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|
/* $OpenBSD: rde_trie.c,v 1.12 2020/12/30 07:29:56 claudio Exp $ */
/*
* Copyright (c) 2018 Claudio Jeker <claudio@openbsd.org>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <sys/types.h>
#include <sys/queue.h>
#include <netinet/in.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include "bgpd.h"
#include "rde.h"
/*
* Bitwise compressed trie for prefix-sets.
* Since the trie is path compressed the traversing function needs to check
* that the lookup is still on path before taking a branch.
* There are two types of nodes in the trie. Internal branch nodes and real
* nodes. Internal nodes are added when needed because off path nodes are being
* inserted and are just used for branching.
* During lookup every node defines which bit is checked for branching. This
* offset is strictly increasing. For IPv4 the maximum is therefor 32 levels.
* Every node checks the bit at position plen to decide which branch to take.
* The real nodes also include a prefixlen mask which represents the prefixlen
* range that was defined. The prefixlen mask for IPv4 only has 32 bits but
* the prefixlen range is from 0 - 32 which needs 33bits. Now prefixlen 0 is
* special and only one element -- the default route -- can have prefixlen 0.
* So this default route is added as a flag to the trie_head and needs to be
* checked independent of the trie when doing a lookup.
* On insertion a prefix is added with its prefixlen plen and a min & max
* for the prefixlen range. The following precondition needs to hold
* plen <= min <= max
* To only match the prefix itself min and max are set to plen.
* If a same prefix (addr/plen) is added to the trie but with different
* min & max values then the masks of both nodes are merged with a binary OR.
* The match function returns true the moment the first node is found which
* covers the looked up prefix and where the prefixlen mask matches for the
* looked up prefixlen. The moment the plen of a node is bigger than the
* prefixlen of the looked up prefix the search can be stopped since
* there will be no match.
*/
struct tentry_v4 {
struct tentry_v4 *trie[2];
struct set_table *set; /* for roa source-as set */
struct in_addr addr;
struct in_addr plenmask;
u_int8_t plen;
u_int8_t node;
};
struct tentry_v6 {
struct tentry_v6 *trie[2];
struct set_table *set; /* for roa source-as set */
struct in6_addr addr;
struct in6_addr plenmask;
u_int8_t plen;
u_int8_t node;
};
/*
* Find first different bit between a & b starting from the MSB,
* a & b have to be different.
*/
static int
inet4findmsb(struct in_addr *a, struct in_addr *b)
{
int r = 0;
u_int32_t v;
v = ntohl(a->s_addr ^ b->s_addr);
if (v > 0xffff) { r += 16; v >>= 16; }
if (v > 0x00ff) { r += 8; v >>= 8; }
if (v > 0x000f) { r += 4; v >>= 4; }
if (v > 0x0003) { r += 2; v >>= 2; }
if (v > 0x0001) { r += 1; }
return 31 - r;
}
/*
* Find first different bit between a & b starting from the MSB,
* a & b have to be different.
*/
static int
inet6findmsb(struct in6_addr *a, struct in6_addr *b)
{
int r = 0;
u_int8_t i, x;
for (i = 0; i < sizeof(*a) && a->s6_addr[i] == b->s6_addr[i]; i++)
;
/* first different octet */
x = a->s6_addr[i] ^ b->s6_addr[i];
/* first different bit */
if (x > 0xf) { r += 4; x >>= 4; }
if (x > 0x3) { r += 2; x >>= 2; }
if (x > 0x1) { r += 1; }
return i * 8 + 7 - r;
}
static int
inet4isset(struct in_addr *addr, u_int8_t bit)
{
return addr->s_addr & htonl(1 << (31 - bit));
}
static int
inet6isset(struct in6_addr *addr, u_int8_t bit)
{
return addr->s6_addr[bit / 8] & (0x80 >> (bit % 8));
}
