dist/src/netbsd_pci.c

4f5e7dd7Smrg/*
4f5e7dd7Smrg * Copyright (c) 2008 Juan Romero Pardines
4f5e7dd7Smrg * Copyright (c) 2008 Mark Kettenis
8ce851d2Smacallan * Copyright (c) 2009 Michael Lorenz
4f5e7dd7Smrg *
4f5e7dd7Smrg * Permission to use, copy, modify, and distribute this software for any
4f5e7dd7Smrg * purpose with or without fee is hereby granted, provided that the above
4f5e7dd7Smrg * copyright notice and this permission notice appear in all copies.
4f5e7dd7Smrg *
4f5e7dd7Smrg * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
4f5e7dd7Smrg * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
4f5e7dd7Smrg * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
4f5e7dd7Smrg * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
4f5e7dd7Smrg * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
4f5e7dd7Smrg * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
4f5e7dd7Smrg * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
4f5e7dd7Smrg */
4f5e7dd7Smrg
4f5e7dd7Smrg#include <sys/param.h>
4f5e7dd7Smrg#include <sys/ioctl.h>
4f5e7dd7Smrg#include <sys/mman.h>
4f5e7dd7Smrg#include <sys/types.h>
4f5e7dd7Smrg
9266c31dSmrg#ifdef HAVE_CONFIG_H
9266c31dSmrg#include "config.h"
9266c31dSmrg#endif
9266c31dSmrg
22df1cdfSmrg#ifdef HAVE_MTRR
4f5e7dd7Smrg#include <machine/sysarch.h>
4f5e7dd7Smrg#include <machine/mtrr.h>
9266c31dSmrg#ifdef _X86_SYSARCH_L
9266c31dSmrg/* NetBSD 5.x and newer */
22df1cdfSmrg#define netbsd_set_mtrr(mr, num)	_X86_SYSARCH_L(set_mtrr)(mr, num)
9266c31dSmrg#else
9266c31dSmrg/* NetBSD 4.x and older */
9266c31dSmrg#ifdef __i386__
9266c31dSmrg#define netbsd_set_mtrr(mr, num)	i386_set_mtrr((mr), (num))
9266c31dSmrg#endif
9266c31dSmrg#ifdef __amd64__
9266c31dSmrg#define netbsd_set_mtrr(mr, num)	x86_64_set_mtrr((mr), (num))
9266c31dSmrg#endif
9266c31dSmrg#endif
22df1cdfSmrg#endif
4f5e7dd7Smrg
22df1cdfSmrg#include <dev/pci/pcidevs.h>
4f5e7dd7Smrg#include <dev/pci/pciio.h>
4f5e7dd7Smrg#include <dev/pci/pcireg.h>
4f5e7dd7Smrg
4f5e7dd7Smrg#include <errno.h>
4f5e7dd7Smrg#include <fcntl.h>
4f5e7dd7Smrg#include <stdio.h>
4f5e7dd7Smrg#include <stdlib.h>
4f5e7dd7Smrg#include <string.h>
4f5e7dd7Smrg#include <unistd.h>
4f5e7dd7Smrg
4f5e7dd7Smrg
22df1cdfSmrg#include <pci.h>
6209fe3aScegger#include <dev/wscons/wsconsio.h>
22df1cdfSmrg
4f5e7dd7Smrg#include "pciaccess.h"
4f5e7dd7Smrg#include "pciaccess_private.h"
4f5e7dd7Smrg
8ce851d2Smacallantypedef struct _pcibus {
8ce851d2Smacallan	int fd;		/* /dev/pci* */
8ce851d2Smacallan	int num;	/* bus number */
8ce851d2Smacallan	int maxdevs;	/* maximum number of devices */
8ce851d2Smacallan} PciBus;
9e884b7eSchristos
8ce851d2Smacallanstatic PciBus buses[32];	/* indexed by pci_device.domain */
8ce851d2Smacallanstatic int nbuses = 0;		/* number of buses found */
8ce851d2Smacallan
8ce851d2Smacallan/*
8ce851d2Smacallan * NetBSD's userland has a /dev/pci* entry for each bus but userland has no way
8ce851d2Smacallan * to tell if a bus is a subordinate of another one or if it's on a different
8ce851d2Smacallan * host bridge. On some architectures ( macppc for example ) all root buses have
8ce851d2Smacallan * bus number 0 but on sparc64 for example the two roots in an Ultra60 have
8ce851d2Smacallan * different bus numbers - one is 0 and the other 128.
8ce851d2Smacallan * With each /dev/pci* we can map everything on the same root and we can also
8ce851d2Smacallan * see all devices on the same root, trying to do that causes problems though:
8ce851d2Smacallan * - since we can't tell which /dev/pci* is a subordinate we would find some
8ce851d2Smacallan *   devices more than once
8ce851d2Smacallan * - we would have to guess subordinate bus numbers which is a waste of time
8ce851d2Smacallan *   since we can ask each /dev/pci* for its bus number so we can scan only the
8ce851d2Smacallan *   buses we know exist, not all 256 which may exist in each domain.
8ce851d2Smacallan * - some bus_space_mmap() methods may limit mappings to address ranges which
8ce851d2Smacallan *   belong to known devices on that bus only.
8ce851d2Smacallan * Each host bridge may or may not have its own IO range, to avoid guesswork
8ce851d2Smacallan * here each /dev/pci* will let userland map its appropriate IO range at
8ce851d2Smacallan * PCI_MAGIC_IO_RANGE if defined in <machine/param.h>
8ce851d2Smacallan * With all this we should be able to use any PCI graphics device on any PCI
8ce851d2Smacallan * bus on any architecture as long as Xorg has a driver, without allowing
8ce851d2Smacallan * arbitrary mappings via /dev/mem and without userland having to know or care
4b4d14a9Swiz * about translating bus addresses to physical addresses or the other way
8ce851d2Smacallan * around.
