/* $Header$ */ /* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". * */ /* * Convert ACK a.out file to SUN3 object format. */ #include #include #include long lseek(); #if __STDC__ #include #else char *calloc(), *malloc(); #endif #define OMAGIC 0407 /* old-fashioned */ #define NMAGIC 0410 /* text write protexted */ #define ZMAGIC 0413 /* demand paging */ struct bhdr { short machtype; short magic; long tsize; long dsize; long bsize; long ssize; long entry; long rtsize; long rdsize; }; struct machrelo { long address; long relodata; }; #define setpcrel(X,f) (X |= (f<<7)) #define setsymbolnum(X,n) (X = (X & 0377) | ((long)n << 8)) #define setextern(X,f) (X |= (f << 4)) #define setlength(X,l) (X = (X & ~0x60)|((long) l << 5)) struct sym { long name; char type; char other; short desc; long value; }; #define N_UNDF 0 #define N_ABS 02 #define N_TEXT 04 #define N_DATA 06 #define N_BSS 010 #define N_EXT 01 #define N_FN 0x1f /* * Header and section table of new format object file. */ struct outhead outhead; struct outsect outsect[S_MAX]; char *output_file; int outputfile_created; long magic; int rom_in_data; char *program ; char flag ; /* Output file definitions and such */ struct bhdr bh; #define ENTRY 0x02000 #define TOT_HDRSIZE (sizeof(struct bhdr)) #define TEXTSG 0 #define ROMSG 1 #define DATASG 2 #define BSSSG 3 #define LSECT BSSSG+1 #define NSECT LSECT+1 int output; int unresolved; long textsize ; long datasize ; long bsssize; long align(a,b) long a,b; { a += b - 1; return a - a % b; } int follows(pa, pb) register struct outsect *pa, *pb; { /* return 1 if pa follows pb */ return pa->os_base == align(pb->os_base+pb->os_size, pa->os_lign); } main(argc, argv) int argc; char *argv[]; { register int nsect; program= argv[0] ; if ( argc>1 && argv[1][0]=='-' ) { flag=argv[1][1] ; if (flag == 'u') unresolved++; argc-- ; argv++ ; } switch (argc) { case 3: if ((output = creat(argv[2], 0644)) < 0 || (close(output), output = open(argv[2],2)) < 0) fatal("Can't write %s.\n", argv[2]); output_file = argv[2]; outputfile_created = 1; if (! rd_open(argv[1])) fatal("Can't read %s.\n", argv[1]); break; default:fatal("Usage: %s [-u] .\n", program); } rd_ohead(&outhead); if (BADMAGIC(outhead)) fatal("Not an ack object file.\n"); if (outhead.oh_flags & HF_LINK) { if (! unresolved) { fprintf(stderr,"Warning: contains unresolved references.\n"); } unresolved++; } else if (outhead.oh_nrelo > 0 && !unresolved) 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); /* A few checks */ if ( outsect[BSSSG].os_flen != 0 ) fatal("bss space contains initialized data\n") ; if ( !unresolved && ! follows(&outsect[BSSSG], &outsect[DATASG])) fatal("bss segment must follow data segment\n") ; if ( outsect[ROMSG].os_lign == 0x20000 ) { /* 410/413 file with ROMSG in data space */ rom_in_data = 1; magic= NMAGIC ; textsize= outsect[TEXTSG].os_size ; datasize= outsect[BSSSG].os_base - outsect[ROMSG].os_base ; if (! follows(&outsect[DATASG], &outsect[ROMSG])) fatal("data segment must follow rom\n") ; outsect[ROMSG].os_size = outsect[DATASG].os_base - outsect[ROMSG].os_base; outsect[DATASG].os_size = outsect[BSSSG].os_base - outsect[DATASG].os_base; } else if ( outsect[DATASG].os_lign == 0x20000 ) { /* 410/413 file with ROMSG in instruction space */ rom_in_data = 0; magic= NMAGIC ; textsize= (outsect[ROMSG].os_base - outsect[TEXTSG].os_base) + outsect[ROMSG].os_size ; if (! follows(&outsect[ROMSG],&outsect[TEXTSG])) fatal("rom segment must follow text\n") ; outsect[TEXTSG].os_size = outsect[ROMSG].os_base - outsect[TEXTSG].os_base; outsect[DATASG].os_size = outsect[BSSSG].os_base - outsect[DATASG].os_base; datasize= outsect[DATASG].os_size ; } else { /* Plain 407 file */ rom_in_data = 0; magic= OMAGIC ; if (!unresolved) { textsize= (outsect[DATASG].os_base - outsect[TEXTSG].os_base); if (! follows(&outsect[ROMSG],&outsect[TEXTSG])) fatal("rom segment must follow text\n") ; if (! follows(&outsect[DATASG],&outsect[ROMSG])) fatal("data segment must follow rom\n") ; outsect[TEXTSG].os_size = outsect[ROMSG].os_base - outsect[TEXTSG].os_base; outsect[ROMSG].os_size = outsect[DATASG].os_base - outsect[ROMSG].os_base; outsect[DATASG].os_size = outsect[BSSSG].os_base - outsect[DATASG].os_base; } else { textsize = outsect[TEXTSG].os_size+outsect[ROMSG].os_size; } datasize = outsect[DATASG].os_size; } if (outsect[TEXTSG].os_base == TOT_HDRSIZE+ENTRY) { if (magic != NMAGIC) { fatal("illegal alignments.\n"); } magic = ZMAGIC; textsize = (textsize + TOT_HDRSIZE + (0x2000 - 1)) & ~(0x2000 - 1); datasize = (datasize + (0x2000 - 1)) & ~(0x2000 - 1); } bsssize = outsect[BSSSG].os_size; if ( outhead.oh_nsect==NSECT ) { if (! follows(&outsect[LSECT],&outsect[BSSSG])) fatal("end segment must follow bss\n") ; if ( outsect[LSECT].os_size != 0 ) fatal("end segment must be empty\n") ; } if (magic != OMAGIC && unresolved) { fatal("unresolved references with wrong magic number\n"); } if ((magic == ZMAGIC && outsect[TEXTSG].os_base != TOT_HDRSIZE+ENTRY) || (magic != ZMAGIC && !unresolved && outsect[TEXTSG].os_base != ENTRY)) { fatal("Illegal entry point.\n"); } bh.magic = magic; bh.machtype = MACH; bh.tsize = textsize; bh.bsize = bsssize; bh.dsize = datasize; bh.rtsize = 0; bh.rdsize = 0; if (magic == ZMAGIC) bh.entry = TOT_HDRSIZE+ENTRY; else if (!unresolved) bh.entry = ENTRY; else bh.entry = 0; /* Action at last */ lseek(output,(long) TOT_HDRSIZE,0); emits(&outsect[TEXTSG]) ; if (rom_in_data && magic == ZMAGIC) { lseek(output,textsize,0); } emits(&outsect[ROMSG]) ; if (!rom_in_data && magic == ZMAGIC) { lseek(output,textsize,0); } emits(&outsect[DATASG]) ; if (magic == ZMAGIC) { lseek(output,textsize + datasize,0); } if (unresolved) emit_relo(); emit_symtab(); bh.ssize = outhead.oh_nname * sizeof(struct sym); lseek(output,0L,0); cvshort(&(bh.machtype)); cvshort(&(bh.magic)); cvlong(&(bh.tsize)); cvlong(&(bh.dsize)); cvlong(&(bh.bsize)); cvlong(&(bh.ssize)); cvlong(&(bh.entry)); cvlong(&(bh.rtsize)); cvlong(&(bh.rdsize)); writef(&bh, 1, (long) TOT_HDRSIZE); if ( outputfile_created && !unresolved ) chmod(argv[2],0755); return 0; } writef(addr,sz,cnt) char *addr; long cnt; { cnt *= sz; while (cnt) { int i = cnt >= 0x4000 ? 