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|
/*
* (C) Copyright IBM Corporation 2006
* Copyright (c) 2007, 2009, 2011, 2012, 2016 Oracle and/or its affiliates.
* All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* on the rights to use, copy, modify, merge, publish, distribute, sub
* license, and/or sell copies of the Software, and to permit persons to whom
* the Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
* IBM AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
/*
* Solaris devfs interfaces
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdlib.h>
#include <strings.h>
#include <stdio.h>
#include <unistd.h>
#include <sys/types.h>
#include <fcntl.h>
#include <sys/mman.h>
#include <errno.h>
#include <sys/pci.h>
#include <libdevinfo.h>
#include "pci_tools.h"
#ifdef __x86
# include <sys/sysi86.h>
# include <sys/psw.h>
#endif
#include "pciaccess.h"
#include "pciaccess_private.h"
/* #define DEBUG */
#define INITIAL_NUM_DEVICES 256
#define CELL_NUMS_1275 (sizeof(pci_regspec_t) / sizeof(uint_t))
typedef struct i_devnode {
uint8_t bus;
uint8_t dev;
uint8_t func;
di_node_t node;
} i_devnode_t;
typedef struct nexus {
int first_bus;
int last_bus;
int domain;
char *path; /* for open */
char *dev_path;
struct nexus *next;
} nexus_t;
typedef struct probe_info {
volatile size_t num_allocated_elems;
volatile size_t num_devices;
struct pci_device_private * volatile devices;
} probe_info_t;
typedef struct probe_args {
probe_info_t *pinfo;
nexus_t *nexus;
int ret;
} probe_args_t;
typedef struct property_info {
const char *name;
int value;
} property_info_t;
static nexus_t *nexus_list = NULL;
#if !defined(__sparc)
static int xsvc_fd = -1;
#endif
#ifdef __sparc
static di_prom_handle_t di_phdl;
static size_t nexus_count = 0;
#endif
/*
* Read config space in native processor endianness. Endian-neutral
* processing can then take place. On big endian machines, MSB and LSB
* of little endian data end up switched if read as little endian.
* They are in correct order if read as big endian.
*/
#if defined(__sparc)
# define NATIVE_ENDIAN PCITOOL_ACC_ATTR_ENDN_BIG
#elif defined(__x86)
# define NATIVE_ENDIAN PCITOOL_ACC_ATTR_ENDN_LTL
#else
# error "ISA is neither __sparc nor __x86"
#endif
#ifdef __sparc
#define MAPPING_DEV_PATH(dev) (((struct pci_device_private *) dev)->device_string)
#endif
static nexus_t *
find_nexus_for_bus( int domain, int bus )
{
nexus_t *nexus;
for (nexus = nexus_list ; nexus != NULL ; nexus = nexus->next) {
if ((domain == nexus->domain) &&
(bus >= nexus->first_bus) && (bus <= nexus->last_bus)) {
return nexus;
}
}
return NULL;
}
/*
* Release all the resources
* Solaris version
*/
static void
pci_system_solx_devfs_destroy( void )
{
/*
* The memory allocated for pci_sys & devices in create routines
* will be freed in pci_system_cleanup.
* Need to free system-specific allocations here.
