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|
/* Copyright (c) 2014, Vsevolod Stakhov
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED ''AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL AUTHOR BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <sys/un.h>
#include <sys/stat.h>
#include <unistd.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include <netdb.h>
#include <fcntl.h>
#include <ctype.h>
#include "ottery.h"
#include "util.h"
#include "logger.h"
#include "rdns.h"
inline void
rdns_request_remove_from_hash (struct rdns_request *req)
{
/* Remove from id hashes */
if (req->io) {
khiter_t k;
k = kh_get(rdns_requests_hash, req->io->requests, req->id);
if (k != kh_end(req->io->requests)) {
kh_del(rdns_requests_hash, req->io->requests, k);
}
}
}
static int
rdns_make_socket_nonblocking (int fd)
{
int ofl;
ofl = fcntl (fd, F_GETFL, 0);
if (fcntl (fd, F_SETFL, ofl | O_NONBLOCK) == -1) {
return -1;
}
return 0;
}
static int
rdns_make_inet_socket (int type, struct addrinfo *addr, struct sockaddr **psockaddr,
socklen_t *psocklen)
{
int fd = -1;
struct addrinfo *cur;
cur = addr;
while (cur) {
/* Create socket */
fd = socket (cur->ai_family, type, 0);
if (fd == -1) {
goto out;
}
if (rdns_make_socket_nonblocking (fd) < 0) {
goto out;
}
/* Set close on exec */
if (fcntl (fd, F_SETFD, FD_CLOEXEC) == -1) {
goto out;
}
if (psockaddr) {
*psockaddr = cur->ai_addr;
*psocklen = cur->ai_addrlen;
}
break;
out:
if (fd != -1) {
close (fd);
}
fd = -1;
cur = cur->ai_next;
}
return (fd);
}
static int
rdns_make_unix_socket (const char *path, struct sockaddr_un *addr, int type)
{
int fd = -1, serrno;
if (path == NULL) {
return -1;
}
addr->sun_family = AF_UNIX;
memset (addr->sun_path, 0, sizeof (addr->sun_path));
memccpy (addr->sun_path, path, 0, sizeof (addr->sun_path) - 1);
#ifdef FREEBSD
addr->sun_len = SUN_LEN (addr);
#endif
fd = socket (PF_LOCAL, type, 0);
if (fd == -1) {
return -1;
}
if (rdns_make_socket_nonblocking (fd) < 0) {
goto out;
}
/* Set close on exec */
if (fcntl (fd, F_SETFD, FD_CLOEXEC) == -1) {
goto out;
}
return (fd);
out:
serrno = errno;
if (fd != -1) {
close (fd);
}
errno = serrno;
return (-1);
}
/**
* Make a universal socket
* @param credits host, ip or path to unix socket
* @param port port (used for network sockets)
* @param async make this socket asynced
* @param is_server make this socket as server socket
* @param try_resolve try name resolution for a socket (BLOCKING)
*/
int
rdns_make_client_socket (const char *credits,
uint16_t port,
int type,
struct sockaddr **psockaddr,
socklen_t *psocklen)
{
struct sockaddr_un un;
struct stat st;
struct addrinfo hints, *res;
int r;
char portbuf[8];
if (*credits == '/') {
r = stat (credits, &st);
if (r == -1) {
/* Unix socket doesn't exists it must be created first */
errno = ENOENT;
return -1;
}
else {
if ((st.st_mode & S_IFSOCK) == 0) {
/* Path is not valid socket */
errno = EINVAL;
return -1;
}
else {
r = rdns_make_unix_socket (credits, &un, type);
if (r != -1 && psockaddr) {
struct sockaddr *cpy;
cpy = calloc (1, sizeof (un));
*psocklen = sizeof (un);
if (cpy == NULL) {
close (r);
return -1;
}
memcpy (cpy, &un, *psocklen);
*psockaddr = cpy;
}
return r;
}
}
}
else {
/* TCP related part */
memset (&hints, 0, sizeof (hints));
hints.ai_family = AF_UNSPEC; /* Allow IPv4 or IPv6 */
hints.ai_socktype = type; /* Type of the socket */
hints.ai_flags = 0;
hints.ai_protocol = 0; /* Any protocol */
hints.ai_canonname = NULL;
