bool stun_agent_init_response (StunAgent *agent, StunMessage *msg,
uint8_t *buffer, size_t buffer_len, const StunMessage *request)
{
StunTransactionId id;
if (stun_message_get_class (request) != STUN_REQUEST) {
return FALSE;
}
msg->buffer = buffer;
msg->buffer_len = buffer_len;
msg->agent = agent;
msg->key = request->key;
msg->key_len = request->key_len;
memmove (msg->long_term_key, request->long_term_key,
sizeof(msg->long_term_key));
msg->long_term_valid = request->long_term_valid;
stun_message_id (request, id);
if (stun_message_init (msg, STUN_RESPONSE,
stun_message_get_method (request), id)) {
if ((agent->compatibility == STUN_COMPATIBILITY_RFC5389 ||
agent->compatibility == STUN_COMPATIBILITY_WLM2009) &&
(agent->software_attribute != NULL ||
agent->usage_flags & STUN_AGENT_USAGE_ADD_SOFTWARE)) {
stun_message_append_software (msg, agent->software_attribute);
}
return TRUE;
}
return FALSE;
}
StunValidationStatus stun_agent_validate (StunAgent *agent, StunMessage *msg,
const uint8_t *buffer, size_t buffer_len,
StunMessageIntegrityValidate validater, void * validater_data)
{
StunTransactionId msg_id;
uint32_t fpr;
uint32_t crc32;
int len;
uint8_t *username = NULL;
uint16_t username_len;
uint8_t *key = NULL;
size_t key_len;
uint8_t *hash;
uint8_t sha[20];
uint16_t hlen;
int sent_id_idx = -1;
uint16_t unknown;
int error_code;
int ignore_credentials = 0;
uint8_t long_term_key[16];
bool long_term_key_valid = FALSE;
len = stun_message_validate_buffer_length (buffer, buffer_len);
if (len == STUN_MESSAGE_BUFFER_INVALID) {
return STUN_VALIDATION_NOT_STUN;
} else if (len == STUN_MESSAGE_BUFFER_INCOMPLETE) {
return STUN_VALIDATION_INCOMPLETE_STUN;
} else if (len != (int) buffer_len) {
return STUN_VALIDATION_NOT_STUN;
}
msg->buffer = (uint8_t *) buffer;
msg->buffer_len = buffer_len;
msg->agent = agent;
msg->key = NULL;
msg->key_len = 0;
msg->long_term_valid = FALSE;
/* TODO: reject it or not ? */
if ((agent->compatibility == STUN_COMPATIBILITY_RFC5389 ||
agent->compatibility == STUN_COMPATIBILITY_WLM2009) &&
!stun_message_has_cookie (msg)) {
stun_debug ("STUN demux error: no cookie!\n");
return STUN_VALIDATION_BAD_REQUEST;
}
if ((agent->compatibility == STUN_COMPATIBILITY_RFC5389 ||
agent->compatibility == STUN_COMPATIBILITY_WLM2009) &&
agent->usage_flags & STUN_AGENT_USAGE_USE_FINGERPRINT) {
/* Looks for FINGERPRINT */
if (stun_message_find32 (msg, STUN_ATTRIBUTE_FINGERPRINT, &fpr) !=
STUN_MESSAGE_RETURN_SUCCESS) {
stun_debug ("STUN demux error: no FINGERPRINT attribute!\n");
return STUN_VALIDATION_BAD_REQUEST;
}
/* Checks FINGERPRINT */
crc32 = stun_fingerprint (msg->buffer, stun_message_length (msg),
agent->compatibility == STUN_COMPATIBILITY_WLM2009);
fpr = ntohl (fpr);
if (fpr != crc32) {
stun_debug ("STUN demux error: bad fingerprint: 0x%08x,"
" expected: 0x%08x!\n", fpr, crc32);
return STUN_VALIDATION_BAD_REQUEST;
}
stun_debug ("STUN demux: OK!\n");
}
if (stun_message_get_class (msg) == STUN_RESPONSE ||
stun_message_get_class (msg) == STUN_ERROR) {
stun_message_id (msg, msg_id);
for (sent_id_idx = 0; sent_id_idx < STUN_AGENT_MAX_SAVED_IDS; sent_id_idx++) {
if (agent->sent_ids[sent_id_idx].valid == TRUE &&
agent->sent_ids[sent_id_idx].method == stun_message_get_method (msg) &&
memcmp (msg_id, agent->sent_ids[sent_id_idx].id,
sizeof(StunTransactionId)) == 0) {
key = agent->sent_ids[sent_id_idx].key;
key_len = agent->sent_ids[sent_id_idx].key_len;
memcpy (long_term_key, agent->sent_ids[sent_id_idx].long_term_key,
sizeof(long_term_key));
long_term_key_valid = agent->sent_ids[sent_id_idx].long_term_valid;
break;
}
}
if (sent_id_idx == STUN_AGENT_MAX_SAVED_IDS) {
return STUN_VALIDATION_UNMATCHED_RESPONSE;
}
}
ignore_credentials =
(agent->usage_flags & STUN_AGENT_USAGE_IGNORE_CREDENTIALS) ||
(stun_message_get_class (msg) == STUN_ERROR &&
stun_message_find_error (msg, &error_code) ==
STUN_MESSAGE_RETURN_SUCCESS &&
(error_code == 400 || error_code == 401)) ||
(stun_message_get_class (msg) == STUN_INDICATION &&
(agent->usage_flags & STUN_AGENT_USAGE_NO_INDICATION_AUTH));
if (key == NULL &&
ignore_credentials == 0 &&
(stun_message_get_class (msg) == STUN_REQUEST ||
stun_message_get_class (msg) == STUN_INDICATION) &&
(((agent->usage_flags & STUN_AGENT_USAGE_SHORT_TERM_CREDENTIALS) &&
(!stun_message_has_attribute (msg, STUN_ATTRIBUTE_USERNAME) ||
!stun_message_has_attribute (msg, STUN_ATTRIBUTE_MESSAGE_INTEGRITY))) ||
((agent->usage_flags & STUN_AGENT_USAGE_LONG_TERM_CREDENTIALS) &&
stun_message_get_class (msg) == STUN_REQUEST &&
(!stun_message_has_attribute (msg, STUN_ATTRIBUTE_USERNAME) ||
!stun_message_has_attribute (msg, STUN_ATTRIBUTE_MESSAGE_INTEGRITY) ||
!stun_message_has_attribute (msg, STUN_ATTRIBUTE_NONCE) ||