*/
nexus_t *nexus, *next;
for (nexus = nexus_list ; nexus != NULL ; nexus = next) {
next = nexus->next;
free(nexus->path);
free(nexus->dev_path);
free(nexus);
}
nexus_list = NULL;
#ifdef __sparc
if (di_phdl != DI_PROM_HANDLE_NIL)
(void) di_prom_fini(di_phdl);
#else
if (xsvc_fd >= 0) {
close(xsvc_fd);
xsvc_fd = -1;
}
#endif
}
#ifdef __sparc
/*
* Release resources per device
*/
static void
pci_system_solx_devfs_destroy_device( struct pci_device *dev )
{
if (MAPPING_DEV_PATH(dev))
di_devfs_path_free((char *) MAPPING_DEV_PATH(dev));
}
#endif
static int
probe_device_node(di_node_t node, void *arg)
{
int *retbuf = NULL;
int len = 0, i;
struct pci_device *pci_base;
probe_info_t *pinfo = ((probe_args_t *)arg)->pinfo;
nexus_t *nexus = ((probe_args_t *)arg)->nexus;
property_info_t property_list[] = {
{ "class-code", 0 },
{ "device-id", 0 },
{ "vendor-id", 0 },
{ "revision-id", 0},
{ "subsystem-vendor-id", 0},
{ "subsystem-id", 0},
};
#define NUM_PROPERTIES sizeof(property_list)/sizeof(property_info_t)
len = di_prop_lookup_ints(DDI_DEV_T_ANY, node, "reg", &retbuf);
#ifdef __sparc
if ((len <= 0) && di_phdl)
len = di_prom_prop_lookup_ints(di_phdl, node, "reg", &retbuf);
#endif
/* Exclude usb devices */
if (len < 5) {
return DI_WALK_CONTINUE;
}
pci_base = &pinfo->devices[pinfo->num_devices].base;
pci_base->domain = nexus->domain;
pci_base->bus = PCI_REG_BUS_G(retbuf[0]);
pci_base->dev = PCI_REG_DEV_G(retbuf[0]);
pci_base->func = PCI_REG_FUNC_G(retbuf[0]);
/* Get property values */
for (i = 0; i < NUM_PROPERTIES; i++) {
len = di_prop_lookup_ints(DDI_DEV_T_ANY, node,
property_list[i].name, &retbuf);
#ifdef __sparc
if ((len <= 0) && di_phdl)
len = di_prom_prop_lookup_ints(di_phdl, node,
property_list[i].name, &retbuf);
#endif
if (len > 0)
property_list[i].value = retbuf[0];
else {
/* a device must have property "class-code", "device-id", "vendor-id" */
if (i < 3)
return DI_WALK_CONTINUE;
#ifdef DEBUG
fprintf(stderr, "cannot get property \"%s\" for nexus = %s :\n",
property_list[i].name, nexus->path);
fprintf(stderr, " domain = %x, busno = %x, devno = %x, funcno = %x\n",
pci_base->domain, pci_base->bus, pci_base->dev, pci_base->func);
#endif
}
}
if ((property_list[1].value == 0) && (property_list[2].value == 0))
return DI_WALK_CONTINUE;
pci_base->device_class = property_list[0].value;
pci_base->device_id = property_list[1].value;
pci_base->vendor_id = property_list[2].value;
pci_base->revision = property_list[3].value;
pci_base->subvendor_id = property_list[4].value;
pci_base->subdevice_id = property_list[5].value;
#ifdef DEBUG
fprintf(stderr,
"nexus = %s, domain = %x, busno = %x, devno = %x, funcno = %x\n",
nexus->path, pci_base->domain, pci_base->bus, pci_base->dev, pci_base->func);
#endif
pinfo->num_devices++;
if (pinfo->num_devices == pinfo->num_allocated_elems) {
struct pci_device_private *new_devs;
size_t new_num_elems = pinfo->num_allocated_elems * 2;
new_devs = realloc(pinfo->devices,
new_num_elems * sizeof (struct pci_device_private));
if (new_devs == NULL) {
(void) fprintf(stderr,
"Error allocating memory for PCI devices:"
" %s\n discarding additional devices\n",
strerror(errno));
((probe_args_t *)arg)->ret = 1;
return (DI_WALK_TERMINATE);
}
(void) memset(&new_devs[pinfo->num_devices], 0,
pinfo->num_allocated_elems *
sizeof (struct pci_device_private));
