stand/mkboot/mkboot.c

1.1  skrll /*	$NetBSD: mkboot.c,v 1.1 2014/02/24 07:23:43 skrll Exp $	*/
1.1  skrll
1.1  skrll /*	$OpenBSD: mkboot.c,v 1.9 2001/05/17 00:57:55 pvalchev Exp $	*/
1.1  skrll
1.1  skrll /*
1.1  skrll  * Copyright (c) 1990, 1993
1.1  skrll  *	The Regents of the University of California.  All rights reserved.
1.1  skrll  *
1.1  skrll  * Redistribution and use in source and binary forms, with or without
1.1  skrll  * modification, are permitted provided that the following conditions
1.1  skrll  * are met:
1.1  skrll  * 1. Redistributions of source code must retain the above copyright
1.1  skrll  *    notice, this list of conditions and the following disclaimer.
1.1  skrll  * 2. Redistributions in binary form must reproduce the above copyright
1.1  skrll  *    notice, this list of conditions and the following disclaimer in the
1.1  skrll  *    documentation and/or other materials provided with the distribution.
1.1  skrll  * 3. Neither the name of the University nor the names of its contributors
1.1  skrll  *    may be used to endorse or promote products derived from this software
1.1  skrll  *    without specific prior written permission.
1.1  skrll  *
1.1  skrll  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.1  skrll  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1  skrll  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1  skrll  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.1  skrll  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  skrll  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1  skrll  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  skrll  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  skrll  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  skrll  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  skrll  * SUCH DAMAGE.
1.1  skrll  *
1.1  skrll  *	@(#)mkboot.c	8.1 (Berkeley) 7/15/93
1.1  skrll  */
1.1  skrll
1.1  skrll #if 0
1.1  skrll #ifndef lint
1.1  skrll static char copyright[] =
1.1  skrll "@(#) Copyright (c) 1990, 1993\n\
1.1  skrll 	The Regents of the University of California.  All rights reserved.\n";
1.1  skrll #endif /* not lint */
1.1  skrll
1.1  skrll #ifndef lint
1.1  skrll static char rcsid[] = "$OpenBSD: mkboot.c,v 1.9 2001/05/17 00:57:55 pvalchev Exp $";
1.1  skrll #endif /* not lint */
1.1  skrll #endif
1.1  skrll
1.1  skrll #if HAVE_NBTOOL_CONFIG_H
1.1  skrll #include "nbtool_config.h"
1.1  skrll #include "../../sys/sys/bootblock.h"
1.1  skrll #else
1.1  skrll #include <sys/bootblock.h>
1.1  skrll #endif
1.1  skrll
1.1  skrll #include <sys/param.h>
1.1  skrll #include <sys/file.h>
1.1  skrll #include <sys/stat.h>
1.1  skrll #include <string.h>
1.1  skrll #include <stdlib.h>
1.1  skrll #include <unistd.h>
1.1  skrll #include <time.h>
1.1  skrll #include <err.h>
1.1  skrll
1.1  skrll /* BFD ELF headers */
1.1  skrll #include <elf/common.h>
1.1  skrll #include <elf/external.h>
1.1  skrll
1.1  skrll #define IS_ELF(ehdr) ((ehdr).e_ident[EI_MAG0] == ELFMAG0 && \
1.1  skrll 		      (ehdr).e_ident[EI_MAG1] == ELFMAG1 && \
1.1  skrll 		      (ehdr).e_ident[EI_MAG2] == ELFMAG2 && \
1.1  skrll 		      (ehdr).e_ident[EI_MAG3] == ELFMAG3)
1.1  skrll
1.1  skrll /*
1.1  skrll  * Macros to get values from multi-byte ELF header fields.  These assume
1.1  skrll  * a big-endian image.
1.1  skrll  */
1.1  skrll #define ELFGET16(x)	(((x)[0] << 8) | (x)[1])
1.1  skrll
1.1  skrll #define ELFGET32(x)	(((x)[0] << 24) | ((x)[1] << 16) |		\
1.1  skrll 			 ((x)[2] <<  8) |  (x)[3])
1.1  skrll
1.1  skrll /*
1.1  skrll  * Header prepended to each a.out file.
