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/* disk_io.c - implement abstract BIOS disk input and output */
/*
* GRUB -- GRand Unified Bootloader
* Copyright (C) 1999,2000,2001,2002,2003,2004 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>
#include <filesys.h>
#ifdef SUPPORT_NETBOOT
# define GRUB 1
# include <etherboot.h>
#endif
#ifdef GRUB_UTIL
# include <device.h>
#endif
/* instrumentation variables */
void (*disk_read_hook) (int, int, int) = NULL;
void (*disk_read_func) (int, int, int) = NULL;
#ifndef STAGE1_5
int print_possibilities;
static int do_completion;
static int unique;
static char *unique_string;
#endif
int fsmax;
struct fsys_entry fsys_table[NUM_FSYS + 1] =
{
/* TFTP should come first because others don't handle net device. */
# ifdef FSYS_TFTP
{"tftp", tftp_mount, tftp_read, tftp_dir, tftp_close, 0},
# endif
# ifdef FSYS_FAT
{"fat", fat_mount, fat_read, fat_dir, 0, 0},
# endif
# ifdef FSYS_EXT2FS
{"ext2fs", ext2fs_mount, ext2fs_read, ext2fs_dir, 0, 0},
# endif
# ifdef FSYS_MINIX
{"minix", minix_mount, minix_read, minix_dir, 0, 0},
# endif
# ifdef FSYS_REISERFS
{"reiserfs", reiserfs_mount, reiserfs_read, reiserfs_dir, 0, reiserfs_embed},
# endif
# ifdef FSYS_VSTAFS
{"vstafs", vstafs_mount, vstafs_read, vstafs_dir, 0, 0},
# endif
# ifdef FSYS_JFS
{"jfs", jfs_mount, jfs_read, jfs_dir, 0, jfs_embed},
# endif
# ifdef FSYS_XFS
{"xfs", xfs_mount, xfs_read, xfs_dir, 0, 0},
# endif
# ifdef FSYS_UFS2
{"ufs2", ufs2_mount, ufs2_read, ufs2_dir, 0, ufs2_embed},
# endif
# ifdef FSYS_ISO9660
{"iso9660", iso9660_mount, iso9660_read, iso9660_dir, 0, 0},
# endif
/* XX FFS should come last as it's superblock is commonly crossing tracks
on floppies from track 1 to 2, while others only use 1. */
# ifdef FSYS_FFS
{"ffs", ffs_mount, ffs_read, ffs_dir, 0, ffs_embed},
# endif
{0, 0, 0, 0, 0, 0}
};
/* These have the same format as "boot_drive" and "install_partition", but
are meant to be working values. */
unsigned long current_drive = GRUB_INVALID_DRIVE;
unsigned long current_partition;
#ifndef STAGE1_5
/* The register ESI should contain the address of the partition to be
used for loading a chain-loader when chain-loading the loader. */
unsigned long boot_part_addr = 0;
#endif
/*
* Global variables describing details of the filesystem
*/
/* FIXME: BSD evil hack */
#include "freebsd.h"
int bsd_evil_hack;
/* filesystem type */
int fsys_type = NUM_FSYS;
#ifndef NO_BLOCK_FILES
static int block_file = 0;
#endif /* NO_BLOCK_FILES */
/* these are the translated numbers for the open partition */
unsigned long part_start;
unsigned long part_length;
int current_slice;
/* disk buffer parameters */
int buf_drive = -1;
int buf_track;
struct geometry buf_geom;
/* filesystem common variables */
int filepos;
int filemax;
static inline unsigned long
log2 (unsigned long word)
{
asm volatile ("bsfl %1,%0"
: "=r" (word)
: "r" (word));
return word;
}
int
rawread (int drive, int sector, int byte_offset, int byte_len, char *buf)
{
int slen, sectors_per_vtrack;
int sector_size_bits = log2 (buf_geom.sector_size);
if (byte_len <= 0)
return 1;
while (byte_len > 0 && !errnum)
{
int soff, num_sect, track, size = byte_len;
char *bufaddr;
/*
* Check track buffer. If it isn't valid or it is from the
* wrong disk, then reset the disk geometry.
*/
if (buf_drive != drive)
{
if (get_diskinfo (drive, &buf_geom))
{
errnum = ERR_NO_DISK;
return 0;
}
buf_drive = drive;
buf_track = -1;
sector_size_bits = log2 (buf_geom.sector_size);
}
/* Make sure that SECTOR is valid. */
if (sector < 0 || sector >= buf_geom.total_sectors)
{
errnum = ERR_GEOM;
return 0;
}
slen = ((byte_offset + byte_len + buf_geom.sector_size - 1)
>> sector_size_bits);
/* Eliminate a buffer overflow. */
if ((buf_geom.sectors << sector_size_bits) > BUFFERLEN)
sectors_per_vtrack = (BUFFERLEN >> sector_size_bits);
else
sectors_per_vtrack = buf_geom.sectors;
/* Get the first sector of track. */
soff = sector % sectors_per_vtrack;
track = sector - soff;
num_sect = sectors_per_vtrack - soff;
bufaddr = ((char *) BUFFERADDR
+ (soff << sector_size_bits) + byte_offset);
if (track != buf_track)
{
int bios_err, read_start = track, read_len = sectors_per_vtrack;
/*
* If there's more than one read in this entire loop, then
* only make the earlier reads for the portion needed. This
* saves filling the buffer with data that won't be used!
