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freebsd/contrib/ldns/dname.c
Dag-Erling Smørgrav 2787e39aaa Upgrade to 1.6.16
2013-02-15 21:49:12 +00:00

599 lines
13 KiB
C

/*
* dname.c
*
* dname specific rdata implementations
* A dname is a rdf structure with type LDNS_RDF_TYPE_DNAME
* It is not a /real/ type! All function must therefor check
* for LDNS_RDF_TYPE_DNAME.
*
* a Net::DNS like library for C
*
* (c) NLnet Labs, 2004-2006
*
* See the file LICENSE for the license
*/
#include <ldns/config.h>
#include <ldns/ldns.h>
#ifdef HAVE_NETINET_IN_H
#include <netinet/in.h>
#endif
#ifdef HAVE_SYS_SOCKET_H
#include <sys/socket.h>
#endif
#ifdef HAVE_NETDB_H
#include <netdb.h>
#endif
#ifdef HAVE_ARPA_INET_H
#include <arpa/inet.h>
#endif
/* Returns whether the last label in the name is a root label (a empty label).
* Note that it is not enough to just test the last character to be 0,
* because it may be part of the last label itself.
*/
static bool
ldns_dname_last_label_is_root_label(const ldns_rdf* dname)
{
size_t src_pos;
size_t len = 0;
for (src_pos = 0; src_pos < ldns_rdf_size(dname); src_pos += len + 1) {
len = ldns_rdf_data(dname)[src_pos];
}
assert(src_pos == ldns_rdf_size(dname));
return src_pos > 0 && len == 0;
}
ldns_rdf *
ldns_dname_cat_clone(const ldns_rdf *rd1, const ldns_rdf *rd2)
{
ldns_rdf *new;
uint16_t new_size;
uint8_t *buf;
uint16_t left_size;
if (ldns_rdf_get_type(rd1) != LDNS_RDF_TYPE_DNAME ||
ldns_rdf_get_type(rd2) != LDNS_RDF_TYPE_DNAME) {
return NULL;
}
/* remove root label if it is present at the end of the left
* rd, by reducing the size with 1
*/
left_size = ldns_rdf_size(rd1);
if (ldns_dname_last_label_is_root_label(rd1)) {
left_size--;
}
/* we overwrite the nullbyte of rd1 */
new_size = left_size + ldns_rdf_size(rd2);
buf = LDNS_XMALLOC(uint8_t, new_size);
if (!buf) {
return NULL;
}
/* put the two dname's after each other */
memcpy(buf, ldns_rdf_data(rd1), left_size);
memcpy(buf + left_size, ldns_rdf_data(rd2), ldns_rdf_size(rd2));
new = ldns_rdf_new_frm_data(LDNS_RDF_TYPE_DNAME, new_size, buf);
LDNS_FREE(buf);
return new;
}
ldns_status
ldns_dname_cat(ldns_rdf *rd1, ldns_rdf *rd2)
{
uint16_t left_size;
uint16_t size;
uint8_t* newd;
if (ldns_rdf_get_type(rd1) != LDNS_RDF_TYPE_DNAME ||
ldns_rdf_get_type(rd2) != LDNS_RDF_TYPE_DNAME) {
return LDNS_STATUS_ERR;
}
/* remove root label if it is present at the end of the left
* rd, by reducing the size with 1
*/
left_size = ldns_rdf_size(rd1);
if (ldns_dname_last_label_is_root_label(rd1)) {
left_size--;
}
size = left_size + ldns_rdf_size(rd2);
newd = LDNS_XREALLOC(ldns_rdf_data(rd1), uint8_t, size);
if(!newd) {
return LDNS_STATUS_MEM_ERR;
}
ldns_rdf_set_data(rd1, newd);
memcpy(ldns_rdf_data(rd1) + left_size, ldns_rdf_data(rd2),
ldns_rdf_size(rd2));
ldns_rdf_set_size(rd1, size);
return LDNS_STATUS_OK;
}
ldns_rdf*
ldns_dname_reverse(const ldns_rdf *dname)
{
size_t rd_size;
uint8_t* buf;
ldns_rdf* new;
size_t src_pos;
size_t len ;
assert(ldns_rdf_get_type(dname) == LDNS_RDF_TYPE_DNAME);
rd_size = ldns_rdf_size(dname);
buf = LDNS_XMALLOC(uint8_t, rd_size);
if (! buf) {
return NULL;
}
new = ldns_rdf_new(LDNS_RDF_TYPE_DNAME, rd_size, buf);
if (! new) {
LDNS_FREE(buf);
return NULL;
}
/* If dname ends in a root label, the reverse should too.