1.1  skrll  */
1.1  skrll struct exec {
1.1  skrll 	u_long	a_midmag;	/* htonl(flags<<26 | mid<<16 | magic) */
1.1  skrll 	u_long	a_text;		/* text segment size */
1.1  skrll 	u_long	a_data;		/* initialized data size */
1.1  skrll 	u_long	a_bss;		/* uninitialized data size */
1.1  skrll 	u_long	a_syms;		/* symbol table size */
1.1  skrll 	u_long	a_entry;	/* entry point */
1.1  skrll 	u_long	a_trsize;	/* text relocation size */
1.1  skrll 	u_long	a_drsize;	/* data relocation size */
1.1  skrll };
1.1  skrll
1.1  skrll /* a_magic */
1.1  skrll #define	OMAGIC		0407	/* old impure format */
1.1  skrll #define	NMAGIC		0410	/* read-only text */
1.1  skrll #define	ZMAGIC		0413	/* demand load format */
1.1  skrll #define	QMAGIC		0314	/* "compact" demand load format; deprecated */
1.1  skrll
1.1  skrll #define N_GETMAGIC(ex) \
1.1  skrll     ((((ex).a_midmag)&0xffff0000) ? \
1.1  skrll     (ntohl((uint32_t)((ex).a_midmag))&0xffff) : ((ex).a_midmag))
1.1  skrll
1.1  skrll #include <stdio.h>
1.1  skrll #include <ctype.h>
1.1  skrll
1.1  skrll int putfile(char *, int);
1.1  skrll void __dead usage(void);
1.1  skrll void bcddate(char *, char *);
1.1  skrll char *lifname(char *);
1.1  skrll int cksum(int, int *, int);
1.1  skrll
1.1  skrll char *to_file;
1.1  skrll int loadpoint, verbose;
1.1  skrll u_long entry;
1.1  skrll
1.1  skrll /*
1.1  skrll  * Old Format:
1.1  skrll  *	sector 0:	LIF volume header (40 bytes)
1.1  skrll  *	sector 1:	<unused>
1.1  skrll  *	sector 2:	LIF directory (8 x 32 == 256 bytes)
1.1  skrll  *	sector 3-:	LIF file 0, LIF file 1, etc.
1.1  skrll  * where sectors are 256 bytes.
1.1  skrll  *
1.1  skrll  * New Format:
1.1  skrll  *	sector 0:	LIF volume header (40 bytes)
1.1  skrll  *	sector 1:	<unused>
1.1  skrll  *	sector 2:	LIF directory (8 x 32 == 256 bytes)
1.1  skrll  *	sector 3:	<unused>
1.1  skrll  *	sector 4-31:	disklabel (~300 bytes right now)
1.1  skrll  *	sector 32-:	LIF file 0, LIF file 1, etc.
1.1  skrll  */
1.1  skrll int
1.1  skrll main(int argc, char **argv)
1.1  skrll {
1.1  skrll 	int to, n, pos, c;
1.1  skrll 	char buf[HPPA_LIF_FILESTART];
1.1  skrll 	struct hppa_lifvol *lifv = (struct hppa_lifvol *)buf;
1.1  skrll 	struct hppa_lifdir *lifd = (struct hppa_lifdir *)(buf + HPPA_LIF_DIRSTART);
1.1  skrll
1.1  skrll 	while ((c = getopt(argc, argv, "vl:")) != -1) {
1.1  skrll 		switch (c) {
1.1  skrll 		case 'v':
1.1  skrll 			verbose++;
1.1  skrll 			break;
1.1  skrll 		case 'l':
1.1  skrll 			sscanf(optarg, "0x%x", &loadpoint);
1.1  skrll 			break;
1.1  skrll 		default:
1.1  skrll 			usage();
1.1  skrll 		}
1.1  skrll 	}
1.1  skrll 	if (argc - optind < 2)
1.1  skrll 		usage();
1.1  skrll 	else if (argc - optind > 8)
1.1  skrll 		errx(1, "too many boot programs (max 8 supported)");
1.1  skrll
1.1  skrll 	to_file = argv[--argc];
1.1  skrll 	if ((to = open(to_file, O_RDWR | O_TRUNC | O_CREAT, 0644)) < 0)
1.1  skrll 		err(1, "%s: open", to_file);
1.1  skrll
1.1  skrll 	memset(buf, 0, sizeof(buf));
1.1  skrll
1.1  skrll 	/* record volume info */
1.1  skrll 	lifv->vol_id = htobe16(HPPA_LIF_VOL_ID);
1.1  skrll 	strncpy(lifv->vol_label, "MKBOOT", 6);
