*
*/
-#include "install.h"
#define _GNU_SOURCE
+
+#include <assert.h>
+#include <errno.h>
+#include <stdlib.h>
+#include <string.h>
+#include <sys/mount.h>
+
+#include "hw.h"
+#include "install.h"
-#define INST_FILECOUNT 14400
+#define INST_FILECOUNT 21000
#define UNATTENDED_CONF "/cdrom/boot/unattended.conf"
#define LICENSE_FILE "/cdrom/COPYING"
extern char *es_tr[];
extern char *de_tr[];
extern char *fr_tr[];
+extern char *nl_tr[];
extern char *pl_tr[];
extern char *ru_tr[];
+extern char *tr_tr[];
+
+static int newtChecklist(const char* title, const char* message,
+ unsigned int width, unsigned int height, unsigned int num_entries,
+ const char** entries, int* states) {
+ int ret;
+ const int list_height = 4;
+
+ char cbstates[num_entries];
+
+ for (unsigned int i = 0; i < num_entries; i++) {
+ cbstates[i] = states[i] ? '*' : ' ';
+ }
+
+ newtCenteredWindow(width, height, title);
+
+ newtComponent textbox = newtTextbox(1, 1, width - 2, height - 6 - list_height,
+ NEWT_FLAG_WRAP);
+ newtTextboxSetText(textbox, message);
+
+ int top = newtTextboxGetNumLines(textbox) + 2;
+
+ newtComponent form = newtForm(NULL, NULL, 0);
+
+ newtComponent sb = NULL;
+ if (list_height < num_entries) {
+ sb = newtVerticalScrollbar(
+ width - 4, top + 1, list_height,
+ NEWT_COLORSET_CHECKBOX, NEWT_COLORSET_ACTCHECKBOX);
+
+ newtFormAddComponent(form, sb);
+ }
+
+ newtComponent subform = newtForm(sb, NULL, 0);
+ newtFormSetBackground(subform, NEWT_COLORSET_CHECKBOX);
-int main(int argc, char *argv[])
-{
+ newtFormSetHeight(subform, list_height);
+ newtFormSetWidth(subform, width - 10);
+
+ for (unsigned int i = 0; i < num_entries; i++) {
+ newtComponent cb = newtCheckbox(4, top + i, entries[i], cbstates[i],
+ NULL, &cbstates[i]);
+
+ newtFormAddComponent(subform, cb);
+ }
+
+ newtFormAddComponents(form, textbox, subform, NULL);
+
+ newtComponent btn_okay = newtButton((width - 18) / 3, height - 4, ctr[TR_OK]);
+ newtComponent btn_cancel = newtButton((width - 18) / 3 * 2 + 9, height - 4, ctr[TR_CANCEL]);
+ newtFormAddComponents(form, btn_okay, btn_cancel, NULL);
+
+ newtComponent answer = newtRunForm(form);
+
+ if ((answer == NULL) || (answer == btn_cancel)) {
+ ret = -1;
+ } else {
+ ret = 0;
+
+ for (unsigned int i = 0; i < num_entries; i++) {
+ states[i] = (cbstates[i] != ' ');
+
+ if (states[i])
+ ret++;
+ }
+ }
+
+ newtFormDestroy(form);
+ newtPopWindow();
+
+ return ret;
+}
+
+static int newtWinOkCancel(const char* title, const char* message, int width, int height,
+ const char* btn_txt_ok, const char* btn_txt_cancel) {
+ int ret = 1;
+
+ newtCenteredWindow(width, height, title);
+
+ newtComponent form = newtForm(NULL, NULL, 0);
+
+ newtComponent textbox = newtTextbox(1, 1, width - 2, height - 6, NEWT_FLAG_WRAP);
+ newtTextboxSetText(textbox, message);
+ newtFormAddComponent(form, textbox);
+
+ newtComponent btn_ok = newtButton((width - 16) / 3, height - 4, btn_txt_ok);
