/* $Header$ * * This generates the zone files necessary to load a hesiod server. * The following zones are generated: passwd, uid, pobox, group, * grplist, gid, filsys, cluster, pcap, sloc, service. * * (c) Copyright 1988 by the Massachusetts Institute of Technology. * For copying and distribution information, please see the file * . */ #include #include #include #include #include #include #include #include #define HESIOD_DIR "/u1/sms/dcm/hesiod" #define min(x,y) ((x) < (y) ? (x) : (y)) struct hash *machines = NULL; struct hash *users = NULL; char *whoami = "hesiod.gen"; struct grp { struct grp *next; int id; }; struct user { char name[9]; struct grp *lists; }; char *malloc(), *strsave(); char *ingres_date_and_time(), *ingres_time(), *ingres_date(); main(argc, argv) int argc; char **argv; { char cmd[64]; struct stat sb; int changed = 0; int ingerr(); if (argc > 2) { fprintf(stderr, "usage: %s [outfile]\n", argv[0]); exit(SMS_ARGS); } IIseterr(ingerr); ## ingres sms ## set lockmode session where level = table changed = do_passwd(); changed += do_filsys(); changed += do_cluster(); changed += do_printers(); changed += do_sloc(); changed += do_service(); changed += do_groups(); ## exit if (!changed) { fprintf(stderr, "No files updated.\n"); if (argc == 2 && stat(argv[1], &sb) == 0) exit(SMS_NO_CHANGE); } if (argc == 2) { fprintf(stderr, "Building tar file.\n"); sprintf(cmd, "cd %s; tar cf %s .", HESIOD_DIR, argv[1]); if (system(cmd)) exit(SMS_TAR_FAIL); } exit(SMS_SUCCESS); } /* * ingerr: (supposedly) called when Ingres indicates an error. * I have not yet been able to get this to work to intercept a * database open error. */ #define INGRES_DEADLOCK 4700 static int ingerr(num) int *num; { char buf[256]; int ingres_errno; switch (*num) { case INGRES_DEADLOCK: ingres_errno = SMS_DEADLOCK; break; default: ingres_errno = SMS_INGRES_ERR; } com_err(whoami, SMS_INGRES_ERR, " code %d\n", *num); critical_alert("DCM", "Hesiod build encountered INGRES ERROR %d", *num); exit(ingres_errno); } get_mach() ##{ ## int id; ## char name[33]; if (machines) return; machines = create_hash(1000); ## retrieve (name = machine.#name, id = machine.mach_id) { hash_store(machines, id, strsave(strtrim(name))); ## } ##} do_passwd() ##{ FILE *pout, *uout, *bout; char poutf[64], uoutf[64], poutft[64], uoutft[64], boutf[64], boutft[64]; struct stat psb, usb, bsb; time_t ftime; struct user *u; char *mach; ## char login[9], shell[33], fullname[33], oa[17], op[13], hp[17], *filetime; ## char nn[17], ptype[9]; ## int uid, flag1, flag2, id, pid; sprintf(poutf, "%s/passwd.db", HESIOD_DIR); sprintf(uoutf, "%s/uid.db", HESIOD_DIR); sprintf(boutf, "%s/pobox.db", HESIOD_DIR); if (stat(poutf, &psb) == 0 && stat(uoutf, &usb) == 0 && stat(boutf, &bsb) == 0) { ftime = min(min(psb.st_mtime, usb.st_mtime), bsb.st_mtime); filetime = ingres_date_and_time(ftime); ## retrieve (flag1 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "users" ## retrieve (flag2 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "machine" if (flag1 < 0 && flag2 < 0) { fprintf(stderr, "Files passwd.db, uid.db, and pobox.db do not need to be rebuilt.\n"); return(0); } } sprintf(poutft, "%s~", poutf); pout = fopen(poutft, "w"); if (!pout) { perror("cannot open passwd.db~ for write"); exit(SMS_OCONFIG); } sprintf(uoutft, "%s~", uoutf); uout = fopen(uoutft, "w"); if (!uout) { perror("cannot open uid.db~ for write"); exit(SMS_OCONFIG); } sprintf(boutft, "%s~", boutf); bout = fopen(boutft, "w"); if (!bout) { perror("cannot open pobox.db for write"); exit(SMS_OCONFIG); } fprintf(stderr, "Building passwd.db, uid.db, and pobox.db\n"); get_mach(); users = create_hash(10000); ## range of u is users ## retrieve (login = u.