hints.ai_addr = NULL;
hints.ai_next = NULL;
hints.ai_flags |= AI_NUMERICHOST | AI_NUMERICSERV;
snprintf (portbuf, sizeof (portbuf), "%d", (int)port);
if (getaddrinfo (credits, portbuf, &hints, &res) == 0) {
r = rdns_make_inet_socket (type, res, psockaddr, psocklen);
if (r != -1 && psockaddr) {
struct sockaddr *cpy;
cpy = calloc (1, *psocklen);
if (cpy == NULL) {
close (r);
freeaddrinfo (res);
return -1;
}
memcpy (cpy, *psockaddr, *psocklen);
*psockaddr = cpy;
}
freeaddrinfo (res);
return r;
}
else {
return -1;
}
}
/* Not reached */
return -1;
}
const char *
rdns_strerror (enum dns_rcode rcode)
{
rcode &= 0xf;
static char numbuf[16];
if ('\0' == dns_rcodes[rcode][0]) {
snprintf (numbuf, sizeof (numbuf), "UNKNOWN: %d", (int)rcode);
return numbuf;
}
return dns_rcodes[rcode];
}
const char *
rdns_strtype (enum rdns_request_type type)
{
return dns_types[type];
}
enum rdns_request_type
rdns_type_fromstr (const char *str)
{
if (str) {
if (strcmp (str, "a") == 0) {
return RDNS_REQUEST_A;
}
else if (strcmp (str, "ns") == 0) {
return RDNS_REQUEST_NS;
}
else if (strcmp (str, "soa") == 0) {
return RDNS_REQUEST_SOA;
}
else if (strcmp (str, "ptr") == 0) {
return RDNS_REQUEST_PTR;
}
else if (strcmp (str, "mx") == 0) {
return RDNS_REQUEST_MX;
}
else if (strcmp (str, "srv") == 0) {
return RDNS_REQUEST_SRV;
}
else if (strcmp (str, "txt") == 0) {
return RDNS_REQUEST_TXT;
}
else if (strcmp (str, "spf") == 0) {
return RDNS_REQUEST_SPF;
}
else if (strcmp (str, "aaaa") == 0) {
return RDNS_REQUEST_AAAA;
}
else if (strcmp (str, "tlsa") == 0) {
return RDNS_REQUEST_TLSA;
}
else if (strcmp (str, "cname") == 0) {
return RDNS_REQUEST_CNAME;
}
else if (strcmp (str, "any") == 0) {
return RDNS_REQUEST_ANY;
}
}
return RDNS_REQUEST_INVALID;
}
const char *
rdns_str_from_type (enum rdns_request_type rcode)
{
switch (rcode) {
case RDNS_REQUEST_INVALID:
return "(invalid)";
case RDNS_REQUEST_A:
return "a";
case RDNS_REQUEST_NS:
return "ns";
case RDNS_REQUEST_SOA:
return "soa";
case RDNS_REQUEST_PTR:
return "ptr";
case RDNS_REQUEST_MX:
return "mx";
case RDNS_REQUEST_TXT:
return "txt";
case RDNS_REQUEST_SRV:
return "srv";
case RDNS_REQUEST_SPF:
return "spf";
case RDNS_REQUEST_AAAA:
return "aaaa";
case RDNS_REQUEST_TLSA:
return "tlsa";
case RDNS_REQUEST_CNAME:
return "cname";
case RDNS_REQUEST_ANY:
return "any";
default:
return "(unknown)";
}
}
enum dns_rcode
rdns_rcode_fromstr (const char *str)
{
if (str) {
if (strcmp (str, "noerror") == 0) {
return RDNS_RC_NOERROR;
}
else if (strcmp (str, "formerr") == 0) {
return RDNS_RC_FORMERR;
}
else if (strcmp (str, "servfail") == 0) {
return RDNS_RC_SERVFAIL;
}
else if (strcmp (str, "nxdomain") == 0) {
return RDNS_RC_NXDOMAIN;
}
else if (strcmp (str, "notimp") == 0) {
return RDNS_RC_NOTIMP;
}
else if (strcmp (str, "yxdomain") == 0) {
return RDNS_RC_YXDOMAIN;
}
else if (strcmp (str, "yxrrset") == 0) {
return RDNS_RC_YXRRSET;
}
else if (strcmp (str, "nxrrset") == 0) {
return RDNS_RC_NXRRSET;
}
else if (strcmp (str, "notauth") == 0) {
return RDNS_RC_NOTAUTH;
}
else if (strcmp (str, "notzone") == 0) {
return RDNS_RC_NOTZONE;
}
else if (strcmp (str, "timeout") == 0) {
return RDNS_RC_TIMEOUT;
}
else if (strcmp (str, "neterr") == 0) {
return RDNS_RC_NETERR;
}
else if (strcmp (str, "norec") == 0) {
return RDNS_RC_NOREC;
}
}
return RDNS_RC_INVALID;
}
uint16_t
rdns_permutor_generate_id (void)
{
uint16_t id;
id = ottery_rand_unsigned ();
return id;
}
struct rdns_reply *
