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/* disk_io.c - implement abstract BIOS disk input and output */
/*
* 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"
#include "filesys.h"
#ifndef STAGE1_5
/* instrumentation variables */
void (*debug_fs) (int) = NULL;
void (*debug_fs_func) (int) = NULL;
int print_possibilities;
#endif
int fsmax;
struct fsys_entry fsys_table[NUM_FSYS + 1] =
{
# ifdef FSYS_FAT
{"fat", fat_mount, 0, fat_dir},
# endif
# ifdef FSYS_EXT2FS
{"ext2fs", ext2fs_mount, ext2fs_read, ext2fs_dir},
# endif
# ifdef FSYS_MINIX
{"minix", minix_mount, minix_read, minix_dir},
# 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},
# endif
{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 = 0xFF;
unsigned long current_partition;
/*
* 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
int block_file = 0;
#endif /* NO_BLOCK_FILES */
/* these are the translated numbers for the open partition */
long part_start;
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;
int
rawread (int drive, int sector, int byte_offset, int byte_len, char *buf)
{
int slen = (byte_offset + byte_len + SECTOR_SIZE - 1) / SECTOR_SIZE;
if (byte_len <= 0)
return 1;
while (byte_len > 0 && !errnum)
{
int soff, num_sect, bufaddr, track, size = byte_len;
/*
* 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;
}
/* Get first sector of track */
soff = sector % buf_geom.sectors;
track = sector - soff;
num_sect = buf_geom.sectors - soff;
bufaddr = BUFFERADDR + (soff * SECTOR_SIZE) + byte_offset;
if (track != buf_track)
{
int bios_err, read_start = track, read_len = buf_geom.sectors;
/*
* 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 = 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 = BUFFERSEG + byte_offset;
}
}
else
buf_track = track;
}
#ifndef STAGE1_5
/*
* Instrumentation to tell which sectors were read and used.
*/
if (debug_fs && debug_fs_func)
{
int sector_end = sector + ((num_sect < slen) ? num_sect : slen);
int sector_num = sector;
while (sector_num < sector_end)
(*debug_fs_func) (sector_num++);
}
#endif /* STAGE1_5 */
if (size > ((num_sect * SECTOR_SIZE) - byte_offset))
size = (num_sect * SECTOR_SIZE) - byte_offset;
memmove (buf, (char *) bufaddr, size);
buf += size;
byte_len -= size;
sector += num_sect;
slen -= 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_SIZE)) >= part_length)
{
errnum = ERR_OUTSIDE_PART;
return 0;
}
/*
* Get the read to the beginning of a partition.
*/
while (byte_offset >= SECTOR_SIZE)
{
byte_offset -= SECTOR_SIZE;
sector++;
}
#if !defined(STAGE1_5)
if (debug_fs && 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
static int
sane_partition (void)
{
if (!(current_partition & 0xFF000000uL)
&& (current_drive & 0xFFFFFF7F) < 8
&& (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_table[fsys_type].mount_func)) () != 1; fsys_type++);
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
int
make_saved_active (void)
{
if (saved_drive & 0x80)
{
int part = saved_partition >> 16;
if (part > 3)
{
errnum = ERR_NO_PART;
return 0;
}
if (!rawread (saved_drive, 0, 0, SECTOR_SIZE, (char *) SCRATCHADDR))
return 0;
if (PC_SLICE_FLAG (SCRATCHADDR, part) != PC_SLICE_FLAG_BOOTABLE)
{
int i;
for (i = 0; i < 4; i++)
PC_SLICE_FLAG (SCRATCHADDR, i) = 0;
PC_SLICE_FLAG (SCRATCHADDR, part) = PC_SLICE_FLAG_BOOTABLE;
buf_track = -1;
if (biosdisk (BIOSDISK_WRITE, saved_drive, &buf_geom,
0, 1, SCRATCHSEG))
{
errnum = ERR_WRITE;
return 0;
}
}
}
return 1;
}
int
unhide_partition (void)
{
if (saved_drive)
{
int part = saved_partition >> 16;
if (part > 3)
{
errnum = ERR_NO_PART;
return 0;
}
if (! rawread (saved_drive, 0, 0, SECTOR_SIZE, (char *) SCRATCHADDR))
return 0;
if (PC_SLICE_TYPE (SCRATCHADDR, part) & PC_SLICE_TYPE_HIDDEN_FLAG)