*/
if (slen > num_sect)
{
read_start = sector;
read_len = num_sect;
bufaddr = (char *) BUFFERADDR + byte_offset;
}
bios_err = biosdisk (BIOSDISK_READ, drive, &buf_geom,
read_start, read_len, BUFFERSEG);
if (bios_err)
{
buf_track = -1;
if (bios_err == BIOSDISK_ERROR_GEOMETRY)
errnum = ERR_GEOM;
else
{
/*
* If there was an error, try to load only the
* required sector(s) rather than failing completely.
*/
if (slen > num_sect
|| biosdisk (BIOSDISK_READ, drive, &buf_geom,
sector, slen, BUFFERSEG))
errnum = ERR_READ;
bufaddr = (char *) BUFFERADDR + byte_offset;
}
}
else
buf_track = track;
if ((buf_track == 0 || sector == 0)
&& (PC_SLICE_TYPE (BUFFERADDR, 0) == PC_SLICE_TYPE_EZD
|| PC_SLICE_TYPE (BUFFERADDR, 1) == PC_SLICE_TYPE_EZD
|| PC_SLICE_TYPE (BUFFERADDR, 2) == PC_SLICE_TYPE_EZD
|| PC_SLICE_TYPE (BUFFERADDR, 3) == PC_SLICE_TYPE_EZD))
{
/* This is a EZD disk map sector 0 to sector 1 */
if (buf_track == 0 || slen >= 2)
{
/* We already read the sector 1, copy it to sector 0 */
memmove ((char *) BUFFERADDR,
(char *) BUFFERADDR + buf_geom.sector_size,
buf_geom.sector_size);
}
else
{
if (biosdisk (BIOSDISK_READ, drive, &buf_geom,
1, 1, BUFFERSEG))
errnum = ERR_READ;
}
}
}
if (size > ((num_sect << sector_size_bits) - byte_offset))
size = (num_sect << sector_size_bits) - byte_offset;
/*
* Instrumentation to tell which sectors were read and used.
*/
if (disk_read_func)
{
int sector_num = sector;
int length = buf_geom.sector_size - byte_offset;
if (length > size)
length = size;
(*disk_read_func) (sector_num++, byte_offset, length);
length = size - length;
if (length > 0)
{
while (length > buf_geom.sector_size)
{
(*disk_read_func) (sector_num++, 0, buf_geom.sector_size);
length -= buf_geom.sector_size;
}
(*disk_read_func) (sector_num, 0, length);
}
}
grub_memmove (buf, bufaddr, size);
buf += size;
byte_len -= size;
sector += num_sect;
byte_offset = 0;
}
return (!errnum);
}
int
devread (int sector, int byte_offset, int byte_len, char *buf)
{
/*
* Check partition boundaries
*/
if (sector < 0
|| ((sector + ((byte_offset + byte_len - 1) >> SECTOR_BITS))
>= part_length))
{
errnum = ERR_OUTSIDE_PART;
return 0;
}
/*
* Get the read to the beginning of a partition.
*/
sector += byte_offset >> SECTOR_BITS;
byte_offset &= SECTOR_SIZE - 1;
#if !defined(STAGE1_5)
if (disk_read_hook && debug)
printf ("<%d, %d, %d>", sector, byte_offset, byte_len);
#endif /* !STAGE1_5 */
/*
* Call RAWREAD, which is very similar, but:
*
* -- It takes an extra parameter, the drive number.
* -- It requires that "sector" is relative to the beginning
* of the disk.
* -- It doesn't handle offsets of more than 511 bytes into the
* sector.
*/
return rawread (current_drive, part_start + sector, byte_offset,
byte_len, buf);
}
#ifndef STAGE1_5
int
rawwrite (int drive, int sector, char *buf)
{
if (sector == 0)
{
if (biosdisk (BIOSDISK_READ, drive, &buf_geom, 0, 1, SCRATCHSEG))
{
errnum = ERR_WRITE;
return 0;
}
if (PC_SLICE_TYPE (SCRATCHADDR, 0) == PC_SLICE_TYPE_EZD
|| PC_SLICE_TYPE (SCRATCHADDR, 1) == PC_SLICE_TYPE_EZD
|| PC_SLICE_TYPE (SCRATCHADDR, 2) == PC_SLICE_TYPE_EZD
|| PC_SLICE_TYPE (SCRATCHADDR, 3) == PC_SLICE_TYPE_EZD)
sector = 1;
}
memmove ((char *) SCRATCHADDR, buf, SECTOR_SIZE);
if (biosdisk (BIOSDISK_WRITE, drive, &buf_geom,
sector, 1, SCRATCHSEG))
{
errnum = ERR_WRITE;
return 0;
}
if (sector - sector % buf_geom.sectors == buf_track)
/* Clear the cache. */
buf_track = -1;
return 1;
}
int
devwrite (int sector, int sector_count, char *buf)
{
#if defined(GRUB_UTIL) && defined(__linux__)
if (current_partition != 0xFFFFFF
&& is_disk_device (device_map, current_drive))
{
/* If the grub shell is running under Linux and the user wants to
embed a Stage 1.5 into a partition instead of a MBR, use system
calls directly instead of biosdisk, because of the bug in
Linux. *sigh* */
return write_to_partition (device_map, current_drive, current_partition,
sector, sector_count, buf);
}
else
#endif /* GRUB_UTIL && __linux__ */
{
int i;
