ack/mach/xenix3/cv/cv.c

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C
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1987-10-06 16:58:10 +00:00
/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*
*/
/*
* This program converts ack.out format to XENIX 3.0 x.out format.
* It uses ~em/modules/lib/libobject.a.
*/
#include <stdio.h>
struct xexec {
unsigned short x_magic;
#define XMAGIC 01006
unsigned short x_ext; /* 054 */
long x_text;
long x_data;
long x_bss;
long x_syms;
long x_reloc; /* 0 */
long x_entry; /* 0 */
char x_cpu;
#define XBSWAP 0x80
#define XWSWAP 0x40
#define X8086 0x04
#define X286 0x09
char x_relsym; /* 0144, not used */
unsigned short x_renv;
#define XV3 0x8000 /* after Xenix version 2.3 */
#define XVERS 0xc000 /* version mask */
#define XSEG 0x0800 /* segment table present */
#define XFS 0x0008 /* fixed stack */
#define XPURE 0x0004 /* pure text */
#define XSEP 0x0002 /* separate I & D */
#define XEXEC 0x0001 /* executable */
};
struct xext {
long xe_trsize, xe_drsize, xe_tbase, xe_dbase; /* 0 */
long xe_stksize;
long xe_segpos; /* 0140 ??? */
long xe_segsize; /* 2 or 3 segments */
/* one for name table, one for text+data
or one for text + one for data(-i)
*/
long xe_mdtpos, xe_mdtsize; /* 0 */
char xe_mdttype; /* 0 */
char xe_pagesize; /* 0 */
char xe_ostype; /* 1 */
char xe_osvers; /* 1 */
unsigned short xe_eseg; /* 077 ??? */
unsigned short xe_sres; /* 0 */
};
struct xseg {
unsigned short xs_type;
#define XTEXT 1
#define XDATA 2
#define XTSYMS 3
unsigned short xs_attr;
#define XAMEM 0x8000
#define X_ABSS 0x0004
#define X_APURE 0x0010
unsigned short xs_seg; /* 077 for text, 0107 for data, 0 for sym */
unsigned short xs_sres; /* 0 */
long xs_filpos;
long xs_psize;
long xs_vsize;
long xs_rbase; /* 0 */
long xs_lres; /* 0 */
long xs_lres2; /* 0 */
};
#include <out.h>
#ifndef NORCSID
static char rcs_id[] = "$Header$" ;
#endif
#define ENTRY 0x0L /* entry point */
/*
* Header and section table of new format object file.
*/
struct outhead outhead;
struct outsect outsect[S_MAX];
struct xexec exec;
struct xext ext;
struct xseg seg[3];
char *output_file;
int outputfile_created;
int output;
char *program ;
char flag ;
int sep_id;
#define TEXTSG 0
#define ROMSG 1
#define DATASG 2
#define BSSSG 3
#define LSECT BSSSG+1
#define NSECT LSECT+1
long emit_symtab();
main(argc, argv)
int argc;
char *argv[];
{
register int nsect;
long magic ;
long textsize ;
long datasize ;
long bsssize;
long symstart;
output = 1;
program= argv[0] ;
if ( argc>1 && argv[1][0]=='-' ) {
flag=argv[1][1] ;
argc-- ; argv++ ;
}
switch (argc) {
case 1: rd_fdopen(0);
break;
case 3: if ((output = creat(argv[2], 0644)) < 0) {
fatal("Can't write %s.\n", argv[2]);
}
output_file = argv[2];
outputfile_created = 1;
/* FALLTHROUGH */
case 2:
if (! rd_open(argv[1]))
fatal("Can't read %s.\n", argv[1]);
break;
default:fatal("Usage: %s <ACK object> <Xenix object>.\n", argv[0]);
}
rd_ohead(&outhead);
if (BADMAGIC(outhead))
fatal("Not an ack object file.\n");
if (outhead.oh_flags & HF_LINK)
fatal("Contains unresolved references.\n");
if (outhead.oh_nrelo > 0)
fprintf(stderr, "Warning: relocation information present.\n");
if ( outhead.oh_nsect!=LSECT && outhead.oh_nsect!=NSECT )
fatal("Input file must have %d sections, not %ld\n",
NSECT,outhead.oh_nsect) ;
rd_sect(outsect, outhead.oh_nsect);
while (outsect[TEXTSG].os_size % outsect[TEXTSG].os_lign)
outsect[TEXTSG].os_size++;
while (outsect[ROMSG].os_size % outsect[ROMSG].os_lign)
outsect[ROMSG].os_size++;
while (outsect[DATASG].os_size % outsect[DATASG].os_lign)
outsect[DATASG].os_size++;
/* A few checks */
if ( outsect[TEXTSG].os_base != ENTRY)
fatal("text must start at 0x%lx not at 0x%lx\n", ENTRY,
outsect[TEXTSG].os_base) ;
if ( outsect[BSSSG].os_flen != 0 )
fatal("bss space contains initialized data\n") ;
if ( outsect[BSSSG].os_base != outsect[DATASG].os_base+
outsect[DATASG].os_size )
fatal("bss segment must follow data segment\n") ;
exec.x_magic = XMAGIC;
exec.x_ext = 054;
exec.x_text = outsect[TEXTSG].os_size;
exec.x_data = outsect[ROMSG].os_size + outsect[DATASG].os_size;