{
PC_SLICE_TYPE (SCRATCHADDR, part) ^= PC_SLICE_TYPE_HIDDEN_FLAG;
buf_track = -1;
if (biosdisk (BIOSDISK_WRITE, saved_drive, &buf_geom,
0, 1, SCRATCHSEG))
{
errnum = ERR_WRITE;
return 0;
}
}
}
return 1;
}
int
hide_partition (void)
{
if (saved_drive)
{
int part = saved_partition >> 16;
if (part > 3)
{
errnum = ERR_NO_PART;
return 0;
}
if (! rawread (saved_drive, 0, 0, SECTOR_SIZE, (char *) SCRATCHADDR))
return 0;
if (! (PC_SLICE_TYPE (SCRATCHADDR, part) & PC_SLICE_TYPE_HIDDEN_FLAG))
{
PC_SLICE_TYPE (SCRATCHADDR, part) |= PC_SLICE_TYPE_HIDDEN_FLAG;
buf_track = -1;
if (biosdisk (BIOSDISK_WRITE, saved_drive, &buf_geom,
0, 1, SCRATCHSEG))
{
errnum = ERR_WRITE;
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 */
static int
check_BSD_parts (int flags)
{
char label_buf[SECTOR_SIZE];
int part_no, got_part = 0;
if (part_length < (BSD_LABEL_SECTOR + 1))
{
errnum = ERR_BAD_PART_TABLE;
return 0;
}
if (!rawread (current_drive, part_start + BSD_LABEL_SECTOR,
0, SECTOR_SIZE, label_buf))
return 0;
if (BSD_LABEL_CHECK_MAG (label_buf))
{
for (part_no = 0; part_no < BSD_LABEL_NPARTS (label_buf); part_no++)
{
if (BSD_PART_TYPE (label_buf, part_no))
{
/* FIXME: should do BAD144 sector remapping setup here */
/* XXX We cannot determine which variant of BSD owns
this slice, so set it to FreeBSD paritition type.
That should work fine for now. */
current_slice = ((BSD_PART_TYPE (label_buf, part_no) << 8)
| PC_SLICE_TYPE_FREEBSD);
part_start = BSD_PART_START (label_buf, part_no);
part_length = BSD_PART_LENGTH (label_buf, part_no);
#ifndef STAGE1_5
if (flags)
{
if (!got_part)
{
printf ("[BSD sub-partitions immediately follow]\n");
got_part = 1;
}
printf (" BSD Partition num: \'%c\', ", part_no + 'a');
check_and_print_mount ();
}
else
#endif /* STAGE1_5 */
if (part_no == ((current_partition >> 8) & 0xFF))
break;
}
}
if (part_no >= BSD_LABEL_NPARTS (label_buf) && !got_part)
{
errnum = ERR_NO_PART;
return 0;
}
if ((current_drive & 0x80)
&& BSD_LABEL_DTYPE (label_buf) == DTYPE_SCSI)
bsd_evil_hack = 4;
return 1;
}
errnum = ERR_BAD_PART_TABLE;
return 0;
}
/* This isn't static, because the GRUB utility's char_io.c (memcheck)
needs to know about it as a special case. */
#ifndef STAGE1_5
char cur_part_desc[16];
#endif
static int
real_open_partition (int flags)
{
char mbr_buf[SECTOR_SIZE];
int i, part_no, slice_no, ext = 0;
#ifndef STAGE1_5
if (! sane_partition ())
return 0;
#endif
/*
* The "rawread" is probably unnecessary here, but it is good to
* know it works.
*/
if (! rawread (current_drive, 0, 0, SECTOR_SIZE, mbr_buf))
return 0;
bsd_evil_hack = 0;
current_slice = 0;
part_start = 0;
part_length = buf_geom.total_sectors;
if (current_drive & 0x80)
{
/*
* We're looking at a hard disk
*/
int ext_offset = 0, part_offset = 0;
part_no = (current_partition >> 16);
slice_no = 0;
/* if this is the whole disk, return here */
if (!flags && current_partition == 0xFFFFFFuL)
return 1;
/*
* Load the current MBR-style PC partition table (4 entries)
*/
while (slice_no < 255 && ext >= 0
&& (part_no == 0xFF || slice_no <= part_no)
&& rawread (current_drive, part_offset,
0, SECTOR_SIZE, mbr_buf))
{
/*
* If the table isn't valid, we can't continue
*/
if (!PC_MBR_CHECK_SIG (mbr_buf))
{
errnum = ERR_BAD_PART_TABLE;
return 0;
}
ext = -1;
/*
* Scan table for partitions
*/
for (i = 0; i < PC_SLICE_MAX; i++)
{
current_partition = ((slice_no << 16)
| (current_partition & 0xFFFF));
current_slice = PC_SLICE_TYPE (mbr_buf, i);
part_start = part_offset + PC_SLICE_START (mbr_buf, i);
part_length = PC_SLICE_LENGTH (mbr_buf, i);
#ifndef STAGE1_5
memmove (cur_part_desc, mbr_buf + PC_SLICE_OFFSET + (i << 4), 16);
#endif
/*
* Is this PC partition entry valid?
