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path: root/sys/pci/pci.c
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/*
 * Copyright (c) 1997, Stefan Esser <se@freebsd.org>
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice unmodified, this list of conditions, and the following
 *    disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 *
 * $Id: pci.c,v 1.95 1999/04/16 21:22:52 peter Exp $
 *
 */

#include "opt_bus.h"

#include "pci.h"
#if NPCI > 0

#include "opt_devfs.h"
#include "opt_simos.h"

#include <sys/param.h>
#include <sys/systm.h>
#include <sys/malloc.h>
#include <sys/module.h>
#include <sys/fcntl.h>
#include <sys/conf.h>
#include <sys/kernel.h>
#include <sys/queue.h>
#include <sys/types.h>
#include <sys/buf.h>
#ifdef DEVFS
#include <sys/devfsext.h>
#endif /* DEVFS */

#include <vm/vm.h>
#include <vm/pmap.h>
#include <vm/vm_extern.h>

#include <sys/bus.h>
#include <machine/bus.h>
#include <sys/rman.h>
#include <machine/resource.h>

#include <pci/pcireg.h>
#include <pci/pcivar.h>
#include <pci/pci_ioctl.h>

#ifdef APIC_IO
#include <machine/smp.h>
#endif /* APIC_IO */

static STAILQ_HEAD(devlist, pci_devinfo) pci_devq;
u_int32_t pci_numdevs = 0;
static u_int32_t pci_generation = 0;

/* return highest PCI bus number known to be used, or -1 if none */

static int
pci_bushigh(void)
{
	if (pci_cfgopen() == 0)
		return (-1);
	return (0);
}

/* return base address of memory or port map */

static int
pci_mapbase(unsigned mapreg)
{
	int mask = 0x03;
	if ((mapreg & 0x01) == 0)
		mask = 0x0f;
	return (mapreg & ~mask);
}

/* return map type of memory or port map */

static int
pci_maptype(unsigned mapreg)
{
	static u_int8_t maptype[0x10] = {
		PCI_MAPMEM,		PCI_MAPPORT,
		PCI_MAPMEM,		0,
		PCI_MAPMEM,		PCI_MAPPORT,
		0,			0,
		PCI_MAPMEM|PCI_MAPMEMP,	PCI_MAPPORT,
		PCI_MAPMEM|PCI_MAPMEMP, 0,
		PCI_MAPMEM|PCI_MAPMEMP,	PCI_MAPPORT,
		0,			0,
	};

	return maptype[mapreg & 0x0f];
}

/* return log2 of map size decoded for memory or port map */

static int
pci_mapsize(unsigned testval)
{
	int ln2size;

	testval = pci_mapbase(testval);
	ln2size = 0;
	if (testval != 0) {
		while ((testval & 1) == 0)
		{
			ln2size++;
			testval >>= 1;
		}
	}
	return (ln2size);
}

/* return log2 of address range supported by map register */

static int
pci_maprange(unsigned mapreg)
{
	int ln2range = 0;
	switch (mapreg & 0x07) {
	case 0x00:
	case 0x01:
	case 0x05:
		ln2range = 32;
		break;
	case 0x02:
		ln2range = 20;
		break;
	case 0x04:
		ln2range = 64;
		break;
	}
	return (ln2range);
}

/* extract map parameters into newly allocated array of pcimap structures */

static pcimap *
pci_readmaps(pcicfgregs *cfg, int maxmaps)
{
	int i, j = 0;
	pcimap *map;
	int map64 = 0;
	int reg = PCIR_MAPS;

	for (i = 0; i < maxmaps; i++) {
		int reg = PCIR_MAPS + i*4;
		u_int32_t base;
		u_int32_t ln2range;

		base = pci_cfgread(cfg, reg, 4);
		ln2range = pci_maprange(base);

		if (base == 0 || ln2range == 0 || base == 0xffffffff)
			continue; /* skip invalid entry */
		else {
			j++;
			if (ln2range > 32) {
				i++;
				j++;
			}
		}
	}

	map = malloc(j * sizeof (pcimap), M_DEVBUF, M_WAITOK);
	if (map != NULL) {
		bzero(map, sizeof(pcimap) * j);
		cfg->nummaps = j;

		for (i = 0, j = 0; i < maxmaps; i++, reg += 4) {
			u_int32_t base;
			u_int32_t testval;

			base = pci_cfgread(cfg, reg, 4);

			if (map64 == 0) {
				if (base == 0 || base == 0xffffffff)
					continue; /* skip invalid entry */
				pci_cfgwrite(cfg, reg, 0xffffffff, 4);
				testval = pci_cfgread(cfg, reg, 4);
				pci_cfgwrite(cfg, reg, base, 4);

				map[j].reg	= reg;
				map[j].base     = pci_mapbase(base);
				map[j].type     = pci_maptype(base);
				map[j].ln2size  = pci_mapsize(testval);
				map[j].ln2range = pci_maprange(testval);
				map64 = map[j].ln2range == 64;
			} else {
				/* only fill in base, other fields are 0 */
				map[j].base     = base;
				map64 = 0;
			}
			j++;
		}
	}
	return (map);
}

/* adjust some values from PCI 1.0 devices to match 2.0 standards ... */

static void
pci_fixancient(pcicfgregs *cfg)
{
	if (cfg->hdrtype != 0)
		return;

	/* PCI to PCI bridges use header type 1 */
	if (cfg->baseclass == PCIC_BRIDGE && cfg->subclass == PCIS_BRIDGE_PCI)
		cfg->hdrtype = 1;
}