for (i = 0; i < sector_count; i++)
{
if (! rawwrite (current_drive, part_start + sector + i,
buf + (i << SECTOR_BITS)))
return 0;
}
return 1;
}
}
static int
sane_partition (void)
{
/* network drive */
if (current_drive == NETWORK_DRIVE)
return 1;
if (!(current_partition & 0xFF000000uL)
&& ((current_drive & 0xFFFFFF7F) < 8
|| current_drive == cdrom_drive)
&& (current_partition & 0xFF) == 0xFF
&& ((current_partition & 0xFF00) == 0xFF00
|| (current_partition & 0xFF00) < 0x800)
&& ((current_partition >> 16) == 0xFF
|| (current_drive & 0x80)))
return 1;
errnum = ERR_DEV_VALUES;
return 0;
}
#endif /* ! STAGE1_5 */
static void
attempt_mount (void)
{
#ifndef STAGE1_5
for (fsys_type = 0; fsys_type < NUM_FSYS; fsys_type++)
if ((fsys_table[fsys_type].mount_func) ())
break;
if (fsys_type == NUM_FSYS && errnum == ERR_NONE)
errnum = ERR_FSYS_MOUNT;
#else
fsys_type = 0;
if ((*(fsys_table[fsys_type].mount_func)) () != 1)
{
fsys_type = NUM_FSYS;
errnum = ERR_FSYS_MOUNT;
}
#endif
}
#ifndef STAGE1_5
/* Turn on the active flag for the partition SAVED_PARTITION in the
drive SAVED_DRIVE. If an error occurs, return zero, otherwise return
non-zero. */
int
make_saved_active (void)
{
char mbr[512];
if (saved_drive & 0x80)
{
/* Hard disk */
int part = saved_partition >> 16;
/* If the partition is not a primary partition, the active flag is
meaningless. (XXX: Really?) */
if (part > 3)
{
errnum = ERR_DEV_VALUES;
return 0;
}
/* Read the MBR in the scratch space. */
if (! rawread (saved_drive, 0, 0, SECTOR_SIZE, mbr))
return 0;
/* If the partition is an extended partition, setting the active
flag violates the specification by IBM. */
if (IS_PC_SLICE_TYPE_EXTENDED (PC_SLICE_TYPE (mbr, part)))
{
errnum = ERR_DEV_VALUES;
return 0;
}
/* Check if the active flag is disabled. */
if (PC_SLICE_FLAG (mbr, part) != PC_SLICE_FLAG_BOOTABLE)
{
int i;
/* Clear all the active flags in this table. */
for (i = 0; i < 4; i++)
PC_SLICE_FLAG (mbr, i) = 0;
/* Set the flag. */
PC_SLICE_FLAG (mbr, part) = PC_SLICE_FLAG_BOOTABLE;
/* Write back the MBR. */
if (! rawwrite (saved_drive, 0, mbr))
return 0;
}
}
else
{
/* If the drive is not a hard disk drive, you shouldn't call this
function. (XXX: Should I just ignore this error?) */
errnum = ERR_DEV_VALUES;
return 0;
}
return 1;
}
/* Hide/Unhide CURRENT_PARTITION. */
int
set_partition_hidden_flag (int hidden)
{
unsigned long part = 0xFFFFFF;
unsigned long start, len, offset, ext_offset;
int entry, type;
char mbr[512];
/* The drive must be a hard disk. */
if (! (current_drive & 0x80))
{
errnum = ERR_BAD_ARGUMENT;
return 1;
}
/* The partition must be a PC slice. */
if ((current_partition >> 16) == 0xFF
|| (current_partition & 0xFFFF) != 0xFFFF)
{
errnum = ERR_BAD_ARGUMENT;
return 1;
}
/* Look for the partition. */
while (next_partition (current_drive, 0xFFFFFF, &part, &type,
&start, &len, &offset, &entry,
&ext_offset, mbr))
{
if (part == current_partition)
{
/* Found. */
if (hidden)
PC_SLICE_TYPE (mbr, entry) |= PC_SLICE_TYPE_HIDDEN_FLAG;
else
PC_SLICE_TYPE (mbr, entry) &= ~PC_SLICE_TYPE_HIDDEN_FLAG;
/* Write back the MBR to the disk. */
buf_track = -1;
if (! rawwrite (current_drive, offset, mbr))
return 1;
/* Succeed. */
return 0;
}
}
return 1;
}
static void
check_and_print_mount (void)
{
attempt_mount ();
if (errnum == ERR_FSYS_MOUNT)
errnum = ERR_NONE;
if (!errnum)
print_fsys_type ();
print_error ();
}
#endif /* STAGE1_5 */
/* Get the information on next partition on the drive DRIVE.
The caller must not modify the contents of the arguments when
iterating this function. The partition representation in GRUB will
be stored in *PARTITION. Likewise, the partition type in *TYPE, the
start sector in *START, the length in *LEN, the offset of the
partition table in *OFFSET, the entry number in the table in *ENTRY,
the offset of the extended partition in *EXT_OFFSET.
BUF is used to store a MBR, the boot sector of a partition, or
a BSD label sector, and it must be at least 512 bytes length.
