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review.jami.net / jami-client-android / 0a329cc81236fdced3f78822c819d88dc9d667c0 / . / jni / pjproject-android / .svn / pristine / 79 / 79c25c6e6c2b7962b0994737fe3403a269bafa71.svn-base
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/* $Id$ */
/*
* Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com)
* Copyright (C) 2003-2008 Benny Prijono <benny@prijono.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <pjnath/turn_sock.h>
#include <pj/activesock.h>
#include <pj/assert.h>
#include <pj/errno.h>
#include <pj/lock.h>
#include <pj/log.h>
#include <pj/pool.h>
#include <pj/ioqueue.h>
enum
{
TIMER_NONE,
TIMER_DESTROY
};
enum { MAX_BIND_RETRY = 100 };
#define INIT 0x1FFFFFFF
struct pj_turn_sock
{
pj_pool_t *pool;
const char *obj_name;
pj_turn_session *sess;
pj_turn_sock_cb cb;
void *user_data;
pj_bool_t is_destroying;
pj_grp_lock_t *grp_lock;
pj_turn_alloc_param alloc_param;
pj_stun_config cfg;
pj_turn_sock_cfg setting;
pj_timer_entry timer;
int af;
pj_turn_tp_type conn_type;
pj_activesock_t *active_sock;
pj_ioqueue_op_key_t send_key;
};
/*
* Callback prototypes.
*/
static pj_status_t turn_on_send_pkt(pj_turn_session *sess,
const pj_uint8_t *pkt,
unsigned pkt_len,
const pj_sockaddr_t *dst_addr,
unsigned dst_addr_len);
static void turn_on_channel_bound(pj_turn_session *sess,
const pj_sockaddr_t *peer_addr,
unsigned addr_len,
unsigned ch_num);
static void turn_on_rx_data(pj_turn_session *sess,
void *pkt,
unsigned pkt_len,
const pj_sockaddr_t *peer_addr,
unsigned addr_len);
static void turn_on_state(pj_turn_session *sess,
pj_turn_state_t old_state,
pj_turn_state_t new_state);
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);
static pj_bool_t on_connect_complete(pj_activesock_t *asock,
pj_status_t status);
static void turn_sock_on_destroy(void *comp);
static void destroy(pj_turn_sock *turn_sock);
static void timer_cb(pj_timer_heap_t *th, pj_timer_entry *e);
/* Init config */
PJ_DEF(void) pj_turn_sock_cfg_default(pj_turn_sock_cfg *cfg)
{
pj_bzero(cfg, sizeof(*cfg));
cfg->max_pkt_size = PJ_TURN_MAX_PKT_LEN;
cfg->qos_type = PJ_QOS_TYPE_BEST_EFFORT;
cfg->qos_ignore_error = PJ_TRUE;
}
/*
* Create.
*/
PJ_DEF(pj_status_t) pj_turn_sock_create(pj_stun_config *cfg,
int af,
pj_turn_tp_type conn_type,
const pj_turn_sock_cb *cb,
const pj_turn_sock_cfg *setting,
void *user_data,
pj_turn_sock **p_turn_sock)
{
pj_turn_sock *turn_sock;
pj_turn_session_cb sess_cb;
pj_turn_sock_cfg default_setting;
pj_pool_t *pool;
const char *name_tmpl;
pj_status_t status;
PJ_ASSERT_RETURN(cfg && p_turn_sock, PJ_EINVAL);
PJ_ASSERT_RETURN(af==pj_AF_INET() || af==pj_AF_INET6(), PJ_EINVAL);
PJ_ASSERT_RETURN(conn_type!=PJ_TURN_TP_TCP || PJ_HAS_TCP, PJ_EINVAL);
if (!setting) {
pj_turn_sock_cfg_default(&default_setting);
setting = &default_setting;
}
switch (conn_type) {
case PJ_TURN_TP_UDP:
name_tmpl = "udprel%p";
break;
case PJ_TURN_TP_TCP:
name_tmpl = "tcprel%p";
break;
default:
PJ_ASSERT_RETURN(!"Invalid TURN conn_type", PJ_EINVAL);
name_tmpl = "tcprel%p";
break;
}
/* Create and init basic data structure */
pool = pj_pool_create(cfg->pf, name_tmpl, PJNATH_POOL_LEN_TURN_SOCK,
PJNATH_POOL_INC_TURN_SOCK, NULL);
turn_sock = PJ_POOL_ZALLOC_T(pool, pj_turn_sock);
turn_sock->pool = pool;
turn_sock->obj_name = pool->obj_name;
turn_sock->user_data = user_data;
turn_sock->af = af;