/* read config data specific to header type 1 device (PCI to PCI bridge) */

static void *
pci_readppb(pcicfgregs *cfg)
{
	pcih1cfgregs *p;

	p = malloc(sizeof (pcih1cfgregs), M_DEVBUF, M_WAITOK);
	if (p == NULL)
		return (NULL);

	bzero(p, sizeof *p);

	p->secstat = pci_cfgread(cfg, PCIR_SECSTAT_1, 2);
	p->bridgectl = pci_cfgread(cfg, PCIR_BRIDGECTL_1, 2);

	p->seclat = pci_cfgread(cfg, PCIR_SECLAT_1, 1);

	p->iobase = PCI_PPBIOBASE (pci_cfgread(cfg, PCIR_IOBASEH_1, 2),
				   pci_cfgread(cfg, PCIR_IOBASEL_1, 1));
	p->iolimit = PCI_PPBIOLIMIT (pci_cfgread(cfg, PCIR_IOLIMITH_1, 2),
				     pci_cfgread(cfg, PCIR_IOLIMITL_1, 1));

	p->membase = PCI_PPBMEMBASE (0,
				     pci_cfgread(cfg, PCIR_MEMBASE_1, 2));
	p->memlimit = PCI_PPBMEMLIMIT (0,
				       pci_cfgread(cfg, PCIR_MEMLIMIT_1, 2));

	p->pmembase = PCI_PPBMEMBASE (
		(pci_addr_t)pci_cfgread(cfg, PCIR_PMBASEH_1, 4),
		pci_cfgread(cfg, PCIR_PMBASEL_1, 2));

	p->pmemlimit = PCI_PPBMEMLIMIT (
		(pci_addr_t)pci_cfgread(cfg, PCIR_PMLIMITH_1, 4),
		pci_cfgread(cfg, PCIR_PMLIMITL_1, 2));
	return (p);
}

/* read config data specific to header type 2 device (PCI to CardBus bridge) */

static void *
pci_readpcb(pcicfgregs *cfg)
{
	pcih2cfgregs *p;

	p = malloc(sizeof (pcih2cfgregs), M_DEVBUF, M_WAITOK);
	if (p == NULL)
		return (NULL);

	bzero(p, sizeof *p);

	p->secstat = pci_cfgread(cfg, PCIR_SECSTAT_2, 2);
	p->bridgectl = pci_cfgread(cfg, PCIR_BRIDGECTL_2, 2);
	
	p->seclat = pci_cfgread(cfg, PCIR_SECLAT_2, 1);

	p->membase0 = pci_cfgread(cfg, PCIR_MEMBASE0_2, 4);
	p->memlimit0 = pci_cfgread(cfg, PCIR_MEMLIMIT0_2, 4);
	p->membase1 = pci_cfgread(cfg, PCIR_MEMBASE1_2, 4);
	p->memlimit1 = pci_cfgread(cfg, PCIR_MEMLIMIT1_2, 4);

	p->iobase0 = pci_cfgread(cfg, PCIR_IOBASE0_2, 4);
	p->iolimit0 = pci_cfgread(cfg, PCIR_IOLIMIT0_2, 4);
	p->iobase1 = pci_cfgread(cfg, PCIR_IOBASE1_2, 4);
	p->iolimit1 = pci_cfgread(cfg, PCIR_IOLIMIT1_2, 4);

	p->pccardif = pci_cfgread(cfg, PCIR_PCCARDIF_2, 4);
	return p;
}

/* extract header type specific config data */

static void
pci_hdrtypedata(pcicfgregs *cfg)
{
	switch (cfg->hdrtype) {
	case 0:
		cfg->subvendor      = pci_cfgread(cfg, PCIR_SUBVEND_0, 2);
		cfg->subdevice      = pci_cfgread(cfg, PCIR_SUBDEV_0, 2);
		cfg->map            = pci_readmaps(cfg, PCI_MAXMAPS_0);
		break;
	case 1:
		cfg->subvendor      = pci_cfgread(cfg, PCIR_SUBVEND_1, 2);
		cfg->subdevice      = pci_cfgread(cfg, PCIR_SUBDEV_1, 2);
		cfg->secondarybus   = pci_cfgread(cfg, PCIR_SECBUS_1, 1);
		cfg->subordinatebus = pci_cfgread(cfg, PCIR_SUBBUS_1, 1);
		cfg->map            = pci_readmaps(cfg, PCI_MAXMAPS_1);
		cfg->hdrspec        = pci_readppb(cfg);
		break;
	case 2:
		cfg->subvendor      = pci_cfgread(cfg, PCIR_SUBVEND_2, 2);
		cfg->subdevice      = pci_cfgread(cfg, PCIR_SUBDEV_2, 2);
		cfg->secondarybus   = pci_cfgread(cfg, PCIR_SECBUS_2, 1);
		cfg->subordinatebus = pci_cfgread(cfg, PCIR_SUBBUS_2, 1);
		cfg->map            = pci_readmaps(cfg, PCI_MAXMAPS_2);
		cfg->hdrspec        = pci_readpcb(cfg);
		break;
	}
}