pinfo->num_allocated_elems = new_num_elems;
pinfo->devices = new_devs;
}
return (DI_WALK_CONTINUE);
}
/*
* This function is called from di_walk_minor() when any PROBE is processed
*/
static int
probe_nexus_node(di_node_t di_node, di_minor_t minor, void *arg)
{
probe_info_t *pinfo = (probe_info_t *)arg;
char *nexus_name, *nexus_dev_path;
nexus_t *nexus;
int fd;
char nexus_path[MAXPATHLEN];
di_prop_t prop;
char *strings;
int *ints;
int numval;
int pci_node = 0;
int first_bus = 0, last_bus = PCI_REG_BUS_G(PCI_REG_BUS_M);
int domain = 0;
#ifdef __sparc
int bus_range_found = 0;
int device_type_found = 0;
di_prom_prop_t prom_prop;
#endif
#ifdef DEBUG
nexus_name = di_devfs_minor_path(minor);
fprintf(stderr, "-- device name: %s\n", nexus_name);
di_devfs_path_free(nexus_name);
#endif
for (prop = di_prop_next(di_node, NULL); prop != NULL;
prop = di_prop_next(di_node, prop)) {
const char *prop_name = di_prop_name(prop);
#ifdef DEBUG
fprintf(stderr, " property: %s\n", prop_name);
#endif
if (strcmp(prop_name, "device_type") == 0) {
numval = di_prop_strings(prop, &strings);
if (numval == 1) {
if (strncmp(strings, "pci", 3) != 0)
/* not a PCI node, bail */
return (DI_WALK_CONTINUE);
else {
pci_node = 1;
#ifdef __sparc
device_type_found = 1;
#endif
}
}
}
else if (strcmp(prop_name, "class-code") == 0) {
/* not a root bus node, bail */
return (DI_WALK_CONTINUE);
}
else if (strcmp(prop_name, "bus-range") == 0) {
numval = di_prop_ints(prop, &ints);
if (numval == 2) {
first_bus = ints[0];
last_bus = ints[1];
#ifdef __sparc
bus_range_found = 1;
#endif
}
}
#ifdef __sparc
domain = nexus_count;
#else
else if (strcmp(prop_name, "pciseg") == 0) {
numval = di_prop_ints(prop, &ints);
if (numval == 1) {
domain = ints[0];
}
}
#endif
}
#ifdef __sparc
if ((!device_type_found) && di_phdl) {
numval = di_prom_prop_lookup_strings(di_phdl, di_node,
"device_type", &strings);
if (numval == 1) {
if (strncmp(strings, "pci", 3) != 0)
return (DI_WALK_CONTINUE);
else
pci_node = 1;
}
}
if ((!bus_range_found) && di_phdl) {
numval = di_prom_prop_lookup_ints(di_phdl, di_node,
"bus-range", &ints);
if (numval == 2) {
first_bus = ints[0];
last_bus = ints[1];
}
}
#endif
if (pci_node != 1)
return (DI_WALK_CONTINUE);
/* we have a PCI root bus node. */
nexus = calloc(1, sizeof(nexus_t));
if (nexus == NULL) {
(void) fprintf(stderr, "Error allocating memory for nexus: %s\n",
strerror(errno));
return (DI_WALK_TERMINATE);
}
nexus->first_bus = first_bus;
nexus->last_bus = last_bus;
nexus->domain = domain;
#ifdef __sparc
nexus_count++;
#endif
nexus_name = di_devfs_minor_path(minor);
if (nexus_name == NULL) {
(void) fprintf(stderr, "Error getting nexus path: %s\n",
strerror(errno));
free(nexus);
return (DI_WALK_CONTINUE);
}
snprintf(nexus_path, sizeof(nexus_path), "/devices%s", nexus_name);
di_devfs_path_free(nexus_name);
#ifdef DEBUG
fprintf(stderr, "nexus = %s, bus-range = %d - %d\n",
nexus_path, first_bus, last_bus);
#endif
if ((fd = open(nexus_path, O_RDWR | O_CLOEXEC)) >= 0) {
probe_args_t args;
nexus->path = strdup(nexus_path);
nexus_dev_path = di_devfs_path(di_node);
nexus->dev_path = strdup(nexus_dev_path);
di_devfs_path_free(nexus_dev_path);
/* Walk through devices under the rnode */
args.pinfo = pinfo;
args.nexus = nexus;
args.ret = 0;
(void) di_walk_node(di_node, DI_WALK_CLDFIRST, (void *)&args, probe_device_node);
