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/*
* Guillaume Cottenceau (gc)
* Olivier Blin (oblin)
*
* Copyright 2005 Mandriva
*
* This software may be freely redistributed under the terms of the GNU
* public license.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <sys/mount.h>
#include <sys/utsname.h>
#include "stage1.h"
#include "tools.h"
#include "utils.h"
#include "log.h"
#include "modules.h"
#include "mount.h"
#include "frontend.h"
#include "partition.h"
#include "automatic.h"
#include "probing.h"
#include "thirdparty.h"
#define THIRDPARTY_MOUNT_LOCATION "/tmp/thirdparty"
#define N_PCITABLE_ENTRIES 100
static struct pcitable_entry pcitable[N_PCITABLE_ENTRIES];
static int pcitable_len = 0;
static enum return_type thirdparty_choose_device(char ** device, int probe_only)
{
char ** medias, ** medias_models;
char ** ptr, ** ptr_models;
#ifndef DISABLE_DISK
char ** disk_medias, ** disk_medias_models;
int disk_count;
char * parts[50];
char * parts_comments[50];
#endif
#ifndef DISABLE_CDROM
char ** cdrom_medias, ** cdrom_medias_models;
int cdrom_count;
#endif
char * floppy_dev;
enum return_type results;
int count = 0;
wait_message("Looking for floppy, disk and cdrom devices ...");
#ifndef DISABLE_DISK
disk_count = get_disks(&disk_medias, &disk_medias_models);
count += disk_count;
#endif
#ifndef DISABLE_CDROM
cdrom_count = get_cdroms(&cdrom_medias, &cdrom_medias_models);
count += cdrom_count;
#endif
floppy_dev = floppy_device();
if (floppy_dev && strstr(floppy_dev, "/dev/") == floppy_dev) {
floppy_dev = floppy_dev + 5;
}
if (floppy_dev)
count += 1;
remove_wait_message();
if (count == 0) {
stg1_error_message("I can't find any floppy, disk or cdrom on this system. "
"No third-party kernel modules will be used.");
return RETURN_BACK;
}
if (probe_only) {
#ifndef DISABLE_DISK
free(disk_medias);
free(disk_medias_models);
#endif
#ifndef DISABLE_CDROM
free(cdrom_medias);
free(cdrom_medias_models);
#endif
return RETURN_OK;
}
ptr = medias = malloc((count + 1) * sizeof(char *));
ptr_models =medias_models = malloc((count + 1) * sizeof(char *));
#ifndef DISABLE_DISK
memcpy(ptr, disk_medias, disk_count * sizeof(char *));
memcpy(ptr_models, disk_medias_models, disk_count * sizeof(char *));
free(disk_medias);
free(disk_medias_models);
ptr += disk_count;
ptr_models += disk_count;
#endif
#ifndef DISABLE_CDROM
memcpy(ptr, cdrom_medias, cdrom_count * sizeof(char *));
memcpy(ptr_models, cdrom_medias_models, cdrom_count * sizeof(char *));
free(cdrom_medias);
free(cdrom_medias_models);
cdrom_medias = ptr; /* used later to know if a cdrom is selected */
ptr += cdrom_count;
ptr_models += cdrom_count;
#endif
if (floppy_dev) {
ptr[0] = floppy_dev;
ptr_models[0] = "Floppy device";
ptr++;
ptr_models++;
}
ptr[0] = NULL;
ptr_models[0] = NULL;
if (count == 1) {
*device = medias[0];
} else {
results = ask_from_list_comments("If you want to insert third-party kernel modules, "
"please select the disk containing the modules.",
medias, medias_models, device);
if (results != RETURN_OK)
return results;
}
if (floppy_dev && streq(*device, floppy_dev)) {
/* a floppy is selected, don't try to list partitions */
return RETURN_OK;
}
#ifndef DISABLE_CDROM
for (ptr = cdrom_medias; ptr < cdrom_medias + cdrom_count; ptr++) {
if (*device == *ptr) {
/* a cdrom is selected, don't try to list partitions */
log_message("thirdparty: a cdrom is selected, using it (%s)", *device);
return RETURN_OK;
}
}
#endif
#ifndef DISABLE_DISK
/* a disk or usb key is selected */
if (list_partitions(*device, parts, parts_comments)) {
stg1_error_message("Could not read partitions information.");
return RETURN_ERROR;
}
if (parts[0] == NULL) {
stg1_error_message("No partition found.");
return RETURN_ERROR;
}
/* only one partition has been discovered, don't ask which one to use */
if (parts[1] == NULL) {
log_message("thirdparty: found only one partition on device (%s)", parts[0]);
*device = parts[0];
return RETURN_OK;
}
results = ask_from_list_comments("Please select the partition containing "
"the third party modules.",