/* read configuration header into pcicfgrect structure */

static struct pci_devinfo *
pci_readcfg(pcicfgregs *probe)
{
	pcicfgregs *cfg = NULL;
	struct pci_devinfo *devlist_entry;
	struct devlist *devlist_head;

	devlist_head = &pci_devq;

	devlist_entry = NULL;

	if (pci_cfgread(probe, PCIR_DEVVENDOR, 4) != -1) {
		devlist_entry = malloc(sizeof(struct pci_devinfo),
				       M_DEVBUF, M_WAITOK);
		if (devlist_entry == NULL)
			return (NULL);
		bzero(devlist_entry, sizeof *devlist_entry);

		cfg = &devlist_entry->cfg;

		cfg->bus		= probe->bus;
		cfg->slot		= probe->slot;
		cfg->func		= probe->func;
		cfg->vendor		= pci_cfgread(cfg, PCIR_VENDOR, 2);
		cfg->device		= pci_cfgread(cfg, PCIR_DEVICE, 2);
		cfg->cmdreg		= pci_cfgread(cfg, PCIR_COMMAND, 2);
		cfg->statreg		= pci_cfgread(cfg, PCIR_STATUS, 2);
		cfg->baseclass		= pci_cfgread(cfg, PCIR_CLASS, 1);
		cfg->subclass		= pci_cfgread(cfg, PCIR_SUBCLASS, 1);
		cfg->progif		= pci_cfgread(cfg, PCIR_PROGIF, 1);
		cfg->revid		= pci_cfgread(cfg, PCIR_REVID, 1);
		cfg->hdrtype		= pci_cfgread(cfg, PCIR_HEADERTYPE, 1);
		cfg->cachelnsz		= pci_cfgread(cfg, PCIR_CACHELNSZ, 1);
		cfg->lattimer		= pci_cfgread(cfg, PCIR_LATTIMER, 1);
		cfg->intpin		= pci_cfgread(cfg, PCIR_INTPIN, 1);
		cfg->intline		= pci_cfgread(cfg, PCIR_INTLINE, 1);
#ifdef __alpha__
		alpha_platform_assign_pciintr(cfg);
#endif

#ifdef APIC_IO
		if (cfg->intpin != 0) {
			int airq;

			airq = pci_apic_irq(cfg->bus, cfg->slot, cfg->intpin);
			if (airq >= 0) {
				/* PCI specific entry found in MP table */
				if (airq != cfg->intline) {
					undirect_pci_irq(cfg->intline);
					cfg->intline = airq;
				}
			} else {
				/* 
				 * PCI interrupts might be redirected to the
				 * ISA bus according to some MP tables. Use the
				 * same methods as used by the ISA devices
				 * devices to find the proper IOAPIC int pin.
				 */
				airq = isa_apic_irq(cfg->intline);
				if ((airq >= 0) && (airq != cfg->intline)) {
					/* XXX: undirect_pci_irq() ? */
					undirect_isa_irq(cfg->intline);
					cfg->intline = airq;
				}
			}
		}
#endif /* APIC_IO */

		cfg->mingnt		= pci_cfgread(cfg, PCIR_MINGNT, 1);
		cfg->maxlat		= pci_cfgread(cfg, PCIR_MAXLAT, 1);

		cfg->mfdev		= (cfg->hdrtype & PCIM_MFDEV) != 0;
		cfg->hdrtype		&= ~PCIM_MFDEV;

		pci_fixancient(cfg);
		pci_hdrtypedata(cfg);

		STAILQ_INSERT_TAIL(devlist_head, devlist_entry, pci_links);

		devlist_entry->conf.pc_sel.pc_bus = cfg->bus;
		devlist_entry->conf.pc_sel.pc_dev = cfg->slot;
		devlist_entry->conf.pc_sel.pc_func = cfg->func;
		devlist_entry->conf.pc_hdr = cfg->hdrtype;

		devlist_entry->conf.pc_subvendor = cfg->subvendor;
		devlist_entry->conf.pc_subdevice = cfg->subdevice;
		devlist_entry->conf.pc_vendor = cfg->vendor;
		devlist_entry->conf.pc_device = cfg->device;

		devlist_entry->conf.pc_class = cfg->baseclass;
		devlist_entry->conf.pc_subclass = cfg->subclass;
		devlist_entry->conf.pc_progif = cfg->progif;
		devlist_entry->conf.pc_revid = cfg->revid;

		pci_numdevs++;
		pci_generation++;
	}
	return (devlist_entry);
}

#if 0
/* free pcicfgregs structure and all depending data structures */

static int
pci_freecfg(struct pci_devinfo *dinfo)
{
	struct devlist *devlist_head;

	devlist_head = &pci_devq;

	if (dinfo->cfg.hdrspec != NULL)
		free(dinfo->cfg.hdrspec, M_DEVBUF);
	if (dinfo->cfg.map != NULL)
		free(dinfo->cfg.map, M_DEVBUF);
	/* XXX this hasn't been tested */
	STAILQ_REMOVE(devlist_head, dinfo, pci_devinfo, pci_links);
	free(dinfo, M_DEVBUF);

	/* increment the generation count */
	pci_generation++;

	/* we're losing one device */
	pci_numdevs--;
	return (0);
}
#endif

/*
 * This is the user interface to PCI configuration space.
 */
  
static int
pci_open(dev_t dev, int oflags, int devtype, struct proc *p)
{
	if ((oflags & FWRITE) && securelevel > 0) {
		return EPERM;
	}
	return 0;
}

static int
pci_close(dev_t dev, int flag, int devtype, struct proc *p)
{
	return 0;
}

