/***
This file is part of avahi.
avahi is free software; you can redistribute it and/or modify it
under the terms of the GNU Lesser General Public License as
published by the Free Software Foundation; either version 2.1 of the
License, or (at your option) any later version.
avahi is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General
Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with avahi; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
USA.
***/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <string.h>
#include <stdio.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <arpa/inet.h>
#include <assert.h>
#include <avahi-common/domain.h>
#include "avahi-common/avahi-malloc.h"
#include <avahi-common/defs.h>
#include "rr.h"
#include "log.h"
#include "util.h"
#include "hashmap.h"
#include "domain-util.h"
#include "rr-util.h"
#include "addr-util.h"
AvahiKey *avahi_key_new(const char *name, uint16_t class, uint16_t type) {
AvahiKey *k;
assert(name);
if (!(k = avahi_new(AvahiKey, 1))) {
avahi_log_error("avahi_new() failed.");
return NULL;
}
if (!(k->name = avahi_normalize_name_strdup(name))) {
avahi_log_error("avahi_normalize_name() failed.");
avahi_free(k);
return NULL;
}
k->ref = 1;
k->clazz = class;
k->type = type;
return k;
}
AvahiKey *avahi_key_new_cname(AvahiKey *key) {
assert(key);
if (key->clazz != AVAHI_DNS_CLASS_IN)
return NULL;
if (key->type == AVAHI_DNS_TYPE_CNAME)
return NULL;
return avahi_key_new(key->name, key->clazz, AVAHI_DNS_TYPE_CNAME);
}
AvahiKey *avahi_key_ref(AvahiKey *k) {
assert(k);
assert(k->ref >= 1);
k->ref++;
return k;
}
void avahi_key_unref(AvahiKey *k) {
assert(k);
assert(k->ref >= 1);
if ((--k->ref) <= 0) {
avahi_free(k->name);
avahi_free(k);
}
}
AvahiRecord *avahi_record_new(AvahiKey *k, uint32_t ttl) {
AvahiRecord *r;
assert(k);
if (!(r = avahi_new(AvahiRecord, 1))) {
avahi_log_error("avahi_new() failed.");
return NULL;
}
r->ref = 1;
r->key = avahi_key_ref(k);
memset(&r->data, 0, sizeof(r->data));
r->ttl = ttl != (uint32_t) -1 ? ttl : AVAHI_DEFAULT_TTL;
return r;
}
AvahiRecord *avahi_record_new_full(const char *name, uint16_t class, uint16_t type, uint32_t ttl) {
AvahiRecord *r;
AvahiKey *k;
assert(name);
if (!(k = avahi_key_new(name, class, type))) {
avahi_log_error("avahi_key_new() failed.");
return NULL;
}
r = avahi_record_new(k, ttl);
avahi_key_unref(k);
if (!r) {
avahi_log_error("avahi_record_new() failed.");
return NULL;
}
return r;
}
AvahiRecord *avahi_record_ref(AvahiRecord *r) {
assert(r);
assert(r->ref >= 1);
r->ref++;
return r;
}
void avahi_record_unref(AvahiRecord *r) {
assert(r);
assert(r->ref >= 1);
if ((--r->ref) <= 0) {
switch (r->key->type) {
case AVAHI_DNS_TYPE_SRV:
avahi_free(r->data.srv.name);
break;
case AVAHI_DNS_TYPE_PTR:
case AVAHI_DNS_TYPE_CNAME:
case AVAHI_DNS_TYPE_NS:
avahi_free(r->data.ptr.name);
break;
case AVAHI_DNS_TYPE_HINFO:
avahi_free(r->data.hinfo.cpu);
avahi_free(r->data.hinfo.os);
break;
case AVAHI_DNS_TYPE_TXT:
avahi_string_list_free(r->data.txt.string_list);
break;
case AVAHI_DNS_TYPE_A:
case AVAHI_DNS_TYPE_AAAA:
break;
default:
avahi_free(r->data.generic.data);
}
avahi_key_unref(r->key);
avahi_free(r);
}
}
const char *avahi_dns_class_to_string(uint16_t class) {
if (class & AVAHI_DNS_CACHE_FLUSH)
return "FLUSH";
switch (class) {
case AVAHI_DNS_CLASS_IN:
return "IN";
case AVAHI_DNS_CLASS_ANY:
return "ANY";
default:
return NULL;
}
}
const char *avahi_dns_type_to_string(uint16_t type) {
switch (type) {
case AVAHI_DNS_TYPE_CNAME:
return "CNAME";
case AVAHI_DNS_TYPE_A:
return "A";
case AVAHI_DNS_TYPE_AAAA:
return "AAAA";
case AVAHI_DNS_TYPE_PTR:
return "PTR";
case AVAHI_DNS_TYPE_HINFO:
return "HINFO";
case AVAHI_DNS_TYPE_TXT:
return "TXT";
case AVAHI_DNS_TYPE_SRV:
return "SRV";
case AVAHI_DNS_TYPE_ANY:
return "ANY";
case AVAHI_DNS_TYPE_SOA:
return "SOA";
case AVAHI_DNS_TYPE_NS:
return "NS";
default:
return NULL;
}
}
char *avahi_key_to_string(const AvahiKey *k) {
char class[16], type[16];
const char *c, *t;
assert(k);
assert(k->ref >= 1);
/* According to RFC3597 */
if (!(c = avahi_dns_class_to_string(k->clazz))) {
snprintf(class, sizeof(class), "CLASS%u", k->clazz);
c = class;
}
if (!(t = avahi_dns_type_to_string(k->type))) {
snprintf(type, sizeof(type), "TYPE%u", k->type);
t = type;
}
return avahi_strdup_printf("%s\t%s\t%s", k->name, c, t);
}
char *avahi_record_to_string(const AvahiRecord *r) {
char *p, *s;
char buf[1024], *t = NULL, *d = NULL;
assert(r);
assert(r->ref >= 1);
switch (r->key->type) {
case AVAHI_DNS_TYPE_A:
inet_ntop(AF_INET, &r->data.a.address.address, t = buf, sizeof(buf));
break;
case AVAHI_DNS_TYPE_AAAA:
inet_ntop(AF_INET6, &r->data.aaaa.address.address, t = buf, sizeof(buf));
break;
case AVAHI_DNS_TYPE_PTR:
case AVAHI_DNS_TYPE_CNAME:
case AVAHI_DNS_TYPE_NS:
t = r->data.ptr.name;
break;
case AVAHI_DNS_TYPE_TXT:
t = d = avahi_string_list_to_string(r->data.txt.string_list);
break;
case AVAHI_DNS_TYPE_HINFO:
snprintf(t = buf, sizeof(buf), "\"%s\" \"%s\"", r->data.hinfo.cpu, r->data.hinfo.os);
break;
case AVAHI_DNS_TYPE_SRV:
snprintf(t = buf, sizeof(buf), "%u %u %u %s",
r->data.srv.priority,
r->data.srv.weight,
r->data.srv.port,
r->data.srv.name);
break;
default: {
uint8_t *c;
uint16_t n;
int i;
char *e;
/* According to RFC3597 */
snprintf(t = buf, sizeof(buf), "\\# %u", r->data.generic.size);
e = strchr(t, 0);
for (c = r->data.generic.data, n = r->data.generic.size, i = 0;
n > 0 && i < 20;
c ++, n --, i++) {
sprintf(e, " %02X", *c);
e = strchr(e, 0);
}
break;
}
}
p = avahi_key_to_string(r->key);