#login, uid = u.#uid, shell = u.#shell, ## fullname = u.#fullname, nn = u.nickname, oa = u.office_addr, ## op = u.office_phone, hp = u.home_phone, id = u.users_id, ## pid = u.pop_id, ptype = u.potype) ## where u.status = 1 { strtrim(login); dequote(fullname); dequote(nn); dequote(oa); dequote(op); dequote(hp); dequote(shell); u = (struct user *) malloc(sizeof(struct user)); strcpy(u->name, login); u->lists = NULL; hash_store(users, id, u); fprintf(pout, "%s.passwd\tHS UNSPECA \"%s:*:%d:101:%s,%s,%s,%s,%s:/mit/%s:%s\"\n", login, login, uid, fullname, nn, oa, op, hp, login, shell); fprintf(uout, "%d.uid\tHS CNAME %s.passwd\n", uid, login); if (ptype[0] == 'P' && (mach = hash_lookup(machines, pid))) { fprintf(bout, "%s.pobox\tHS UNSPECA \"POP %s %s\"\n", login, mach, login); } ## } if (fclose(pout) || fclose(uout) || fclose(bout)) { fprintf(stderr, "Unsuccessful file close of passwd.db, uid.db, or pobox.db\n"); exit(SMS_CCONFIG); } fix_file(poutf); fix_file(uoutf); fix_file(boutf); return(1); ##} /************************************************************************ * WARNING: this routine mallocs a large amount of memory which it never frees. * This is considered OK only because main has been arranged to call this * last, so the process will exit shortly after we return. */ do_groups() ##{ FILE *iout, *gout, *lout; char ioutf[64], goutf[64], loutf[64], buf[2048], *l; struct hash *groups; register struct bucket *b, **p; struct grp *g; struct user *u; struct stat isb, gsb, lsb; time_t ftime; register struct save_queue *sq; struct save_queue *sq_create(); register int i; ## char name[33], *filetime; ## int gid, id, lid, flag1, flag2, flag3, maxid; /* open files */ sprintf(ioutf, "%s/gid.db", HESIOD_DIR); sprintf(goutf, "%s/group.db", HESIOD_DIR); sprintf(loutf, "%s/grplist.db", HESIOD_DIR); if (stat(ioutf, &isb) == 0 && stat(goutf, &gsb) == 0 && stat(loutf, &lsb) == 0) { ftime = min(isb.st_mtime, min(gsb.st_mtime, lsb.st_mtime)); filetime = ingres_date_and_time(ftime); ## retrieve (flag1 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "users" ## retrieve (flag2 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "list" ## retrieve (flag3 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "members" if (flag1 < 0 && flag2 < 0 && flag3 < 0) { fprintf(stderr, "Files gid.db, group.db and grplist.db do not need to be rebuilt.\n"); return(0); } } sprintf(buf, "%s~", ioutf); iout = fopen(buf, "w"); if (!iout) { perror("cannot open gid.db for write"); exit(SMS_OCONFIG); } sprintf(buf, "%s~", goutf); gout = fopen(buf, "w"); if (!gout) { perror("cannot open group.db for write"); exit(SMS_OCONFIG); } sprintf(buf, "%s~", loutf); lout = fopen(buf, "w"); if (!lout) { perror("cannot open grplist.db for write"); exit(SMS_OCONFIG); } fprintf(stderr, "Building gid.db, group.db, and grplist.db\n"); /* make space for group list */ groups = create_hash(15000); /* retrieve simple groups */ ## range of l is list ## begin transaction /* get lock records */ ## retrieve (name = l.modtime) where l.list_id = 0 ## retrieve (name = users.modtime) where users.users_id = 0 ## retrieve (name = l.#name, gid = l.