When calling this function first, *PARTITION must be initialized to
0xFFFFFF. The return value is zero if fails, otherwise non-zero. */
int
next_partition (unsigned long drive, unsigned long dest,
unsigned long *partition, int *type,
unsigned long *start, unsigned long *len,
unsigned long *offset, int *entry,
unsigned long *ext_offset, char *buf)
{
/* Forward declarations. */
auto int next_bsd_partition (void);
auto int next_pc_slice (void);
/* Get next BSD partition in current PC slice. */
int next_bsd_partition (void)
{
int i;
int bsd_part_no = (*partition & 0xFF00) >> 8;
/* If this is the first time... */
if (bsd_part_no == 0xFF)
{
/* Check if the BSD label is within current PC slice. */
if (*len < BSD_LABEL_SECTOR + 1)
{
errnum = ERR_BAD_PART_TABLE;
return 0;
}
/* Read the BSD label. */
if (! rawread (drive, *start + BSD_LABEL_SECTOR,
0, SECTOR_SIZE, buf))
return 0;
/* Check if it is valid. */
if (! BSD_LABEL_CHECK_MAG (buf))
{
errnum = ERR_BAD_PART_TABLE;
return 0;
}
bsd_part_no = -1;
}
/* Search next valid BSD partition. */
for (i = bsd_part_no + 1; i < BSD_LABEL_NPARTS (buf); i++)
{
if (BSD_PART_TYPE (buf, i))
{
/* Note that *TYPE and *PARTITION were set
for current PC slice. */
*type = (BSD_PART_TYPE (buf, i) << 8) | (*type & 0xFF);
*start = BSD_PART_START (buf, i);
*len = BSD_PART_LENGTH (buf, i);
*partition = (*partition & 0xFF00FF) | (i << 8);
#ifndef STAGE1_5
/* XXX */
if ((drive & 0x80) && BSD_LABEL_DTYPE (buf) == DTYPE_SCSI)
bsd_evil_hack = 4;
#endif /* ! STAGE1_5 */
return 1;
}
}
errnum = ERR_NO_PART;
return 0;
}
/* Get next PC slice. Be careful of that this function may return
an empty PC slice (i.e. a partition whose type is zero) as well. */
int next_pc_slice (void)
{
int pc_slice_no = (*partition & 0xFF0000) >> 16;
/* If this is the first time... */
if (pc_slice_no == 0xFF)
{
*offset = 0;
*ext_offset = 0;
*entry = -1;
pc_slice_no = -1;
}
/* Read the MBR or the boot sector of the extended partition. */
if (! rawread (drive, *offset, 0, SECTOR_SIZE, buf))
return 0;
/* Check if it is valid. */
if (! PC_MBR_CHECK_SIG (buf))
{
errnum = ERR_BAD_PART_TABLE;
return 0;
}
/* Increase the entry number. */
(*entry)++;
/* If this is out of current partition table... */
if (*entry == PC_SLICE_MAX)
{
int i;
/* Search the first extended partition in current table. */
for (i = 0; i < PC_SLICE_MAX; i++)
{
if (IS_PC_SLICE_TYPE_EXTENDED (PC_SLICE_TYPE (buf, i)))
{
/* Found. Set the new offset and the entry number,
and restart this function. */
*offset = *ext_offset + PC_SLICE_START (buf, i);
if (! *ext_offset)
*ext_offset = *offset;
*entry = -1;
return next_pc_slice ();
}
}
errnum = ERR_NO_PART;
return 0;
}
*type = PC_SLICE_TYPE (buf, *entry);
*start = *offset + PC_SLICE_START (buf, *entry);
*len = PC_SLICE_LENGTH (buf, *entry);
/* The calculation of a PC slice number is complicated, because of
the rather odd definition of extended partitions. Even worse,
there is no guarantee that this is consistent with every
operating systems. Uggh. */
if (pc_slice_no < PC_SLICE_MAX
|| (! IS_PC_SLICE_TYPE_EXTENDED (*type)
&& *type != PC_SLICE_TYPE_NONE))
pc_slice_no++;
*partition = (pc_slice_no << 16) | 0xFFFF;
return 1;
}
/* Start the body of this function. */
#ifndef STAGE1_5
if (current_drive == NETWORK_DRIVE)
return 0;
#endif
/* If previous partition is a BSD partition or a PC slice which
contains BSD partitions... */
if ((*partition != 0xFFFFFF && IS_PC_SLICE_TYPE_BSD (*type & 0xff))
|| ! (drive & 0x80))
{
if (*type == PC_SLICE_TYPE_NONE)
*type = PC_SLICE_TYPE_FREEBSD;
/* Get next BSD partition, if any. */
if (next_bsd_partition ())
return 1;
/* If the destination partition is a BSD partition and current
BSD partition has any error, abort the operation. */
if ((dest & 0xFF00) != 0xFF00
&& ((dest & 0xFF0000) == 0xFF0000
|| (dest & 0xFF0000) == (*partition & 0xFF0000)))
return 0;
/* Ignore the error. */
errnum = ERR_NONE;
}
return next_pc_slice ();
}
#ifndef STAGE1_5
static unsigned long cur_part_offset;
static unsigned long cur_part_addr;
#endif
/* Open a partition. */
int
real_open_partition (int flags)
{
unsigned long dest_partition = current_partition;
unsigned long part_offset;
unsigned long ext_offset;
int entry;
char buf[SECTOR_SIZE];
int bsd_part, pc_slice;
/* For simplicity. */
auto int next (void);
int next (void)
{
int ret = next_partition (current_drive, dest_partition,
&current_partition, &current_slice,
&part_start, &part_length,
&part_offset, &entry, &ext_offset, buf);
bsd_part = (current_partition >> 8) & 0xFF;
pc_slice = current_partition >> 16;
return ret;
}
#ifndef STAGE1_5
/* network drive */
if (current_drive == NETWORK_DRIVE)
return 1;
if (! sane_partition ())
return 0;
#endif
bsd_evil_hack = 0;
current_slice = 0;
part_start = 0;
/* Make sure that buf_geom is valid. */
if (buf_drive != current_drive)
{
if (get_diskinfo (current_drive, &buf_geom))
{
errnum = ERR_NO_DISK;
return 0;
}
buf_drive = current_drive;
buf_track = -1;
}
part_length = buf_geom.total_sectors;
/* If this is the whole disk, return here. */
if (! flags && current_partition == 0xFFFFFF)
return 1;
if (flags)
dest_partition = 0xFFFFFF;
/* Initialize CURRENT_PARTITION for next_partition. */
current_partition = 0xFFFFFF;