s = avahi_strdup_printf("%s %s ; ttl=%u", p, t, r->ttl);
avahi_free(p);
avahi_free(d);
return s;
}
int avahi_key_equal(const AvahiKey *a, const AvahiKey *b) {
assert(a);
assert(b);
if (a == b)
return 1;
return avahi_domain_equal(a->name, b->name) &&
a->type == b->type &&
a->clazz == b->clazz;
}
int avahi_key_pattern_match(const AvahiKey *pattern, const AvahiKey *k) {
assert(pattern);
assert(k);
assert(!avahi_key_is_pattern(k));
if (pattern == k)
return 1;
return avahi_domain_equal(pattern->name, k->name) &&
(pattern->type == k->type || pattern->type == AVAHI_DNS_TYPE_ANY) &&
(pattern->clazz == k->clazz || pattern->clazz == AVAHI_DNS_CLASS_ANY);
}
int avahi_key_is_pattern(const AvahiKey *k) {
assert(k);
return
k->type == AVAHI_DNS_TYPE_ANY ||
k->clazz == AVAHI_DNS_CLASS_ANY;
}
unsigned avahi_key_hash(const AvahiKey *k) {
assert(k);
return
avahi_domain_hash(k->name) +
k->type +
k->clazz;
}
static int rdata_equal(const AvahiRecord *a, const AvahiRecord *b) {
assert(a);
assert(b);
assert(a->key->type == b->key->type);
switch (a->key->type) {
case AVAHI_DNS_TYPE_SRV:
return
a->data.srv.priority == b->data.srv.priority &&
a->data.srv.weight == b->data.srv.weight &&
a->data.srv.port == b->data.srv.port &&
avahi_domain_equal(a->data.srv.name, b->data.srv.name);
case AVAHI_DNS_TYPE_PTR:
case AVAHI_DNS_TYPE_CNAME:
case AVAHI_DNS_TYPE_NS:
return avahi_domain_equal(a->data.ptr.name, b->data.ptr.name);
case AVAHI_DNS_TYPE_HINFO:
return
!strcmp(a->data.hinfo.cpu, b->data.hinfo.cpu) &&
!strcmp(a->data.hinfo.os, b->data.hinfo.os);
case AVAHI_DNS_TYPE_TXT:
return avahi_string_list_equal(a->data.txt.string_list, b->data.txt.string_list);
case AVAHI_DNS_TYPE_A:
return memcmp(&a->data.a.address, &b->data.a.address, sizeof(AvahiIPv4Address)) == 0;
case AVAHI_DNS_TYPE_AAAA:
return memcmp(&a->data.aaaa.address, &b->data.aaaa.address, sizeof(AvahiIPv6Address)) == 0;
default:
return a->data.generic.size == b->data.generic.size &&
(a->data.generic.size == 0 || memcmp(a->data.generic.data, b->data.generic.data, a->data.generic.size) == 0);
}
}
int avahi_record_equal_no_ttl(const AvahiRecord *a, const AvahiRecord *b) {
assert(a);
assert(b);
if (a == b)
return 1;
return
avahi_key_equal(a->key, b->key) &&
rdata_equal(a, b);
}
AvahiRecord *avahi_record_copy(AvahiRecord *r) {
AvahiRecord *copy;
if (!(copy = avahi_new(AvahiRecord, 1))) {
avahi_log_error("avahi_new() failed.");
return NULL;
}
copy->ref = 1;
copy->key = avahi_key_ref(r->key);
copy->ttl = r->ttl;
switch (r->key->type) {
case AVAHI_DNS_TYPE_PTR:
case AVAHI_DNS_TYPE_CNAME:
case AVAHI_DNS_TYPE_NS:
if (!(copy->data.ptr.name = avahi_strdup(r->data.ptr.name)))
goto fail;
break;
case AVAHI_DNS_TYPE_SRV:
copy->data.srv.priority = r->data.srv.priority;
copy->data.srv.weight = r->data.srv.weight;
