/* DNS resolver callback */
static void dns_srv_resolver_cb(void *user_data,
pj_status_t status,
const pj_dns_srv_record *rec)
{
pj_stun_sock *stun_sock = (pj_stun_sock*) user_data;
pj_grp_lock_acquire(stun_sock->grp_lock);
/* Clear query */
stun_sock->q = NULL;
/* Handle error */
if (status != PJ_SUCCESS) {
sess_fail(stun_sock, PJ_STUN_SOCK_DNS_OP, status);
pj_grp_lock_release(stun_sock->grp_lock);
return;
}
pj_assert(rec->count);
pj_assert(rec->entry[0].server.addr_count);
PJ_TODO(SUPPORT_IPV6_IN_RESOLVER);
pj_assert(stun_sock->af == pj_AF_INET());
/* Set the address */
pj_sockaddr_in_init(&stun_sock->srv_addr.ipv4, NULL,
rec->entry[0].port);
stun_sock->srv_addr.ipv4.sin_addr = rec->entry[0].server.addr[0];
/* Start sending Binding request */
get_mapped_addr(stun_sock);
pj_grp_lock_release(stun_sock->grp_lock);
}
/* Start sending STUN Binding request */
static pj_status_t get_mapped_addr(pj_stun_sock *stun_sock)
{
pj_stun_tx_data *tdata;
pj_status_t status;
/* Increment request counter and create STUN Binding request */
++stun_sock->tsx_id[5];
status = pj_stun_session_create_req(stun_sock->stun_sess,
PJ_STUN_BINDING_REQUEST,
PJ_STUN_MAGIC,
(const pj_uint8_t*)stun_sock->tsx_id,
&tdata);
if (status != PJ_SUCCESS)
goto on_error;
/* Send request */
status=pj_stun_session_send_msg(stun_sock->stun_sess, INTERNAL_MSG_TOKEN,
PJ_FALSE, PJ_TRUE, &stun_sock->srv_addr,
pj_sockaddr_get_len(&stun_sock->srv_addr),
tdata);
if (status != PJ_SUCCESS && status != PJ_EPENDING)
goto on_error;
return PJ_SUCCESS;
on_error:
sess_fail(stun_sock, PJ_STUN_SOCK_BINDING_OP, status);
return status;
}
/*
* Initialize.
*/
PJ_DEF(pj_status_t) pj_turn_sock_alloc(pj_turn_sock *turn_sock,
const pj_str_t *domain,
int default_port,
pj_dns_resolver *resolver,
const pj_stun_auth_cred *cred,
const pj_turn_alloc_param *param)
{
pj_status_t status;
PJ_ASSERT_RETURN(turn_sock && domain, PJ_EINVAL);
PJ_ASSERT_RETURN(turn_sock->sess, PJ_EINVALIDOP);
/* Copy alloc param. We will call session_alloc() only after the
* server address has been resolved.
*/
if (param) {
pj_turn_alloc_param_copy(turn_sock->pool, &turn_sock->alloc_param, param);
} else {
pj_turn_alloc_param_default(&turn_sock->alloc_param);
}
/* Set credental */
if (cred) {
status = pj_turn_session_set_credential(turn_sock->sess, cred);
if (status != PJ_SUCCESS) {
sess_fail(turn_sock, "Error setting credential", status);
return status;
}
}
/* Resolve server */
status = pj_turn_session_set_server(turn_sock->sess, domain, default_port,
resolver);
if (status != PJ_SUCCESS) {
sess_fail(turn_sock, "Error setting TURN server", status);
return status;
}
/* Done for now. The next work will be done when session state moved
* to RESOLVED state.
*/
return PJ_SUCCESS;
}
/*
* Notification when outgoing TCP socket has been connected.
*/
static pj_bool_t on_connect_complete(pj_activesock_t *asock,
pj_status_t status)
{
pj_turn_sock *turn_sock;
turn_sock = (pj_turn_sock*) pj_activesock_get_user_data(asock);
if (!turn_sock)
return PJ_FALSE;
/* TURN session may have already been destroyed here.
* See ticket #1557 (http://trac.pjsip.org/repos/ticket/1557).