static void
inet4setbit(struct in_addr *addr, u_int8_t bit)
{
/* bit 0 sets the MSB and 31 sets the LSB */
addr->s_addr |= htonl(1 << (31 - bit));
}
static void
inet6setbit(struct in6_addr *addr, u_int8_t bit)
{
addr->s6_addr[bit / 8] |= (0x80 >> (bit % 8));
}
static struct tentry_v4 *
trie_add_v4(struct trie_head *th, struct in_addr *prefix, u_int8_t plen)
{
struct tentry_v4 *n, *new, *b, **prev;
struct in_addr p;
inet4applymask(&p, prefix, plen);
/* walk tree finding spot to insert */
prev = &th->root_v4;
n = *prev;
while (n) {
struct in_addr mp;
u_int8_t minlen;
minlen = n->plen > plen ? plen : n->plen;
inet4applymask(&mp, &p, minlen);
if (n->addr.s_addr != mp.s_addr) {
/*
* out of path, insert intermediary node between
* np and n, then insert n and new node there
*/
if ((b = calloc(1, sizeof(*b))) == NULL)
return NULL;
rdemem.pset_cnt++;
rdemem.pset_size += sizeof(*b);
b->plen = inet4findmsb(&n->addr, &mp);
inet4applymask(&b->addr, &n->addr, b->plen);
*prev = b;
if (inet4isset(&n->addr, b->plen)) {
b->trie[1] = n;
prev = &b->trie[0];
} else {
b->trie[0] = n;
prev = &b->trie[1];
}
n = NULL;
break;
}
if (n->plen > plen) {
/* n is more specific, just insert new in between */
break;
}
if (n->plen == plen) {
/* matching node, adjust */
if (n->node == 0)
th->v4_cnt++;
n->node = 1;
return n;
}
/* no need to check for n->plen == 32 because of above if */
if (inet4isset(&p, n->plen))
prev = &n->trie[1];
else
prev = &n->trie[0];
n = *prev;
}
/* create new node */
if ((new = calloc(1, sizeof(*new))) == NULL)
return NULL;
th->v4_cnt++;
rdemem.pset_cnt++;
rdemem.pset_size += sizeof(*new);
new->addr = p;
new->plen = plen;
new->node = 1;
/* link node */
*prev = new;
if (n) {
if (inet4isset(&n->addr, new->plen))
new->trie[1] = n;
else
new->trie[0] = n;
}
return new;
}
static struct tentry_v6 *
trie_add_v6(struct trie_head *th, struct in6_addr *prefix, u_int8_t plen)
{
struct tentry_v6 *n, *new, *b, **prev;
struct in6_addr p;
inet6applymask(&p, prefix, plen);
/* walk tree finding spot to insert */
prev = &th->root_v6;
n = *prev;
while (n) {
struct in6_addr mp;
u_int8_t minlen;
minlen = n->plen > plen ? plen : n->plen;
inet6applymask(&mp, &p, minlen);
if (memcmp(&n->addr, &mp, sizeof(mp)) != 0) {
/*
* out of path, insert intermediary node between
* np and n, then insert n and new node there
*/
if ((b = calloc(1, sizeof(*b))) == NULL)
return NULL;
rdemem.pset_cnt++;
rdemem.pset_size += sizeof(*b);
b->plen = inet6findmsb(&n->addr, &mp);
inet6applymask(&b->addr, &n->addr, b->plen);
*prev = b;
if (inet6isset(&n->addr, b->plen)) {
b->trie[1] = n;
prev = &b->trie[0];
} else {
b->trie[0] = n;
prev = &b->trie[1];
}
n = NULL;
break;
}
if (n->plen > plen) {
/* n is more specific, just insert new in between */
break;
}
if (n->plen == plen) {
/* matching node, adjust */
if (n->node == 0)
th->v6_cnt++;
n->node = 1;
return n;
}
/* no need to check for n->plen == 128 because of above if */
if (inet6isset(&p, n->plen))
prev = &n->trie[1];
else
prev = &n->trie[0];
n = *prev;
}
/* create new node */
if ((new = calloc(1, sizeof(*new))) == NULL)
return NULL;
th->v6_cnt++;
rdemem.pset_cnt++;
rdemem.pset_size += sizeof(*new);
new->addr = p;
new->plen = plen;
new->node = 1;
/* link node */
*prev = new;
if (n) {
if (inet6isset(&n->addr, new->plen))
new->trie[1] = n;
else
new->trie[0] = n;
}
return new;
}
/*
* Insert prefix/plen into the trie with a prefixlen mask covering min - max.
* If plen == min == max then only the prefix/plen will match and no longer
* match is possible. Else all prefixes under prefix/plen with a prefixlen
* between min and max will match.
