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review.jami.net / jami-client-android / c323b6b76c41cd924b920f215e8eb93a9d54663a / . / jni / pjproject-android / .svn / pristine / 2f / 2fecfb1ac6c53fcbe4df1600dc4303d9da4dc538.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 <pjmedia/transport_udp.h>
#include <pj/addr_resolv.h>
#include <pj/assert.h>
#include <pj/errno.h>
#include <pj/ioqueue.h>
#include <pj/log.h>
#include <pj/pool.h>
#include <pj/rand.h>
#include <pj/string.h>
/* Maximum size of incoming RTP packet */
#define RTP_LEN PJMEDIA_MAX_MRU
/* Maximum size of incoming RTCP packet */
#define RTCP_LEN 600
/* Maximum pending write operations */
#define MAX_PENDING 4
static const pj_str_t ID_RTP_AVP = { "RTP/AVP", 7 };
/* Pending write buffer */
typedef struct pending_write
{
char buffer[PJMEDIA_MAX_MTU];
pj_ioqueue_op_key_t op_key;
} pending_write;
struct transport_udp
{
pjmedia_transport base; /**< Base transport. */
pj_pool_t *pool; /**< Memory pool */
unsigned options; /**< Transport options. */
unsigned media_options; /**< Transport media options. */
void *user_data; /**< Only valid when attached */
pj_bool_t attached; /**< Has attachment? */
pj_sockaddr rem_rtp_addr; /**< Remote RTP address */
pj_sockaddr rem_rtcp_addr; /**< Remote RTCP address */
int addr_len; /**< Length of addresses. */
void (*rtp_cb)( void*, /**< To report incoming RTP. */
void*,
pj_ssize_t);
void (*rtcp_cb)( void*, /**< To report incoming RTCP. */
void*,
pj_ssize_t);
unsigned tx_drop_pct; /**< Percent of tx pkts to drop. */
unsigned rx_drop_pct; /**< Percent of rx pkts to drop. */
pj_sock_t rtp_sock; /**< RTP socket */
pj_sockaddr rtp_addr_name; /**< Published RTP address. */
pj_ioqueue_key_t *rtp_key; /**< RTP socket key in ioqueue */
pj_ioqueue_op_key_t rtp_read_op; /**< Pending read operation */
unsigned rtp_write_op_id;/**< Next write_op to use */
pending_write rtp_pending_write[MAX_PENDING]; /**< Pending write */
pj_sockaddr rtp_src_addr; /**< Actual packet src addr. */
unsigned rtp_src_cnt; /**< How many pkt from this addr. */
int rtp_addrlen; /**< Address length. */
char rtp_pkt[RTP_LEN];/**< Incoming RTP packet buffer */
pj_sock_t rtcp_sock; /**< RTCP socket */
pj_sockaddr rtcp_addr_name; /**< Published RTCP address. */
pj_sockaddr rtcp_src_addr; /**< Actual source RTCP address. */
unsigned rtcp_src_cnt; /**< How many pkt from this addr. */
int rtcp_addr_len; /**< Length of RTCP src address. */
pj_ioqueue_key_t *rtcp_key; /**< RTCP socket key in ioqueue */
pj_ioqueue_op_key_t rtcp_read_op; /**< Pending read operation */
pj_ioqueue_op_key_t rtcp_write_op; /**< Pending write operation */
char rtcp_pkt[RTCP_LEN];/**< Incoming RTCP packet buffer */
};
static void on_rx_rtp( pj_ioqueue_key_t *key,
pj_ioqueue_op_key_t *op_key,
pj_ssize_t bytes_read);
static void on_rx_rtcp(pj_ioqueue_key_t *key,
pj_ioqueue_op_key_t *op_key,
pj_ssize_t bytes_read);
/*
* These are media transport operations.