copy->data.srv.port = r->data.srv.port;
if (!(copy->data.srv.name = avahi_strdup(r->data.srv.name)))
goto fail;
break;
case AVAHI_DNS_TYPE_HINFO:
if (!(copy->data.hinfo.os = avahi_strdup(r->data.hinfo.os)))
goto fail;
if (!(copy->data.hinfo.cpu = avahi_strdup(r->data.hinfo.cpu))) {
avahi_free(r->data.hinfo.os);
goto fail;
}
break;
case AVAHI_DNS_TYPE_TXT:
copy->data.txt.string_list = avahi_string_list_copy(r->data.txt.string_list);
break;
case AVAHI_DNS_TYPE_A:
copy->data.a.address = r->data.a.address;
break;
case AVAHI_DNS_TYPE_AAAA:
copy->data.aaaa.address = r->data.aaaa.address;
break;
default:
if (!(copy->data.generic.data = avahi_memdup(r->data.generic.data, r->data.generic.size)))
goto fail;
copy->data.generic.size = r->data.generic.size;
break;
}
return copy;
fail:
avahi_log_error("Failed to allocate memory");
avahi_key_unref(copy->key);
avahi_free(copy);
return NULL;
}
size_t avahi_key_get_estimate_size(AvahiKey *k) {
assert(k);
return strlen(k->name)+1+4;
}
size_t avahi_record_get_estimate_size(AvahiRecord *r) {
size_t n;
assert(r);
n = avahi_key_get_estimate_size(r->key) + 4 + 2;
switch (r->key->type) {
case AVAHI_DNS_TYPE_PTR:
case AVAHI_DNS_TYPE_CNAME:
case AVAHI_DNS_TYPE_NS:
n += strlen(r->data.ptr.name) + 1;
break;
case AVAHI_DNS_TYPE_SRV:
n += 6 + strlen(r->data.srv.name) + 1;
break;
case AVAHI_DNS_TYPE_HINFO:
n += strlen(r->data.hinfo.os) + 1 + strlen(r->data.hinfo.cpu) + 1;
break;
case AVAHI_DNS_TYPE_TXT:
n += avahi_string_list_serialize(r->data.txt.string_list, NULL, 0);
break;
case AVAHI_DNS_TYPE_A:
n += sizeof(AvahiIPv4Address);
break;
case AVAHI_DNS_TYPE_AAAA:
n += sizeof(AvahiIPv6Address);
break;
default:
n += r->data.generic.size;
}
return n;
}
static int lexicographical_memcmp(const void* a, size_t al, const void* b, size_t bl) {
size_t c;
int ret;
assert(a);
assert(b);
c = al < bl ? al : bl;
if ((ret = memcmp(a, b, c)))
return ret;
if (al == bl)
return 0;
else
return al == c ? 1 : -1;
}
static int uint16_cmp(uint16_t a, uint16_t b) {
return a == b ? 0 : (a < b ? -1 : 1);
}
int avahi_record_lexicographical_compare(AvahiRecord *a, AvahiRecord *b) {
int r;
/* char *t1, *t2; */
assert(a);
assert(b);
/* t1 = avahi_record_to_string(a); */
/* t2 = avahi_record_to_string(b); */
/* g_message("lexicocmp: %s %s", t1, t2); */
/* avahi_free(t1); */
/* avahi_free(t2); */
if (a == b)
return 0;
if ((r = uint16_cmp(a->key->clazz, b->key->clazz)) ||
(r = uint16_cmp(a->key->type, b->key->type)))
return r;
switch (a->key->type) {
case AVAHI_DNS_TYPE_PTR:
case AVAHI_DNS_TYPE_CNAME:
case AVAHI_DNS_TYPE_NS:
return avahi_binary_domain_cmp(a->data.ptr.name, b->data.ptr.name);
case AVAHI_DNS_TYPE_SRV: {
if ((r = uint16_cmp(a->data.srv.priority, b->data.srv.priority)) == 0 &&
(r = uint16_cmp(a->data.srv.weight, b->data.srv.weight)) == 0 &&
