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|
/* $OpenBSD: rde_attr.c,v 1.21 2004/03/12 10:52:34 claudio Exp $ */
/*
* Copyright (c) 2004 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 "ensure.h"
#include "rde.h"
/* attribute specific functions */
#define UPD_READ(t, p, plen, n) \
do { \
memcpy(t, p, n); \
p += n; \
plen += n; \
} while (0)
#define CHECK_FLAGS(s, t, m) \
(((s) & ~(ATTR_EXTLEN | (m))) == (t))
#define F_ATTR_ORIGIN 0x01
#define F_ATTR_ASPATH 0x02
#define F_ATTR_NEXTHOP 0x04
#define F_ATTR_LOCALPREF 0x08
#define F_ATTR_MED 0x10
#define WFLAG(s, t) \
do { \
if ((s) & (t)) \
return (-1); \
(s) |= (t); \
} while (0)
void
attr_init(struct attr_flags *a)
{
bzero(a, sizeof(struct attr_flags));
a->origin = ORIGIN_INCOMPLETE;
TAILQ_INIT(&a->others);
}
int
attr_parse(u_char *p, u_int16_t len, struct attr_flags *a, int ebgp,
enum enforce_as enforce_as, u_int16_t remote_as)
{
u_int32_t tmp32;
u_int16_t attr_len;
u_int16_t plen = 0;
u_int8_t flags;
u_int8_t type;
u_int8_t tmp8;
if (len < 3)
return (-1);
UPD_READ(&flags, p, plen, 1);
UPD_READ(&type, p, plen, 1);
if (flags & ATTR_EXTLEN) {
if (len - plen < 2)
return (-1);
UPD_READ(&attr_len, p, plen, 2);
attr_len = ntohs(attr_len);
} else {
UPD_READ(&tmp8, p, plen, 1);
attr_len = tmp8;
}
if (len - plen < attr_len)
return (-1);
switch (type) {
case ATTR_UNDEF:
/* error! */
return (-1);
case ATTR_ORIGIN:
if (attr_len != 1)
return (-1);
if (!CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0))
return (-1);
UPD_READ(&a->origin, p, plen, 1);
if (a->origin > ORIGIN_INCOMPLETE)
return (-1);
WFLAG(a->wflags, F_ATTR_ORIGIN);
break;
case ATTR_ASPATH:
if (!CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0))
return (-1);
if (aspath_verify(p, attr_len) != 0)
return (-1);
WFLAG(a->wflags, F_ATTR_ASPATH);
a->aspath = aspath_create(p, attr_len);
if (enforce_as == ENFORCE_AS_ON &&
remote_as != aspath_neighbor(a->aspath))
return (-1);
plen += attr_len;
break;
case ATTR_NEXTHOP:
if (attr_len != 4)
return (-1);
if (!CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0))
return (-1);
WFLAG(a->wflags, F_ATTR_NEXTHOP);
UPD_READ(&a->nexthop, p, plen, 4); /* network byte order */
/*
* Check if the nexthop is a valid IP address. We consider
* multicast, experimental and loopback addresses as invalid.