!stun_message_has_attribute (msg, STUN_ATTRIBUTE_REALM))) ||
((agent->usage_flags & STUN_AGENT_USAGE_IGNORE_CREDENTIALS) == 0 &&
stun_message_has_attribute (msg, STUN_ATTRIBUTE_USERNAME) &&
!stun_message_has_attribute (msg, STUN_ATTRIBUTE_MESSAGE_INTEGRITY)))) {
return STUN_VALIDATION_UNAUTHORIZED_BAD_REQUEST;
}
if (stun_message_has_attribute (msg, STUN_ATTRIBUTE_MESSAGE_INTEGRITY) &&
((key == NULL && ignore_credentials == 0) ||
(agent->usage_flags & STUN_AGENT_USAGE_FORCE_VALIDATER))) {
username_len = 0;
username = (uint8_t *) stun_message_find (msg, STUN_ATTRIBUTE_USERNAME,
&username_len);
if (validater == NULL ||
validater (agent, msg, username, username_len,
&key, &key_len, validater_data) == FALSE) {
return STUN_VALIDATION_UNAUTHORIZED;
}
}
if (ignore_credentials == 0 && key != NULL && key_len > 0) {
hash = (uint8_t *) stun_message_find (msg,
STUN_ATTRIBUTE_MESSAGE_INTEGRITY, &hlen);
if (hash) {
/* We must give the size from start to the end of the attribute
because you might have a FINGERPRINT attribute after it... */
if (agent->usage_flags & STUN_AGENT_USAGE_LONG_TERM_CREDENTIALS) {
uint8_t *realm = NULL;
uint8_t *username = NULL;
uint16_t realm_len;
uint16_t username_len;
uint8_t md5[16];
if (long_term_key_valid) {
memcpy (md5, long_term_key, sizeof (md5));
} else {
realm = (uint8_t *) stun_message_find (msg, STUN_ATTRIBUTE_REALM, &realm_len);
username = (uint8_t *) stun_message_find (msg,
STUN_ATTRIBUTE_USERNAME, &username_len);
if (username == NULL || realm == NULL) {
return STUN_VALIDATION_UNAUTHORIZED;
}
stun_hash_creds (realm, realm_len,
username, username_len,
key, key_len, md5);
}
memcpy (msg->long_term_key, md5, sizeof(md5));
msg->long_term_valid = TRUE;
if (agent->compatibility == STUN_COMPATIBILITY_RFC3489) {
stun_sha1 (msg->buffer, hash + 20 - msg->buffer, hash - msg->buffer,
sha, md5, sizeof(md5), TRUE);
} else if (agent->compatibility == STUN_COMPATIBILITY_WLM2009) {
stun_sha1 (msg->buffer, hash + 20 - msg->buffer,
stun_message_length (msg) - 20, sha, md5, sizeof(md5), TRUE);
} else {
stun_sha1 (msg->buffer, hash + 20 - msg->buffer,
hash - msg->buffer, sha, md5, sizeof(md5), FALSE);
}
} else {
if (agent->compatibility == STUN_COMPATIBILITY_RFC3489) {
stun_sha1 (msg->buffer, hash + 20 - msg->buffer, hash - msg->buffer,
sha, key, key_len, TRUE);
} else if (agent->compatibility == STUN_COMPATIBILITY_WLM2009) {
stun_sha1 (msg->buffer, hash + 20 - msg->buffer,
stun_message_length (msg) - 20, sha, key, key_len, TRUE);
} else {
stun_sha1 (msg->buffer, hash + 20 - msg->buffer,
hash - msg->buffer, sha, key, key_len, FALSE);
}
}
stun_debug (" Message HMAC-SHA1 fingerprint:");
stun_debug ("\nkey : ");
stun_debug_bytes (key, key_len);
stun_debug ("\n expected: ");
stun_debug_bytes (sha, sizeof (sha));
stun_debug ("\n received: ");
stun_debug_bytes (hash, sizeof (sha));
stun_debug ("\n");
if (memcmp (sha, hash, sizeof (sha))) {
stun_debug ("STUN auth error: SHA1 fingerprint mismatch!\n");
return STUN_VALIDATION_UNAUTHORIZED;
}
stun_debug ("STUN auth: OK!\n");
msg->key = key;
msg->key_len = key_len;
} else if (!(stun_message_get_class (msg) == STUN_ERROR &&
stun_message_find_error (msg, &error_code) ==
STUN_MESSAGE_RETURN_SUCCESS &&
(error_code == 400 || error_code == 401))) {
stun_debug ("STUN auth error: No message integrity attribute!\n");
return STUN_VALIDATION_UNAUTHORIZED;
}
}
if (sent_id_idx != -1 && sent_id_idx < STUN_AGENT_MAX_SAVED_IDS) {
agent->sent_ids[sent_id_idx].valid = FALSE;
}
if (stun_agent_find_unknowns (agent, msg, &unknown, 1) > 0) {
if (stun_message_get_class (msg) == STUN_REQUEST)
return STUN_VALIDATION_UNKNOWN_REQUEST_ATTRIBUTE;
else
return STUN_VALIDATION_UNKNOWN_ATTRIBUTE;
}
return STUN_VALIDATION_SUCCESS;
}
size_t stun_agent_finish_message (StunAgent *agent, StunMessage *msg,
const uint8_t *key, size_t key_len)
{
uint8_t *ptr;
uint32_t fpr;
int saved_id_idx = 0;
uint8_t md5[16];
if (stun_message_get_class (msg) == STUN_REQUEST) {
for (saved_id_idx = 0; saved_id_idx < STUN_AGENT_MAX_SAVED_IDS; saved_id_idx++) {
if (agent->sent_ids[saved_id_idx].valid == FALSE) {
break;
}
}
}
if (saved_id_idx == STUN_AGENT_MAX_SAVED_IDS) {
stun_debug ("Saved ids full");
return 0;
}
if (msg->key != NULL) {
key = msg->key;
key_len = msg->key_len;
}
if (key != NULL) {
bool skip = FALSE;
if (msg->long_term_valid) {
memcpy (md5, msg->long_term_key, sizeof(msg->long_term_key));
} else if (agent->usage_flags & STUN_AGENT_USAGE_LONG_TERM_CREDENTIALS) {
uint8_t *realm = NULL;
uint8_t *username = NULL;
uint16_t realm_len;
uint16_t username_len;
realm = (uint8_t *) stun_message_find (msg,
STUN_ATTRIBUTE_REALM, &realm_len);
username = (uint8_t *) stun_message_find (msg,
STUN_ATTRIBUTE_USERNAME, &username_len);