*/
int
trie_add(struct trie_head *th, struct bgpd_addr *prefix, u_int8_t plen,
u_int8_t min, u_int8_t max)
{
struct tentry_v4 *n4;
struct tentry_v6 *n6;
u_int8_t i;
/* precondition plen <= min <= max */
if (plen > min || min > max)
return -1;
if (prefix->aid != AID_INET && prefix->aid != AID_INET6)
return -1;
/*
* Check for default route, this is special cased since prefixlen 0
* can't be checked in the prefixlen mask plenmask. Also there is
* only one default route so using a flag for this works.
*/
if (min == 0) {
if (prefix->aid == AID_INET)
th->match_default_v4 = 1;
else
th->match_default_v6 = 1;
if (max == 0) /* just the default route */
return 0;
min = 1;
}
switch (prefix->aid) {
case AID_INET:
if (max > 32)
return -1;
n4 = trie_add_v4(th, &prefix->v4, plen);
if (n4 == NULL)
return -1;
/*
* The prefixlen min - max goes from 1 to 32 but the bitmask
* starts at 0 and so all bits are set with an offset of -1.
* The default /0 route is handled specially above.
*/
for (i = min; i <= max; i++)
inet4setbit(&n4->plenmask, i - 1);
break;
case AID_INET6:
if (max > 128)
return -1;
n6 = trie_add_v6(th, &prefix->v6, plen);
if (n6 == NULL)
return -1;
/* See above for the - 1 reason. */
for (i = min; i <= max; i++)
inet6setbit(&n6->plenmask, i - 1);
break;
}
return 0;
}
/*
* Insert a ROA entry for prefix/plen. The prefix will insert a set with
* source_as and the maxlen as data. This makes it possible to validate if a
* prefix is matching this ROA record. It is possible to insert prefixes with
* source_as = 0. These entries will never return ROA_VALID on check and can
* be used to cover a large prefix as ROA_INVALID unless a more specific route
* is a match.
*/
int
trie_roa_add(struct trie_head *th, struct roa *roa)
{
struct tentry_v4 *n4;
struct tentry_v6 *n6;
struct set_table **stp;
struct roa_set rs, *rsp;
/* ignore possible default route since it does not make sense */
switch (roa->aid) {
case AID_INET:
if (roa->prefixlen > 32)
return -1;
n4 = trie_add_v4(th, &roa->prefix.inet, roa->prefixlen);
if (n4 == NULL)
return -1;
stp = &n4->set;
break;
case AID_INET6:
if (roa->prefixlen > 128)
return -1;
n6 = trie_add_v6(th, &roa->prefix.inet6, roa->prefixlen);
if (n6 == NULL)
return -1;
stp = &n6->set;
break;
default:
/* anything else fails */
return -1;
}
if (*stp == NULL)
if ((*stp = set_new(1, sizeof(rs))) == NULL)
return -1;
/* merge sets with same key, longer maxlen wins */
if ((rsp = set_match(*stp, roa->asnum)) != NULL) {
if (rsp->maxlen < roa->maxlen)
rsp->maxlen = roa->maxlen;
} else {
rs.as = roa->asnum;
rs.maxlen = roa->maxlen;
if (set_add(*stp, &rs, 1) != 0)
return -1;
/* prep data so that set_match works */
set_prep(*stp);
}
return 0;
}
static void
trie_free_v4(struct tentry_v4 *n)
{
if (n == NULL)
return;
trie_free_v4(n->trie[0]);
trie_free_v4(n->trie[1]);
set_free(n->set);
free(n);
rdemem.pset_cnt--;
rdemem.pset_size -= sizeof(*n);
}
static void
trie_free_v6(struct tentry_v6 *n)
{
if (n == NULL)
return;
trie_free_v6(n->trie[0]);
trie_free_v6(n->trie[1]);
set_free(n->set);
free(n);
rdemem.pset_cnt--;
rdemem.pset_size -= sizeof(*n);
}
void
trie_free(struct trie_head *th)
{
trie_free_v4(th->root_v4);
trie_free_v6(th->root_v6);
}
static int
trie_match_v4(struct trie_head *th, struct in_addr *prefix, u_int8_t plen,
int orlonger)
{
struct tentry_v4 *n;
if (plen == 0) {
/* special handling for default route */
return th->match_default_v4;
}
n = th->root_v4;
while (n) {
struct in_addr mp;
if (n->plen > plen)
break; /* too specific, no match possible */
inet4applymask(&mp, prefix, n->plen);
if (n->addr.s_addr != mp.s_addr)
