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1 /* common.c - miscellaneous shared variables and routines */
2 /*
3  *  GRUB  --  GRand Unified Bootloader
4  *  Copyright (C) 1999,2000,2001,2002,2004  Free Software Foundation, Inc.
5  *
6  *  This program is free software; you can redistribute it and/or modify
7  *  it under the terms of the GNU General Public License as published by
8  *  the Free Software Foundation; either version 2 of the License, or
9  *  (at your option) any later version.
10  *
11  *  This program is distributed in the hope that it will be useful,
12  *  but WITHOUT ANY WARRANTY; without even the implied warranty of
13  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
14  *  GNU General Public License for more details.
15  *
16  *  You should have received a copy of the GNU General Public License
17  *  along with this program; if not, write to the Free Software
18  *  Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
19  */
20 
21 #include <shared.h>
22 
23 #ifdef SUPPORT_DISKLESS
24 # define GRUB	1
25 # include <etherboot.h>
26 #endif
27 
28 /*
29  *  Shared BIOS/boot data.
30  */
31 
32 struct multiboot_info mbi;
33 unsigned long saved_drive;
34 unsigned long saved_partition;
35 unsigned long cdrom_drive;
36 #ifndef STAGE1_5
37 unsigned long saved_mem_upper;
38 
39 /* This saves the maximum size of extended memory (in KB).  */
40 unsigned long extended_memory;
41 #endif
42 
43 /*
44  *  Error code stuff.
45  */
46 
47 grub_error_t errnum = ERR_NONE;
48 
49 #ifndef STAGE1_5
50 
51 char *err_list[] =
52 {
53   [ERR_NONE] = 0,
54   [ERR_BAD_ARGUMENT] = "Invalid argument",
55   [ERR_BAD_FILENAME] =
56   "Filename must be either an absolute pathname or blocklist",
57   [ERR_BAD_FILETYPE] = "Bad file or directory type",
58   [ERR_BAD_GZIP_DATA] = "Bad or corrupt data while decompressing file",
59   [ERR_BAD_GZIP_HEADER] = "Bad or incompatible header in compressed file",
60   [ERR_BAD_PART_TABLE] = "Partition table invalid or corrupt",
61   [ERR_BAD_VERSION] = "Mismatched or corrupt version of stage1/stage2",
62   [ERR_BELOW_1MB] = "Loading below 1MB is not supported",
63   [ERR_BOOT_COMMAND] = "Kernel must be loaded before booting",
64   [ERR_BOOT_FAILURE] = "Unknown boot failure",
65   [ERR_BOOT_FEATURES] = "Unsupported Multiboot features requested",
66   [ERR_DEV_FORMAT] = "Unrecognized device string",
67   [ERR_DEV_NEED_INIT] = "Device not initialized yet",
68   [ERR_DEV_VALUES] = "Invalid device requested",
69   [ERR_EXEC_FORMAT] = "Invalid or unsupported executable format",
70   [ERR_FILELENGTH] =
71   "Filesystem compatibility error, cannot read whole file",
72   [ERR_FILE_NOT_FOUND] = "File not found",
73   [ERR_FSYS_CORRUPT] = "Inconsistent filesystem structure",
74   [ERR_FSYS_MOUNT] = "Cannot mount selected partition",
75   [ERR_GEOM] = "Selected cylinder exceeds maximum supported by BIOS",
76   [ERR_NEED_LX_KERNEL] = "Linux kernel must be loaded before initrd",
77   [ERR_NEED_MB_KERNEL] = "Multiboot kernel must be loaded before modules",
78   [ERR_NO_DISK] = "Selected disk does not exist",
79   [ERR_NO_DISK_SPACE] = "No spare sectors on the disk",
80   [ERR_NO_PART] = "No such partition",
81   [ERR_NUMBER_OVERFLOW] = "Overflow while parsing number",
82   [ERR_NUMBER_PARSING] = "Error while parsing number",
83   [ERR_OUTSIDE_PART] = "Attempt to access block outside partition",
84   [ERR_PRIVILEGED] = "Must be authenticated",
85   [ERR_READ] = "Disk read error",
86   [ERR_SYMLINK_LOOP] = "Too many symbolic links",
87   [ERR_UNALIGNED] = "File is not sector aligned",
88   [ERR_UNRECOGNIZED] = "Unrecognized command",
89   [ERR_WONT_FIT] = "Selected item cannot fit into memory",
90   [ERR_WRITE] = "Disk write error",
91 };
92 
93 
94 /* static for BIOS memory map fakery */
95 static struct AddrRangeDesc fakemap[3] =
96 {
97   {20, 0, 0, MB_ARD_MEMORY},
98   {20, 0x100000, 0, MB_ARD_MEMORY},
99   {20, 0x1000000, 0, MB_ARD_MEMORY}
100 };
101 
102 /* A big problem is that the memory areas aren't guaranteed to be:
103    (1) contiguous, (2) sorted in ascending order, or (3) non-overlapping.