1.1  skrll 	lifv->vol_addr = htobe32(hppa_btolifs(HPPA_LIF_DIRSTART));
1.1  skrll 	lifv->vol_oct = htobe16(HPPA_LIF_VOL_OCT);
1.1  skrll 	lifv->vol_dirsize = htobe32(hppa_btolifs(HPPA_LIF_DIRSIZE));
1.1  skrll 	lifv->vol_version = htobe16(1);
1.1  skrll 	lifv->vol_number = htobe32(1);
1.1  skrll 	lifv->vol_lastvol = htobe32(1);
1.1  skrll 	lifv->vol_length = HPPA_LIF_FILESTART;	/* ... so far. */
1.1  skrll 	bcddate(to_file, lifv->vol_toc);
1.1  skrll 	lifv->ipl_addr = htobe32(HPPA_LIF_FILESTART);
1.1  skrll
1.1  skrll 	argv += optind;
1.1  skrll 	argc -= optind;
1.1  skrll 	optind = 0;
1.1  skrll 	for (pos = HPPA_LIF_FILESTART; optind < argc; optind++) {
1.1  skrll
1.1  skrll 		/* output bootfile */
1.1  skrll 		if (lseek(to, pos, SEEK_SET) < 0)
1.1  skrll 			err(1, "%s: lseek", to_file);
1.1  skrll 		lifd[optind].dir_addr = htobe32(hppa_btolifs(pos));
1.1  skrll 		n = hppa_btolifs(putfile(argv[optind], to));
1.1  skrll 		if (lifv->ipl_entry == 0) {
1.1  skrll 			lifv->ipl_entry = htobe32(loadpoint + entry);
1.1  skrll 			lifv->ipl_size = htobe32(hppa_lifstob(n));
1.1  skrll 			lifd[optind].dir_type = htobe16(HPPA_LIF_DIR_ISL);
1.1  skrll 			lifd[optind].dir_implement = 0;
1.1  skrll 		} else {
1.1  skrll 			lifd[optind].dir_type = htobe16(HPPA_LIF_DIR_TYPE);
1.1  skrll 			lifd[optind].dir_implement = htobe32(loadpoint + entry);
1.1  skrll 		}
1.1  skrll
1.1  skrll 		memcpy(lifd[optind].dir_name, lifname(argv[optind]),
1.1  skrll 			sizeof(lifd[optind].dir_name));
1.1  skrll 		lifd[optind].dir_length = htobe32(n);
1.1  skrll 		bcddate(argv[optind], lifd[optind].dir_toc);
1.1  skrll 		lifd[optind].dir_flag = htobe16(HPPA_LIF_DIR_FLAG);
1.1  skrll
1.1  skrll 		lifv->vol_length += n;
1.1  skrll 		pos += hppa_lifstob(n);
1.1  skrll 	}
1.1  skrll
1.1  skrll 	/* terminate the directory */
1.1  skrll 	lifd[optind].dir_type = htobe16(0xffff);
1.1  skrll
1.1  skrll 	/* byte-swap the length now that we're done computing it */
1.1  skrll 	lifv->vol_length = htobe32(lifv->vol_length);
1.1  skrll
1.1  skrll 	/* output volume/directory header info */
1.1  skrll 	if (lseek(to, HPPA_LIF_VOLSTART, SEEK_SET) < 0)
1.1  skrll 		err(1, "%s: lseek", to_file);
1.1  skrll 	if (write(to, buf, sizeof(buf)) != sizeof(buf))
1.1  skrll 		err(1, "%s: write LIF volume", to_file);
1.1  skrll 	lseek(to, 0, SEEK_END);
1.1  skrll
1.1  skrll 	if (close(to) < 0)
1.1  skrll 		err(1, "%s", to_file);
1.1  skrll
1.1  skrll 	return(0);
1.1  skrll }
1.1  skrll
1.1  skrll int
1.1  skrll putfile(char *from_file, int to)
1.1  skrll {
1.1  skrll 	struct exec ex;
1.1  skrll 	char buf[2048];
1.1  skrll 	int n, total;
1.1  skrll 	int from, check_sum = 0;
1.1  skrll 	struct hppa_lifload load;
1.1  skrll 	Elf32_External_Ehdr elf_header;
1.1  skrll 	Elf32_External_Phdr *elf_segments;
1.1  skrll 	int i, header_count, memory_needed, elf_load_image_segment;
1.1  skrll
1.1  skrll 	if ((from = open(from_file, O_RDONLY)) < 0)
1.1  skrll 		err(1, "%s", from_file);
1.1  skrll
1.1  skrll 	n = read(from, &ex, sizeof(ex));
1.1  skrll 	if (n != sizeof(ex))
1.1  skrll 		err(1, "%s: reading file header", from_file);
1.1  skrll
1.1  skrll 	entry = ex.a_entry;
