static char sccsid[] = "@(#)symt.c 4.3 8/17/82"; #include "head.h" #include #include #ifndef STABTYPES #define STABTYPES N_STAB #endif #include struct user u; int compar(); char *symfil; #ifdef FLEXNAMES struct nlist *symtab; char nullname[] = {0,0,0,0,0,0,0,0,0}; /* a few 0 bytes */ off_t stoff; stread(buff, nbytes) struct nlist *buff; int nbytes; { register int from = stoff; stoff += nbytes; if (stoff >= gstart) return (-1); if (nbytes < 0) { from = stoff; buff--; } from = (from - ststart); *buff = symtab[from/sizeof (struct nlist)]; return (sizeof (struct nlist)); } stseek(off, rel) long off; { if (rel == 1) stoff += off; else stoff = off; } #define bread(a,b,c) stread(b,c) #define blseek(a,b,c) stseek(b,c) #endif /* initialize file and procedure tables */ initfp() { struct nlist stentry; register struct proct *procp; register struct filet *filep; struct stat stbuf; long soffset; int i, gflag = 0; u_char class; register char *p, *q; #ifdef FLEXNAMES register struct nlist *sp; int malformed = 0; lseek(txtmap.ufd, gstart, 0); if (read(txtmap.ufd, &ssiz, sizeof(ssiz)) != sizeof (ssiz)) { printf("%s: no string table (old format?)\n", symfil); exit(1); } strtab = (char *)malloc(ssiz); if (strtab == 0) { printf("no room for %d bytes of string table\n", ssiz); exit(1); } ssiz -= sizeof (ssiz); if (read(txtmap.ufd, strtab+sizeof (ssiz), ssiz) != ssiz) { printf("%s: error reading string table\n", symfil); exit(1); } i = gstart - ststart; symtab = (struct nlist *)malloc(i); if (symtab == 0) { printf("no room for %d bytes of symbol table\n", i); exit(1); } lseek(txtmap.ufd, ststart, 0); if (read(txtmap.ufd, symtab, i) != i) { printf("%s: error reading symbol table\n", symfil); exit(1); } for (sp = &symtab[i/sizeof (struct nlist)]; --sp >= symtab; ) if (sp->n_un.n_strx != 0) { if (sp->n_un.n_strx < sizeof (ssiz) || sp->n_un.n_strx >= ssiz) { if (malformed == 0) { printf("danger: mangled symbol table\n"); malformed = 1; } sp->n_un.n_name = nullname; } else sp->n_un.n_name = strtab + sp->n_un.n_strx; } else sp->n_un.n_name = nullname; #endif #ifndef VMUNIX sbuf.fd = txtmap.ufd; #endif firstdata = MAXPOS; soffset = ststart; blseek(&sbuf,ststart,0); filep = files = badfile = (struct filet *) sbrk(sizeof filep[0]); procp = procs = badproc = (struct proct *) sbrk(sizeof procp[0]); for(;;) { if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) break; class = stentry.n_type & STABMASK; switch (class & STABMASK) { case N_SO: case N_SOL: gflag++; if (filep == badfile) { p = sbrk(FILEINCR*sizeof filep[0]); if (p < 0) { perror("sdb"); exit(4); } q = p + FILEINCR*sizeof filep[0]; while (p > (char *) procs) *--q = *--p; badfile += FILEINCR; procp = (struct proct *) ((char *) procp + FILEINCR*sizeof filep[0]); procs = (struct proct *) ((char *) procs + FILEINCR*sizeof filep[0]); badproc = (struct proct *) ((char *)badproc + FILEINCR*sizeof filep[0]); } filep->faddr = stentry.n_value; filep->lineflag = (class == N_SOL); filep->stf_offset = soffset; #ifndef FLEXNAMES p = filep->sfilename; for (;;) { for (i=0; i<8; i++) *p++ = stentry.n_un.n_name[i]; if (*(p-1) == '\0') break; if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) error("Bad N_SO entry (1)"); if ((stentry.n_type & STABMASK) != class) error("Bad N_SO entry (2)"); soffset += sizeof stentry; } #else filep->sfilename = stentry.n_un.n_name; #endif q = filep->sfilename; for (p=fp; *q; *p++ = *q++) ; *p = 0; if (stat(filework, &stbuf) == -1) printf("Warning: `%s' not