc = (void *)self;
1.3.2.2  yamt 	struct pnpbus_dev_attach_args *pna = aux;
1.3.2.2  yamt 	int as_iobase, as_len, data_iobase, data_len, i, nvlen, cur;
1.3.2.2  yamt 	uint8_t *p;
1.3.2.2  yamt 	HEADER prep_nvram_header;
1.3.2.2  yamt
1.3.2.2  yamt 	sc->sc_iot = pna->pna_iot;
1.3.2.2  yamt
1.3.2.2  yamt 	pnpbus_getioport(&pna->pna_res, 0, &as_iobase, &as_len);
1.3.2.2  yamt 	pnpbus_getioport(&pna->pna_res, 1, &data_iobase, &data_len);
1.3.2.2  yamt
1.3.2.2  yamt 	if (pnpbus_io_map(&pna->pna_res, 0, &sc->sc_as, &sc->sc_ash) ||
1.3.2.2  yamt 	    pnpbus_io_map(&pna->pna_res, 1, &sc->sc_data, &sc->sc_datah)) {
1.3.2.2  yamt 		aprint_error("nvram: couldn't map registers\n");
1.3.2.2  yamt 		return;
1.3.2.2  yamt 	}
1.3.2.2  yamt
1.3.2.2  yamt 	simple_lock_init(&nvram_slock);
1.3.2.2  yamt
1.3.2.2  yamt 	/* Initialize the nvram header */
1.3.2.2  yamt 	p = (uint8_t *) &prep_nvram_header;
1.3.2.2  yamt 	for (i = 0; i < sizeof(HEADER); i++)
1.3.2.2  yamt 		*p++ = prep_nvram_read_val(i);
1.3.2.2  yamt
1.3.2.2  yamt 	/*
1.3.2.2  yamt 	 * now that we have the header, we know how big the NVRAM part on
1.3.2.2  yamt 	 * this machine really is.  Malloc space to save a copy.
1.3.2.2  yamt 	 */
1.3.2.2  yamt
1.3.2.2  yamt 	nvlen = 1024 * prep_nvram_header.Size;
1.3.2.2  yamt 	nvramData = malloc(nvlen, M_DEVBUF, M_NOWAIT);
1.3.2.2  yamt 	p = (uint8_t *) nvramData;
1.3.2.2  yamt
1.3.2.2  yamt 	/*
1.3.2.2  yamt 	 * now read the whole nvram in, one chunk at a time, marking down
1.3.2.2  yamt 	 * the main start points as we go.
1.3.2.2  yamt 	 */
1.3.2.2  yamt 	for (i = 0; i < sizeof(HEADER) && i < nvlen; i++)
1.3.2.2  yamt 		*p++ = prep_nvram_read_val(i);
1.3.2.2  yamt 	nvramGEAp = p;
1.3.2.2  yamt 	cur = i;
1.3.2.2  yamt 	for (; i < cur + prep_nvram_header.GELength && i < nvlen; i++)
1.3.2.2  yamt 		*p++ = prep_nvram_read_val(i);
1.3.2.2  yamt 	nvramOSAp = p;
1.3.2.2  yamt 	cur = i;
1.3.2.2  yamt 	for (; i < cur + prep_nvram_header.OSAreaLength && i < nvlen; i++)
1.3.2.2  yamt 		*p++ = prep_nvram_read_val(i);
1.3.2.2  yamt 	nvramCAp = p;
1.3.2.2  yamt 	cur = i;
1.3.2.2  yamt 	for (; i < cur + prep_nvram_header.ConfigLength && i < nvlen; i++)
1.3.2.2  yamt 		*p++ = prep_nvram_read_val(i);
1.3.2.2  yamt
1.3.2.2  yamt 	/* we should be done here.  umm.. yay? */
1.3.2.2  yamt 	nvram = (NVRAM_MAP *)&nvramData[0];
1.3.2.2  yamt 	aprint_normal("\n");
1.3.2.2  yamt 	aprint_verbose("%s: Read %d bytes from nvram of size %d\n",
