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rbldnsd_acl.c
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rbldnsd_acl.c
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/* ACL (Access Control Lists) implementation for rbldnsd.
*/
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <stdint.h>
#include <syslog.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include "rbldnsd.h"
#include "btrie.h"
struct dsdata {
struct btrie *ip4_trie;
#ifndef NO_IPv6
struct btrie *ip6_trie;
#endif
const char *def_rr;
const char *def_action;
};
/* special cases for pseudo-RRs */
static const struct {
const char *name;
unsigned long rr;
} keywords[] = {
/* ignore (don't answer) queries from this IP */
#define RR_IGNORE 1
{ "ignore", RR_IGNORE },
{ "blackhole", RR_IGNORE },
/* refuse *data* queries from this IP (but not metadata) */
#define RR_REFUSE 2
{ "refuse", RR_REFUSE },
/* pretend the zone is completely empty */
#define RR_EMPTY 3
{ "empty", RR_EMPTY },
/* a 'whitelist' entry: pretend this netrange isn't here */
#define RR_PASS 4
{ "pass", RR_PASS },
};
static void ds_acl_reset(struct dsdata *dsd, int UNUSED unused_freeall) {
memset(dsd, 0, sizeof(*dsd));
}
static void ds_acl_start(struct dataset *ds) {
struct dsdata *dsd = ds->ds_dsd;
dsd->def_rr = def_rr;
dsd->def_action = (char*)RR_IGNORE;
if (!dsd->ip4_trie) {
dsd->ip4_trie = btrie_init(ds->ds_mp);
#ifndef NO_IPv6
dsd->ip6_trie = btrie_init(ds->ds_mp);
#endif
}
}
static const char *keyword(const char *s) {
const char *k, *p;
unsigned i;
if (!((*s >= 'a' && *s <= 'z') || (*s >= 'A' && *s <= 'Z')))
return NULL;
for (i = 0; i < sizeof(keywords)/sizeof(keywords[0]); ++i)
for (k = keywords[i].name, p = s;;)
if ((*p >= 'A' && *p <= 'Z' ? *p - 'A' + 'a' : *p) != *k++)
break;
else if (!*++p || *p == ':' || ISSPACE(*p) || ISCOMMENT(*p))
return (const char *)(keywords[i].rr);
return NULL;
}
static int
ds_acl_parse_val(char *s, const char **rr_p, struct dsdata *dsd,
struct dsctx *dsc) {
int r;
if (*s == '=') {
if ((*rr_p = keyword(s+1)))
return 0;
dswarn(dsc, "invalid keyword");
return -1;
}
if (*s == ':' && (*rr_p = keyword(s+1)))
return 0;
r = parse_a_txt(s, rr_p, dsd->def_rr, dsc);
return r ? r : -1;
}
#define VALID_TAIL(c) ((c) == '\0' || ISSPACE(c) || ISCOMMENT(c) || (c) == ':')
static int
ds_acl_line(struct dataset *ds, char *s, struct dsctx *dsc) {
struct dsdata *dsd = ds->ds_dsd;
char *tail;
ip4addr_t ip4addr;
ip6oct_t addr[IP6ADDR_FULL];
const char *ipstring;
struct btrie *trie;
int bits;
const char *rr;
int rrl;
/* "::" can not be a valid start to a default RR setting ("invalid A
* RR") but it can be a valid beginning to an ip6 address
* (e.g. "::1")
*/
if ((*s == ':' && s[1] != ':') || *s == '=') {
if ((rrl = ds_acl_parse_val(s, &rr, dsd, dsc)) < 0)
return 1;
else if (!rrl)
dsd->def_action = rr;