*/
if (current_slice)
{
/*
* Is this an extended partition?
*/
if (current_slice == PC_SLICE_TYPE_EXTENDED
|| current_slice == PC_SLICE_TYPE_WIN95_EXTENDED)
{
if (ext == -1)
{
ext = i;
}
}
# ifndef STAGE1_5
/*
* Display partition information
*/
else if (flags)
{
current_partition |= 0xFFFF;
printf (" Partition num: %d, ", slice_no);
if (! IS_PC_SLICE_TYPE_BSD (current_slice))
check_and_print_mount ();
else
check_BSD_parts (1);
errnum = ERR_NONE;
}
# endif /* STAGE1_5 */
/*
* If we've found the right partition, we're done
*/
else if (part_no == slice_no
|| (part_no == 0xFF
&& IS_PC_SLICE_TYPE_BSD (current_slice)))
{
if ((current_partition & 0xFF00) != 0xFF00)
{
if (IS_PC_SLICE_TYPE_BSD (current_slice))
check_BSD_parts (0);
else
errnum = ERR_NO_PART;
}
ext = -2;
break;
}
}
/*
* If we're beyond the end of the standard PC partition
* range, change the numbering from one per table entry
* to one per valid entry.
*/
if (slice_no < PC_SLICE_MAX
|| (current_slice != PC_SLICE_TYPE_EXTENDED
&& current_slice != PC_SLICE_TYPE_EXTENDED
&& current_slice != PC_SLICE_TYPE_NONE))
slice_no++;
}
part_offset = ext_offset + PC_SLICE_START (mbr_buf, ext);
if (!ext_offset)
ext_offset = part_offset;
}
}
else
{
/*
* We're looking at a floppy disk
*/
ext = -1;
if ((flags || (current_partition & 0xFF00) != 0xFF00)
&& check_BSD_parts (flags))
ext = -2;
else
{
errnum = 0;
if (!flags)
{
if (current_partition == 0xFFFFFF
|| current_partition == 0xFF00FF)
{
current_partition = 0xFFFFFF;
ext = -2;
}
}
# ifndef STAGE1_5
else
{
current_partition = 0xFFFFFF;
check_and_print_mount ();
errnum = 0;
}
# endif /* STAGE1_5 */
}
}
if (!flags && (ext != -2) && (errnum == ERR_NONE))
errnum = ERR_NO_PART;
if (errnum != ERR_NONE)
return 0;
return 1;
}
int
open_partition (void)
{
return real_open_partition (0);
}
/* XX used for device completion in 'set_device' and 'print_completions' */
static int incomplete, disk_choice;
#ifndef STAGE1_5
static int unique;
static char unique_string[128]; /* XXX Don't know yet */
#endif
static enum
{
PART_UNSPECIFIED = 0,
PART_DISK,
PART_CHOSEN,
}
part_choice;
char *
set_device (char *device)
{
/* The use of retval in this function is not really clean, but it works */
char *retval = 0;
incomplete = 0;
disk_choice = 1;
part_choice = PART_UNSPECIFIED;
current_drive = saved_drive;
current_partition = 0xFFFFFF;
#ifndef STAGE1_5
if (*device == '(' && !*(device + 1))
/* user has given '(' only, let disk_choice handle what disks we have */
return device + 1;
#endif
if (*device == '(' && *(++device))
{
if (*device != ',' && *device != ')')
{
char ch = *device;
#ifndef STAGE1_5
if (*device == 'f' || *device == 'h')
{
/* user has given '([fh]', 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;
}
#endif
if ((*device == 'f' || *device == 'h')
&& (device += 2, (*(device - 1) != 'd')))
errnum = ERR_NUMBER_PARSING;
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;
retval++;
}
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 + 1) >= 'a' && *(device + 1) <= 'h')
{
device++;
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 ++;
}
retval++;
}
}
}
else
{
char ch;
/* A Mach-style absolute partition name. */
ch = *device;
if ((*device != 'f' && *device != 'h') ||
(device += 2, (*(device - 1) != 'd')))
errnum = ERR_DEV_FORMAT;
else
safe_parse_maxint (&device, (int *) &current_drive);
disk_choice = 0;
if (ch != 'f')
current_drive += 0x80;
if (errnum)
return 0;
if (*device == '/')
{
part_choice = PART_CHOSEN;
retval ++;
}
else if (*device == 's')
{
/* An absolute PC 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 >= 'a' && *device <= 'h')
{
/* A BSD partition within the slice. */
current_partition = (((*(device ++) - 'a') << 8)
| (current_partition & 0xFF00FF));
}
}
}
else if (*device >= 'a' && *device <= 'h')
{
/* An absolute BSD partition. */
part_choice ++;
current_partition = ((*(device ++) - 'a') << 8) | 0xFF00FF;
}
if (*device == '/')
{
if (part_choice == PART_DISK)
{
current_partition = saved_partition;
part_choice ++;
}
retval ++;
}
}
if (retval)
retval = device + 1;
else
{
if (!*device)
incomplete = 1;
errnum = ERR_DEV_FORMAT;
}
return retval;
}
/*
* 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;
/*
* Set chainloader boot device.