1.3.2.2  yamt 	    device_xname(self), i, nvlen);
1.3.2.2  yamt
1.3.2.2  yamt #if defined(NVRAM_DUMP)
1.3.2.2  yamt 	printf("Boot device: %s\n", prep_nvram_get_var("fw-boot-device"));
1.3.2.2  yamt 	printf("Dumping nvram\n");
1.3.2.2  yamt 	for (cur=0; cur < i; cur++) {
1.3.2.2  yamt 		printf("%c", nvramData[cur]);
1.3.2.2  yamt 		if (cur % 70 == 0)
1.3.2.2  yamt 			printf("\n");
1.3.2.2  yamt 	}
1.3.2.2  yamt #endif
1.3.2.2  yamt 	strncpy(bootpath, prep_nvram_get_var("fw-boot-device"), 256);
1.3.2.2  yamt
1.3.2.2  yamt
1.3.2.2  yamt 	if (prep_clock_mk48txx == 0)
1.3.2.2  yamt 		return;
1.3.2.2  yamt 	/* otherwise, we have a motorolla clock chip.  Set it up. */
1.3.2.2  yamt 	sc->sc_mksc.sc_model = "mk48t18";
1.3.2.2  yamt 	sc->sc_mksc.sc_year0 = 1900;
1.3.2.2  yamt 	sc->sc_mksc.sc_nvrd = mkclock_pnpbus_nvrd;
1.3.2.2  yamt 	sc->sc_mksc.sc_nvwr = mkclock_pnpbus_nvwr;
1.3.2.2  yamt 	/* copy down the bus space tags */
1.3.2.2  yamt 	sc->sc_mksc.sc_bst = sc->sc_as;
1.3.2.2  yamt 	sc->sc_mksc.sc_bsh = sc->sc_ash;
1.3.2.2  yamt 	sc->sc_mksc.sc_data = sc->sc_data;
1.3.2.2  yamt 	sc->sc_mksc.sc_datah = sc->sc_datah;
1.3.2.2  yamt
1.3.2.2  yamt 	aprint_normal("%s: attaching clock", device_xname(self));
1.3.2.2  yamt 	mk48txx_attach((struct mk48txx_softc *)&sc->sc_mksc);
1.3.2.3  yamt 	aprint_normal("\n");
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.2  yamt /*
1.3.2.2  yamt  * This function should be called at a high spl only, as it interfaces with
1.3.2.2  yamt  * real hardware.
1.3.2.2  yamt  */
1.3.2.2  yamt
1.3.2.2  yamt uint8_t
1.3.2.2  yamt prep_nvram_read_val(int addr)
1.3.2.2  yamt {
1.3.2.2  yamt 	struct nvram_pnpbus_softc *sc;
1.3.2.2  yamt
1.3.2.2  yamt 	if (nvram_cd.cd_devs == NULL || nvram_cd.cd_ndevs == 0
1.3.2.2  yamt             || nvram_cd.cd_devs[NVRAM_STD_DEV] == NULL) {
1.3.2.2  yamt                 return 0;
1.3.2.2  yamt         }
1.3.2.2  yamt
1.3.2.2  yamt         sc = (struct nvram_pnpbus_softc *) nvram_cd.cd_devs[NVRAM_STD_DEV];
1.3.2.2  yamt
1.3.2.2  yamt 	/* tell the NVRAM what we want */
1.3.2.2  yamt 	bus_space_write_1(sc->sc_as, sc->sc_ash, 0, addr);
1.3.2.2  yamt 	bus_space_write_1(sc->sc_as, sc->sc_ash, 1, addr>>8);
1.3.2.2  yamt
1.3.2.2  yamt 	return bus_space_read_1(sc->sc_data, sc->sc_datah, 0);
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.2  yamt /*
1.3.2.2  yamt  * This function should be called at a high spl only, as it interfaces with
1.3.2.2  yamt  * real hardware.