*/
tmp32 = ntohl(a->nexthop.s_addr);
if (IN_MULTICAST(tmp32) || IN_BADCLASS(tmp32) ||
(tmp32 & 0x7f000000) == 0x7f000000)
return (-1);
break;
case ATTR_MED:
if (attr_len != 4)
return (-1);
if (!CHECK_FLAGS(flags, ATTR_OPTIONAL, 0))
return (-1);
WFLAG(a->wflags, F_ATTR_MED);
UPD_READ(&tmp32, p, plen, 4);
a->med = ntohl(tmp32);
break;
case ATTR_LOCALPREF:
if (attr_len != 4)
return (-1);
if (!CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0))
return (-1);
if (ebgp) {
/* ignore local-pref attr for non ibgp peers */
a->lpref = 0; /* set a default value ... */
plen += 4; /* and ignore the real value */
break;
}
WFLAG(a->wflags, F_ATTR_LOCALPREF);
UPD_READ(&tmp32, p, plen, 4);
a->lpref = ntohl(tmp32);
break;
case ATTR_ATOMIC_AGGREGATE:
if (attr_len != 0)
return (-1);
if (!CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0))
return (-1);
goto optattr;
case ATTR_AGGREGATOR:
if (attr_len != 6)
return (-1);
if (!CHECK_FLAGS(flags, ATTR_OPTIONAL|ATTR_TRANSITIVE, 0))
return (-1);
goto optattr;
case ATTR_COMMUNITIES:
if ((attr_len & 0x3) != 0)
return (-1);
if (!CHECK_FLAGS(flags, ATTR_OPTIONAL|ATTR_TRANSITIVE,
ATTR_PARTIAL))
return (-1);
goto optattr;
default:
optattr:
if (attr_optadd(a, flags, type, p, attr_len) == -1)
return (-1);
plen += attr_len;
break;
}
return (plen);
}
u_char *
attr_error(u_char *p, u_int16_t len, struct attr_flags *attr,
u_int8_t *suberr, u_int16_t *size)
{
struct attr *a;
u_int16_t attr_len;
u_int16_t plen = 0;
u_int8_t flags;
u_int8_t type;
u_int8_t tmp8;
*suberr = ERR_UPD_ATTRLEN;
*size = len;
if (len < 3)
return (p);
UPD_READ(&flags, p, plen, 1);
UPD_READ(&type, p, plen, 1);
if (flags & ATTR_EXTLEN) {
if (len - plen < 2)
return (p);
UPD_READ(&attr_len, p, plen, 2);
} else {
UPD_READ(&tmp8, p, plen, 1);
attr_len = tmp8;
}
if (len - plen < attr_len)
return (p);
*size = attr_len;
switch (type) {
case ATTR_UNDEF:
/* error! */
*suberr = ERR_UPD_UNSPECIFIC;
*size = 0;
return (NULL);
case ATTR_ORIGIN:
if (attr_len != 1)
return (p);
if (attr->wflags & F_ATTR_ORIGIN) {
*suberr = ERR_UPD_ATTRLIST;
*size = 0;
return (NULL);
}
UPD_READ(&tmp8, p, plen, 1);
if (tmp8 > ORIGIN_INCOMPLETE) {
*suberr = ERR_UPD_ORIGIN;
return (p);
}
break;
case ATTR_ASPATH:
if (attr->wflags & F_ATTR_ASPATH) {
*suberr = ERR_UPD_ATTRLIST;
*size = 0;
return (NULL);
}
if (CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0)) {
/* malformed aspath detected by exclusion method */
*size = 0;
*suberr = ERR_UPD_ASPATH;
return (NULL);
}
break;
case ATTR_NEXTHOP:
if (attr_len != 4)
return (p);
if (attr->wflags & F_ATTR_NEXTHOP) {
*suberr = ERR_UPD_ATTRLIST;
*size = 0;
return (NULL);
}
if (CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0)) {
/* malformed nexthop detected by exclusion method */
*suberr = ERR_UPD_NETWORK;
return (p);
}
break;
case ATTR_MED:
if (attr_len != 4)
return (p);
if (attr->wflags & F_ATTR_MED) {
*suberr = ERR_UPD_ATTRLIST;
*size = 0;
return (NULL);
}
break;
case ATTR_LOCALPREF:
if (attr_len != 4)
return (p);
if (attr->wflags & F_ATTR_LOCALPREF) {
*suberr = ERR_UPD_ATTRLIST;
*size = 0;
return (NULL);
}
break;
case ATTR_ATOMIC_AGGREGATE:
if (attr_len != 0)
return (p);
break;
case ATTR_AGGREGATOR:
if (attr_len != 6)
return (p);
break;
case ATTR_COMMUNITIES:
if ((attr_len & 0x3) != 0)
return (p);
/* FALLTHROUGH */
default:
if ((flags & ATTR_OPTIONAL) == 0) {
*suberr = ERR_UPD_UNKNWN_WK_ATTR;
return (p);
}
TAILQ_FOREACH(a, &attr->others, attr_l)
