/*
* pjsip_udp_transport_start2()
*
* Create a UDP socket in the specified address and start a transport.
*/
PJ_DEF(pj_status_t) pjsip_udp_transport_start2(
pjsip_endpoint *endpt,
const pjsip_udp_transport_cfg *cfg,
pjsip_transport **p_transport)
{
pj_sock_t sock;
pj_status_t status;
pjsip_host_port addr_name;
char addr_buf[PJ_INET6_ADDRSTRLEN];
pjsip_transport_type_e transport_type;
pj_uint16_t af;
int addr_len;
PJ_ASSERT_RETURN(endpt && cfg && cfg->async_cnt, PJ_EINVAL);
if (cfg->bind_addr.addr.sa_family == pj_AF_INET()) {
af = pj_AF_INET();
transport_type = PJSIP_TRANSPORT_UDP;
addr_len = sizeof(pj_sockaddr_in);
} else {
af = pj_AF_INET6();
transport_type = PJSIP_TRANSPORT_UDP6;
addr_len = sizeof(pj_sockaddr_in6);
}
status = create_socket(af, &cfg->bind_addr, addr_len, &sock);
if (status != PJ_SUCCESS)
return status;
/* Apply QoS, if specified */
pj_sock_apply_qos2(sock, cfg->qos_type, &cfg->qos_params,
2, THIS_FILE, "SIP UDP transport");
/* Apply sockopt, if specified */
if (cfg->sockopt_params.cnt)
pj_sock_setsockopt_params(sock, &cfg->sockopt_params);
if (cfg->addr_name.host.slen == 0) {
/* Address name is not specified.
* Build a name based on bound address.
*/
status = get_published_name(sock, addr_buf, sizeof(addr_buf),
&addr_name);
if (status != PJ_SUCCESS) {
pj_sock_close(sock);
return status;
}
} else {
addr_name = cfg->addr_name;
}
return pjsip_udp_transport_attach2(endpt, transport_type, sock,
&addr_name, cfg->async_cnt,
p_transport);
}
int CPjSSLSocket::Connect(CPjSSLSocket_cb cb, void *key,
const TInetAddr &local_addr,
const TInetAddr &rem_addr,
const TDesC8 &servername,
const TDesC8 &ciphers)
{
pj_status_t status;
PJ_ASSERT_RETURN(state_ == SSL_STATE_NULL, PJ_EINVALIDOP);
status = pj_sock_socket(rem_addr.Family(), pj_SOCK_STREAM(), 0, &sock_);
if (status != PJ_SUCCESS)
return status;
// Apply QoS
status = pj_sock_apply_qos2(sock_, qos_type_, &qos_params_,
2, THIS_FILE, NULL);
RSocket &rSock = ((CPjSocket*)sock_)->Socket();
local_addr_ = local_addr;
if (!local_addr_.IsUnspecified()) {
TInt err = rSock.Bind(local_addr_);
if (err != KErrNone)
return PJ_RETURN_OS_ERROR(err);
}
cb_ = cb;
key_ = key;
rem_addr_ = rem_addr;
/* Note: the following members only keep the pointer, not the data */
servername_.Set(servername);
ciphers_.Set(ciphers);
rSock.Connect(rem_addr_, iStatus);
SetActive();
state_ = SSL_STATE_CONNECTING;
rSock.LocalName(local_addr_);
return PJ_EPENDING;
}
/*
* This callback is called by active socket when pending accept() operation
* has completed.
*/
static pj_bool_t on_accept_complete(pj_activesock_t *asock,
pj_sock_t sock,
const pj_sockaddr_t *src_addr,
int src_addr_len)
{
struct tcp_listener *listener;
struct tcp_transport *tcp;
char addr[PJ_INET6_ADDRSTRLEN+10];
pjsip_tp_state_callback state_cb;
pj_sockaddr tmp_src_addr;
pj_status_t status;
PJ_UNUSED_ARG(src_addr_len);
listener = (struct tcp_listener*) pj_activesock_get_user_data(asock);
PJ_ASSERT_RETURN(sock != PJ_INVALID_SOCKET, PJ_TRUE);
PJ_LOG(4,(listener->factory.obj_name,
"TCP listener %.*s:%d: got incoming TCP connection "
"from %s, sock=%d",
(int)listener->factory.addr_name.host.slen,
listener->factory.addr_name.host.ptr,
listener->factory.addr_name.port,
pj_sockaddr_print(src_addr, addr, sizeof(addr), 3),
sock));
/* Apply QoS, if specified */
status = pj_sock_apply_qos2(sock, listener->qos_type,
&listener->qos_params,
2, listener->factory.obj_name,
"incoming SIP TCP socket");
/* tcp_create() expect pj_sockaddr, so copy src_addr to temporary var,
* just in case.
*/
pj_bzero(&tmp_src_addr, sizeof(tmp_src_addr));
pj_sockaddr_cp(&tmp_src_addr, src_addr);
/*
* Incoming connection!
* Create TCP transport for the new socket.
*/
status = tcp_create( listener, NULL, sock, PJ_TRUE,
&listener->factory.local_addr,
&tmp_src_addr, &tcp);
if (status == PJ_SUCCESS) {
status = tcp_start_read(tcp);
if (status != PJ_SUCCESS) {
PJ_LOG(3,(tcp->base.obj_name, "New transport cancelled"));
tcp_destroy(&tcp->base, status);
} else {
/* Start keep-alive timer */
if (PJSIP_TCP_KEEP_ALIVE_INTERVAL) {
pj_time_val delay = {PJSIP_TCP_KEEP_ALIVE_INTERVAL, 0};
pjsip_endpt_schedule_timer(listener->endpt,
&tcp->ka_timer,
&delay);
tcp->ka_timer.id = PJ_TRUE;
pj_gettimeofday(&tcp->last_activity);
}
/* Notify application of transport state accepted */
state_cb = pjsip_tpmgr_get_state_cb(tcp->base.tpmgr);
if (state_cb) {
pjsip_transport_state_info state_info;
pj_bzero(&state_info, sizeof(state_info));
(*state_cb)(&tcp->base, PJSIP_TP_STATE_CONNECTED, &state_info);
}
}
}
return PJ_TRUE;
}
/* This callback is called by transport manager for the TCP factory
* to create outgoing transport to the specified destination.