0x4000 : cnt; cnt -= i; if (write(output, addr, i) < i) { fatal("write error\n"); } addr += i; } } /* * Transfer the emitted byted from one file to another. */ emits(section) struct outsect *section ; { char *p; long sz = section->os_flen; rd_outsect(section - outsect); while (sz) { unsigned int i = (sz >= 0x4000 ? 0x4000 : sz); if (!(p = malloc(i))) { fatal("No memory.\n"); } rd_emit(p, i); if (write(output, p, i) < i) { fatal("write error.\n"); } free(p); sz -= i; } sz = section->os_size - section->os_flen; if (sz) { if (!(p = calloc(0x4000, 1))) { fatal("No memory.\n"); } while (sz) { unsigned int i = (sz >= 0x4000 ? 0x4000 : sz); if (write(output, p, i) < i) { fatal("write error.\n"); } sz -= i; } free(p); } } struct outname *ACKnames; emit_relo() { struct outrelo *ACKrelo; struct machrelo *MACHtrelo,*MACHdrelo; register struct outrelo *ap; register struct machrelo *mtp, *mdp; unsigned int cnt = outhead.oh_nrelo; ACKrelo = (struct outrelo *) calloc(cnt, sizeof(struct outrelo)); MACHtrelo = (struct machrelo *) calloc(cnt, sizeof(struct machrelo)); MACHdrelo = (struct machrelo *) calloc(cnt, sizeof(struct machrelo)); ACKnames = (struct outname *) calloc(outhead.oh_nname, sizeof(struct outname)); if (!(ap = ACKrelo) || !(mtp = MACHtrelo) || !(mdp = MACHdrelo) || !ACKnames) { fatal("No memory.\n"); } rd_relo(ACKrelo, cnt); rd_name(ACKnames, outhead.oh_nname); while (cnt-- != 0) { register struct machrelo *mp; if (ap->or_sect - S_MIN <= ROMSG) mp = mtp++; else mp = mdp++; setlength(mp->relodata,(ap->or_type&RELSZ) >> 1); setpcrel(mp->relodata,(ap->or_type&RELPC != 0)); mp->address = ap->or_addr; if (ap->or_sect == ROMSG+S_MIN) { mp->address += outsect[TEXTSG].os_size; } if (ap->or_nami < outhead.oh_nname) { if (ACKnames[ap->or_nami].on_type & S_EXT) { setsymbolnum(mp->relodata, ap->or_nami); setextern(mp->relodata,1); } else { patch(ap, &ACKnames[ap->or_nami], mp); } } else { setsymbolnum(mp->relodata, N_ABS); } cvlong(&(mp->address)); cvlong(&(mp->relodata)); ap++; } bh.rtsize = (char *) mtp - (char *) MACHtrelo; bh.rdsize = (char *) mdp - (char *) MACHdrelo; writef(MACHtrelo, 1, bh.rtsize); writef(MACHdrelo, 1, bh.rdsize); free(ACKrelo); free(MACHtrelo); free(MACHdrelo); } long get(sz) { char buf[10]; long l = 0; register char *p = buf; read(output,buf,sz); while (sz--) { l = (l << 8) | (*p++ & 0377); } return l; } put(l,sz) long l; { char buf[10]; register char *p = buf; *p++ = l >> 24; *p++ = l >> 16; *p++ = l >> 8; *p++ = l; p -= sz; if (write(output, p, sz) < sz) { fatal("write error.\n"); } } patch(ap, an, mp) register struct outrelo *ap; register struct outname *an; register struct machrelo *mp; { int whichsect = (an->on_type & S_TYP) - S_MIN; long correction = 0; long where = TOT_HDRSIZE+ap->or_addr; long X; long here; int sz; if (!