8ce851d2Smacallan */
4f5e7dd7Smrg
4f5e7dd7Smrgstatic int
8ce851d2Smacallanpci_read(int domain, int bus, int dev, int func, uint32_t reg, uint32_t *val)
4f5e7dd7Smrg{
22df1cdfSmrg	uint32_t rval;
4f5e7dd7Smrg
8ce851d2Smacallan	if ((domain < 0) || (domain > nbuses))
8ce851d2Smacallan		return -1;
8ce851d2Smacallan
8ce851d2Smacallan	if (pcibus_conf_read(buses[domain].fd, (unsigned int)bus,
8ce851d2Smacallan	    (unsigned int)dev, (unsigned int)func, reg, &rval) == -1)
22df1cdfSmrg		return (-1);
4f5e7dd7Smrg
22df1cdfSmrg	*val = rval;
4f5e7dd7Smrg
4f5e7dd7Smrg	return 0;
4f5e7dd7Smrg}
4f5e7dd7Smrg
4f5e7dd7Smrgstatic int
8ce851d2Smacallanpci_write(int domain, int bus, int dev, int func, uint32_t reg, uint32_t val)
4f5e7dd7Smrg{
8ce851d2Smacallan
8ce851d2Smacallan	if ((domain < 0) || (domain > nbuses))
8ce851d2Smacallan		return -1;
8ce851d2Smacallan
8ce851d2Smacallan	return pcibus_conf_write(buses[domain].fd, (unsigned int)bus,
8ce851d2Smacallan	    (unsigned int)dev, (unsigned int)func, reg, val);
4f5e7dd7Smrg}
4f5e7dd7Smrg
4f5e7dd7Smrgstatic int
8ce851d2Smacallanpci_nfuncs(int domain, int bus, int dev)
4f5e7dd7Smrg{
4f5e7dd7Smrg	uint32_t hdr;
4f5e7dd7Smrg
8ce851d2Smacallan	if ((domain < 0) || (domain > nbuses))
8ce851d2Smacallan		return -1;
8ce851d2Smacallan
8ce851d2Smacallan	if (pci_read(domain, bus, dev, 0, PCI_BHLC_REG, &hdr) != 0)
4f5e7dd7Smrg		return -1;
4f5e7dd7Smrg
4f5e7dd7Smrg	return (PCI_HDRTYPE_MULTIFN(hdr) ? 8 : 1);
4f5e7dd7Smrg}
4f5e7dd7Smrg
9e884b7eSchristos/*ARGSUSED*/
4f5e7dd7Smrgstatic int
4f5e7dd7Smrgpci_device_netbsd_map_range(struct pci_device *dev,
4f5e7dd7Smrg    struct pci_device_mapping *map)
4f5e7dd7Smrg{
22df1cdfSmrg#ifdef HAVE_MTRR
22df1cdfSmrg	struct mtrr m;
22df1cdfSmrg	int n = 1;
22df1cdfSmrg#endif
8ce851d2Smacallan	int prot, ret = 0;
4f5e7dd7Smrg
22df1cdfSmrg	prot = PROT_READ;
4f5e7dd7Smrg
4f5e7dd7Smrg	if (map->flags & PCI_DEV_MAP_FLAG_WRITABLE)
4f5e7dd7Smrg		prot |= PROT_WRITE;
a5d2dc35Sjmcneill	map->memory = mmap(NULL, (size_t)map->size, prot, MAP_SHARED,
8ce851d2Smacallan	    buses[dev->domain].fd, (off_t)map->base);
4f5e7dd7Smrg	if (map->memory == MAP_FAILED)
4f5e7dd7Smrg		return errno;
4f5e7dd7Smrg
22df1cdfSmrg#ifdef HAVE_MTRR
22df1cdfSmrg	memset(&m, 0, sizeof(m));
22df1cdfSmrg
4f5e7dd7Smrg	/* No need to set an MTRR if it's the default mode. */
4f5e7dd7Smrg	if ((map->flags & PCI_DEV_MAP_FLAG_CACHABLE) ||
4f5e7dd7Smrg	    (map->flags & PCI_DEV_MAP_FLAG_WRITE_COMBINE)) {
a5d2dc35Sjmcneill		m.base = map->base;
22df1cdfSmrg		m.flags = MTRR_VALID | MTRR_PRIVATE;
a5d2dc35Sjmcneill		m.len = map->size;
22df1cdfSmrg		m.owner = getpid();
a5d2dc35Sjmcneill		if (map->flags & PCI_DEV_MAP_FLAG_CACHABLE)
22df1cdfSmrg			m.type = MTRR_TYPE_WB;
4f5e7dd7Smrg		if (map->flags & PCI_DEV_MAP_FLAG_WRITE_COMBINE)
22df1cdfSmrg			m.type = MTRR_TYPE_WC;
22df1cdfSmrg
a5d2dc35Sjmcneill		if ((netbsd_set_mtrr(&m, &n)) == -1) {
a5d2dc35Sjmcneill			fprintf(stderr, "mtrr set failed: %s\n",
a5d2dc35Sjmcneill			    strerror(errno));
a5d2dc35Sjmcneill		}
4f5e7dd7Smrg	}
22df1cdfSmrg#endif
4f5e7dd7Smrg
22df1cdfSmrg	return ret;
4f5e7dd7Smrg}
4f5e7dd7Smrg
4f5e7dd7Smrgstatic int
4f5e7dd7Smrgpci_device_netbsd_unmap_range(struct pci_device *dev,
4f5e7dd7Smrg    struct pci_device_mapping *map)
4f5e7dd7Smrg{
22df1cdfSmrg#ifdef HAVE_MTRR
22df1cdfSmrg	struct mtrr m;
22df1cdfSmrg	int n = 1;
22df1cdfSmrg
22df1cdfSmrg	memset(&m, 0, sizeof(m));
4f5e7dd7Smrg
4f5e7dd7Smrg	if ((map->flags & PCI_DEV_MAP_FLAG_CACHABLE) ||
4f5e7dd7Smrg	    (map->flags & PCI_DEV_MAP_FLAG_WRITE_COMBINE)) {
22df1cdfSmrg		m.base = map->base;
22df1cdfSmrg		m.flags = 0;
a5d2dc35Sjmcneill		m.len = map->size;
22df1cdfSmrg		m.type = MTRR_TYPE_UC;
22df1cdfSmrg		(void)netbsd_set_mtrr(&m, &n);
4f5e7dd7Smrg	}
22df1cdfSmrg#endif
4f5e7dd7Smrg
4f5e7dd7Smrg	return pci_device_generic_unmap_range(dev, map);
4f5e7dd7Smrg}
4f5e7dd7Smrg
4f5e7dd7Smrgstatic int
4f5e7dd7Smrgpci_device_netbsd_read(struct pci_device *dev, void *data,
4f5e7dd7Smrg    pciaddr_t offset, pciaddr_t size, pciaddr_t *bytes_read)
4f5e7dd7Smrg{
22df1cdfSmrg	u_int reg, rval;
4f5e7dd7Smrg
4f5e7dd7Smrg	*bytes_read = 0;
4f5e7dd7Smrg	while (size > 0) {
9e884b7eSchristos		size_t toread = MIN(size, 4 - (offset & 0x3));
4f5e7dd7Smrg
9e884b7eSchristos		reg = (u_int)(offset & ~0x3);
4f5e7dd7Smrg
8ce851d2Smacallan		if ((pcibus_conf_read(buses[dev->domain].fd,
8ce851d2Smacallan		    (unsigned int)dev->bus, (unsigned int)dev->dev,
8ce851d2Smacallan		    (unsigned int)dev->func, reg, &rval)) == -1)