if (type == a->type) {
*size = NULL;
*suberr = ERR_UPD_ATTRLIST;
return (NULL);
}
*suberr = ERR_UPD_OPTATTR;
return (p);
}
/* can only be a attribute flag error */
*suberr = ERR_UPD_ATTRFLAGS;
return (p);
}
#undef UPD_READ
#undef WFLAG
u_int8_t
attr_missing(struct attr_flags *a, int ebgp)
{
if ((a->wflags & F_ATTR_ORIGIN) == 0)
return ATTR_ORIGIN;
if ((a->wflags & F_ATTR_ASPATH) == 0)
return ATTR_ASPATH;
if ((a->wflags & F_ATTR_NEXTHOP) == 0)
return ATTR_NEXTHOP;
if (!ebgp)
if ((a->wflags & F_ATTR_LOCALPREF) == 0)
return ATTR_LOCALPREF;
return 0;
}
int
attr_compare(struct attr_flags *a, struct attr_flags *b)
{
struct attr *oa, *ob;
int r;
if (a->origin > b->origin)
return (1);
if (a->origin < b->origin)
return (-1);
if (a->nexthop.s_addr > b->nexthop.s_addr)
return (1);
if (a->nexthop.s_addr < b->nexthop.s_addr)
return (-1);
if (a->med > b->med)
return (1);
if (a->med < b->med)
return (-1);
if (a->lpref > b->lpref)
return (1);
if (a->lpref < b->lpref)
return (-1);
r = aspath_compare(a->aspath, b->aspath);
if (r > 0)
return (1);
if (r < 0)
return (-1);
for (oa = TAILQ_FIRST(&a->others), ob = TAILQ_FIRST(&b->others);
oa != NULL && ob != NULL;
oa = TAILQ_NEXT(oa, attr_l), ob = TAILQ_NEXT(ob, attr_l)) {
if (oa->type > ob->type)
return (1);
if (oa->type < ob->type)
return (-1);
if (oa->len > ob->len)
return (1);
if (oa->len < ob->len)
return (-1);
r = memcmp(oa->data, ob->data, oa->len);
if (r > 0)
return (1);
if (r < 0)
return (-1);
}
if (oa != NULL)
return (1);
if (ob != NULL)
return (-1);
return (0);
}
void
attr_copy(struct attr_flags *t, struct attr_flags *s)
{
struct attr *os;
/*
* first copy the full struct, then replace the path and tags with
* a own copy.
*/
memcpy(t, s, sizeof(struct attr_flags));
t->aspath = aspath_create(s->aspath->data, s->aspath->hdr.len);
TAILQ_INIT(&t->others);
TAILQ_FOREACH(os, &s->others, attr_l)
attr_optadd(t, os->flags, os->type, os->data, os->len);
}
void
attr_move(struct attr_flags *t, struct attr_flags *s)
{
struct attr *os;
/*
* first copy the full struct, then move the optional attributes.
*/
memcpy(t, s, sizeof(struct attr_flags));
TAILQ_INIT(&t->others);
while ((os = TAILQ_FIRST(&s->others)) != NULL) {
TAILQ_REMOVE(&s->others, os, attr_l);
TAILQ_INSERT_TAIL(&t->others, os, attr_l);
}
}
void
attr_free(struct attr_flags *a)
{
/*
* free the aspath and all optional path attributes
* but not the attr_flags struct.
*/
aspath_destroy(a->aspath);
a->aspath = NULL;
attr_optfree(a);
}
int
attr_write(void *p, u_int16_t p_len, u_int8_t flags, u_int8_t type,
void *data, u_int16_t data_len)
{
u_char *b = p;
u_int16_t tmp, tot_len = 2; /* attribute header (without len) */
if (data_len > 255) {
tot_len += 2 + data_len;
flags |= ATTR_EXTLEN;
} else
tot_len += 1 + data_len;
if (tot_len > p_len)
return (-1);
*b++ = flags;
*b++ = type;
if (data_len > 255) {
tmp = htons(data_len);
memcpy(b, &tmp, 2);
b += 2;
} else
*b++ = (u_char)(data_len & 0xff);
if (data_len != 0)
memcpy(b, data, data_len);
return (tot_len);
}
int
attr_optadd(struct attr_flags *attr, u_int8_t flags, u_int8_t type,
u_char *data, u_int16_t len)
{
struct attr *a, *p;
/* we need validate known optional attributes */
if (flags & ATTR_OPTIONAL && ! flags & ATTR_TRANSITIVE)
/*
* We already know that we're not intrested in this attribute.
* Currently only the MED is optional and non-transitive but
* MED is directly stored in struct attr_flags.