else if (!(rr = mp_dmemdup(ds->ds_mp, rr, rrl)))
return 0;
dsd->def_rr = dsd->def_action = rr;
return 1;
}
if ((bits = ip4cidr(s, &ip4addr, &tail)) >= 0 && VALID_TAIL(tail[0])) {
if (accept_in_cidr)
ip4addr &= ip4mask(bits);
else if (ip4addr & ~ip4mask(bits)) {
dswarn(dsc, "invalid range (non-zero host part)");
return 1;
}
if (dsc->dsc_ip4maxrange && dsc->dsc_ip4maxrange <= ~ip4mask(bits)) {
dswarn(dsc, "too large range (%u) ignored (%u max)",
~ip4mask(bits) + 1, dsc->dsc_ip4maxrange);
return 1;
}
trie = dsd->ip4_trie;
ip4unpack(addr, ip4addr);
ipstring = ip4atos(ip4addr);
s = tail;
}
#ifndef NO_IPv6
else if ((bits = ip6cidr(s, addr, &tail)) >= 0 && VALID_TAIL(tail[0])) {
int non_zero_host = ip6mask(addr, addr, IP6ADDR_FULL, bits);
if (non_zero_host && !accept_in_cidr) {
dswarn(dsc, "invalid range (non-zero host part)");
return 1;
}
trie = dsd->ip6_trie;
ipstring = ip6atos(addr, IP6ADDR_FULL);
s = tail;
}
#endif
else {
dswarn(dsc, "invalid address");
return 1;
}
SKIPSPACE(s);
if (!*s || ISCOMMENT(*s))
rr = dsd->def_action;
else if ((rrl = ds_acl_parse_val(s, &rr, dsd, dsc)) < 0)
return 1;
else if (rrl && !(rr = mp_dmemdup(ds->ds_mp, rr, rrl)))
return 0;
switch(btrie_add_prefix(trie, addr, bits, rr)) {
case BTRIE_OKAY:
return 1;
case BTRIE_DUPLICATE_PREFIX:
dswarn(dsc, "duplicated entry for %s/%d", ipstring, bits);
return 1;
case BTRIE_ALLOC_FAILED:
default:
return 0;
}
}
static void ds_acl_finish(struct dataset *ds, struct dsctx *dsc) {
dsloaded(dsc, "loaded");
dslog(LOG_INFO, dsc, "ip4 trie: %s", btrie_stats(ds->ds_dsd->ip4_trie));
#ifndef NO_IPv6
dslog(LOG_INFO, dsc, "ip6 trie: %s", btrie_stats(ds->ds_dsd->ip6_trie));
#endif
}
int ds_acl_query(const struct dataset *ds, struct dnspacket *pkt) {
const struct sockaddr *sa = pkt->p_peer;
const char *rr;
if (sa->sa_family == AF_INET) {
const struct sockaddr_in *sin = (const struct sockaddr_in *)pkt->p_peer;
if (pkt->p_peerlen < sizeof(*sin))
return 0;
rr = btrie_lookup(ds->ds_dsd->ip4_trie,
(const btrie_oct_t *)&sin->sin_addr.s_addr, 32);
}
#ifndef NO_IPv6
else if (sa->sa_family == AF_INET6) {
const struct sockaddr_in6 *sin6 = (const struct sockaddr_in6 *)pkt->p_peer;
if (pkt->p_peerlen < sizeof(*sin6))
return 0;
rr = btrie_lookup(ds->ds_dsd->ip6_trie,
sin6->sin6_addr.s6_addr, 8 * IP6ADDR_FULL);
}
#endif
else {
return 0;
}
switch((unsigned long)rr) {
case 0: return 0;
case RR_IGNORE: return NSQUERY_IGNORE;
case RR_REFUSE: return NSQUERY_REFUSE;
case RR_EMPTY: return NSQUERY_EMPTY;
case RR_PASS: return 0;
}
if (!pkt->p_substrr) {
pkt->p_substrr = rr;
pkt->p_substds = ds;
}
return NSQUERY_ALWAYS;
}
/*definedstype(acl, DSTF_SPECIAL, "Access Control List dataset");*/
const struct dstype dataset_acl_type = {
"acl", DSTF_SPECIAL, sizeof(struct dsdata),
ds_acl_reset, ds_acl_start, ds_acl_line, ds_acl_finish,
NULL, NULL, NULL, "Access Control List dataset"
};