turn_sock->conn_type = conn_type;
/* Copy STUN config (this contains ioqueue, timer heap, etc.) */
pj_memcpy(&turn_sock->cfg, cfg, sizeof(*cfg));
/* Copy setting (QoS parameters etc */
pj_memcpy(&turn_sock->setting, setting, sizeof(*setting));
/* Set callback */
if (cb) {
pj_memcpy(&turn_sock->cb, cb, sizeof(*cb));
}
/* Session lock */
if (setting && setting->grp_lock) {
turn_sock->grp_lock = setting->grp_lock;
} else {
status = pj_grp_lock_create(pool, NULL, &turn_sock->grp_lock);
if (status != PJ_SUCCESS) {
pj_pool_release(pool);
return status;
}
}
pj_grp_lock_add_ref(turn_sock->grp_lock);
pj_grp_lock_add_handler(turn_sock->grp_lock, pool, turn_sock,
&turn_sock_on_destroy);
/* Init timer */
pj_timer_entry_init(&turn_sock->timer, TIMER_NONE, turn_sock, &timer_cb);
/* Init TURN session */
pj_bzero(&sess_cb, sizeof(sess_cb));
sess_cb.on_send_pkt = &turn_on_send_pkt;
sess_cb.on_channel_bound = &turn_on_channel_bound;
sess_cb.on_rx_data = &turn_on_rx_data;
sess_cb.on_state = &turn_on_state;
status = pj_turn_session_create(cfg, pool->obj_name, af, conn_type,
turn_sock->grp_lock, &sess_cb, 0,
turn_sock, &turn_sock->sess);
if (status != PJ_SUCCESS) {
destroy(turn_sock);
return status;
}
/* Note: socket and ioqueue will be created later once the TURN server
* has been resolved.
*/
*p_turn_sock = turn_sock;
return PJ_SUCCESS;
}
/*
* Destroy.
*/
static void turn_sock_on_destroy(void *comp)
{
pj_turn_sock *turn_sock = (pj_turn_sock*) comp;
if (turn_sock->pool) {
pj_pool_t *pool = turn_sock->pool;
PJ_LOG(4,(turn_sock->obj_name, "TURN socket destroyed"));
turn_sock->pool = NULL;
pj_pool_release(pool);
}
}
static void destroy(pj_turn_sock *turn_sock)
{
PJ_LOG(4,(turn_sock->obj_name, "TURN socket destroy request, ref_cnt=%d",
pj_grp_lock_get_ref(turn_sock->grp_lock)));
pj_grp_lock_acquire(turn_sock->grp_lock);
if (turn_sock->is_destroying) {
pj_grp_lock_release(turn_sock->grp_lock);
return;
}
turn_sock->is_destroying = PJ_TRUE;
if (turn_sock->sess)
pj_turn_session_shutdown(turn_sock->sess);
if (turn_sock->active_sock)
pj_activesock_close(turn_sock->active_sock);
pj_grp_lock_dec_ref(turn_sock->grp_lock);
pj_grp_lock_release(turn_sock->grp_lock);
}
PJ_DEF(void) pj_turn_sock_destroy(pj_turn_sock *turn_sock)
{
pj_grp_lock_acquire(turn_sock->grp_lock);
if (turn_sock->is_destroying) {
pj_grp_lock_release(turn_sock->grp_lock);
return;
}
if (turn_sock->sess) {
pj_turn_session_shutdown(turn_sock->sess);
/* This will ultimately call our state callback, and when
* session state is DESTROYING we will schedule a timer to
* destroy ourselves.
*/
} else {
destroy(turn_sock);
}
pj_grp_lock_release(turn_sock->grp_lock);
}
/* Timer callback */
static void timer_cb(pj_timer_heap_t *th, pj_timer_entry *e)
{
pj_turn_sock *turn_sock = (pj_turn_sock*)e->user_data;
int eid = e->id;
PJ_UNUSED_ARG(th);
e->id = TIMER_NONE;
switch (eid) {
case TIMER_DESTROY:
destroy(turn_sock);
break;
default:
pj_assert(!"Invalid timer id");
break;
}
}
/* Display error */
static void show_err(pj_turn_sock *turn_sock, const char *title,
pj_status_t status)
{
PJ_PERROR(4,(turn_sock->obj_name, status, title));
}
/* On error, terminate session */
static void sess_fail(pj_turn_sock *turn_sock, const char *title,
pj_status_t status)
{
show_err(turn_sock, title, status);
if (turn_sock->sess) {
pj_turn_session_destroy(turn_sock->sess, status);
}
}
/*
* Set user data.