1.1  skrll 	if (N_GETMAGIC(ex) == OMAGIC || N_GETMAGIC(ex) == NMAGIC)
1.1  skrll 		entry += sizeof(ex);
1.1  skrll 	else if (IS_ELF(*(Elf32_External_Ehdr *)&ex)) {
1.1  skrll
1.1  skrll 		if (lseek(from, 0, SEEK_SET) < 0)
1.1  skrll 			err(1, "lseek");
1.1  skrll 		n = read(from, &elf_header, sizeof (elf_header));
1.1  skrll 		if (n != sizeof (elf_header))
1.1  skrll 			err(1, "%s: reading ELF header", from_file);
1.1  skrll 		header_count = ELFGET16(elf_header.e_phnum);
1.1  skrll 		memory_needed = header_count * sizeof (Elf32_External_Phdr);
1.1  skrll 		elf_segments = malloc(memory_needed);
1.1  skrll 		if (elf_segments == NULL)
1.1  skrll 			err(1, "malloc");
1.1  skrll 		if (lseek(from, ELFGET32(elf_header.e_phoff), SEEK_SET) < 0)
1.1  skrll 			err(1, "lseek");
1.1  skrll 		n = read(from, elf_segments, memory_needed);
1.1  skrll 		if (n != memory_needed)
1.1  skrll 			err(1, "%s: reading ELF segments", from_file);
1.1  skrll 		elf_load_image_segment = -1;
1.1  skrll 		for (i = 0; i < header_count; i++) {
1.1  skrll 			if (ELFGET32(elf_segments[i].p_filesz) &&
1.1  skrll 			    ELFGET32(elf_segments[i].p_flags) & PF_X) {
1.1  skrll 				if (elf_load_image_segment != -1)
1.1  skrll 					errx(1, "%s: more than one ELF program "
1.1  skrll 					     "segment", from_file);
1.1  skrll 				elf_load_image_segment = i;
1.1  skrll 			}
1.1  skrll 		}
1.1  skrll 		if (elf_load_image_segment == -1)
1.1  skrll 			errx(1, "%s: no suitable ELF program segment",
1.1  skrll 			     from_file);
1.1  skrll 		entry = ELFGET32(elf_header.e_entry) +
1.1  skrll 			ELFGET32(elf_segments[elf_load_image_segment].p_offset) -
1.1  skrll 			ELFGET32(elf_segments[elf_load_image_segment].p_vaddr);
1.1  skrll 	} else if (*(uint8_t *)&ex == 0x1f && ((uint8_t *)&ex)[1] == 0x8b) {
1.1  skrll 		entry = 0;
1.1  skrll 	} else
1.1  skrll 		errx(1, "%s: bad magic number", from_file);
1.1  skrll
1.1  skrll 	entry += sizeof(load);
1.1  skrll 	lseek(to, sizeof(load), SEEK_CUR);
1.1  skrll
1.1  skrll 	total = 0;
1.1  skrll 	n = sizeof(buf) - sizeof(load);
1.1  skrll 	/* copy the whole file */
1.1  skrll 	for (lseek(from, 0, SEEK_SET); ; n = sizeof(buf)) {
1.1  skrll 		memset(buf, 0, sizeof(buf));
1.1  skrll 		if ((n = read(from, buf, n)) < 0)
1.1  skrll 			err(1, "%s", from_file);
1.1  skrll 		else if (n == 0)
1.1  skrll 			break;
1.1  skrll
1.1  skrll 		if (write(to, buf, n) != n)
1.1  skrll 			err(1, "%s", to_file);
1.1  skrll
1.1  skrll 		total += n;
1.1  skrll 		check_sum = cksum(check_sum, (int *)buf, n);
1.1  skrll 	}
1.1  skrll
1.1  skrll 	/* load header */
1.1  skrll 	load.address = htobe32(loadpoint + sizeof(load));
1.1  skrll 	load.count = htobe32(4 + total);
1.1  skrll 	check_sum = cksum(check_sum, (int *)&load, sizeof(load));
1.1  skrll
1.1  skrll 	if (verbose)
1.1  skrll 		warnx("wrote %d bytes of file \'%s\'", total, from_file);
1.1  skrll
1.1  skrll 	total += sizeof(load);
1.1  skrll 	/* insert the header */
1.1  skrll 	lseek(to, -total, SEEK_CUR);
1.1  skrll 	if (write(to, &load, sizeof(load)) != sizeof(load))
1.1  skrll 		err(1, "%s", to_file);
1.1  skrll 	lseek(to, total - sizeof(load), SEEK_CUR);