*/
if (ldns_dname_last_label_is_root_label(dname)) {
buf[rd_size - 1] = 0;
rd_size -= 1;
}
for (src_pos = 0; src_pos < rd_size; src_pos += len + 1) {
len = ldns_rdf_data(dname)[src_pos];
memcpy(&buf[rd_size - src_pos - len - 1],
&ldns_rdf_data(dname)[src_pos], len + 1);
}
return new;
}
ldns_rdf *
ldns_dname_clone_from(const ldns_rdf *d, uint16_t n)
{
uint8_t *data;
uint8_t label_size;
size_t data_size;
if (!d ||
ldns_rdf_get_type(d) != LDNS_RDF_TYPE_DNAME ||
ldns_dname_label_count(d) < n) {
return NULL;
}
data = ldns_rdf_data(d);
data_size = ldns_rdf_size(d);
while (n > 0) {
label_size = data[0] + 1;
data += label_size;
if (data_size < label_size) {
/* this label is very broken */
return NULL;
}
data_size -= label_size;
n--;
}
return ldns_dname_new_frm_data(data_size, data);
}
ldns_rdf *
ldns_dname_left_chop(const ldns_rdf *d)
{
uint8_t label_pos;
ldns_rdf *chop;
if (!d) {
return NULL;
}
if (ldns_rdf_get_type(d) != LDNS_RDF_TYPE_DNAME) {
return NULL;
}
if (ldns_dname_label_count(d) == 0) {
/* root label */
return NULL;
}
/* 05blaat02nl00 */
label_pos = ldns_rdf_data(d)[0];
chop = ldns_dname_new_frm_data(ldns_rdf_size(d) - label_pos - 1,
ldns_rdf_data(d) + label_pos + 1);
return chop;
}
uint8_t
ldns_dname_label_count(const ldns_rdf *r)
{
uint16_t src_pos;
uint16_t len;
uint8_t i;
size_t r_size;
if (!r) {
return 0;
}
i = 0;
src_pos = 0;
r_size = ldns_rdf_size(r);
if (ldns_rdf_get_type(r) != LDNS_RDF_TYPE_DNAME) {
return 0;
} else {
len = ldns_rdf_data(r)[src_pos]; /* start of the label */
/* single root label */
if (1 == r_size) {
return 0;
} else {
while ((len > 0) && src_pos < r_size) {
src_pos++;
src_pos += len;
len = ldns_rdf_data(r)[src_pos];
i++;
}
}
}
return i;
}
ldns_rdf *
ldns_dname_new(uint16_t s, void *d)
{
ldns_rdf *rd;
rd = LDNS_MALLOC(ldns_rdf);
if (!rd) {
return NULL;
}
ldns_rdf_set_size(rd, s);
ldns_rdf_set_type(rd, LDNS_RDF_TYPE_DNAME);
ldns_rdf_set_data(rd, d);
return rd;
}
ldns_rdf *
ldns_dname_new_frm_str(const char *str)
{
return ldns_rdf_new_frm_str(LDNS_RDF_TYPE_DNAME, str);
}
ldns_rdf *
ldns_dname_new_frm_data(uint16_t size, const void *data)
{
return ldns_rdf_new_frm_data(LDNS_RDF_TYPE_DNAME, size, data);
}
void
ldns_dname2canonical(const ldns_rdf *rd)
{
uint8_t *rdd;
uint16_t i;
if (ldns_rdf_get_type(rd) != LDNS_RDF_TYPE_DNAME) {
return;
}
rdd = (uint8_t*)ldns_rdf_data(rd);
for (i = 0; i < ldns_rdf_size(rd); i++, rdd++) {
*rdd = (uint8_t)LDNS_DNAME_NORMALIZE((int)*rdd);
}
}
bool
ldns_dname_is_subdomain(const ldns_rdf *sub, const ldns_rdf *parent)
{
uint8_t sub_lab;
uint8_t par_lab;
int8_t i, j;
ldns_rdf *tmp_sub = NULL;
ldns_rdf *tmp_par = NULL;
ldns_rdf *sub_clone;
ldns_rdf *parent_clone;
bool result = true;
if (ldns_rdf_get_type(sub) != LDNS_RDF_TYPE_DNAME ||
ldns_rdf_get_type(parent) != LDNS_RDF_TYPE_DNAME ||
ldns_rdf_compare(sub, parent) == 0) {
return false;
}
/* would be nicer if we do not have to clone... */
sub_clone = ldns_dname_clone_from(sub, 0);
parent_clone = ldns_dname_clone_from(parent, 0);
ldns_dname2canonical(sub_clone);
ldns_dname2canonical(parent_clone);
sub_lab = ldns_dname_label_count(sub_clone);
par_lab = ldns_dname_label_count(parent_clone);
/* if sub sits above parent, it cannot be a child/sub domain */
if (sub_lab < par_lab) {
result = false;
} else {
/* check all labels the from the parent labels, from right to left.