#gid, lid = l.list_id) ## where l.group != 0 and l.active != 0 { strtrim(name); sprintf(buf, "%s:%d", name, gid); hash_store(groups, lid, strsave(buf)); fprintf(iout, "%d.gid\tHS CNAME %s.group\n", gid, name); fprintf(gout, "%s.group\tHS UNSPECA \"%s:*:%d:\"\n", name, name, gid); ## } fflush(iout); fflush(gout); /* get special cases: lists that aren't groups themselves but are * members of groups. */ sq = sq_create(); ## range of m is members ## retrieve (name = list.#name, gid = list.#gid, lid = l.list_id) ## where l.active != 0 and list.active != 0 and m.member_type = "LIST" and ## m.member_id = l.list_id and m.list_id = list.list_id and ## list.group != 0 { strtrim(name); if (l = hash_lookup(groups, lid)) { sprintf(buf, "%s:%s:%d", l, name, gid); free(l); } else { sprintf(buf, "%s:%d", name, gid); } hash_store(groups, lid, strsave(buf)); sq_save_unique_data(sq, lid); ## } while (sq_get_data(sq, &id)) { ## repeat retrieve (lid = l.list_id) where m.member_type = "LIST" and ## m.list_id = @id and m.member_id = l.list_id and l.active != 0 { if (l = hash_lookup(groups, lid)) { sprintf(buf, "%s:%s", l, hash_lookup(groups, id)); free(l); l = strsave(buf); } else { l = hash_lookup(groups, id); } hash_store(groups, lid, l); sq_save_unique_data(sq, lid); ## } } sq_destroy(sq); /* now do grplists */ if (users == NULL) { users = create_hash(10000); ## range of u is users ## retrieve (id = u.users_id, name = u.login) where u.status = 1 { u = (struct user *) malloc(sizeof(struct user)); strcpy(u->name, strtrim(name)); u->lists = NULL; hash_store(users, id, u); ## } } ## repeat retrieve (lid = m.list_id, id = m.member_id) ## where m.member_type = "USER" { if ((u = (struct user *) hash_lookup(users, id)) && (hash_lookup(groups, lid) != NULL)) { g = (struct grp *) malloc(sizeof(struct grp)); g->next = u->lists; u->lists = g; g->id = lid; } ## } ## end transaction for (p = &(users->data[users->size - 1]); p >= users->data; p--) { for (b = *p; b; b = b->next) { i = 0; sprintf(buf, "%s.grplist\tHS UNSPECA \"", ((struct user *)b->data)->name); for (g = ((struct user *)b->data)->lists; g; g = g->next) if (l = hash_lookup(groups, g->id)) { i++; strcat(buf, l); if (g->next) strcat(buf, ":"); } strcat(buf, "\"\n"); /* Do duplicate detection here */ if (i > 1) { remove_duplicate_groups(buf); } if (i > 0) fputs(buf, lout); } } #ifdef notdef /* This is commented out because it takes on the order of 30 minutes to * run. Instead, we never free the memory, but the program will exit * shortly anyway. */ sq_destroy(sq); { register char **p; for (p = &groups[maxid-1]; p >= groups; p--) if (*p) free(*p); } free(groups); #endif if (fclose(iout) || fclose(gout) || fclose(lout)) { fprintf(stderr, "Unsuccessful close of gid.db, group.db, or grplist.db\n"); exit(SMS_CCONFIG); } fix_file(ioutf); fix_file(goutf); fix_file(loutf); return(1); ##} #define MAXGROUPS 256 remove_duplicate_groups(p) register char *p; { register char *pp; char *index(); register int *mp; int memory[MAXGROUPS], i, *mg = &memory[MAXGROUPS-1]; bzero(memory, MAXGROUPS * sizeof(int)); while (p = index(p, ':')) { i = atoi(++p); for (mp = memory; *mp && mp < mg; mp++) if (*mp == i) { if (p = index(p, ':')) strcpy(pp, ++p); else { strcpy(--pp, "\"\n"); } p = pp; break; } if (*mp == i) continue; *mp = i; if (!