/* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". * */ #include #include "out.h" #ifndef NORCSID static char rcs_id[] = "$Header$" ; #endif /* BUG: There is a problem with Bleasdale 'nm' and the namelist produced by this program. nm always acts as if there were no name list, while adb understands a.out's with namelists without any complaint. The cause is unclear. All sizes in the header and file are correct. Setting the symbol table size to a size smaller than actually present in the a.out causes 'adb' to produce error messages about name list problems, but nm suddenly prints the namelist, INCLUDING the entrie outside the size indicated in the a.out header. */ #define ASSERT(x) switch (2) { case 0: case (x): ; } /* * Header and section table of new format object file. */ struct outhead outhead; struct outsect outsect[S_MAX]; char *stringarea ; char *output_file; int output_file_created; char *program ; char flag ; #define readf(a, b, c) fread((a), (b), (int)(c), input) #define writef(a, b, c) fwrite((a), (b), (int)(c), output) /* Output file definitions and such */ #define HDR_LENGTH 32 char hdr[HDR_LENGTH] ; #define TEXT 0 #define ROM 1 #define DATA 2 #define BSS 3 #define LSECT BSS+1 #define NSECT LSECT+1 #define N_EXT 040 #define N_UNDEF 00 #define N_ABS 01 #define N_TEXT 02 #define N_DATA 03 #define N_BSS 04 #define N_FN 037 FILE *input; FILE *output; main(argc, argv) int argc; char *argv[]; { register int nsect; long magic ; long textsize ; long datasize ; ASSERT(sizeof(struct outhead) == SZ_HEAD); ASSERT(sizeof(struct outsect) == SZ_SECT); input = stdin; output = stdout; program= argv[0] ; if ( argc>1 && argv[1][0]=='-' ) { flag=argv[1][1] ; argc-- ; argv++ ; } switch (argc) { case 1: break; case 3: if ((output = fopen(argv[2], "w")) == (FILE *)0) fatal("Can't write %s.\n", argv[2]); output_file = argv[2]; output_file_created = 1; /* FALLTHROUGH */ case 2: if ((input = fopen(argv[1], "r")) == (FILE *)0) fatal("Can't read %s.\n", argv[1]); break; default:fatal("Usage: %s
.\n", argv[0]); } if ( !rhead(input,&outhead) ) fatal("Reading header failed.\n"); if (BADMAGIC(outhead)) fatal("Not an ack object file.\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) ; for ( nsect=0 ; nsectos_flen ; while (n > 0) { blk = n > BUFSIZ ? BUFSIZ : n; readf(buffer, 1, blk); writef(buffer, 1, blk); n -= blk; } if ( section->os_flen!=section->os_size ) { for ( n=BUFSIZ-1 ; n ; n-- ) buffer[n]=0 ; n= section->os_size - section->os_flen ; while (n > 0) { blk = n > BUFSIZ ? BUFSIZ : n; writef(buffer, 1, blk); n -= blk; } } } /* * Copy the name table, except the last outhead.oh_nsect. * These are assumed to be section names. * */ names() { register ushort n = outhead.oh_nname - outhead.oh_nsect; int type = 0 ; struct outname outname ; char buffer[100] ; char *s1, *s2 ; long length, fullength ; fseek(input,OFF_CHAR(outhead),0) ; chars() ; if ( !stringarea ) return ; fseek(input,OFF_NAME(outhead),0) ; fullength=0 ; buffer[1]=0 ; while (n--) { rname(input,&outname) ; if (outname.on_foff == 0) continue ; if (outname.on_type & S_ETC ) { switch (outname.on_type & S_ETC ) { /* ??? case S_FIL : type |= N_FN ; */ case S_COM : break ; default : continue ; } } set4(buffer,2,outname.on_valu ) ; switch (outname.on_type & S_TYP) { case S_UND: type = N_UNDEF; break; case S_ABS: type = N_ABS; break; case S_MIN + TEXT: type = N_TEXT; break; case S_MIN + DATA: type = N_DATA; break; case S_MIN + BSS: case S_MIN + LSECT: type = N_BSS; break ; } if (outname.on_type & S_EXT) type |= N_EXT; buffer[0]= type ; s1=buffer+6 ; s2= stringarea+outname.on_foff-OFF_CHAR(outhead); length= 6 ; while ( (++length 0) { blk = n > BUFSIZ ? BUFSIZ : n; readf(curr, 1, blk); curr += blk ; n -= blk; } } rhead(f,head) struct outhead *head ; FILE *f ; { char buf[SZ_HEAD] ; if ( fread(buf,SZ_HEAD,1,f)!=1 ) return 0 ; iconvert(buf,(char *)head,SF_HEAD) ; return 1 ; } rsect(f,sect) struct outsect *sect ; FILE *f ; { char buf[SZ_SECT] ; if ( fread(buf,SZ_SECT,1,f)!=1 ) return 0 ; iconvert(buf,(char *)sect,SF_SECT) ; return 1 ; } rrelo(f,relo) struct outrelo *relo ; FILE *f ; { char buf[SZ_RELO] ; if ( fread(buf,SZ_RELO,1,f)!=1 ) return 0 ; iconvert(buf,(char *)relo,SF_RELO) ; return 1 ; } rname(f,name) struct outname *name ; FILE *f ; { char buf[SZ_NAME] ; if ( fread(buf,SZ_NAME,1,f)!=1 ) return 0 ; iconvert(buf,(char *)name,SF_NAME) ; return 1 ; } iconvert(buf,str,fmt) char *buf, *str, *fmt ; { register char *nf, *ni, *no ; int last, i ; long value ; ni=buf ; no=str ; nf=fmt ; while ( last = *nf++ ) { last -= '0' ; if ( last<1 || last >9 ) fatal("illegal out.h format string\n"); value=0 ; i=last ; while ( i-- ) { value = (value<<8) + (ni[i]&0xFF) ; } switch ( last ) { case 0 : break ; case 1 : *no= value ; break ; case 2 : *(unsigned short *)no = value ; break ; case 4 : *(long *)no = value ; break ; default : fatal("illegal out.h format string\n"); } ni += last ; no += last ; } } set2(buf,off,val) char *buf ; int val ; { buf[off+0] = val>>8 ; buf[off+1] = val ; } set4(buf,off,val) char *buf ; long val ; { buf[off] = val>>24 ; buf[off+1] = val>>16 ; buf[off+2] = val>>8 ; buf[off+3] = val ; } /* VARARGS1 */ fatal(s, a1, a2) char *s; { fprintf(stderr,"%s: ",program) ; fprintf(stderr, s, a1, a2); if (output_file_created) unlink(output_file); exit(-1); }