rdns_make_reply (struct rdns_request *req, enum dns_rcode rcode)
{
struct rdns_reply *rep;
rep = malloc (sizeof (struct rdns_reply));
if (rep != NULL) {
rep->request = req;
rep->resolver = req->resolver;
rep->entries = NULL;
rep->code = rcode;
req->reply = rep;
rep->flags = 0;
rep->requested_name = req->requested_names[0].name;
}
return rep;
}
void
rdns_reply_free (struct rdns_reply *rep)
{
struct rdns_reply_entry *entry, *tmp;
/* We don't need to free data for faked replies */
if (!rep->request || rep->request->state != RDNS_REQUEST_FAKE) {
LL_FOREACH_SAFE (rep->entries, entry, tmp) {
switch (entry->type) {
case RDNS_REQUEST_PTR:
free (entry->content.ptr.name);
break;
case RDNS_REQUEST_NS:
free (entry->content.ns.name);
break;
case RDNS_REQUEST_MX:
free (entry->content.mx.name);
break;
case RDNS_REQUEST_TXT:
case RDNS_REQUEST_SPF:
free (entry->content.txt.data);
break;
case RDNS_REQUEST_SRV:
free (entry->content.srv.target);
break;
case RDNS_REQUEST_TLSA:
free (entry->content.tlsa.data);
break;
case RDNS_REQUEST_SOA:
free (entry->content.soa.mname);
free (entry->content.soa.admin);
break;
case RDNS_REQUEST_CNAME:
free(entry->content.cname.name);
break;
default:
break;
}
free (entry);
}
}
free (rep);
}
void
rdns_request_free (struct rdns_request *req)
{
unsigned int i;
if (req != NULL) {
if (req->packet != NULL) {
free (req->packet);
}
for (i = 0; i < req->qcount; i ++) {
free (req->requested_names[i].name);
}
if (req->requested_names != NULL) {
free (req->requested_names);
}
if (req->reply != NULL) {
rdns_reply_free (req->reply);
}
if (req->async_event) {
if (req->state == RDNS_REQUEST_WAIT_REPLY) {
/* Remove timer */
req->async->del_timer (req->async->data,
req->async_event);
rdns_request_remove_from_hash(req);
req->async_event = NULL;
}
else if (req->state == RDNS_REQUEST_WAIT_SEND) {
/* Remove retransmit event */
req->async->del_write (req->async->data,
req->async_event);
rdns_request_remove_from_hash(req);
req->async_event = NULL;
}
else if (req->state == RDNS_REQUEST_FAKE) {
req->async->del_write (req->async->data,
req->async_event);
req->async_event = NULL;
}
}
if (req->state == RDNS_REQUEST_TCP) {
if (req->async_event) {
req->async->del_timer (req->async->data,
req->async_event);
}
rdns_request_remove_from_hash(req);
}
#ifdef TWEETNACL
if (req->curve_plugin_data != NULL) {
req->resolver->curve_plugin->cb.curve_plugin.finish_cb (
req, req->resolver->curve_plugin->data);
}
#endif
if (req->io != NULL && req->state > RDNS_REQUEST_NEW) {
REF_RELEASE (req->io);
REF_RELEASE (req->resolver);
}
free (req);
}
}
void
rdns_ioc_free (struct rdns_io_channel *ioc)
{
struct rdns_request *req;
if (IS_CHANNEL_TCP(ioc)) {
rdns_ioc_tcp_reset(ioc);
}
kh_foreach_value(ioc->requests, req, {
REF_RELEASE (req);
});
if (ioc->async_io) {
ioc->resolver->async->del_read(ioc->resolver->async->data,
ioc->async_io);
}
kh_destroy(rdns_requests_hash, ioc->requests);
if (ioc->sock != -1) {
close(ioc->sock);
}
if (ioc->saddr != NULL) {
free(ioc->saddr);
}
free (ioc);
}
struct rdns_io_channel *
rdns_ioc_new (struct rdns_server *serv,
struct rdns_resolver *resolver,
bool is_tcp)
{
struct rdns_io_channel *nioc;
if (is_tcp) {
nioc = calloc (1, sizeof (struct rdns_io_channel)
+ sizeof (struct rdns_tcp_channel));
}
else {
nioc = calloc (1, sizeof (struct rdns_io_channel));
}
if (nioc == NULL) {
rdns_err ("calloc fails to allocate rdns_io_channel");
return NULL;
}
nioc->struct_magic = RDNS_IO_CHANNEL_TAG;
nioc->srv = serv;
nioc->resolver = resolver;
