#include <u.h>
#include <libc.h>
#include <bio.h>
#include <ndb.h>
#include <ip.h>
#include "dns.h"
enum {
Nibwidth = 4,
Nibmask = (1<<Nibwidth) - 1,
V6maxrevdomdepth = 128 / Nibwidth, /* bits / bits-per-nibble */
/*
* ttl for generated ptr records. it was zero, which might seem
* like a good idea, but some dns implementations seem to be
* confused by a zero ttl, and instead of using the data and then
* discarding the RR, they conclude that they don't have valid data.
*/
Ptrttl = 120,
};
static Ndb *db;
static Lock dblock;
static RR* addrrr(Ndbtuple*, Ndbtuple*);
static RR* cnamerr(Ndbtuple*, Ndbtuple*);
static void createptrs(void);
static RR* dblookup1(char*, int, int, int);
static RR* doaxfr(Ndb*, char*);
static Ndbtuple*look(Ndbtuple*, Ndbtuple*, char*);
static RR* mxrr(Ndbtuple*, Ndbtuple*);
static RR* nsrr(Ndbtuple*, Ndbtuple*);
static RR* nullrr(Ndbtuple*, Ndbtuple*);
static RR* ptrrr(Ndbtuple*, Ndbtuple*);
static RR* soarr(Ndbtuple*, Ndbtuple*);
static RR* srvrr(Ndbtuple*, Ndbtuple*);
static RR* txtrr(Ndbtuple*, Ndbtuple*);
static RR* caarr(Ndbtuple*, Ndbtuple*);
static char implemented[Tall] =
{
[Ta] 1,
[Taaaa] 1,
[Tcname] 1,
[Tmx] 1,
[Tns] 1,
[Tnull] 1,
[Tptr] 1,
[Tsoa] 1,
[Tsrv] 1,
[Ttxt] 1,
[Tcaa] 1,
};
/* straddle server configuration */
static Ndbtuple *indoms, *innmsrvs, *outnmsrvs;
static void
nstrcpy(char *to, char *from, int len)
{
strncpy(to, from, len);
to[len-1] = 0;
}
int
opendatabase(void)
{
char netdbnm[256];
Ndb *xdb, *netdb;
if (db)
return 0;
xdb = ndbopen(dbfile); /* /lib/ndb */
snprint(netdbnm, sizeof netdbnm, "%s/ndb", mntpt);
netdb = ndbopen(netdbnm); /* /net/ndb */
if(netdb)
netdb->nohash = 1;
db = ndbcat(netdb, xdb); /* both */
return db? 0: -1;
}
/*
* lookup an RR in the network database, look for matches
* against both the domain name and the wildcarded domain name.
*
* the lock makes sure only one process can be accessing the data
* base at a time. This is important since there's a lot of
* shared state there.
*
* e.g. for x.research.bell-labs.com, first look for a match against
* the x.research.bell-labs.com. If nothing matches,
* try *.research.bell-labs.com.
*/
RR*
dblookup(char *name, int class, int type, int auth, int ttl)
{
int err;
char *wild, *cp;
char buf[256];
RR *rp, *tp;
DN *dp, *ndp;
/* so far only internet lookups are implemented */
if(class != Cin)
return 0;
err = Rname;
rp = nil;
if(type == Tany || type == Tall){
for (type = Ta; type < Tall; type++)
if(implemented[type]) {
tp = dblookup(name, class, type, auth, ttl);
lock(&dnlock);
rrcat(&rp, tp);
unlock(&dnlock);
}
return rp;
}
if(type == Tipall){
tp = dblookup(name, class, Ta, auth, ttl);
lock(&dnlock);
rrcat(&rp, tp);
unlock(&dnlock);
tp = dblookup(name, class, Taaaa, auth, ttl);
lock(&dnlock);
rrcat(&rp, tp);
unlock(&dnlock);
return rp;
}
lock(&dblock);
dp = dnlookup(name, class, 1);
if(opendatabase() < 0)
goto out;
if(dp->rr)
err = 0;
/* first try the given name */
if(cfg.cachedb)
rp = rrlookup(dp, type, NOneg);
else
rp = dblookup1(name, type, auth, ttl);
if(rp)
goto out;
/* try lower case version */
for(cp = name; *cp; cp++)
*cp = tolower(*cp);
if(cfg.cachedb)
rp = rrlookup(dp, type, NOneg);
else
rp = dblookup1(name, type, auth, ttl);
if(rp)
goto out;
/* walk the domain name trying the wildcard '*' at each position */
for(wild = strchr(name, '.'); wild; wild = strchr(wild+1, '.')){
snprint(buf, sizeof buf, "*%s", wild);
ndp = dnlookup(buf, class, 1);
if(ndp->rr)
err = 0;
if(cfg.cachedb)
rp = rrlookup(ndp, type, NOneg);
else
rp = dblookup1(buf, type, auth, ttl);
if(rp)
break;
}
out:
/* add owner to uncached records */
if(rp)
for(tp = rp; tp; tp = tp->next)
tp->owner = dp;
else {
/*
* don't call it non-existent if it's not ours
* (unless we're a resolver).