found\n", filep->sfilename); else if (stbuf.st_mtime > symtime) printf("Warning: `%s' newer than `%s'\n", filep->sfilename, symfil); filep++; break; case N_TEXT: if (stentry.n_un.n_name[0] != '_') break; case N_FUN: case N_ENTRY: if (procp == badproc) { if (sbrk(PROCINCR*sizeof procp[0]) < 0) { perror("sdb"); exit(4); } badproc += PROCINCR; } #ifndef FLEXNAMES for(i=0; i<8; i++) procp->pname[i] = stentry.n_un.n_name[i]; #else procp->pname = stentry.n_un.n_name; #endif procp->paddr = stentry.n_value; procp->st_offset = soffset; procp->sfptr = (class != N_TEXT) ? filep - 1 : badfile; procp->lineno = (class != N_TEXT) ? stentry.n_desc : 0; procp->entrypt = (class & STABMASK) == N_ENTRY; procp++; break; } if (stentry.n_type & N_EXT) { if (!extstart) extstart = soffset; if (stentry.n_type == N_DATA | N_EXT || stentry.n_type == N_BSS | N_EXT || stentry.n_value < firstdata) firstdata = stentry.n_value; } soffset += sizeof stentry; } qsort(procs, procp-procs, sizeof procs[0], compar); badproc->st_offset = badfile->stf_offset = soffset; badproc->sfptr = procp->sfptr = badfile; #ifndef FLEXNAMES badproc->pname[0] = badfile->sfilename[0]= procp->pname[0] = filep->sfilename[0] = '\0'; #else badproc->pname = badfile->sfilename= procp->pname = filep->sfilename = nullname; #endif if (!gflag) printf("Warning: `%s' not compiled with -g\n", symfil); setcur(1); } /* returns current procedure from state (curfile, fline) */ struct proct * curproc() { register ADDR addr; addr = getaddr("", fline ? fline : 1); if (addr == -1) return(badproc); return(adrtoprocp(addr)); } /* returns procedure s, uses curproc() if s == NULL */ struct proct * findproc(s) char *s; { register struct proct *p, *altproc; if (s[0] == '\0') return(curproc()); altproc = badproc; for (p=procs; p->pname[0]; p++) { if (eqpat(s, p->pname)) return(p); if (p->pname[0] == '_' && eqpatr(s, p->pname+1, 1)) altproc = p; } return(altproc); } /* returns file s containing filename */ struct filet * findfile(s) char *s; { register struct filet *f; if (s == 0 || *s == 0) return(files); /* start at beginning if no cur file */ for (f=files; f->sfilename[0]; f++) { if (eqpat(f->sfilename, s)) { for( ; f->lineflag; f--) ; if (f < files) error("Bad file array"); return(f); } } return(f); } /* * slookup(): * looks up variable matching pat starting at (offset + sizeof stentry) * in a.out, searching backwards, * ignoring nested blocks to beginning to procedure. * Returns its offset and symbol table entries decoded in sl_* * * If comblk == "*" then match both within and outside common blocks, * if comblk == "" then match only outside common blocks, * else match only within comblk. */ long slookup(pat, poffset, stelt) long poffset; char *pat; { slookinit(); slooknext(pat, poffset, stelt, "*"); } int clevel, level, fnameflag, comfound, incomm; slookinit() { clevel = level = fnameflag = comfound = incomm = 0; } long slooknext(pat, poffset, stelt, comblk) long poffset; char *pat, *comblk; { register int i; register long offset; char *q; u_char class; struct nlist stentry; struct proct *procp, *p; offset = poffset + sizeof stentry; if (debug) printf("slookup(%s,%d)\n",pat,offset); blseek(&sbuf, offset, 0); for (;;) { offset -= sizeof stentry; if (offset < ststart) break; if (bread(&sbuf, &stentry+1, -sizeof stentry) < sizeof stentry) break; class = stentry.n_type & STABMASK; switch (class & STABMASK) { case 0: break; case N_FUN: return(-1); case N_RBRAC: level++; break; case