exec.x_bss = outsect[BSSSG].os_size;
exec.x_entry = outsect[TEXTSG].os_base;
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exec.x_cpu = XWSWAP | X286;
exec.x_relsym = 0144;
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exec.x_renv = XV3 | XSEG | XFS | XEXEC;
if ( outsect[ROMSG].os_base == 0x0 ) {
/* Separate I/D */
sep_id = 1;
exec.x_renv |= XPURE | XSEP;
if ( outsect[DATASG].os_base != outsect[ROMSG].os_base+
outsect[ROMSG].os_size )
fatal("data segment must follow rom\n") ;
} else {
if ( outsect[ROMSG].os_base != outsect[TEXTSG].os_base+
outsect[TEXTSG].os_size )
fatal("rom segment must follow text\n") ;
if ( outsect[DATASG].os_base != outsect[ROMSG].os_base+
outsect[ROMSG].os_size )
fatal("data segment must follow rom\n") ;
}
if ( outhead.oh_nsect==NSECT ) {
if ( outsect[LSECT].os_base != outsect[BSSSG].os_base+
outsect[BSSSG].os_size )
fatal("end segment must follow bss\n") ;
if ( outsect[LSECT].os_size != 0 )
fatal("end segment must be empty\n") ;
}
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ext.xe_stksize = 0x1000;
/* Not too big, because "brk" and "sbrk"-allocated memory resides
above the stack!
*/
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ext.xe_segpos = 0140;
ext.xe_segsize = (2 + sep_id) * 040;
ext.xe_ostype = 1;
ext.xe_osvers = 1;
ext.xe_eseg = 077;
seg[0].xs_type = XDATA;
seg[0].xs_attr = XAMEM | X_ABSS;
seg[0].xs_seg = 0107;
seg[1].xs_type = XTSYMS;
seg[1].xs_attr = 1; /* ??? */
seg[1].xs_filpos = 0140 + ext.xe_segsize + outsect[TEXTSG].os_size +
outsect[DATASG].os_size + outsect[ROMSG].os_size;
if (sep_id) {
seg[2] = seg[1];
seg[1] = seg[0];
seg[0].xs_type = XTEXT;
seg[0].xs_attr = XAMEM | X_APURE;
seg[0].xs_seg = 077;
seg[0].xs_filpos = 0300;
seg[0].xs_psize = seg[0].xs_vsize = outsect[TEXTSG].os_size;
seg[1].xs_filpos = seg[0].xs_filpos + seg[0].xs_psize;
seg[1].xs_psize = outsect[ROMSG].os_size + outsect[DATASG].os_size;
seg[1].xs_vsize = seg[1].xs_psize + outsect[BSSSG].os_size;
}
else {
seg[0].xs_filpos = 0240L;
seg[0].xs_psize = outsect[TEXTSG].os_size +
outsect[ROMSG].os_size +
outsect[DATASG].os_size;
seg[0].xs_vsize = seg[0].xs_psize + outsect[BSSSG].os_size;
}
lseek(output, seg[0].xs_filpos + outsect[TEXTSG].os_size +
outsect[DATASG].os_size + outsect[ROMSG].os_size, 0);
if (! (exec.x_syms = seg[1+sep_id].xs_psize = emit_symtab())) {
/* not enough memory to produce symbol table, do without */
fprintf(stderr, "%s: warning: no symbol table produced\n",
program);
ext.xe_segsize -= 040;
seg[1+sep_id].xs_type = 0;
seg[0].xs_filpos -= 040;
seg[1].xs_filpos -= 040;
}
lseek(output, seg[0].xs_filpos, 0);
emits(&outsect[TEXTSG]) ;
emits(&outsect[ROMSG]) ;
emits(&outsect[DATASG]) ;
lseek(output, 0L, 0);
header();
if ( outputfile_created ) chmod(argv[2],0755);
return 0;
}
#define shortcvt(val, p) (*p++ = val, *p++ = val >> 8)
#define longcvt(val, p) (*p++ = val, *p++ = val >> 8, *p++ = val >> 16, *p++ = val >> 24)
char buf[0300];
header()
{
register char *p = buf;
register int i;
shortcvt(exec.x_magic, p);
shortcvt(exec.x_ext, p);
longcvt(exec.x_text, p);
longcvt(exec.x_data, p);
longcvt(exec.x_bss, p);
longcvt(exec.x_syms, p);
longcvt(exec.x_reloc, p);
longcvt(exec.x_entry, p);
*p++ = exec.x_cpu;
*p++ = exec.x_relsym;
shortcvt(exec.x_renv, p);
longcvt(ext.xe_trsize, p);
longcvt(ext.xe_drsize, p);
longcvt(ext.xe_tbase, p);
longcvt(ext.xe_dbase, p);
longcvt(ext.xe_stksize, p);
longcvt(ext.xe_segpos, p);
longcvt(ext.xe_segsize, p);
longcvt(ext.xe_mdtpos, p);
longcvt(ext.xe_mdtsize, p);
*p++ = ext.xe_mdttype;
*p++ = ext.xe_pagesize;
*p++ = ext.xe_ostype;
*p++ = ext.xe_osvers;
shortcvt(ext.xe_eseg, p);
shortcvt(ext.xe_sres, p);
p = &buf[0140];
for (i = 0; i <= 2 && seg[i].xs_type != 0; i++) {
shortcvt(seg[i].xs_type, p);
shortcvt(seg[i].xs_attr, p);
shortcvt(seg[i].xs_seg, p);
shortcvt(seg[i].xs_sres, p);
longcvt(seg[i].xs_filpos, p);
longcvt(seg[i].xs_psize, p);
longcvt(seg[i].xs_vsize, p);
longcvt(seg[i].xs_rbase, p);
longcvt(seg[i].xs_lres, p);
longcvt(seg[i].xs_lres2, p);
}
write(output, buf, 0140 + i * 040);
}
/*
* Transfer the emitted byted from one file to another.