104    Thus this kludge.  */
105 static unsigned long
mmap_avail_at(unsigned long bottom)106 mmap_avail_at (unsigned long bottom)
107 {
108   unsigned long long top;
109   unsigned long addr;
110   int cont;
111 
112   top = bottom;
113   do
114     {
115       for (cont = 0, addr = mbi.mmap_addr;
116 	   addr < mbi.mmap_addr + mbi.mmap_length;
117 	   addr += *((unsigned long *) addr) + 4)
118 	{
119 	  struct AddrRangeDesc *desc = (struct AddrRangeDesc *) addr;
120 
121 	  if (desc->Type == MB_ARD_MEMORY
122 	      && desc->BaseAddr <= top
123 	      && desc->BaseAddr + desc->Length > top)
124 	    {
125 	      top = desc->BaseAddr + desc->Length;
126 	      cont++;
127 	    }
128 	}
129     }
130   while (cont);
131 
132   /* For now, GRUB assumes 32bits addresses, so...  */
133   if (top > 0xFFFFFFFF)
134     top = 0xFFFFFFFF;
135 
136   return (unsigned long) top - bottom;
137 }
138 #endif /* ! STAGE1_5 */
139 
140 /* This queries for BIOS information.  */
141 void
init_bios_info(void)142 init_bios_info (void)
143 {
144 #ifndef STAGE1_5
145   unsigned long cont, memtmp, addr;
146   int drive;
147 #endif
148 
149   /*
150    *  Get information from BIOS on installed RAM.
151    */
152 
153   mbi.mem_lower = get_memsize (0);
154   mbi.mem_upper = get_memsize (1);
155 
156 #ifndef STAGE1_5
157   /*
158    *  We need to call this somewhere before trying to put data
159    *  above 1 MB, since without calling it, address line 20 will be wired
160    *  to 0.  Not too desirable.
161    */
162 
163   gateA20 (1);
164 
165   /* Store the size of extended memory in EXTENDED_MEMORY, in order to
166      tell it to non-Multiboot OSes.  */
167   extended_memory = mbi.mem_upper;
168 
169   /*
170    *  The "mbi.mem_upper" variable only recognizes upper memory in the
171    *  first memory region.  If there are multiple memory regions,
172    *  the rest are reported to a Multiboot-compliant OS, but otherwise
173    *  unused by GRUB.
174    */
175 
176   addr = get_code_end ();
177   mbi.mmap_addr = addr;
178   mbi.mmap_length = 0;
179   cont = 0;
180 
181   do
182     {
183       cont = get_mmap_entry ((void *) addr, cont);
184 
185       /* If the returned buffer's length is zero, quit. */
186       if (! *((unsigned long *) addr))
187 	break;
188 
189       mbi.mmap_length += *((unsigned long *) addr) + 4;
190       addr += *((unsigned long *) addr) + 4;
191     }
192   while (cont);
193 
194   if (mbi.mmap_length)
195     {
196       unsigned long long max_addr;
197 
198       /*
199        *  This is to get the lower memory, and upper memory (up to the
200        *  first memory hole), into the "mbi.mem_{lower,upper}"
201        *  elements.  This is for OS's that don't care about the memory
202        *  map, but might care about total RAM available.