* When they /all/ match we have found a subdomain
*/
j = sub_lab - 1; /* we count from zero, thank you */
for (i = par_lab -1; i >= 0; i--) {
tmp_sub = ldns_dname_label(sub_clone, j);
tmp_par = ldns_dname_label(parent_clone, i);
if (!tmp_sub || !tmp_par) {
/* deep free does null check */
ldns_rdf_deep_free(tmp_sub);
ldns_rdf_deep_free(tmp_par);
result = false;
break;
}
if (ldns_rdf_compare(tmp_sub, tmp_par) != 0) {
/* they are not equal */
ldns_rdf_deep_free(tmp_sub);
ldns_rdf_deep_free(tmp_par);
result = false;
break;
}
ldns_rdf_deep_free(tmp_sub);
ldns_rdf_deep_free(tmp_par);
j--;
}
}
ldns_rdf_deep_free(sub_clone);
ldns_rdf_deep_free(parent_clone);
return result;
}
int
ldns_dname_compare(const ldns_rdf *dname1, const ldns_rdf *dname2)
{
size_t lc1, lc2, lc1f, lc2f;
size_t i;
int result = 0;
uint8_t *lp1, *lp2;
/* see RFC4034 for this algorithm */
/* this algorithm assumes the names are normalized to case */
/* only when both are not NULL we can say anything about them */
if (!dname1 && !dname2) {
return 0;
}
if (!dname1 || !dname2) {
return -1;
}
/* asserts must happen later as we are looking in the
* dname, which could be NULL. But this case is handled
* above
*/
assert(ldns_rdf_get_type(dname1) == LDNS_RDF_TYPE_DNAME);
assert(ldns_rdf_get_type(dname2) == LDNS_RDF_TYPE_DNAME);
lc1 = ldns_dname_label_count(dname1);
lc2 = ldns_dname_label_count(dname2);
if (lc1 == 0 && lc2 == 0) {
return 0;
}
if (lc1 == 0) {
return -1;
}
if (lc2 == 0) {
return 1;
}
lc1--;
lc2--;
/* we start at the last label */
while (true) {
/* find the label first */
lc1f = lc1;
lp1 = ldns_rdf_data(dname1);
while (lc1f > 0) {
lp1 += *lp1 + 1;
lc1f--;
}
/* and find the other one */
lc2f = lc2;
lp2 = ldns_rdf_data(dname2);
while (lc2f > 0) {
lp2 += *lp2 + 1;
lc2f--;
}
/* now check the label character for character. */
for (i = 1; i < (size_t)(*lp1 + 1); i++) {
if (i > *lp2) {
/* apparently label 1 is larger */
result = 1;
goto done;
}
if (LDNS_DNAME_NORMALIZE((int) *(lp1 + i)) <
LDNS_DNAME_NORMALIZE((int) *(lp2 + i))) {
result = -1;
goto done;
} else if (LDNS_DNAME_NORMALIZE((int) *(lp1 + i)) >
LDNS_DNAME_NORMALIZE((int) *(lp2 + i))) {
result = 1;
goto done;
}
}
if (*lp1 < *lp2) {
/* apparently label 2 is larger */
result = -1;
goto done;
}
if (lc1 == 0 && lc2 > 0) {
result = -1;
goto done;
} else if (lc1 > 0 && lc2 == 0) {
result = 1;
goto done;
} else if (lc1 == 0 && lc2 == 0) {
result = 0;
goto done;
}
lc1--;
lc2--;
}
done:
return result;
}
int
ldns_dname_is_wildcard(const ldns_rdf* dname)
{
return ( ldns_dname_label_count(dname) > 0 &&
ldns_rdf_data(dname)[0] == 1 &&
ldns_rdf_data(dname)[1] == '*');
}
int
ldns_dname_match_wildcard(const ldns_rdf *dname, const ldns_rdf *wildcard)
{
ldns_rdf *wc_chopped;
int result;
/* check whether it really is a wildcard */