while (next ())
{
#ifndef STAGE1_5
loop_start:
cur_part_offset = part_offset;
cur_part_addr = BOOT_PART_TABLE + (entry << 4);
#endif /* ! STAGE1_5 */
/* If this is a valid partition... */
if (current_slice)
{
#ifndef STAGE1_5
/* Display partition information. */
if (flags && ! IS_PC_SLICE_TYPE_EXTENDED (current_slice))
{
if (! do_completion)
{
if (current_drive & 0x80)
grub_printf (" Partition num: %d, ",
current_partition >> 16);
if (! IS_PC_SLICE_TYPE_BSD (current_slice))
check_and_print_mount ();
else
{
int got_part = 0;
int saved_slice = current_slice;
while (next ())
{
if (bsd_part == 0xFF)
break;
if (! got_part)
{
grub_printf ("[BSD sub-partitions immediately follow]\n");
got_part = 1;
}
grub_printf (" BSD Partition num: \'%c\', ",
bsd_part + 'a');
check_and_print_mount ();
}
if (! got_part)
grub_printf (" No BSD sub-partition found, partition type 0x%x\n",
saved_slice);
if (errnum)
{
errnum = ERR_NONE;
break;
}
goto loop_start;
}
}
else
{
if (bsd_part != 0xFF)
{
char str[16];
if (! (current_drive & 0x80)
|| (dest_partition >> 16) == pc_slice)
grub_sprintf (str, "%c)", bsd_part + 'a');
else
grub_sprintf (str, "%d,%c)",
pc_slice, bsd_part + 'a');
print_a_completion (str);
}
else if (! IS_PC_SLICE_TYPE_BSD (current_slice))
{
char str[8];
grub_sprintf (str, "%d)", pc_slice);
print_a_completion (str);
}
}
}
errnum = ERR_NONE;
#endif /* ! STAGE1_5 */
/* Check if this is the destination partition. */
if (! flags
&& (dest_partition == current_partition
|| ((dest_partition >> 16) == 0xFF
&& ((dest_partition >> 8) & 0xFF) == bsd_part)))
return 1;
}
}
#ifndef STAGE1_5
if (flags)
{
if (! (current_drive & 0x80))
{
current_partition = 0xFFFFFF;
check_and_print_mount ();
}
errnum = ERR_NONE;
return 1;
}
#endif /* ! STAGE1_5 */
return 0;
}
int
open_partition (void)
{
return real_open_partition (0);
}
#ifndef STAGE1_5
/* XX used for device completion in 'set_device' and 'print_completions' */
static int incomplete, disk_choice;
static enum
{
PART_UNSPECIFIED = 0,
PART_DISK,
PART_CHOSEN,
}
part_choice;
#endif /* ! STAGE1_5 */
char *
set_device (char *device)
{
#ifdef STAGE1_5
/* In Stage 1.5, the first 4 bytes of FILENAME has a device number. */
unsigned long dev = *((unsigned long *) device);
int drive = (dev >> 24) & 0xFF;
int partition = dev & 0xFFFFFF;
/* If DRIVE is disabled, use SAVED_DRIVE instead. */
if (drive == GRUB_INVALID_DRIVE)
current_drive = saved_drive;
else
current_drive = drive;
/* The `partition' part must always have a valid number. */
current_partition = partition;
return device + sizeof (unsigned long);
#else /* ! STAGE1_5 */
int result = 0;
incomplete = 0;
disk_choice = 1;
part_choice = PART_UNSPECIFIED;
current_drive = saved_drive;
current_partition = 0xFFFFFF;
if (*device == '(' && !*(device + 1))
/* user has given '(' only, let disk_choice handle what disks we have */
return device + 1;
if (*device == '(' && *(++device))
{
if (*device != ',' && *device != ')')
{
char ch = *device;
#ifdef SUPPORT_NETBOOT
if (*device == 'f' || *device == 'h'
|| (*device == 'n' && network_ready)
|| (*device == 'c' && cdrom_drive != GRUB_INVALID_DRIVE))
#else
if (*device == 'f' || *device == 'h'
|| (*device == 'c' && cdrom_drive != GRUB_INVALID_DRIVE))
#endif /* SUPPORT_NETBOOT */
{
/* user has given '([fhn]', check for resp. add 'd' and
let disk_choice handle what disks we have */
if (!*(device + 1))
{
device++;
*device++ = 'd';
*device = '\0';
return device;
}
else if (*(device + 1) == 'd' && !*(device + 2))
return device + 2;
}
if ((*device == 'f'
|| *device == 'h'
#ifdef SUPPORT_NETBOOT
|| (*device == 'n' && network_ready)
#endif
|| (*device == 'c' && cdrom_drive != GRUB_INVALID_DRIVE))
&& (device += 2, (*(device - 1) != 'd')))
errnum = ERR_NUMBER_PARSING;
#ifdef SUPPORT_NETBOOT
if (ch == 'n' && network_ready)
current_drive = NETWORK_DRIVE;
else
#endif /* SUPPORT_NETBOOT */
{
if (ch == 'c' && cdrom_drive != GRUB_INVALID_DRIVE)
current_drive = cdrom_drive;
else
{
safe_parse_maxint (&device, (int *) &current_drive);
disk_choice = 0;
if (ch == 'h')
current_drive += 0x80;
}
}
}
if (errnum)
return 0;
if (*device == ')')
{
part_choice = PART_CHOSEN;
result = 1;
}
else if (*device == ',')
{
/* Either an absolute PC or BSD partition. */
disk_choice = 0;
part_choice ++;
device++;
if (*device >= '0' && *device <= '9')
{
part_choice ++;
current_partition = 0;
if (!(current_drive & 0x80)
|| !safe_parse_maxint (&device, (int *) &current_partition)
|| current_partition > 254)
{
errnum = ERR_DEV_FORMAT;
return 0;
}
current_partition = (current_partition << 16) + 0xFFFF;
if (*device == ',')
device++;
if (*device >= 'a' && *device <= 'h')
{
current_partition = (((*(device++) - 'a') << 8)
| (current_partition & 0xFF00FF));
}
}
else if (*device >= 'a' && *device <= 'h')
{
part_choice ++;
current_partition = ((*(device++) - 'a') << 8) | 0xFF00FF;
}
if (*device == ')')
{
if (part_choice == PART_DISK)
{
current_partition = saved_partition;
part_choice ++;
}
result = 1;
}
}
}
if (! sane_partition ())
return 0;
if (result)
return device + 1;
else
{
if (!*device)
incomplete = 1;
errnum = ERR_DEV_FORMAT;
}
return 0;
#endif /* ! STAGE1_5 */
}
/*
* This performs a "mount" on the current device, both drive and partition
* number.