(p = index(p, ':'))) return; pp = ++p; } } do_filsys() ##{ FILE *out; char outf[64], outft[64], *mach, machbuf[128], *group; register char *p; struct stat sb; time_t ftime; struct save_queue *sq, *sq_create(); ## char name[33], type[9], loc[81], access[2], mount[33], trans[257]; ## char *filetime, comments[65]; ## int flag1, flag2, flag3, flag4, id, fid; sprintf(outf, "%s/filsys.db", HESIOD_DIR); if (stat(outf, &sb) == 0) { ftime = sb.st_mtime; filetime = ingres_date_and_time(ftime); ## retrieve (flag1 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "filesys" ## retrieve (flag2 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "machine" ## retrieve (flag3 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "alias" ## retrieve (flag4 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "fsgroup" if (flag1 < 0 && flag2 < 0 && flag3 < 0 && flag4 < 0) { fprintf(stderr, "File filsys.db does not need to be rebuilt.\n"); return(0); } } sprintf(outft, "%s~", outf); out = fopen(outft, "w"); if (!out) { perror("cannot open filsys.db for write"); exit(SMS_OCONFIG); } fprintf(stderr, "Building filsys.db\n"); get_mach(); sq = sq_create(); ## range of f is filesys ## retrieve (name = f.label, type = f.#type, loc = f.#name, id = f.mach_id, ## access = f.#access, mount = f.#mount, comments = f.#comments, ## fid = f.filsys_id) { strtrim(name); strtrim(type); if (!strcmp(type, "NFS") || !strcmp(type, "RVD")) { strtrim(loc); strtrim(access); strtrim(mount); if (mach = hash_lookup(machines, id)) { for (p = machbuf; *mach && *mach != '.'; mach++) { if (isupper(*mach)) *p++ = tolower(*mach); else *p++ = *mach; *p = 0; } fprintf(out, "%s.filsys\tHS UNSPECA \"%s %s %s %s %s\"\n", name, type, loc, machbuf, access, mount); } } else if (!strcmp(type, "AFS")) { strtrim(loc); strtrim(access); strtrim(mount); fprintf(out, "%s.filsys\tHS UNSPECA \"AFS %s %s %s\"\n", name, loc, access, mount); } else if (!strcmp(type, "ERR")) { strtrim(comments); fprintf(out, "%s.filsys\tHS UNSPECA \"ERR %s\"\n", name, comments); } else if (!strcmp(type, "FSGROUP")) { sprintf(trans, "%s:%d", name, fid); sq_save_data(sq, strsave(trans)); } ## } ## range of g is fsgroup while (sq_get_data(sq, &group)) { fid = atoi(index(group, ':')+1); *index(group, ':') = 0; ## retrieve (type = f.#type, loc = f.#name, id = f.mach_id, ## access = f.#access, mount = f.#mount, comments = f.#comments, ## name = f.#label, trans = g.#key) ## where f.filsys_id = g.filsys_id and g.group_id = fid ## sort by #trans, #name { strtrim(type); if (!strcmp(type, "NFS") || !strcmp(type, "RVD")) { strtrim(loc); strtrim(access); strtrim(mount); if (mach = hash_lookup(machines, id)) { for (p = machbuf; *mach && *mach != '.'; mach++) { if (isupper(*mach)) *p++ = tolower(*mach); else *p++ = *mach; *p = 0; } fprintf(out, "%s.filsys\tHS UNSPECA \"%s %s %s %s %s\"\n", group, type, loc, machbuf, access, mount); } } else if (!strcmp(type, "AFS")) { strtrim(loc); strtrim(access); strtrim(mount); fprintf(out, "%s.filsys\tHS UNSPECA \"AFS %s %s %s\"\n", group, loc, access, mount); } else if (!strcmp(type, "ERR")) { strtrim(comments); fprintf(out, "%s.filsys\tHS UNSPECA \"ERR %s\"\n", group, comments); } ## } free(group); } sq_destroy(sq); ## range of a is alias ## retrieve (name = a.#name, trans = a.#trans) where a.