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/* cmdline.c - the device-independent GRUB text command line */
/*
* GRUB -- GRand Unified Bootloader
* Copyright (C) 1996 Erich Boleyn <erich@uruk.org>
* Copyright (C) 1999 Free Software Foundation, Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* 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 "shared.h"
#ifndef GRUB_UTIL
/*
* This is the Intel MultiProcessor Spec debugging/display code.
*/
#define IMPS_DEBUG
#define KERNEL_PRINT(x) printf x
#define CMOS_WRITE_BYTE(x, y) cmos_write_byte(x, y)
#define CMOS_READ_BYTE(x) cmos_read_byte(x)
#define PHYS_TO_VIRTUAL(x) (x)
#define VIRTUAL_TO_PHYS(x) (x)
static inline unsigned char
inb (unsigned short port)
{
unsigned char data;
__asm __volatile ("inb %1,%0":"=a" (data):"d" (port));
return data;
}
static inline void
outb (unsigned short port, unsigned char val)
{
__asm __volatile ("outb %0,%1"::"a" (val), "d" (port));
}
__inline__ static void
cmos_write_byte(int loc, int val)
{
outb(0x70, loc);
outb(0x71, val);
}
__inline__ static unsigned
cmos_read_byte(int loc)
{
outb(0x70, loc);
return inb(0x71);
}
#include "smp-imps.c"
#endif /* ! GRUB_UTIL */
/*
* These are used for determining if the command-line should ask the user
* to correct errors during scripts.
*/
int fallback;
char *password;
/* True when the debug mode is turned on, and false when it is turned off. */
int debug = 0;
/* Color settings */
int normal_color;
int highlight_color;
char *
skip_to(int after_equal, char *cmdline)
{
while (*cmdline && (*cmdline != (after_equal ? '=' : ' ')))
cmdline++;
if (after_equal)
cmdline++;
while (*cmdline == ' ')
cmdline++;
return cmdline;
}
void
init_cmdline(void)
{
printf(" [ Minimal BASH-like line editing is supported. For the first word, TAB
lists possible command completions. Anywhere else TAB lists the possible
completions of a device/filename. ESC at any time exits. ]\n");
}
char commands[] =
" Possible commands are: \"pause= ...\", \"uppermem= <kbytes>\", \"root= <device>\",
\"rootnoverify= <device>\", \"chainloader= <file>\", \"kernel= <file> ...\",
\"testload= <file>\", \"read= <addr>\", \"displaymem\", \"impsprobe\",
\"fstest\", \"debug\", \"module= <file> ...\", \"modulenounzip= <file> ...\",
\"color= <normal> [<highlight>]\", \"makeactive\", \"boot\", and
\"install= <stage1_file> [d] <dest_dev> <file> <addr> [p] [<config_file>]\"\n";
static void
debug_fs_print_func(int sector)
{
printf("[%d]", sector);
}
static int installaddr, installlist, installsect;
static void
debug_fs_blocklist_func(int sector)
{
if (debug)
printf("[%d]", sector);
if (*((unsigned long *)(installlist-4))
+ *((unsigned short *)installlist) != sector
|| installlist == BOOTSEC_LOCATION+STAGE1_FIRSTLIST+4)
{
installlist -= 8;
if (*((unsigned long *)(installlist-8)))
errnum = ERR_WONT_FIT;
else
{
*((unsigned short *)(installlist+2)) = (installaddr >> 4);
*((unsigned long *)(installlist-4)) = sector;
}
}
*((unsigned short *)installlist) += 1;
installsect = sector;
installaddr += 512;
}
int
enter_cmdline (char *script, char *heap)
{
int bootdev, cmd_len, type = 0, run_cmdline = 1, have_run_cmdline = 0;
char *cur_heap = heap, *cur_entry = script, *old_entry;
/* initialization */
saved_drive = boot_drive;
saved_partition = install_partition;
current_drive = 0xFF;
errnum = 0;
/* restore memory probe state */