*/
return (0);
a = calloc(1, sizeof(struct attr));
if (a == NULL)
fatal("attr_optadd");
a->flags = flags;
a->type = type;
a->len = len;
if (len != 0) {
a->data = malloc(len);
if (a->data == NULL)
fatal("attr_optadd");
memcpy(a->data, data, len);
} else
a->data = NULL;
/* keep a sorted list */
TAILQ_FOREACH_REVERSE(p, &attr->others, attr_l, attr_list) {
if (type == p->type) {
/* attribute only once allowed */
free(a->data);
free(a);
return (-1);
}
if (type > p->type) {
TAILQ_INSERT_AFTER(&attr->others, p, a, attr_l);
return (0);
}
}
TAILQ_INSERT_HEAD(&attr->others, a, attr_l);
return (0);
}
struct attr *
attr_optget(struct attr_flags *attr, u_int8_t type)
{
struct attr *a;
TAILQ_FOREACH(a, &attr->others, attr_l) {
if (type == a->type)
return (a);
if (type < a->type)
/* list is sorted */
break;
}
return (NULL);
}
void
attr_optfree(struct attr_flags *attr)
{
struct attr *a;
while ((a = TAILQ_FIRST(&attr->others)) != NULL) {
TAILQ_REMOVE(&attr->others, a, attr_l);
free(a->data);
free(a);
}
}
/* aspath specific functions */
static u_int16_t aspath_extract(void *, int);
/*
* Extract the asnum out of the as segment at the specified position.
* Direct access is not possible because of non-aligned reads.
* ATTENTION: no bounds check are done.
*/
static u_int16_t
aspath_extract(void *seg, int pos)
{
u_char *ptr = seg;
u_int16_t as = 0;
ENSURE(0 <= pos && pos < 255);
ptr += 2 + 2 * pos;
as = *ptr++;
as <<= 8;
as |= *ptr;
return as;
}
int
aspath_verify(void *data, u_int16_t len)
{
u_int8_t *seg = data;
u_int16_t seg_size;
u_int8_t seg_len, seg_type;
if (len & 1)
/* odd lenght aspath are invalid */
return AS_ERR_BAD;
for (; len > 0; len -= seg_size, seg += seg_size) {
seg_type = seg[0];
seg_len = seg[1];
if (seg_type != AS_SET && seg_type != AS_SEQUENCE) {
return AS_ERR_TYPE;
}
seg_size = 2 + 2 * seg_len;
if (seg_size > len)
return AS_ERR_LEN;
if (seg_size == 0)
/* empty aspath segment are not allowed */
return AS_ERR_BAD;
}
return 0; /* aspath is valid but probably not loop free */
}
struct aspath *
aspath_create(void *data, u_int16_t len)
{
struct aspath *aspath;
/* The aspath must already have been checked for correctness. */
aspath = malloc(ASPATH_HEADER_SIZE + len);
if (aspath == NULL)
fatal("aspath_create");
aspath->hdr.len = len;
memcpy(aspath->data, data, len);
aspath->hdr.as_cnt = aspath_count(aspath);
aspath->hdr.prepend = 0;
return aspath;
}
int
aspath_write(void *p, u_int16_t len, struct aspath *aspath, u_int16_t myAS,
int ebgp)
{
u_char *b = p;
int tot_len, as_len, prepend, size, wpos = 0;
u_int16_t tmp;
u_int8_t type, attr_flag = ATTR_WELL_KNOWN;
prepend = aspath->hdr.prepend + (ebgp ? 1 : 0);
if (prepend > 255)
/* lunatic prepends need to be blocked in the parser */
return (-1);
/* first calculate new size */
if (aspath->hdr.len > 0) {
ENSURE(aspath->hdr.len > 2);
type = aspath->data[0];
size = aspath->data[1];
} else {
/* empty as path */
type = AS_SET;
size = 0;
}
if (prepend == 0)
as_len = aspath->hdr.len;
else if (type == AS_SET || size + prepend > 255)
/* need to attach a new AS_SEQUENCE */
as_len = 2 + prepend * 2 + aspath->hdr.len;
else
as_len = prepend * 2 + aspath->hdr.len;
/* check buffer size */
tot_len = 2 + as_len;
if (as_len > 255) {
attr_flag |= ATTR_EXTLEN;