+ newtComponent btn_cancel = newtButton((width - 16) / 3 * 2 + 9, height - 4,
+ btn_txt_cancel);
+
+ newtFormAddComponents(form, btn_ok, btn_cancel, NULL);
+
+ newtComponent answer = newtRunForm(form);
+
+ if (answer == btn_ok) {
+ ret = 0;
+ }
+
+ newtFormDestroy(form);
+ newtPopWindow();
+
+ return ret;
+}
+
+int main(int argc, char *argv[]) {
+ struct hw* hw = hw_init();
char discl_msg[40000] = "Disclaimer\n";
- char *langnames[] = { "Deutsch", "English", "Français", "Español", "Polski", "Русский", NULL };
- char *shortlangnames[] = { "de", "en", "fr", "es", "pl", "ru", NULL };
- char **langtrs[] = { de_tr, en_tr, fr_tr, es_tr, pl_tr, ru_tr, NULL };
- char hdletter;
- char harddrive[30], sourcedrive[5]; /* Device holder. */
- char harddrive_info[STRING_SIZE]; /* Additional infos about target */
- struct devparams hdparams, cdromparams; /* Params for CDROM and HD */
+ char *langnames[] = { "Deutsch", "English", "Français", "Español", "Nederlands", "Polski", "Русский", "Türkçe", NULL };
+ char *shortlangnames[] = { "de", "en", "fr", "es", "nl", "pl", "ru", "tr", NULL };
+ char **langtrs[] = { de_tr, en_tr, fr_tr, es_tr, nl_tr, pl_tr, ru_tr, tr_tr, NULL };
+ char* sourcedrive = NULL;
int rc = 0;
char commandstring[STRING_SIZE];
char mkfscommand[STRING_SIZE];
char *fstypes[] = { "ext2", "ext3", "ext4", "ReiserFS", NULL };
int fstype = EXT4;
int choice;
- int i;
- int found = 0;
char shortlangname[10];
- char message[1000];
+ char message[STRING_SIZE];
char title[STRING_SIZE];
int allok = 0;
int allok_fastexit=0;
- int raid_disk = 0;
struct keyvalue *ethernetkv = initkeyvalues();
FILE *handle, *cmdfile, *copying;
char line[STRING_SIZE];
char string[STRING_SIZE];
- long memory = 0, disk = 0, free;
+ long memory = 0, disk = 0;
long system_partition, boot_partition, root_partition, swap_file;
- int scsi_disk = 0;
- char *yesnoharddisk[3]; // char *yesnoharddisk = { "NO", "YES", NULL };
int unattended = 0;
int serialconsole = 0;
struct keyvalue *unattendedkv = initkeyvalues();
- int hardyn = 0;
char restore_file[STRING_SIZE] = "";
setlocale (LC_ALL, "");
sethostname( SNAME , 10);
- memset(&hdparams, 0, sizeof(struct devparams));
- memset(&cdromparams, 0, sizeof(struct devparams));
-
/* Log file/terminal stuff. */
if (argc >= 2)
{
}
// Load common modules
- mysystem("/sbin/modprobe iso9660"); // CDROM
-// mysystem("/sbin/modprobe ext2"); // Boot patition
mysystem("/sbin/modprobe vfat"); // USB key
/* German is the default */
newtWinMessage(title, ctr[TR_OK], message);
}
- mysystem("/bin/mountsource.sh");
+ /* Search for a source drive that holds the right
+ * version of the image we are going to install. */
+ sourcedrive = hw_find_source_medium(hw);
- if ((handle = fopen("/tmp/source_device", "r")) == NULL) {
+ fprintf(flog, "Source drive: %s\n", sourcedrive);
+ if (!sourcedrive) {
newtWinMessage(title, ctr[TR_OK], ctr[TR_NO_LOCAL_SOURCE]);
- runcommandwithstatus("/bin/downloadsource.sh",ctr[TR_DOWNLOADING_ISO]);