*/
if(err == Rname && (!inmyarea(name) || cfg.resolver))
err = Rserver;
dp->respcode = err;
}
unlock(&dblock);
return rp;
}
static ulong
intval(Ndbtuple *entry, Ndbtuple *pair, char *attr, ulong def)
{
Ndbtuple *t = look(entry, pair, attr);
return (t? strtoul(t->val, 0, 10): def);
}
/*
* lookup an RR in the network database
*/
static RR*
dblookup1(char *name, int type, int auth, int ttl)
{
Ndbtuple *t, *nt;
RR *rp, *list, **l;
Ndbs s;
char dname[Domlen];
char *attr;
DN *dp;
RR *(*f)(Ndbtuple*, Ndbtuple*);
int found, x;
dp = nil;
switch(type){
case Tptr:
attr = "ptr";
f = ptrrr;
break;
case Ta:
attr = "ip";
f = addrrr;
break;
case Taaaa:
attr = "ipv6";
f = addrrr;
break;
case Tnull:
attr = "nullrr";
f = nullrr;
break;
case Tns:
attr = "ns";
f = nsrr;
break;
case Tsoa:
attr = "soa";
f = soarr;
break;
case Tsrv:
attr = "srv";
f = srvrr;
break;
case Tmx:
attr = "mx";
f = mxrr;
break;
case Tcname:
attr = "cname";
f = cnamerr;
break;
case Ttxt:
attr = "txtrr";
f = txtrr;
break;
case Tcaa:
attr = "caa";
f = caarr;
break;
case Taxfr:
case Tixfr:
return doaxfr(db, name);
default:
// dnslog("dnlookup1(%s) bad type", name);
return nil;
}
/*
* find a matching entry in the database
*/
t = nil;
free(ndbgetvalue(db, &s, "dom", name, attr, &t));
/*
* hack for local names
*/
if(t == nil && strchr(name, '.') == nil)
free(ndbgetvalue(db, &s, "sys", name, attr, &t));
if(t == nil) {
// dnslog("dnlookup1(%s) name not found", name);
return nil;
}
/* search whole entry for default domain name */
strncpy(dname, name, sizeof dname);
for(nt = t; nt; nt = nt->entry)
if(strcmp(nt->attr, "dom") == 0){
nstrcpy(dname, nt->val, sizeof dname);
break;
}
/* ttl is maximum of soa minttl and entry's ttl ala rfc883 */
x = intval(t, s.t, "ttl", 0);
if(x > ttl)
ttl = x;
/* default ttl is one day */
if(ttl < 0)
ttl = DEFTTL;
/*
* The database has 2 levels of precedence; line and entry.
* Pairs on the same line bind tighter than pairs in the
* same entry, so we search the line first.