*/
memmove ((char *) (BOOTSEC_LOCATION - 16), cur_part_desc, 16);
/*
* 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) & 0x79),
((saved_partition >> 8) & 0xFF));
}
#endif /* STAGE1_5 */
static char *
setup_part (char *filename)
{
/* FIXME: decide on syntax for blocklist vs. old-style vs. /dev/hd0s1 */
/* Strip any leading /dev. */
if (substring ("/dev/", filename) < 1)
filename += 5;
if (*filename == '(')
{
if ((filename = set_device (filename)) == 0)
{
current_drive = 0xFF;
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 ();
}
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)
{
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);
}
#endif /* STAGE1_5 */
#ifndef STAGE1_5
/*
* print_a_completion saves what has been printed to unique_string
* printf's with a leading ' '.
*/
void
print_a_completion (char *filename)
{
char *f = filename;
char *u = unique_string;
if (! *u && unique == 0)
{
/* copy first string, this is unique. */
while ((*u++ = *f++))
;
}
else
{
while (*u && (*u == *f))
u++, f++;
/* mismatch, strip it. */
*u = '\0';
}
unique++;
printf (" %s", filename);
}
/*
* This lists the possible completions of a device string, filename, or
* any sane combination of the two.
*/
void
print_completions (char *filename)
{
char *ptr = filename;
*unique_string = '\0';
unique = 0;
if (*filename == '/' || (ptr = set_device (filename)) || incomplete)
{
errnum = 0;
if (*filename != '/' && (incomplete || !*ptr))
{
if (!part_choice)
{
/* disk completions */
int disk_no, i, j;
struct geometry geom;
printf (" Possible disks are: ");
for (i = (ptr && (*(ptr-2) == 'h' && *(ptr-1) == 'd') ? 1 : 0);
i < (ptr && (*(ptr-2) == 'f' && *(ptr-1) == 'd') ? 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[4];
dev_name[0] = (i ? 'h' : 'f');
dev_name[1] = 'd';
dev_name[2] = '0' + j;
dev_name[3] = '\0';
print_a_completion (dev_name);
}
}
}
ptr = filename;
while (*ptr != '(')
ptr--;
ptr++;
{
char *u = unique_string;
while ((*ptr++ = *u++))
;
ptr--;
}
ptr--;
if ((*(ptr - 2) == 'h') && (*(ptr - 1) == 'd')
&& ('0' <= *ptr && *ptr <= '8'))
*(ptr + 1) = ',', *(ptr + 2) = '\0';
if ((*(ptr - 2) == 'f') && (*(ptr - 1) == 'd')
&& ('0' <= *ptr && *ptr <= '8'))
*(ptr + 1) = ')', *(ptr + 2) = '\0';
putchar ('\n');
}
else
{
/* partition completions */
if (part_choice == PART_DISK)
{
printf (" Possible partitions are:\n");
real_open_partition (1);
}
else
{
if (open_partition ())
{
check_and_print_mount ();
/* FIXME: Can talk about linux only, do we need
to know about syntax here? */
ptr = filename;
while (*ptr)
ptr++;
if (*(ptr - 1) != ')')
*ptr++ = ')';
*ptr++ = '/';
*ptr = '\0';
}
}
}
}
else if (*ptr == '/')
{
/* filename completions */
printf (" Possible files are:");
dir (filename);
{
char *u = unique_string;
if (*u)
{
while (*ptr++)
;
while (*ptr != '/')
ptr--;
ptr++;
while ((*ptr++ = *u++))
;
}
}
}
else
errnum = ERR_BAD_FILENAME;
}
print_error ();
}
#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;
#ifndef STAGE1_5
debug_fs_func = debug_fs;
#endif /* STAGE1_5 */
/* read current block and put it in the right place in memory */
devread (BLK_BLKSTART (BLK_CUR_BLKLIST) + BLK_CUR_BLKNUM,
off, size, buf);
#ifndef STAGE1_5
debug_fs_func = NULL;
#endif /* STAGE1_5 */
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
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 */