nioc->sock = rdns_make_client_socket (serv->name, serv->port,
is_tcp ? SOCK_STREAM : SOCK_DGRAM, &nioc->saddr, &nioc->slen);
if (nioc->sock == -1) {
rdns_err ("cannot open socket to %s: %s", serv->name,
strerror (errno));
free (nioc);
return NULL;
}
if (is_tcp) {
/* We also need to connect a TCP channel and set a TCP buffer */
nioc->tcp = (struct rdns_tcp_channel *)(((unsigned char *)nioc) + sizeof(*nioc));
if (!rdns_ioc_tcp_connect(nioc)) {
rdns_err ("cannot connect TCP socket to %s: %s", serv->name,
strerror (errno));
close (nioc->sock);
free (nioc);
return NULL;
}
nioc->flags |= RDNS_CHANNEL_TCP;
}
else {
nioc->flags |= RDNS_CHANNEL_ACTIVE;
nioc->async_io = resolver->async->add_read(resolver->async->data,
nioc->sock, nioc);
}
nioc->requests = kh_init(rdns_requests_hash);
REF_INIT_RETAIN (nioc, rdns_ioc_free);
return nioc;
}
void
rdns_resolver_release (struct rdns_resolver *resolver)
{
REF_RELEASE (resolver);
}
struct rdns_request*
rdns_request_retain (struct rdns_request *req)
{
REF_RETAIN (req);
return req;
}
void
rdns_request_unschedule (struct rdns_request *req, bool remove_from_hash)
{
struct rdns_resolver *resolver = req->resolver;
switch (req->state) {
case RDNS_REQUEST_WAIT_REPLY:
/* We have a timer pending */
if (req->async_event) {
req->async->del_timer (req->async->data,
req->async_event);
if (remove_from_hash) {
rdns_request_remove_from_hash(req);
}
req->async_event = NULL;
}
break;
case RDNS_REQUEST_WAIT_SEND:
/* We have write request pending */
if (req->async_event) {
req->async->del_write (req->async->data,
req->async_event);
/* Remove from id hashes */
if (remove_from_hash) {
rdns_request_remove_from_hash(req);
}
req->async_event = NULL;
}
break;
case RDNS_REQUEST_TCP:
/* We also have a timer */
if (req->async_event) {
if (remove_from_hash) {
rdns_request_remove_from_hash(req);
}
req->async->del_timer(req->async->data,
req->async_event);
req->async_event = NULL;
}
default:
/* Nothing to unschedule, so blame if we have any event pending */
if (req->async_event) {
rdns_err("internal error: have unexpected pending async state on stage %d",
req->state);
}
break;
}
}
void
rdns_request_release (struct rdns_request *req)
{
rdns_request_unschedule (req, true);
REF_RELEASE (req);
}
void
rdns_ioc_tcp_reset (struct rdns_io_channel *ioc)
{
struct rdns_resolver *resolver = ioc->resolver;
if (IS_CHANNEL_CONNECTED(ioc)) {
if (ioc->tcp->async_write) {
resolver->async->del_write (resolver->async->data, ioc->tcp->async_write);
ioc->tcp->async_write = NULL;
}
if (ioc->tcp->async_read) {
resolver->async->del_read (resolver->async->data, ioc->tcp->async_read);
ioc->tcp->async_read = NULL;
}
/* Clean all buffers and temporaries */
if (ioc->tcp->cur_read_buf) {
free (ioc->tcp->cur_read_buf);
ioc->tcp->read_buf_allocated = 0;
ioc->tcp->next_read_size = 0;
ioc->tcp->cur_read = 0;
ioc->tcp->cur_read_buf = NULL;
}
struct rdns_tcp_output_chain *oc, *tmp;
DL_FOREACH_SAFE(ioc->tcp->output_chain, oc, tmp) {
DL_DELETE (ioc->tcp->output_chain, oc);
free (oc);
}
ioc->tcp->cur_output_chains = 0;
ioc->tcp->output_chain = NULL;
ioc->flags &= ~RDNS_CHANNEL_CONNECTED;
}
/* Remove all requests pending as we are unable to complete them */
struct rdns_request *req;
kh_foreach_value(ioc->requests, req, {
struct rdns_reply *rep = rdns_make_reply (req, RDNS_RC_NETERR);
/*
* Unschedule request explicitly as we set state to RDNS_REQUEST_REPLIED
* that will prevent timer from being removed on req dtor.
