2 * This file has been modified for the cdrkit suite.
4 * The behaviour and appearence of the program code below can differ to a major
5 * extent from the version distributed by the original author(s).
7 * For details, see Changelog file distributed with the cdrkit package. If you
8 * received this file from another source then ask the distributing person for
9 * a log of modifications.
14 * Program boot-mips.c - Handle big-endian boot extensions to iso9660.
16 * Written by Steve McIntyre <steve@einval.com> June 2004
18 * Heavily inspired by / borrowed from genisovh:
20 * Copyright: (C) 2002 by Florian Lohoff <flo@rfc822.org>
21 * (C) 2004 by Thiemo Seufer <seufer@csv.ica.uni-stuttgart.de>
23 * This program is free software; you can redistribute it and/or modify it under
24 * the terms of the GNU General Public License, Version 2, as published by the
25 * Free Software Foundation.
27 * Format for volume header information
29 * The volume header is a block located at the beginning of all disk
30 * media (sector 0). It contains information pertaining to physical
31 * device parameters and logical partition information.
33 * The volume header is manipulated by disk formatters/verifiers,
34 * partition builders (e.g. fx, dvhtool, and mkfs), and disk drivers.
36 * Previous versions of IRIX wrote a copy of the volume header is
37 * located at sector 0 of each track of cylinder 0. These copies were
38 * never used, and reduced the capacity of the volume header to hold large
39 * files, so this practice was discontinued.
40 * The volume header is constrained to be less than or equal to 512
41 * bytes long. A particular copy is assumed valid if no drive errors
42 * are detected, the magic number is correct, and the 32 bit 2's complement
43 * of the volume header is correct. The checksum is calculated by initially
44 * zeroing vh_csum, summing the entire structure and then storing the
45 * 2's complement of the sum. Thus a checksum to verify the volume header
48 * The error summary table, bad sector replacement table, and boot blocks are
49 * located by searching the volume directory within the volume header.
51 * Tables are sized simply by the integral number of table records that
52 * will fit in the space indicated by the directory entry.
54 * The amount of space allocated to the volume header, replacement blocks,
55 * and other tables is user defined when the device is formatted.
60 #define MIN(a,b) ( (a<b) ? a : b )
64 * device parameters are in the volume header to determine mapping
65 * from logical block numbers to physical device addresses
67 * Linux doesn't care ...
69 struct device_parameters {
70 uint8_t dp_skew; /* spiral addressing skew */
71 uint8_t dp_gap1; /* words of 0 before header */
72 uint8_t dp_gap2; /* words of 0 between hdr and data */
73 uint8_t dp_spares_cyl; /* This is for drives (such as SCSI
74 that support zone oriented sparing, where the zone is larger
75 than one track. It gets subracteded from the cylinder size
76 ( dp_trks0 * dp_sec) when doing partition size calculations */
77 uint16_t dp_cyls; /* number of usable cylinders (i.e.,
78 doesn't include cylinders reserved by the drive for badblocks,
79 etc.). For drives with variable geometry, this number may be
81 dp_cyls * ((dp_heads * dp_trks0) - dp_spares_cyl) <= actualcapacity
82 This happens on SCSI drives such as the Wren IV and Toshiba 156
83 Also see dp_cylshi below */
84 uint16_t dp_shd0; /* starting head vol 0 */
85 uint16_t dp_trks0; /* number of tracks / cylinder vol 0*/
86 uint8_t dp_ctq_depth; /* Depth of CTQ queue */
87 uint8_t dp_cylshi; /* high byte of 24 bits of cylinder count */
88 uint16_t dp_unused; /* not used */
89 uint16_t dp_secs; /* number of sectors/track */
90 uint16_t dp_secbytes; /* length of sector in bytes */
91 uint16_t dp_interleave; /* sector interleave */
92 int32_t dp_flags; /* controller characteristics */
93 int32_t dp_datarate; /* bytes/sec for kernel stats */
94 int32_t dp_nretries; /* max num retries on data error */
95 int32_t dp_mspw; /* ms per word to xfer, for iostat */
96 uint16_t dp_xgap1; /* Gap 1 for xylogics controllers */
97 uint16_t dp_xsync; /* sync delay for xylogics controllers */
98 uint16_t dp_xrdly; /* read delay for xylogics controllers */
99 uint16_t dp_xgap2; /* gap 2 for xylogics controllers */
100 uint16_t dp_xrgate; /* read gate for xylogics controllers */
101 uint16_t dp_xwcont; /* write continuation for xylogics */
105 * Device characterization flags
108 #define DP_SECTSLIP 0x00000001 /* sector slip to spare sector */
109 #define DP_SECTFWD 0x00000002 /* forward to replacement sector */
110 #define DP_TRKFWD 0x00000004 /* forward to replacement track */
111 #define DP_MULTIVOL 0x00000008 /* multiple volumes per spindle */
112 #define DP_IGNOREERRORS 0x00000010 /* transfer data regardless of errors */
113 #define DP_RESEEK 0x00000020 /* recalibrate as last resort */
114 #define DP_CTQ_EN 0x00000040 /* enable command tag queueing */
117 * Boot blocks, bad sector tables, and the error summary table, are located
118 * via the volume_directory.