close(fd);
if (args.ret) {
free(nexus->path);
free(nexus->dev_path);
free(nexus);
return (DI_WALK_TERMINATE);
}
nexus->next = nexus_list;
nexus_list = nexus;
} else {
(void) fprintf(stderr, "Error opening %s: %s\n",
nexus_path, strerror(errno));
free(nexus);
}
return DI_WALK_CONTINUE;
}
static int
find_target_node(di_node_t node, void *arg)
{
int *regbuf = NULL;
int len = 0;
uint32_t busno, funcno, devno;
i_devnode_t *devnode = (i_devnode_t *)arg;
/*
* Test the property functions, only for testing
*/
/*
void *prop = DI_PROP_NIL;
(void) fprintf(stderr, "start of node 0x%x\n", node->nodeid);
while ((prop = di_prop_hw_next(node, prop)) != DI_PROP_NIL) {
int i;
(void) fprintf(stderr, "name=%s: ", di_prop_name(prop));
len = 0;
if (!strcmp(di_prop_name(prop), "reg")) {
len = di_prop_ints(prop, ®buf);
}
for (i = 0; i < len; i++) {
fprintf(stderr, "0x%0x.", regbuf[i]);
}
fprintf(stderr, "\n");
}
(void) fprintf(stderr, "end of node 0x%x\n", node->nodeid);
*/
len = di_prop_lookup_ints(DDI_DEV_T_ANY, node, "reg", ®buf);
#ifdef __sparc
if ((len <= 0) && di_phdl)
len = di_prom_prop_lookup_ints(di_phdl, node, "reg", ®buf);
#endif
if (len <= 0) {
#ifdef DEBUG
fprintf(stderr, "error = %x\n", errno);
fprintf(stderr, "can not find assigned-address\n");
#endif
return (DI_WALK_CONTINUE);
}
busno = PCI_REG_BUS_G(regbuf[0]);
devno = PCI_REG_DEV_G(regbuf[0]);
funcno = PCI_REG_FUNC_G(regbuf[0]);
if ((busno == devnode->bus) &&
(devno == devnode->dev) &&
(funcno == devnode->func)) {
devnode->node = node;
return (DI_WALK_TERMINATE);
}
return (DI_WALK_CONTINUE);
}
/*
* Solaris version
*/
static int
pci_device_solx_devfs_probe( struct pci_device * dev )
{
int err = 0;
di_node_t rnode = DI_NODE_NIL;
i_devnode_t args = { 0, 0, 0, DI_NODE_NIL };
int *regbuf;
pci_regspec_t *reg;
int i;
int len = 0;
uint ent = 0;
struct pci_device_private *priv =
(struct pci_device_private *) dev;
nexus_t *nexus;
if ( (nexus = find_nexus_for_bus(dev->domain, dev->bus)) == NULL )
return ENODEV;
pci_device_cfg_read_u8(dev, &priv->header_type, PCI_CONF_HEADER);
pci_device_cfg_read_u8(dev, (uint8_t *)&dev->irq, PCI_CONF_ILINE);
/*
* starting to find if it is MEM/MEM64/IO
* using libdevinfo
*/
if ((rnode = di_init(nexus->dev_path, DINFOCACHE)) == DI_NODE_NIL) {
err = errno;
(void) fprintf(stderr, "di_init failed: %s\n", strerror(errno));
} else {
args.bus = dev->bus;
args.dev = dev->dev;
args.func = dev->func;
(void) di_walk_node(rnode, DI_WALK_CLDFIRST,
(void *)&args, find_target_node);
}
if (args.node != DI_NODE_NIL) {
int *prop;
#ifdef __sparc
di_minor_t minor;
#endif
priv->is_primary = 0;
#ifdef __sparc
if (minor = di_minor_next(args.node, DI_MINOR_NIL))
MAPPING_DEV_PATH(dev) = di_devfs_minor_path (minor);
else
MAPPING_DEV_PATH(dev) = NULL;
#endif
if (di_prop_lookup_ints(DDI_DEV_T_ANY, args.node,
"primary-controller", &prop) >= 1) {
if (prop[0])
priv->is_primary = 1;
}
/*
* It will succeed for sure, because it was
* successfully called in find_target_node
*/
len = di_prop_lookup_ints(DDI_DEV_T_ANY, args.node,
"assigned-addresses",
®buf);
#ifdef __sparc
if ((len <= 0) && di_phdl) {
len = di_prom_prop_lookup_ints(di_phdl, args.node,
"assigned-addresses", ®buf);
}
#endif
}
if (len <= 0)
goto cleanup;
/*
* Each BAR address get its own region slot in sequence.