*/
if (!turn_sock->sess) {
sess_fail(turn_sock, "TURN session already destroyed", status);
return PJ_FALSE;
}
if (status != PJ_SUCCESS) {
sess_fail(turn_sock, "TCP connect() error", status);
return PJ_FALSE;
}
if (turn_sock->conn_type != PJ_TURN_TP_UDP) {
PJ_LOG(5,(turn_sock->obj_name, "TCP connected"));
}
/* Kick start pending read operation */
status = pj_activesock_start_read(asock, turn_sock->pool,
turn_sock->setting.max_pkt_size, 0);
/* Init send_key */
pj_ioqueue_op_key_init(&turn_sock->send_key, sizeof(turn_sock->send_key));
/* Send Allocate request */
status = pj_turn_session_alloc(turn_sock->sess, &turn_sock->alloc_param);
if (status != PJ_SUCCESS) {
sess_fail(turn_sock, "Error sending ALLOCATE", status);
return PJ_FALSE;
}
return PJ_TRUE;
}
/*
* Notification from ioqueue when incoming UDP packet is received.
*/
static pj_bool_t on_data_read(pj_activesock_t *asock,
void *data,
pj_size_t size,
pj_status_t status,
pj_size_t *remainder)
{
pj_turn_sock *turn_sock;
pj_bool_t ret = PJ_TRUE;
turn_sock = (pj_turn_sock*) pj_activesock_get_user_data(asock);
pj_grp_lock_acquire(turn_sock->grp_lock);
if (status == PJ_SUCCESS && turn_sock->sess && !turn_sock->is_destroying) {
/* Report incoming packet to TURN session, repeat while we have
* "packet" in the buffer (required for stream-oriented transports)
*/
unsigned pkt_len;
//PJ_LOG(5,(turn_sock->pool->obj_name,
// "Incoming data, %lu bytes total buffer", size));
while ((pkt_len=has_packet(turn_sock, data, size)) != 0) {
pj_size_t parsed_len;
//const pj_uint8_t *pkt = (const pj_uint8_t*)data;
//PJ_LOG(5,(turn_sock->pool->obj_name,
// "Packet start: %02X %02X %02X %02X",
// pkt[0], pkt[1], pkt[2], pkt[3]));
//PJ_LOG(5,(turn_sock->pool->obj_name,
// "Processing %lu bytes packet of %lu bytes total buffer",
// pkt_len, size));
parsed_len = (unsigned)size;
pj_turn_session_on_rx_pkt(turn_sock->sess, data, size, &parsed_len);
/* parsed_len may be zero if we have parsing error, so use our
* previous calculation to exhaust the bad packet.
*/
if (parsed_len == 0)
parsed_len = pkt_len;
if (parsed_len < (unsigned)size) {
*remainder = size - parsed_len;
pj_memmove(data, ((char*)data)+parsed_len, *remainder);
} else {
*remainder = 0;
}
size = *remainder;
//PJ_LOG(5,(turn_sock->pool->obj_name,
// "Buffer size now %lu bytes", size));
}
} else if (status != PJ_SUCCESS &&
turn_sock->conn_type != PJ_TURN_TP_UDP)
{
sess_fail(turn_sock, "TCP connection closed", status);
ret = PJ_FALSE;
goto on_return;
}
on_return:
pj_grp_lock_release(turn_sock->grp_lock);
return ret;
}
/*
* Notification from ioqueue when incoming UDP packet is received.