*/
static pj_status_t lis_create_transport(pjsip_tpfactory *factory,
pjsip_tpmgr *mgr,
pjsip_endpoint *endpt,
const pj_sockaddr *rem_addr,
int addr_len,
pjsip_transport **p_transport)
{
struct tcp_listener *listener;
struct tcp_transport *tcp;
pj_sock_t sock;
pj_sockaddr local_addr;
pj_status_t status;
/* Sanity checks */
PJ_ASSERT_RETURN(factory && mgr && endpt && rem_addr &&
addr_len && p_transport, PJ_EINVAL);
/* Check that address is a sockaddr_in or sockaddr_in6*/
PJ_ASSERT_RETURN((rem_addr->addr.sa_family == pj_AF_INET() &&
addr_len == sizeof(pj_sockaddr_in)) ||
(rem_addr->addr.sa_family == pj_AF_INET6() &&
addr_len == sizeof(pj_sockaddr_in6)), PJ_EINVAL);
listener = (struct tcp_listener*)factory;
/* Create socket */
status = pj_sock_socket(rem_addr->addr.sa_family, pj_SOCK_STREAM(),
0, &sock);
if (status != PJ_SUCCESS)
return status;
/* Apply QoS, if specified */
status = pj_sock_apply_qos2(sock, listener->qos_type,
&listener->qos_params,
2, listener->factory.obj_name,
"outgoing SIP TCP socket");
/* Bind to listener's address and any port */
pj_bzero(&local_addr, sizeof(local_addr));
pj_sockaddr_cp(&local_addr, &listener->bound_addr);
pj_sockaddr_set_port(&local_addr, 0);
status = pj_sock_bind(sock, &local_addr,
pj_sockaddr_get_len(&local_addr));
if (status != PJ_SUCCESS) {
pj_sock_close(sock);
return status;
}
/* Get the local port */
addr_len = sizeof(local_addr);
status = pj_sock_getsockname(sock, &local_addr, &addr_len);
if (status != PJ_SUCCESS) {
pj_sock_close(sock);
return status;
}
/* Initially set the address from the listener's address */
if (!pj_sockaddr_has_addr(&local_addr)) {
pj_sockaddr_copy_addr(&local_addr, &listener->factory.local_addr);
}
/* Create the transport descriptor */
status = tcp_create(listener, NULL, sock, PJ_FALSE, &local_addr,
rem_addr, &tcp);
if (status != PJ_SUCCESS)
return status;
/* Start asynchronous connect() operation */
tcp->has_pending_connect = PJ_TRUE;
status = pj_activesock_start_connect(tcp->asock, tcp->base.pool, rem_addr,
addr_len);
if (status == PJ_SUCCESS) {
on_connect_complete(tcp->asock, PJ_SUCCESS);
} else if (status != PJ_EPENDING) {
tcp_destroy(&tcp->base, status);
return status;
}
if (tcp->has_pending_connect) {
/* Update (again) local address, just in case local address currently
* set is different now that asynchronous connect() is started.
*/
addr_len = sizeof(local_addr);
if (pj_sock_getsockname(sock, &local_addr, &addr_len)==PJ_SUCCESS) {
pj_sockaddr *tp_addr = &tcp->base.local_addr;
/* Some systems (like old Win32 perhaps) may not set local address
* properly before socket is fully connected.
*/
if (pj_sockaddr_cmp(tp_addr, &local_addr) &&
pj_sockaddr_get_port(&local_addr) != 0)
{
pj_sockaddr_cp(tp_addr, &local_addr);
sockaddr_to_host_port(tcp->base.pool, &tcp->base.local_name,
&local_addr);
}
}
PJ_LOG(4,(tcp->base.obj_name,
"TCP transport %.*s:%d is connecting to %.*s:%d...",
(int)tcp->base.local_name.host.slen,
tcp->base.local_name.host.ptr,
tcp->base.local_name.port,
(int)tcp->base.remote_name.host.slen,
tcp->base.remote_name.host.ptr,
tcp->base.remote_name.port));
}
/* Done */
*p_transport = &tcp->base;
return PJ_SUCCESS;
}
/*
* This is the public API to create, initialize, register, and start the
* TCP listener.