* 32 bit BAR:
* BAR 0x10 -> slot0, BAR 0x14 -> slot1...
* 64 bit BAR:
* BAR 0x10 -> slot0, BAR 0x18 -> slot2...,
* slot1 is part of BAR 0x10
* Linux give two region slot for 64 bit address.
*/
for (i = 0; i < len; i = i + (int)CELL_NUMS_1275) {
reg = (pci_regspec_t *)®buf[i];
ent = reg->pci_phys_hi & 0xff;
if (ent > PCI_CONF_ROM) {
fprintf(stderr, "error ent = %d\n", ent);
break;
}
/*
* G35 broken in BAR0
*/
if (ent < PCI_CONF_BASE0) {
/*
* VGA resource here and ignore it
*/
break;
} else if (ent == PCI_CONF_ROM) {
priv->rom_base = reg->pci_phys_low |
((uint64_t)reg->pci_phys_mid << 32);
dev->rom_size = reg->pci_size_low;
} else {
ent = (ent - PCI_CONF_BASE0) >> 2;
/*
* non relocatable resource is excluded
* such like 0xa0000, 0x3b0. If it is met,
* the loop is broken;
*/
if (!PCI_REG_REG_G(reg->pci_phys_hi))
break;
if (reg->pci_phys_hi & PCI_PREFETCH_B) {
dev->regions[ent].is_prefetchable = 1;
}
dev->regions[ent].base_addr = reg->pci_phys_low |
((uint64_t)reg->pci_phys_mid << 32);
dev->regions[ent].size = reg->pci_size_low |
((uint64_t)reg->pci_size_hi << 32);
switch (reg->pci_phys_hi & PCI_REG_ADDR_M) {
case PCI_ADDR_IO:
dev->regions[ent].is_IO = 1;
break;
case PCI_ADDR_MEM32:
break;
case PCI_ADDR_MEM64:
dev->regions[ent].is_64 = 1;
/*
* Skip one slot for 64 bit address
*/
break;
}
}
}
cleanup:
if (rnode != DI_NODE_NIL) {
di_fini(rnode);
}
return (err);
}
/**
* Map a memory region for a device using /dev/xsvc (x86) or fb device (sparc)
*
* \param dev Device whose memory region is to be mapped.
* \param map Parameters of the mapping that is to be created.
*
* \return
* Zero on success or an \c errno value on failure.
*/
static int
pci_device_solx_devfs_map_range(struct pci_device *dev,
struct pci_device_mapping *map)
{
const int prot = ((map->flags & PCI_DEV_MAP_FLAG_WRITABLE) != 0)
? (PROT_READ | PROT_WRITE) : PROT_READ;
int err = 0;
const char *map_dev;
int map_fd;
#ifdef __sparc
char map_dev_buf[128];
if (MAPPING_DEV_PATH(dev)) {
snprintf(map_dev_buf, sizeof (map_dev_buf), "%s%s",
"/devices", MAPPING_DEV_PATH(dev));
map_dev = map_dev_buf;
}
else
map_dev = "/dev/fb0";
map_fd = -1;
#else
/*
* Still uses xsvc to do the user space mapping on x86/x64,
* caches open fd across multiple calls.