*/
found = 0;
list = 0;
l = &list;
for(nt = s.t;; ){
if(found == 0 && strcmp(nt->attr, "dom") == 0){
nstrcpy(dname, nt->val, sizeof dname);
found = 1;
}
if(cistrcmp(attr, nt->attr) == 0){
rp = (*f)(t, nt);
rp->auth = auth;
rp->db = 1;
if(ttl)
rp->ttl = ttl;
if(dp == nil)
dp = dnlookup(dname, Cin, 1);
rp->owner = dp;
*l = rp;
l = &rp->next;
nt->ptr = 1;
}
nt = nt->line;
if(nt == s.t)
break;
}
/* search whole entry */
for(nt = t; nt; nt = nt->entry)
if(nt->ptr == 0 && cistrcmp(attr, nt->attr) == 0){
rp = (*f)(t, nt);
rp->db = 1;
if(ttl)
rp->ttl = ttl;
rp->auth = auth;
if(dp == nil)
dp = dnlookup(dname, Cin, 1);
rp->owner = dp;
*l = rp;
l = &rp->next;
}
ndbfree(t);
// dnslog("dnlookup1(%s) -> %#p", name, list);
return list;
}
/*
* make various types of resource records from a database entry
*/
static RR*
addrrr(Ndbtuple *entry, Ndbtuple *pair)
{
RR *rp;
uchar addr[IPaddrlen];
USED(entry);
parseip(addr, pair->val);
if (cistrcmp(pair->attr, "ipv6") == 0 || !isv4(addr))
rp = rralloc(Taaaa);
else
rp = rralloc(Ta);
rp->ip = dnlookup(pair->val, Cin, 1);
return rp;
}
static RR*
nullrr(Ndbtuple *entry, Ndbtuple *pair)
{
RR *rp;
USED(entry);
rp = rralloc(Tnull);
rp->null->data = (uchar*)estrdup(pair->val);
rp->null->dlen = strlen((char*)rp->null->data);
return rp;
}
/*
* txt rr strings are at most 255 bytes long. one
* can represent longer strings by multiple concatenated
* <= 255 byte ones.
*/
static RR*
txtrr(Ndbtuple *entry, Ndbtuple *pair)
{
RR *rp;
Txt *t, **l;
int i, len, sofar;
USED(entry);
rp = rralloc(Ttxt);
l = &rp->txt;
rp->txt = nil;
len = strlen(pair->val);
sofar = 0;
while(len > sofar){
t = emalloc(sizeof(*t));
t->next = nil;
i = len-sofar;
if(i > 255)
i = 255;
t->p = emalloc(i+1);
memmove(t->p, pair->val+sofar, i);
t->p[i] = 0;
sofar += i;
*l = t;
l = &t->next;
}
return rp;
}
static RR*
cnamerr(Ndbtuple *entry, Ndbtuple *pair)
{
RR *rp;
USED(entry);
rp = rralloc(Tcname);
rp->host = dnlookup(pair->val, Cin, 1);
return rp;
}
static RR*
mxrr(Ndbtuple *entry, Ndbtuple *pair)
{
RR *rp;
rp = rralloc(Tmx);
rp->host = dnlookup(pair->val, Cin, 1);
rp->pref = intval(entry, pair, "pref", 1);
return rp;
}
static RR*
nsrr(Ndbtuple *entry, Ndbtuple *pair)
{
RR *rp;
Ndbtuple *t;
rp = rralloc(Tns);
rp->host = dnlookup(pair->val, Cin, 1);
t = look(entry, pair, "soa");
if(t && t->val[0] == 0)
rp->local = 1;
return rp;
}
static RR*
ptrrr(Ndbtuple *entry, Ndbtuple *pair)
{
RR *rp;
USED(entry);
rp = rralloc(Tns);
rp->ptr = dnlookup(pair->val, Cin, 1);
return rp;
}
static RR*
soarr(Ndbtuple *entry, Ndbtuple *pair)
{
RR *rp;
Ndbtuple *ns, *mb, *t;
char mailbox[Domlen];
Ndb *ndb;
char *p;
rp = rralloc(Tsoa);
rp->soa->serial = 1;
for(ndb = db; ndb; ndb = ndb->next)
if(ndb->mtime > rp->soa->serial)
rp->soa->serial = ndb->mtime;
rp->soa->retry = intval(entry, pair, "retry", Hour);
rp->soa->expire = intval(entry, pair, "expire", Day);
rp->soa->minttl = intval(entry, pair, "ttl", Day);
rp->soa->refresh = intval(entry, pair, "refresh", Day);
rp->soa->serial = intval(entry, pair, "serial", rp->soa->serial);
ns = look(entry, pair, "ns");
if(ns == nil)
ns = look(entry, pair, "dom");
rp->host = dnlookup(ns->val, Cin, 1);
/* accept all of:
* mbox=person
* [email protected]
* mbox=person.machine.dom
*/
mb = look(entry, pair, "mbox");
if(mb == nil)
mb = look(entry, pair, "mb");
if(mb)
if(strchr(mb->val, '.')) {
p = strchr(mb->val, '@');
if(p != nil)
*p = '.';
rp->rmb = dnlookup(mb->val, Cin, 1);
} else {
snprint(mailbox, sizeof mailbox, "%s.%s",
mb->val, ns->val);
rp->rmb = dnlookup(mailbox, Cin, 1);
}
else {
snprint(mailbox, sizeof mailbox, "postmaster.%s", ns->val);
rp->rmb = dnlookup(mailbox, Cin, 1);
}
/*
* hang dns slaves off of the soa. this is
* for managing the area.