*/
PJ_DEF(pj_status_t) pj_turn_sock_set_user_data( pj_turn_sock *turn_sock,
void *user_data)
{
PJ_ASSERT_RETURN(turn_sock, PJ_EINVAL);
turn_sock->user_data = user_data;
return PJ_SUCCESS;
}
/*
* Get user data.
*/
PJ_DEF(void*) pj_turn_sock_get_user_data(pj_turn_sock *turn_sock)
{
PJ_ASSERT_RETURN(turn_sock, NULL);
return turn_sock->user_data;
}
/**
* Get info.
*/
PJ_DEF(pj_status_t) pj_turn_sock_get_info(pj_turn_sock *turn_sock,
pj_turn_session_info *info)
{
PJ_ASSERT_RETURN(turn_sock && info, PJ_EINVAL);
if (turn_sock->sess) {
return pj_turn_session_get_info(turn_sock->sess, info);
} else {
pj_bzero(info, sizeof(*info));
info->state = PJ_TURN_STATE_NULL;
return PJ_SUCCESS;
}
}
/**
* Lock the TURN socket. Application may need to call this function to
* synchronize access to other objects to avoid deadlock.
*/
PJ_DEF(pj_status_t) pj_turn_sock_lock(pj_turn_sock *turn_sock)
{
return pj_grp_lock_acquire(turn_sock->grp_lock);
}
/**
* Unlock the TURN socket.
*/
PJ_DEF(pj_status_t) pj_turn_sock_unlock(pj_turn_sock *turn_sock)
{
return pj_grp_lock_release(turn_sock->grp_lock);
}
/*
* Set STUN message logging for this TURN session.
*/
PJ_DEF(void) pj_turn_sock_set_log( pj_turn_sock *turn_sock,
unsigned flags)
{
pj_turn_session_set_log(turn_sock->sess, flags);
}
/*
* Set software name
*/
PJ_DEF(pj_status_t) pj_turn_sock_set_software_name( pj_turn_sock *turn_sock,
const pj_str_t *sw)
{
return pj_turn_session_set_software_name(turn_sock->sess, sw);
}
/*
* 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);
pj_grp_lock_acquire(turn_sock->grp_lock);
/* 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);
pj_grp_lock_release(turn_sock->grp_lock);
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);
pj_grp_lock_release(turn_sock->grp_lock);
return status;
}
/* Done for now. The next work will be done when session state moved
* to RESOLVED state.
*/
pj_grp_lock_release(turn_sock->grp_lock);
return PJ_SUCCESS;
}
/*
* Install permission
*/
PJ_DEF(pj_status_t) pj_turn_sock_set_perm( pj_turn_sock *turn_sock,
unsigned addr_cnt,
const pj_sockaddr addr[],
unsigned options)
{
if (turn_sock->sess == NULL)
return PJ_EINVALIDOP;
return pj_turn_session_set_perm(turn_sock->sess, addr_cnt, addr, options);
}
/*
* Send packet.
*/
PJ_DEF(pj_status_t) pj_turn_sock_sendto( pj_turn_sock *turn_sock,
const pj_uint8_t *pkt,
unsigned pkt_len,
const pj_sockaddr_t *addr,
unsigned addr_len)
{
PJ_ASSERT_RETURN(turn_sock && addr && addr_len, PJ_EINVAL);
if (turn_sock->sess == NULL)
return PJ_EINVALIDOP;
return pj_turn_session_sendto(turn_sock->sess, pkt, pkt_len,
addr, addr_len);
}
/*
* Bind a peer address to a channel number.