break; /* off path, no match possible */
/* the match covers all larger prefixlens */
if (n->node && orlonger)
return 1;
/* plen is from 1 - 32 but the bitmask starts with 0 */
if (n->node && inet4isset(&n->plenmask, plen - 1))
return 1; /* prefixlen allowed, match */
if (n->plen == 32)
break; /* can't go deeper */
if (inet4isset(prefix, n->plen))
n = n->trie[1];
else
n = n->trie[0];
}
return 0;
}
static int
trie_match_v6(struct trie_head *th, struct in6_addr *prefix, u_int8_t plen,
int orlonger)
{
struct tentry_v6 *n;
if (plen == 0) {
/* special handling for default route */
return th->match_default_v6;
}
n = th->root_v6;
while (n) {
struct in6_addr mp;
if (n->plen > plen)
break; /* too specific, no match possible */
inet6applymask(&mp, prefix, n->plen);
if (memcmp(&n->addr, &mp, sizeof(mp)) != 0)
break; /* off path, no match possible */
/* the match covers all larger prefixlens */
if (n->node && orlonger)
return 1;
/* plen is from 1 - 128 but the bitmask starts with 0 */
if (n->node && inet6isset(&n->plenmask, plen - 1))
return 1; /* prefixlen allowed, match */
if (n->plen == 128)
break; /* can't go deeper */
if (inet6isset(prefix, n->plen))
n = n->trie[1];
else
n = n->trie[0];
}
return 0;
}
/* find first matching element in the trie for prefix "prefix/plen" */
int
trie_match(struct trie_head *th, struct bgpd_addr *prefix, u_int8_t plen,
int orlonger)
{
switch (prefix->aid) {
case AID_INET:
return trie_match_v4(th, &prefix->v4, plen, orlonger);
case AID_INET6:
return trie_match_v6(th, &prefix->v6, plen, orlonger);
default:
/* anything else is no match */
return 0;
}
}
static int
trie_roa_check_v4(struct trie_head *th, struct in_addr *prefix, u_int8_t plen,
u_int32_t as)
{
struct tentry_v4 *n;
struct roa_set *rs;
int validity = ROA_NOTFOUND;
/* ignore possible default route since it does not make sense */
n = th->root_v4;
while (n) {
struct in_addr mp;
if (n->plen > plen)
break; /* too specific, no match possible */
inet4applymask(&mp, prefix, n->plen);
if (n->addr.s_addr != mp.s_addr)
break; /* off path, no other match possible */
if (n->node) {
/*
* The prefix is covered by this roa node
* therefor invalid unless roa_set matches.
*/
validity = ROA_INVALID;
/* AS_NONE can never match, so don't try */
if (as != AS_NONE) {
if ((rs = set_match(n->set, as)) != NULL) {
if (plen == n->plen || plen <= rs->maxlen)
return ROA_VALID;
}
}
}
if (n->plen == 32)
break; /* can't go deeper */
if (inet4isset(prefix, n->plen))
n = n->trie[1];
else
n = n->trie[0];
}
return validity;
}
static int
trie_roa_check_v6(struct trie_head *th, struct in6_addr *prefix, u_int8_t plen,
u_int32_t as)
{
struct tentry_v6 *n;
struct roa_set *rs;
int validity = ROA_NOTFOUND;
/* ignore possible default route since it does not make sense */
n = th->root_v6;
while (n) {
struct in6_addr mp;
if (n->plen > plen)
break; /* too specific, no match possible */
inet6applymask(&mp, prefix, n->plen);
if (memcmp(&n->addr, &mp, sizeof(mp)) != 0)
break; /* off path, no other match possible */
if (n->node) {
/*
* This prefix is covered by this roa node.
* Therefor invalid unless proven otherwise.
*/
validity = ROA_INVALID;
/* AS_NONE can never match, so don't try */
if (as != AS_NONE) {
if ((rs = set_match(n->set, as)) != NULL)
if (plen == n->plen || plen <= rs->maxlen)
return ROA_VALID;
}
}
if (n->plen == 128)
break; /* can't go deeper */
if (inet6isset(prefix, n->plen))
n = n->trie[1];
else
n = n->trie[0];
}
return validity;
}
/*
* Do a ROA (Route Origin Validation) check. Look for elements in the trie
* which cover prefix "prefix/plen" and match the source-as as.