#type = "FILESYS" { strtrim(name); strtrim(trans); fprintf(out, "%s.filsys\tHS CNAME %s.filsys\n", name, trans); ## } if (fclose(out)) { fprintf(stderr, "Unsuccessful close of filsys.db\n"); exit(SMS_CCONFIG); } fix_file(outf); return(1); ##} /* * Modified from sys/types.h: */ int setsize; /* = howmany(setbits, NSETBITS) */ typedef long set_mask; #define NSETBITS (sizeof(set_mask) * NBBY) /* bits per mask */ #ifndef howmany #define howmany(x, y) (((x)+((y)-1))/(y)) #endif #define SET_SET(n, p) ((p)[(n)/NSETBITS] |= (1 << ((n) % NSETBITS))) #define SET_CLR(n, p) ((p)[(n)/NSETBITS] &= ~(1 << ((n) % NSETBITS))) #define SET_ISSET(n, p) ((p)[(n)/NSETBITS] & (1 << ((n) % NSETBITS))) #define SET_CREATE() ((set_mask *)malloc(setsize * sizeof(set_mask))) #define SET_ZERO(p) bzero((char *)(p), setsize * sizeof(set_mask)) #define SET_CMP(p1, p2) (bcmp((p1), (p2), setsize * sizeof(set_mask))) do_cluster() ##{ FILE *out; char outf[64], outft[64], *mach, machbuf[33], *p; struct stat sb; time_t ftime; ## int flag1, flag2, flag3, flag4, maxmach, maxclu, mid, cid, id; ## char name[33], label[17], data[33], *filetime; set_mask **machs, *ms, *ps; sprintf(outf, "%s/cluster.db", HESIOD_DIR); if (stat(outf, &sb) == 0) { ftime = sb.st_mtime; filetime = ingres_date_and_time(ftime); ## retrieve (flag1 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "cluster" ## retrieve (flag2 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "machine" ## retrieve (flag3 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "mcmap" ## retrieve (flag4 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "svc" if (flag1 < 0 && flag2 < 0 && flag3 < 0 && flag4 < 0) { fprintf(stderr, "File cluster.db does not need to be rebuilt.\n"); return(0); } } sprintf(outft, "%s~", outf); out = fopen(outft, "w"); if (!out) { perror("cannot open cluster.db for write"); exit(SMS_OCONFIG); } fprintf(stderr, "Building cluster.db\n"); get_mach(); ## range of c is cluster ## begin transaction ## retrieve (maxclu = max(c.clu_id)) maxclu++; setsize = howmany(maxclu, NSETBITS); ## range of m is machine ## retrieve (maxmach = max(m.mach_id)) maxmach++; machs = (set_mask **)malloc((maxmach + 1) * sizeof(set_mask **)); bzero(machs, (maxmach + 1) * sizeof(int)); ## range of p is mcmap ## retrieve (mid = p.mach_id, cid = p.clu_id) { if (!(ms = machs[mid])) { ms = machs[mid] = SET_CREATE(); SET_ZERO(ms); } SET_SET(cid, ms); ## } ## range of d is svc for (mid = 1; mid < maxmach; mid++) { if (!machs[mid]) continue; ms = machs[mid]; for (cid = 1; cid < maxclu; cid++) { if (SET_ISSET(cid, ms)) { ## repeat retrieve (label = d.serv_label, data = d.serv_cluster) ## where d.clu_id = @cid { strtrim(label); strtrim(data); fprintf(out, "smsinternal-%d.cluster\tHS UNSPECA \"%s %s\"\n", mid, label, data); ## } } } if (mach = hash_lookup(machines, mid)) { for (p = machbuf; *mach && *mach != '.'; mach++) *p++ = *mach; *p = 0; fprintf(out, "%s.cluster\tHS CNAME smsinternal-%d.cluster\n", machbuf, mid); } for (id = mid + 1; id < maxmach; id++) { if ((ps = machs[id]) && !SET_CMP(ms, ps)) { free(ps); machs[id] = NULL; if (mach = hash_lookup(machines, id)) { for (p = machbuf; *mach && *mach != '.'; mach++) *p++ = *mach; *p = 0; fprintf(out,"%s.cluster\tHS CNAME smsinternal-%d.cluster\n", machbuf, mid); } } } free(ms); machs[mid] = NULL; } ## retrieve (name = c.