(r = uint16_cmp(a->data.srv.port, b->data.srv.port)) == 0)
r = avahi_binary_domain_cmp(a->data.srv.name, b->data.srv.name);
return r;
}
case AVAHI_DNS_TYPE_HINFO: {
if ((r = strcmp(a->data.hinfo.cpu, b->data.hinfo.cpu)) ||
(r = strcmp(a->data.hinfo.os, b->data.hinfo.os)))
return r;
return 0;
}
case AVAHI_DNS_TYPE_TXT: {
uint8_t *ma = NULL, *mb = NULL;
size_t asize, bsize;
asize = avahi_string_list_serialize(a->data.txt.string_list, NULL, 0);
bsize = avahi_string_list_serialize(b->data.txt.string_list, NULL, 0);
if (asize > 0 && !(ma = avahi_new(uint8_t, asize)))
goto fail;
if (bsize > 0 && !(mb = avahi_new(uint8_t, bsize))) {
avahi_free(ma);
goto fail;
}
avahi_string_list_serialize(a->data.txt.string_list, ma, asize);
avahi_string_list_serialize(b->data.txt.string_list, mb, bsize);
if (asize && bsize)
r = lexicographical_memcmp(ma, asize, mb, bsize);
else if (asize && !bsize)
r = 1;
else if (!asize && bsize)
r = -1;
else
r = 0;
avahi_free(ma);
avahi_free(mb);
return r;
}
case AVAHI_DNS_TYPE_A:
return memcmp(&a->data.a.address, &b->data.a.address, sizeof(AvahiIPv4Address));
case AVAHI_DNS_TYPE_AAAA:
return memcmp(&a->data.aaaa.address, &b->data.aaaa.address, sizeof(AvahiIPv6Address));
default:
return lexicographical_memcmp(a->data.generic.data, a->data.generic.size,
b->data.generic.data, b->data.generic.size);
}
fail:
avahi_log_error(__FILE__": Out of memory");
return -1; /* or whatever ... */
}
int avahi_record_is_goodbye(AvahiRecord *r) {
assert(r);
return r->ttl == 0;
}
int avahi_key_is_valid(AvahiKey *k) {
assert(k);
if (!avahi_is_valid_domain_name(k->name))
return 0;
return 1;
}
int avahi_record_is_valid(AvahiRecord *r) {
assert(r);
if (!avahi_key_is_valid(r->key))
return 0;
switch (r->key->type) {
case AVAHI_DNS_TYPE_PTR:
case AVAHI_DNS_TYPE_CNAME:
case AVAHI_DNS_TYPE_NS:
return avahi_is_valid_domain_name(r->data.ptr.name);
case AVAHI_DNS_TYPE_SRV:
return avahi_is_valid_domain_name(r->data.srv.name);
case AVAHI_DNS_TYPE_HINFO:
return
strlen(r->data.hinfo.os) <= 255 &&
strlen(r->data.hinfo.cpu) <= 255;
case AVAHI_DNS_TYPE_TXT: {
AvahiStringList *strlst;
for (strlst = r->data.txt.string_list; strlst; strlst = strlst->next)
if (strlst->size > 255 || strlst->size <= 0)
return 0;
return 1;
}
}
return 1;
}
static AvahiAddress *get_address(const AvahiRecord *r, AvahiAddress *a) {
assert(r);
switch (r->key->type) {
case AVAHI_DNS_TYPE_A:
a->proto = AVAHI_PROTO_INET;
a->data.ipv4 = r->data.a.address;
break;
case AVAHI_DNS_TYPE_AAAA:
a->proto = AVAHI_PROTO_INET6;
a->data.ipv6 = r->data.aaaa.address;
break;
default:
return NULL;
}
return a;
}
int avahi_record_is_link_local_address(const AvahiRecord *r) {
AvahiAddress a;
assert(r);
if (!get_address(r, &a))
return 0;
return avahi_address_is_link_local(&a);
}