/*
 * Match a single pci_conf structure against an array of pci_match_conf
 * structures.  The first argument, 'matches', is an array of num_matches
 * pci_match_conf structures.  match_buf is a pointer to the pci_conf
 * structure that will be compared to every entry in the matches array.
 * This function returns 1 on failure, 0 on success.
 */
static int
pci_conf_match(struct pci_match_conf *matches, int num_matches, 
	       struct pci_conf *match_buf)
{
	int i;

	if ((matches == NULL) || (match_buf == NULL) || (num_matches <= 0))
		return(1);

	for (i = 0; i < num_matches; i++) {
		/*
		 * I'm not sure why someone would do this...but...
		 */
		if (matches[i].flags == PCI_GETCONF_NO_MATCH)
			continue;

		/*
		 * Look at each of the match flags.  If it's set, do the
		 * comparison.  If the comparison fails, we don't have a
		 * match, go on to the next item if there is one.
		 */
		if (((matches[i].flags & PCI_GETCONF_MATCH_BUS) != 0)
		 && (match_buf->pc_sel.pc_bus != matches[i].pc_sel.pc_bus))
			continue;

		if (((matches[i].flags & PCI_GETCONF_MATCH_DEV) != 0)
		 && (match_buf->pc_sel.pc_dev != matches[i].pc_sel.pc_dev))
			continue;

		if (((matches[i].flags & PCI_GETCONF_MATCH_FUNC) != 0)
		 && (match_buf->pc_sel.pc_func != matches[i].pc_sel.pc_func))
			continue;

		if (((matches[i].flags & PCI_GETCONF_MATCH_VENDOR) != 0) 
		 && (match_buf->pc_vendor != matches[i].pc_vendor))
			continue;

		if (((matches[i].flags & PCI_GETCONF_MATCH_DEVICE) != 0)
		 && (match_buf->pc_device != matches[i].pc_device))
			continue;

		if (((matches[i].flags & PCI_GETCONF_MATCH_CLASS) != 0)
		 && (match_buf->pc_class != matches[i].pc_class))
			continue;

		if (((matches[i].flags & PCI_GETCONF_MATCH_UNIT) != 0)
		 && (match_buf->pd_unit != matches[i].pd_unit))
			continue;

		if (((matches[i].flags & PCI_GETCONF_MATCH_NAME) != 0)
		 && (strncmp(matches[i].pd_name, match_buf->pd_name,
			     sizeof(match_buf->pd_name)) != 0))
			continue;

		return(0);
	}

	return(1);
}

static int
pci_ioctl(dev_t dev, u_long cmd, caddr_t data, int flag, struct proc *p)
{
	struct pci_io *io;
	int error;

	if (!(flag & FWRITE))
		return EPERM;


	switch(cmd) {
	case PCIOCGETCONF:
		{
		struct pci_devinfo *dinfo;
		struct pci_conf_io *cio;
		struct devlist *devlist_head;
		struct pci_match_conf *pattern_buf;
		int num_patterns;
		size_t iolen;
		int ionum, i;

		cio = (struct pci_conf_io *)data;

		num_patterns = 0;
		dinfo = NULL;

		/*
		 * Hopefully the user won't pass in a null pointer, but it
		 * can't hurt to check.
		 */
		if (cio == NULL) {
			error = EINVAL;
			break;
		}

		/*
		 * If the user specified an offset into the device list,
		 * but the list has changed since they last called this
		 * ioctl, tell them that the list has changed.  They will
		 * have to get the list from the beginning.
		 */
		if ((cio->offset != 0)
		 && (cio->generation != pci_generation)){
			cio->num_matches = 0;	
			cio->status = PCI_GETCONF_LIST_CHANGED;
			error = 0;
			break;
		}

		/*
		 * Check to see whether the user has asked for an offset
		 * past the end of our list.
		 */
		if (cio->offset >= pci_numdevs) {
			cio->num_matches = 0;
			cio->status = PCI_GETCONF_LAST_DEVICE;
			error = 0;
			break;
		}

		/* get the head of the device queue */
		devlist_head = &pci_devq;

		/*
		 * Determine how much room we have for pci_conf structures.
		 * Round the user's buffer size down to the nearest
		 * multiple of sizeof(struct pci_conf) in case the user
		 * didn't specify a multiple of that size.
		 */
		iolen = min(cio->match_buf_len - 
			    (cio->match_buf_len % sizeof(struct pci_conf)),
			    pci_numdevs * sizeof(struct pci_conf));

		/*
		 * Since we know that iolen is a multiple of the size of
		 * the pciconf union, it's okay to do this.
		 */
		ionum = iolen / sizeof(struct pci_conf);

		/*
		 * If this test is true, the user wants the pci_conf
		 * structures returned to match the supplied entries.
		 */
		if ((cio->num_patterns > 0)
		 && (cio->pat_buf_len > 0)) {
			/*
			 * pat_buf_len needs to be:
			 * num_patterns * sizeof(struct pci_match_conf)
			 * While it is certainly possible the user just
			 * allocated a large buffer, but set the number of
			 * matches correctly, it is far more likely that
			 * their kernel doesn't match the userland utility
			 * they're using.  It's also possible that the user
			 * forgot to initialize some variables.  Yes, this
			 * may be overly picky, but I hazard to guess that
			 * it's far more likely to just catch folks that
			 * updated their kernel but not their userland.
			 */
			if ((cio->num_patterns *
			    sizeof(struct pci_match_conf)) != cio->pat_buf_len){
				/* The user made a mistake, return an error*/
				cio->status = PCI_GETCONF_ERROR;
				printf("pci_ioctl: pat_buf_len %d != "
				       "num_patterns (%d) * sizeof(struct "
				       "pci_match_conf) (%d)\npci_ioctl: "
				       "pat_buf_len should be = %d\n",
				       cio->pat_buf_len, cio->num_patterns,
				       (int)sizeof(struct pci_match_conf),
				       (int)sizeof(struct pci_match_conf) * 
				       cio->num_patterns);
				printf("pci_ioctl: do your headers match your "
				       "kernel?\n");
				cio->num_matches = 0;
				error = EINVAL;
				break;
			}