N_LBRAC: level--; break; case N_ECOMM: i = 0; #ifndef FLEXNAMES for (q = &stentry.n_un.n_name[7]; q>=stentry.n_un.n_name; q--) { if (*q == '_') { *q = '\0'; i++; break; } } #else for (q = stentry.n_un.n_name; *q; q++) continue; if (*--q == '_') *q = 0, i++; #endif if (eqpat(comblk, stentry.n_un.n_name)) comfound = 1; if (i) *q = '_'; incomm = 1; case N_ECOML: clevel++; break; case N_BCOMM: comfound = incomm = 0; clevel--; break; case N_FNAME: if (fnameflag) break; procp = findproc(stentry.n_un.n_name); for (p=procs; p->pname[0]; p++) { if (p->entrypt == 0 && p->st_offset > procp->st_offset && p->st_offset < offset) offset = p->st_offset; } clevel = level = 0; fnameflag++; blseek(&sbuf, offset, 0); break; default: if (level <= 0 && eqpat(pat, stentry.n_un.n_name) && stentry.n_un.n_name[0] && class & STABTYPES && (eqstr("*", comblk) || (comblk[0] == '\0' && incomm == 0) || comfound) && (stelt == (class == N_SSYM))) { if (class == N_LENG) { sl_size = stentry.n_value; offset -= sizeof stentry; bread(&sbuf, &stentry+1, -sizeof stentry); if (stentry.n_type&~N_EXT == N_BSS) { bread(&sbuf, &stentry+1, -sizeof stentry); offset -= sizeof stentry; } } else sl_size = 0; sl_class = stentry.n_type & STABMASK; sl_type = stentry.n_desc; sl_addr = stentry.n_value; #ifndef FLEXNAMES for (i=0; i<8; i++) sl_name[i] = stentry.n_un.n_name[i]; #else sl_name = stentry.n_un.n_name; #endif if (clevel != 0) docomm(offset); return(offset - sizeof stentry); } } } return(-1); } /* * Look up global variable matching pat starting at (filestart+sizeof stentry) * Return its offset and symbol table entries decoded in sl_* */ long globallookup(pat, filestart, stelt) char *pat; long filestart; { register int offset, i; struct nlist stentry; int clevel; u_char class; if (debug) printf("globallookup(%s,%d)\n", pat,filestart); blseek(&sbuf, filestart, 0); offset = filestart - sizeof stentry; clevel = 0; do { if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) return(-1); offset += sizeof stentry; } while ((stentry.n_type & STABMASK) == N_SO); for (;;) { class = stentry.n_type & STABMASK; switch (class & STABMASK) { case N_SO: return(-1); case N_ECOMM: clevel--; break; case N_BCOMM: clevel++; break; default: if (eqpat(pat, stentry.n_un.n_name) && stentry.n_un.n_name[0] && class & STABTYPES) { sl_class = stentry.n_type & STABMASK; if (sl_class != N_GSYM && sl_class != N_SSYM && sl_class != N_STSYM && sl_class != N_LCSYM) goto g1; if (stelt != (sl_class == N_SSYM)) goto g1; sl_size = 0; sl_type = stentry.n_desc; sl_addr = stentry.n_value; #ifndef FLEXNAMES for (i=0; i<8; i++) sl_name[i] = stentry.n_un.n_name[i]; #else sl_name = stentry.n_un.n_name; #endif if (clevel != 0) docomm(offset); goto g2; } } g1: if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) return(-1); offset += sizeof stentry; } g2: bread(&sbuf, &stentry, sizeof stentry); if (stentry.n_type&~N_EXT==N_BSS) { bread(&sbuf, &stentry, sizeof stentry); offset += sizeof stentry; } if (((stentry.n_type & STABMASK) == N_LENG) && (eqpat(sl_name, stentry.n_un.n_name))) sl_size = stentry.n_value; if (sl_class == N_GSYM && (clevel == 0)) { blseek(&sbuf, extstart, 0); for(;;) { if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) return(-1); if (stentry.n_un.n_name[0] != '_') continue; if (eqpatr(sl_name, stentry.n_un.n_name+1, 1)) { sl_addr = stentry.n_value; break; } } } return(offset + sizeof stentry); } /* core address to procedure (pointer to proc array) */ struct proct * adrtoprocp(addr) ADDR addr; { register struct proct *procp, *lastproc; lastproc = badproc; for (procp=procs; procp->pname[0]; procp++) { if (procp->paddr > addr) break; if (procp->entrypt == 0) lastproc = procp; } return (lastproc); } /* core address to file (pointer to file array) */ struct filet * adrtofilep(addr) ADDR addr; { register struct filet *filep; for (filep=files; filep->sfilename[0]; filep++) { if (filep->faddr > addr) break; } return (filep != files ? filep-1 : badfile); } /* * core address to linenumber * Sets external exactaddr to addr if addr is NOT the first instruction * of a line, set to -1 otherwise. * Sets external lnfaddr to address of first statement in line. */ long lastoffset; adrtolineno(addr) ADDR addr; { register int lineno; long offset; struct nlist stentry; exactaddr = addr; lineno = lastoffset = -1; offset = adrtoprocp(addr)->st_offset; blseek(&sbuf, offset, 0); for (;;) { if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) break; if (stentry.n_type == N_SO) break; if (stentry.n_type == N_SLINE) { if (stentry.n_value > addr) break; lastoffset = offset; lineno = stentry.n_desc; lnfaddr = stentry.n_value; if (stentry.n_value == addr) exactaddr = -1; } offset += sizeof stentry; } return (lineno); } /* address to a.out offset */ long adrtostoffset(addr) ADDR addr; { adrtolineno(addr); return(lastoffset); } /* * Set (curfile, lineno) from core image. * Returns 1 if there is a core image, 0 otherwise. * * Print the current line iff verbose is set. */ setcur(verbose) { register struct proct *procp; dot = *(ADDR *) (((ADDR) &u) + PC); if (dot == 0) { printf("No core image\n"); goto setmain; } procp = adrtoprocp(dot); if ((procp->sfptr) != badfile) { finit(adrtofilep(procp->paddr)->sfilename); ffind(adrtolineno(dot)); if (verbose) { if (exactaddr != -1) printf("0x%x in ", exactaddr); #ifndef FLEXNAMES printf("%.8s:", procp->pname); #else printf("%s:", procp->pname); #endif fprint(); } return(1); } if (verbose) { if (procp->pname[0] == '_') #ifndef FLEXNAMES printf("%.7s: address 0x%x\n", procp->pname+1, dot); #else printf("%s: address 0x%x\n", procp->pname+1, dot); #endif else #ifndef FLEXNAMES printf("%.8s: address %d\n", procp->pname, dot); #else printf("%s: address %d\n", procp->pname, dot); #endif } setmain: procp = findproc("MAIN_"); if ((procp->pname[0] != 'M') || (procp->sfptr == badfile)) { procp = findproc("main"); if ((procp->pname[0] != 'm') || (procp->sfptr == badfile)) { /* printf("main not compiled with debug flag\n"); */ return(0); } } finit(procp->sfptr->sfilename); ffind(procp->lineno); return(0); } compar(a, b) struct proct *a, *b; { if (a->paddr == b->paddr) { if (a->pname[0] == '_') return(-1); if (b->pname[0] == '_') return(1); return(0); } return(a->paddr < b->paddr ? -1 : 1); } /* gets offset of file or procedure named s */ nametooffset(s) char *s; { register struct filet *f; register struct proct *p; if (*s == '\0') return(-1); if (eqany('.', s)) { f = findfile(s); return(f->sfilename[0] ? f->stf_offset : -1); } p = findproc(s); return(p->pname[0] ? p->st_offset : -1); } /* returns s if its a filename, its file otherwise */ char * nametofile(s) char *s; { register struct proct *p; if (eqany('.', s)) { return(s); } p = findproc(s); return(adrtofilep(p->paddr)->sfilename); } /* line number to address, starting at offset in a.out */ /* assumes that offset is within file */ lntoaddr(lineno, offset, file) long offset; char *file; { struct nlist stentry; register