*/
PJ_DEF(pj_status_t) pj_turn_sock_bind_channel( pj_turn_sock *turn_sock,
const pj_sockaddr_t *peer,
unsigned addr_len)
{
PJ_ASSERT_RETURN(turn_sock && peer && addr_len, PJ_EINVAL);
PJ_ASSERT_RETURN(turn_sock->sess != NULL, PJ_EINVALIDOP);
return pj_turn_session_bind_channel(turn_sock->sess, peer, addr_len);
}
/*
* 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;
pj_grp_lock_acquire(turn_sock->grp_lock);
/* 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);
pj_grp_lock_release(turn_sock->grp_lock);
return PJ_FALSE;
}
if (status != PJ_SUCCESS) {
sess_fail(turn_sock, "TCP connect() error", status);
pj_grp_lock_release(turn_sock->grp_lock);
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);
pj_grp_lock_release(turn_sock->grp_lock);
return PJ_FALSE;
}
pj_grp_lock_release(turn_sock->grp_lock);
return PJ_TRUE;
}
static pj_uint16_t GETVAL16H(const pj_uint8_t *buf, unsigned pos)
{
return (pj_uint16_t) ((buf[pos + 0] << 8) | \
(buf[pos + 1] << 0));
}
/* Quick check to determine if there is enough packet to process in the
* incoming buffer. Return the packet length, or zero if there's no packet.
*/
static unsigned has_packet(pj_turn_sock *turn_sock, const void *buf, pj_size_t bufsize)
{
pj_bool_t is_stun;
if (turn_sock->conn_type == PJ_TURN_TP_UDP)
return (unsigned)bufsize;
/* Quickly check if this is STUN message, by checking the first two bits and
* size field which must be multiple of 4 bytes
*/
is_stun = ((((pj_uint8_t*)buf)[0] & 0xC0) == 0) &&
((GETVAL16H((const pj_uint8_t*)buf, 2) & 0x03)==0);
if (is_stun) {
pj_size_t msg_len = GETVAL16H((const pj_uint8_t*)buf, 2);
return (unsigned)((msg_len+20 <= bufsize) ? msg_len+20 : 0);
} else {
/* This must be ChannelData. */
pj_turn_channel_data cd;
if (bufsize < 4)
return 0;
/* Decode ChannelData packet */
pj_memcpy(&cd, buf, sizeof(pj_turn_channel_data));
cd.length = pj_ntohs(cd.length);
if (bufsize >= cd.length+sizeof(cd))
return (cd.length+sizeof(cd)+3) & (~3);
else
return 0;
}
}
/*
* 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;
}
/*
* Callback from TURN session to send outgoing packet.
*/
static pj_status_t turn_on_send_pkt(pj_turn_session *sess,
const pj_uint8_t *pkt,
unsigned pkt_len,
const pj_sockaddr_t *dst_addr,
unsigned dst_addr_len)
{
pj_turn_sock *turn_sock = (pj_turn_sock*)
pj_turn_session_get_user_data(sess);
pj_ssize_t len = pkt_len;
pj_status_t status;
if (turn_sock == NULL || turn_sock->is_destroying) {
/* We've been destroyed */
// https://trac.pjsip.org/repos/ticket/1316
//pj_assert(!"We should shutdown gracefully");
return PJ_EINVALIDOP;
}
PJ_UNUSED_ARG(dst_addr);
PJ_UNUSED_ARG(dst_addr_len);
status = pj_activesock_send(turn_sock->active_sock, &turn_sock->send_key,
pkt, &len, 0);
if (status != PJ_SUCCESS && status != PJ_EPENDING) {
show_err(turn_sock, "socket send()", status);
}
return status;
}
/*
* Callback from TURN session when a channel is successfully bound.
*/
static void turn_on_channel_bound(pj_turn_session *sess,
const pj_sockaddr_t *peer_addr,
unsigned addr_len,
unsigned ch_num)
{
PJ_UNUSED_ARG(sess);
PJ_UNUSED_ARG(peer_addr);
PJ_UNUSED_ARG(addr_len);
PJ_UNUSED_ARG(ch_num);
}
/*
* Callback from TURN session upon incoming data.
*/
static void turn_on_rx_data(pj_turn_session *sess,
void *pkt,
unsigned pkt_len,
const pj_sockaddr_t *peer_addr,
unsigned addr_len)
{
pj_turn_sock *turn_sock = (pj_turn_sock*)
pj_turn_session_get_user_data(sess);
if (turn_sock == NULL || turn_sock->is_destroying) {
/* We've been destroyed */
return;
}
if (turn_sock->cb.on_rx_data) {
(*turn_sock->cb.on_rx_data)(turn_sock, pkt, pkt_len,
peer_addr, addr_len);
}
}
/*
* 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);
}
}