122 struct volume_directory {
123 int8_t vd_name[VDNAMESIZE]; /* name */
124 int32_t vd_lbn; /* logical block number */
125 int32_t vd_nbytes; /* file length in bytes */
129 * partition table describes logical device partitions
130 * (device drivers examine this to determine mapping from logical units
131 * to cylinder groups, device formatters/verifiers examine this to determine
132 * location of replacement tracks/sectors, etc)
134 * NOTE: pt_firstlbn SHOULD BE CYLINDER ALIGNED
136 struct partition_table { /* one per logical partition */
137 int32_t pt_nblks; /* # of logical blks in partition */
138 int32_t pt_firstlbn; /* first lbn of partition */
139 int32_t pt_type; /* use of partition */
142 #define PTYPE_VOLHDR 0 /* partition is volume header */
143 #define PTYPE_TRKREPL 1 /* partition is used for repl trks */
144 #define PTYPE_SECREPL 2 /* partition is used for repl secs */
145 #define PTYPE_RAW 3 /* partition is used for data */
146 #define PTYPE_BSD42 4 /* partition is 4.2BSD file system */
147 #define PTYPE_BSD 4 /* partition is 4.2BSD file system */
148 #define PTYPE_SYSV 5 /* partition is SysV file system */
149 #define PTYPE_VOLUME 6 /* partition is entire volume */
150 #define PTYPE_EFS 7 /* partition is sgi EFS */
151 #define PTYPE_LVOL 8 /* partition is part of a logical vol */
152 #define PTYPE_RLVOL 9 /* part of a "raw" logical vol */
153 #define PTYPE_XFS 10 /* partition is sgi XFS */
154 #define PTYPE_XFSLOG 11 /* partition is sgi XFS log */
155 #define PTYPE_XLV 12 /* partition is part of an XLV vol */
156 #define PTYPE_XVM 13 /* partition is sgi XVM */
157 #define PTYPE_LSWAP 0x82 /* partition is Linux swap */
158 #define PTYPE_LINUX 0x83 /* partition is Linux native */
161 #define VHMAGIC 0xbe5a941 /* randomly chosen value */
162 #define NPARTAB 16 /* 16 unix partitions */
163 #define NVDIR 15 /* max of 15 directory entries */
164 #define BFNAMESIZE 16 /* max 16 chars in boot file name */
166 /* Partition types for ARCS */
167 #define NOT_USED 0 /* Not used */
168 #define FAT_SHORT 1 /* FAT filesystem, 12-bit FAT entries */
169 #define FAT_LONG 4 /* FAT filesystem, 16-bit FAT entries */
170 #define EXTENDED 5 /* extended partition */
171 #define HUGE 6 /* huge partition- MS/DOS 4.0 and later */
173 /* Active flags for ARCS */
174 #define BOOTABLE 0x00;
175 #define NOT_BOOTABLE 0x80;
177 struct volume_header {
178 int32_t vh_magic; /* identifies volume header */
179 int16_t vh_rootpt; /* root partition number */
180 int16_t vh_swappt; /* swap partition number */
181 int8_t vh_bootfile[BFNAMESIZE]; /* name of file to boot */
182 struct device_parameters vh_dp; /* device parameters */
183 struct volume_directory vh_vd[NVDIR]; /* other vol hdr contents */
184 struct partition_table vh_pt[NPARTAB]; /* device partition layout */
185 int32_t vh_csum; /* volume header checksum */
186 int32_t vh_fill; /* fill out to 512 bytes */
187 char pad[1536]; /* pad out to 2048 */
191 #include "genisoimage.h"
192 #include <fctldefs.h>
197 #include "bootinfo.h"
199 #include "endianconv.h"
201 int add_boot_mips_filename(char *filename);
203 static int boot_mips_write(FILE *outfile);
206 static char *boot_mips_filename[MAX_NAMES] =
215 static int boot_mips_num_files = 0;