*/
PJ_DEF(pj_status_t) pjsip_tcp_transport_start3(
pjsip_endpoint *endpt,
const pjsip_tcp_transport_cfg *cfg,
pjsip_tpfactory **p_factory
)
{
pj_pool_t *pool;
pj_sock_t sock = PJ_INVALID_SOCKET;
struct tcp_listener *listener;
pj_activesock_cfg asock_cfg;
pj_activesock_cb listener_cb;
pj_sockaddr *listener_addr;
int addr_len;
pj_status_t status;
/* Sanity check */
PJ_ASSERT_RETURN(endpt && cfg->async_cnt, PJ_EINVAL);
/* Verify that address given in a_name (if any) is valid */
if (cfg->addr_name.host.slen) {
pj_sockaddr tmp;
status = pj_sockaddr_init(cfg->af, &tmp, &cfg->addr_name.host,
(pj_uint16_t)cfg->addr_name.port);
if (status != PJ_SUCCESS || !pj_sockaddr_has_addr(&tmp) ||
(cfg->af==pj_AF_INET() &&
tmp.ipv4.sin_addr.s_addr==PJ_INADDR_NONE))
{
/* Invalid address */
return PJ_EINVAL;
}
}
pool = pjsip_endpt_create_pool(endpt, "tcplis", POOL_LIS_INIT,
POOL_LIS_INC);
PJ_ASSERT_RETURN(pool, PJ_ENOMEM);
listener = PJ_POOL_ZALLOC_T(pool, struct tcp_listener);
listener->factory.pool = pool;
listener->factory.type = cfg->af==pj_AF_INET() ? PJSIP_TRANSPORT_TCP :
PJSIP_TRANSPORT_TCP6;
listener->factory.type_name = (char*)
pjsip_transport_get_type_name(listener->factory.type);
listener->factory.flag =
pjsip_transport_get_flag_from_type(listener->factory.type);
listener->qos_type = cfg->qos_type;
pj_memcpy(&listener->qos_params, &cfg->qos_params,
sizeof(cfg->qos_params));
pj_ansi_strcpy(listener->factory.obj_name, "tcplis");
if (listener->factory.type==PJSIP_TRANSPORT_TCP6)
pj_ansi_strcat(listener->factory.obj_name, "6");
status = pj_lock_create_recursive_mutex(pool, listener->factory.obj_name,
&listener->factory.lock);
if (status != PJ_SUCCESS)
goto on_error;
/* Create socket */
status = pj_sock_socket(cfg->af, pj_SOCK_STREAM(), 0, &sock);
if (status != PJ_SUCCESS)
goto on_error;
/* Apply QoS, if specified */
status = pj_sock_apply_qos2(sock, cfg->qos_type, &cfg->qos_params,
2, listener->factory.obj_name,
"SIP TCP listener socket");
/* Bind address may be different than factory.local_addr because
* factory.local_addr will be resolved below.
*/
pj_sockaddr_cp(&listener->bound_addr, &cfg->bind_addr);
/* Bind socket */
listener_addr = &listener->factory.local_addr;
pj_sockaddr_cp(listener_addr, &cfg->bind_addr);
status = pj_sock_bind(sock, listener_addr,
pj_sockaddr_get_len(listener_addr));
if (status != PJ_SUCCESS)
goto on_error;
/* Retrieve the bound address */
addr_len = pj_sockaddr_get_len(listener_addr);
status = pj_sock_getsockname(sock, listener_addr, &addr_len);
if (status != PJ_SUCCESS)
goto on_error;
/* If published host/IP is specified, then use that address as the
* listener advertised address.
*/
if (cfg->addr_name.host.slen) {
/* Copy the address */
listener->factory.addr_name = cfg->addr_name;
pj_strdup(listener->factory.pool, &listener->factory.addr_name.host,
&cfg->addr_name.host);
listener->factory.addr_name.port = cfg->addr_name.port;
} else {
/* No published address is given, use the bound address */
/* If the address returns 0.0.0.0, use the default
* interface address as the transport's address.
*/
if (!pj_sockaddr_has_addr(listener_addr)) {
pj_sockaddr hostip;
status = pj_gethostip(listener->bound_addr.addr.sa_family,
&hostip);
if (status != PJ_SUCCESS)
goto on_error;
pj_sockaddr_copy_addr(listener_addr, &hostip);
}
/* Save the address name */
sockaddr_to_host_port(listener->factory.pool,
&listener->factory.addr_name,
listener_addr);
}
/* If port is zero, get the bound port */
if (listener->factory.addr_name.port == 0) {
listener->factory.addr_name.port = pj_sockaddr_get_port(listener_addr);
}
pj_ansi_snprintf(listener->factory.obj_name,
sizeof(listener->factory.obj_name),
"tcplis:%d", listener->factory.addr_name.port);
/* Start listening to the address */
status = pj_sock_listen(sock, PJSIP_TCP_TRANSPORT_BACKLOG);
if (status != PJ_SUCCESS)
goto on_error;
/* Create active socket */
pj_activesock_cfg_default(&asock_cfg);
if (cfg->async_cnt > MAX_ASYNC_CNT)
asock_cfg.async_cnt = MAX_ASYNC_CNT;
else
asock_cfg.async_cnt = cfg->async_cnt;
pj_bzero(&listener_cb, sizeof(listener_cb));
listener_cb.on_accept_complete = &on_accept_complete;
status = pj_activesock_create(pool, sock, pj_SOCK_STREAM(), &asock_cfg,
pjsip_endpt_get_ioqueue(endpt),
&listener_cb, listener,
&listener->asock);
/* Register to transport manager */
listener->endpt = endpt;
listener->tpmgr = pjsip_endpt_get_tpmgr(endpt);
listener->factory.create_transport = lis_create_transport;
listener->factory.destroy = lis_destroy;
listener->is_registered = PJ_TRUE;
status = pjsip_tpmgr_register_tpfactory(listener->tpmgr,
&listener->factory);
if (status != PJ_SUCCESS) {
listener->is_registered = PJ_FALSE;
goto on_error;
}
/* Start pending accept() operations */
status = pj_activesock_start_accept(listener->asock, pool);
if (status != PJ_SUCCESS)
goto on_error;
PJ_LOG(4,(listener->factory.obj_name,
"SIP TCP listener ready for incoming connections at %.*s:%d",
(int)listener->factory.addr_name.host.slen,
listener->factory.addr_name.host.ptr,
listener->factory.addr_name.port));
/* Return the pointer to user */
if (p_factory) *p_factory = &listener->factory;
return PJ_SUCCESS;
on_error:
if (listener->asock==NULL && sock!=PJ_INVALID_SOCKET)
pj_sock_close(sock);
lis_destroy(&listener->factory);
return status;
}
/*
* Callback from TURN session when state has changed
*/
static void turn_on_state(pj_turn_session *sess,
pj_turn_state_t old_state,
pj_turn_state_t new_state)
{
pj_turn_sock *turn_sock = (pj_turn_sock*)
pj_turn_session_get_user_data(sess);
pj_status_t status;
if (turn_sock == NULL) {
/* We've been destroyed */
return;
}
/* Notify app first */
if (turn_sock->cb.on_state) {
(*turn_sock->cb.on_state)(turn_sock, old_state, new_state);
}
/* Make sure user hasn't destroyed us in the callback */
if (turn_sock->sess && new_state == PJ_TURN_STATE_RESOLVED) {
pj_turn_session_info info;
pj_turn_session_get_info(turn_sock->sess, &info);
new_state = info.state;
}
if (turn_sock->sess && new_state == PJ_TURN_STATE_RESOLVED) {
/*
* Once server has been resolved, initiate outgoing TCP
* connection to the server.