4f5e7dd7Smrg			return errno;
4f5e7dd7Smrg
22df1cdfSmrg		rval = htole32(rval);
22df1cdfSmrg		rval >>= ((offset & 0x3) * 8);
4f5e7dd7Smrg
22df1cdfSmrg		memcpy(data, &rval, toread);
4f5e7dd7Smrg
4f5e7dd7Smrg		offset += toread;
4f5e7dd7Smrg		data = (char *)data + toread;
4f5e7dd7Smrg		size -= toread;
4f5e7dd7Smrg		*bytes_read += toread;
4f5e7dd7Smrg	}
4f5e7dd7Smrg
4f5e7dd7Smrg	return 0;
4f5e7dd7Smrg}
4f5e7dd7Smrg
4f5e7dd7Smrgstatic int
4f5e7dd7Smrgpci_device_netbsd_write(struct pci_device *dev, const void *data,
4f5e7dd7Smrg    pciaddr_t offset, pciaddr_t size, pciaddr_t *bytes_written)
4f5e7dd7Smrg{
22df1cdfSmrg	u_int reg, val;
4f5e7dd7Smrg
4f5e7dd7Smrg	if ((offset % 4) != 0 || (size % 4) != 0)
4f5e7dd7Smrg		return EINVAL;
4f5e7dd7Smrg
4f5e7dd7Smrg	*bytes_written = 0;
4f5e7dd7Smrg	while (size > 0) {
9e884b7eSchristos		reg = (u_int)offset;
22df1cdfSmrg		memcpy(&val, data, 4);
4f5e7dd7Smrg
8ce851d2Smacallan		if ((pcibus_conf_write(buses[dev->domain].fd,
8ce851d2Smacallan		    (unsigned int)dev->bus, (unsigned int)dev->dev,
8ce851d2Smacallan		    (unsigned int)dev->func, reg, val)) == -1)
4f5e7dd7Smrg			return errno;
4f5e7dd7Smrg
4f5e7dd7Smrg		offset += 4;
9e884b7eSchristos		data = (const char *)data + 4;
4f5e7dd7Smrg		size -= 4;
4f5e7dd7Smrg		*bytes_written += 4;
4f5e7dd7Smrg	}
4f5e7dd7Smrg
4f5e7dd7Smrg	return 0;
4f5e7dd7Smrg}
4f5e7dd7Smrg
9266c31dSmrg#if defined(WSDISPLAYIO_GET_BUSID)
6209fe3aSceggerstatic int
6209fe3aSceggerpci_device_netbsd_boot_vga(struct pci_device *dev)
6209fe3aScegger{
6209fe3aScegger	int ret;
6209fe3aScegger	struct wsdisplayio_bus_id busid;
6209fe3aScegger	int fd;
6209fe3aScegger
6209fe3aScegger	fd = open("/dev/ttyE0", O_RDONLY);
6209fe3aScegger	if (fd == -1) {
6209fe3aScegger		fprintf(stderr, "failed to open /dev/ttyE0: %s\n",
6209fe3aScegger		    strerror(errno));
6209fe3aScegger		return 0;
6209fe3aScegger	}
6209fe3aScegger
6209fe3aScegger	ret = ioctl(fd, WSDISPLAYIO_GET_BUSID, &busid);
6209fe3aScegger	close(fd);
6209fe3aScegger	if (ret == -1) {
6209fe3aScegger		fprintf(stderr, "ioctl WSDISPLAYIO_GET_BUSID failed: %s\n",
6209fe3aScegger		    strerror(errno));
6209fe3aScegger		return 0;
6209fe3aScegger	}
6209fe3aScegger
6209fe3aScegger	if (busid.bus_type != WSDISPLAYIO_BUS_PCI)
6209fe3aScegger		return 0;
6209fe3aScegger
6209fe3aScegger	if (busid.ubus.pci.domain != dev->domain)
6209fe3aScegger		return 0;
6209fe3aScegger	if (busid.ubus.pci.bus != dev->bus)
6209fe3aScegger		return 0;
6209fe3aScegger	if (busid.ubus.pci.device != dev->dev)
6209fe3aScegger		return 0;
6209fe3aScegger	if (busid.ubus.pci.function != dev->func)
6209fe3aScegger		return 0;
6209fe3aScegger
6209fe3aScegger	return 1;
6209fe3aScegger}
9266c31dSmrg#endif
f6db1a1aSmrg
4f5e7dd7Smrgstatic void
4f5e7dd7Smrgpci_system_netbsd_destroy(void)
4f5e7dd7Smrg{
8ce851d2Smacallan	int i;
8ce851d2Smacallan
8ce851d2Smacallan	for (i = 0; i < nbuses; i++) {
8ce851d2Smacallan		close(buses[i].fd);
8ce851d2Smacallan	}
4f5e7dd7Smrg	free(pci_sys);
4f5e7dd7Smrg	pci_sys = NULL;
4f5e7dd7Smrg}
4f5e7dd7Smrg
4f5e7dd7Smrgstatic int
4f5e7dd7Smrgpci_device_netbsd_probe(struct pci_device *device)
4f5e7dd7Smrg{
9e884b7eSchristos	struct pci_device_private *priv =
9e884b7eSchristos	    (struct pci_device_private *)(void *)device;
4f5e7dd7Smrg	struct pci_mem_region *region;
4f5e7dd7Smrg	uint64_t reg64, size64;
4f5e7dd7Smrg	uint32_t bar, reg, size;
8ce851d2Smacallan	int bus, dev, func, err, domain;
4f5e7dd7Smrg
8ce851d2Smacallan	domain = device->domain;
4f5e7dd7Smrg	bus = device->bus;
4f5e7dd7Smrg	dev = device->dev;
4f5e7dd7Smrg	func = device->func;
4f5e7dd7Smrg
6c7645b9Smrg	/* Enable the device if necessary */
6c7645b9Smrg	err = pci_read(domain, bus, dev, func, PCI_COMMAND_STATUS_REG, &reg);
6c7645b9Smrg	if (err)
6c7645b9Smrg		return err;
6c7645b9Smrg	if ((reg & (PCI_COMMAND_IO_ENABLE | PCI_COMMAND_MEM_ENABLE | PCI_COMMAND_MASTER_ENABLE)) !=
6c7645b9Smrg	    (PCI_COMMAND_IO_ENABLE | PCI_COMMAND_MEM_ENABLE | PCI_COMMAND_MASTER_ENABLE)) {
6c7645b9Smrg		reg |= PCI_COMMAND_IO_ENABLE |
6c7645b9Smrg		       PCI_COMMAND_MEM_ENABLE |
6c7645b9Smrg		       PCI_COMMAND_MASTER_ENABLE;
6c7645b9Smrg		err = pci_write(domain, bus, dev, func, PCI_COMMAND_STATUS_REG,
6c7645b9Smrg				reg);
6c7645b9Smrg		if (err)
6c7645b9Smrg			return err;
6c7645b9Smrg	}
6c7645b9Smrg
8ce851d2Smacallan	err = pci_read(domain, bus, dev, func, PCI_BHLC_REG, &reg);
4f5e7dd7Smrg	if (err)
4f5e7dd7Smrg		return err;
4f5e7dd7Smrg
4f5e7dd7Smrg	priv->header_type = PCI_HDRTYPE_TYPE(reg);