tot_len += 2;
} else
tot_len += 1;
if (tot_len > len)
return (-1);
/* header */
b[wpos++] = attr_flag;
b[wpos++] = ATTR_ASPATH;
if (as_len > 255) {
tmp = as_len;
tmp = htons(tmp);
memcpy(b, &tmp, 2);
wpos += 2;
} else
b[wpos++] = (u_char)(as_len & 0xff);
/* first prepends */
myAS = htons(myAS);
if (type == AS_SET) {
b[wpos++] = AS_SEQUENCE;
b[wpos++] = prepend;
for (; prepend > 0; prepend--) {
memcpy(b + wpos, &myAS, 2);
wpos += 2;
}
memcpy(b + wpos, aspath->data, aspath->hdr.len);
} else {
if (size + prepend > 255) {
b[wpos++] = AS_SEQUENCE;
b[wpos++] = size + prepend - 255;
for (; prepend + size > 255; prepend--) {
memcpy(b + wpos, &myAS, 2);
wpos += 2;
}
}
b[wpos++] = AS_SEQUENCE;
b[wpos++] = size + prepend;
for (; prepend > 0; prepend--) {
memcpy(b + wpos, &myAS, 2);
wpos += 2;
}
memcpy(b + wpos, aspath->data + 2, aspath->hdr.len - 2);
}
return (tot_len);
}
void
aspath_destroy(struct aspath *aspath)
{
/* only the aspath needs to be freed */
if (aspath == NULL) return;
free(aspath);
}
u_char *
aspath_dump(struct aspath *aspath)
{
return aspath->data;
}
u_int16_t
aspath_length(struct aspath *aspath)
{
return aspath->hdr.len;
}
u_int16_t
aspath_count(struct aspath *aspath)
{
u_int8_t *seg;
u_int16_t cnt, len, seg_size;
u_int8_t seg_type, seg_len;
cnt = 0;
seg = aspath->data;
for (len = aspath->hdr.len; len > 0; len -= seg_size, seg += seg_size) {
seg_type = seg[0];
seg_len = seg[1];
ENSURE(seg_type == AS_SET || seg_type == AS_SEQUENCE);
seg_size = 2 + 2 * seg_len;
if (seg_type == AS_SET)
cnt += 1;
else
cnt += seg_len;
}
return cnt;
}
u_int16_t
aspath_neighbor(struct aspath *aspath)
{
/*
* Empty aspath is OK -- internal as route.
* But what is the neighbor? For now let's return 0 that
* should not break anything.
*/
if (aspath->hdr.len == 0)
return 0;
ENSURE(aspath->hdr.len > 2);
return aspath_extract(aspath->data, 0);
}
int
aspath_loopfree(struct aspath *aspath, u_int16_t myAS)
{
u_int8_t *seg;
u_int16_t len, seg_size;
u_int8_t i, seg_len, seg_type;
seg = aspath->data;
for (len = aspath->hdr.len; len > 0; len -= seg_size, seg += seg_size) {
seg_type = seg[0];
seg_len = seg[1];
ENSURE(seg_type == AS_SET || seg_type == AS_SEQUENCE);
seg_size = 2 + 2 * seg_len;
ENSURE(seg_size <= len);
for (i = 0; i < seg_len; i++) {
if (myAS == aspath_extract(seg, i))
return 0;
}
}
return 1;
}
#define AS_HASH_INITIAL 8271
u_int32_t
aspath_hash(struct aspath *aspath)
{
u_int8_t *seg;
u_int32_t hash;
u_int16_t len, seg_size;
u_int8_t i, seg_len, seg_type;
hash = AS_HASH_INITIAL;
seg = aspath->data;
for (len = aspath->hdr.len; len > 0; len -= seg_size, seg += seg_size) {
seg_type = seg[0];
seg_len = seg[1];
ENSURE(seg_type == AS_SET || seg_type == AS_SEQUENCE);
seg_size = 2 + 2 * seg_len;
ENSURE(seg_size <= len);
for (i = 0; i < seg_len; i++) {
hash += (hash << 5);
hash ^= aspath_extract(seg, i);
}
}
return hash;
}
int
aspath_compare(struct aspath *a1, struct aspath *a2)
{
int r;
if (a1->hdr.len > a2->hdr.len)
return (1);
if (a1->hdr.len < a2->hdr.len)
return (-1);
r = memcmp(a1->data, a2->data, a1->hdr.len);
if (r > 0)
return (1);
if (r < 0)
return (-1);
return 0;
}
int
aspath_snprint(char *buf, size_t size, void *data, u_int16_t len)
{
#define UPDATE() \
do { \
if (r == -1) \
return (-1); \