*/
static pj_bool_t on_data_read(pj_activesock_t *asock,
void *data,
pj_size_t size,
pj_status_t status,
pj_size_t *remainder)
{
pj_turn_sock *turn_sock;
pj_bool_t ret = PJ_TRUE;
turn_sock = (pj_turn_sock*) pj_activesock_get_user_data(asock);
pj_lock_acquire(turn_sock->lock);
if (status == PJ_SUCCESS && turn_sock->sess) {
/* Report incoming packet to TURN session, repeat while we have
* "packet" in the buffer (required for stream-oriented transports)
*/
unsigned pkt_len;
//PJ_LOG(5,(turn_sock->pool->obj_name,
// "Incoming data, %lu bytes total buffer", size));
while ((pkt_len=has_packet(turn_sock, data, size)) != 0) {
pj_size_t parsed_len;
//const pj_uint8_t *pkt = (const pj_uint8_t*)data;
//PJ_LOG(5,(turn_sock->pool->obj_name,
// "Packet start: %02X %02X %02X %02X",
// pkt[0], pkt[1], pkt[2], pkt[3]));
//PJ_LOG(5,(turn_sock->pool->obj_name,
// "Processing %lu bytes packet of %lu bytes total buffer",
// pkt_len, size));
parsed_len = (unsigned)size;
pj_turn_session_on_rx_pkt(turn_sock->sess, data, size, &parsed_len);
/* parsed_len may be zero if we have parsing error, so use our
* previous calculation to exhaust the bad packet.
*/
if (parsed_len == 0)
parsed_len = pkt_len;
if (parsed_len < (unsigned)size) {
*remainder = size - parsed_len;
pj_memmove(data, ((char*)data)+parsed_len, *remainder);
} else {
*remainder = 0;
}
size = *remainder;
//PJ_LOG(5,(turn_sock->pool->obj_name,
// "Buffer size now %lu bytes", size));
}
/* Assigned remainder as size. Because ioqueue may
skip the packet if never enter while loop. */
if (pkt_len == 0)
*remainder = size;
PJ_LOG(5, (__FILE__, "on_data_read() leaving still remainder=[%d].",
*remainder));
} else if (status != PJ_SUCCESS &&
turn_sock->conn_type != PJ_TURN_TP_UDP)
{
// DEAN don't destroy TURN session, if connection aborted.
// To avoid the situation of ip changing caused crash.
if (status != 130053)
{
PJ_LOG(1, ("turn_sock.c", "!!! TURN DEALLOCATE !!! in on_data_read() read failed status=%d",
status));
sess_fail(turn_sock, "TURN TCP connection closed", status);
}
ret = PJ_FALSE;
goto on_return;
}
on_return:
pj_lock_release(turn_sock->lock);
return ret;
}
/*
* Notification when outgoing TCP socket has been connected.
*/
static pj_bool_t on_connect_complete(pj_activesock_t *asock,
pj_status_t status)
{
pj_turn_sock *turn_sock;
turn_sock = (pj_turn_sock*) pj_activesock_get_user_data(asock);
if (!turn_sock)
return PJ_FALSE;
/* TURN session may have already been destroyed here.
* See ticket #1557 (http://trac.pjsip.org/repos/ticket/1557).
*/
if (!turn_sock->sess) {
PJ_LOG(1, ("turn_sock.c", "!!! TURN DEALLOCATE !!! in on_connect_complete() turn_sock->sess is NULL status=%d", status));
sess_fail(turn_sock, "TURN session already destroyed", status);
return PJ_FALSE;
}
if (status != PJ_SUCCESS) {
// DEAN assigned next turn server
if (turn_sock->turn_cnt <= ++turn_sock->curr_turn) {
PJ_LOG(1, ("turn_sock.c", "!!! TURN DEALLOCATE !!! in on_connect_complete() turn_sock->turn_cnt <= ++turn_sock->curr_turn (%d,%d)",
turn_sock->turn_cnt, turn_sock->curr_turn));
sess_fail(turn_sock, "TCP connect() error", status);
turn_sock->curr_turn = 0;
PJ_LOG(3, (__FILE__, "Failed(%d) connect to all turn servers.", status));
} else {
set_state(turn_sock->sess, PJ_TURN_STATE_NULL);
PJ_LOG(3, (__FILE__, "Failed(%d) connect to turn server [%.*s:%d].",
status,
turn_sock->turn.domain->slen,
turn_sock->turn.domain->ptr,
turn_sock->turn.default_port));
turn_sock->turn.domain = &turn_sock->turn_list[turn_sock->curr_turn].server;
turn_sock->turn.default_port = turn_sock->turn_list[turn_sock->curr_turn].port;
PJ_LOG(3, (__FILE__, "Try another turn server [%.*s:%d].",