(an->on_type & S_SCT)) { fprintf(stderr,"funny on_type %x\n", an->on_type); } switch(whichsect) { case TEXTSG: setsymbolnum(mp->relodata,N_TEXT); return; case DATASG: correction = outsect[ROMSG].os_size + outsect[TEXTSG].os_size; setsymbolnum(mp->relodata,N_DATA); break; case ROMSG: correction = outsect[TEXTSG].os_size; setsymbolnum(mp->relodata,N_TEXT); break; case BSSSG: correction = outsect[ROMSG].os_size + outsect[TEXTSG].os_size+ outsect[DATASG].os_size; setsymbolnum(mp->relodata,N_BSS); break; default: assert(0); } switch(ap->or_sect - S_MIN) { case DATASG: where += outsect[ROMSG].os_size; case ROMSG: where += outsect[TEXTSG].os_size; case TEXTSG: break; default: assert(0); } here = lseek(output, 0L, 1); lseek(output, where, 0); sz = ap->or_type & RELSZ; X = get(sz) + correction; lseek(output, where, 0); put(X,sz); lseek(output, here, 0); } cvlong(l) long *l; { long x = *l; char *p = (char *) l; *p++ = x >> 24; *p++ = x >> 16; *p++ = x >> 8; *p = x; } cvshort(s) short *s; { short x = *s; char *p = (char *) s; *p++ = x >> 8; *p = x; } int is_rest_local(A, i) register int i; register struct outname *A; { while (i--) { if (A->on_type & S_EXT) return 0; A++; } return 1; } emit_symtab() { register unsigned short i = outhead.oh_nname; register struct outname *A; struct sym *MACHnames; register struct sym *M; char *chars; long offX = OFF_CHAR(outhead) - 4; if (!(A = ACKnames)) { if (!(A = (struct outname *) calloc(i, sizeof(struct outname)))) { fatal("No memory.\n"); } rd_name(A, outhead.oh_nname); } if (!(M = (struct sym *) calloc(i, sizeof(struct sym)))) { fatal("No memory.\n"); } MACHnames = M; ACKnames = A; for (; i; i--, A++) { M->value = A->on_valu; M->desc = A->on_desc; if ((A->on_type & S_SCT) || (A->on_type & S_ETC) == S_FIL) { static int rest_local; if (! unresolved || rest_local || (rest_local = is_rest_local(A, i))) { outhead.oh_nname--; continue; } } if (A->on_type & S_STB) { M->type = A->on_type >> 8; } else if (A->on_type & S_COM) { M->type = N_UNDF | N_EXT; } else switch(A->on_type & S_TYP) { case S_UND: switch(A->on_type & S_ETC) { default: M->type = N_UNDF; break; case S_MOD: M->type = N_FN; break; case S_LIN: M->type = N_ABS; break; } break; case S_ABS: M->type = N_ABS; break; case S_MIN + TEXTSG: M->type = N_TEXT; break; case S_MIN + ROMSG: if (unresolved) { M->value += outsect[TEXTSG].os_size; } M->type = (rom_in_data ? N_DATA : N_TEXT); break; case S_MIN + DATASG: if (unresolved) { M->value += outsect[TEXTSG].os_size + outsect[ROMSG].os_size; } M->type = N_DATA; break; case S_MIN + BSSSG: if (unresolved) { M->value += outsect[TEXTSG].os_size + outsect[ROMSG].os_size + outsect[DATASG].os_size; } M->type = N_BSS; break; case S_MIN + LSECT: M->type = N_BSS; break; default: fprintf(stderr,"warning: unknown s_type: %d\n", A->on_type & S_TYP); } if (A->on_type & S_EXT) M->type |= N_EXT; M->name = A->on_foff; M++; } M = MACHnames; for (i = outhead.oh_nname; i; i--, M++) { if (M->name) { M->name -= offX; } else M->name = outhead.oh_nchar + 3; /* pointer to nullbyte */ cvlong(&(M->name)); cvlong(&(M->value)); cvshort(&(M->desc)); } writef(MACHnames, sizeof(struct sym), (long) outhead.oh_nname); free(MACHnames); free(ACKnames); if ((unsigned) outhead.oh_nchar != outhead.oh_nchar || !( chars = malloc((unsigned) outhead.oh_nchar))) { fatal("No memory\n."); } put(outhead.oh_nchar+4,4); rd_string(chars,outhead.oh_nchar); writef(chars, 1, outhead.oh_nchar); free(chars); } /* 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"); }