total_size += r; \
if ((unsigned int)r < size) { \
size -= r; \
buf += r; \
} else { \
buf += size; \
size = 0; \
} \
} while (0)
u_int8_t *seg;
int r, total_size;
u_int16_t seg_size;
u_int8_t i, seg_type, seg_len;
total_size = 0;
seg = data;
for (; len > 0; len -= seg_size, seg += seg_size) {
seg_type = seg[0];
seg_len = seg[1];
ENSURE(seg_type == AS_SET || seg_type == AS_SEQUENCE);
seg_size = 2 + 2 * seg_len;
if (seg_type == AS_SET) {
if (total_size != 0)
r = snprintf(buf, size, " { ");
else
r = snprintf(buf, size, "{ ");
UPDATE();
} else if (total_size != 0) {
r = snprintf(buf, size, " ");
UPDATE();
}
ENSURE(seg_size <= len);
for (i = 0; i < seg_len; i++) {
r = snprintf(buf, size, "%hu", aspath_extract(seg, i));
UPDATE();
if (i + 1 < seg_len) {
r = snprintf(buf, size, " ");
UPDATE();
}
}
if (seg_type == AS_SET) {
r = snprintf(buf, size, " }");
UPDATE();
}
}
/* ensure that we have a valid C-string */
if (size > 0)
*buf = '\0';
return total_size;
#undef UPDATE
}
int
aspath_asprint(char **ret, void *data, u_int16_t len)
{
size_t slen, plen;
slen = aspath_strlen(data, len) + 1;
*ret = malloc(slen);
if (*ret == NULL)
return (-1);
plen = aspath_snprint(*ret, slen, data, len);
ENSURE(plen < slen);
return (plen);
}
size_t
aspath_strlen(void *data, u_int16_t len)
{
u_int8_t *seg;
int total_size;
u_int16_t as, seg_size;
u_int8_t i, seg_type, seg_len;
total_size = 0;
seg = data;
for (; len > 0; len -= seg_size, seg += seg_size) {
seg_type = seg[0];
seg_len = seg[1];
ENSURE(seg_type == AS_SET || seg_type == AS_SEQUENCE);
seg_size = 2 + 2 * seg_len;
if (seg_type == AS_SET)
total_size += 2;
else if (total_size != 0)
total_size += 1;
ENSURE(seg_size <= len);
for (i = 0; i < seg_len; i++) {
as = aspath_extract(seg, i);
if (as >= 10000)
total_size += 5;
else if (as >= 1000)
total_size += 4;
else if (as >= 100)
total_size += 3;
else if (as >= 10)
total_size += 2;
else
total_size += 1;
if (i + 1 < seg_len)
total_size += 1;
}
if (seg_type == AS_SET)
total_size += 2;
}
return total_size;
}
/* we need to be able to search more than one as */
int
aspath_match(struct aspath *a, enum as_spec type, u_int16_t as)
{
u_int8_t *seg;
int final;
u_int16_t len, seg_size;
u_int8_t i, seg_type, seg_len;
final = 0;
seg = a->data;
for (len = a->hdr.len; len > 0; len -= seg_size, seg += seg_size) {
seg_type = seg[0];
seg_len = seg[1];
ENSURE(seg_type == AS_SET || seg_type == AS_SEQUENCE);
seg_size = 2 + 2 * seg_len;
final = (len == seg_size);
if (type == AS_SOURCE && !final)
/* not yet in the final segment */
continue;
ENSURE(seg_size <= len);
for (i = 0; i < seg_len; i++)
if (as == aspath_extract(seg, i)) {
if (final && i + 1 >= seg_len)
/* the final (rightmost) as */
if (type == AS_TRANSIT)
return (0);
else
return (1);
else if (type != AS_SOURCE)
return (1);
}
}
return (0);
}
int
community_match(void *data, u_int16_t len, int as, int type)
{
u_int8_t *p = data;
u_int16_t eas, etype;
ENSURE((len & 0x3) == 0);
len >>= 2; /* devide by four */
for (; len > 0; len--) {
eas = *p++;
eas <<= 8;
eas |= *p++;
etype = *p++;
etype <<= 8;
etype |= *p++;
if ((as == COMMUNITY_ANY || (u_int16_t)as == eas) &&
(type == COMMUNITY_ANY || type == etype))
return 1;
}
return 0;
}
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