1.3.2.2  yamt  */
1.3.2.2  yamt
1.3.2.2  yamt void
1.3.2.2  yamt prep_nvram_write_val(int addr, uint8_t val)
1.3.2.2  yamt {
1.3.2.2  yamt 	struct nvram_pnpbus_softc *sc;
1.3.2.2  yamt
1.3.2.2  yamt 	if (nvram_cd.cd_devs == NULL || nvram_cd.cd_ndevs == 0
1.3.2.2  yamt             || nvram_cd.cd_devs[NVRAM_STD_DEV] == NULL) {
1.3.2.2  yamt                 return;
1.3.2.2  yamt         }
1.3.2.2  yamt
1.3.2.2  yamt         sc = (struct nvram_pnpbus_softc *) nvram_cd.cd_devs[NVRAM_STD_DEV];
1.3.2.2  yamt
1.3.2.2  yamt 	/* tell the NVRAM what we want */
1.3.2.2  yamt 	bus_space_write_1(sc->sc_as, sc->sc_ash, 0, addr);
1.3.2.2  yamt 	bus_space_write_1(sc->sc_as, sc->sc_ash, 1, addr>>8);
1.3.2.2  yamt
1.3.2.2  yamt 	bus_space_write_1(sc->sc_data, sc->sc_datah, 0, val);
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.2  yamt /* the rest of these should all be called with the lock held */
1.3.2.2  yamt
1.3.2.2  yamt char *
1.3.2.2  yamt prep_nvram_next_var(char *name)
1.3.2.2  yamt {
1.3.2.2  yamt 	char *cp;
1.3.2.2  yamt
1.3.2.4  yamt 	if (name == NULL)
1.3.2.4  yamt 		return NULL;
1.3.2.4  yamt
1.3.2.2  yamt 	cp = name;
1.3.2.2  yamt 	/* skip forward to the first null char */
1.3.2.2  yamt 	while ((cp - nvramGEAp) < nvram->Header.GELength && (*cp != '\0'))
1.3.2.2  yamt 		cp++;
1.3.2.2  yamt 	/* skip nulls */
1.3.2.2  yamt 	while ((cp - nvramGEAp) < nvram->Header.GELength && (*cp == '\0'))
1.3.2.2  yamt 		cp++;
1.3.2.2  yamt 	if ((cp - nvramGEAp) < nvram->Header.GELength)
1.3.2.2  yamt 		return cp;
1.3.2.2  yamt 	else
1.3.2.2  yamt 		return NULL;
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.2  yamt char *
1.3.2.2  yamt prep_nvram_find_var(const char *name)
1.3.2.2  yamt {
1.3.2.2  yamt 	char *cp = nvramGEAp;
1.3.2.2  yamt 	size_t len;
1.3.2.2  yamt
1.3.2.2  yamt 	len = strlen(name);
1.3.2.2  yamt 	while (cp != NULL) {
1.3.2.2  yamt 		if ((strncmp(name, cp, len) == 0) && (cp[len] == '='))
1.3.2.2  yamt 			return cp;
1.3.2.2  yamt 		cp = prep_nvram_next_var(cp);
1.3.2.2  yamt 	}
1.3.2.2  yamt 	return NULL;
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.2  yamt char *
1.3.2.2  yamt prep_nvram_get_var(const char *name)
1.3.2.2  yamt {
1.3.2.2  yamt 	char *cp = nvramGEAp;
1.3.2.2  yamt 	size_t len;
1.3.2.2  yamt
1.3.2.4  yamt 	if (name == NULL)
1.3.2.4  yamt 		return NULL;
1.3.2.2  yamt 	len = strlen(name);
1.3.2.2  yamt 	while (cp != NULL) {
1.3.2.2  yamt 		if ((strncmp(name, cp, len) == 0) && (cp[len] == '='))
1.3.2.2  yamt 			return cp+len+1;
1.3.2.2  yamt 		cp = prep_nvram_next_var(cp);
1.3.2.2  yamt 	}
1.3.2.2  yamt 	return NULL;
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.2  yamt int
1.3.2.2  yamt prep_nvram_get_var_len(const char *name)
1.3.2.2  yamt {
1.3.2.2  yamt 	char *cp = nvramGEAp;