if (ldns_dname_is_wildcard(wildcard)) {
/* ok, so the dname needs to be a subdomain of the wildcard
* without the *
*/
wc_chopped = ldns_dname_left_chop(wildcard);
result = (int) ldns_dname_is_subdomain(dname, wc_chopped);
ldns_rdf_deep_free(wc_chopped);
} else {
result = (ldns_dname_compare(dname, wildcard) == 0);
}
return result;
}
/* nsec test: does prev <= middle < next
* -1 = yes
* 0 = error/can't tell
* 1 = no
*/
int
ldns_dname_interval(const ldns_rdf *prev, const ldns_rdf *middle,
const ldns_rdf *next)
{
int prev_check, next_check;
assert(ldns_rdf_get_type(prev) == LDNS_RDF_TYPE_DNAME);
assert(ldns_rdf_get_type(middle) == LDNS_RDF_TYPE_DNAME);
assert(ldns_rdf_get_type(next) == LDNS_RDF_TYPE_DNAME);
prev_check = ldns_dname_compare(prev, middle);
next_check = ldns_dname_compare(middle, next);
/* <= next. This cannot be the case for nsec, because then we would
* have gotten the nsec of next...
*/
if (next_check == 0) {
return 0;
}
/* <= */
if ((prev_check == -1 || prev_check == 0) &&
/* < */
next_check == -1) {
return -1;
} else {
return 1;
}
}
bool
ldns_dname_str_absolute(const char *dname_str)
{
const char* s;
if(dname_str && strcmp(dname_str, ".") == 0)
return 1;
if(!dname_str || strlen(dname_str) < 2)
return 0;
if(dname_str[strlen(dname_str) - 1] != '.')
return 0;
if(dname_str[strlen(dname_str) - 2] != '\\')
return 1; /* ends in . and no \ before it */
/* so we have the case of ends in . and there is \ before it */
for(s=dname_str; *s; s++) {
if(*s == '\\') {
if(s[1] && s[2] && s[3] /* check length */
&& isdigit(s[1]) && isdigit(s[2]) &&
isdigit(s[3]))
s += 3;
else if(!s[1] || isdigit(s[1])) /* escape of nul,0-9 */
return 0; /* parse error */
else s++; /* another character escaped */
}
else if(!*(s+1) && *s == '.')
return 1; /* trailing dot, unescaped */
}
return 0;
}
bool
ldns_dname_absolute(const ldns_rdf *rdf)
{
char *str = ldns_rdf2str(rdf);
if (str) {
bool r = ldns_dname_str_absolute(str);
LDNS_FREE(str);
return r;
}
return false;
}
ldns_rdf *
ldns_dname_label(const ldns_rdf *rdf, uint8_t labelpos)
{
uint8_t labelcnt;
uint16_t src_pos;
uint16_t len;
ldns_rdf *tmpnew;
size_t s;
uint8_t *data;
if (ldns_rdf_get_type(rdf) != LDNS_RDF_TYPE_DNAME) {
return NULL;
}
labelcnt = 0;
src_pos = 0;
s = ldns_rdf_size(rdf);
len = ldns_rdf_data(rdf)[src_pos]; /* label start */
while ((len > 0) && src_pos < s) {
if (labelcnt == labelpos) {
/* found our label */
data = LDNS_XMALLOC(uint8_t, len + 2);
if (!data) {
return NULL;
}
memcpy(data, ldns_rdf_data(rdf) + src_pos, len + 1);
data[len + 2 - 1] = 0;
tmpnew = ldns_rdf_new( LDNS_RDF_TYPE_DNAME
, len + 2, data);
if (!tmpnew) {
LDNS_FREE(data);
return NULL;
}
return tmpnew;
}
src_pos++;
src_pos += len;
len = ldns_rdf_data(rdf)[src_pos];
labelcnt++;
}
return NULL;
}