*/
int
open_device (void)
{
if (open_partition ())
attempt_mount ();
if (errnum != ERR_NONE)
return 0;
return 1;
}
#ifndef STAGE1_5
int
set_bootdev (int hdbias)
{
int i, j;
/* Copy the boot partition information to 0x7be-0x7fd for chain-loading. */
if ((saved_drive & 0x80) && cur_part_addr)
{
if (rawread (saved_drive, cur_part_offset,
0, SECTOR_SIZE, (char *) SCRATCHADDR))
{
char *dst, *src;
/* Need only the partition table.
XXX: We cannot use grub_memmove because BOOT_PART_TABLE
(0x07be) is less than 0x1000. */
dst = (char *) BOOT_PART_TABLE;
src = (char *) SCRATCHADDR + BOOTSEC_PART_OFFSET;
while (dst < (char *) BOOT_PART_TABLE + BOOTSEC_PART_LENGTH)
*dst++ = *src++;
/* Set the active flag of the booted partition. */
for (i = 0; i < 4; i++)
PC_SLICE_FLAG (BOOT_PART_TABLE, i) = 0;
*((unsigned char *) cur_part_addr) = PC_SLICE_FLAG_BOOTABLE;
boot_part_addr = cur_part_addr;
}
else
return 0;
}
/*
* Set BSD boot device.
*/
i = (saved_partition >> 16) + 2;
if (saved_partition == 0xFFFFFF)
i = 1;
else if ((saved_partition >> 16) == 0xFF)
i = 0;
/* FIXME: extremely evil hack!!! */
j = 2;
if (saved_drive & 0x80)
j = bsd_evil_hack;
return MAKEBOOTDEV (j, (i >> 4), (i & 0xF),
((saved_drive - hdbias) & 0x7F),
((saved_partition >> 8) & 0xFF));
}
#endif /* STAGE1_5 */
static char *
setup_part (char *filename)
{
#ifdef STAGE1_5
if (! (filename = set_device (filename)))
{
current_drive = GRUB_INVALID_DRIVE;
return 0;
}
# ifndef NO_BLOCK_FILES
if (*filename != '/')
open_partition ();
else
# endif /* ! NO_BLOCK_FILES */
open_device ();
#else /* ! STAGE1_5 */
if (*filename == '(')
{
if ((filename = set_device (filename)) == 0)
{
current_drive = GRUB_INVALID_DRIVE;
return 0;
}
# ifndef NO_BLOCK_FILES
if (*filename != '/')
open_partition ();
else
# endif /* ! NO_BLOCK_FILES */
open_device ();
}
else if (saved_drive != current_drive
|| saved_partition != current_partition
|| (*filename == '/' && fsys_type == NUM_FSYS)
|| buf_drive == -1)
{
current_drive = saved_drive;
current_partition = saved_partition;
/* allow for the error case of "no filesystem" after the partition
is found. This makes block files work fine on no filesystem */
# ifndef NO_BLOCK_FILES
if (*filename != '/')
open_partition ();
else
# endif /* ! NO_BLOCK_FILES */
open_device ();
}
#endif /* ! STAGE1_5 */
if (errnum && (*filename == '/' || errnum != ERR_FSYS_MOUNT))
return 0;
else
errnum = 0;
#ifndef STAGE1_5
if (!sane_partition ())
return 0;
#endif
return filename;
}
#ifndef STAGE1_5
/*
* This prints the filesystem type or gives relevant information.
*/
void
print_fsys_type (void)
{
if (! do_completion)
{
printf (" Filesystem type ");
if (fsys_type != NUM_FSYS)
printf ("is %s, ", fsys_table[fsys_type].name);
else
printf ("unknown, ");
if (current_partition == 0xFFFFFF)
printf ("using whole disk\n");
else
printf ("partition type 0x%x\n", current_slice & 0xFF);
}
}
#endif /* STAGE1_5 */
#ifndef STAGE1_5
/* If DO_COMPLETION is true, just print NAME. Otherwise save the unique
part into UNIQUE_STRING. */
void
print_a_completion (char *name)
{
/* If NAME is "." or "..", do not count it. */
if (grub_strcmp (name, ".") == 0 || grub_strcmp (name, "..") == 0)
return;
if (do_completion)
{
char *buf = unique_string;
if (! unique)
while ((*buf++ = *name++))
;
else
{
while (*buf && (*buf == *name))
{
buf++;
name++;
}
/* mismatch, strip it. */
*buf = '\0';
}
}
else
grub_printf (" %s", name);
unique++;
}
/*
* This lists the possible completions of a device string, filename, or
* any sane combination of the two.