4f5e7dd7Smrg	if (priv->header_type != 0)
4f5e7dd7Smrg		return 0;
4f5e7dd7Smrg
4f5e7dd7Smrg	region = device->regions;
4f5e7dd7Smrg	for (bar = PCI_MAPREG_START; bar < PCI_MAPREG_END;
4f5e7dd7Smrg	     bar += sizeof(uint32_t), region++) {
8ce851d2Smacallan		err = pci_read(domain, bus, dev, func, bar, &reg);
4f5e7dd7Smrg		if (err)
4f5e7dd7Smrg			return err;
4f5e7dd7Smrg
4f5e7dd7Smrg		/* Probe the size of the region. */
8ce851d2Smacallan		err = pci_write(domain, bus, dev, func, bar, (unsigned int)~0);
4f5e7dd7Smrg		if (err)
4f5e7dd7Smrg			return err;
8ce851d2Smacallan		pci_read(domain, bus, dev, func, bar, &size);
8ce851d2Smacallan		pci_write(domain, bus, dev, func, bar, reg);
4f5e7dd7Smrg
4f5e7dd7Smrg		if (PCI_MAPREG_TYPE(reg) == PCI_MAPREG_TYPE_IO) {
4f5e7dd7Smrg			region->is_IO = 1;
4f5e7dd7Smrg			region->base_addr = PCI_MAPREG_IO_ADDR(reg);
4f5e7dd7Smrg			region->size = PCI_MAPREG_IO_SIZE(size);
4f5e7dd7Smrg		} else {
4f5e7dd7Smrg			if (PCI_MAPREG_MEM_PREFETCHABLE(reg))
4f5e7dd7Smrg				region->is_prefetchable = 1;
4f5e7dd7Smrg			switch(PCI_MAPREG_MEM_TYPE(reg)) {
4f5e7dd7Smrg			case PCI_MAPREG_MEM_TYPE_32BIT:
4f5e7dd7Smrg			case PCI_MAPREG_MEM_TYPE_32BIT_1M:
4f5e7dd7Smrg				region->base_addr = PCI_MAPREG_MEM_ADDR(reg);
4f5e7dd7Smrg				region->size = PCI_MAPREG_MEM_SIZE(size);
4f5e7dd7Smrg				break;
4f5e7dd7Smrg			case PCI_MAPREG_MEM_TYPE_64BIT:
4f5e7dd7Smrg				region->is_64 = 1;
4f5e7dd7Smrg
4f5e7dd7Smrg				reg64 = reg;
4f5e7dd7Smrg				size64 = size;
4f5e7dd7Smrg
4f5e7dd7Smrg				bar += sizeof(uint32_t);
4f5e7dd7Smrg
8ce851d2Smacallan				err = pci_read(domain, bus, dev, func, bar, &reg);
4f5e7dd7Smrg				if (err)
4f5e7dd7Smrg					return err;
4f5e7dd7Smrg				reg64 |= (uint64_t)reg << 32;
4f5e7dd7Smrg
8ce851d2Smacallan				err = pci_write(domain, bus, dev, func, bar,
9e884b7eSchristos				    (unsigned int)~0);
4f5e7dd7Smrg				if (err)
4f5e7dd7Smrg					return err;
8ce851d2Smacallan				pci_read(domain, bus, dev, func, bar, &size);
8ce851d2Smacallan				pci_write(domain, bus, dev, func, bar,
9e884b7eSchristos				    (unsigned int)(reg64 >> 32));
4f5e7dd7Smrg				size64 |= (uint64_t)size << 32;
4f5e7dd7Smrg
9e884b7eSchristos				region->base_addr =
9e884b7eSchristos				    (unsigned long)PCI_MAPREG_MEM64_ADDR(reg64);
9e884b7eSchristos				region->size =
9e884b7eSchristos				    (unsigned long)PCI_MAPREG_MEM64_SIZE(size64);
4f5e7dd7Smrg				region++;
4f5e7dd7Smrg				break;
4f5e7dd7Smrg			}
4f5e7dd7Smrg		}
4f5e7dd7Smrg	}
4f5e7dd7Smrg
37a6a21eSmrg	/* Probe expansion ROM if present */
37a6a21eSmrg	err = pci_read(domain, bus, dev, func, PCI_MAPREG_ROM, &reg);
37a6a21eSmrg	if (err)
37a6a21eSmrg		return err;
37a6a21eSmrg	if (reg != 0) {
37a6a21eSmrg		err = pci_write(domain, bus, dev, func, PCI_MAPREG_ROM,
37a6a21eSmrg		    (uint32_t)(~PCI_MAPREG_ROM_ENABLE));
37a6a21eSmrg		if (err)
37a6a21eSmrg			return err;
37a6a21eSmrg		pci_read(domain, bus, dev, func, PCI_MAPREG_ROM, &size);
37a6a21eSmrg		pci_write(domain, bus, dev, func, PCI_MAPREG_ROM, reg);
37a6a21eSmrg		if ((reg & PCI_MAPREG_MEM_ADDR_MASK) != 0) {
37a6a21eSmrg			priv->rom_base = reg & PCI_MAPREG_MEM_ADDR_MASK;
37a6a21eSmrg			device->rom_size = -(size & PCI_MAPREG_MEM_ADDR_MASK);
37a6a21eSmrg		}
37a6a21eSmrg	}
37a6a21eSmrg
4f5e7dd7Smrg	return 0;
4f5e7dd7Smrg}
4f5e7dd7Smrg
9e884b7eSchristos/**
9e884b7eSchristos * Read a VGA rom using the 0xc0000 mapping.
9e884b7eSchristos *
9e884b7eSchristos * This function should be extended to handle access through PCI resources,
9e884b7eSchristos * which should be more reliable when available.
9e884b7eSchristos */
9e884b7eSchristosstatic int
9e884b7eSchristospci_device_netbsd_read_rom(struct pci_device *dev, void *buffer)
9e884b7eSchristos{
9e884b7eSchristos    struct pci_device_private *priv = (struct pci_device_private *)(void *)dev;
9e884b7eSchristos    void *bios;
9e884b7eSchristos    pciaddr_t rom_base;
9e884b7eSchristos    size_t rom_size;
9e884b7eSchristos    uint32_t bios_val, command_val;
74c741d0Smacallan    int pci_rom;
9e884b7eSchristos
9e884b7eSchristos    if (((priv->base.device_class >> 16) & 0xff) != PCI_CLASS_DISPLAY ||
9e884b7eSchristos	((priv->base.device_class >> 8) & 0xff) != PCI_SUBCLASS_DISPLAY_VGA)
9e884b7eSchristos	return ENOSYS;
9e884b7eSchristos
9e884b7eSchristos    if (priv->rom_base == 0) {
9e884b7eSchristos#if defined(__amd64__) || defined(__i386__)
37a6a21eSmrg	/*
37a6a21eSmrg	 * We need a way to detect when this isn't the console and reject
37a6a21eSmrg	 * this request outright.