1.3.2.2  yamt 	char *ep;
1.3.2.2  yamt 	size_t len;
1.3.2.2  yamt
1.3.2.4  yamt 	if (name == NULL)
1.3.2.4  yamt 		return -1;
1.3.2.4  yamt
1.3.2.2  yamt 	len = strlen(name);
1.3.2.2  yamt 	while (cp != NULL) {
1.3.2.2  yamt 		if ((strncmp(name, cp, len) == 0) && (cp[len] == '='))
1.3.2.2  yamt 			goto out;
1.3.2.2  yamt 		cp = prep_nvram_next_var(cp);
1.3.2.2  yamt 	}
1.3.2.2  yamt 	return -1;
1.3.2.2  yamt
1.3.2.2  yamt out:
1.3.2.2  yamt 	ep = cp;
1.3.2.2  yamt 	while (ep != NULL && *ep != '\0')
1.3.2.2  yamt 		ep++;
1.3.2.2  yamt 	return ep-cp;
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.2  yamt int
1.3.2.2  yamt prep_nvram_count_vars(void)
1.3.2.2  yamt {
1.3.2.2  yamt 	char *cp = nvramGEAp;
1.3.2.2  yamt 	int i=0;
1.3.2.2  yamt
1.3.2.2  yamt 	while (cp != NULL) {
1.3.2.2  yamt 		i++;
1.3.2.2  yamt 		cp = prep_nvram_next_var(cp);
1.3.2.2  yamt 	}
1.3.2.2  yamt 	return i;
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.4  yamt static int
1.3.2.4  yamt nvramgetstr(int len, char *user, char **cpp)
1.3.2.4  yamt {
1.3.2.4  yamt 	int error;
1.3.2.4  yamt 	char *cp;
1.3.2.4  yamt
1.3.2.4  yamt 	/* Reject obvious bogus requests */
1.3.2.4  yamt 	if ((u_int)len > (8 * 1024) - 1)
1.3.2.4  yamt 		return ENAMETOOLONG;
1.3.2.4  yamt
1.3.2.4  yamt 	*cpp = cp = malloc(len + 1, M_TEMP, M_WAITOK);
1.3.2.4  yamt 	error = copyin(user, cp, len);
1.3.2.4  yamt 	cp[len] = '\0';
1.3.2.4  yamt 	return error;
1.3.2.4  yamt }
1.3.2.4  yamt
1.3.2.2  yamt int
1.3.2.4  yamt prep_nvramioctl(dev_t dev, u_long cmd, void *data, int flags, struct lwp *l)
1.3.2.2  yamt {
1.3.2.2  yamt 	int len, error;
1.3.2.2  yamt 	struct pnviocdesc *pnv;
1.3.2.4  yamt 	char *np, *cp, *name;
1.3.2.2  yamt
1.3.2.2  yamt 	pnv = (struct pnviocdesc *)data;
1.3.2.2  yamt 	error = 0;
1.3.2.4  yamt 	cp = name = NULL;
1.3.2.2  yamt
1.3.2.2  yamt 	switch (cmd) {
1.3.2.2  yamt 	case PNVIOCGET:
1.3.2.2  yamt 		if (pnv->pnv_name == NULL)
1.3.2.2  yamt 			return EINVAL;
1.3.2.2  yamt
1.3.2.4  yamt 		error = nvramgetstr(pnv->pnv_namelen, pnv->pnv_name, &name);
1.3.2.2  yamt 		simple_lock(&nvram_slock);
1.3.2.4  yamt 		np = prep_nvram_get_var(name);
1.3.2.2  yamt 		simple_unlock(&nvram_slock);
1.3.2.2  yamt 		if (np == NULL)
1.3.2.2  yamt 			return EINVAL;
1.3.2.2  yamt 		simple_lock(&nvram_slock);
1.3.2.4  yamt 		len = prep_nvram_get_var_len(name);
1.3.2.2  yamt 		simple_unlock(&nvram_slock);
1.3.2.2  yamt
1.3.2.2  yamt 		if (len > pnv->pnv_buflen) {
1.3.2.2  yamt 			error = ENOMEM;
1.3.2.2  yamt 			break;
1.3.2.2  yamt 		}
1.3.2.2  yamt 		if (len <= 0)
1.3.2.2  yamt 			break;
1.3.2.2  yamt 		error = copyout(np, pnv->pnv_buf, len);
1.3.2.2  yamt 		pnv->pnv_buflen = len;
1.3.2.2  yamt 		break;
1.3.2.2  yamt
1.3.2.2  yamt 	case PNVIOCGETNEXTNAME:
1.3.2.2  yamt 		/* if the first one is null, we give them the first name */
1.3.2.2  yamt 		simple_lock(&nvram_slock);
1.3.2.2  yamt 		if (pnv->pnv_name == NULL) {
1.3.2.4  yamt 			cp = nvramGEAp;
1.3.2.2  yamt 		} else {
1.3.2.4  yamt 			error = nvramgetstr(pnv->pnv_namelen, pnv->pnv_name,
1.3.2.4  yamt 			    &name);
1.3.2.4  yamt 			if (!error) {
1.3.2.4  yamt 				np = prep_nvram_find_var(name);
1.3.2.4  yamt 				cp = prep_nvram_next_var(np);
1.3.2.4  yamt 			}
1.3.2.2  yamt 		}
1.3.2.2  yamt 		simple_unlock(&nvram_slock);
1.3.2.4  yamt 		if (cp == NULL)
1.3.2.4  yamt 			error = EINVAL;
1.3.2.4  yamt 		if (error)
1.3.2.4  yamt 			break;
1.3.2.4  yamt
1.3.2.2  yamt 		np = cp;
1.3.2.2  yamt 		while (*np != '=')
1.3.2.2  yamt 			np++;
1.3.2.2  yamt 		len = np-cp;
1.3.2.2  yamt 		if (len > pnv->pnv_buflen) {
1.3.2.2  yamt 			error = ENOMEM;
1.3.2.2  yamt 			break;
1.3.2.2  yamt 		}
1.3.2.2  yamt 		error = copyout(cp, pnv->pnv_buf, len);
1.3.2.4  yamt 		if (error)
1.3.2.4  yamt 			break;
1.3.2.2  yamt 		pnv->pnv_buflen = len;
1.3.2.2  yamt 		break;
1.3.2.4  yamt
1.3.2.4  yamt 	case PNVIOCGETNUMGE:
1.3.2.4  yamt 		/* count the GE variables */
1.3.2.4  yamt 		simple_lock(&nvram_slock);
1.3.2.4  yamt 		pnv->pnv_num = prep_nvram_count_vars();
1.3.2.4  yamt 		simple_unlock(&nvram_slock);
1.3.2.4  yamt 		break;
1.3.2.4  yamt 	case PNVIOCSET:
1.3.2.4  yamt 		/* this will require some real work.  Not ready yet */
1.3.2.4  yamt 		return ENOTSUP;
1.3.2.4  yamt
1.3.2.2  yamt 	default:
1.3.2.4  yamt 		return ENOTTY;
1.3.2.4  yamt 	}
1.3.2.4  yamt 	if (name)
1.3.2.4  yamt 		free(name, M_TEMP);
1.3.2.4  yamt 	return error;
1.3.2.4  yamt }
1.3.2.4  yamt
1.3.2.4  yamt int
1.3.2.4  yamt prep_nvramread(dev_t dev, struct uio *uio, int flags)
1.3.2.4  yamt {
1.3.2.4  yamt 	int size, resid, error;
1.3.2.4  yamt 	u_int c;
1.3.2.4  yamt 	char *rdata;
1.3.2.4  yamt
1.3.2.4  yamt 	error = 0;
1.3.2.4  yamt 	rdata = (char *)&resdata;
1.3.2.4  yamt
1.3.2.4  yamt 	if (uio->uio_rw == UIO_WRITE) {
1.3.2.4  yamt 		uio->uio_resid = 0;
1.3.2.4  yamt 		return 0;
1.3.2.4  yamt 	}
1.3.2.4  yamt
1.3.2.4  yamt 	switch (minor(dev)) {
1.3.2.4  yamt 	case DEV_NVRAM:
1.3.2.4  yamt 		size = nvram->Header.Size * 1024;
1.3.2.4  yamt 		break;
1.3.2.4  yamt 	case DEV_RESIDUAL:
1.3.2.4  yamt 		size = res->ResidualLength;
1.3.2.4  yamt 		break;
1.3.2.4  yamt 	default:
1.3.2.4  yamt 		return ENXIO;
1.3.2.4  yamt 	}
1.3.2.4  yamt 	resid = size;
1.3.2.4  yamt 	if (uio->uio_resid < resid)
1.3.2.4  yamt 		resid = uio->uio_resid;
1.3.2.4  yamt 	while (resid > 0 && error == 0 && uio->uio_offset < size) {
1.3.2.4  yamt 		switch (minor(dev)) {
1.3.2.4  yamt 		case DEV_NVRAM:
1.3.2.4  yamt 			c = min(resid, PAGE_SIZE);
1.3.2.4  yamt 			error = uiomove(&nvramData[uio->uio_offset], c, uio);
