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rbldnsd_ip6trie.c
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rbldnsd_ip6trie.c
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/* ip6trie dataset type: IP6 CIDR ranges with A and TXT values.
* Only one value per range allowed.
*/
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include "rbldnsd.h"
#include "btrie.h"
struct dsdata {
struct btrie *btrie;
const char *def_rr; /* default RR */
};
definedstype(ip6trie, DSTF_IP6REV, "set of (ip6cidr, value) pairs");
static void
ds_ip6trie_reset(struct dsdata *dsd, int UNUSED unused_freeall)
{
memset(dsd, 0, sizeof(*dsd));
}
static void
ds_ip6trie_start(struct dataset *ds)
{
struct dsdata *dsd = ds->ds_dsd;
dsd->def_rr = def_rr;
if (!dsd->btrie)
dsd->btrie = btrie_init(ds->ds_mp);
}
static int
ds_ip6trie_line(struct dataset *ds, char *s, struct dsctx *dsc)
{
struct dsdata *dsd = ds->ds_dsd;
const char *rr;
unsigned rrl;
int bits, excl, non_zero_host;
ip6oct_t addr[IP6ADDR_FULL];
/* "::" 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] != ':') {
if (!(rrl = parse_a_txt(s, &rr, def_rr, dsc)))
return 1;
if (!(dsd->def_rr = mp_dmemdup(ds->ds_mp, rr, rrl)))
return 0;
return 1;
}
excl = *s == '!';
if (excl) {
++s;
SKIPSPACE(s);
}
bits = ip6cidr(s, addr, &s);
if (bits < 0 || (*s && !ISSPACE(*s) && !ISCOMMENT(*s) && *s != ':')) {
dswarn(dsc, "invalid address");
return 1;
}
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;
}
SKIPSPACE(s);
if (excl)
rr = NULL;
else if (!*s || ISCOMMENT(*s))
rr = dsd->def_rr;
else if (!(rrl = parse_a_txt(s, &rr, dsd->def_rr, dsc)))
return 1;
else if (!(rr = mp_dmemdup(ds->ds_mp, rr, rrl)))
return 0;
switch(btrie_add_prefix(dsd->btrie, addr, bits, rr)) {
case BTRIE_OKAY:
return 1;
case BTRIE_DUPLICATE_PREFIX:
dswarn(dsc, "duplicated entry for %s/%d",
ip6atos(addr, IP6ADDR_FULL), bits);
return 1;
case BTRIE_ALLOC_FAILED:
default:
return 0; /* oom */
}
}
static void
ds_ip6trie_finish(struct dataset *ds, struct dsctx *dsc)
{
dsloaded(dsc, "%s", btrie_stats(ds->ds_dsd->btrie));
}
static int
ds_ip6trie_query(const struct dataset *ds, const struct dnsqinfo *qi,
struct dnspacket *pkt)
{
const char *subst = NULL;
const char *rr;
if (!qi->qi_ip6valid) return 0;
check_query_overwrites(qi);
rr = btrie_lookup(ds->ds_dsd->btrie, qi->qi_ip6, 8 * IP6ADDR_FULL);
if (!rr)
return 0;
if (qi->qi_tflag & NSQUERY_TXT)
subst = ip6atos(qi->qi_ip6, IP6ADDR_FULL);
addrr_a_txt(pkt, qi->qi_tflag, rr, subst, ds);
return NSQUERY_FOUND;
}
#ifndef NO_MASTER_DUMP
/* routines to increment individual bits in ip6 addr: returns carry */
static inline int
increment_bit(ip6oct_t *addr, int bit)
{
ip6oct_t mask = 1 << (7 - bit % 8);
if (addr[bit / 8] & mask) {
addr[bit / 8] &= ~mask;
return 1;
} else {
addr[bit / 8] |= mask;
return 0;
}
}
struct dump_context {
const struct dataset *ds;
FILE *f;
ip6oct_t prev_addr[IP6ADDR_FULL];
const char *prev_rr;
/* Keep stack of data inherited from parent prefixes */
const void *parent_data[IP6ADDR_FULL * 8 + 1];
unsigned depth;
};
static void
dump_cb(const btrie_oct_t *prefix, unsigned len, const void *data, int post,
void *user_data)
{
struct dump_context *ctx = user_data;
unsigned nb = (len + 7) / 8;
ip6oct_t addr[IP6ADDR_FULL];
if (nb > IP6ADDR_FULL)
return; /* paranoia */
/* pad prefix to full ip6 length */
memcpy(addr, prefix, nb);
memset(addr + nb, 0, IP6ADDR_FULL - nb);
if (post == 0) {
/* pre order visit (before child nodes are visited) */
/* push the inherited data stack down to our level */
for (; ctx->depth < len; ctx->depth++)
ctx->parent_data[ctx->depth + 1] = ctx->parent_data[ctx->depth];
ctx->parent_data[len] = data;
}
else {
/* post order - restore RR at end of prefix */
unsigned carry_bits;
/* increment address to one past the end of the current prefix */
for (carry_bits = 0; carry_bits < len; carry_bits++)
if (increment_bit(addr, len - 1 - carry_bits) == 0)
break; /* no carry */
if (carry_bits == len)
return; /* wrapped - all done */
/* look up the stack one level for each bit of carry to get
* the inherited data value at the incremented address */
ctx->depth = len - 1 - carry_bits;
data = ctx->parent_data[ctx->depth];
}
if (data != ctx->prev_rr) {
if (memcmp(addr, ctx->prev_addr, IP6ADDR_FULL) != 0) {
if (ctx->prev_rr)
dump_ip6range(ctx->prev_addr, addr, ctx->prev_rr, ctx->ds, ctx->f);
memcpy(ctx->prev_addr, addr, IP6ADDR_FULL);
}
/* else addr unchanged => zero-length range, ignore */
ctx->prev_rr = data;
}
/* else rr unchanged => merge current range with previous */
}
static void
ds_ip6trie_dump(const struct dataset *ds,
const unsigned char UNUSED *unused_odn,
FILE *f)
{
struct dump_context ctx;
memset(&ctx, 0, sizeof(ctx));
ctx.ds = ds;
ctx.f = f;
btrie_walk(ds->ds_dsd->btrie, dump_cb, &ctx);
/* flush final range */
if (ctx.prev_rr)
dump_ip6range(ctx.prev_addr, NULL, ctx.prev_rr, ds, f);
}
#endif