parts, parts_comments, device);
if (results == RETURN_OK)
return RETURN_OK;
#endif
stg1_error_message("Sorry, no third party device can be used.");
return RETURN_BACK;
}
static enum return_type thirdparty_mount_device(char * device)
{
log_message("third party: trying to mount device %s", device);
if (try_mount(device, THIRDPARTY_MOUNT_LOCATION) != 0) {
stg1_error_message("I can't mount the selected device (%s).", device);
return RETURN_ERROR;
}
return RETURN_OK;
}
static enum return_type thirdparty_prompt_modules(const char *modules_location, char ** modules_list)
{
enum return_type results;
char final_name[500];
char *module_name;
int rc;
char * questions[] = { "Options", NULL };
static char ** answers = NULL;
while (1) {
results = ask_from_list("Which driver would you like to insmod?", modules_list, &module_name);
if (results != RETURN_OK)
break;
sprintf(final_name, "%s/%s", modules_location, module_name);
results = ask_from_entries("Please enter the options:", questions, &answers, 24, NULL);
if (results != RETURN_OK)
continue;
rc = insmod_local_file(final_name, answers[0]);
if (rc) {
log_message("\tfailed");
stg1_error_message("Insmod failed.");
}
}
return RETURN_OK;
}
static int pcitable_orderer(const void *a, const void *b)
{
int ret;
struct pcitable_entry *ap = (struct pcitable_entry *)a;
struct pcitable_entry *bp = (struct pcitable_entry *)b;
if ((ret = ap->vendor - bp->vendor) != 0)
return ret;
if ((ret = ap->device - bp->device) != 0)
return ret;
if ((ret = ap->subvendor - bp->subvendor) != 0)
return ret;
if ((ret = ap->subdevice - bp->subdevice) != 0)
return ret;
return 0;
}
static void thirdparty_load_pcitable(const char *modules_location)
{
char pcitable_filename[100];
FILE * f = NULL;
sprintf(pcitable_filename, "%s/pcitable", modules_location);
if (!(f = fopen(pcitable_filename, "rb"))) {
log_message("third_party: no external pcitable found");
return;
}
pcitable_len = 0;
while (pcitable_len < N_PCITABLE_ENTRIES) {
char buf[200];
struct pcitable_entry *e;
if (!fgets(buf, sizeof(buf), f)) break;
e = &pcitable[pcitable_len++];
if (sscanf(buf, "%hx\t%hx\t\"%[^ \"]\"\t\"%[^\"]\"", &e->vendor, &e->device, e->module, e->description) == 4)
e->subvendor = e->subdevice = PCITABLE_MATCH_ALL;
else
sscanf(buf, "%hx\t%hx\t%x\t%x\t\"%[^ \"]\"\t\"%[^\"]\"", &e->vendor, &e->device, &e->subvendor, &e->subdevice, e->module, e->description);
}
fclose(f);
/* sort pcitable by most specialised entries first */
qsort(pcitable, pcitable_len, sizeof(pcitable[0]), pcitable_orderer);
}
static int thirdparty_is_detected(char *driver) {
int i, j;
for (i = 0; i < detected_devices_len ; i++) {
/* first look for the IDs in the third-party pcitable */
for (j = 0; j < pcitable_len ; j++) {
if (pcitable[j].vendor == detected_devices[i].vendor &&
pcitable[j].device == detected_devices[i].device &&
!strcmp(pcitable[j].module, driver)) {
const int subvendor = pcitable[j].subvendor;
const int subdevice = pcitable[j].subdevice;
if ((subvendor == PCITABLE_MATCH_ALL && subdevice == PCITABLE_MATCH_ALL) ||
(subvendor == detected_devices[i].subvendor && subdevice == detected_devices[i].subdevice)) {
log_message("probing: found device for module %s", driver);
return 1;
}
}
}
/* if not found, compare with the detected driver */
if (!strcmp(detected_devices[i].module, driver)) {
log_message("probing: found device for module %s", driver);
return 1;
}
}
return 0;
}
static enum return_type thirdparty_autoload_modules(const char *modules_location, char ** modules_list, FILE *f, int load_detected_only)
{
while (1) {
char final_name[500];
char module[500];
char * options;
char ** entry = modules_list;
if (!fgets(module, sizeof(module), f)) break;
if (module[0] == '#' || strlen(module) == 0)
continue;
while (module[strlen(module)-1] == '\n')
module[strlen(module)-1] = '\0';
options = strchr(module, ' ');
if (options) {
options[0] = '\0';
options++;
}
if (load_detected_only && !thirdparty_is_detected(module)) {
log_message("third party: no device detected for module %s, skipping", module);
continue;
}