37a6a21eSmrg	 */
9e884b7eSchristos	rom_base = 0xc0000;
9e884b7eSchristos	rom_size = 0x10000;
9e884b7eSchristos	pci_rom = 0;
9e884b7eSchristos#else
9e884b7eSchristos	return ENOSYS;
9e884b7eSchristos#endif
9e884b7eSchristos    } else {
9e884b7eSchristos	rom_base = priv->rom_base;
9e884b7eSchristos	rom_size = dev->rom_size;
9e884b7eSchristos	pci_rom = 1;
8ce851d2Smacallan	if ((pcibus_conf_read(buses[dev->domain].fd, (unsigned int)dev->bus,
9e884b7eSchristos	    (unsigned int)dev->dev, (unsigned int)dev->func,
8ce851d2Smacallan	    PCI_COMMAND_STATUS_REG, &command_val)) == -1)
9e884b7eSchristos	    return errno;
8ce851d2Smacallan	if ((command_val & PCI_COMMAND_MEM_ENABLE) == 0) {
8ce851d2Smacallan	    if ((pcibus_conf_write(buses[dev->domain].fd,
8ce851d2Smacallan	        (unsigned int)dev->bus, (unsigned int)dev->dev,
8ce851d2Smacallan		(unsigned int)dev->func, PCI_COMMAND_STATUS_REG,
8ce851d2Smacallan		command_val | PCI_COMMAND_MEM_ENABLE)) == -1)
9e884b7eSchristos		return errno;
9e884b7eSchristos	}
8ce851d2Smacallan	if ((pcibus_conf_read(buses[dev->domain].fd, (unsigned int)dev->bus,
9e884b7eSchristos	    (unsigned int)dev->dev, (unsigned int)dev->func,
8ce851d2Smacallan	    PCI_MAPREG_ROM, &bios_val)) == -1)
9e884b7eSchristos	    return errno;
8ce851d2Smacallan	if ((bios_val & PCI_MAPREG_ROM_ENABLE) == 0) {
8ce851d2Smacallan	    if ((pcibus_conf_write(buses[dev->domain].fd,
8ce851d2Smacallan	        (unsigned int)dev->bus,
9e884b7eSchristos		(unsigned int)dev->dev, (unsigned int)dev->func,
8ce851d2Smacallan		PCI_MAPREG_ROM, bios_val | PCI_MAPREG_ROM_ENABLE)) == -1)
9e884b7eSchristos		return errno;
9e884b7eSchristos	}
9e884b7eSchristos    }
9e884b7eSchristos
4b4d14a9Swiz    fprintf(stderr, "Using rom_base = 0x%lx 0x%lx (pci_rom=%d)\n",
74c741d0Smacallan        (long)rom_base, (long)rom_size, pci_rom);
9e884b7eSchristos
4b4d14a9Swiz    bios = mmap(NULL, rom_size, PROT_READ, MAP_SHARED, buses[dev->domain].fd,
74c741d0Smacallan        (off_t)rom_base);
9e884b7eSchristos    if (bios == MAP_FAILED) {
9e884b7eSchristos	int serrno = errno;
9e884b7eSchristos	return serrno;
9e884b7eSchristos    }
9e884b7eSchristos
9e884b7eSchristos    memcpy(buffer, bios, rom_size);
9e884b7eSchristos
9e884b7eSchristos    munmap(bios, rom_size);
9e884b7eSchristos
9e884b7eSchristos    if (pci_rom) {
8ce851d2Smacallan	if ((command_val & PCI_COMMAND_MEM_ENABLE) == 0) {
8ce851d2Smacallan	    if ((pcibus_conf_write(buses[dev->domain].fd,
8ce851d2Smacallan	        (unsigned int)dev->bus,
9e884b7eSchristos		(unsigned int)dev->dev, (unsigned int)dev->func,
8ce851d2Smacallan		PCI_COMMAND_STATUS_REG, command_val)) == -1)
9e884b7eSchristos		return errno;
9e884b7eSchristos	}
8ce851d2Smacallan	if ((bios_val & PCI_MAPREG_ROM_ENABLE) == 0) {
8ce851d2Smacallan	    if ((pcibus_conf_write(buses[dev->domain].fd,
8ce851d2Smacallan	        (unsigned int)dev->bus,
9e884b7eSchristos		(unsigned int)dev->dev, (unsigned int)dev->func,
8ce851d2Smacallan		PCI_MAPREG_ROM, bios_val)) == -1)
9e884b7eSchristos		return errno;
9e884b7eSchristos	}
9e884b7eSchristos    }
9e884b7eSchristos
9e884b7eSchristos    return 0;
9e884b7eSchristos}
9e884b7eSchristos
9266c31dSmrg#if defined(__i386__) || defined(__amd64__)
9266c31dSmrg#include <machine/sysarch.h>
9266c31dSmrg
9266c31dSmrg/*
9266c31dSmrg * Functions to provide access to x86 programmed I/O instructions.
9266c31dSmrg *
9266c31dSmrg * The in[bwl]() and out[bwl]() functions are split into two varieties: one to
9266c31dSmrg * use a small, constant, 8-bit port number, and another to use a large or
9266c31dSmrg * variable port number.  The former can be compiled as a smaller instruction.