*/
for(t = entry; t != nil; t = t->entry)
if(strcmp(t->attr, "dnsslave") == 0)
addserver(&rp->soa->slaves, t->val);
return rp;
}
static RR*
srvrr(Ndbtuple *entry, Ndbtuple *pair)
{
RR *rp;
rp = rralloc(Tsrv);
rp->host = dnlookup(pair->val, Cin, 1);
rp->srv->pri = intval(entry, pair, "pri", 0);
rp->srv->weight = intval(entry, pair, "weight", 0);
/* TODO: translate service name to port # */
rp->port = intval(entry, pair, "port", 0);
return rp;
}
static RR*
caarr(Ndbtuple *entry, Ndbtuple *pair)
{
RR *rp;
Ndbtuple *t;
rp = rralloc(Tcaa);
rp->caa->flag = intval(entry, pair, "flag", 0);
t = look(entry, pair, "tag");
if(t != nil)
rp->caa->tag = estrdup(t->val);
rp->host = dnlookup(pair->val, Cin, 1);
return rp;
}
/*
* Look for a pair with the given attribute. look first on the same line,
* then in the whole entry.
*/
static Ndbtuple*
look(Ndbtuple *entry, Ndbtuple *line, char *attr)
{
Ndbtuple *nt;
/* first look on same line (closer binding) */
for(nt = line;;){
if(cistrcmp(attr, nt->attr) == 0)
return nt;
nt = nt->line;
if(nt == line)
break;
}
/* search whole tuple */
for(nt = entry; nt; nt = nt->entry)
if(cistrcmp(attr, nt->attr) == 0)
return nt;
return 0;
}
static RR**
linkrr(RR *rp, DN *dp, RR **l)
{
rp->owner = dp;
rp->auth = 1;
rp->db = 1;
*l = rp;
return &rp->next;
}
/* these are answered specially by the tcp version */
static RR*
doaxfr(Ndb *db, char *name)
{
USED(db, name);
return 0;
}
/*
* read the all the soa's from the database to determine area's.
* this is only used when we're not caching the database.
*/
static void
dbfile2area(Ndb *db)
{
Ndbtuple *t;
if(debug)
dnslog("rereading %s", db->file);
Bseek(&db->b, 0, 0);
while(t = ndbparse(db))
ndbfree(t);
}
/*
* read the database into the cache
*/
static void
dbpair2cache(DN *dp, Ndbtuple *entry, Ndbtuple *pair)
{
RR *rp;
static ulong ord;
rp = 0;
if(cistrcmp(pair->attr, "ip") == 0 ||
cistrcmp(pair->attr, "ipv6") == 0){
dp->ordinal = ord++;
rp = addrrr(entry, pair);
} else if(cistrcmp(pair->attr, "ns") == 0)
rp = nsrr(entry, pair);
else if(cistrcmp(pair->attr, "soa") == 0) {
rp = soarr(entry, pair);
addarea(dp, rp, pair);
} else if(cistrcmp(pair->attr, "mx") == 0)
rp = mxrr(entry, pair);
else if(cistrcmp(pair->attr, "srv") == 0)
rp = srvrr(entry, pair);
else if(cistrcmp(pair->attr, "cname") == 0)
rp = cnamerr(entry, pair);
else if(cistrcmp(pair->attr, "nullrr") == 0)
rp = nullrr(entry, pair);
else if(cistrcmp(pair->attr, "txtrr") == 0)
rp = txtrr(entry, pair);
else if(cistrcmp(pair->attr, "caa") == 0)
rp = caarr(entry, pair);
if(rp == nil)
return;
rp->owner = dp;
dnagenever(dp, 1);
rp->db = 1;
rp->ttl = intval(entry, pair, "ttl", rp->ttl);
rrattach(rp, Notauthoritative);
}
static void
dbtuple2cache(Ndbtuple *t)
{
Ndbtuple *et, *nt;
DN *dp;
for(et = t; et; et = et->entry)
if(strcmp(et->attr, "dom") == 0){
dp = dnlookup(et->val, Cin, 1);
/* first same line */
for(nt = et->line; nt != et; nt = nt->line){