log_message("third party: auto-loading module (%s) with options (%s)", module, options);
while (entry && *entry) {
if (!strncmp(*entry, module, strlen(module)) && (*entry)[strlen(module)] == '.') {
sprintf(final_name, "%s/%s", modules_location, *entry);
if (insmod_local_file(final_name, options)) {
log_message("\t%s (third party media): failed", *entry);
stg1_error_message("Insmod %s (third party media) failed.", *entry);
}
break;
}
entry++;
}
if (!entry || !*entry) {
enum insmod_return ret = my_insmod(module, ANY_DRIVER_TYPE, options, 0);
if (ret != INSMOD_OK) {
log_message("\t%s (marfile): failed", module);
stg1_error_message("Insmod %s (marfile) failed.", module);
}
}
}
return RETURN_OK;
}
static enum return_type thirdparty_try_directory(char * root_directory, int interactive) {
char modules_location[100];
char modules_location_release[100];
char *list_filename;
FILE *f_load, *f_detect;
char **modules_list, **modules_list_release;
struct utsname kernel_uname;
/* look first in the specific third-party directory */
snprintf(modules_location, sizeof(modules_location), "%s" THIRDPARTY_DIRECTORY, root_directory);
modules_list = list_directory(modules_location);
/* if it's empty, look in the root of selected device */
if (!modules_list || !modules_list[0]) {
modules_location[strlen(root_directory)] = '\0';
modules_list = list_directory(modules_location);
if (interactive)
add_to_env("THIRDPARTY_DIR", "");
} else {
if (interactive)
add_to_env("THIRDPARTY_DIR", THIRDPARTY_DIRECTORY);
}
if (uname(&kernel_uname)) {
log_perror("uname failed");
return RETURN_ERROR;
}
snprintf(modules_location_release, sizeof(modules_location_release), "%s/%s", modules_location, kernel_uname.release);
modules_list_release = list_directory(modules_location_release);
if (modules_list_release && modules_list_release[0]) {
strcpy(modules_location, modules_location_release);
modules_list = modules_list_release;
}
log_message("third party: using modules location %s", modules_location);
if (!modules_list || !*modules_list) {
log_message("third party: no modules found");
if (interactive)
stg1_error_message("No modules found on selected device.");
return RETURN_ERROR;
}
list_filename = alloca(strlen(modules_location) + 10 /* max: "/to_detect" */ + 1);
sprintf(list_filename, "%s/to_load", modules_location);
f_load = fopen(list_filename, "rb");
if (f_load) {
thirdparty_autoload_modules(modules_location, modules_list, f_load, 0);
fclose(f_load);
}
sprintf(list_filename, "%s/to_detect", modules_location);
f_detect = fopen(list_filename, "rb");
if (f_detect) {
probing_detect_devices();
thirdparty_load_pcitable(modules_location);
thirdparty_autoload_modules(modules_location, modules_list, f_detect, 1);
fclose(f_detect);
}
if (f_load || f_detect)
return RETURN_OK;
else if (interactive) {
if (IS_AUTOMATIC)
stg1_error_message("I can't find a \"to_load\" file. Please select the modules manually.");
log_message("third party: no \"to_load\" file, prompting for modules");
return thirdparty_prompt_modules(modules_location, modules_list);
} else {
return RETURN_OK;
}
}
void thirdparty_load_media_modules(void)
{
thirdparty_try_directory(IMAGE_LOCATION, 0);
}
void thirdparty_load_modules(void)
{
enum return_type results;
char * device;
device = NULL;
if (IS_AUTOMATIC) {
device = get_auto_value("thirdparty");
thirdparty_choose_device(NULL, 1); /* probe only to create devices */
log_message("third party: trying automatic device %s", device);
if (thirdparty_mount_device(device) != RETURN_OK)
device = NULL;
}
while (!device || streq(device, "")) {
results = thirdparty_choose_device(&device, 0);
if (results == RETURN_BACK)
return;
if (thirdparty_mount_device(device) != RETURN_OK)
device = NULL;
}
log_message("third party: using device %s", device);
add_to_env("THIRDPARTY_DEVICE", device);
results = thirdparty_try_directory(THIRDPARTY_MOUNT_LOCATION, 1);
umount(THIRDPARTY_MOUNT_LOCATION);
if (results != RETURN_OK)
return thirdparty_load_modules();
}
void thirdparty_destroy(void)
{
probing_destroy();
}
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