*/
int
print_completions (int is_filename, int is_completion)
{
char *buf = (char *) COMPLETION_BUF;
char *ptr = buf;
unique_string = (char *) UNIQUE_BUF;
*unique_string = 0;
unique = 0;
do_completion = is_completion;
if (! is_filename)
{
/* Print the completions of builtin commands. */
struct builtin **builtin;
if (! is_completion)
grub_printf (" Possible commands are:");
for (builtin = builtin_table; (*builtin); builtin++)
{
/* If *BUILTIN cannot be run in the command-line, skip it. */
if (! ((*builtin)->flags & BUILTIN_CMDLINE))
continue;
if (substring (buf, (*builtin)->name) <= 0)
print_a_completion ((*builtin)->name);
}
if (is_completion && *unique_string)
{
if (unique == 1)
{
char *u = unique_string + grub_strlen (unique_string);
*u++ = ' ';
*u = 0;
}
grub_strcpy (buf, unique_string);
}
if (! is_completion)
grub_putchar ('\n');
print_error ();
do_completion = 0;
if (errnum)
return -1;
else
return unique - 1;
}
if (*buf == '/' || (ptr = set_device (buf)) || incomplete)
{
errnum = 0;
if (*buf == '(' && (incomplete || ! *ptr))
{
if (! part_choice)
{
/* disk completions */
int disk_no, i, j;
struct geometry geom;
if (! is_completion)
grub_printf (" Possible disks are: ");
if (!ptr
|| *(ptr-1) != 'd'
#ifdef SUPPORT_NETBOOT
|| *(ptr-2) != 'n'
#endif /* SUPPORT_NETBOOT */
|| *(ptr-2) != 'c')
{
for (i = (ptr && (*(ptr-1) == 'd' && *(ptr-2) == 'h') ? 1:0);
i < (ptr && (*(ptr-1) == 'd' && *(ptr-2) == 'f') ? 1:2);
i++)
{
for (j = 0; j < 8; j++)
{
disk_no = (i * 0x80) + j;
if ((disk_choice || disk_no == current_drive)
&& ! get_diskinfo (disk_no, &geom))
{
char dev_name[8];
grub_sprintf (dev_name, "%cd%d", i ? 'h':'f', j);
print_a_completion (dev_name);
}
}
}
}
if (cdrom_drive != GRUB_INVALID_DRIVE
&& (disk_choice || cdrom_drive == current_drive)
&& (!ptr
|| *(ptr-1) == '('
|| (*(ptr-1) == 'd' && *(ptr-2) == 'c')))
print_a_completion ("cd");
# ifdef SUPPORT_NETBOOT
if (network_ready
&& (disk_choice || NETWORK_DRIVE == current_drive)
&& (!ptr
|| *(ptr-1) == '('
|| (*(ptr-1) == 'd' && *(ptr-2) == 'n')))
print_a_completion ("nd");
# endif /* SUPPORT_NETBOOT */
if (is_completion && *unique_string)
{
ptr = buf;
while (*ptr != '(')
ptr--;
ptr++;
grub_strcpy (ptr, unique_string);
if (unique == 1)
{
ptr += grub_strlen (ptr);
if (*unique_string == 'h')
{
*ptr++ = ',';
*ptr = 0;
}
else
{
*ptr++ = ')';
*ptr = 0;
}
}
}
if (! is_completion)
grub_putchar ('\n');
}
else
{
/* partition completions */
if (part_choice == PART_CHOSEN
&& open_partition ()
&& ! IS_PC_SLICE_TYPE_BSD (current_slice))
{
unique = 1;
ptr = buf + grub_strlen (buf);
if (*(ptr - 1) != ')')
{
*ptr++ = ')';
*ptr = 0;
}
}
else
{
if (! is_completion)
grub_printf (" Possible partitions are:\n");
real_open_partition (1);
if (is_completion && *unique_string)
{
ptr = buf;
while (*ptr++ != ',')
;
grub_strcpy (ptr, unique_string);
}
}
}
}
else if (ptr && *ptr == '/')
{
/* filename completions */
if (! is_completion)
grub_printf (" Possible files are:");
dir (buf);
if (is_completion && *unique_string)
{
ptr += grub_strlen (ptr);
while (*ptr != '/')
ptr--;
ptr++;
grub_strcpy (ptr, unique_string);
if (unique == 1)
{
ptr += grub_strlen (unique_string);
/* Check if the file UNIQUE_STRING is a directory. */
*ptr = '/';
*(ptr + 1) = 0;
dir (buf);
/* Restore the original unique value. */
unique = 1;
if (errnum)
{
/* Regular file */
errnum = 0;
*ptr = ' ';
*(ptr + 1) = 0;
}
}
}
if (! is_completion)
grub_putchar ('\n');
}
else
errnum = ERR_BAD_FILENAME;
}
print_error ();
do_completion = 0;
if (errnum)
return -1;
else
return unique - 1;
}
#endif /* STAGE1_5 */
/*
* This is the generic file open function.