			/*
			 * Check the user's buffer to make sure it's readable.
			 */
			if ((error = useracc((caddr_t)cio->patterns,
			                     cio->pat_buf_len, B_READ)) != 1){
				printf("pci_ioctl: pattern buffer %p, "
				       "length %u isn't user accessible for"
				       " READ\n", cio->patterns,
				       cio->pat_buf_len);
				error = EACCES;
				break;
			}
			/*
			 * Allocate a buffer to hold the patterns.
			 */
			pattern_buf = malloc(cio->pat_buf_len, M_TEMP,
					     M_WAITOK);
			error = copyin(cio->patterns, pattern_buf,
				       cio->pat_buf_len);
			if (error != 0)
				break;
			num_patterns = cio->num_patterns;

		} else if ((cio->num_patterns > 0)
			|| (cio->pat_buf_len > 0)) {
			/*
			 * The user made a mistake, spit out an error.
			 */
			cio->status = PCI_GETCONF_ERROR;
			cio->num_matches = 0;
			printf("pci_ioctl: invalid GETCONF arguments\n");
			error = EINVAL;
			break;
		} else
			pattern_buf = NULL;

		/*
		 * Make sure we can write to the match buffer.
		 */
		if ((error = useracc((caddr_t)cio->matches, cio->match_buf_len,
				     B_WRITE)) != 1) {
			printf("pci_ioctl: match buffer %p, length %u "
			       "isn't user accessible for WRITE\n",
			       cio->matches, cio->match_buf_len);
			error = EACCES;
			break;
		}

		/*
		 * Go through the list of devices and copy out the devices
		 * that match the user's criteria.
		 */
		for (cio->num_matches = 0, error = 0, i = 0,
		     dinfo = STAILQ_FIRST(devlist_head);
		     (dinfo != NULL) && (cio->num_matches < ionum)
		     && (error == 0) && (i < pci_numdevs);
		     dinfo = STAILQ_NEXT(dinfo, pci_links), i++) {

			if (i < cio->offset)
				continue;

			if ((pattern_buf == NULL) ||
			    (pci_conf_match(pattern_buf, num_patterns,
					    &dinfo->conf) == 0)) {

				/*
				 * If we've filled up the user's buffer,
				 * break out at this point.  Since we've
				 * got a match here, we'll pick right back
				 * up at the matching entry.  We can also
				 * tell the user that there are more matches
				 * left.
				 */
				if (cio->num_matches >= ionum)
					break;

				error = copyout(&dinfo->conf,
					        &cio->matches[cio->num_matches],
						sizeof(struct pci_conf));
				cio->num_matches++;
			}
		}

		/*
		 * Set the pointer into the list, so if the user is getting
		 * n records at a time, where n < pci_numdevs,
		 */
		cio->offset = i;

		/*
		 * Set the generation, the user will need this if they make
		 * another ioctl call with offset != 0.
		 */
		cio->generation = pci_generation;
		
		/*
		 * If this is the last device, inform the user so he won't
		 * bother asking for more devices.  If dinfo isn't NULL, we
		 * know that there are more matches in the list because of
		 * the way the traversal is done.
		 */
		if (dinfo == NULL)
			cio->status = PCI_GETCONF_LAST_DEVICE;
		else
			cio->status = PCI_GETCONF_MORE_DEVS;

		if (pattern_buf != NULL)
			free(pattern_buf, M_TEMP);

		break;
		}
	case PCIOCREAD:
		io = (struct pci_io *)data;
		switch(io->pi_width) {
			pcicfgregs probe;
		case 4:
		case 2:
		case 1:
			probe.bus = io->pi_sel.pc_bus;
			probe.slot = io->pi_sel.pc_dev;
			probe.func = io->pi_sel.pc_func;
			io->pi_data = pci_cfgread(&probe, 
						  io->pi_reg, io->pi_width);
			error = 0;
			break;
		default:
			error = ENODEV;
			break;
		}
		break;

	case PCIOCWRITE:
		io = (struct pci_io *)data;
		switch(io->pi_width) {
			pcicfgregs probe;
		case 4:
		case 2:
		case 1:
			probe.bus = io->pi_sel.pc_bus;
			probe.slot = io->pi_sel.pc_dev;
			probe.func = io->pi_sel.pc_func;
			pci_cfgwrite(&probe, 
				    io->pi_reg, io->pi_data, io->pi_width);
			error = 0;
			break;
		default:
			error = ENODEV;
			break;
		}
		break;

	default:
		error = ENOTTY;
		break;
	}

	return (error);
}

#define	PCI_CDEV	78

static struct cdevsw pcicdev = {
	pci_open, pci_close, noread, nowrite, pci_ioctl, nostop, noreset,
	nodevtotty, seltrue, nommap, nostrategy, "pci", 0, PCI_CDEV
};

#ifdef DEVFS
static void *pci_devfs_token;
#endif

static void
pci_cdevinit(void *dummy)
{
	dev_t dev;

	dev = makedev(PCI_CDEV, 0);
	cdevsw_add(&dev, &pcicdev, NULL);
#ifdef	DEVFS
	pci_devfs_token = devfs_add_devswf(&pcicdev, 0, DV_CHR,
					   UID_ROOT, GID_WHEEL, 0644, "pci");
#endif
}