dbpair2cache(dp, t, nt);
nt->ptr = 1;
}
/* then rest of entry */
for(nt = t; nt; nt = nt->entry){
if(nt->ptr == 0)
dbpair2cache(dp, t, nt);
nt->ptr = 0;
}
}
}
static void
dbfile2cache(Ndb *db)
{
Ndbtuple *t;
if(debug)
dnslog("rereading %s", db->file);
Bseek(&db->b, 0, 0);
while(t = ndbparse(db)){
dbtuple2cache(t);
ndbfree(t);
}
}
/* called with dblock held */
static void
loaddomsrvs(void)
{
Ndbs s;
if (!cfg.inside || !cfg.straddle || !cfg.serve)
return;
if (indoms) {
ndbfree(indoms);
ndbfree(innmsrvs);
ndbfree(outnmsrvs);
indoms = innmsrvs = outnmsrvs = nil;
}
if (db == nil)
opendatabase();
free(ndbgetvalue(db, &s, "sys", "inside-dom", "dom", &indoms));
free(ndbgetvalue(db, &s, "sys", "inside-ns", "ip", &innmsrvs));
free(ndbgetvalue(db, &s, "sys", "outside-ns", "ip", &outnmsrvs));
dnslog("[%d] ndb changed: reloaded inside-dom, inside-ns, outside-ns",
getpid());
}
void
db2cache(int doit)
{
ulong youngest;
Ndb *ndb;
Dir *d;
static ulong lastcheck, lastyoungest;
/* no faster than once every 2 minutes */
if(now < lastcheck + 2*Min && !doit)
return;
refresh_areas(owned);
lock(&dblock);
if(opendatabase() < 0){
unlock(&dblock);
return;
}
/*
* file may be changing as we are reading it, so loop till
* mod times are consistent.
*
* we don't use the times in the ndb records because they may
* change outside of refreshing our cached knowledge.
*/
for(;;){
lastcheck = now;
youngest = 0;
for(ndb = db; ndb; ndb = ndb->next)
/* dirfstat avoids walking the mount table each time */
if((d = dirfstat(Bfildes(&ndb->b))) != nil ||
(d = dirstat(ndb->file)) != nil){
if(d->mtime > youngest)
youngest = d->mtime;
free(d);
}
if(!doit && youngest == lastyoungest)
break;
/* forget our area definition */
freearea(&owned);
freearea(&delegated);
/* reopen all the files (to get oldest for time stamp) */
for(ndb = db; ndb; ndb = ndb->next)
ndbreopen(ndb);
/* reload straddle-server configuration */
loaddomsrvs();
if(cfg.cachedb){
/* mark all db records as timed out */
dnagedb();
/* read in new entries */
for(ndb = db; ndb; ndb = ndb->next)
dbfile2cache(ndb);
/* mark as authoritative anything in our domain */
dnauthdb();
/* remove old entries */
dnageall(1);
} else
/* read all the soa's to get database defaults */
for(ndb = db; ndb; ndb = ndb->next)
dbfile2area(ndb);
doit = 0;
lastyoungest = youngest;
createptrs();
}
unlock(&dblock);
}
void
dnforceage(void)
{
lock(&dblock);
dnageall(1);
unlock(&dblock);
}
extern uchar ipaddr[IPaddrlen]; /* my ip address */
/*
* get all my xxx
* caller ndbfrees the result
*/
Ndbtuple*
lookupinfo(char *attr)
{
char buf[64];
char *a[2];
Ndbtuple *t;
snprint(buf, sizeof buf, "%I", ipaddr);
a[0] = attr;
lock(&dblock);
if(opendatabase() < 0){
unlock(&dblock);
return nil;
}
t = ndbipinfo(db, "ip", buf, a, 1);
unlock(&dblock);
return t;
}
char *localservers = "local#dns#servers";
char *localserverprefix = "local#dns#server";