*/
map_dev = "/dev/xsvc";
map_fd = xsvc_fd;
#endif
if (map_fd < 0) {
if ((map_fd = open(map_dev, O_RDWR | O_CLOEXEC)) < 0) {
err = errno;
(void) fprintf(stderr, "can not open %s: %s\n", map_dev,
strerror(errno));
return err;
}
#ifndef __sparc
xsvc_fd = map_fd;
#endif
}
map->memory = mmap(NULL, map->size, prot, MAP_SHARED, map_fd, map->base);
if (map->memory == MAP_FAILED) {
err = errno;
(void) fprintf(stderr, "map rom region =%llx failed: %s\n",
(unsigned long long) map->base, strerror(errno));
}
#ifdef __sparc
close (map_fd);
#endif
return err;
}
/*
* Solaris version: read the VGA ROM data
*/
static int
pci_device_solx_devfs_read_rom( struct pci_device * dev, void * buffer )
{
int err;
struct pci_device_mapping prom = {
.base = 0xC0000,
.size = 0x10000,
.flags = 0
};
struct pci_device_private *priv =
(struct pci_device_private *) dev;
if (priv->rom_base) {
prom.base = priv->rom_base;
prom.size = dev->rom_size;
}
err = pci_device_solx_devfs_map_range(dev, &prom);
if (err == 0) {
(void) bcopy(prom.memory, buffer, dev->rom_size);
if (munmap(prom.memory, prom.size) == -1) {
err = errno;
}
}
return err;
}
/*
* solaris version: Read the configurations space of the devices
*/
static int
pci_device_solx_devfs_read( struct pci_device * dev, void * data,
pciaddr_t offset, pciaddr_t size,
pciaddr_t * bytes_read )
{
pcitool_reg_t cfg_prg;
int err = 0;
unsigned int i = 0;
nexus_t *nexus;
int fd;
nexus = find_nexus_for_bus(dev->domain, dev->bus);
*bytes_read = 0;
if ( nexus == NULL ) {
return ENODEV;
}
cfg_prg.offset = offset;
cfg_prg.acc_attr = PCITOOL_ACC_ATTR_SIZE_1 + NATIVE_ENDIAN;
cfg_prg.bus_no = dev->bus;
cfg_prg.dev_no = dev->dev;
cfg_prg.func_no = dev->func;
cfg_prg.barnum = 0;
cfg_prg.user_version = PCITOOL_USER_VERSION;
if ((fd = open(nexus->path, O_RDWR | O_CLOEXEC)) < 0)
return ENOENT;
for (i = 0; i < size; i += PCITOOL_ACC_ATTR_SIZE(PCITOOL_ACC_ATTR_SIZE_1))
{
cfg_prg.offset = offset + i;
if ((err = ioctl(fd, PCITOOL_DEVICE_GET_REG, &cfg_prg)) != 0) {
fprintf(stderr, "read bdf<%s,%x,%x,%x,%llx> config space failure\n",
nexus->path,
cfg_prg.bus_no,
cfg_prg.dev_no,
cfg_prg.func_no,
(unsigned long long) cfg_prg.offset);
fprintf(stderr, "Failure cause = %x\n", err);
break;
}
((uint8_t *)data)[i] = (uint8_t)cfg_prg.data;
/*
* DWORDS Offset or bytes Offset ??
