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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 1.84 1998/07/22 08:40:46 dfr Exp $
*
*/
#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/fcntl.h>
#include <sys/conf.h>
#include <sys/kernel.h>
#ifdef DEVFS
#include <sys/devfsext.h>
#endif /* DEVFS */
#include <vm/vm.h>
#include <vm/pmap.h>
#include <pci/pcireg.h>
#include <pci/pcivar.h>
#include <pci/pci_ioctl.h>
#ifdef APIC_IO
#include <machine/smp.h>
#endif /* APIC_IO */
/* 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;
pcimap *map;
int map64 = 0;
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)
maxmaps = i;
else if (ln2range > 32)
i++;
}
map = malloc(maxmaps * sizeof (pcimap), M_DEVBUF, M_WAITOK);
if (map != NULL) {
bzero(map, sizeof(pcimap) * maxmaps);
for (i = 0; i < maxmaps; i++) {
int reg = PCIR_MAPS + i*4;
u_int32_t base;
u_int32_t testval;
base = pci_cfgread(cfg, reg, 4);
if (map64 == 0) {
pci_cfgwrite(cfg, reg, 0xffffffff, 4);
testval = pci_cfgread(cfg, reg, 4);
pci_cfgwrite(cfg, reg, base, 4);
map[i].base = pci_mapbase(base);
map[i].type = pci_maptype(base);
map[i].ln2size = pci_mapsize(testval);
map[i].ln2range = pci_maprange(testval);
map64 = map[i].ln2range == 64;
} else {
/* only fill in base, other fields are 0 */
map[i].base = base;
map64 = 0;
}
}
cfg->nummaps = maxmaps;
}
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 pcicfgregs *
pci_readcfg(pcicfgregs *probe)
{
pcicfgregs *cfg = NULL;
if (pci_cfgread(probe, PCIR_DEVVENDOR, 4) != -1) {
cfg = malloc(sizeof (pcicfgregs), M_DEVBUF, M_WAITOK);
if (cfg == NULL)
return (cfg);
bzero(cfg, sizeof *cfg);
cfg->bus = probe->bus;
cfg->slot = probe->slot;
cfg->func = probe->func;
cfg->parent = probe->parent;
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_pin(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_pin(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);
}
return (cfg);
}
#if 0
/* free pcicfgregs structure and all depending data structures */
static int
pci_freecfg(pcicfgregs *cfg)
{
if (cfg->hdrspec != NULL)
free(cfg->hdrspec, M_DEVBUF);
if (cfg->map != NULL)
free(cfg->map, M_DEVBUF);
free(cfg, M_DEVBUF);
return (0);
}
#endif
static void
pci_addcfg(pcicfgregs *cfg)
{
if (bootverbose) {
int i;
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);
#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);
}
}
pci_drvattach(cfg); /* XXX currently defined in pci_compat.c */
}
/* return pointer to device that is a bridge to this bus */
static pcicfgregs *
pci_bridgeto(int bus)
{
return (NULL); /* XXX not yet implemented */
}
/* scan one PCI bus for devices */
static int
pci_probebus(int bus)
{
pcicfgregs probe;
int bushigh = bus;
#ifdef SIMOS
#undef PCI_SLOTMAX
#define PCI_SLOTMAX 0
#endif
bzero(&probe, sizeof probe);
probe.parent = pci_bridgeto(bus);
probe.bus = bus;
for (probe.slot = 0; probe.slot <= PCI_SLOTMAX; probe.slot++) {
int pcifunchigh = 0;
for (probe.func = 0; probe.func <= pcifunchigh; probe.func++) {
pcicfgregs *cfg = pci_readcfg(&probe);
if (cfg != NULL) {
if (cfg->mfdev)
pcifunchigh = 7;
/*
* XXX: Temporarily move pci_addcfg() up before
* the use of cfg->subordinatebus. This is
* necessary, since pci_addcfg() calls the
* device's probe(), which may read the bus#
* from some device dependent register of
* some host to PCI bridges. The probe will
* eventually be moved to pci_readcfg(), and
* pci_addcfg() will then be moved back down
* below the conditional statement ...
*/
pci_addcfg(cfg);
if (bushigh < cfg->subordinatebus)
bushigh = cfg->subordinatebus;
cfg = NULL; /* we don't own this anymore ... */
}
}
}
return (bushigh);
}
/* scan a PCI bus tree reached through one PCI attachment point */
int
pci_probe(pciattach *parent)
{
int bushigh;
int bus = 0;
bushigh = pci_bushigh();
while (bus <= bushigh) {
int newbushigh;
printf("Probing for devices on PCI bus %d:\n", bus);
newbushigh = pci_probebus(bus);
if (bushigh < newbushigh)
bushigh = newbushigh;
bus++;
}
return (bushigh);
}
/*
* 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;
}
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 (cmd != PCIOCGETCONF && !(flag & FWRITE))
return EPERM;
switch(cmd) {
case PCIOCGETCONF:
#ifdef NOTYET
static struct pci_conf *pci_dev_list;
static unsigned pci_dev_list_count;
static unsigned pci_dev_list_size;
cio = (struct pci_conf_io *)data;
iolen = min(cio->pci_len,
pci_dev_list_count * sizeof(struct pci_conf));
cio->pci_len = pci_dev_list_count * sizeof(struct pci_conf);
error = copyout(pci_dev_list, cio->pci_buf, iolen);
#else
error = ENODEV;
#endif
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);
#endif /* NPCI > 0 */
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