/*
* return non-zero if this is a bad delegation
*/
int
baddelegation(RR *rp, RR *nsrp, uchar *addr)
{
Ndbtuple *nt;
static int whined;
static Ndbtuple *t;
if(t == nil)
t = lookupinfo("dom");
if(t == nil)
return 0;
for(; rp; rp = rp->next){
if(rp->type != Tns)
continue;
/* see if delegation is looping */
if(nsrp)
if(rp->owner != nsrp->owner)
if(subsume(rp->owner->name, nsrp->owner->name) &&
strcmp(nsrp->owner->name, localservers) != 0){
dnslog("delegation loop %R -> %R from %I",
nsrp, rp, addr);
return 1;
}
/* see if delegating to us what we don't own */
for(nt = t; nt != nil; nt = nt->entry)
if(rp->host && cistrcmp(rp->host->name, nt->val) == 0)
break;
if(nt != nil && !inmyarea(rp->owner->name)){
if (!whined) {
whined = 1;
dnslog("bad delegation %R from %I; "
"no further logging of them", rp, addr);
}
return 1;
}
}
return 0;
}
int
myaddr(char *addr)
{
char *name, *line, *sp;
char buf[64];
Biobuf *bp;
snprint(buf, sizeof buf, "%I", ipaddr);
if (strcmp(addr, buf) == 0) {
dnslog("rejecting my ip %s as local dns server", addr);
return 1;
}
name = smprint("%s/ipselftab", mntpt);
bp = Bopen(name, OREAD);
free(name);
if (bp != nil) {
while ((line = Brdline(bp, '\n')) != nil) {
line[Blinelen(bp) - 1] = '\0';
sp = strchr(line, ' ');
if (sp) {
*sp = '\0';
if (strcmp(addr, line) == 0) {
dnslog("rejecting my ip %s as local dns server",
addr);
return 1;
}
}
}
Bterm(bp);
}
return 0;
}
static char *locdns[20];
static QLock locdnslck;
static void
addlocaldnsserver(DN *dp, int class, char *ipaddr, int i)
{
int n;
DN *nsdp;
RR *rp;
char buf[32];
uchar ip[IPaddrlen];
/* reject our own ip addresses so we don't query ourselves via udp */
if (myaddr(ipaddr))
return;
qlock(&locdnslck);
for (n = 0; n < i && n < nelem(locdns) && locdns[n]; n++)
if (strcmp(locdns[n], ipaddr) == 0) {
dnslog("rejecting duplicate local dns server ip %s",
ipaddr);
qunlock(&locdnslck);
return;
}
if (n < nelem(locdns))
if (locdns[n] == nil || ++n < nelem(locdns))
locdns[n] = strdup(ipaddr); /* remember 1st few local ns */
qunlock(&locdnslck);
/* ns record for name server, make up an impossible name */
rp = rralloc(Tns);
snprint(buf, sizeof buf, "%s%d", localserverprefix, i);
nsdp = dnlookup(buf, class, 1);
rp->host = nsdp;
rp->owner = dp; /* e.g., local#dns#servers */
rp->local = 1;
rp->db = 1;
// rp->ttl = 10*Min; /* seems too short */
rp->ttl = (1UL<<31)-1;
rrattach(rp, Authoritative); /* will not attach rrs in my area */
/* A or AAAA record */
if (parseip(ip, ipaddr) >= 0 && isv4(ip))
rp = rralloc(Ta);
else
rp = rralloc(Taaaa);
rp->ip = dnlookup(ipaddr, class, 1);
rp->owner = nsdp;
rp->local = 1;
rp->db = 1;
// rp->ttl = 10*Min; /* seems too short */
rp->ttl = (1UL<<31)-1;
rrattach(rp, Authoritative); /* will not attach rrs in my area */
dnslog("added local dns server %s at %s", buf, ipaddr);
}
/*
* return list of dns server addresses to use when
* acting just as a resolver.