9266c31dSmrg */
9266c31dSmrg
9266c31dSmrg
9266c31dSmrg#ifdef __OPTIMIZE__
9266c31dSmrg
9266c31dSmrg#define	__use_immediate_port(port) \
9266c31dSmrg	(__builtin_constant_p((port)) && (port) < 0x100)
9266c31dSmrg
9266c31dSmrg#else
9266c31dSmrg
9266c31dSmrg#define	__use_immediate_port(port)	0
9266c31dSmrg
9266c31dSmrg#endif
9266c31dSmrg
9266c31dSmrg
9266c31dSmrg#define	inb(port) \
9266c31dSmrg    (/* CONSTCOND */ __use_immediate_port(port) ? __inbc(port) : __inb(port))
9266c31dSmrg
9266c31dSmrgstatic __inline u_int8_t
9266c31dSmrg__inbc(unsigned port)
9266c31dSmrg{
9266c31dSmrg	u_int8_t data;
9266c31dSmrg	__asm __volatile("inb %w1,%0" : "=a" (data) : "id" (port));
9266c31dSmrg	return data;
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic __inline u_int8_t
9266c31dSmrg__inb(unsigned port)
9266c31dSmrg{
9266c31dSmrg	u_int8_t data;
9266c31dSmrg	__asm __volatile("inb %w1,%0" : "=a" (data) : "d" (port));
9266c31dSmrg	return data;
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic __inline void
9266c31dSmrginsb(unsigned port, void *addr, int cnt)
9266c31dSmrg{
9266c31dSmrg	void *dummy1;
9266c31dSmrg	int dummy2;
9266c31dSmrg	__asm __volatile("cld\n\trepne\n\tinsb"			:
9266c31dSmrg			 "=D" (dummy1), "=c" (dummy2) 		:
9266c31dSmrg			 "d" (port), "0" (addr), "1" (cnt)	:
9266c31dSmrg			 "memory");
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrg#define	inw(port) \
9266c31dSmrg    (/* CONSTCOND */ __use_immediate_port(port) ? __inwc(port) : __inw(port))
9266c31dSmrg
9266c31dSmrgstatic __inline u_int16_t
9266c31dSmrg__inwc(unsigned port)
9266c31dSmrg{
9266c31dSmrg	u_int16_t data;
9266c31dSmrg	__asm __volatile("inw %w1,%0" : "=a" (data) : "id" (port));
9266c31dSmrg	return data;
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic __inline u_int16_t
9266c31dSmrg__inw(unsigned port)
9266c31dSmrg{
9266c31dSmrg	u_int16_t data;
9266c31dSmrg	__asm __volatile("inw %w1,%0" : "=a" (data) : "d" (port));
9266c31dSmrg	return data;
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic __inline void
9266c31dSmrginsw(unsigned port, void *addr, int cnt)
9266c31dSmrg{
9266c31dSmrg	void *dummy1;
9266c31dSmrg	int dummy2;
9266c31dSmrg	__asm __volatile("cld\n\trepne\n\tinsw"			:
9266c31dSmrg			 "=D" (dummy1), "=c" (dummy2)		:
9266c31dSmrg			 "d" (port), "0" (addr), "1" (cnt)	:
9266c31dSmrg			 "memory");
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrg#define	inl(port) \
9266c31dSmrg    (/* CONSTCOND */ __use_immediate_port(port) ? __inlc(port) : __inl(port))
9266c31dSmrg
9266c31dSmrgstatic __inline u_int32_t
9266c31dSmrg__inlc(unsigned port)
9266c31dSmrg{
9266c31dSmrg	u_int32_t data;
9266c31dSmrg	__asm __volatile("inl %w1,%0" : "=a" (data) : "id" (port));
9266c31dSmrg	return data;
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic __inline u_int32_t
9266c31dSmrg__inl(unsigned port)
9266c31dSmrg{
9266c31dSmrg	u_int32_t data;
9266c31dSmrg	__asm __volatile("inl %w1,%0" : "=a" (data) : "d" (port));
9266c31dSmrg	return data;
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic __inline void
9266c31dSmrginsl(unsigned port, void *addr, int cnt)
9266c31dSmrg{
9266c31dSmrg	void *dummy1;
9266c31dSmrg	int dummy2;
9266c31dSmrg	__asm __volatile("cld\n\trepne\n\tinsl"			:
9266c31dSmrg			 "=D" (dummy1), "=c" (dummy2)		:
9266c31dSmrg			 "d" (port), "0" (addr), "1" (cnt)	:
9266c31dSmrg			 "memory");
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrg#define	outb(port, data) \
9266c31dSmrg    (/* CONSTCOND */__use_immediate_port(port) ? __outbc(port, data) : \
9266c31dSmrg						__outb(port, data))
9266c31dSmrg
9266c31dSmrgstatic __inline void
9266c31dSmrg__outbc(unsigned port, u_int8_t data)
9266c31dSmrg{
9266c31dSmrg	__asm __volatile("outb %0,%w1" : : "a" (data), "id" (port));
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic __inline void
9266c31dSmrg__outb(unsigned port, u_int8_t data)
9266c31dSmrg{
9266c31dSmrg	__asm __volatile("outb %0,%w1" : : "a" (data), "d" (port));
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic __inline void
9266c31dSmrgoutsb(unsigned port, const void *addr, int cnt)
9266c31dSmrg{
9266c31dSmrg	void *dummy1;
9266c31dSmrg	int dummy2;
9266c31dSmrg	__asm __volatile("cld\n\trepne\n\toutsb"		:
9266c31dSmrg			 "=S" (dummy1), "=c" (dummy2)		:
9266c31dSmrg			 "d" (port), "0" (addr), "1" (cnt));
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrg#define	outw(port, data) \
9266c31dSmrg    (/* CONSTCOND */ __use_immediate_port(port) ? __outwc(port, data) : \
9266c31dSmrg						__outw(port, data))
9266c31dSmrg
9266c31dSmrgstatic __inline void
9266c31dSmrg__outwc(unsigned port, u_int16_t data)
9266c31dSmrg{
9266c31dSmrg	__asm __volatile("outw %0,%w1" : : "a" (data), "id" (port));
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic __inline void
9266c31dSmrg__outw(unsigned port, u_int16_t data)
9266c31dSmrg{
9266c31dSmrg	__asm __volatile("outw %0,%w1" : : "a" (data), "d" (port));
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic __inline void
9266c31dSmrgoutsw(unsigned port, const void *addr, int cnt)
9266c31dSmrg{
9266c31dSmrg	void *dummy1;
9266c31dSmrg	int dummy2;