*/
}
*bytes_read = i;
close(fd);
return (err);
}
/*
* Solaris version
*/
static int
pci_device_solx_devfs_write( struct pci_device * dev, const void * data,
pciaddr_t offset, pciaddr_t size,
pciaddr_t * bytes_written )
{
pcitool_reg_t cfg_prg;
int err = 0;
int cmd;
nexus_t *nexus;
int fd;
nexus = find_nexus_for_bus(dev->domain, dev->bus);
if ( bytes_written != NULL ) {
*bytes_written = 0;
}
if ( nexus == NULL ) {
return ENODEV;
}
cfg_prg.offset = offset;
switch (size) {
case 1:
cfg_prg.acc_attr = PCITOOL_ACC_ATTR_SIZE_1 + NATIVE_ENDIAN;
cfg_prg.data = *((const uint8_t *)data);
break;
case 2:
cfg_prg.acc_attr = PCITOOL_ACC_ATTR_SIZE_2 + NATIVE_ENDIAN;
cfg_prg.data = *((const uint16_t *)data);
break;
case 4:
cfg_prg.acc_attr = PCITOOL_ACC_ATTR_SIZE_4 + NATIVE_ENDIAN;
cfg_prg.data = *((const uint32_t *)data);
break;
case 8:
cfg_prg.acc_attr = PCITOOL_ACC_ATTR_SIZE_8 + NATIVE_ENDIAN;
cfg_prg.data = *((const uint64_t *)data);
break;
default:
return EINVAL;
}
cfg_prg.bus_no = dev->bus;
cfg_prg.dev_no = dev->dev;
cfg_prg.func_no = dev->func;
cfg_prg.barnum = 0;
cfg_prg.user_version = PCITOOL_USER_VERSION;
/*
* Check if this device is bridge device.
* If it is, it is also a nexus node???
* It seems that there is no explicit
* PCI nexus device for X86, so not applicable
* from pcitool_bus_reg_ops in pci_tools.c
*/
cmd = PCITOOL_DEVICE_SET_REG;
if ((fd = open(nexus->path, O_RDWR | O_CLOEXEC)) < 0)
return ENOENT;
if ((err = ioctl(fd, cmd, &cfg_prg)) != 0) {
close(fd);
return (err);
}
*bytes_written = size;
close(fd);
return (err);
}
static int pci_device_solx_devfs_boot_vga(struct pci_device *dev)
{
struct pci_device_private *priv =
(struct pci_device_private *) dev;
return (priv->is_primary);
}
static struct pci_io_handle *
pci_device_solx_devfs_open_legacy_io(struct pci_io_handle *ret,
struct pci_device *dev,
pciaddr_t base, pciaddr_t size)
{
#ifdef __x86
if (sysi86(SI86V86, V86SC_IOPL, PS_IOPL) == 0) {
ret->base = base;
ret->size = size;
ret->is_legacy = 1;
return ret;
}
#endif
return NULL;
}
static uint32_t
pci_device_solx_devfs_read32(struct pci_io_handle *handle, uint32_t reg)
{
#ifdef __x86
uint16_t port = (uint16_t) (handle->base + reg);
uint32_t ret;
__asm__ __volatile__("inl %1,%0":"=a"(ret):"d"(port));
return ret;
#else
return *(uint32_t *)((uintptr_t)handle->memory + reg);
#endif
}
static uint16_t
pci_device_solx_devfs_read16(struct pci_io_handle *handle, uint32_t reg)
{
#ifdef __x86
uint16_t port = (uint16_t) (handle->base + reg);
uint16_t ret;
__asm__ __volatile__("inw %1,%0":"=a"(ret):"d"(port));
return ret;
#else
return *(uint16_t *)((uintptr_t)handle->memory + reg);
#endif
}
static uint8_t
pci_device_solx_devfs_read8(struct pci_io_handle *handle, uint32_t reg)
{
#ifdef __x86
uint16_t port = (uint16_t) (handle->base + reg);
uint8_t ret;
__asm__ __volatile__("inb %1,%0":"=a"(ret):"d"(port));
return ret;
#else
return *(uint8_t *)((uintptr_t)handle->memory + reg);
#endif
}
static void
pci_device_solx_devfs_write32(struct pci_io_handle *handle, uint32_t reg,
uint32_t data)
{
#ifdef __x86
uint16_t port = (uint16_t) (handle->base + reg);
__asm__ __volatile__("outl %0,%1"::"a"(data), "d"(port));
#else
*(uint16_t *)((uintptr_t)handle->memory + reg) = data;
#endif
}
static void
pci_device_solx_devfs_write16(struct pci_io_handle *handle, uint32_t reg,