if (username == NULL || realm == NULL) {
skip = TRUE;
} else {
stun_hash_creds (realm, realm_len,
username, username_len,
key, key_len, md5);
}
memcpy (msg->long_term_key, md5, sizeof(msg->long_term_key));
msg->long_term_valid = TRUE;
}
/* If no realm/username and long term credentials,
then don't send the message integrity */
if (skip == FALSE) {
ptr = stun_message_append (msg, STUN_ATTRIBUTE_MESSAGE_INTEGRITY, 20);
if (ptr == NULL) {
return 0;
}
if (agent->usage_flags & STUN_AGENT_USAGE_LONG_TERM_CREDENTIALS) {
if (agent->compatibility == STUN_COMPATIBILITY_RFC3489) {
stun_sha1 (msg->buffer, stun_message_length (msg),
stun_message_length (msg) - 20, ptr, md5, sizeof(md5), TRUE);
} else if (agent->compatibility == STUN_COMPATIBILITY_WLM2009) {
size_t minus = 20;
if (agent->usage_flags & STUN_AGENT_USAGE_USE_FINGERPRINT)
minus -= 8;
stun_sha1 (msg->buffer, stun_message_length (msg),
stun_message_length (msg) - minus, ptr, md5, sizeof(md5), TRUE);
} else {
stun_sha1 (msg->buffer, stun_message_length (msg),
stun_message_length (msg) - 20, ptr, md5, sizeof(md5), FALSE);
}
} else {
if (agent->compatibility == STUN_COMPATIBILITY_RFC3489) {
stun_sha1 (msg->buffer, stun_message_length (msg),
stun_message_length (msg) - 20, ptr, key, key_len, TRUE);
} else if (agent->compatibility == STUN_COMPATIBILITY_WLM2009) {
size_t minus = 20;
if (agent->usage_flags & STUN_AGENT_USAGE_USE_FINGERPRINT)
minus -= 8;
stun_sha1 (msg->buffer, stun_message_length (msg),
stun_message_length (msg) - minus, ptr, key, key_len, TRUE);
} else {
stun_sha1 (msg->buffer, stun_message_length (msg),
stun_message_length (msg) - 20, ptr, key, key_len, FALSE);
}
}
stun_debug (" Message HMAC-SHA1 message integrity:"
"\n key : ");
stun_debug_bytes (key, key_len);
stun_debug ("\n sent : ");
stun_debug_bytes (ptr, 20);
stun_debug ("\n");
}
}
if ((agent->compatibility == STUN_COMPATIBILITY_RFC5389 ||
agent->compatibility == STUN_COMPATIBILITY_WLM2009) &&
agent->usage_flags & STUN_AGENT_USAGE_USE_FINGERPRINT) {
ptr = stun_message_append (msg, STUN_ATTRIBUTE_FINGERPRINT, 4);
if (ptr == NULL) {
return 0;
}
fpr = stun_fingerprint (msg->buffer, stun_message_length (msg),
agent->compatibility == STUN_COMPATIBILITY_WLM2009);
memcpy (ptr, &fpr, sizeof (fpr));
stun_debug (" Message HMAC-SHA1 fingerprint: ");
stun_debug_bytes (ptr, 4);
stun_debug ("\n");
}
if (stun_message_get_class (msg) == STUN_REQUEST) {
stun_message_id (msg, agent->sent_ids[saved_id_idx].id);
agent->sent_ids[saved_id_idx].method = stun_message_get_method (msg);
agent->sent_ids[saved_id_idx].key = (uint8_t *) key;
agent->sent_ids[saved_id_idx].key_len = key_len;
memcpy (agent->sent_ids[saved_id_idx].long_term_key, msg->long_term_key,
sizeof(msg->long_term_key));
agent->sent_ids[saved_id_idx].long_term_valid = msg->long_term_valid;
agent->sent_ids[saved_id_idx].valid = TRUE;
}
msg->key = (uint8_t *) key;
msg->key_len = key_len;
return stun_message_length (msg);
}
StunUsageIceReturn
stun_usage_ice_conncheck_create_reply (StunAgent *agent, StunMessage *req,
StunMessage *msg, uint8_t *buf, size_t *plen,
const struct sockaddr *src, socklen_t srclen,
bool *control, uint64_t tie,
StunUsageIceCompatibility compatibility)
{
const char *username = NULL;
uint16_t username_len;
size_t len = *plen;
uint64_t q;
StunMessageReturn val = STUN_MESSAGE_RETURN_SUCCESS;
StunUsageIceReturn ret = STUN_USAGE_ICE_RETURN_SUCCESS;
#define err( code ) \
stun_bind_error (agent, msg, buf, &len, req, code); \
*plen = len
*plen = 0;
stun_debug ("STUN Reply (buffer size = %u)...\n", (unsigned)len);
if (stun_message_get_class (req) != STUN_REQUEST)
{
stun_debug (" Unhandled non-request (class %u) message.\n",
stun_message_get_class (req));
return STUN_USAGE_ICE_RETURN_INVALID_REQUEST;
}
if (stun_message_get_method (req) != STUN_BINDING)
{
stun_debug (" Bad request (method %u) message.\n",
stun_message_get_method (req));
err (STUN_ERROR_BAD_REQUEST);
return STUN_USAGE_ICE_RETURN_INVALID_METHOD;
}
/* Role conflict handling */
assert (control != NULL);
if (stun_message_find64 (req, *control ? STUN_ATTRIBUTE_ICE_CONTROLLING
: STUN_ATTRIBUTE_ICE_CONTROLLED, &q) == STUN_MESSAGE_RETURN_SUCCESS)
{
stun_debug ("STUN Role Conflict detected:\n");
if (tie < q)
{
stun_debug (" switching role from \"controll%s\" to \"controll%s\"\n",
*control ? "ing" : "ed", *control ? "ed" : "ing");
*control = !*control;
ret = STUN_USAGE_ICE_RETURN_ROLE_CONFLICT;
}
else
{
stun_debug (" staying \"controll%s\" (sending error)\n",
*control ? "ing" : "ed");
err (STUN_ERROR_ROLE_CONFLICT);
return STUN_USAGE_ICE_RETURN_SUCCESS;
}
} else {
stun_debug ("STUN Role not specified by peer!\n");
}
if (stun_agent_init_response (agent, msg, buf, len, req) == FALSE) {