9266c31dSmrg	__asm __volatile("cld\n\trepne\n\toutsw"		:
9266c31dSmrg			 "=S" (dummy1), "=c" (dummy2)		:
9266c31dSmrg			 "d" (port), "0" (addr), "1" (cnt));
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrg#define	outl(port, data) \
9266c31dSmrg    (/* CONSTCOND */ __use_immediate_port(port) ? __outlc(port, data) : \
9266c31dSmrg						__outl(port, data))
9266c31dSmrg
9266c31dSmrgstatic __inline void
9266c31dSmrg__outlc(unsigned port, u_int32_t data)
9266c31dSmrg{
9266c31dSmrg	__asm __volatile("outl %0,%w1" : : "a" (data), "id" (port));
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic __inline void
9266c31dSmrg__outl(unsigned port, u_int32_t data)
9266c31dSmrg{
9266c31dSmrg	__asm __volatile("outl %0,%w1" : : "a" (data), "d" (port));
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic __inline void
9266c31dSmrgoutsl(unsigned port, const void *addr, int cnt)
9266c31dSmrg{
9266c31dSmrg	void *dummy1;
9266c31dSmrg	int dummy2;
9266c31dSmrg	__asm __volatile("cld\n\trepne\n\toutsl"		:
9266c31dSmrg			 "=S" (dummy1), "=c" (dummy2)		:
9266c31dSmrg			 "d" (port), "0" (addr), "1" (cnt));
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrg#endif
9266c31dSmrg
9266c31dSmrg
9266c31dSmrgstatic struct pci_io_handle *
9266c31dSmrgpci_device_netbsd_open_legacy_io(struct pci_io_handle *ret,
9266c31dSmrg    struct pci_device *dev, pciaddr_t base, pciaddr_t size)
9266c31dSmrg{
9266c31dSmrg#if defined(__i386__)
9266c31dSmrg	struct i386_iopl_args ia;
9266c31dSmrg
9266c31dSmrg	ia.iopl = 1;
9266c31dSmrg	if (sysarch(I386_IOPL, &ia))
9266c31dSmrg		return NULL;
9266c31dSmrg
9266c31dSmrg	ret->base = base;
9266c31dSmrg	ret->size = size;
9266c31dSmrg	return ret;
9266c31dSmrg#elif defined(__amd64__)
9266c31dSmrg	struct x86_64_iopl_args ia;
9266c31dSmrg
9266c31dSmrg	ia.iopl = 1;
9266c31dSmrg	if (sysarch(X86_64_IOPL, &ia))
9266c31dSmrg		return NULL;
9266c31dSmrg
9266c31dSmrg	ret->base = base;
9266c31dSmrg	ret->size = size;
9266c31dSmrg	return ret;
9266c31dSmrg#else
9266c31dSmrg	return NULL;
9266c31dSmrg#endif
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic uint32_t
9266c31dSmrgpci_device_netbsd_read32(struct pci_io_handle *handle, uint32_t reg)
9266c31dSmrg{
9266c31dSmrg#if defined(__i386__) || defined(__amd64__)
9266c31dSmrg	return inl(handle->base + reg);
9266c31dSmrg#else
9266c31dSmrg	return *(uint32_t *)((uintptr_t)handle->memory + reg);
9266c31dSmrg#endif
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic uint16_t
9266c31dSmrgpci_device_netbsd_read16(struct pci_io_handle *handle, uint32_t reg)
9266c31dSmrg{
9266c31dSmrg#if defined(__i386__) || defined(__amd64__)
9266c31dSmrg	return inw(handle->base + reg);
9266c31dSmrg#else
9266c31dSmrg	return *(uint16_t *)((uintptr_t)handle->memory + reg);
9266c31dSmrg#endif
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic uint8_t
9266c31dSmrgpci_device_netbsd_read8(struct pci_io_handle *handle, uint32_t reg)
9266c31dSmrg{
9266c31dSmrg#if defined(__i386__) || defined(__amd64__)
9266c31dSmrg	return inb(handle->base + reg);
9266c31dSmrg#else
9266c31dSmrg	return *(uint8_t *)((uintptr_t)handle->memory + reg);
9266c31dSmrg#endif
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic void
9266c31dSmrgpci_device_netbsd_write32(struct pci_io_handle *handle, uint32_t reg,
9266c31dSmrg    uint32_t data)
9266c31dSmrg{
9266c31dSmrg#if defined(__i386__) || defined(__amd64__)
9266c31dSmrg	outl(handle->base + reg, data);
9266c31dSmrg#else
9266c31dSmrg	*(uint16_t *)((uintptr_t)handle->memory + reg) = data;
9266c31dSmrg#endif
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic void
9266c31dSmrgpci_device_netbsd_write16(struct pci_io_handle *handle, uint32_t reg,
9266c31dSmrg    uint16_t data)
9266c31dSmrg{
9266c31dSmrg#if defined(__i386__) || defined(__amd64__)
9266c31dSmrg	outw(handle->base + reg, data);
9266c31dSmrg#else
9266c31dSmrg	*(uint8_t *)((uintptr_t)handle->memory + reg) = data;
9266c31dSmrg#endif
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic void
9266c31dSmrgpci_device_netbsd_write8(struct pci_io_handle *handle, uint32_t reg,
9266c31dSmrg    uint8_t data)
9266c31dSmrg{
9266c31dSmrg#if defined(__i386__) || defined(__amd64__)
9266c31dSmrg	outb(handle->base + reg, data);
9266c31dSmrg#else
9266c31dSmrg	*(uint32_t *)((uintptr_t)handle->memory + reg) = data;
9266c31dSmrg#endif
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic int
9266c31dSmrgpci_device_netbsd_map_legacy(struct pci_device *dev, pciaddr_t base,
9266c31dSmrg    pciaddr_t size, unsigned map_flags, void **addr)
9266c31dSmrg{
9266c31dSmrg	struct pci_device_mapping map;
9266c31dSmrg	int err;
9266c31dSmrg
9266c31dSmrg	map.base = base;
9266c31dSmrg	map.size = size;
9266c31dSmrg	map.flags = map_flags;
9266c31dSmrg	map.memory = NULL;
9266c31dSmrg	err = pci_device_netbsd_map_range(dev, &map);
9266c31dSmrg	*addr = map.memory;
9266c31dSmrg
9266c31dSmrg	return err;
9266c31dSmrg}
9266c31dSmrg
9266c31dSmrgstatic int
9266c31dSmrgpci_device_netbsd_unmap_legacy(struct pci_device *dev, void *addr,
9266c31dSmrg    pciaddr_t size)
9266c31dSmrg{
9266c31dSmrg	struct pci_device_mapping map;
9266c31dSmrg
9266c31dSmrg	map.memory = addr;