*/
pj_turn_session_info info;
char addrtxt[PJ_INET6_ADDRSTRLEN+8];
int sock_type;
pj_sock_t sock;
pj_activesock_cfg asock_cfg;
pj_activesock_cb asock_cb;
pj_sockaddr bound_addr, *cfg_bind_addr;
pj_uint16_t max_bind_retry;
/* Close existing connection, if any. This happens when
* we're switching to alternate TURN server when either TCP
* connection or ALLOCATE request failed.
*/
if (turn_sock->active_sock) {
pj_activesock_close(turn_sock->active_sock);
turn_sock->active_sock = NULL;
}
/* Get server address from session info */
pj_turn_session_get_info(sess, &info);
if (turn_sock->conn_type == PJ_TURN_TP_UDP)
sock_type = pj_SOCK_DGRAM();
else
sock_type = pj_SOCK_STREAM();
/* Init socket */
status = pj_sock_socket(turn_sock->af, sock_type, 0, &sock);
if (status != PJ_SUCCESS) {
pj_turn_sock_destroy(turn_sock);
return;
}
/* Bind socket */
cfg_bind_addr = &turn_sock->setting.bound_addr;
max_bind_retry = MAX_BIND_RETRY;
if (turn_sock->setting.port_range &&
turn_sock->setting.port_range < max_bind_retry)
{
max_bind_retry = turn_sock->setting.port_range;
}
pj_sockaddr_init(turn_sock->af, &bound_addr, NULL, 0);
if (cfg_bind_addr->addr.sa_family == pj_AF_INET() ||
cfg_bind_addr->addr.sa_family == pj_AF_INET6())
{
pj_sockaddr_cp(&bound_addr, cfg_bind_addr);
}
status = pj_sock_bind_random(sock, &bound_addr,
turn_sock->setting.port_range,
max_bind_retry);
if (status != PJ_SUCCESS) {
pj_turn_sock_destroy(turn_sock);
return;
}
/* Apply QoS, if specified */
status = pj_sock_apply_qos2(sock, turn_sock->setting.qos_type,
&turn_sock->setting.qos_params,
(turn_sock->setting.qos_ignore_error?2:1),
turn_sock->pool->obj_name, NULL);
if (status != PJ_SUCCESS && !turn_sock->setting.qos_ignore_error) {
pj_turn_sock_destroy(turn_sock);
return;
}
/* Apply socket buffer size */
if (turn_sock->setting.so_rcvbuf_size > 0) {
unsigned sobuf_size = turn_sock->setting.so_rcvbuf_size;
status = pj_sock_setsockopt_sobuf(sock, pj_SO_RCVBUF(),
PJ_TRUE, &sobuf_size);
if (status != PJ_SUCCESS) {
pj_perror(3, turn_sock->obj_name, status,
"Failed setting SO_RCVBUF");
} else {
if (sobuf_size < turn_sock->setting.so_rcvbuf_size) {
PJ_LOG(4, (turn_sock->obj_name,
"Warning! Cannot set SO_RCVBUF as configured,"
" now=%d, configured=%d", sobuf_size,
turn_sock->setting.so_rcvbuf_size));
} else {
PJ_LOG(5, (turn_sock->obj_name, "SO_RCVBUF set to %d",
sobuf_size));
}
}
}
if (turn_sock->setting.so_sndbuf_size > 0) {
unsigned sobuf_size = turn_sock->setting.so_sndbuf_size;
status = pj_sock_setsockopt_sobuf(sock, pj_SO_SNDBUF(),
PJ_TRUE, &sobuf_size);
if (status != PJ_SUCCESS) {
pj_perror(3, turn_sock->obj_name, status,
"Failed setting SO_SNDBUF");
} else {
if (sobuf_size < turn_sock->setting.so_sndbuf_size) {
PJ_LOG(4, (turn_sock->obj_name,
"Warning! Cannot set SO_SNDBUF as configured,"
" now=%d, configured=%d", sobuf_size,
turn_sock->setting.so_sndbuf_size));
} else {
PJ_LOG(5, (turn_sock->obj_name, "SO_SNDBUF set to %d",
sobuf_size));
}
}
}
/* Create active socket */
pj_activesock_cfg_default(&asock_cfg);
asock_cfg.grp_lock = turn_sock->grp_lock;
pj_bzero(&asock_cb, sizeof(asock_cb));
asock_cb.on_data_read = &on_data_read;
asock_cb.on_connect_complete = &on_connect_complete;
status = pj_activesock_create(turn_sock->pool, sock,
sock_type, &asock_cfg,
turn_sock->cfg.ioqueue, &asock_cb,
turn_sock,
&turn_sock->active_sock);
if (status != PJ_SUCCESS) {
pj_turn_sock_destroy(turn_sock);
return;
}
PJ_LOG(5,(turn_sock->pool->obj_name,
"Connecting to %s",
pj_sockaddr_print(&info.server, addrtxt,
sizeof(addrtxt), 3)));
/* Initiate non-blocking connect */
#if PJ_HAS_TCP
status=pj_activesock_start_connect(turn_sock->active_sock,
turn_sock->pool,
&info.server,
pj_sockaddr_get_len(&info.server));
if (status == PJ_SUCCESS) {
on_connect_complete(turn_sock->active_sock, PJ_SUCCESS);
} else if (status != PJ_EPENDING) {
pj_turn_sock_destroy(turn_sock);
return;
}
#else
on_connect_complete(turn_sock->active_sock, PJ_SUCCESS);
#endif
/* Done for now. Subsequent work will be done in
* on_connect_complete() callback.