*/
int
grub_open (char *filename)
{
#ifndef NO_DECOMPRESSION
compressed_file = 0;
#endif /* NO_DECOMPRESSION */
/* if any "dir" function uses/sets filepos, it must
set it to zero before returning if opening a file! */
filepos = 0;
if (!(filename = setup_part (filename)))
return 0;
#ifndef NO_BLOCK_FILES
block_file = 0;
#endif /* NO_BLOCK_FILES */
/* This accounts for partial filesystem implementations. */
fsmax = MAXINT;
if (*filename != '/')
{
#ifndef NO_BLOCK_FILES
char *ptr = filename;
int tmp, list_addr = BLK_BLKLIST_START;
filemax = 0;
while (list_addr < BLK_MAX_ADDR)
{
tmp = 0;
safe_parse_maxint (&ptr, &tmp);
errnum = 0;
if (*ptr != '+')
{
if ((*ptr && *ptr != '/' && !isspace (*ptr))
|| tmp == 0 || tmp > filemax)
errnum = ERR_BAD_FILENAME;
else
filemax = tmp;
break;
}
/* since we use the same filesystem buffer, mark it to
be remounted */
fsys_type = NUM_FSYS;
BLK_BLKSTART (list_addr) = tmp;
ptr++;
if (!safe_parse_maxint (&ptr, &tmp)
|| tmp == 0
|| (*ptr && *ptr != ',' && *ptr != '/' && !isspace (*ptr)))
{
errnum = ERR_BAD_FILENAME;
break;
}
BLK_BLKLENGTH (list_addr) = tmp;
filemax += (tmp * SECTOR_SIZE);
list_addr += BLK_BLKLIST_INC_VAL;
if (*ptr != ',')
break;
ptr++;
}
if (list_addr < BLK_MAX_ADDR && ptr != filename && !errnum)
{
block_file = 1;
BLK_CUR_FILEPOS = 0;
BLK_CUR_BLKLIST = BLK_BLKLIST_START;
BLK_CUR_BLKNUM = 0;
#ifndef NO_DECOMPRESSION
return gunzip_test_header ();
#else /* NO_DECOMPRESSION */
return 1;
#endif /* NO_DECOMPRESSION */
}
#else /* NO_BLOCK_FILES */
errnum = ERR_BAD_FILENAME;
#endif /* NO_BLOCK_FILES */
}
if (!errnum && fsys_type == NUM_FSYS)
errnum = ERR_FSYS_MOUNT;
# ifndef STAGE1_5
/* set "dir" function to open a file */
print_possibilities = 0;
# endif
if (!errnum && (*(fsys_table[fsys_type].dir_func)) (filename))
{
#ifndef NO_DECOMPRESSION
return gunzip_test_header ();
#else /* NO_DECOMPRESSION */
return 1;
#endif /* NO_DECOMPRESSION */
}
return 0;
}
int
grub_read (char *buf, int len)
{
/* Make sure "filepos" is a sane value */
if ((filepos < 0) || (filepos > filemax))
filepos = filemax;
/* Make sure "len" is a sane value */
if ((len < 0) || (len > (filemax - filepos)))
len = filemax - filepos;
/* if target file position is past the end of
the supported/configured filesize, then
there is an error */
if (filepos + len > fsmax)
{
errnum = ERR_FILELENGTH;
return 0;
}
#ifndef NO_DECOMPRESSION
if (compressed_file)
return gunzip_read (buf, len);
#endif /* NO_DECOMPRESSION */
#ifndef NO_BLOCK_FILES
if (block_file)
{
int size, off, ret = 0;
while (len && !errnum)
{
/* we may need to look for the right block in the list(s) */
if (filepos < BLK_CUR_FILEPOS)
{
BLK_CUR_FILEPOS = 0;
BLK_CUR_BLKLIST = BLK_BLKLIST_START;
BLK_CUR_BLKNUM = 0;
}
/* run BLK_CUR_FILEPOS up to filepos */
while (filepos > BLK_CUR_FILEPOS)
{
if ((filepos - (BLK_CUR_FILEPOS & ~(SECTOR_SIZE - 1)))
>= SECTOR_SIZE)
{
BLK_CUR_FILEPOS += SECTOR_SIZE;
BLK_CUR_BLKNUM++;
if (BLK_CUR_BLKNUM >= BLK_BLKLENGTH (BLK_CUR_BLKLIST))
{
BLK_CUR_BLKLIST += BLK_BLKLIST_INC_VAL;
BLK_CUR_BLKNUM = 0;
}
}
else
BLK_CUR_FILEPOS = filepos;
}
off = filepos & (SECTOR_SIZE - 1);
size = ((BLK_BLKLENGTH (BLK_CUR_BLKLIST) - BLK_CUR_BLKNUM)
* SECTOR_SIZE) - off;
if (size > len)
size = len;
disk_read_func = disk_read_hook;
/* read current block and put it in the right place in memory */
devread (BLK_BLKSTART (BLK_CUR_BLKLIST) + BLK_CUR_BLKNUM,
off, size, buf);
disk_read_func = NULL;
len -= size;
filepos += size;
ret += size;
buf += size;
}
if (errnum)
ret = 0;
return ret;
}
#endif /* NO_BLOCK_FILES */
if (fsys_type == NUM_FSYS)
{
errnum = ERR_FSYS_MOUNT;
return 0;
}
return (*(fsys_table[fsys_type].read_func)) (buf, len);
}
#ifndef STAGE1_5
/* Reposition a file offset. */
int
grub_seek (int offset)
{
if (offset > filemax || offset < 0)
return -1;
filepos = offset;
return offset;
}
int
dir (char *dirname)
{
#ifndef NO_DECOMPRESSION
compressed_file = 0;
#endif /* NO_DECOMPRESSION */
if (!(dirname = setup_part (dirname)))
return 0;
if (*dirname != '/')
errnum = ERR_BAD_FILENAME;
if (fsys_type == NUM_FSYS)
errnum = ERR_FSYS_MOUNT;
if (errnum)
return 0;
/* set "dir" function to list completions */
print_possibilities = 1;
return (*(fsys_table[fsys_type].dir_func)) (dirname);
}
#endif /* STAGE1_5 */
void
grub_close (void)
{
#ifndef NO_BLOCK_FILES
if (block_file)
return;
#endif /* NO_BLOCK_FILES */
if (fsys_table[fsys_type].close_func != 0)
(*(fsys_table[fsys_type].close_func)) ();
}