turn_sock->turn.domain->slen,
turn_sock->turn.domain->ptr,
turn_sock->turn.default_port));
/* Resolve server */
status = pj_turn_session_set_server(turn_sock->sess, turn_sock->turn.domain,
turn_sock->turn.default_port, turn_sock->turn.resolver);
if (status != PJ_SUCCESS) {
PJ_LOG(1, ("turn_sock.c", "!!! TURN DEALLOCATE !!! in on_connect_complete() pj_turn_session_set_server failed status=%d",
status));
sess_fail(turn_sock, "Error setting TURN server", status);
return status;
}
}
return PJ_FALSE;
}
if (turn_sock->conn_type != PJ_TURN_TP_UDP) {
PJ_LOG(5,(turn_sock->obj_name, "TCP connected"));
}
/* Kick start pending read operation */
status = pj_activesock_start_read(asock, turn_sock->pool,
PJ_TURN_MAX_PKT_LEN, 0);
/* Init send_key */
pj_ioqueue_op_key_init(&turn_sock->send_key, sizeof(turn_sock->send_key));
/* Send Allocate request */
status = pj_turn_session_alloc(turn_sock->sess, &turn_sock->alloc_param);
if (status != PJ_SUCCESS) {
PJ_LOG(1, ("turn_sock.c", "!!! TURN DEALLOCATE !!! in on_connect_complete() pj_turn_session_alloc failed status=%d",
status));
sess_fail(turn_sock, "Error sending ALLOCATE", status);
return PJ_FALSE;
}
return PJ_TRUE;
}
/*
* 2013-05-08 DEAN modifedf by adding parameters.
* Initialize.
*/
PJ_DEF(pj_status_t) pj_turn_sock_alloc2(pj_turn_sock *turn_sock,
const pj_str_t *domain,
int default_port,
pj_dns_resolver *resolver,
const pj_stun_auth_cred *cred,
const pj_turn_alloc_param *param,
int curr_turn,
int turn_cnt,
pj_turn_server turn_list[])
{
pj_status_t status;
PJ_ASSERT_RETURN(turn_sock && domain && turn_cnt <= MAX_TURN_SERVER_COUNT, PJ_EINVAL);
PJ_ASSERT_RETURN(turn_sock->sess, PJ_EINVALIDOP);
/* Copy alloc param. We will call session_alloc() only after the
* server address has been resolved.
*/
if (param) {
pj_turn_alloc_param_copy(turn_sock->pool, &turn_sock->alloc_param, param);
} else {
pj_turn_alloc_param_default(&turn_sock->alloc_param);
}
/* Set credential */
if (cred) {
PJ_LOG(4, (THIS_FILE, "pj_turn_sock_alloc2() turn tp type=%d", turn_sock->conn_type));
PJ_LOG(4, (THIS_FILE, "pj_turn_sock_alloc2() turn server=%.*s:%d", domain->slen, domain->ptr, default_port));
PJ_LOG(4, (THIS_FILE, "pj_turn_sock_alloc2() turn realm=%.*s", cred->data.static_cred.realm.slen, cred->data.static_cred.realm.ptr));
PJ_LOG(4, (THIS_FILE, "pj_turn_sock_alloc2() turn username=%.*s", cred->data.static_cred.username.slen, cred->data.static_cred.username.ptr));
PJ_LOG(4, (THIS_FILE, "pj_turn_sock_alloc2() turn password=%.*s", cred->data.static_cred.data.slen, cred->data.static_cred.data.ptr));
status = pj_turn_session_set_credential(turn_sock->sess, cred);
if (status != PJ_SUCCESS) {
PJ_LOG(1, ("turn_sock.c", "!!! TURN DEALLOCATE !!! in pj_turn_sock_alloc2() pj_turn_session_set_credential failed=%d", status));
sess_fail(turn_sock, "Error setting credential", status);
return status;
}
}
// 2014-04-19 DEAN, for retry another turn use
turn_sock->turn.domain = domain;
turn_sock->turn.default_port = default_port;
turn_sock->turn.resolver = resolver;
turn_sock->curr_turn = curr_turn;
turn_sock->turn_cnt = turn_cnt;
memcpy(turn_sock->turn_list, turn_list, sizeof(pj_turn_server)*turn_cnt);
/* Resolve server */
status = pj_turn_session_set_server(turn_sock->sess, domain, default_port,
resolver);
if (status != PJ_SUCCESS) {
PJ_LOG(1, ("turn_sock.c", "!!! TURN DEALLOCATE !!! in pj_turn_sock_alloc2() pj_turn_session_set_server failed=%d", status));
sess_fail(turn_sock, "Error setting TURN server", status);
return status;
}
/* Done for now. The next work will be done when session state moved
* to RESOLVED state.