*/
RR*
dnsservers(int class)
{
int i, n;
char *p;
char *args[5];
Ndbtuple *t, *nt;
RR *nsrp;
DN *dp;
dp = dnlookup(localservers, class, 1);
nsrp = rrlookup(dp, Tns, NOneg);
if(nsrp != nil)
return nsrp;
p = getenv("DNSSERVER"); /* list of ip addresses */
if(p != nil){
n = tokenize(p, args, nelem(args));
for(i = 0; i < n; i++)
addlocaldnsserver(dp, class, args[i], i);
free(p);
} else {
t = lookupinfo("@dns"); /* @dns=ip1 @dns=ip2 ... */
if(t == nil)
return nil;
i = 0;
for(nt = t; nt != nil; nt = nt->entry){
addlocaldnsserver(dp, class, nt->val, i);
i++;
}
ndbfree(t);
}
return rrlookup(dp, Tns, NOneg);
}
static void
addlocaldnsdomain(DN *dp, int class, char *domain)
{
RR *rp;
/* ptr record */
rp = rralloc(Tptr);
rp->ptr = dnlookup(domain, class, 1);
rp->owner = dp;
rp->db = 1;
rp->ttl = 10*Min;
rrattach(rp, Authoritative);
}
/*
* return list of domains to use when resolving names without '.'s
*/
RR*
domainlist(int class)
{
Ndbtuple *t, *nt;
RR *rp;
DN *dp;
dp = dnlookup("local#dns#domains", class, 1);
rp = rrlookup(dp, Tptr, NOneg);
if(rp != nil)
return rp;
t = lookupinfo("dnsdomain");
if(t == nil)
return nil;
for(nt = t; nt != nil; nt = nt->entry)
addlocaldnsdomain(dp, class, nt->val);
ndbfree(t);
return rrlookup(dp, Tptr, NOneg);
}
char *v4ptrdom = ".in-addr.arpa";
char *v6ptrdom = ".ip6.arpa"; /* ip6.int deprecated, rfc 3152 */
char *attribs[] = {
"ipmask",
0
};
/*
* create ptrs that are in our v4 areas
*/
static void
createv4ptrs(void)
{
int len, dlen, n;
char *dom;
char buf[Domlen+1], ipa[48];
char *f[40];
uchar net[IPaddrlen], mask[IPaddrlen];
Area *s;
Ndbtuple *t, *nt;
dlen = strlen(v4ptrdom);
for(s = owned; s; s = s->next){
dom = s->soarr->owner->name;
len = strlen(dom);
if((len <= dlen || cistrcmp(dom+len-dlen, v4ptrdom) != 0) &&
cistrcmp(dom, v4ptrdom+1) != 0)
continue;
/* get mask and net value */
strncpy(buf, dom, sizeof buf);
buf[sizeof buf-1] = 0;
/* buf contains something like 178.204.in-addr.arpa (n==4) */
n = getfields(buf, f, nelem(f), 0, ".");
memset(mask, 0xff, IPaddrlen);
ipmove(net, v4prefix);
switch(n){
case 3: /* /8 */
net[IPv4off] = atoi(f[0]);
mask[IPv4off+1] = 0;
mask[IPv4off+2] = 0;
mask[IPv4off+3] = 0;
break;
case 4: /* /16 */
net[IPv4off] = atoi(f[1]);
net[IPv4off+1] = atoi(f[0]);
mask[IPv4off+2] = 0;
mask[IPv4off+3] = 0;
break;
case 5: /* /24 */
net[IPv4off] = atoi(f[2]);
net[IPv4off+1] = atoi(f[1]);
net[IPv4off+2] = atoi(f[0]);
mask[IPv4off+3] = 0;
break;
case 6: /* rfc2317: classless in-addr.arpa delegation */
net[IPv4off] = atoi(f[3]);
net[IPv4off+1] = atoi(f[2]);
net[IPv4off+2] = atoi(f[1]);
net[IPv4off+3] = atoi(f[0]);
snprint(ipa, sizeof ipa, "%I", net);
t = ndbipinfo(db, "ip", ipa, attribs, 1);
if(t == nil) /* could be a reverse with no forward */
continue;
nt = look(t, t, "ipmask");
if(nt == nil){ /* we're confused */
ndbfree(t);
continue;
}
parseipmask(mask, nt->val);
ndbfree(t);
n = 5;
break;
default:
continue;
}
/*
* go through all domain entries looking for RR's
* in this network and create ptrs.
* +2 for ".in-addr.arpa".