int i, ignore = 0; register int bestln=BIGNUM; ADDR bestaddr; char *p; blseek(&sbuf, offset, 0); do { if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) return(-1); } while ((stentry.n_type & STABMASK) == N_SO); for (;;) { switch(stentry.n_type & STABMASK) { case N_SLINE: if (!ignore) { if (stentry.n_desc == lineno) return(stentry.n_value); if (stentry.n_desc > lineno && stentry.n_desc < bestln) { bestln = stentry.n_desc; bestaddr = stentry.n_value; } } break; case N_SO: goto ret; case N_SOL: p = file; #ifndef FLEXNAMES for (;;) { for (i=0; i<8; i++) { if (*p != stentry.n_un.n_name[i]) goto neq; if (*p++ == '\0') break; } if (stentry.n_un.n_name[7] == '\0') break; if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) error("Bad N_SO entry (1)"); if ((stentry.n_type & STABMASK) != (u_char)N_SOL) error("Bad N_SO entry (2)"); } #else if (strcmp(file, stentry.n_un.n_name)) goto neq; #endif ignore = 0; break; neq: ignore++; break; } if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) break; } ret: return(bestln == BIGNUM ? -1 : bestaddr); } /* gets address of proc:number */ getaddr(proc,integ) char *proc; { register long offset; register char *s, *f; ADDR addr; s = proc[0] ? proc : curfile; if (*s == '\0') return(-1); offset = nametooffset(s); f = nametofile(s); if (debug) printf("getaddr() computed offset %d", offset); if (offset == -1) { addr = extaddr(proc); if (addr != -1) addr += 2; /* MACHINE DEPENDENT */ if (debug) printf(" extaddr computed %d\n", addr); return(addr); } if (integ) addr = lntoaddr(integ, offset, s); else { ADDR oldaddr; oldaddr = findproc(proc)->paddr + 2; /* MACHINE DEPENDENT */ addr = lntoaddr(adrtolineno(addr)+1, offset, f); if (addr == -1) addr = oldaddr; } if (debug) printf(" and addr %d\n", addr); if (addr == -1) return(-1); return(addr); } /* returns address of external */ ADDR extaddr(name) char *name; { struct nlist stentry; blseek(&sbuf, extstart, 0); for (;;) { if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) return(-1); if (stentry.n_un.n_name[0] == '_' && eqpatr(name, stentry.n_un.n_name+1, 1)) return(stentry.n_value); } } /* * Look up external data symbol matching pat starting at * (filestart+sizeof stentry) * Return its address in sl_addr and name in sl_name. */ long extlookup(pat, filestart) char *pat; long filestart; { register int offset, i; struct nlist stentry; blseek(&sbuf, filestart, 0); offset = filestart - sizeof stentry; do { if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) return(-1); offset += sizeof stentry; } while ((stentry.n_type & STABMASK) == N_SO); for (;;) { if (stentry.n_un.n_name[0] == '_' && stentry.n_type == (N_DATA | N_EXT) && eqpatr(pat, stentry.n_un.n_name+1, 1)) { sl_addr = stentry.n_value; #ifndef FLEXNAMES for (i=0; i<7; i++) sl_name[i] = stentry.n_un.n_name[i+1]; #else sl_name = stentry.n_un.n_name; #endif return(offset + sizeof stentry); } g1: if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) return(-1); offset += sizeof stentry; } } /* find enclosing common blocks and fix up addresses */ docomm(offset) long offset; { struct nlist stentry; ADDR addr; for (;;) { if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) { error("Bad common block"); return; } sl_class = N_GSYM; if ((stentry.n_type & STABMASK) == N_ECOMM) { addr = extaddr(stentry.n_un.n_name); if (addr == -1) error("Lost common block"); sl_addr +=addr; blseek(&sbuf, offset, 0); return; } if ((stentry.n_type & STABMASK) == N_ECOML) { sl_addr += stentry.n_value; blseek(&sbuf, offset, 0); return; } } } /* determine if class is that of a variable */ char pctypes[] = {N_GSYM, N_STSYM, N_LCSYM, N_RSYM, N_SSYM, N_LSYM, N_PSYM, 0}; varclass(class) u_char class; { char *p; for (p=pctypes; *p; p++) { if (class == *p) return(1); } return(0); } /* * address to external name * returns difference between addr and address of external * name returned in sl_name */ adrtoext(addr) ADDR addr; { struct nlist stentry; register int i, prevdiff = MAXPOS, diff; blseek(&sbuf, extstart, 0); for (;;) { if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) return (prevdiff!=MAXPOS ? prevdiff : -1); if (stentry.n_type == (N_DATA | N_EXT) || stentry.n_type == (N_BSS | N_EXT)) { diff = addr - stentry.n_value; if (diff >= 0 && diff < prevdiff) { #ifndef FLEXNAMES for (i=0; i<7; i++) sl_name[i] = stentry.n_un.n_name[i+1]; #else sl_name = stentry.n_un.n_name; #endif if (diff == 0) return(0); prevdiff = diff; } } } } /* * address to local name in procp * returns difference between addr and address of local * returned in sl_name */ adrtolocal(addr, procp) ADDR addr; struct proct *procp; { struct nlist stentry; register int i, prevdiff = MAXPOS, diff; blseek(&sbuf, procp->st_offset + sizeof stentry, 0); for (;;) { if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) return(prevdiff!=MAXPOS ? prevdiff : -1); if (stentry.n_type == N_FUN) return(prevdiff!=MAXPOS ? prevdiff : -1); if (stentry.n_type == N_LSYM) { diff = addr - stentry.n_value; if (diff >= 0 && diff < prevdiff) { #ifndef FLEXNAMES for (i=0; i<8; i++) sl_name[i] = stentry.n_un.n_name[i]; #else sl_name = stentry.n_un.n_name; #endif if (diff == 0) return(0); prevdiff = diff; } } } } /* * address to parameter name in procp * returns difference between addr and address of local * returned in sl_name */ adrtoparam(addr, procp) ADDR addr; struct proct *procp; { struct nlist stentry; register int i, prevdiff = MAXPOS, diff; blseek(&sbuf, procp->st_offset + sizeof stentry, 0); for (;;) { if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) return(prevdiff!=MAXPOS ? prevdiff : -1); if (stentry.n_type == N_FUN) return(prevdiff!=MAXPOS ? prevdiff : -1); if (stentry.n_type == N_PSYM) { diff = addr - stentry.n_value; if (diff >= 0 && diff < prevdiff) { #ifndef FLEXNAMES for (i=0; i<8; i++) sl_name[i] = stentry.n_un.n_name[i]; #else sl_name = stentry.n_un.n_name; #endif if (diff == 0) return(0); prevdiff = diff; } } } } /* * register number to register variable name in procp * returned in sl_name */ adrtoregvar(regno, procp) ADDR regno; struct proct *procp; { struct nlist stentry; register int i; blseek(&sbuf, procp->st_offset + sizeof stentry, 0); for (;;) { if (bread(&sbuf, &stentry, sizeof stentry) < sizeof stentry) return(-1); if (stentry.n_type == N_FUN) return(-1); if (stentry.n_type == N_RSYM) { if (stentry.n_value == regno) { #ifndef FLEXNAMES for (i=0; i<8; i++) sl_name[i] = stentry.n_un.n_name[i]; #else sl_name = stentry.n_un.n_name; #endif return(0); } } } } /* sets file map for M command */ setmap(s) char *s; { union { MAP *m; L_INT *mp; } amap; int starflag = 0; amap.mp = 0; for (; *s; s++) { switch (*s) { case '/': amap.m = &datmap; break; case '?': amap.m = &txtmap; break; case '*': starflag++; break; default: goto sout; } } sout: if (amap.mp == 0) { error("Map `?' or `/' must be specified"); return; } if (starflag) amap.mp += 3; for (; *s; s++) { if (*s >= '0' && *s <= '9') *(amap.mp)++ = readint(&s); } }