*/
}
if (new_state >= PJ_TURN_STATE_DESTROYING && turn_sock->sess) {
pj_time_val delay = {0, 0};
turn_sock->sess = NULL;
pj_turn_session_set_user_data(sess, NULL);
pj_timer_heap_cancel_if_active(turn_sock->cfg.timer_heap,
&turn_sock->timer, 0);
pj_timer_heap_schedule_w_grp_lock(turn_sock->cfg.timer_heap,
&turn_sock->timer,
&delay, TIMER_DESTROY,
turn_sock->grp_lock);
}
}
/*
* Callback from TURN session when state has changed
*/
static void turn_on_state(pj_turn_session *sess,
pj_turn_state_t old_state,
pj_turn_state_t new_state)
{
pj_turn_sock *turn_sock = (pj_turn_sock*)
pj_turn_session_get_user_data(sess);
pj_status_t status;
if (turn_sock == NULL) {
/* We've been destroyed */
return;
}
/* Notify app first */
if (turn_sock->cb.on_state) {
(*turn_sock->cb.on_state)(turn_sock, old_state, new_state);
}
/* Make sure user hasn't destroyed us in the callback */
if (turn_sock->sess && new_state == PJ_TURN_STATE_RESOLVED) {
pj_turn_session_info info;
pj_turn_session_get_info(turn_sock->sess, &info);
new_state = info.state;
}
if (turn_sock->sess && new_state == PJ_TURN_STATE_RESOLVED) {
/*
* Once server has been resolved, initiate outgoing TCP
* connection to the server.
*/
pj_turn_session_info info;
char addrtxt[PJ_INET6_ADDRSTRLEN+8];
int sock_type;
pj_sock_t sock;
pj_activesock_cb asock_cb;
pj_activesock_cfg asock_cfg;
/* Close existing connection, if any. This happens when
* we're switching to alternate TURN server when either TCP
* connection or ALLOCATE request failed.
*/
if (turn_sock->active_sock) {
PJ_LOG(4, (THIS_FILE, "turn_on_state() Close connection for new_state == PJ_TURN_STATE_RESOLVED."));
pj_activesock_close(turn_sock->active_sock);
turn_sock->active_sock = NULL;
}
/* Get server address from session info */
pj_turn_session_get_info(sess, &info);
if (turn_sock->conn_type == PJ_TURN_TP_UDP)
sock_type = pj_SOCK_DGRAM();
else
sock_type = pj_SOCK_STREAM();
/* Init socket */
status = pj_sock_socket(turn_sock->af, sock_type, 0, &sock);
if (status != PJ_SUCCESS) {
PJ_LOG(1, (THIS_FILE, "turn_on_state() Failed to destroy turn_sock for sock creation. status=[%d]", status));
pj_turn_sock_destroy(turn_sock);
return;
}
{
int flag = turn_sock->setting.sock_recv_buf_size ? turn_sock->setting.sock_recv_buf_size : PJ_TCP_MAX_PKT_LEN;
status = pj_sock_setsockopt(sock, pj_SOL_SOCKET(), pj_SO_RCVBUF(),
&flag, sizeof(flag));
if (status != PJ_SUCCESS) {
PJ_LOG(2, (THIS_FILE, "turn_on_state() Failed to set SO_RCVBUF option. status=[%d]", status));
return;
}
flag = turn_sock->setting.sock_send_buf_size ? turn_sock->setting.sock_send_buf_size : PJ_SOCKET_SND_BUFFER_SIZE;
status = pj_sock_setsockopt(sock, pj_SOL_SOCKET(), pj_SO_SNDBUF(),
&flag, sizeof(flag));
if (status != PJ_SUCCESS) {
PJ_LOG(2, (THIS_FILE, "turn_on_state() Failed to set SO_SNDBUF option. status=[%d]", status));
return;
}
}
/* Apply QoS, if specified */
status = pj_sock_apply_qos2(sock, turn_sock->setting.qos_type,
&turn_sock->setting.qos_params,
(turn_sock->setting.qos_ignore_error?2:1),
turn_sock->pool->obj_name, NULL);
if (status != PJ_SUCCESS && !turn_sock->setting.qos_ignore_error) {
PJ_LOG(1, (THIS_FILE, "turn_on_state() Failed to destroy turn_sock for pj_sock_apply_qos2. status=[%d]", status));
pj_turn_sock_destroy(turn_sock);
return;
}
/* Create active socket */
pj_activesock_cfg_default(&asock_cfg);
asock_cfg.concurrency = 1;
asock_cfg.whole_data = PJ_TRUE;
pj_bzero(&asock_cb, sizeof(asock_cb));
asock_cb.on_data_read = &on_data_read;
asock_cb.on_connect_complete = &on_connect_complete;
status = pj_activesock_create(turn_sock->pool, sock,
sock_type, &asock_cfg,
turn_sock->cfg.ioqueue, &asock_cb,
turn_sock,
&turn_sock->active_sock);
if (status != PJ_SUCCESS) {
PJ_LOG(1, (THIS_FILE, "turn_on_state() Failed to destroy turn_sock for pj_activesock_create. status=[%d]", status));
pj_turn_sock_destroy(turn_sock);
return;
}
PJ_LOG(5,(turn_sock->pool->obj_name,
"Connecting to %s",
pj_sockaddr_print(&info.server, addrtxt,
sizeof(addrtxt), 3)));
/* Initiate non-blocking connect */
#if PJ_HAS_TCP
status=pj_activesock_start_connect(turn_sock->active_sock,
turn_sock->pool,
&info.server,
pj_sockaddr_get_len(&info.server));
if (status == PJ_SUCCESS) {
on_connect_complete(turn_sock->active_sock, PJ_SUCCESS);
} else if (status != PJ_EPENDING) {
PJ_LOG(1, (THIS_FILE, "turn_on_state() Failed to destroy turn_sock for pj_activesock_start_connect. status=[%d]", status));
pj_turn_sock_destroy(turn_sock);
return;
}
#else
on_connect_complete(turn_sock->active_sock, PJ_SUCCESS);
#endif
/* Done for now. Subsequent work will be done in
* on_connect_complete() callback.