SYSINIT(pcidev, SI_SUB_DRIVERS, SI_ORDER_MIDDLE+PCI_CDEV, pci_cdevinit, NULL);

#include "pci_if.h"

/*
 * A simple driver to wrap the old pci driver mechanism for back-compat.
 */

static int
pci_compat_probe(device_t dev)
{
	struct pci_device *dvp;
	struct pci_devinfo *dinfo;
	pcicfgregs *cfg;
	const char *name;
	int error;
	
	dinfo = device_get_ivars(dev);
	cfg = &dinfo->cfg;
	dvp = device_get_driver(dev)->priv;

	/*
	 * Do the wrapped probe.
	 */
	error = ENXIO;
	if (dvp && dvp->pd_probe) {
		name = dvp->pd_probe(cfg, (cfg->device << 16) + cfg->vendor);
		if (name) {
			device_set_desc_copy(dev, name);
			error = 0;
		}
	}

	return error;
}

static int
pci_compat_attach(device_t dev)
{
	struct pci_device *dvp;
	struct pci_devinfo *dinfo;
	pcicfgregs *cfg;
	int unit;

	dinfo = device_get_ivars(dev);
	cfg = &dinfo->cfg;
	dvp = device_get_driver(dev)->priv;

	unit = device_get_unit(dev);
	if (unit > *dvp->pd_count)
		*dvp->pd_count = unit;
	if (dvp->pd_attach)
		dvp->pd_attach(cfg, unit);

	/*
	 * XXX KDM for some devices, dvp->pd_name winds up NULL.
	 * I haven't investigated enough to figure out why this
	 * would happen.
	 */
	if (dvp->pd_name != NULL)
		strncpy(dinfo->conf.pd_name, dvp->pd_name,
			sizeof(dinfo->conf.pd_name));
	else
		strncpy(dinfo->conf.pd_name, "????",
			sizeof(dinfo->conf.pd_name));
	dinfo->conf.pd_name[sizeof(dinfo->conf.pd_name) - 1] = 0;
	dinfo->conf.pd_unit = unit;

	return 0;
}

static device_method_t pci_compat_methods[] = {
	/* Device interface */
	DEVMETHOD(device_probe,		pci_compat_probe),
	DEVMETHOD(device_attach,	pci_compat_attach),

	{ 0, 0 }
};

static devclass_t	pci_devclass;

/*
 * Create a new style driver around each old pci driver.
 */
int
compat_pci_handler(struct moduledata *mod, int type, void *data)
{
	struct pci_device *dvp = (struct pci_device *)data;
	driver_t *driver;

	switch (type) {
	case MOD_LOAD:
		driver = malloc(sizeof(driver_t), M_DEVBUF, M_NOWAIT);
		if (!driver)
			return ENOMEM;
		bzero(driver, sizeof(driver_t));
		driver->name = dvp->pd_name;
		driver->methods = pci_compat_methods;
		driver->type = 0; /* XXX fixup in pci_map_int() */
		driver->softc = sizeof(struct pci_devinfo *);
		driver->priv = dvp;
		devclass_add_driver(pci_devclass, driver);
		break;
	case MOD_UNLOAD:
		printf("%s: module unload not supported!\n", mod->name);
		return EOPNOTSUPP;
	default:
		break;
	}
	return 0;
}

/*
 * New style pci driver.  Parent device is either a pci-host-bridge or a
 * pci-pci-bridge.  Both kinds are represented by instances of pcib.
 */

static void
pci_print_verbose(struct pci_devinfo *dinfo)
{
	if (bootverbose) {
		int i;
		pcicfgregs *cfg = &dinfo->cfg;

		printf("found->\tvendor=0x%04x, dev=0x%04x, revid=0x%02x\n", 
		       cfg->vendor, cfg->device, cfg->revid);
		printf("\tclass=%02x-%02x-%02x, hdrtype=0x%02x, mfdev=%d\n",
		       cfg->baseclass, cfg->subclass, cfg->progif,
		       cfg->hdrtype, cfg->mfdev);
		printf("\tsubordinatebus=%x \tsecondarybus=%x\n",
		       cfg->subordinatebus, cfg->secondarybus);
#ifdef PCI_DEBUG
		printf("\tcmdreg=0x%04x, statreg=0x%04x, cachelnsz=%d (dwords)\n", 
		       cfg->cmdreg, cfg->statreg, cfg->cachelnsz);
		printf("\tlattimer=0x%02x (%d ns), mingnt=0x%02x (%d ns), maxlat=0x%02x (%d ns)\n",
		       cfg->lattimer, cfg->lattimer * 30, 
		       cfg->mingnt, cfg->mingnt * 250, cfg->maxlat, cfg->maxlat * 250);
#endif /* PCI_DEBUG */
		if (cfg->intpin > 0)
			printf("\tintpin=%c, irq=%d\n", cfg->intpin +'a' -1, cfg->intline);

		for (i = 0; i < cfg->nummaps; i++) {
			pcimap *m = &cfg->map[i];
			printf("\tmap[%d]: type %x, range %2d, base %08x, size %2d\n",
			       i, m->type, m->ln2range, m->base, m->ln2size);
		}
	}
}

static int
pci_add_children(device_t dev, int busno)
{
	pcicfgregs probe;
	int bushigh = busno;