#name, label = d.serv_label, data = d.serv_cluster) ## where c.clu_id = d.clu_id { strtrim(name); strtrim(label); strtrim(data); fprintf(out, "%s.cluster\tHS UNSPECA \"%s %s\"\n", name, label, data); ## } ## end transaction free(machs); if (fclose(out)) { fprintf(stderr, "Unsuccessful close of cluster.db\n"); exit(SMS_CCONFIG); } fix_file(outf); return(1); ##} do_printers() ##{ FILE *out; char outf[64], outft[64]; struct stat sb; time_t ftime; ## char name[17], rp[17], sd[33], rm[33], *filetime; ## int flag; sprintf(outf, "%s/printcap.db", HESIOD_DIR); if (stat(outf, &sb) == 0) { ftime = sb.st_mtime; filetime = ingres_date_and_time(ftime); ## retrieve (flag = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "printcap" if (flag < 0) { fprintf(stderr, "File printcap.db does not need to be rebuilt.\n"); return(0); } } sprintf(outft, "%s~", outf); out = fopen(outft, "w"); if (!out) { perror("cannot open printcap.db for write"); exit(SMS_OCONFIG); } fprintf(stderr, "Building printcap.db\n"); ## range of p is printcap ## retrieve (name = p.#name, rp = p.#rp, sd = p.dir, rm = machine.#name) ## where machine.mach_id = p.mach_id { strtrim(name); strtrim(rp); strtrim(sd); strtrim(rm); fprintf(out, "%s.pcap\tHS UNSPECA \"%s:rp=%s:rm=%s:sd=%s\"\n", name, name, rp, rm, sd); ## } if (fclose(out)) { fprintf(stderr, "Unsuccessful close of pcap.db\n"); exit(SMS_CCONFIG); } fix_file(outf); return(1); ##} do_sloc() ##{ FILE *out, *old, *new; char outf[64], outft[64], *mach; struct stat sb; time_t ftime; register int c; ## char service[17], *filetime; ## int port, flag1, flag2, id; sprintf(outf, "%s/sloc.db", HESIOD_DIR); if (stat(outf, &sb) == 0) { ftime = sb.st_mtime; filetime = ingres_date_and_time(ftime); ## retrieve (flag1 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "serverhosts" ## retrieve (flag2 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "machine" if (flag1 < 0 && flag2 < 0) { fprintf(stderr, "File sloc.db does not need to be rebuilt.\n"); return(0); } } sprintf(outft, "%s~", outf); out = fopen(outft, "w"); if (!out) { perror("cannot open sloc.db for write"); exit(SMS_OCONFIG); } fprintf(stderr, "Building sloc.db\n"); get_mach(); ## range of s is serverhosts ## retrieve (service = s.#service, id = s.mach_id) ## sort by #service { strtrim(service); if (mach = hash_lookup(machines, id)) fprintf(out, "%s.sloc\tHS UNSPECA %s\n", service, mach); ## } if (fclose(out)) { fprintf(stderr, "Unsuccessful close of sloc.db\n"); exit(SMS_CCONFIG); } fix_file(outf); return(1); ##} do_service() ##{ FILE *out; char outf[64], outft[64]; struct stat sb; time_t ftime; ## char mach[33], service[33], protocol[9], altserv[129], *filetime; ## int port, flag1, flag2; sprintf(outf, "%s/service.db", HESIOD_DIR); if (stat(outf, &sb) == 0) { ftime = sb.st_mtime; filetime = ingres_date_and_time(ftime); ## retrieve (flag1 = int4(interval("min", tblstats.modtime - filetime))) ## where tblstats.table = "services" if (flag1 < 0) { fprintf(stderr, "File service.db does not need to be rebuilt.\n"); return(0); } } sprintf(outft, "%s~", outf); out = fopen(outft, "w"); if (!out) { perror("cannot open service.db for write"); exit(SMS_OCONFIG); } fprintf(stderr, "Building service.db\n"); ## range of s is services ## retrieve (service = s.name, protocol = lowercase(s.#protocol), ## port = s.#port) { strtrim(service); strtrim(protocol); fprintf(out, "%s.service\tHS UNSPECA \"%s %s %d\"\n", service, service, protocol, port); ## } ## range of a is alias ## retrieve (service = a.name, altserv = a.trans) where a.type = "SERVICE" { strtrim(service); strtrim(altserv); fprintf(out, "%s.service\tHS CNAME %s.service\n", service, altserv); ## } if (fclose(out)) { fprintf(stderr, "Unsuccessful close of service.db\n"); exit(SMS_CCONFIG); } fix_file(outf); return(1); ##}