* 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
+ * <mit-copyright.h>.
*/
+#include <mit-copyright.h>
#include <stdio.h>
#include <sms.h>
#include <sms_app.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/time.h>
+#include <ctype.h>
#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;
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
-## begin transaction
changed = do_passwd();
changed += do_pobox();
changed += do_filsys();
changed += do_sloc();
changed += do_service();
changed += do_groups();
-## end transaction
## exit
}
+/*
+ * 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;
time_t ftime;
struct user *u;
## char login[9], shell[33], fullname[33], oa[17], op[13], hp[17], *filetime;
+## char nn[17];
## int uid, flag, id;
sprintf(poutf, "%s/passwd.db", HESIOD_DIR);
users = create_hash(10000);
## range of u is users
## retrieve (login = u.#login, uid = u.#uid, shell = u.#shell,
-## fullname = u.#fullname, oa = u.office_addr,
+## fullname = u.#fullname, nn = u.nickname, oa = u.office_addr,
## op = u.office_phone, hp = u.home_phone, id = u.users_id)
## where u.status = 1 {
strtrim(login);
- strtrim(fullname);
- strtrim(oa);
- strtrim(op);
- strtrim(hp);
- strtrim(shell);
+ 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:/mit/%s:%s\"\n",
- login, login, uid, fullname, oa, op, hp, login, shell);
+ 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);
## }
do_groups()
##{
FILE *iout, *gout, *lout;
- char ioutf[64], goutf[64], loutf[64], buf[256], *l;
+ char ioutf[64], goutf[64], loutf[64], buf[512], *l;
struct hash *groups;
register struct bucket *b, **p;
struct grp *g;
/* retrieve simple groups */
## range of l is list
+## begin transaction
## retrieve (name = l.#name, gid = l.#gid, lid = l.list_id)
## where l.group != 0 and l.active != 0 {
strtrim(name);
sq = sq_create();
## range of m is members
## retrieve (name = list.#name, gid = list.#gid, lid = l.list_id)
-## where l.group = 0 and l.active != 0 and m.member_type = "LIST" and
+## 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);
sprintf(buf, "%s:%d", name, gid);
}
hash_store(groups, lid, strsave(buf));
- sq_save_data(sq, lid);
+ sq_save_unique_data(sq, lid);
## }
while (sq_get_data(sq, &id)) {
-## repeat retrieve (name = l.#name, gid = l.#gid, lid = l.list_id)
-## where l.group = 0 and m.member_type = "LIST" and
-## m.member_id = l.list_id and m.list_id = @id {
- strtrim(name);
+## 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:%d", l, name, gid);
+ sprintf(buf, "%s:%s", l, hash_lookup(groups, id));
free(l);
+ l = strsave(buf);
} else {
- sprintf(buf, "%s:%d", name, gid);
+ l = hash_lookup(groups, id);
}
- hash_store(groups, lid, strsave(buf));
+ hash_store(groups, lid, l);
sq_save_unique_data(sq, lid);
## }
}
## repeat retrieve (lid = m.list_id, id = m.member_id)
## where m.member_type = "USER" {
- if (u = (struct user *) hash_lookup(users, id)) {
+ 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) {
- fprintf(lout, "%s.grplist\tHS UNSPECA \"",
+ 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))
- fprintf(lout, "%s%s", l, g->next ? ":" : "");
- fputs("\"\n", lout);
+ 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);
+ }
+ fputs(buf, lout);
}
}
##}
+#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;
+ char outf[64], outft[64], *mach, machbuf[128];
+ register char *p;
struct stat sb;
time_t ftime;
## char name[33], type[9], loc[33], access[2], mount[33], trans[257];
strtrim(loc);
strtrim(access);
strtrim(mount);
- if (mach = hash_lookup(machines, id))
- fprintf(out, "%s.filsys\tHS UNSPECA \"%s %s %s %s %s\"\n",
- name, type, loc, mach, access, 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 {
strtrim(comments);
fprintf(out, "%s.filsys\tHS UNSPECA \"ERR %s\"\n",
}
## }
+
+
## range of a is alias
## retrieve (name = a.#name, trans = a.#trans) where a.#type = "FILESYS" {
strtrim(name);
do_cluster()
##{
FILE *out;
- char outf[64], outft[64], *mach;
+ 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;
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));
}
}
- if (mach = hash_lookup(machines, mid))
- fprintf(out, "%s.cluster\tHS CNAME smsinternal-%d.cluster\n",
- mach, mid);
+ 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))
- fprintf(out, "%s.cluster\tHS CNAME smsinternal-%d.cluster\n",
- mach, mid);
+ 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;
}
- free(machs);
## retrieve (name = c.#name, label = d.serv_label, data = d.serv_cluster)
## where c.clu_id = d.clu_id {
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");
char outf[64], outft[64];
struct stat sb;
time_t ftime;
-## char name[33], pcap[513], *filetime;
+## char name[17], rp[17], sd[33], rm[33], *filetime;
## int flag;
sprintf(outf, "%s/printcap.db", HESIOD_DIR);
fprintf(stderr, "Building printcap.db\n");
## range of p is printcap
-## retrieve (name = p.#name, pcap = p.#pcap) {
+## retrieve (name = p.#name, rp = p.#rp, sd = p.dir, rm = machine.#name)
+## where machine.mach_id = p.mach_id {
strtrim(name);
- strtrim(pcap);
- fprintf(out, "%s.pcap\tHS UNSPECA \"%s\"\n", name, pcap);
+ 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)) {