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src.rivoreo.one / grub4dos-solaris / d0f94a1f1c543b720ae36e6be44ff8c55c509596 / . / stage2 / common.c
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/* common.c - miscellaneous shared variables and routines */
/*
* 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"
/*
* Shared BIOS/boot data.
*/
struct multiboot_info mbi;
unsigned long saved_drive;
unsigned long saved_partition;
#ifndef STAGE1_5
unsigned long saved_mem_upper;
#endif
/*
* Error code stuff.
*/
grub_error_t errnum = ERR_NONE;
#ifndef STAGE1_5
char *err_list[] =
{
[ERR_NONE] = 0,
[ERR_BAD_FILENAME] =
"Bad filename (must be absolute pathname or blocklist)",
[ERR_BAD_FILETYPE] = "Bad file or directory type",
[ERR_BAD_GZIP_DATA] = "Bad or corrupt data while decompressing file",
[ERR_BAD_GZIP_HEADER] = "Bad or incompatible header on compressed file",
[ERR_BAD_PART_TABLE] = "Partition table invalid or corrupt",
[ERR_BAD_VERSION] = "Bad or corrupt version of stage1/stage2",
[ERR_BELOW_1MB] = "Loading below 1MB is not supported",
[ERR_BOOT_COMMAND] = "Cannot boot without kernel loaded",
[ERR_BOOT_FAILURE] = "Unknown boot failure",
[ERR_BOOT_FEATURES] = "Unsupported Multiboot features requested",
[ERR_DEV_FORMAT] = "Device string unrecognizable",
[ERR_DEV_VALUES] = "Invalid device requested",
[ERR_EXEC_FORMAT] = "Invalid or unsupported executable format",
[ERR_FILELENGTH] =
"Filesystem compatibility error, cannot read whole file",
[ERR_FILE_NOT_FOUND] = "File not found",
[ERR_FSYS_CORRUPT] = "Inconsistent filesystem structure",
[ERR_FSYS_MOUNT] = "Cannot mount selected partition",
[ERR_GEOM] = "Selected cylinder exceeds maximum supported by BIOS",
[ERR_NEED_LX_KERNEL] = "Must load Linux kernel before initrd",
[ERR_NEED_MB_KERNEL] = "Must load Multiboot kernel before modules",
[ERR_NO_DISK] = "Selected disk does not exist",
[ERR_NO_PART] = "No such partition",
[ERR_NUMBER_PARSING] = "Error while parsing number",
[ERR_OUTSIDE_PART] = "Attempt to access block outside partition",
[ERR_READ] = "Disk read error",
[ERR_SYMLINK_LOOP] = "Too many symbolic links",
[ERR_UNRECOGNIZED] = "Unrecognized command",
[ERR_WONT_FIT] = "Selected item cannot fit into memory",
[ERR_WRITE] = "Disk write error",
[ERR_BAD_ARGUMENT] = "Invaild argument specified",
};
/* static for BIOS memory map fakery */
static struct AddrRangeDesc fakemap[3] =
{
{20, 0, 0, 0, 0, MB_ARD_MEMORY},
{20, 0x100000, 0, 0, 0, MB_ARD_MEMORY},
{20, 0x1000000, 0, 0, 0, MB_ARD_MEMORY}
};
#endif /* STAGE1_5 */
/*
* This queries for BIOS information.
*/
void
init_bios_info (void)
{
#ifndef STAGE1_5
int cont, memtmp, addr;
#endif
/*
* Get information from BIOS on installed RAM.
*/
mbi.mem_lower = get_memsize (0);
mbi.mem_upper = get_memsize (1);
#ifndef STAGE1_5
/*
* We need to call this somewhere before trying to put data
* above 1 MB, since without calling it, address line 20 will be wired
* to 0. Not too desirable.
*/
gateA20 (1);
/*
* The "mbi.mem_upper" variable only recognizes upper memory in the
* first memory region. If there are multiple memory regions,
* the rest are reported to a Multiboot-compliant OS, but otherwise
* unused by GRUB.
*/
addr = get_code_end ();
mbi.mmap_addr = addr;
mbi.mmap_length = 0;
cont = 0;
do
{
cont = get_mmap_entry ((void *) addr, cont);
/* If the returned buffer's base is zero, quit. */
if (!*((int *) addr))
break;
mbi.mmap_length += *((int *) addr) + 4;
addr += *((int *) addr) + 4;
}
while (cont);
if (mbi.mmap_length)
{
/*
* This is to get the upper memory up to the first memory
* hole into the "mbi.mem_upper" element, for OS's that
* don't care about the memory map, but might care about
* RAM above 64MB.
*
* A big problem is that the memory areas aren't guaranteed
* to be: (1) contiguous, (2) sorted in ascending order, or
* (3) non-overlapping.
*/
memtmp = 0x100000;
do
{
for (cont = 0, addr = mbi.mmap_addr;
addr < mbi.mmap_addr + mbi.mmap_length;
addr += *((int *) addr) + 4)
{
if (((struct AddrRangeDesc *) addr)->BaseAddrHigh == 0
&& ((struct AddrRangeDesc *) addr)->Type == MB_ARD_MEMORY
&& ((struct AddrRangeDesc *) addr)->BaseAddrLow <= memtmp
&& (((struct AddrRangeDesc *) addr)->BaseAddrLow
+ ((struct AddrRangeDesc *) addr)->LengthLow) > memtmp)
{
memtmp = (((struct AddrRangeDesc *) addr)->BaseAddrLow
+ ((struct AddrRangeDesc *) addr)->LengthLow);
cont++;
}
}
}
while (cont);
mbi.mem_upper = (memtmp - 0x100000) >> 10;
}
else if ((memtmp = get_eisamemsize ()) != -1)
{
cont = memtmp & ~0xFFFF;
memtmp = memtmp & 0xFFFF;
if (!cont || (memtmp == 0x3c00))
memtmp += (cont >> 10);
else
{
/* XXX should I do this at all ??? */
mbi.mmap_addr = (int) fakemap;
mbi.mmap_length = sizeof (fakemap);
fakemap[0].LengthLow = (mbi.mem_lower << 10);
fakemap[1].LengthLow = (memtmp << 10);
fakemap[2].LengthLow = cont;
}
mbi.mem_upper = memtmp;
}
#ifndef STAGE1_5
saved_mem_upper = mbi.mem_upper;
#endif
/*
* Initialize other Multiboot Info flags.
*/
mbi.flags = MB_INFO_MEMORY | MB_INFO_CMDLINE | MB_INFO_BOOTDEV;
#endif /* STAGE1_5 */
/*
* Set boot drive and partition.
*/
saved_drive = boot_drive;
saved_partition = install_partition;
/*
* Start main routine here.
*/
cmain ();
}