*/
}
if (new_state >= PJ_TURN_STATE_DESTROYING && turn_sock->sess) {
pj_time_val delay = {0, 0};
turn_sock->sess = NULL;
pj_turn_session_set_user_data(sess, NULL);
if (turn_sock->timer.id) {
pj_timer_heap_cancel(turn_sock->cfg.timer_heap, &turn_sock->timer);
turn_sock->timer.id = 0;
}
turn_sock->timer.id = TIMER_DESTROY;
pj_timer_heap_schedule(turn_sock->cfg.timer_heap, &turn_sock->timer,
&delay);
}
}
/*
* Create the STUN transport using the specified configuration.
*/
PJ_DEF(pj_status_t) pj_stun_sock_create( pj_stun_config *stun_cfg,
const char *name,
int af,
const pj_stun_sock_cb *cb,
const pj_stun_sock_cfg *cfg,
void *user_data,
pj_stun_sock **p_stun_sock)
{
pj_pool_t *pool;
pj_stun_sock *stun_sock;
pj_stun_sock_cfg default_cfg;
unsigned i;
pj_status_t status;
PJ_ASSERT_RETURN(stun_cfg && cb && p_stun_sock, PJ_EINVAL);
PJ_ASSERT_RETURN(af==pj_AF_INET()||af==pj_AF_INET6(), PJ_EAFNOTSUP);
PJ_ASSERT_RETURN(!cfg || pj_stun_sock_cfg_is_valid(cfg), PJ_EINVAL);
PJ_ASSERT_RETURN(cb->on_status, PJ_EINVAL);
status = pj_stun_config_check_valid(stun_cfg);
if (status != PJ_SUCCESS)
return status;
if (name == NULL)
name = "stuntp%p";
if (cfg == NULL) {
pj_stun_sock_cfg_default(&default_cfg);
cfg = &default_cfg;
}
/* Create structure */
pool = pj_pool_create(stun_cfg->pf, name, 256, 512, NULL);
stun_sock = PJ_POOL_ZALLOC_T(pool, pj_stun_sock);
stun_sock->pool = pool;
stun_sock->obj_name = pool->obj_name;
stun_sock->user_data = user_data;
stun_sock->af = af;
stun_sock->sock_fd = PJ_INVALID_SOCKET;
pj_memcpy(&stun_sock->stun_cfg, stun_cfg, sizeof(*stun_cfg));
pj_memcpy(&stun_sock->cb, cb, sizeof(*cb));
stun_sock->ka_interval = cfg->ka_interval;
if (stun_sock->ka_interval == 0)
stun_sock->ka_interval = PJ_STUN_KEEP_ALIVE_SEC;
/* Create socket and bind socket */
status = pj_sock_socket(af, pj_SOCK_DGRAM(), 0, &stun_sock->sock_fd);
if (status != PJ_SUCCESS)
goto on_error;
/* Apply QoS, if specified */
status = pj_sock_apply_qos2(stun_sock->sock_fd, cfg->qos_type,
&cfg->qos_params, 2, stun_sock->obj_name,
NULL);
if (status != PJ_SUCCESS && !cfg->qos_ignore_error)
goto on_error;
/* Bind socket */
if (pj_sockaddr_has_addr(&cfg->bound_addr)) {
status = pj_sock_bind(stun_sock->sock_fd, &cfg->bound_addr,
pj_sockaddr_get_len(&cfg->bound_addr));
} else {
pj_sockaddr bound_addr;
pj_sockaddr_init(af, &bound_addr, NULL, 0);
status = pj_sock_bind(stun_sock->sock_fd, &bound_addr,
pj_sockaddr_get_len(&bound_addr));
}
if (status != PJ_SUCCESS)
goto on_error;
/* Create more useful information string about this transport */
#if 0
{
pj_sockaddr bound_addr;
int addr_len = sizeof(bound_addr);
status = pj_sock_getsockname(stun_sock->sock_fd, &bound_addr,
&addr_len);
if (status != PJ_SUCCESS)
goto on_error;
stun_sock->info = pj_pool_alloc(pool, PJ_INET6_ADDRSTRLEN+10);
pj_sockaddr_print(&bound_addr, stun_sock->info,
PJ_INET6_ADDRSTRLEN, 3);
}
#endif
/* Init active socket configuration */
{
pj_activesock_cfg activesock_cfg;
pj_activesock_cb activesock_cb;
pj_activesock_cfg_default(&activesock_cfg);
activesock_cfg.async_cnt = cfg->async_cnt;
activesock_cfg.concurrency = 0;
/* Create the active socket */
pj_bzero(&activesock_cb, sizeof(activesock_cb));
activesock_cb.on_data_recvfrom = &on_data_recvfrom;
activesock_cb.on_data_sent = &on_data_sent;
status = pj_activesock_create(pool, stun_sock->sock_fd,
pj_SOCK_DGRAM(),
&activesock_cfg, stun_cfg->ioqueue,
&activesock_cb, stun_sock,
&stun_sock->active_sock);
if (status != PJ_SUCCESS)
goto on_error;
/* Start asynchronous read operations */
status = pj_activesock_start_recvfrom(stun_sock->active_sock, pool,
cfg->max_pkt_size, 0);
if (status != PJ_SUCCESS)
goto on_error;
/* Init send keys */
pj_ioqueue_op_key_init(&stun_sock->send_key,
sizeof(stun_sock->send_key));
pj_ioqueue_op_key_init(&stun_sock->int_send_key,
sizeof(stun_sock->int_send_key));
}
/* Create STUN session */
{
pj_stun_session_cb sess_cb;
pj_bzero(&sess_cb, sizeof(sess_cb));
sess_cb.on_request_complete = &sess_on_request_complete;
sess_cb.on_send_msg = &sess_on_send_msg;
status = pj_stun_session_create(&stun_sock->stun_cfg,
stun_sock->obj_name,
&sess_cb, PJ_FALSE,
&stun_sock->stun_sess);
if (status != PJ_SUCCESS)
goto on_error;
}
/* Associate us with the STUN session */
pj_stun_session_set_user_data(stun_sock->stun_sess, stun_sock);
/* Initialize random numbers to be used as STUN transaction ID for
* outgoing Binding request. We use the 80bit number to distinguish
* STUN messages we sent with STUN messages that the application sends.