mbi.mem_upper = saved_mem_upper;
if (mbi.mmap_length)
mbi.flags |= MB_INFO_MEM_MAP;
/* BSD and chainloading evil hacks !! */
bootdev = set_bootdev(0);
if (!script)
{
init_page();
init_cmdline();
}
restart:
if (script)
{
if (errnum)
{
if (fallback < 0)
goto returnit;
print_error();
if (password || errnum == ERR_BOOT_COMMAND)
{
printf("Press any key to continue...");
(void) getkey ();
returnit:
return 0;
}
run_cmdline = 1;
if (!have_run_cmdline)
{
have_run_cmdline = 1;
putchar('\n');
init_cmdline();
}
}
else
{
run_cmdline = 0;
/* update position in the boot script */
old_entry = cur_entry;
while (*(cur_entry++));
/* copy to work area */
memmove (cur_heap, old_entry, ((int)cur_entry) - ((int)old_entry));
printf("%s\n", old_entry);
}
}
else
{
cur_heap[0] = 0;
print_error();
}
if (run_cmdline && get_cmdline (PACKAGE "> ", commands, cur_heap, 2048, 0))
return 1;
if (substring("boot", cur_heap) == 0 || (script && !*cur_heap))
{
if ((type == 'f') | (type == 'n'))
bsd_boot(type, bootdev);
if (type == 'l')
linux_boot();
if (type == 'L')
big_linux_boot();
if (type == 'c')
{
gateA20(0);
boot_drive = saved_drive;
chain_stage1(0, BOOTSEC_LOCATION, BOOTSEC_LOCATION-16);
}
if (!type)
{
errnum = ERR_BOOT_COMMAND;
goto restart;
}
/* this is the final possibility */
multi_boot((int)entry_addr, (int)(&mbi));
}
/* get clipped command-line */
cur_cmdline = skip_to(1, cur_heap);
cmd_len = 0;
while (cur_cmdline[cmd_len++]);
if (substring("chainloader", cur_heap) < 1)
{
if (grub_open (cur_cmdline) &&
(grub_read ((char *) BOOTSEC_LOCATION, SECTOR_SIZE) == SECTOR_SIZE) &&
(*((unsigned short *) (BOOTSEC_LOCATION+BOOTSEC_SIG_OFFSET))
== BOOTSEC_SIGNATURE))
type = 'c';
else if (!errnum)
{
errnum = ERR_EXEC_FORMAT;
type = 0;
}
}
else if (substring("pause", cur_heap) < 1)
{
if (ASCII_CHAR (getkey ()) == 27)
return 1;
}
else if (substring("uppermem", cur_heap) < 1)
{
if (safe_parse_maxint(&cur_cmdline, (int *)&(mbi.mem_upper)))
mbi.flags &= ~MB_INFO_MEM_MAP;
}
else if (substring("root", cur_heap) < 1)
{
int hdbias = 0;
char *next_cmd = set_device (cur_cmdline);
if (next_cmd)
{
char *biasptr = skip_to (0, next_cmd);
/* this will respond to any "rootn<XXX>" command,
but that's OK */
if (!errnum && (cur_heap[4] == 'n' || open_device()
|| errnum == ERR_FSYS_MOUNT))
{
errnum = 0;
saved_partition = current_partition;
saved_drive = current_drive;
if (cur_heap[4] != 'n')
{
/* BSD and chainloading evil hacks !! */
safe_parse_maxint(&biasptr, &hdbias);
errnum = 0;
bootdev = set_bootdev(hdbias);
print_fsys_type();
}
else
current_drive = -1;
}
}
}
else if (substring("kernel", cur_heap) < 1)
{
/* make sure it's at the beginning of the boot heap area */
memmove (heap, cur_heap,
cmd_len + (((int)cur_cmdline) - ((int)cur_heap)));
cur_cmdline = heap + (((int)cur_cmdline) - ((int)cur_heap));
cur_heap = heap;
if ((type = load_image()) != 0)
cur_heap = cur_cmdline + cmd_len;
}
else if (substring("module", cur_heap) < 1)
{
if (type == 'm')
{
#ifndef NO_DECOMPRESSION
/* this will respond to any "modulen<XXX>" command,
but that's OK */
if (cur_heap[6] == 'n')
no_decompression = 1;
#endif /* NO_DECOMPRESSION */
if (load_module())
cur_heap = cur_cmdline + cmd_len;
#ifndef NO_DECOMPRESSION
no_decompression = 0;
#endif /* NO_DECOMPRESSION */
}
else if (type == 'L' || type == 'l')
{
load_initrd ();
}
else
errnum = ERR_NEED_MB_KERNEL;
}
else if (substring("initrd", cur_heap) < 1)