1.1  skrll
1.1  skrll 	memset(buf, 0, sizeof(buf));
1.1  skrll 	/* pad to int */
1.1  skrll 	n = sizeof(int) - total % sizeof(int);
1.1  skrll 	if (total % sizeof(int)) {
1.1  skrll 		if (write(to, buf, n) != n)
1.1  skrll 			err(1, "%s", to_file);
1.1  skrll 		else
1.1  skrll 			total += n;
1.1  skrll 	}
1.1  skrll
1.1  skrll 	/* pad to the blocksize */
1.1  skrll 	n = sizeof(buf) - total % sizeof(buf);
1.1  skrll
1.1  skrll 	if (n < sizeof(int)) {
1.1  skrll 		n += sizeof(buf);
1.1  skrll 		total += sizeof(buf);
1.1  skrll 	} else
1.1  skrll 		total += n;
1.1  skrll
1.1  skrll 	/* TODO should pad here to the 65k boundary for tape boot */
1.1  skrll
1.1  skrll 	if (verbose)
1.1  skrll 		warnx("checksum is 0x%08x", -check_sum);
1.1  skrll
1.1  skrll 	check_sum = htobe32(-check_sum);
1.1  skrll 	if (write(to, &check_sum, sizeof(int)) != sizeof(int))
1.1  skrll 		err(1, "%s", to_file);
1.1  skrll
1.1  skrll 	n -= sizeof(int);
1.1  skrll
1.1  skrll 	if (write(to, buf, n) != n)
1.1  skrll 		err(1, "%s", to_file);
1.1  skrll
1.1  skrll 	if (close(from) < 0)
1.1  skrll 		err(1, "%s", from_file);
1.1  skrll
1.1  skrll 	return total;
1.1  skrll }
1.1  skrll
1.1  skrll int
1.1  skrll cksum(int ck, int *p, int size)
1.1  skrll {
1.1  skrll 	/* we assume size is int-aligned */
1.1  skrll 	for (size = (size + sizeof(int) - 1) / sizeof(int); size--; p++ )
1.1  skrll 		ck += be32toh(*p);
1.1  skrll
1.1  skrll 	return ck;
1.1  skrll }
1.1  skrll
1.1  skrll void __dead
1.1  skrll usage(void)
1.1  skrll {
1.1  skrll 	fprintf(stderr,
1.1  skrll 		"usage: %s [-v] [-l loadpoint] prog1 {progN} outfile\n",
1.1  skrll 		getprogname());
1.1  skrll 	exit(1);
1.1  skrll }
1.1  skrll
1.1  skrll char *
1.1  skrll lifname(char *str)
1.1  skrll {
1.1  skrll 	static char lname[10] = "XXXXXXXXXX";
1.1  skrll 	char *cp;
1.1  skrll 	int i;
1.1  skrll
1.1  skrll 	cp = strrchr(str, '/');
1.1  skrll 	if (cp != NULL) {
1.1  skrll 		str = cp + 1;
1.1  skrll 	}
1.1  skrll 	for (i = 0; i < 9; i++) {
1.1  skrll 		if (islower(*str))
1.1  skrll 			lname[i] = toupper(*str);
1.1  skrll 		else if (isalnum(*str) || *str == '_')
1.1  skrll 			lname[i] = *str;
1.1  skrll 		else
1.1  skrll 			break;
1.1  skrll 		str++;
1.1  skrll 	}
1.1  skrll 	for ( ; i < 10; i++)
1.1  skrll 		lname[i] = ' ';
1.1  skrll 	return(lname);
1.1  skrll }
1.1  skrll
1.1  skrll
1.1  skrll void
1.1  skrll bcddate(char *file, char *toc)
1.1  skrll {
1.1  skrll 	struct stat statb;
1.1  skrll 	struct tm *tm;
1.1  skrll
1.1  skrll 	stat(file, &statb);
1.1  skrll 	tm = localtime(&statb.st_ctime);
1.1  skrll 	tm->tm_year %= 100;
1.1  skrll 	*toc = (tm->tm_year / 10) << 4;
1.1  skrll 	*toc++ |= tm->tm_year % 10;
1.1  skrll 	*toc = ((tm->tm_mon+1) / 10) << 4;
1.1  skrll 	*toc++ |= (tm->tm_mon+1) % 10;
1.1  skrll 	*toc = (tm->tm_mday / 10) << 4;
1.1  skrll 	*toc++ |= tm->tm_mday % 10;
1.1  skrll 	*toc = (tm->tm_hour / 10) << 4;
1.1  skrll 	*toc++ |= tm->tm_hour % 10;
1.1  skrll 	*toc = (tm->tm_min / 10) << 4;
1.1  skrll 	*toc++ |= tm->tm_min % 10;
1.1  skrll 	*toc = (tm->tm_sec / 10) << 4;
1.1  skrll 	*toc |= tm->tm_sec % 10;
1.1  skrll }