stun_debug ("Unable to create response\n");
goto failure;
}
if (compatibility == STUN_USAGE_ICE_COMPATIBILITY_MSN) {
StunTransactionId transid;
uint32_t magic_cookie;
stun_message_id (msg, transid);
magic_cookie = *((uint32_t *) transid);
val = stun_message_append_xor_addr_full (msg, STUN_ATTRIBUTE_XOR_MAPPED_ADDRESS,
src, srclen, htonl (magic_cookie));
} else if (stun_message_has_cookie (msg)) {
val = stun_message_append_xor_addr (msg, STUN_ATTRIBUTE_XOR_MAPPED_ADDRESS,
src, srclen);
} else {
val = stun_message_append_addr (msg, STUN_ATTRIBUTE_MAPPED_ADDRESS,
src, srclen);
}
if (val != STUN_MESSAGE_RETURN_SUCCESS) {
stun_debug (" Mapped address problem: %d\n", val);
goto failure;
}
username = (const char *)stun_message_find (req,
STUN_ATTRIBUTE_USERNAME, &username_len);
if (username) {
val = stun_message_append_bytes (msg, STUN_ATTRIBUTE_USERNAME,
username, username_len);
}
if (val != STUN_MESSAGE_RETURN_SUCCESS) {
stun_debug ("Error appending username: %d\n", val);
goto failure;
}
/* the stun agent will automatically use the password of the request */
len = stun_agent_finish_message (agent, msg, NULL, 0);
if (len == 0)
goto failure;
*plen = len;
stun_debug (" All done (response size: %u)\n", (unsigned)len);
return ret;
failure:
assert (*plen == 0);
stun_debug (" Fatal error formatting Response: %d\n", val);
switch (val)
{
case STUN_MESSAGE_RETURN_NOT_ENOUGH_SPACE:
return STUN_USAGE_ICE_RETURN_MEMORY_ERROR;
case STUN_MESSAGE_RETURN_INVALID:
case STUN_MESSAGE_RETURN_UNSUPPORTED_ADDRESS:
return STUN_USAGE_ICE_RETURN_INVALID_ADDRESS;
default:
return STUN_USAGE_ICE_RETURN_ERROR;
}
}
size_t stun_agent_finish_message (StunAgent *agent, StunMessage *msg,
const uint8_t *key, size_t key_len)
{
uint8_t *ptr;
uint32_t fpr;
int saved_id_idx = 0;
uint8_t md5[16];
bool remember_transaction;
remember_transaction = (stun_message_get_class (msg) == STUN_REQUEST);
if (agent->compatibility == STUN_COMPATIBILITY_OC2007 &&
stun_message_get_method (msg) == STUN_SEND) {
/* As per [MS-TURN] Section 2.2.1, the TURN server doesn't send responses to
* STUN_SEND requests, so don't bother waiting for them. More details at
* https://msdn.microsoft.com/en-us/library/dd946797%28v=office.12%29.aspx.
*/
remember_transaction = FALSE;
}
if (remember_transaction) {
for (saved_id_idx = 0; saved_id_idx < STUN_AGENT_MAX_SAVED_IDS; saved_id_idx++) {
if (agent->sent_ids[saved_id_idx].valid == FALSE) {
break;
}
}
}
if (saved_id_idx == STUN_AGENT_MAX_SAVED_IDS) {
stun_debug ("WARNING: Saved IDs full. STUN message dropped.");
return 0;
}
if (msg->key != NULL) {
key = msg->key;
key_len = msg->key_len;
}
if (key != NULL) {
bool skip = FALSE;
if (msg->long_term_valid) {
memcpy (md5, msg->long_term_key, sizeof(msg->long_term_key));
} else if (agent->usage_flags & STUN_AGENT_USAGE_LONG_TERM_CREDENTIALS) {
uint8_t *realm = NULL;
uint8_t *username = NULL;
uint16_t realm_len;
uint16_t username_len;
realm = (uint8_t *) stun_message_find (msg,
STUN_ATTRIBUTE_REALM, &realm_len);
username = (uint8_t *) stun_message_find (msg,
STUN_ATTRIBUTE_USERNAME, &username_len);
if (username == NULL || realm == NULL) {
skip = TRUE;
} else {
stun_hash_creds (realm, realm_len,
username, username_len,
key, key_len, md5);
memcpy (msg->long_term_key, md5, sizeof(msg->long_term_key));
msg->long_term_valid = TRUE;
}
}
/* If no realm/username and long term credentials,
then don't send the message integrity */
if (skip == FALSE) {
ptr = stun_message_append (msg, STUN_ATTRIBUTE_MESSAGE_INTEGRITY, 20);
if (ptr == NULL) {
return 0;
}
if (agent->usage_flags & STUN_AGENT_USAGE_LONG_TERM_CREDENTIALS) {
if (agent->compatibility == STUN_COMPATIBILITY_RFC3489 ||
agent->compatibility == STUN_COMPATIBILITY_OC2007) {
stun_sha1 (msg->buffer, stun_message_length (msg),
stun_message_length (msg) - 20, ptr, md5, sizeof(md5), TRUE);
} else if (agent->compatibility == STUN_COMPATIBILITY_WLM2009) {
size_t minus = 20;
if (agent->usage_flags & STUN_AGENT_USAGE_USE_FINGERPRINT)
minus -= 8;
stun_sha1 (msg->buffer, stun_message_length (msg),
stun_message_length (msg) - minus, ptr, md5, sizeof(md5), TRUE);
} else {
stun_sha1 (msg->buffer, stun_message_length (msg),
stun_message_length (msg) - 20, ptr, md5, sizeof(md5), FALSE);
}
} else {
if (agent->compatibility == STUN_COMPATIBILITY_RFC3489 ||
agent->compatibility == STUN_COMPATIBILITY_OC2007) {
stun_sha1 (msg->buffer, stun_message_length (msg),
stun_message_length (msg) - 20, ptr, key, key_len, TRUE);
} else if (agent->compatibility == STUN_COMPATIBILITY_WLM2009) {
size_t minus = 20;
if (agent->usage_flags & STUN_AGENT_USAGE_USE_FINGERPRINT)
minus -= 8;
stun_sha1 (msg->buffer, stun_message_length (msg),
stun_message_length (msg) - minus, ptr, key, key_len, TRUE);