*
* We skip hash removal here, as the hash will be cleared as a single
* operation afterwards.
*/
rdns_request_unschedule(req, false);
req->state = RDNS_REQUEST_REPLIED;
req->func (rep, req->arg);
REF_RELEASE (req);
});
if (ioc->sock != -1) {
close (ioc->sock);
ioc->sock = -1;
}
if (ioc->saddr) {
free (ioc->saddr);
ioc->saddr = NULL;
}
kh_clear(rdns_requests_hash, ioc->requests);
}
bool
rdns_ioc_tcp_connect (struct rdns_io_channel *ioc)
{
struct rdns_resolver *resolver = ioc->resolver;
if (IS_CHANNEL_CONNECTED(ioc)) {
rdns_err ("trying to connect already connected IO channel!");
return false;
}
if (ioc->flags & RDNS_CHANNEL_TCP_CONNECTING) {
/* Already connecting channel, ignore connect request */
return true;
}
if (ioc->sock == -1) {
ioc->sock = rdns_make_client_socket (ioc->srv->name, ioc->srv->port,
SOCK_STREAM, &ioc->saddr, &ioc->slen);
if (ioc->sock == -1) {
rdns_err ("cannot open socket to %s: %s", ioc->srv->name,
strerror (errno));
if (ioc->saddr) {
free (ioc->saddr);
ioc->saddr = NULL;
}
return false;
}
}
int r = connect (ioc->sock, ioc->saddr, ioc->slen);
if (r == -1) {
if (errno != EAGAIN && errno != EINTR && errno != EINPROGRESS) {
rdns_err ("cannot connect a TCP socket: %s for server %s",
strerror(errno), ioc->srv->name);
close (ioc->sock);
if (ioc->saddr) {
free (ioc->saddr);
ioc->saddr = NULL;
}
ioc->sock = -1;
return false;
}
else {
/* We need to wait for write readiness here */
if (ioc->tcp->async_write != NULL) {
rdns_err("internal rdns error: write event is already registered on connect");
}
else {
ioc->tcp->async_write = resolver->async->add_write(resolver->async->data,
ioc->sock, ioc);
}
/* Prevent double connect attempts */
ioc->flags |= RDNS_CHANNEL_TCP_CONNECTING;
}
}
else {
/* Always be ready to read from a TCP socket */
ioc->flags |= RDNS_CHANNEL_CONNECTED|RDNS_CHANNEL_ACTIVE;
ioc->flags &= ~RDNS_CHANNEL_TCP_CONNECTING;
ioc->tcp->async_read = resolver->async->add_read(resolver->async->data,
ioc->sock, ioc);
}
return true;
}
static bool
rdns_resolver_conf_process_line (struct rdns_resolver *resolver,
const char *line, rdns_resolv_conf_cb cb, void *ud)
{
const char *p, *c, *end;
bool has_obrace = false, ret;
unsigned int port = dns_port;
char *cpy_buf;
end = line + strlen (line);
if (end - line > sizeof ("nameserver") - 1 &&
strncmp (line, "nameserver", sizeof ("nameserver") - 1) == 0) {
p = line + sizeof ("nameserver") - 1;
/* Skip spaces */
while (isspace (*p)) {
p ++;
}
if (*p == '[') {
has_obrace = true;
p ++;
}
if (isxdigit (*p) || *p == ':') {
c = p;
while (isxdigit (*p) || *p == ':' || *p == '.') {
p ++;
}
if (has_obrace && *p != ']') {
return false;
}
else if (*p != '\0' && !isspace (*p) && *p != '#') {
return false;
}
if (has_obrace) {
p ++;
if (*p == ':') {
/* Maybe we have a port definition */
port = strtoul (p + 1, NULL, 10);
if (port == 0 || port > UINT16_MAX) {
return false;
}
}
}
cpy_buf = malloc (p - c + 1);
assert (cpy_buf != NULL);