#ifdef SIMOS
#undef PCI_SLOTMAX
#define PCI_SLOTMAX 0
#endif

	bzero(&probe, sizeof probe);
	/* XXX KDM */
	/* probe.parent = pci_bridgeto(bus); */
	probe.bus = busno;
	for (probe.slot = 0; probe.slot <= PCI_SLOTMAX; probe.slot++) {
		int pcifunchigh = 0;
		for (probe.func = 0; probe.func <= pcifunchigh; probe.func++) {
			struct pci_devinfo *dinfo = pci_readcfg(&probe);
			if (dinfo != NULL) {
				if (dinfo->cfg.mfdev)
					pcifunchigh = 7;

				pci_print_verbose(dinfo);
				dinfo->cfg.dev =
					device_add_child(dev, NULL, -1, dinfo);

				if (bushigh < dinfo->cfg.subordinatebus)
					bushigh = dinfo->cfg.subordinatebus;
				if (bushigh < dinfo->cfg.secondarybus)
					bushigh = dinfo->cfg.secondarybus;
			}
		}
	}

	return bushigh;
}

static int
pci_new_probe(device_t dev)
{
	STAILQ_INIT(&pci_devq);
	device_set_desc(dev, "PCI bus");

	pci_add_children(dev, device_get_unit(dev));

	return 0;
}

static void
pci_print_child(device_t dev, device_t child)
{
	printf(" at device %d.%d", pci_get_slot(child), pci_get_function(child));
	printf(" on %s%d", device_get_name(dev), device_get_unit(dev));
}

static int
pci_read_ivar(device_t dev, device_t child, int which, u_long *result)
{
	struct pci_devinfo *dinfo;
	pcicfgregs *cfg;

	dinfo = device_get_ivars(child);
	cfg = &dinfo->cfg;

	switch (which) {
	case PCI_IVAR_SUBVENDOR:
		*result = cfg->subvendor;
		break;
	case PCI_IVAR_SUBDEVICE:
		*result = cfg->subdevice;
		break;
	case PCI_IVAR_VENDOR:
		*result = cfg->vendor;
		break;
	case PCI_IVAR_DEVICE:
		*result = cfg->device;
		break;
	case PCI_IVAR_DEVID:
		*result = (cfg->device << 16) | cfg->vendor;
		break;
	case PCI_IVAR_CLASS:
		*result = cfg->baseclass;
		break;
	case PCI_IVAR_SUBCLASS:
		*result = cfg->subclass;
		break;
	case PCI_IVAR_PROGIF:
		*result = cfg->progif;
		break;
	case PCI_IVAR_REVID:
		*result = cfg->revid;
		break;
	case PCI_IVAR_INTPIN:
		*result = cfg->intpin;
		break;
	case PCI_IVAR_IRQ:
		*result = cfg->intline;
		break;
	case PCI_IVAR_BUS:
		*result = cfg->bus;
		break;
	case PCI_IVAR_SLOT:
		*result = cfg->slot;
		break;
	case PCI_IVAR_FUNCTION:
		*result = cfg->func;
		break;
	case PCI_IVAR_SECONDARYBUS:
		*result = cfg->secondarybus;
		break;
	case PCI_IVAR_SUBORDINATEBUS:
		*result = cfg->subordinatebus;
		break;
	default:
		return ENOENT;
	}
	return 0;
}

static int
pci_write_ivar(device_t dev, device_t child, int which, uintptr_t value)
{
	struct pci_devinfo *dinfo;
	pcicfgregs *cfg;

	dinfo = device_get_ivars(child);
	cfg = &dinfo->cfg;

	switch (which) {
	case PCI_IVAR_SUBVENDOR:
	case PCI_IVAR_SUBDEVICE:
	case PCI_IVAR_VENDOR:
	case PCI_IVAR_DEVICE:
	case PCI_IVAR_DEVID:
	case PCI_IVAR_CLASS:
	case PCI_IVAR_SUBCLASS:
	case PCI_IVAR_PROGIF:
	case PCI_IVAR_REVID:
	case PCI_IVAR_INTPIN:
	case PCI_IVAR_IRQ:
	case PCI_IVAR_BUS:
	case PCI_IVAR_SLOT:
	case PCI_IVAR_FUNCTION:
		return EINVAL;	/* disallow for now */

	case PCI_IVAR_SECONDARYBUS:
		cfg->secondarybus = value;
		break;
	case PCI_IVAR_SUBORDINATEBUS:
		cfg->subordinatebus = value;
		break;
	default:
		return ENOENT;
	}
	return 0;
}

static int
pci_mapno(pcicfgregs *cfg, int reg)
{
	int i, nummaps;
	pcimap *map;

	nummaps = cfg->nummaps;
	map = cfg->map;

	for (i = 0; i < nummaps; i++)
		if (map[i].reg == reg)
			return (i);
	return (-1);
}

static int
pci_porten(pcicfgregs *cfg)
{
	return ((cfg->cmdreg & PCIM_CMD_PORTEN) != 0);
}

static int
pci_isportmap(pcicfgregs *cfg, int map)