} else {
stun_sha1 (msg->buffer, stun_message_length (msg),
stun_message_length (msg) - 20, ptr, key, key_len, FALSE);
}
}
stun_debug (" Message HMAC-SHA1 message integrity:");
stun_debug_bytes (" key : ", key, key_len);
stun_debug_bytes (" sent : ", ptr, 20);
}
}
if ((agent->compatibility == STUN_COMPATIBILITY_RFC5389 ||
agent->compatibility == STUN_COMPATIBILITY_WLM2009) &&
agent->usage_flags & STUN_AGENT_USAGE_USE_FINGERPRINT) {
ptr = stun_message_append (msg, STUN_ATTRIBUTE_FINGERPRINT, 4);
if (ptr == NULL) {
return 0;
}
fpr = stun_fingerprint (msg->buffer, stun_message_length (msg),
agent->compatibility == STUN_COMPATIBILITY_WLM2009);
memcpy (ptr, &fpr, sizeof (fpr));
stun_debug_bytes (" Message HMAC-SHA1 fingerprint: ", ptr, 4);
}
if (remember_transaction) {
stun_message_id (msg, agent->sent_ids[saved_id_idx].id);
agent->sent_ids[saved_id_idx].method = stun_message_get_method (msg);
agent->sent_ids[saved_id_idx].key = (uint8_t *) key;
agent->sent_ids[saved_id_idx].key_len = key_len;
memcpy (agent->sent_ids[saved_id_idx].long_term_key, msg->long_term_key,
sizeof(msg->long_term_key));
agent->sent_ids[saved_id_idx].long_term_valid = msg->long_term_valid;
agent->sent_ids[saved_id_idx].valid = TRUE;
}
msg->key = (uint8_t *) key;
msg->key_len = key_len;
return stun_message_length (msg);
}
StunUsageIceReturn stun_usage_ice_conncheck_process (StunMessage *msg,
struct sockaddr *addr, socklen_t *addrlen,
StunUsageIceCompatibility compatibility)
{
int code = -1;
StunMessageReturn val;
if (stun_message_get_method (msg) != STUN_BINDING)
return STUN_USAGE_ICE_RETURN_INVALID;
switch (stun_message_get_class (msg))
{
case STUN_REQUEST:
case STUN_INDICATION:
return STUN_USAGE_ICE_RETURN_INVALID;
case STUN_RESPONSE:
break;
case STUN_ERROR:
if (stun_message_find_error (msg, &code) != STUN_MESSAGE_RETURN_SUCCESS) {
/* missing ERROR-CODE: ignore message */
return STUN_USAGE_ICE_RETURN_INVALID;
}
if (code == STUN_ERROR_ROLE_CONFLICT)
return STUN_USAGE_ICE_RETURN_ROLE_CONFLICT;
/* NOTE: currently we ignore unauthenticated messages if the context
* is authenticated, for security reasons. */
stun_debug (" STUN error message received (code: %d)\n", code);
return STUN_USAGE_ICE_RETURN_ERROR;
}
stun_debug ("Received %u-bytes STUN message\n", stun_message_length (msg));
if (compatibility == STUN_USAGE_ICE_COMPATIBILITY_MSN) {
StunTransactionId transid;
uint32_t magic_cookie;
stun_message_id (msg, transid);
magic_cookie = *((uint32_t *) transid);
val = stun_message_find_xor_addr_full (msg,
STUN_ATTRIBUTE_XOR_MAPPED_ADDRESS, addr, addrlen, htonl (magic_cookie));
} else {
val = stun_message_find_xor_addr (msg,
STUN_ATTRIBUTE_XOR_MAPPED_ADDRESS, addr, addrlen);
}
if (val != STUN_MESSAGE_RETURN_SUCCESS)
{
stun_debug (" No XOR-MAPPED-ADDRESS: %d\n", val);
val = stun_message_find_addr (msg,
STUN_ATTRIBUTE_MAPPED_ADDRESS, addr, addrlen);
if (val != STUN_MESSAGE_RETURN_SUCCESS)
{
stun_debug (" No MAPPED-ADDRESS: %d\n", val);
return STUN_USAGE_ICE_RETURN_NO_MAPPED_ADDRESS;
}
}
stun_debug ("Mapped address found!\n");
return STUN_USAGE_ICE_RETURN_SUCCESS;
}
StunUsageIceReturn
stun_usage_ice_conncheck_create_reply (StunAgent *agent, StunMessage *req,
StunMessage *msg, uint8_t *buf, size_t *plen,
const struct sockaddr_storage *src, socklen_t srclen,
bool *control, uint64_t tie,
StunUsageIceCompatibility compatibility)
{
const char *username = NULL;
uint16_t username_len;
size_t len = *plen;
uint64_t q;
StunMessageReturn val = STUN_MESSAGE_RETURN_SUCCESS;
StunUsageIceReturn ret = STUN_USAGE_ICE_RETURN_SUCCESS;
#define err( code ) \
stun_bind_error (agent, msg, buf, &len, req, code); \
*plen = len
*plen = 0;
stun_debug ("STUN Reply (buffer size = %u)...", (unsigned)len);
if (stun_message_get_class (req) != STUN_REQUEST)
{
stun_debug (" Unhandled non-request (class %u) message.",
stun_message_get_class (req));
return STUN_USAGE_ICE_RETURN_INVALID_REQUEST;
}
if (stun_message_get_method (req) != STUN_BINDING)
{
stun_debug (" Bad request (method %u) message.",
stun_message_get_method (req));
err (STUN_ERROR_BAD_REQUEST);
return STUN_USAGE_ICE_RETURN_INVALID_METHOD;
}
/* Role conflict handling */
assert (control != NULL);
if (stun_message_find64 (req, *control ? STUN_ATTRIBUTE_ICE_CONTROLLING
: STUN_ATTRIBUTE_ICE_CONTROLLED, &q) == STUN_MESSAGE_RETURN_SUCCESS)
{
/* we have the ice-controlling/controlled attribute,
* and there's a role conflict
*/
stun_debug ("STUN Role Conflict detected:");
/* According to ICE RFC 5245, section 7.2.1.1, we consider the four
* possible cases when a role conflict is detected: two cases are
* resolved by switching role locally, and the two other cases are
* handled by responding with a STUN error.