uint16_t data)
{
#ifdef __x86
uint16_t port = (uint16_t) (handle->base + reg);
__asm__ __volatile__("outw %0,%1"::"a"(data), "d"(port));
#else
*(uint8_t *)((uintptr_t)handle->memory + reg) = data;
#endif
}
static void
pci_device_solx_devfs_write8(struct pci_io_handle *handle, uint32_t reg,
uint8_t data)
{
#ifdef __x86
uint16_t port = (uint16_t) (handle->base + reg);
__asm__ __volatile__("outb %0,%1"::"a"(data), "d"(port));
#else
*(uint32_t *)((uintptr_t)handle->memory + reg) = data;
#endif
}
static int
pci_device_solx_devfs_map_legacy(struct pci_device *dev, pciaddr_t base,
pciaddr_t size, unsigned map_flags,
void **addr)
{
int err;
struct pci_device_mapping map = {
.base = base,
.size = size,
.flags = map_flags,
};
err = pci_device_solx_devfs_map_range(dev, &map);
if (err == 0)
*addr = map.memory;
return err;
}
static int
pci_device_solx_devfs_unmap_legacy(struct pci_device *dev,
void *addr, pciaddr_t size)
{
struct pci_device_mapping map = {
.memory = addr,
.size = size,
};
return pci_device_generic_unmap_range(dev, &map);
}
static const struct pci_system_methods solx_devfs_methods = {
.destroy = pci_system_solx_devfs_destroy,
#ifdef __sparc
.destroy_device = pci_system_solx_devfs_destroy_device,
#else
.destroy_device = NULL,
#endif
.read_rom = pci_device_solx_devfs_read_rom,
.probe = pci_device_solx_devfs_probe,
.map_range = pci_device_solx_devfs_map_range,
.unmap_range = pci_device_generic_unmap_range,
.read = pci_device_solx_devfs_read,
.write = pci_device_solx_devfs_write,
.fill_capabilities = pci_fill_capabilities_generic,
.boot_vga = pci_device_solx_devfs_boot_vga,
.open_legacy_io = pci_device_solx_devfs_open_legacy_io,
.read32 = pci_device_solx_devfs_read32,
.read16 = pci_device_solx_devfs_read16,
.read8 = pci_device_solx_devfs_read8,
.write32 = pci_device_solx_devfs_write32,
.write16 = pci_device_solx_devfs_write16,
.write8 = pci_device_solx_devfs_write8,
.map_legacy = pci_device_solx_devfs_map_legacy,
.unmap_legacy = pci_device_solx_devfs_unmap_legacy,
};
/*
* Attempt to access PCI subsystem using Solaris's devfs interface.
* Solaris version
*/
_pci_hidden int
pci_system_solx_devfs_create( void )
{
int err = 0;
di_node_t di_node;
probe_info_t pinfo;
struct pci_device_private *devices;
if (nexus_list != NULL) {
return 0;
}
if ((di_node = di_init("/", DINFOCACHE)) == DI_NODE_NIL) {
err = errno;
(void) fprintf(stderr, "di_init() failed: %s\n",
strerror(errno));
return (err);
}
if ((devices = calloc(INITIAL_NUM_DEVICES,
sizeof (struct pci_device_private))) == NULL) {
err = errno;
di_fini(di_node);
return (err);
}
#ifdef __sparc
if ((di_phdl = di_prom_init()) == DI_PROM_HANDLE_NIL)
(void) fprintf(stderr, "di_prom_init failed: %s\n", strerror(errno));
#endif
pinfo.num_allocated_elems = INITIAL_NUM_DEVICES;
pinfo.num_devices = 0;
pinfo.devices = devices;
#ifdef __sparc
nexus_count = 0;
#endif
(void) di_walk_minor(di_node, DDI_NT_REGACC, 0, &pinfo, probe_nexus_node);
di_fini(di_node);
if ((pci_sys = calloc(1, sizeof (struct pci_system))) == NULL) {
err = errno;
free(devices);
return (err);
}
pci_sys->methods = &solx_devfs_methods;
pci_sys->devices = pinfo.devices;
pci_sys->num_devices = pinfo.num_devices;
return (err);
}
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