*/
return PJ_SUCCESS;
}
/* This callback is called by the STUN session when outgoing transaction
* is complete
*/
static void sess_on_request_complete(pj_stun_session *sess,
pj_status_t status,
void *token,
pj_stun_tx_data *tdata,
const pj_stun_msg *response,
const pj_sockaddr_t *src_addr,
unsigned src_addr_len)
{
pj_stun_sock *stun_sock;
const pj_stun_sockaddr_attr *mapped_attr;
pj_stun_sock_op op;
pj_bool_t mapped_changed;
pj_bool_t resched = PJ_TRUE;
stun_sock = (pj_stun_sock *) pj_stun_session_get_user_data(sess);
PJ_UNUSED_ARG(tdata);
PJ_UNUSED_ARG(token);
PJ_UNUSED_ARG(src_addr);
PJ_UNUSED_ARG(src_addr_len);
/* Check if this is a keep-alive or the first Binding request */
if (pj_sockaddr_has_addr(&stun_sock->mapped_addr))
op = PJ_STUN_SOCK_KEEP_ALIVE_OP;
else
op = PJ_STUN_SOCK_BINDING_OP;
/* Handle failure */
if (status != PJ_SUCCESS) {
resched = sess_fail(stun_sock, op, status);
goto on_return;
}
/* Get XOR-MAPPED-ADDRESS, or MAPPED-ADDRESS when XOR-MAPPED-ADDRESS
* doesn't exist.
*/
mapped_attr = (const pj_stun_sockaddr_attr*)
pj_stun_msg_find_attr(response, PJ_STUN_ATTR_XOR_MAPPED_ADDR,
0);
if (mapped_attr==NULL) {
mapped_attr = (const pj_stun_sockaddr_attr*)
pj_stun_msg_find_attr(response, PJ_STUN_ATTR_MAPPED_ADDR,
0);
}
if (mapped_attr == NULL) {
resched = sess_fail(stun_sock, op, PJNATH_ESTUNNOMAPPEDADDR);
goto on_return;
}
/* Determine if mapped address has changed, and save the new mapped
* address and call callback if so
*/
mapped_changed = !pj_sockaddr_has_addr(&stun_sock->mapped_addr) ||
pj_sockaddr_cmp(&stun_sock->mapped_addr,
&mapped_attr->sockaddr) != 0;
if (mapped_changed) {
/* Print mapped adress */
{
char addrinfo[PJ_INET6_ADDRSTRLEN+10];
PJ_LOG(4,(stun_sock->obj_name,
"STUN mapped address found/changed: %s",
pj_sockaddr_print(&mapped_attr->sockaddr,
addrinfo, sizeof(addrinfo), 3)));
}
pj_sockaddr_cp(&stun_sock->mapped_addr, &mapped_attr->sockaddr);
if (op==PJ_STUN_SOCK_KEEP_ALIVE_OP)
op = PJ_STUN_SOCK_MAPPED_ADDR_CHANGE;
}
/* Notify user */
resched = (*stun_sock->cb.on_status)(stun_sock, op, PJ_SUCCESS);
on_return:
/* Start/restart keep-alive timer */
if (resched)
start_ka_timer(stun_sock);
}
/* This callback is called by the STUN session when outgoing transaction
* is complete
*/
static void sess_on_request_complete(pj_stun_session *sess,
pj_status_t status,
void *token,
pj_stun_tx_data *tdata,
const pj_stun_msg *response,
const pj_sockaddr_t *src_addr,
unsigned src_addr_len)
{
pj_stun_sock *stun_sock;
const pj_stun_sockaddr_attr *mapped_attr;
pj_stun_sock_op op;
pj_bool_t mapped_changed;
pj_bool_t resched = PJ_TRUE;
stun_sock = (pj_stun_sock *) pj_stun_session_get_user_data(sess);
if (!stun_sock)
return;
PJ_UNUSED_ARG(tdata);
PJ_UNUSED_ARG(token);
PJ_UNUSED_ARG(src_addr);
PJ_UNUSED_ARG(src_addr_len);
/* Check if this is a keep-alive or the first Binding request */
if (pj_sockaddr_has_addr(&stun_sock->mapped_addr))
op = PJ_STUN_SOCK_KEEP_ALIVE_OP;
else
op = PJ_STUN_SOCK_BINDING_OP;
/* Handle failure */
if (status != PJ_SUCCESS) {
resched = sess_fail(stun_sock, op, status);
goto on_return;
}
/* Get XOR-MAPPED-ADDRESS, or MAPPED-ADDRESS when XOR-MAPPED-ADDRESS
* doesn't exist.