*/
if ((tie < q && *control) || (tie >= q && !*control))
{
stun_debug (" switching role from \"controll%s\" to \"controll%s\"",
*control ? "ing" : "ed", *control ? "ed" : "ing");
*control = !*control;
ret = STUN_USAGE_ICE_RETURN_ROLE_CONFLICT;
}
else
{
stun_debug (" staying \"controll%s\" (sending error)",
*control ? "ing" : "ed");
err (STUN_ERROR_ROLE_CONFLICT);
return STUN_USAGE_ICE_RETURN_ROLE_CONFLICT;
}
} else {
if (stun_message_find64 (req, *control ? STUN_ATTRIBUTE_ICE_CONTROLLED
: STUN_ATTRIBUTE_ICE_CONTROLLING, &q) != STUN_MESSAGE_RETURN_SUCCESS)
{
/* we don't have the expected ice-controlling/controlled
* attribute
*/
if (compatibility == STUN_USAGE_ICE_COMPATIBILITY_RFC5245 ||
compatibility == STUN_USAGE_ICE_COMPATIBILITY_MSICE2)
{
stun_debug ("STUN Role not specified by peer!");
}
}
}
if (stun_agent_init_response (agent, msg, buf, len, req) == FALSE) {
stun_debug ("Unable to create response");
goto failure;
}
if (compatibility == STUN_USAGE_ICE_COMPATIBILITY_MSN) {
union {
StunTransactionId transid;
uint32_t magic_cookie;
} conv;
stun_message_id (msg, conv.transid);
val = stun_message_append_xor_addr_full (msg, STUN_ATTRIBUTE_XOR_MAPPED_ADDRESS,
src, srclen, htonl (conv.magic_cookie));
} else if (stun_message_has_cookie (msg) &&
compatibility != STUN_USAGE_ICE_COMPATIBILITY_GOOGLE) {
val = stun_message_append_xor_addr (msg, STUN_ATTRIBUTE_XOR_MAPPED_ADDRESS,
src, srclen);
} else {
val = stun_message_append_addr (msg, STUN_ATTRIBUTE_MAPPED_ADDRESS,
(struct sockaddr *) src, srclen);
}
if (val != STUN_MESSAGE_RETURN_SUCCESS) {
stun_debug (" Mapped address problem: %d", val);
goto failure;
}
username = (const char *)stun_message_find (req,
STUN_ATTRIBUTE_USERNAME, &username_len);
if (username) {
val = stun_message_append_bytes (msg, STUN_ATTRIBUTE_USERNAME,
username, username_len);
}
if (val != STUN_MESSAGE_RETURN_SUCCESS) {
stun_debug ("Error appending username: %d", val);
goto failure;
}
if (compatibility == STUN_USAGE_ICE_COMPATIBILITY_MSICE2) {
val = stun_message_append32 (msg,
STUN_ATTRIBUTE_MS_IMPLEMENTATION_VERSION, 2);
if (val != STUN_MESSAGE_RETURN_SUCCESS) {
stun_debug ("Error appending implementation version: %d", val);
goto failure;
}
}
/* the stun agent will automatically use the password of the request */
len = stun_agent_finish_message (agent, msg, NULL, 0);
if (len == 0)
goto failure;
*plen = len;
stun_debug (" All done (response size: %u)", (unsigned)len);
return ret;
failure:
assert (*plen == 0);
stun_debug (" Fatal error formatting Response: %d", val);
switch (val)
{
case STUN_MESSAGE_RETURN_NOT_ENOUGH_SPACE:
return STUN_USAGE_ICE_RETURN_MEMORY_ERROR;
case STUN_MESSAGE_RETURN_INVALID:
case STUN_MESSAGE_RETURN_UNSUPPORTED_ADDRESS:
return STUN_USAGE_ICE_RETURN_INVALID_ADDRESS;
case STUN_MESSAGE_RETURN_SUCCESS:
assert (0); /* shouldn’t be reached */
case STUN_MESSAGE_RETURN_NOT_FOUND:
default:
return STUN_USAGE_ICE_RETURN_ERROR;
}
}
int handle_stun(udp_conn* c, uint8_t *packet, size_t len) {
StunAgent agent;
StunValidationStatus status;
StunAgentUsageFlags flags;
StunMessage request;
StunMessage response;
int ret;
size_t output_size;
uint8_t output[1024];
flags = STUN_AGENT_USAGE_IGNORE_CREDENTIALS; // | STUN_AGENT_USAGE_USE_FINGERPRINT;
static const uint16_t attr[] = {
STUN_ATTRIBUTE_MAPPED_ADDRESS,
STUN_ATTRIBUTE_RESPONSE_ADDRESS,
STUN_ATTRIBUTE_CHANGE_REQUEST,
STUN_ATTRIBUTE_SOURCE_ADDRESS,
STUN_ATTRIBUTE_CHANGED_ADDRESS,
STUN_ATTRIBUTE_USERNAME,
STUN_ATTRIBUTE_PASSWORD,
STUN_ATTRIBUTE_MESSAGE_INTEGRITY,
STUN_ATTRIBUTE_ERROR_CODE,
STUN_ATTRIBUTE_UNKNOWN_ATTRIBUTES,
STUN_ATTRIBUTE_REFLECTED_FROM,
STUN_ATTRIBUTE_CHANNEL_NUMBER,
STUN_ATTRIBUTE_LIFETIME,
STUN_ATTRIBUTE_MS_ALTERNATE_SERVER,
STUN_ATTRIBUTE_MAGIC_COOKIE,
STUN_ATTRIBUTE_BANDWIDTH,
STUN_ATTRIBUTE_DESTINATION_ADDRESS,
STUN_ATTRIBUTE_REMOTE_ADDRESS,
STUN_ATTRIBUTE_PEER_ADDRESS,
STUN_ATTRIBUTE_XOR_PEER_ADDRESS,
STUN_ATTRIBUTE_DATA,
STUN_ATTRIBUTE_REALM,
STUN_ATTRIBUTE_NONCE,
STUN_ATTRIBUTE_RELAY_ADDRESS,
STUN_ATTRIBUTE_RELAYED_ADDRESS,
STUN_ATTRIBUTE_XOR_RELAYED_ADDRESS,
STUN_ATTRIBUTE_REQUESTED_ADDRESS_TYPE,
STUN_ATTRIBUTE_REQUESTED_PORT_PROPS,
STUN_ATTRIBUTE_REQUESTED_PROPS,
STUN_ATTRIBUTE_EVEN_PORT,
STUN_ATTRIBUTE_REQUESTED_TRANSPORT,
STUN_ATTRIBUTE_DONT_FRAGMENT,
STUN_ATTRIBUTE_XOR_MAPPED_ADDRESS,
STUN_ATTRIBUTE_TIMER_VAL,
STUN_ATTRIBUTE_REQUESTED_IP,
STUN_ATTRIBUTE_RESERVATION_TOKEN,
STUN_ATTRIBUTE_CONNECT_STAT,
STUN_ATTRIBUTE_PRIORITY,
STUN_ATTRIBUTE_USE_CANDIDATE,
STUN_ATTRIBUTE_OPTIONS,
STUN_ATTRIBUTE_MS_VERSION,
STUN_ATTRIBUTE_SOFTWARE,
STUN_ATTRIBUTE_ALTERNATE_SERVER,
STUN_ATTRIBUTE_FINGERPRINT,
STUN_ATTRIBUTE_ICE_CONTROLLED,
STUN_ATTRIBUTE_ICE_CONTROLLING,
STUN_ATTRIBUTE_MS_SEQUENCE_NUMBER,
STUN_ATTRIBUTE_CANDIDATE_IDENTIFIER
};
/* initialize our agent to be compatible with RFC5389 (= with TLS support) */
output_size = 0;
memset(output, 0, sizeof(output));
stun_agent_init(&agent, attr, STUN_COMPATIBILITY_RFC5389, flags);