* AS_NONE can be used when the source-as is unknown (e.g. AS_SET).
* The check will then only return ROA_NOTFOUND or ROA_INVALID depending if
* the prefix is covered by the ROA.
*/
int
trie_roa_check(struct trie_head *th, struct bgpd_addr *prefix, u_int8_t plen,
u_int32_t as)
{
/* valid, invalid, unknown */
switch (prefix->aid) {
case AID_INET:
return trie_roa_check_v4(th, &prefix->v4, plen, as);
case AID_INET6:
return trie_roa_check_v6(th, &prefix->v6, plen, as);
default:
/* anything else is not-found */
return ROA_NOTFOUND;
}
}
static int
trie_equal_v4(struct tentry_v4 *a, struct tentry_v4 *b)
{
if (a == NULL && b == NULL)
return 1;
if (a == NULL || b == NULL)
return 0;
if (a->addr.s_addr != b->addr.s_addr ||
a->plen != b->plen ||
a->node != b->node ||
a->plenmask.s_addr != b->plenmask.s_addr)
return 0;
if (set_equal(a->set, b->set) == 0)
return 0;
if (trie_equal_v4(a->trie[0], b->trie[0]) == 0 ||
trie_equal_v4(a->trie[1], b->trie[1]) == 0)
return 0;
return 1;
}
static int
trie_equal_v6(struct tentry_v6 *a, struct tentry_v6 *b)
{
if (a == NULL && b == NULL)
return 1;
if (a == NULL || b == NULL)
return 0;
if (memcmp(&a->addr, &b->addr, sizeof(a->addr)) != 0 ||
a->plen != b->plen ||
a->node != b->node ||
memcmp(&a->plenmask, &b->plenmask, sizeof(a->plenmask)) != 0)
return 0;
if (set_equal(a->set, b->set) == 0)
return 0;
if (trie_equal_v6(a->trie[0], b->trie[0]) == 0 ||
trie_equal_v6(a->trie[1], b->trie[1]) == 0)
return 0;
return 1;
}
/* Compare two tries and return 1 if they are the same else 0. */
int
trie_equal(struct trie_head *a, struct trie_head *b)
{
if (a->match_default_v4 != b->match_default_v4 ||
a->match_default_v6 != b->match_default_v6)
return 0;
if (trie_equal_v4(a->root_v4, b->root_v4) == 0)
return 0;
if (trie_equal_v6(a->root_v6, b->root_v6) == 0)
return 0;
return 1;
}
/* debugging functions for printing the trie */
static void
trie_dump_v4(struct tentry_v4 *n)
{
if (n == NULL)
return;
if (n->node)
fprintf(stderr, "%s/%u plenmask %08x\n", inet_ntoa(n->addr),
n->plen, n->plenmask.s_addr);
else
fprintf(stderr, " %s/%u\n", inet_ntoa(n->addr), n->plen);
trie_dump_v4(n->trie[0]);
trie_dump_v4(n->trie[1]);
}
static void
trie_dump_v6(struct tentry_v6 *n)
{
char buf[48];
unsigned int i;
if (n == NULL)
return;
if (n->node) {
fprintf(stderr, "%s/%u plenmask ",
inet_ntop(AF_INET6, &n->addr, buf, sizeof(buf)), n->plen);
for (i = 0; i < sizeof(n->plenmask); i++)
fprintf(stderr, "%02x", n->plenmask.s6_addr[i]);
fprintf(stderr, "\n");
} else
fprintf(stderr, " %s/%u\n",
inet_ntop(AF_INET6, &n->addr, buf, sizeof(buf)), n->plen);
trie_dump_v6(n->trie[0]);
trie_dump_v6(n->trie[1]);
}
void
trie_dump(struct trie_head *th)
{
if (th->match_default_v4)
fprintf(stderr, "0.0.0.0/0 plenmask 0\n");
trie_dump_v4(th->root_v4);
if (th->match_default_v6)
fprintf(stderr, "::/0 plenmask 0\n");
trie_dump_v6(th->root_v6);
}
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