* The last 16bit value in the array is a counter.
*/
for (i=0; i<PJ_ARRAY_SIZE(stun_sock->tsx_id); ++i) {
stun_sock->tsx_id[i] = (pj_uint16_t) pj_rand();
}
stun_sock->tsx_id[5] = 0;
/* Init timer entry */
stun_sock->ka_timer.cb = &ka_timer_cb;
stun_sock->ka_timer.user_data = stun_sock;
/* Done */
*p_stun_sock = stun_sock;
return PJ_SUCCESS;
on_error:
pj_stun_sock_destroy(stun_sock);
return status;
}
/*
* Create the STUN transport using the specified configuration.
*/
PJ_DEF(pj_status_t) pj_stun_sock_create( pj_stun_config *stun_cfg,
const char *name,
int af,
const pj_stun_sock_cb *cb,
const pj_stun_sock_cfg *cfg,
void *user_data,
pj_stun_sock **p_stun_sock)
{
pj_pool_t *pool;
pj_stun_sock *stun_sock;
pj_stun_sock_cfg default_cfg;
pj_sockaddr bound_addr;
unsigned i;
pj_uint16_t max_bind_retry;
pj_status_t status;
PJ_ASSERT_RETURN(stun_cfg && cb && p_stun_sock, PJ_EINVAL);
PJ_ASSERT_RETURN(af==pj_AF_INET()||af==pj_AF_INET6(), PJ_EAFNOTSUP);
PJ_ASSERT_RETURN(!cfg || pj_stun_sock_cfg_is_valid(cfg), PJ_EINVAL);
PJ_ASSERT_RETURN(cb->on_status, PJ_EINVAL);
status = pj_stun_config_check_valid(stun_cfg);
if (status != PJ_SUCCESS)
return status;
if (name == NULL)
name = "stuntp%p";
if (cfg == NULL) {
pj_stun_sock_cfg_default(&default_cfg);
cfg = &default_cfg;
}
/* Create structure */
pool = pj_pool_create(stun_cfg->pf, name, 256, 512, NULL);
stun_sock = PJ_POOL_ZALLOC_T(pool, pj_stun_sock);
stun_sock->pool = pool;
stun_sock->obj_name = pool->obj_name;
stun_sock->user_data = user_data;
stun_sock->af = af;
stun_sock->sock_fd = PJ_INVALID_SOCKET;
pj_memcpy(&stun_sock->stun_cfg, stun_cfg, sizeof(*stun_cfg));
pj_memcpy(&stun_sock->cb, cb, sizeof(*cb));
stun_sock->ka_interval = cfg->ka_interval;
stun_sock->timerstat = cfg->timerstat;
if (stun_sock->ka_interval == 0)
stun_sock->ka_interval = PJ_STUN_KEEP_ALIVE_SEC;
printf(": cfg->stunProtocol=%d\n", cfg->stunProtocol);
printf("%s", cfg->timerstat ? "SBR keepalive enabled\n": "SBR keepalive disabled\n");
if (cfg->grp_lock) {
stun_sock->grp_lock = cfg->grp_lock;
} else {
status = pj_grp_lock_create(pool, NULL, &stun_sock->grp_lock);
if (status != PJ_SUCCESS) {
pj_pool_release(pool);
return status;
}
}
pj_grp_lock_add_ref(stun_sock->grp_lock);
pj_grp_lock_add_handler(stun_sock->grp_lock, pool, stun_sock,
&stun_sock_destructor);
/* Create socket and bind socket */
// status = pj_sock_socket(af, pj_SOCK_DGRAM(), 0, &stun_sock->sock_fd);
if(cfg->stunProtocol == 1)
status = pj_sock_socket(af, PJ_SOCK_STREAM, 0, &stun_sock->sock_fd);
else
status = pj_sock_socket(af, pj_SOCK_DGRAM(), 0, &stun_sock->sock_fd);
if (status != PJ_SUCCESS)
goto on_error;
/* Apply QoS, if specified */
status = pj_sock_apply_qos2(stun_sock->sock_fd, cfg->qos_type,
&cfg->qos_params, 2, stun_sock->obj_name,
NULL);
if (status != PJ_SUCCESS && !cfg->qos_ignore_error)
goto on_error;
/* Apply socket buffer size */
if (cfg->so_rcvbuf_size > 0) {
unsigned sobuf_size = cfg->so_rcvbuf_size;
status = pj_sock_setsockopt_sobuf(stun_sock->sock_fd, pj_SO_RCVBUF(),
PJ_TRUE, &sobuf_size);
if (status != PJ_SUCCESS) {
pj_perror(3, stun_sock->obj_name, status,
"Failed setting SO_RCVBUF");
} else {
if (sobuf_size < cfg->so_rcvbuf_size) {
PJ_LOG(4, (stun_sock->obj_name,
"Warning! Cannot set SO_RCVBUF as configured, "
"now=%d, configured=%d",
sobuf_size, cfg->so_rcvbuf_size));
} else {
PJ_LOG(5, (stun_sock->obj_name, "SO_RCVBUF set to %d",
sobuf_size));
}
}
}
if (cfg->so_sndbuf_size > 0) {
unsigned sobuf_size = cfg->so_sndbuf_size;
status = pj_sock_setsockopt_sobuf(stun_sock->sock_fd, pj_SO_SNDBUF(),
PJ_TRUE, &sobuf_size);
if (status != PJ_SUCCESS) {
pj_perror(3, stun_sock->obj_name, status,
"Failed setting SO_SNDBUF");
} else {
if (sobuf_size < cfg->so_sndbuf_size) {
PJ_LOG(4, (stun_sock->obj_name,
"Warning! Cannot set SO_SNDBUF as configured, "
"now=%d, configured=%d",
sobuf_size, cfg->so_sndbuf_size));