/* validate the request */
status = stun_agent_validate(&agent, &request, packet, len, NULL, NULL);
print_stun_validation_status(status);
/* check the class */
StunClass request_class = stun_message_get_class(&request);
print_stun_class(request_class);
if(request_class == STUN_ERROR) {
printf("Error: request stun class failed.\n");
exit(0);
}
/* what stun method? */
StunMethod request_method = stun_message_get_method(&request);
print_stun_method(request_method);
/* initialize the response */
ret = stun_agent_init_response(&agent, &response, output, 1024, &request);
printf("Stun agent_init_response ret: %d\n", ret);
/* add xor-mapped-address */
uint32_t magic_cookie = 0;
uint8_t* cookie_ptr = NULL;
StunTransactionId transid;
socklen_t sock_len = 0;
char client_ip[16] = { 0 } ;
StunMessageReturn stun_ret = STUN_MESSAGE_RETURN_INVALID;
stun_message_id(&response, transid);
magic_cookie = *((uint32_t*)transid);
sock_len = sizeof(c->client);
cookie_ptr = (uint8_t*) &magic_cookie;
inet_ntop(AF_INET, &c->client.sin_addr.s_addr, client_ip, sizeof(client_ip));
stun_ret = stun_message_append_xor_addr(&response, STUN_ATTRIBUTE_XOR_MAPPED_ADDRESS, (const struct sockaddr*)&c->client, sock_len);
print_stun_message_return(stun_ret);
printf("Received data from: %s\n", client_ip);
printf("Magic cookie: %02X %02X %02X %02X\n", cookie_ptr[0], cookie_ptr[1], cookie_ptr[2], cookie_ptr[3]);
// username
// --------
const char* username = NULL;
uint16_t username_len = 0;
username = (const char*)stun_message_find(&request, STUN_ATTRIBUTE_USERNAME, &username_len);
printf("Username: %s, len: %d\n", username, (int)username_len);
#if 0
if(username) {
StunMessageReturn username_res = stun_message_append_bytes(&response, STUN_ATTRIBUTE_USERNAME, username, username_len);
print_stun_message_return(username_res);
}
uint32_t fingerprint = 0;
if(stun_message_find32(&request, STUN_ATTRIBUTE_FINGERPRINT, &fingerprint) == STUN_MESSAGE_RETURN_SUCCESS) {
printf("Got fingerprint: %d\n", fingerprint);
if(stun_message_append32(&response, STUN_ATTRIBUTE_FINGERPRINT, fingerprint) != STUN_MESSAGE_RETURN_SUCCESS) {
printf("Error while adding the fingerprint.\n");
}
}
#endif
// password
const char* password = ucon_ptr->stun_pw; // "94ccca06d14fb48c135bdaff30560c4d";
uint16_t password_len = strlen(password) + 1;
output_size = stun_agent_finish_message(&agent, &response, (const uint8_t*) password, password_len);
// answer to the connection
krx_udp_send(c, output, output_size);
print_buffer(output, output_size);
return 0;
}
/*
* Frees the CandidateDiscovery structure pointed to
* by 'user data'. Compatible with g_slist_free_full().
*/
static void refresh_free_item (CandidateRefresh *cand)
{
NiceAgent *agent = cand->agent;
uint8_t *username;
gsize username_len;
uint8_t *password;
gsize password_len;
size_t buffer_len = 0;
StunUsageTurnCompatibility turn_compat = agent_to_turn_compatibility (agent);
if (cand->timer_source != NULL) {
g_source_destroy (cand->timer_source);
g_source_unref (cand->timer_source);
cand->timer_source = NULL;
}
if (cand->tick_source != NULL) {
g_source_destroy (cand->tick_source);
g_source_unref (cand->tick_source);
cand->tick_source = NULL;
}
username = (uint8_t *)cand->candidate->turn->username;
username_len = (size_t) strlen (cand->candidate->turn->username);
password = (uint8_t *)cand->candidate->turn->password;
password_len = (size_t) strlen (cand->candidate->turn->password);
if (turn_compat == STUN_USAGE_TURN_COMPATIBILITY_MSN ||
turn_compat == STUN_USAGE_TURN_COMPATIBILITY_OC2007) {
username = g_base64_decode ((gchar *)username, &username_len);
password = g_base64_decode ((gchar *)password, &password_len);
}
buffer_len = stun_usage_turn_create_refresh (&cand->stun_agent,
&cand->stun_message, cand->stun_buffer, sizeof(cand->stun_buffer),
cand->stun_resp_msg.buffer == NULL ? NULL : &cand->stun_resp_msg, 0,
username, username_len,
password, password_len,
agent_to_turn_compatibility (agent));
if (buffer_len > 0) {
StunTransactionId id;
/* forget the transaction since we don't care about the result and
* we don't implement retransmissions/timeout */
stun_message_id (&cand->stun_message, id);
stun_agent_forget_transaction (&cand->stun_agent, id);
/* send the refresh twice since we won't do retransmissions */
agent_socket_send (cand->nicesock, &cand->server,
buffer_len, (gchar *)cand->stun_buffer);
if (!nice_socket_is_reliable (cand->nicesock)) {
agent_socket_send (cand->nicesock, &cand->server,
buffer_len, (gchar *)cand->stun_buffer);
}
}
if (turn_compat == STUN_USAGE_TURN_COMPATIBILITY_MSN ||
turn_compat == STUN_USAGE_TURN_COMPATIBILITY_OC2007) {
g_free (username);
g_free (password);
}
g_slice_free (CandidateRefresh, cand);
}
/*
* Timer callback that handles scheduling new candidate discovery
* processes (paced by the Ta timer), and handles running of the
* existing discovery processes.