203        */
204       mbi.mem_lower = mmap_avail_at (0) >> 10;
205       mbi.mem_upper = mmap_avail_at (0x100000) >> 10;
206 
207       /* Find the maximum available address. Ignore any memory holes.  */
208       for (max_addr = 0, addr = mbi.mmap_addr;
209 	   addr < mbi.mmap_addr + mbi.mmap_length;
210 	   addr += *((unsigned long *) addr) + 4)
211 	{
212 	  struct AddrRangeDesc *desc = (struct AddrRangeDesc *) addr;
213 
214 	  if (desc->Type == MB_ARD_MEMORY && desc->Length > 0
215 	      && desc->BaseAddr + desc->Length > max_addr)
216 	    max_addr = desc->BaseAddr + desc->Length;
217 	}
218 
219       extended_memory = (max_addr - 0x100000) >> 10;
220     }
221   else if ((memtmp = get_eisamemsize ()) != -1)
222     {
223       cont = memtmp & ~0xFFFF;
224       memtmp = memtmp & 0xFFFF;
225 
226       if (cont != 0)
227 	extended_memory = (cont >> 10) + 0x3c00;
228       else
229 	extended_memory = memtmp;
230 
231       if (!cont || (memtmp == 0x3c00))
232 	memtmp += (cont >> 10);
233       else
234 	{
235 	  /* XXX should I do this at all ??? */
236 
237 	  mbi.mmap_addr = (unsigned long) fakemap;
238 	  mbi.mmap_length = sizeof (fakemap);
239 	  fakemap[0].Length = (mbi.mem_lower << 10);
240 	  fakemap[1].Length = (memtmp << 10);
241 	  fakemap[2].Length = cont;
242 	}
243 
244       mbi.mem_upper = memtmp;
245     }
246 
247   saved_mem_upper = mbi.mem_upper;
248 
249   /* Get the drive info.  */
250   /* FIXME: This should be postponed until a Multiboot kernel actually
251      requires it, because this could slow down the start-up
252      unreasonably.  */
253   mbi.drives_length = 0;
254   mbi.drives_addr = addr;
255 
256   /* For now, GRUB doesn't probe floppies, since it is trivial to map
257      floppy drives to BIOS drives.  */
258   for (drive = 0x80; drive < 0x88; drive++)
259     {
260       struct geometry geom;
261       struct drive_info *info = (struct drive_info *) addr;
262       unsigned short *port;
263 
264       /* Get the geometry. This ensures that the drive is present.  */
265       if (get_diskinfo (drive, &geom))
266 	break;
267 
268       /* Clean out the I/O map.  */
269       grub_memset ((char *) io_map, 0,
270 		   IO_MAP_SIZE * sizeof (unsigned short));
271 
272       /* Disable to probe I/O ports temporarily, because this doesn't
273 	 work with some BIOSes (maybe they are too buggy).  */
274 #if 0
275       /* Track the int13 handler.  */
276       track_int13 (drive);
277 #endif
278 
279       /* Set the information.  */
280       info->drive_number = drive;
281       info->drive_mode = ((geom.flags & BIOSDISK_FLAG_LBA_EXTENSION)
282 			  ? MB_DI_LBA_MODE : MB_DI_CHS_MODE);
283       info->drive_cylinders = geom.cylinders;
284       info->drive_heads = geom.heads;
285       info->drive_sectors = geom.sectors;
286 
287       addr += sizeof (struct drive_info);
288       for (port = io_map; *port; port++, addr += sizeof (unsigned short))
289 	*((unsigned short *) addr) = *port;
290 
291       info->size = addr - (unsigned long) info;
292       mbi.drives_length += info->size;
293     }
294 
295   /* Get the ROM configuration table by INT 15, AH=C0h.  */
296   mbi.config_table = get_rom_config_table ();
297 
298   /* Set the boot loader name.  */
299   mbi.boot_loader_name = (unsigned long) "GNU GRUB " VERSION;
300 
301   /* Get the APM BIOS table.  */
302   get_apm_info ();
303   if (apm_bios_info.version)
304     mbi.apm_table = (unsigned long) &apm_bios_info;
305 
306   /*
307    *  Initialize other Multiboot Info flags.
308    */
309 
310   mbi.flags = (MB_INFO_MEMORY | MB_INFO_CMDLINE | MB_INFO_BOOTDEV
311 	       | MB_INFO_DRIVE_INFO | MB_INFO_CONFIG_TABLE
312 	       | MB_INFO_BOOT_LOADER_NAME);
313 
314   if (apm_bios_info.version)
315     mbi.flags |= MB_INFO_APM_TABLE;
316 
317 #endif /* STAGE1_5 */
318 
319   /* Set boot drive and partition.  */
320   saved_drive = boot_drive;
321   saved_partition = install_partition;
322 
323   /* Set cdrom drive.  */
324   {
325     struct geometry geom;
326 
327     /* Get the geometry.  */
328     if (get_diskinfo (boot_drive, &geom)
329 	|| ! (geom.flags & BIOSDISK_FLAG_CDROM))
330       cdrom_drive = GRUB_INVALID_DRIVE;
331     else
332       cdrom_drive = boot_drive;
333   }
334 
335   /* Start main routine here.  */
336   cmain ();
337 }
338