217 #define SECTORS_PER_TRACK 32
218 #define BYTES_PER_SECTOR 512
220 int add_boot_mips_filename(char *filename)
222 if (boot_mips_num_files < MAX_NAMES)
224 boot_mips_filename[boot_mips_num_files] = filename;
225 boot_mips_num_files++;
231 comerrno(EX_BAD, "Too many MIPS boot files!\n");
233 fprintf(stderr, "Too many MIPS boot files!\n");
240 static void vh_calc_checksum(struct volume_header *vh)
243 unsigned char *buffer = (unsigned char *)vh;
248 for(i = 0; i < sizeof(struct volume_header); i += 4)
249 newsum -= read_be32(&buffer[i]);
251 write_be32(newsum, (unsigned char *)&vh->vh_csum);
254 static char *file_base_name(char *path)
269 static int boot_mips_write(FILE *outfile)
271 struct directory_entry *boot_file; /* Boot file we need to search for */
272 unsigned long length = 0;
273 unsigned long extent = 0;
275 struct volume_header vh;
276 unsigned long long iso_size = 0;
277 char *filename = NULL;
279 memset(&vh, 0, sizeof(vh));
281 iso_size = last_extent * 2048;
283 write_be32(VHMAGIC, (unsigned char *)&vh.vh_magic);
285 /* Values from an IRIX cd */
286 write_be16(BYTES_PER_SECTOR, (unsigned char *)&vh.vh_dp.dp_secbytes);
287 write_be16(SECTORS_PER_TRACK, (unsigned char *)&vh.vh_dp.dp_secs);
288 write_be32(DP_RESEEK|DP_IGNOREERRORS|DP_TRKFWD, (unsigned char *)&vh.vh_dp.dp_flags);
289 write_be16(1, (unsigned char *)&vh.vh_dp.dp_trks0);
291 write_be16((iso_size + BYTES_PER_SECTOR - 1) / (SECTORS_PER_TRACK * BYTES_PER_SECTOR),
292 (unsigned char *)&vh.vh_dp.dp_cyls);
294 for(i = 0; i < boot_mips_num_files; i++)
296 boot_file = search_tree_file(root, boot_mips_filename[i]);
300 comerrno(EX_BAD, "Uh oh, I cant find the MIPS boot file '%s'!\n",
301 boot_mips_filename[i]);
303 fprintf(stderr, "Uh oh, I cant find the MIPS boot file '%s'!\n",
304 boot_mips_filename[i]);
309 extent = get_733(boot_file->isorec.extent) * 4;
310 length = ((get_733(boot_file->isorec.size) + 2047) / 2048) * 2048;
311 filename = file_base_name(boot_mips_filename[i]);
313 strncpy((char *)vh.vh_vd[i].vd_name, filename, MIN(VDNAMESIZE, strlen(filename)));
314 write_be32(extent, (unsigned char *)&vh.vh_vd[i].vd_lbn);
315 write_be32(length, (unsigned char *)&vh.vh_vd[i].vd_nbytes);
317 fprintf(stderr, "Found mips boot image %s, using extent %lu (0x%lX), #blocks %lu (0x%lX)\n",
318 filename, extent, extent, length, length);
321 /* Create volume partition on whole cd iso */
322 write_be32((iso_size + (BYTES_PER_SECTOR - 1))/ BYTES_PER_SECTOR, (unsigned char *)&vh.vh_pt[10].pt_nblks);
323 write_be32(0, (unsigned char *)&vh.vh_pt[10].pt_firstlbn);
324 write_be32(PTYPE_VOLUME, (unsigned char *)&vh.vh_pt[10].pt_type);
326 /* Create volume header partition, also on WHOLE cd iso */
327 write_be32((iso_size + (BYTES_PER_SECTOR - 1))/ BYTES_PER_SECTOR, (unsigned char *)&vh.vh_pt[8].pt_nblks);
328 write_be32(0, (unsigned char *)&vh.vh_pt[8].pt_firstlbn);
329 write_be32(PTYPE_VOLHDR, (unsigned char *)&vh.vh_pt[8].pt_type);
331 /* Create checksum */
332 vh_calc_checksum(&vh);
334 jtwrite(&vh, sizeof(vh), 1, 0, FALSE);
335 xfwrite(&vh, sizeof(vh), 1, outfile, 0, FALSE);
336 last_extent_written++;
341 struct output_fragment mipsboot_desc = {NULL, oneblock_size, NULL, boot_mips_write, "MIPS boot block"};