*/
dnptr(net, mask, dom, Ta, 4+2-n, Ptrttl);
}
}
/* convert bytes to nibbles, big-endian */
void
bytes2nibbles(uchar *nibbles, uchar *bytes, int nbytes)
{
while (nbytes-- > 0) {
*nibbles++ = *bytes >> Nibwidth;
*nibbles++ = *bytes++ & Nibmask;
}
}
void
nibbles2bytes(uchar *bytes, uchar *nibbles, int nnibs)
{
for (; nnibs >= 2; nnibs -= 2) {
*bytes++ = nibbles[0] << Nibwidth | (nibbles[1]&Nibmask);
nibbles += 2;
}
if (nnibs > 0)
*bytes = nibbles[0] << Nibwidth;
}
/*
* create ptrs that are in our v6 areas. see rfc3596
*/
static void
createv6ptrs(void)
{
int len, dlen, i, n, pfxnibs;
char *dom;
char buf[Domlen+1];
char *f[40];
uchar net[IPaddrlen], mask[IPaddrlen];
uchar nibnet[IPaddrlen*2], nibmask[IPaddrlen*2];
Area *s;
dlen = strlen(v6ptrdom);
for(s = owned; s; s = s->next){
dom = s->soarr->owner->name;
len = strlen(dom);
if((len <= dlen || cistrcmp(dom+len-dlen, v6ptrdom) != 0) &&
cistrcmp(dom, v6ptrdom+1) != 0)
continue;
/* get mask and net value */
strncpy(buf, dom, sizeof buf);
buf[sizeof buf-1] = 0;
/* buf contains something like 2.0.0.2.ip6.arpa (n==6) */
n = getfields(buf, f, nelem(f), 0, ".");
pfxnibs = n - 2; /* 2 for .ip6.arpa */
if (pfxnibs < 0 || pfxnibs > V6maxrevdomdepth)
continue;
memset(net, 0, IPaddrlen);
memset(mask, 0xff, IPaddrlen);
bytes2nibbles(nibnet, net, IPaddrlen);
bytes2nibbles(nibmask, mask, IPaddrlen);
/* copy prefix of f, in reverse order, to start of net. */
for (i = 0; i < pfxnibs; i++)
nibnet[i] = strtol(f[pfxnibs - 1 - i], nil, 16);
/* zero nibbles of mask after prefix in net */
memset(nibmask + pfxnibs, 0, V6maxrevdomdepth - pfxnibs);
nibbles2bytes(net, nibnet, 2*IPaddrlen);
nibbles2bytes(mask, nibmask, 2*IPaddrlen);
/*
* go through all domain entries looking for RR's
* in this network and create ptrs.
*/
dnptr(net, mask, dom, Taaaa, V6maxrevdomdepth - pfxnibs, Ptrttl);
}
}
/*
* create ptrs that are in our areas
*/
static void
createptrs(void)
{
createv4ptrs();
createv6ptrs();
}
/*
* is this domain (or DOMAIN or Domain or dOMAIN)
* internal to our organisation (behind our firewall)?
* only inside straddling servers care, everybody else gets told `yes',
* so they'll use mntpt for their queries.
*/
int
insideaddr(char *dom)
{
int domlen, vallen, rv;
Ndbtuple *t;
if (!cfg.inside || !cfg.straddle || !cfg.serve)
return 1;
if (dom[0] == '\0' || strcmp(dom, ".") == 0) /* dns root? */
return 1; /* hack for initialisation */
lock(&dblock);
if (indoms == nil)
loaddomsrvs();
if (indoms == nil) {
unlock(&dblock);
return 1; /* no "inside-dom" sys, try inside nameservers */
}
rv = 0;
domlen = strlen(dom);
for (t = indoms; t != nil; t = t->entry) {
if (strcmp(t->attr, "dom") != 0)
continue;
vallen = strlen(t->val);
if (cistrcmp(dom, t->val) == 0 ||
domlen > vallen &&
cistrcmp(dom + domlen - vallen, t->val) == 0 &&
dom[domlen - vallen - 1] == '.') {
rv = 1;
break;
}
}
unlock(&dblock);
return rv;
}
int
insidens(uchar *ip)
{
uchar ipa[IPaddrlen];
Ndbtuple *t;
for (t = innmsrvs; t != nil; t = t->entry)
if (strcmp(t->attr, "ip") == 0) {
parseip(ipa, t->val);
if (memcmp(ipa, ip, sizeof ipa) == 0)
return 1;
}
return 0;
}
uchar *
outsidens(int n)
{
int i;
Ndbtuple *t;
static uchar ipa[IPaddrlen];
i = 0;
for (t = outnmsrvs; t != nil; t = t->entry)
if (strcmp(t->attr, "ip") == 0 && i++ == n) {
parseip(ipa, t->val);
return ipa;
}
return nil;
}
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