{
	return ((unsigned)map < cfg->nummaps 
		&& (cfg->map[map].type & PCI_MAPPORT) != 0);
}

static int
pci_memen(pcicfgregs *cfg)
{
	return ((cfg->cmdreg & PCIM_CMD_MEMEN) != 0);
}

static int
pci_ismemmap(pcicfgregs *cfg, int map)
{
	return ((unsigned)map < cfg->nummaps 
		&& (cfg->map[map].type & PCI_MAPMEM) != 0);
}

static struct resource *
pci_alloc_resource(device_t dev, device_t child, int type, int *rid,
		   u_long start, u_long end, u_long count, u_int flags)
{
	int isdefault;
	struct pci_devinfo *dinfo = device_get_ivars(child);
	pcicfgregs *cfg = &dinfo->cfg;
	struct resource *rv, **rvp = 0;
	int map;

	isdefault = (device_get_parent(child) == dev
		     && start == 0UL && end == ~0UL && count == 1);

	switch (type) {
	case SYS_RES_IRQ:
		if (*rid != 0)
			return 0;
		if (isdefault && cfg->intline != 255) {
			start = cfg->intline;
			end = cfg->intline;
			count = 1;
		}
		break;

	case SYS_RES_DRQ:		/* passthru for child isa */
		break;

	case SYS_RES_MEMORY:
		if (isdefault) {
			map = pci_mapno(cfg, *rid);
			if (pci_memen(cfg) && pci_ismemmap(cfg, map)) {
				start = cfg->map[map].base;
				count = 1 << cfg->map[map].ln2size;
				end = start + count;
				rvp = &cfg->map[map].res;
			} else
				return 0;
		}
		break;

	case SYS_RES_IOPORT:
		if (isdefault) {
			map = pci_mapno(cfg, *rid);
			if (pci_porten(cfg) && pci_isportmap(cfg, map)) {
				start = cfg->map[map].base;
				count = 1 << cfg->map[map].ln2size;
				end = start + count;
				rvp = &cfg->map[map].res;
			} else
				return 0;
		}
		break;

	default:
		return 0;
	}

	rv = BUS_ALLOC_RESOURCE(device_get_parent(dev), child,
				 type, rid, start, end, count, flags);
	if (rvp)
		*rvp = rv;

	return rv;
}

static int
pci_release_resource(device_t dev, device_t child, int type, int rid,
		     struct resource *r)
{
	int rv;
	struct pci_devinfo *dinfo = device_get_ivars(child);
	pcicfgregs *cfg = &dinfo->cfg;
	int map = 0;

	switch (type) {
	case SYS_RES_IRQ:
		if (rid != 0)
			return EINVAL;
		break;

	case SYS_RES_DRQ:		/* passthru for child isa */
		break;

	case SYS_RES_MEMORY:
	case SYS_RES_IOPORT:
		/*
		 * Only check the map registers if this is a direct
		 * descendant.
		 */
		if (device_get_parent(child) == dev)
			map = pci_mapno(cfg, rid);
		else
			map = -1;
		break;

	default:
		return (ENOENT);
	}

	rv = BUS_RELEASE_RESOURCE(device_get_parent(dev), child, type, rid, r);

	if (rv == 0) {
		switch (type) {
		case SYS_RES_IRQ:
			cfg->irqres = 0;
			break;

		case SYS_RES_DRQ:	/* passthru for child isa */
			break;

		case SYS_RES_MEMORY:
		case SYS_RES_IOPORT:
			if (map != -1)
				cfg->map[map].res = 0;
			break;

		default:
			return ENOENT;
		}
	}

	return rv;
}

static u_int32_t
pci_read_config_method(device_t dev, device_t child, int reg, int width)
{
	struct pci_devinfo *dinfo = device_get_ivars(child);
	pcicfgregs *cfg = &dinfo->cfg;
	return pci_cfgread(cfg, reg, width);
}

static void
pci_write_config_method(device_t dev, device_t child, int reg,
			u_int32_t val, int width)
{
	struct pci_devinfo *dinfo = device_get_ivars(child);
	pcicfgregs *cfg = &dinfo->cfg;
	pci_cfgwrite(cfg, reg, val, width);
}

static int
pci_modevent(module_t mod, int what, void *arg)
{
	switch (what) {
	case MOD_LOAD:
		/* pci_wrap_old_drivers(); */
		break;

	case MOD_UNLOAD:
		break;
	}

	return 0;
}

static device_method_t pci_methods[] = {
	/* Device interface */
	DEVMETHOD(device_probe,		pci_new_probe),
	DEVMETHOD(device_attach,	bus_generic_attach),
	DEVMETHOD(device_shutdown,	bus_generic_shutdown),

	/* Bus interface */
	DEVMETHOD(bus_print_child,	pci_print_child),
	DEVMETHOD(bus_read_ivar,	pci_read_ivar),
	DEVMETHOD(bus_write_ivar,	pci_write_ivar),
	DEVMETHOD(bus_driver_added,	bus_generic_driver_added),
	DEVMETHOD(bus_alloc_resource,	pci_alloc_resource),
	DEVMETHOD(bus_release_resource,	pci_release_resource),
	DEVMETHOD(bus_activate_resource, bus_generic_activate_resource),
	DEVMETHOD(bus_deactivate_resource, bus_generic_deactivate_resource),
	DEVMETHOD(bus_setup_intr,	bus_generic_setup_intr),
	DEVMETHOD(bus_teardown_intr,	bus_generic_teardown_intr),

	/* PCI interface */
	DEVMETHOD(pci_read_config,	pci_read_config_method),
	DEVMETHOD(pci_write_config,	pci_write_config_method),

	{ 0, 0 }
};

static driver_t pci_driver = {
	"pci",
	pci_methods,
	DRIVER_TYPE_MISC,
	1,			/* no softc */
};

DRIVER_MODULE(pci, pcib, pci_driver, pci_devclass, pci_modevent, 0);

#endif /* NPCI > 0 */
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