+ runcommandwithstatus("/bin/downloadsource.sh", ctr[TR_DOWNLOADING_ISO]);
if ((handle = fopen("/tmp/source_device", "r")) == NULL) {
errorbox(ctr[TR_DOWNLOAD_ERROR]);
goto EXIT;
}
+
+ fgets(sourcedrive, 5, handle);
+ fclose(handle);
}
- fgets(sourcedrive, 5, handle);
- fprintf(flog, "Source drive: %s\n", sourcedrive);
- fclose(handle);
+ assert(sourcedrive);
+
+ int r = hw_mount(sourcedrive, SOURCE_MOUNT_PATH, MS_RDONLY);
+ if (r) {
+ fprintf(flog, "Could not mount %s to %s\n", sourcedrive, SOURCE_MOUNT_PATH);
+ fprintf(flog, strerror(errno));
+ exit(1);
+ }
+
+ /* load unattended configuration */
+ if (unattended) {
+ fprintf(flog, "unattended: Reading unattended.conf\n");
+
+ (void) readkeyvalues(unattendedkv, UNATTENDED_CONF);
+ findkey(unattendedkv, "RESTORE_FILE", restore_file);
+ }
if (!unattended) {
// Read the license file.
}
}
- i = 0;
- while (found == 0) {
- i++;
- fprintf(flog, "Harddisk scan pass %i\n", i);
+ int part_type = HW_PART_TYPE_NORMAL;
- switch (mysystem("/bin/mountdest.sh") % 255) {
- case 0: // Found IDE disk
- scsi_disk = 0;
- raid_disk = 0;
- found = 1;
- break;
- case 1: // Found SCSI disk
- scsi_disk = 1;
- raid_disk = 0;
- found = 1;
+ // Scan for disks to install on.
+ struct hw_disk** disks = hw_find_disks(hw);
+
+ struct hw_disk** selected_disks = NULL;
+ unsigned int num_selected_disks = 0;
+
+ // Check how many disks have been found and what
+ // we can do with them.
+ unsigned int num_disks = hw_count_disks(disks);
+
+ while (1) {
+ // no harddisks found
+ if (num_disks == 0) {
+ errorbox(ctr[TR_NO_HARDDISK]);
+ goto EXIT;
+
+ // exactly one disk has been found
+ } else if (num_disks == 1) {
+ selected_disks = hw_select_disks(disks, NULL);
+
+ // more than one usable disk has been found and
+ // the user needs to choose what to do with them
+ } else {
+ const char* disk_names[num_disks];
+ int disk_selection[num_disks];
+
+ for (unsigned int i = 0; i < num_disks; i++) {
+ disk_names[i] = &disks[i]->description;
+ disk_selection[i] = 0;
+ }
+
+ while (!selected_disks) {
+ rc = newtChecklist(ctr[TR_DISK_SELECTION], ctr[TR_DISK_SELECTION_MSG],
+ 50, 20, num_disks, disk_names, disk_selection);
+
+ // Error
+ if (rc < 0) {
+ goto EXIT;
+
+ // Nothing has been selected
+ } else if (rc == 0) {
+ errorbox(ctr[TR_NO_DISK_SELECTED]);
+
+ } else {
+ selected_disks = hw_select_disks(disks, disk_selection);
+ }
+ }
+ }
+
+ num_selected_disks = hw_count_disks(selected_disks);
+
+ if (num_selected_disks == 1) {
+ snprintf(message, sizeof(message), ctr[TR_DISK_SETUP_DESC], (*selected_disks)->description);
+ rc = newtWinOkCancel(ctr[TR_DISK_SETUP], message, 50, 10,
+ ctr[TR_DELETE_ALL_DATA], ctr[TR_CANCEL]);
+
+ if (rc == 0)
break;
- case 2: // Found RAID disk
- scsi_disk = 0;
- raid_disk= 1;
- found = 1;
+
+ } else if (num_selected_disks == 2) {
+ snprintf(message, sizeof(message), ctr[TR_RAID_SETUP_DESC],
+ (*selected_disks)->description, (*selected_disks + 1)->description);