} else {
PJ_LOG(5, (stun_sock->obj_name, "SO_SNDBUF set to %d",
sobuf_size));
}
}
}
#if 1
/* Bind socket */
max_bind_retry = MAX_BIND_RETRY;
if (cfg->port_range && cfg->port_range < max_bind_retry)
max_bind_retry = cfg->port_range;
pj_sockaddr_init(af, &bound_addr, NULL, 0);
if (cfg->bound_addr.addr.sa_family == pj_AF_INET() ||
cfg->bound_addr.addr.sa_family == pj_AF_INET6())
{
pj_sockaddr_cp(&bound_addr, &cfg->bound_addr);
}
status = pj_sock_bind_random(stun_sock->sock_fd, &bound_addr,
cfg->port_range, max_bind_retry);
if (status != PJ_SUCCESS)
goto on_error;
#endif
/* Create more useful information string about this transport */
#if 0
{
pj_sockaddr bound_addr;
int addr_len = sizeof(bound_addr);
status = pj_sock_getsockname(stun_sock->sock_fd, &bound_addr,
&addr_len);
if (status != PJ_SUCCESS)
goto on_error;
stun_sock->info = pj_pool_alloc(pool, PJ_INET6_ADDRSTRLEN+10);
pj_sockaddr_print(&bound_addr, stun_sock->info,
PJ_INET6_ADDRSTRLEN, 3);
}
#endif
/* Init active socket configuration */
{
pj_activesock_cfg activesock_cfg;
pj_activesock_cb activesock_cb;
pj_activesock_cfg_default(&activesock_cfg);
activesock_cfg.grp_lock = stun_sock->grp_lock;
activesock_cfg.async_cnt = cfg->async_cnt;
activesock_cfg.concurrency = 0;
/* Create the active socket */
pj_bzero(&activesock_cb, sizeof(activesock_cb));
activesock_cb.on_data_recvfrom = &on_data_recvfrom;
activesock_cb.on_data_sent = &on_data_sent;
if(cfg->stunProtocol == 1)
{
status = pj_activesock_create(pool, stun_sock->sock_fd,
PJ_SOCK_STREAM,
&activesock_cfg, stun_cfg->ioqueue,
&activesock_cb, stun_sock,
&stun_sock->active_sock);
}
else
{
status = pj_activesock_create(pool, stun_sock->sock_fd,
pj_SOCK_DGRAM(), //nish
&activesock_cfg, stun_cfg->ioqueue,
&activesock_cb, stun_sock,
&stun_sock->active_sock);
}
if (status != PJ_SUCCESS)
goto on_error;
if(cfg->stunProtocol == 1)
{
stun_sock->srv_addr.addr.sa_family = AF_INET;
stun_sock->srv_addr.ipv4.sin_port= pj_htons(cfg->sin_port);
stun_sock->srv_addr.ipv4.sin_addr = (cfg->sin_addr);
status=pj_activesock_start_connect(stun_sock->active_sock,
pool,
&(stun_sock->srv_addr),
pj_sockaddr_get_len(&(stun_sock->srv_addr)));
if (status == PJ_SUCCESS) {
printf("actie sock connect succesful");
}
}
/* Start asynchronous read operations */
status = pj_activesock_start_recvfrom(stun_sock->active_sock, pool,
cfg->max_pkt_size, 0);
if (status != PJ_SUCCESS)
goto on_error;
/* Init send keys */
pj_ioqueue_op_key_init(&stun_sock->send_key,
sizeof(stun_sock->send_key));
pj_ioqueue_op_key_init(&stun_sock->int_send_key,
sizeof(stun_sock->int_send_key));
}
/* Create STUN session */
{
pj_stun_session_cb sess_cb;
pj_bzero(&sess_cb, sizeof(sess_cb));
sess_cb.on_request_complete = &sess_on_request_complete;
sess_cb.on_send_msg = &sess_on_send_msg;
// stun_sock->stunProtocol = 1; //FIXME: cfg->stunProtocol;
// stun_sock->stunProtocol = 0; //FIXME: cfg->stunProtocol;
printf(" stun_sock->stunProtocol=%d\n", stun_sock->stunProtocol);
status = pj_stun_session_create(&stun_sock->stun_cfg,
stun_sock->obj_name,
&sess_cb, PJ_FALSE,
stun_sock->grp_lock,
&stun_sock->stun_sess);
if (status != PJ_SUCCESS)
goto on_error;
}
/* Associate us with the STUN session */
pj_stun_session_set_user_data(stun_sock->stun_sess, stun_sock);
/* Initialize random numbers to be used as STUN transaction ID for
* outgoing Binding request. We use the 80bit number to distinguish
* STUN messages we sent with STUN messages that the application sends.
* The last 16bit value in the array is a counter.
*/
for (i=0; i<PJ_ARRAY_SIZE(stun_sock->tsx_id); ++i) {
stun_sock->tsx_id[i] = (pj_uint16_t) pj_rand();
}
stun_sock->tsx_id[5] = 0;
/* Init timer entry */
stun_sock->ka_timer.cb = &ka_timer_cb;
stun_sock->ka_timer.user_data = stun_sock;
/* Done */
*p_stun_sock = stun_sock;
return PJ_SUCCESS;
on_error:
pj_stun_sock_destroy(stun_sock);
return status;
}