{
if (type == 'L' || type == 'l')
{
load_initrd ();
}
else
errnum = ERR_NEED_LX_KERNEL;
}
else if (substring("install", cur_heap) < 1)
{
char *stage1_file = cur_cmdline, *dest_dev, *file, *addr;
char buffer[SECTOR_SIZE], old_sect[SECTOR_SIZE];
int new_drive = 0xFF;
dest_dev = skip_to(0, stage1_file);
if (*dest_dev == 'd')
{
new_drive = 0;
dest_dev = skip_to(0, dest_dev);
}
file = skip_to (0, dest_dev);
addr = skip_to (0, file);
if (safe_parse_maxint (&addr, &installaddr) &&
grub_open (stage1_file) &&
grub_read (buffer, SECTOR_SIZE) == SECTOR_SIZE &&
set_device (dest_dev) && open_partition () &&
devread (0, 0, SECTOR_SIZE, old_sect))
{
int dest_drive = current_drive;
struct geometry dest_geom = buf_geom;
int dest_sector = part_start, i;
#ifndef NO_DECOMPRESSION
no_decompression = 1;
#endif
/* copy possible DOS BPB, 59 bytes at byte offset 3 */
memmove (buffer+BOOTSEC_BPB_OFFSET, old_sect+BOOTSEC_BPB_OFFSET,
BOOTSEC_BPB_LENGTH);
/* if for a hard disk, copy possible MBR/extended part table */
if ((dest_drive & 0x80) && current_partition == 0xFFFFFF)
memmove (buffer+BOOTSEC_PART_OFFSET, old_sect+BOOTSEC_PART_OFFSET,
BOOTSEC_PART_LENGTH);
if (*((short *)(buffer+STAGE1_VER_MAJ_OFFS)) != COMPAT_VERSION
|| (*((unsigned short *) (buffer+BOOTSEC_SIG_OFFSET))
!= BOOTSEC_SIGNATURE)
|| (!(dest_drive & 0x80)
&& (*((unsigned char *) (buffer+BOOTSEC_PART_OFFSET)) == 0x80
|| buffer[BOOTSEC_PART_OFFSET] == 0)))
{
errnum = ERR_BAD_VERSION;
}
else if (grub_open (file))
{
if (!new_drive)
new_drive = current_drive;
memmove ((char*)BOOTSEC_LOCATION, buffer, SECTOR_SIZE);
*((unsigned char *)(BOOTSEC_LOCATION+STAGE1_FIRSTLIST))
= new_drive;
*((unsigned short *)(BOOTSEC_LOCATION+STAGE1_INSTALLADDR))
= installaddr;
i = BOOTSEC_LOCATION+STAGE1_FIRSTLIST-4;
while (*((unsigned long *)i))
{
if (i < BOOTSEC_LOCATION+STAGE1_FIRSTLIST-256
|| (*((int *)(i-4)) & 0x80000000)
|| *((unsigned short *)i) >= 0xA00
|| *((short *) (i+2)) == 0)
{
errnum = ERR_BAD_VERSION;
break;
}
*((int *)i) = 0;
*((int *)(i-4)) = 0;
i -= 8;
}
installlist = BOOTSEC_LOCATION+STAGE1_FIRSTLIST+4;
debug_fs = debug_fs_blocklist_func;
if (!errnum &&
grub_read ((char *) SCRATCHADDR, SECTOR_SIZE) == SECTOR_SIZE)
{
if (*((short *)(SCRATCHADDR+STAGE2_VER_MAJ_OFFS))
!= COMPAT_VERSION)
errnum = ERR_BAD_VERSION;
else
{
int write_stage2_sect = 0, stage2_sect = installsect;
char *ptr;
ptr = skip_to(0, addr);
if (*ptr == 'p')
{
write_stage2_sect++;
*((long *)(SCRATCHADDR+STAGE2_INSTALLPART))
= current_partition;
ptr = skip_to(0, ptr);
}
if (*ptr)
{
char *str
= ((char *) (SCRATCHADDR+STAGE2_VER_STR_OFFS));
write_stage2_sect++;
while (*(str++)); /* find string */
while ((*(str++) = *(ptr++)) != 0); /* do copy */
}
grub_read ((char *) RAW_ADDR (0x100000), -1);
buf_track = -1;
if (!errnum
&& (biosdisk(BIOSDISK_WRITE,
dest_drive, &dest_geom,
dest_sector, 1, (BOOTSEC_LOCATION>>4))
|| (write_stage2_sect
&& biosdisk(BIOSDISK_WRITE,
current_drive, &buf_geom,
stage2_sect, 1, SCRATCHSEG))))
errnum = ERR_WRITE;
}
}
debug_fs = NULL;
}
#ifndef NO_DECOMPRESSION
no_decompression = 0;
#endif
}
/* Error running the install script, so drop to command line. */
if (script)
{
fallback = -1;
return 1;
}
}
else if (substring("testload", cur_heap) < 1)
{
type = 0;
if (grub_open (cur_cmdline))
{
int i;
debug_fs = debug_fs_print_func;
/*
* Perform filesystem test on the specified file.