+ rc = newtWinOkCancel(ctr[TR_RAID_SETUP], message, 50, 10,
+ ctr[TR_DELETE_ALL_DATA], ctr[TR_CANCEL]);
+
+ if (rc == 0) {
+ part_type = HW_PART_TYPE_RAID1;
+
break;
- case 10: // No harddisk found
- errorbox(ctr[TR_NO_HARDDISK]);
- goto EXIT;
+ }
+
+ // Currently not supported
+ } else {
+ errorbox(ctr[TR_DISK_CONFIGURATION_NOT_SUPPORTED]);
}
- }
- if ((handle = fopen("/tmp/dest_device", "r")) == NULL) {
- errorbox(ctr[TR_NO_HARDDISK]);
- goto EXIT;
- }
- fgets(harddrive, 30, handle);
- fclose(handle);
- if ((handle = fopen("/tmp/dest_device_info", "r")) == NULL) {
- sprintf(harddrive_info, "%s", harddrive);
+ if (selected_disks) {
+ hw_free_disks(selected_disks);
+ selected_disks = NULL;
+ }
}
- fgets(harddrive_info, 70, handle);
- fclose(handle);
-
- /* load unattended configuration */
- if (unattended) {
- fprintf(flog, "unattended: Reading unattended.conf\n");
+ hw_free_disks(disks);
- (void) readkeyvalues(unattendedkv, UNATTENDED_CONF);
- findkey(unattendedkv, "RESTORE_FILE", restore_file);
- }
-
- /* Make the hdparms struct and print the contents.
- With USB-KEY install and SCSI disk, while installing, the disk
- is named 'sdb,sdc,...' (following keys)
- On reboot, it will become 'sda'
- To avoid many test, all names are built in the struct.
- */
- sprintf(hdparams.devnode_disk, "/dev/%s", harddrive);
- /* Address the partition or raid partition (eg dev/sda or /dev/sdap1 */
- sprintf(hdparams.devnode_part, "/dev/%s%s", harddrive,raid_disk ? "p" : "");
- /* Now the names after the machine is booted. Only scsi is affected
- and we only install on the first scsi disk. */
-
- fprintf(flog, "Destination drive: %s\n", hdparams.devnode_disk);
-
- sprintf(message, ctr[TR_PREPARE_HARDDISK], harddrive_info);
- if (unattended) {
- hardyn = 1;
- } else {
- yesnoharddisk[0] = ctr[TR_NO];
- yesnoharddisk[1] = ctr[TR_YES];
- yesnoharddisk[2] = NULL;
- }
+ struct hw_destination* destination = hw_make_destination(part_type, selected_disks);
+ assert(destination);
- while (! hardyn) {
- rc = newtWinMenu(title, message,
- 50, 5, 5, 6, yesnoharddisk,
- &hardyn, ctr[TR_OK],
- ctr[TR_CANCEL], NULL);
- if (rc == 2)
- goto EXIT;
- }
- if (rc == 2)
- goto EXIT;
+ fprintf(flog, "Destination drive: %s\n", destination->path);
+ fprintf(flog, " boot: %s\n", destination->part_boot);
+ fprintf(flog, " swap: %s\n", destination->part_swap);
+ fprintf(flog, " root: %s\n", destination->part_root);
+ fprintf(flog, " data: %s\n", destination->part_data);
fstypes[0]=ctr[TR_EXT2FS_DESCR];
fstypes[1]=ctr[TR_EXT3FS_DESCR];
ctr[TR_CANCEL], NULL);
} else {
rc = 1;
- fstype = EXT3;
+ fstype = EXT4;
}
if (rc == 2)
goto EXIT;
- /* Calculate amount of memory in machine */
- if ((handle = fopen("/proc/meminfo", "r")))
- {
- while (fgets(line, STRING_SIZE-1, handle)) {
- if (sscanf (line, "MemTotal: %s kB", string)) {
- memory = atoi(string) / 1024 ;
- }
- }
- fclose(handle);
- }
+ memory = hw_memory() / 1024 / 1024;
/* Partition, mkswp, mkfs.