*/
mapped_attr = (const pj_stun_sockaddr_attr*)
pj_stun_msg_find_attr(response, PJ_STUN_ATTR_XOR_MAPPED_ADDR,
0);
if (mapped_attr==NULL) {
mapped_attr = (const pj_stun_sockaddr_attr*)
pj_stun_msg_find_attr(response, PJ_STUN_ATTR_MAPPED_ADDR,
0);
}
if (mapped_attr == NULL) {
resched = sess_fail(stun_sock, op, PJNATH_ESTUNNOMAPPEDADDR);
goto on_return;
}
/* Determine if mapped address has changed, and save the new mapped
* address and call callback if so
*/
mapped_changed = !pj_sockaddr_has_addr(&stun_sock->mapped_addr) ||
pj_sockaddr_cmp(&stun_sock->mapped_addr,
&mapped_attr->sockaddr) != 0;
if (mapped_changed) {
/* Print mapped adress */
{
char addrinfo[PJ_INET6_ADDRSTRLEN+10];
PJ_LOG(2,(stun_sock->obj_name,
"STUN mapped address found/changed: %s",
pj_sockaddr_print(&mapped_attr->sockaddr,
addrinfo, sizeof(addrinfo), 3)));
}
pj_sockaddr_cp(&stun_sock->mapped_addr, &mapped_attr->sockaddr);
if (op==PJ_STUN_SOCK_KEEP_ALIVE_OP) {
op = PJ_STUN_SOCK_MAPPED_ADDR_CHANGE;
PJ_LOG(2, (THIS_FILE, "sess_on_rquest_complete() Operation is PJ_STUN_SOCK_MAPPED_ADDR_CHANGE."));
}
}
// 2013-10-16 DEAN
// 2013-10-21 DEAN
{
int addr_len = sizeof(stun_sock->current_local_addr);
char addrinfo1[PJ_INET6_ADDRSTRLEN+10];
char addrinfo2[PJ_INET6_ADDRSTRLEN+10];
pj_sock_getsockname(stun_sock->sock_fd, &stun_sock->current_local_addr,
&addr_len);
PJ_LOG(6,(stun_sock->obj_name,
"Current Local address: %s",
pj_sockaddr_print(&stun_sock->current_local_addr,
addrinfo1, sizeof(addrinfo1), 3)));
/*
* Find out which interface is used to send to the server.
*/
status = get_local_interface(&stun_sock->srv_addr, &((pj_sockaddr_in *)(&stun_sock->current_local_addr))->sin_addr);
PJ_LOG(6,(stun_sock->obj_name,
"Current Local address: %s",
pj_sockaddr_print(&stun_sock->current_local_addr,
addrinfo2, sizeof(addrinfo2), 3)));
}
/* Notify user */
resched = (*stun_sock->cb.on_status)(stun_sock, op, PJ_SUCCESS);
PJ_LOG(5, (THIS_FILE, "sess_on_request_complete() resched=%d.", resched));
on_return:
/* Start/restart keep-alive timer */
if (resched)
start_ka_timer(stun_sock);
}