9266c31dSmrg	map.size = size;
9266c31dSmrg	map.flags = 0;
9266c31dSmrg	return pci_device_netbsd_unmap_range(dev, &map);
9266c31dSmrg}
9266c31dSmrg
4f5e7dd7Smrgstatic const struct pci_system_methods netbsd_pci_methods = {
9e884b7eSchristos	.destroy = pci_system_netbsd_destroy,
9e884b7eSchristos	.destroy_device = NULL,
9e884b7eSchristos	.read_rom = pci_device_netbsd_read_rom,
9e884b7eSchristos	.probe = pci_device_netbsd_probe,
9e884b7eSchristos	.map_range = pci_device_netbsd_map_range,
9e884b7eSchristos	.unmap_range = pci_device_netbsd_unmap_range,
9e884b7eSchristos	.read = pci_device_netbsd_read,
9e884b7eSchristos	.write = pci_device_netbsd_write,
6209fe3aScegger	.fill_capabilities = pci_fill_capabilities_generic,
9266c31dSmrg#if defined(WSDISPLAYIO_GET_BUSID)
6209fe3aScegger	.boot_vga = pci_device_netbsd_boot_vga,
9266c31dSmrg#else
9266c31dSmrg	.boot_vga = NULL,
9266c31dSmrg#endif
9266c31dSmrg	.open_legacy_io = pci_device_netbsd_open_legacy_io,
9266c31dSmrg	.read32 = pci_device_netbsd_read32,
9266c31dSmrg	.read16 = pci_device_netbsd_read16,
9266c31dSmrg	.read8 = pci_device_netbsd_read8,
9266c31dSmrg	.write32 = pci_device_netbsd_write32,
9266c31dSmrg	.write16 = pci_device_netbsd_write16,
9266c31dSmrg	.write8 = pci_device_netbsd_write8,
f6db1a1aSmrg	.map_legacy = pci_device_netbsd_map_legacy,
f6db1a1aSmrg	.unmap_legacy = pci_device_netbsd_unmap_legacy,
4f5e7dd7Smrg};
4f5e7dd7Smrg
4f5e7dd7Smrgint
4f5e7dd7Smrgpci_system_netbsd_create(void)
4f5e7dd7Smrg{
4f5e7dd7Smrg	struct pci_device_private *device;
8ce851d2Smacallan	int bus, dev, func, ndevs, nfuncs, domain, pcifd;
4f5e7dd7Smrg	uint32_t reg;
6c7645b9Smrg	char netbsd_devname[32];
8ce851d2Smacallan	struct pciio_businfo businfo;
4f5e7dd7Smrg
4f5e7dd7Smrg	pci_sys = calloc(1, sizeof(struct pci_system));
4f5e7dd7Smrg
4f5e7dd7Smrg	pci_sys->methods = &netbsd_pci_methods;
4f5e7dd7Smrg
4f5e7dd7Smrg	ndevs = 0;
8ce851d2Smacallan	nbuses = 0;
6c7645b9Smrg	snprintf(netbsd_devname, 32, "/dev/pci%d", nbuses);
2e46f441Smrg	pcifd = open(netbsd_devname, O_RDWR | O_CLOEXEC);
8ce851d2Smacallan	while (pcifd > 0) {
8ce851d2Smacallan		ioctl(pcifd, PCI_IOC_BUSINFO, &businfo);
8ce851d2Smacallan		buses[nbuses].fd = pcifd;
8ce851d2Smacallan		buses[nbuses].num = bus = businfo.busno;
8ce851d2Smacallan		buses[nbuses].maxdevs = businfo.maxdevs;
8ce851d2Smacallan		domain = nbuses;
8ce851d2Smacallan		nbuses++;
8ce851d2Smacallan		for (dev = 0; dev < businfo.maxdevs; dev++) {
8ce851d2Smacallan			nfuncs = pci_nfuncs(domain, bus, dev);
4f5e7dd7Smrg			for (func = 0; func < nfuncs; func++) {
8ce851d2Smacallan				if (pci_read(domain, bus, dev, func, PCI_ID_REG,
4f5e7dd7Smrg				    &reg) != 0)
4f5e7dd7Smrg					continue;
4f5e7dd7Smrg				if (PCI_VENDOR(reg) == PCI_VENDOR_INVALID ||
4f5e7dd7Smrg				    PCI_VENDOR(reg) == 0)
4f5e7dd7Smrg					continue;
4f5e7dd7Smrg
4f5e7dd7Smrg				ndevs++;
4f5e7dd7Smrg			}
4f5e7dd7Smrg		}
6c7645b9Smrg		snprintf(netbsd_devname, 32, "/dev/pci%d", nbuses);
6c7645b9Smrg		pcifd = open(netbsd_devname, O_RDWR);
4f5e7dd7Smrg	}
4f5e7dd7Smrg
4f5e7dd7Smrg	pci_sys->num_devices = ndevs;
4f5e7dd7Smrg	pci_sys->devices = calloc(ndevs, sizeof(struct pci_device_private));
4f5e7dd7Smrg	if (pci_sys->devices == NULL) {
8ce851d2Smacallan		int i;
8ce851d2Smacallan
8ce851d2Smacallan		for (i = 0; i < nbuses; i++)
8ce851d2Smacallan			close(buses[i].fd);
4f5e7dd7Smrg		free(pci_sys);
4f5e7dd7Smrg		return ENOMEM;
4f5e7dd7Smrg	}
4f5e7dd7Smrg
4f5e7dd7Smrg	device = pci_sys->devices;
8ce851d2Smacallan	for (domain = 0; domain < nbuses; domain++) {
8ce851d2Smacallan		bus = buses[domain].num;
8ce851d2Smacallan		for (dev = 0; dev < buses[domain].maxdevs; dev++) {
8ce851d2Smacallan			nfuncs = pci_nfuncs(domain, bus, dev);
4f5e7dd7Smrg			for (func = 0; func < nfuncs; func++) {
8ce851d2Smacallan				if (pci_read(domain, bus, dev, func,
8ce851d2Smacallan				    PCI_ID_REG, &reg) != 0)
4f5e7dd7Smrg					continue;
4f5e7dd7Smrg				if (PCI_VENDOR(reg) == PCI_VENDOR_INVALID ||
4f5e7dd7Smrg				    PCI_VENDOR(reg) == 0)
4f5e7dd7Smrg					continue;
4f5e7dd7Smrg
8ce851d2Smacallan				device->base.domain = domain;
4f5e7dd7Smrg				device->base.bus = bus;
4f5e7dd7Smrg				device->base.dev = dev;
4f5e7dd7Smrg				device->base.func = func;
4f5e7dd7Smrg				device->base.vendor_id = PCI_VENDOR(reg);
4f5e7dd7Smrg				device->base.device_id = PCI_PRODUCT(reg);
4f5e7dd7Smrg
8ce851d2Smacallan				if (pci_read(domain, bus, dev, func,
8ce851d2Smacallan				    PCI_CLASS_REG, &reg) != 0)
4f5e7dd7Smrg					continue;
4f5e7dd7Smrg
4f5e7dd7Smrg				device->base.device_class =
4f5e7dd7Smrg				    PCI_INTERFACE(reg) | PCI_CLASS(reg) << 16 |
4f5e7dd7Smrg				    PCI_SUBCLASS(reg) << 8;
4f5e7dd7Smrg				device->base.revision = PCI_REVISION(reg);
4f5e7dd7Smrg
8ce851d2Smacallan				if (pci_read(domain, bus, dev, func,
8ce851d2Smacallan				    PCI_SUBSYS_ID_REG, &reg) != 0)
4f5e7dd7Smrg					continue;
4f5e7dd7Smrg
4f5e7dd7Smrg				device->base.subvendor_id = PCI_VENDOR(reg);
4f5e7dd7Smrg				device->base.subdevice_id = PCI_PRODUCT(reg);
4f5e7dd7Smrg
4f5e7dd7Smrg				device++;
4f5e7dd7Smrg			}
4f5e7dd7Smrg		}
4f5e7dd7Smrg	}
4f5e7dd7Smrg
4f5e7dd7Smrg	return 0;
4f5e7dd7Smrg}