*
* This function is designed for the g_timeout_add() interface.
*
* @return will return FALSE when no more pending timers.
*/
static gboolean priv_discovery_tick_unlocked (gpointer pointer)
{
CandidateDiscovery *cand;
NiceAgent *agent = pointer;
GSList *i;
int not_done = 0; /* note: track whether to continue timer */
size_t buffer_len = 0;
{
static int tick_counter = 0;
if (tick_counter++ % 50 == 0)
nice_debug ("Agent %p : discovery tick #%d with list %p (1)", agent, tick_counter, agent->discovery_list);
}
for (i = agent->discovery_list; i ; i = i->next) {
cand = i->data;
if (cand->pending != TRUE) {
cand->pending = TRUE;
if (agent->discovery_unsched_items)
--agent->discovery_unsched_items;
if (nice_debug_is_enabled ()) {
gchar tmpbuf[INET6_ADDRSTRLEN];
nice_address_to_string (&cand->server, tmpbuf);
nice_debug ("Agent %p : discovery - scheduling cand type %u addr %s.",
agent, cand->type, tmpbuf);
}
if (nice_address_is_valid (&cand->server) &&
(cand->type == NICE_CANDIDATE_TYPE_SERVER_REFLEXIVE ||
cand->type == NICE_CANDIDATE_TYPE_RELAYED)) {
if (cand->component->state == NICE_COMPONENT_STATE_DISCONNECTED ||
cand->component->state == NICE_COMPONENT_STATE_FAILED)
agent_signal_component_state_change (agent,
cand->stream->id,
cand->component->id,
NICE_COMPONENT_STATE_GATHERING);
if (cand->type == NICE_CANDIDATE_TYPE_SERVER_REFLEXIVE) {
buffer_len = stun_usage_bind_create (&cand->stun_agent,
&cand->stun_message, cand->stun_buffer, sizeof(cand->stun_buffer));
} else if (cand->type == NICE_CANDIDATE_TYPE_RELAYED) {
uint8_t *username = (uint8_t *)cand->turn->username;
gsize username_len = strlen (cand->turn->username);
uint8_t *password = (uint8_t *)cand->turn->password;
gsize password_len = strlen (cand->turn->password);
StunUsageTurnCompatibility turn_compat =
agent_to_turn_compatibility (agent);
if (turn_compat == STUN_USAGE_TURN_COMPATIBILITY_MSN ||
turn_compat == STUN_USAGE_TURN_COMPATIBILITY_OC2007) {
username = g_base64_decode ((gchar *)username, &username_len);
password = g_base64_decode ((gchar *)password, &password_len);
}
buffer_len = stun_usage_turn_create (&cand->stun_agent,
&cand->stun_message, cand->stun_buffer, sizeof(cand->stun_buffer),
cand->stun_resp_msg.buffer == NULL ? NULL : &cand->stun_resp_msg,
STUN_USAGE_TURN_REQUEST_PORT_NORMAL,
-1, -1,
username, username_len,
password, password_len,
turn_compat);
if (turn_compat == STUN_USAGE_TURN_COMPATIBILITY_MSN ||
turn_compat == STUN_USAGE_TURN_COMPATIBILITY_OC2007) {
g_free (username);
g_free (password);
}
}
if (buffer_len > 0) {
if (nice_socket_is_reliable (cand->nicesock)) {
stun_timer_start_reliable (&cand->timer, agent->stun_reliable_timeout);
} else {
stun_timer_start (&cand->timer,
agent->stun_initial_timeout,
agent->stun_max_retransmissions);
}
/* send the conncheck */
agent_socket_send (cand->nicesock, &cand->server,
buffer_len, (gchar *)cand->stun_buffer);
/* case: success, start waiting for the result */
g_get_current_time (&cand->next_tick);
} else {
/* case: error in starting discovery, start the next discovery */
cand->done = TRUE;
cand->stun_message.buffer = NULL;
cand->stun_message.buffer_len = 0;
continue;
}
}
else
/* allocate relayed candidates */
g_assert_not_reached ();
++not_done; /* note: new discovery scheduled */
}
if (cand->done != TRUE) {
GTimeVal now;
g_get_current_time (&now);
if (cand->stun_message.buffer == NULL) {
nice_debug ("Agent %p : STUN discovery was cancelled, marking discovery done.", agent);
cand->done = TRUE;
}
else if (priv_timer_expired (&cand->next_tick, &now)) {
switch (stun_timer_refresh (&cand->timer)) {
case STUN_USAGE_TIMER_RETURN_TIMEOUT:
{
/* Time out */
/* case: error, abort processing */
StunTransactionId id;
stun_message_id (&cand->stun_message, id);
stun_agent_forget_transaction (&cand->stun_agent, id);
cand->done = TRUE;
cand->stun_message.buffer = NULL;
cand->stun_message.buffer_len = 0;
nice_debug ("Agent %p : bind discovery timed out, aborting discovery item.", agent);
break;
}
case STUN_USAGE_TIMER_RETURN_RETRANSMIT:
{
/* case: not ready complete, so schedule next timeout */
unsigned int timeout = stun_timer_remainder (&cand->timer);
stun_debug ("STUN transaction retransmitted (timeout %dms).",
timeout);
/* retransmit */
agent_socket_send (cand->nicesock, &cand->server,
stun_message_length (&cand->stun_message),
(gchar *)cand->stun_buffer);
/* note: convert from milli to microseconds for g_time_val_add() */
cand->next_tick = now;
g_time_val_add (&cand->next_tick, timeout * 1000);
++not_done; /* note: retry later */
break;
}
case STUN_USAGE_TIMER_RETURN_SUCCESS:
{
unsigned int timeout = stun_timer_remainder (&cand->timer);
cand->next_tick = now;
g_time_val_add (&cand->next_tick, timeout * 1000);
++not_done; /* note: retry later */
break;
}
default:
/* Nothing to do. */
break;
}
} else {
++not_done; /* note: discovery not expired yet */
}
}
}
if (not_done == 0) {
nice_debug ("Agent %p : Candidate gathering FINISHED, stopping discovery timer.", agent);
discovery_free (agent);
agent_gathering_done (agent);
/* note: no pending timers, return FALSE to stop timer */
return FALSE;
}
return TRUE;
}