*/
emits(section) struct outsect *section ; {
register long n ;
register int blk;
char buffer[BUFSIZ];
n= section->os_flen ;
rd_outsect(section - outsect);
while (n > 0) {
blk = n > BUFSIZ ? BUFSIZ : n;
rd_emit(buffer, (long) blk);
write(output, buffer, blk);
n -= blk;
}
if ((n = section->os_size - section->os_flen) > 0) {
for (blk = BUFSIZ - 1; blk >= 0; blk--) {
buffer[blk] = 0;
}
while (n > 0) {
blk = n > BUFSIZ ? BUFSIZ : n;
write(output, buffer, blk);
n -= blk;
}
}
}
long
emit_symtab()
{
register unsigned short i;
struct xnm {
unsigned short s_type, s_seg;
long s_value;
} xnm;
char *chars, *xname;
struct outname *names;
register char *xptr;
extern char *malloc();
long off = OFF_CHAR(outhead);
register char *p;
chars = malloc(outhead.oh_nchar);
if (! chars) return 0;
names = (struct outname *)
malloc(outhead.oh_nname * sizeof(struct outname));
if (! names) {
free(chars);
return 0;
}
xptr = malloc(outhead.oh_nchar + 9 * outhead.oh_nname);
if (! xptr) {
free(chars);
free((char *) names);
return 0;
}
xname = xptr;
rd_name(names, outhead.oh_nname);
rd_string(chars,outhead.oh_nchar);
for (i = 0; i < outhead.oh_nname; i++) {
xnm.s_seg = 077;
switch(names[i].on_type & S_ETC) {
case S_FIL:
case S_MOD:
xnm.s_type = 0x1f;
break;
case S_SCT:
xnm.s_type = 0x8;
if ((names[i].on_type & S_TYP) != S_MIN+TEXTSG) {
xnm.s_seg = 0107;
}
break;
default:
switch(names[i].on_type & S_TYP) {
case S_UND:
xnm.s_type = 0;
break;
case S_ABS:
xnm.s_type = 1;
xnm.s_seg = 0107;
break;
case S_MIN + TEXTSG:
xnm.s_type = 2;
break;
case S_MIN + ROMSG:
case S_MIN + DATASG:
xnm.s_type = 3;
xnm.s_seg = 0107;
break;
case S_MIN + BSSSG:
case S_MIN + LSECT:
xnm.s_type = 4;
xnm.s_seg = 0107;
break;
default:
fprintf(stderr,"warning: unknown s_type: %d\n",
names[i].on_type & S_TYP);
}
}
if (names[i].on_type & S_EXT) xnm.s_type |= 0x20;
xnm.s_value = names[i].on_valu;
if (names[i].on_foff == 0) {
}
else {
long l = names[i].on_foff - off;
if (l < 0 || l >= outhead.oh_nchar) {
fatal("bad on_off: %ld\n",l);
}
p = &chars[l];
shortcvt(xnm.s_type, xptr);
shortcvt(xnm.s_seg, xptr);
longcvt(xnm.s_value, xptr);
do {
*xptr++ = *p;
} while (*p++);
}
}
write(output, xname, xptr - xname);
free(xname);
free((char *) names);
free(chars);
return xptr - xname;
}
/* VARARGS1 */
fatal(s, a1, a2)
char *s;
{
fprintf(stderr,"%s: ",program) ;
fprintf(stderr, s, a1, a2);
if (outputfile_created)
unlink(output_file);
exit(1);
}
rd_fatal()
{
fatal("read error\n");
}