* before partitioning, first determine the sizes of each
* partition. In order to do that we need to know the size of
* the disk.
*/
- /* Don't use mysystem here so we can redirect output */
- sprintf(commandstring, "/sbin/sfdisk -s /dev/%s > /tmp/disksize 2> /dev/null", harddrive);
- system(commandstring);
-
- /* Calculate amount of disk space */
- if ((handle = fopen("/tmp/disksize", "r"))) {
- fgets(line, STRING_SIZE-1, handle);
- if (sscanf (line, "%s", string)) {
- disk = atoi(string) / 1024;
- }
- fclose(handle);
- }
+ disk = destination->size / 1024 / 1024;
fprintf(flog, "Disksize = %ld, memory = %ld", disk, memory);
swap_file = memory / 4;
/* Calculating Root-Size dependend of Max Disk Space */
- if ( disk < 756 )
- root_partition = 200;
- else if ( disk >= 756 && disk <= 3072 )
- root_partition = 512;
+ if ( disk < 2048 )
+ root_partition = 1024;
+ else if ( disk >= 2048 && disk <= 3072 )
+ root_partition = 1536;
else
root_partition = 2048;
/* Calculating the amount of free space */
- boot_partition = 20; /* in MB */
+ boot_partition = 64; /* in MB */
system_partition = disk - ( root_partition + swap_file + boot_partition );
fprintf(flog, ", boot = %ld, swap = %ld, mylog = %ld, root = %ld\n",
fclose(handle);
- snprintf(commandstring, STRING_SIZE, "/sbin/sfdisk -L -uM %s < /tmp/partitiontable", hdparams.devnode_disk);
+ if (disk < 2097150) {
+ // <2TB use sfdisk and normal mbr
+ snprintf(commandstring, STRING_SIZE, "/sbin/sfdisk -L -uM %s < /tmp/partitiontable", destination->path);
+ } else {
+ // >2TB use parted with gpt
+ snprintf(commandstring, STRING_SIZE, "/usr/sbin/parted -s %s mklabel gpt mkpart boot ext2 1M 64M mkpart swap linux-swap 64M 1000M mkpart root ext4 1000M 5000M mkpart var ext4 5000M 100%% disk_set pmbr_boot on", destination->path);
+ }
+
if (runcommandwithstatus(commandstring, ctr[TR_PARTITIONING_DISK]))
{
errorbox(ctr[TR_UNABLE_TO_PARTITION]);
sprintf(mkfscommand, "/sbin/mke2fs -T ext4");
}
- snprintf(commandstring, STRING_SIZE, "/sbin/mke2fs -T ext2 -I 128 %s1", hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "/sbin/mke2fs -T ext2 -I 128 %s", destination->part_boot);
if (runcommandwithstatus(commandstring, ctr[TR_MAKING_BOOT_FILESYSTEM]))
{
errorbox(ctr[TR_UNABLE_TO_MAKE_BOOT_FILESYSTEM]);
}
if (swap_file) {
- snprintf(commandstring, STRING_SIZE, "/sbin/mkswap %s2", hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "/sbin/mkswap %s", destination->part_swap);
if (runcommandwithstatus(commandstring, ctr[TR_MAKING_SWAPSPACE]))
{
errorbox(ctr[TR_UNABLE_TO_MAKE_SWAPSPACE]);
}
}
- snprintf(commandstring, STRING_SIZE, "%s %s3", mkfscommand, hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "%s %s", mkfscommand, destination->part_root);
if (runcommandwithstatus(commandstring, ctr[TR_MAKING_ROOT_FILESYSTEM]))