*/
/* read whole file first */
printf("Whole file: ");
grub_read ((char *) RAW_ADDR (0x100000), -1);
/* now compare two sections of the file read differently */
for (i = 0; i < 0x10ac0; i++)
{
*((unsigned char *) RAW_ADDR (0x200000+i)) = 0;
*((unsigned char *) RAW_ADDR (0x300000+i)) = 1;
}
/* first partial read */
printf("\nPartial read 1: ");
filepos = 0;
grub_read ((char *) RAW_ADDR (0x200000), 0x7);
grub_read ((char *) RAW_ADDR (0x200007), 0x100);
grub_read ((char *) RAW_ADDR (0x200107), 0x10);
grub_read ((char *) RAW_ADDR (0x200117), 0x999);
grub_read ((char *) RAW_ADDR (0x200ab0), 0x10);
grub_read ((char *) RAW_ADDR (0x200ac0), 0x10000);
/* second partial read */
printf("\nPartial read 2: ");
filepos = 0;
grub_read ((char *) RAW_ADDR (0x300000), 0x10000);
grub_read ((char *) RAW_ADDR (0x310000), 0x10);
grub_read ((char *) RAW_ADDR (0x310010), 0x7);
grub_read ((char *) RAW_ADDR (0x310017), 0x10);
grub_read ((char *) RAW_ADDR (0x310027), 0x999);
grub_read ((char *) RAW_ADDR (0x3109c0), 0x100);
printf ("\nHeader1 = 0x%x, next = 0x%x, next = 0x%x, next = 0x%x\n",
*((int *) RAW_ADDR (0x200000)),
*((int *) RAW_ADDR (0x200004)),
*((int *) RAW_ADDR (0x200008)),
*((int *) RAW_ADDR (0x20000c)));
printf ("Header2 = 0x%x, next = 0x%x, next = 0x%x, next = 0x%x\n",
*((int *) RAW_ADDR (0x300000)),
*((int *) RAW_ADDR (0x300004)),
*((int *) RAW_ADDR (0x300008)),
*((int *) RAW_ADDR (0x30000c)));
for (i = 0; i < 0x10ac0 && *((unsigned char *) RAW_ADDR (0x200000+i))
== *((unsigned char *) RAW_ADDR (0x300000+i)); i++);
printf("Max is 0x10ac0: i=0x%x, filepos=0x%x\n", i, filepos);
debug_fs = NULL;
}
}
else if (substring ("read", cur_heap) < 1)
{
int myaddr;
if (safe_parse_maxint (&cur_cmdline, &myaddr))
printf ("Address 0x%x: Value 0x%x",
myaddr, *((unsigned *) RAW_ADDR (myaddr)));
}
else if (substring ("fstest", cur_heap) == 0)
{
if (debug_fs)
{
debug_fs = NULL;
printf (" Filesystem tracing is now off\n");
}
else
{
debug_fs = debug_fs_print_func;
printf (" Filesystem tracing is now on\n");
}
}
else if (substring ("impsprobe", cur_heap) == 0)
{
#ifndef GRUB_UTIL
if (!imps_probe ())
#endif
printf (" No MPS information found or probe failed\n");
}
else if (substring ("displaymem", cur_heap) == 0)
{
if (get_eisamemsize () != -1)
printf (" EISA Memory BIOS Interface is present\n");
if (get_mmap_entry ((void *) SCRATCHADDR, 0) != 0 ||
*((int *) SCRATCHADDR) != 0)
printf (" Address Map BIOS Interface is present\n");
printf (" Lower memory: %uK, Upper memory (to first chipset hole): %uK\n",
mbi.mem_lower, mbi.mem_upper);
if (mbi.flags & MB_INFO_MEM_MAP)
{
struct AddrRangeDesc *map = (struct AddrRangeDesc *) mbi.mmap_addr;
int end_addr = mbi.mmap_addr + mbi.mmap_length;
printf (" [Address Range Descriptor entries immediately follow (values are 64-bit)]\n");
while (end_addr > (int) map)
{
char *str;
if (map->Type == MB_ARD_MEMORY)
str = "Usable RAM";
else
str = "Reserved";
printf (" %s: Base Address: 0x%x X 4GB + 0x%x,
Length: %u X 4GB + %u bytes\n",
str, map->BaseAddrHigh, map->BaseAddrLow,
map->LengthHigh, map->LengthLow);
map = ((struct AddrRangeDesc *) (((int) map) + 4 + map->size));
}
}
}
else if (substring ("makeactive", cur_heap) == 0)
make_saved_active();
else if (substring ("debug", cur_heap) == 0)
{
if (debug)
{
debug = 0;
grub_printf (" Debug mode is turned off\n");
}
else
{
debug = 1;
grub_printf (" Debug mode is turned on\n");
}
}
else if (substring ("color", cur_heap) < 1)
{
char *normal;
char *highlight;
normal = cur_cmdline;
highlight = skip_to (0, normal);
if (safe_parse_maxint (&normal, &normal_color))
{
/* The second argument is optional, so set highlight_color
to inverted NORMAL_COLOR. */
if (*highlight == 0
|| ! safe_parse_maxint (&highlight, &highlight_color))
highlight_color = ((normal_color >> 4)
| ((normal_color & 0xf) << 4));
}
}
else if (*cur_heap && *cur_heap != ' ')
errnum = ERR_UNRECOGNIZED;
goto restart;
}