1.3.2.4  yamt 			break;
1.3.2.4  yamt 		case DEV_RESIDUAL:
1.3.2.4  yamt 			c = min(resid, PAGE_SIZE);
1.3.2.4  yamt 			error = uiomove(&rdata[uio->uio_offset], c, uio);
1.3.2.4  yamt 			break;
1.3.2.4  yamt 		default:
1.3.2.4  yamt 			return ENXIO;
1.3.2.4  yamt 		}
1.3.2.2  yamt 	}
1.3.2.4  yamt 	return error;
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.2  yamt int
1.3.2.2  yamt prep_nvramopen(dev_t dev, int flags, int mode, struct lwp *l)
1.3.2.2  yamt {
1.3.2.2  yamt 	struct nvram_pnpbus_softc *sc;
1.3.2.2  yamt
1.3.2.4  yamt 	sc = device_lookup(&nvram_cd, NVRAM_STD_DEV);
1.3.2.2  yamt 	if (sc == NULL)
1.3.2.2  yamt 		return ENODEV;
1.3.2.2  yamt
1.3.2.2  yamt 	if (sc->sc_open)
1.3.2.2  yamt 		return EBUSY;
1.3.2.2  yamt
1.3.2.2  yamt 	sc->sc_open = 1;
1.3.2.2  yamt
1.3.2.2  yamt 	return 0;
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.2  yamt int
1.3.2.2  yamt prep_nvramclose(dev_t dev, int flags, int mode, struct lwp *l)
1.3.2.2  yamt {
1.3.2.2  yamt 	struct nvram_pnpbus_softc *sc;
1.3.2.2  yamt
1.3.2.4  yamt 	sc = device_lookup(&nvram_cd, NVRAM_STD_DEV);
1.3.2.2  yamt 	if (sc == NULL)
1.3.2.2  yamt 		return ENODEV;
1.3.2.2  yamt 	sc->sc_open = 0;
1.3.2.2  yamt 	return 0;
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.2  yamt /* Motorola mk48txx clock routines */
1.3.2.2  yamt uint8_t
1.3.2.2  yamt mkclock_pnpbus_nvrd(struct mk48txx_softc *osc, int off)
1.3.2.2  yamt {
1.3.2.2  yamt 	struct prep_mk48txx_softc *sc = (struct prep_mk48txx_softc *)osc;
1.3.2.2  yamt 	uint8_t datum;
1.3.2.2  yamt 	int s;
1.3.2.2  yamt
1.3.2.2  yamt #ifdef DEBUG
1.3.2.5  yamt 	aprint_debug("mkclock_pnpbus_nvrd(%d)", off);
1.3.2.2  yamt #endif
1.3.2.2  yamt 	s = splclock();
1.3.2.2  yamt 	bus_space_write_1(sc->sc_bst, sc->sc_bsh, 0, off & 0xff);
1.3.2.2  yamt 	bus_space_write_1(sc->sc_bst, sc->sc_bsh, 1, off >> 8);
1.3.2.2  yamt 	datum = bus_space_read_1(sc->sc_data, sc->sc_datah, 0);
1.3.2.2  yamt 	splx(s);
1.3.2.2  yamt #ifdef DEBUG
1.3.2.5  yamt 	aprint_debug(" -> %02x\n", datum);
1.3.2.2  yamt #endif
1.3.2.2  yamt 	return datum;
1.3.2.2  yamt }
1.3.2.2  yamt
1.3.2.2  yamt void
1.3.2.2  yamt mkclock_pnpbus_nvwr(struct mk48txx_softc *osc, int off, uint8_t datum)
1.3.2.2  yamt {
1.3.2.2  yamt 	struct prep_mk48txx_softc *sc = (struct prep_mk48txx_softc *)osc;
1.3.2.2  yamt 	int s;
1.3.2.2  yamt
1.3.2.2  yamt #ifdef DEBUG
1.3.2.5  yamt 	aprint_debug("mkclock_isa_nvwr(%d, %02x)\n", off, datum);
1.3.2.2  yamt #endif
1.3.2.2  yamt 	s = splclock();
1.3.2.2  yamt 	bus_space_write_1(sc->sc_bst, sc->sc_bsh, 0, off & 0xff);
1.3.2.2  yamt 	bus_space_write_1(sc->sc_bst, sc->sc_bsh, 1, off >> 8);
1.3.2.2  yamt 	bus_space_write_1(sc->sc_data, sc->sc_datah, 0, datum);
1.3.2.2  yamt 	splx(s);
1.3.2.2  yamt }