{
errorbox(ctr[TR_UNABLE_TO_MAKE_ROOT_FILESYSTEM]);
goto EXIT;
}
- snprintf(commandstring, STRING_SIZE, "%s %s4", mkfscommand, hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "%s %s", mkfscommand, destination->part_data);
if (runcommandwithstatus(commandstring, ctr[TR_MAKING_LOG_FILESYSTEM]))
{
errorbox(ctr[TR_UNABLE_TO_MAKE_LOG_FILESYSTEM]);
goto EXIT;
}
- snprintf(commandstring, STRING_SIZE, "/bin/mount %s3 /harddisk", hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "/bin/mount %s /harddisk", destination->part_root);
if (runcommandwithstatus(commandstring, ctr[TR_MOUNTING_ROOT_FILESYSTEM]))
{
errorbox(ctr[TR_UNABLE_TO_MOUNT_ROOT_FILESYSTEM]);
mkdir("/harddisk/boot", S_IRWXU|S_IRWXG|S_IRWXO);
mkdir("/harddisk/var", S_IRWXU|S_IRWXG|S_IRWXO);
mkdir("/harddisk/var/log", S_IRWXU|S_IRWXG|S_IRWXO);
-
- snprintf(commandstring, STRING_SIZE, "/bin/mount %s1 /harddisk/boot", hdparams.devnode_part);
+
+ snprintf(commandstring, STRING_SIZE, "/bin/mount %s /harddisk/boot", destination->part_boot);
if (runcommandwithstatus(commandstring, ctr[TR_MOUNTING_BOOT_FILESYSTEM]))
{
errorbox(ctr[TR_UNABLE_TO_MOUNT_BOOT_FILESYSTEM]);
goto EXIT;
}
if (swap_file) {
- snprintf(commandstring, STRING_SIZE, "/sbin/swapon %s2", hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "/sbin/swapon %s", destination->part_swap);
if (runcommandwithstatus(commandstring, ctr[TR_MOUNTING_SWAP_PARTITION]))
{
errorbox(ctr[TR_UNABLE_TO_MOUNT_SWAP_PARTITION]);
goto EXIT;
}
}
- snprintf(commandstring, STRING_SIZE, "/bin/mount %s4 /harddisk/var", hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "/bin/mount %s /harddisk/var", destination->part_data);
if (runcommandwithstatus(commandstring, ctr[TR_MOUNTING_LOG_FILESYSTEM]))
{
errorbox(ctr[TR_UNABLE_TO_MOUNT_LOG_FILESYSTEM]);
}
/* Update /etc/fstab */
- snprintf(commandstring, STRING_SIZE, "/bin/sed -i -e \"s#DEVICE1#UUID=$(/sbin/blkid %s1 -sUUID | /usr/bin/cut -d'\"' -f2)#g\" /harddisk/etc/fstab", hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "/bin/sed -i -e \"s#DEVICE1#UUID=$(/sbin/blkid %s -sUUID | /usr/bin/cut -d'\"' -f2)#g\" /harddisk/etc/fstab", destination->part_boot);
system(commandstring);
- snprintf(commandstring, STRING_SIZE, "/bin/sed -i -e \"s#DEVICE2#UUID=$(/sbin/blkid %s2 -sUUID | /usr/bin/cut -d'\"' -f2)#g\" /harddisk/etc/fstab", hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "/bin/sed -i -e \"s#DEVICE2#UUID=$(/sbin/blkid %s -sUUID | /usr/bin/cut -d'\"' -f2)#g\" /harddisk/etc/fstab", destination->part_swap);
system(commandstring);
- snprintf(commandstring, STRING_SIZE, "/bin/sed -i -e \"s#DEVICE3#UUID=$(/sbin/blkid %s3 -sUUID | /usr/bin/cut -d'\"' -f2)#g\" /harddisk/etc/fstab", hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "/bin/sed -i -e \"s#DEVICE3#UUID=$(/sbin/blkid %s -sUUID | /usr/bin/cut -d'\"' -f2)#g\" /harddisk/etc/fstab", destination->part_root);