memcpy (cpy_buf, c, p - c);
cpy_buf[p - c] = '\0';
if (cb == NULL) {
ret = rdns_resolver_add_server (resolver, cpy_buf, port, 0,
default_io_cnt) != NULL;
}
else {
ret = cb (resolver, cpy_buf, port, 0,
default_io_cnt, ud);
}
free (cpy_buf);
return ret;
}
else {
return false;
}
}
/* XXX: skip unknown resolv.conf lines */
return false;
}
bool
rdns_resolver_parse_resolv_conf_cb (struct rdns_resolver *resolver,
const char *path, rdns_resolv_conf_cb cb, void *ud)
{
FILE *in;
char buf[BUFSIZ];
char *p;
bool processed = false;
in = fopen (path, "r");
if (in == NULL) {
return false;
}
while (!feof (in)) {
if (fgets (buf, sizeof (buf) - 1, in) == NULL) {
break;
}
/* Strip trailing spaces */
p = buf + strlen (buf) - 1;
while (p > buf &&
(*p == ' ' || *p == '\t' || *p == '\r' || *p == '\n')) {
*p-- = '\0';
}
if (rdns_resolver_conf_process_line (resolver, buf, cb, ud)) {
processed = true;
}
}
fclose (in);
return processed;
}
bool
rdns_resolver_parse_resolv_conf (struct rdns_resolver *resolver, const char *path)
{
return rdns_resolver_parse_resolv_conf_cb (resolver, path, NULL, NULL);
}
bool
rdns_request_has_type (struct rdns_request *req, enum rdns_request_type type)
{
unsigned int i;
for (i = 0; i < req->qcount; i ++) {
if (req->requested_names[i].type == type) {
return true;
}
}
return false;
}
const struct rdns_request_name *
rdns_request_get_name (struct rdns_request *req, unsigned int *count)
{
if (count != NULL) {
*count = req->qcount;
}
return req->requested_names;
}
const char*
rdns_request_get_server (struct rdns_request *req)
{
if (req && req->io) {
return req->io->srv->name;
}
return NULL;
}
char *
rdns_generate_ptr_from_str (const char *str)
{
union {
struct in_addr v4;
struct in6_addr v6;
} addr;
char *res = NULL;
unsigned char *bytes;
size_t len;
if (inet_pton (AF_INET, str, &addr.v4) == 1) {
bytes = (unsigned char *)&addr.v4;
len = 4 * 4 + sizeof ("in-addr.arpa");
res = malloc (len);
if (res) {
snprintf (res, len, "%u.%u.%u.%u.in-addr.arpa",
(unsigned)bytes[3]&0xFF,
(unsigned)bytes[2]&0xFF,
(unsigned)bytes[1]&0xFF,
(unsigned)bytes[0]&0xFF);
}
}
else if (inet_pton (AF_INET6, str, &addr.v6) == 1) {
bytes = (unsigned char *)&addr.v6;
len = 2*32 + sizeof ("ip6.arpa");
res = malloc (len);
if (res) {
snprintf(res, len,
"%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.%x."
"%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.%x.ip6.arpa",
bytes[15]&0xF, bytes[15] >> 4, bytes[14]&0xF, bytes[14] >> 4,
bytes[13]&0xF, bytes[13] >> 4, bytes[12]&0xF, bytes[12] >> 4,
bytes[11]&0xF, bytes[11] >> 4, bytes[10]&0xF, bytes[10] >> 4,
bytes[9]&0xF, bytes[9] >> 4, bytes[8]&0xF, bytes[8] >> 4,
bytes[7]&0xF, bytes[7] >> 4, bytes[6]&0xF, bytes[6] >> 4,
bytes[5]&0xF, bytes[5] >> 4, bytes[4]&0xF, bytes[4] >> 4,
bytes[3]&0xF, bytes[3] >> 4, bytes[2]&0xF, bytes[2] >> 4,
bytes[1]&0xF, bytes[1] >> 4, bytes[0]&0xF, bytes[0] >> 4);
}
}
return res;
}
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