system(commandstring);
- snprintf(commandstring, STRING_SIZE, "/bin/sed -i -e \"s#DEVICE4#UUID=$(/sbin/blkid %s4 -sUUID | /usr/bin/cut -d'\"' -f2)#g\" /harddisk/etc/fstab", hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "/bin/sed -i -e \"s#DEVICE4#UUID=$(/sbin/blkid %s -sUUID | /usr/bin/cut -d'\"' -f2)#g\" /harddisk/etc/fstab", destination->part_data);
system(commandstring);
if (fstype == EXT2) {
replace("/harddisk/boot/grub/grub.conf", "KVER", KERNEL_VERSION);
- snprintf(commandstring, STRING_SIZE, "/bin/sed -i -e \"s#root=ROOT#root=UUID=$(/sbin/blkid %s3 -sUUID | /usr/bin/cut -d'\"' -f2)#g\" /harddisk/boot/grub/grub.conf", hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "/bin/sed -i -e \"s#root=ROOT#root=UUID=$(/sbin/blkid %s -sUUID | /usr/bin/cut -d'\"' -f2)#g\" /harddisk/boot/grub/grub.conf", destination->part_root);
system(commandstring);
mysystem("ln -s grub.conf /harddisk/boot/grub/menu.lst");
*/
FILE *f = NULL;
if (f = fopen("/harddisk/boot/grub/device.map", "w")) {
- fprintf(f, "(hd0) %s\n", hdparams.devnode_disk);
+ fprintf(f, "(hd0) %s\n", destination->path);
fclose(f);
}
snprintf(commandstring, STRING_SIZE,
- "/usr/sbin/chroot /harddisk /usr/sbin/grub-install --no-floppy %s", hdparams.devnode_disk);
+ "/usr/sbin/chroot /harddisk /usr/sbin/grub-install --no-floppy %s", destination->path);
if (runcommandwithstatus(commandstring, ctr[TR_INSTALLING_GRUB])) {
errorbox(ctr[TR_UNABLE_TO_INSTALL_GRUB]);
goto EXIT;
replace("/harddisk/boot/grub/grub.conf", "splashimage", "#splashimage");
replace("/harddisk/boot/grub/grub.conf", "#serial", "serial");
replace("/harddisk/boot/grub/grub.conf", "#terminal", "terminal");
- replace("/harddisk/boot/grub/grub.conf", " panic=10 ", " console=ttyS0,38400n8 panic=10 ");
+ replace("/harddisk/boot/grub/grub.conf", " panic=10 ", " console=ttyS0,115200n8 panic=10 ");
/*inittab*/
replace("/harddisk/etc/inittab", "1:2345:respawn:", "#1:2345:respawn:");
fclose(flog);
newtFinished();
- if (unattended) {
- // Remove Setup autorun after boot
- if (system("rm -f /harddisk/etc/rc.d/rcsysinit.d/S75firstsetup"))
- printf("Unable to disable setup autorun.\n");
- }
-
if (system("/bin/umount /harddisk/proc"))
printf("Unable to umount /harddisk/proc.\n");
} else {
fcloseall();
if (swap_file) {
- snprintf(commandstring, STRING_SIZE, "/bin/swapoff %s2", hdparams.devnode_part);
+ snprintf(commandstring, STRING_SIZE, "/bin/swapoff %s", destination->part_swap);
}
newtFinished();
if (!(allok))
system("/etc/halt");
+ // Free resources
+ free(sourcedrive);
+ free(destination);
+
+ if (selected_disks)
+ hw_free_disks(selected_disks);
+
+ hw_free(hw);
+
return 0;
}