*/
static pj_status_t transport_get_info (pjmedia_transport *tp,
pjmedia_transport_info *info);
static pj_status_t transport_attach (pjmedia_transport *tp,
void *user_data,
const pj_sockaddr_t *rem_addr,
const pj_sockaddr_t *rem_rtcp,
unsigned addr_len,
void (*rtp_cb)(void*,
void*,
pj_ssize_t),
void (*rtcp_cb)(void*,
void*,
pj_ssize_t));
static void transport_detach (pjmedia_transport *tp,
void *strm);
static pj_status_t transport_send_rtp( pjmedia_transport *tp,
const void *pkt,
pj_size_t size);
static pj_status_t transport_send_rtcp(pjmedia_transport *tp,
const void *pkt,
pj_size_t size);
static pj_status_t transport_send_rtcp2(pjmedia_transport *tp,
const pj_sockaddr_t *addr,
unsigned addr_len,
const void *pkt,
pj_size_t size);
static pj_status_t transport_media_create(pjmedia_transport *tp,
pj_pool_t *pool,
unsigned options,
const pjmedia_sdp_session *sdp_remote,
unsigned media_index);
static pj_status_t transport_encode_sdp(pjmedia_transport *tp,
pj_pool_t *pool,
pjmedia_sdp_session *sdp_local,
const pjmedia_sdp_session *rem_sdp,
unsigned media_index);
static pj_status_t transport_media_start (pjmedia_transport *tp,
pj_pool_t *pool,
const pjmedia_sdp_session *sdp_local,
const pjmedia_sdp_session *sdp_remote,
unsigned media_index);
static pj_status_t transport_media_stop(pjmedia_transport *tp);
static pj_status_t transport_simulate_lost(pjmedia_transport *tp,
pjmedia_dir dir,
unsigned pct_lost);
static pj_status_t transport_destroy (pjmedia_transport *tp);
static pjmedia_transport_op transport_udp_op =
{
&transport_get_info,
&transport_attach,
&transport_detach,
&transport_send_rtp,
&transport_send_rtcp,
&transport_send_rtcp2,
&transport_media_create,
&transport_encode_sdp,
&transport_media_start,
&transport_media_stop,
&transport_simulate_lost,
&transport_destroy
};
/**
* Create UDP stream transport.
*/
PJ_DEF(pj_status_t) pjmedia_transport_udp_create( pjmedia_endpt *endpt,
const char *name,
int port,
unsigned options,
pjmedia_transport **p_tp)
{
return pjmedia_transport_udp_create2(endpt, name, NULL, port, options,
p_tp);
}
/**
* Create UDP stream transport.
*/
PJ_DEF(pj_status_t) pjmedia_transport_udp_create2(pjmedia_endpt *endpt,
const char *name,
const pj_str_t *addr,
int port,
unsigned options,
pjmedia_transport **p_tp)
{
return pjmedia_transport_udp_create3(endpt, pj_AF_INET(), name,
addr, port, options, p_tp);
}
/**
* Create UDP stream transport.
*/
PJ_DEF(pj_status_t) pjmedia_transport_udp_create3(pjmedia_endpt *endpt,
int af,
const char *name,
const pj_str_t *addr,
int port,
unsigned options,
pjmedia_transport **p_tp)
{
pjmedia_sock_info si;
pj_status_t status;
/* Sanity check */
PJ_ASSERT_RETURN(endpt && port && p_tp, PJ_EINVAL);
pj_bzero(&si, sizeof(pjmedia_sock_info));
si.rtp_sock = si.rtcp_sock = PJ_INVALID_SOCKET;
/* Create RTP socket */
status = pj_sock_socket(af, pj_SOCK_DGRAM(), 0, &si.rtp_sock);
if (status != PJ_SUCCESS)
goto on_error;
/* Bind RTP socket */
status = pj_sockaddr_init(af, &si.rtp_addr_name, addr, (pj_uint16_t)port);
if (status != PJ_SUCCESS)
goto on_error;
status = pj_sock_bind(si.rtp_sock, &si.rtp_addr_name,
pj_sockaddr_get_len(&si.rtp_addr_name));
if (status != PJ_SUCCESS)
goto on_error;
/* Create RTCP socket */
status = pj_sock_socket(af, pj_SOCK_DGRAM(), 0, &si.rtcp_sock);
if (status != PJ_SUCCESS)
goto on_error;
/* Bind RTCP socket */
status = pj_sockaddr_init(af, &si.rtcp_addr_name, addr,
(pj_uint16_t)(port+1));
if (status != PJ_SUCCESS)
goto on_error;
status = pj_sock_bind(si.rtcp_sock, &si.rtcp_addr_name,
pj_sockaddr_get_len(&si.rtcp_addr_name));
if (status != PJ_SUCCESS)
goto on_error;
/* Create UDP transport by attaching socket info */
return pjmedia_transport_udp_attach( endpt, name, &si, options, p_tp);
on_error:
if (si.rtp_sock != PJ_INVALID_SOCKET)
pj_sock_close(si.rtp_sock);
if (si.rtcp_sock != PJ_INVALID_SOCKET)
pj_sock_close(si.rtcp_sock);
return status;
}
/**
* Create UDP stream transport from existing socket info.
*/
PJ_DEF(pj_status_t) pjmedia_transport_udp_attach( pjmedia_endpt *endpt,
const char *name,
const pjmedia_sock_info *si,
unsigned options,
pjmedia_transport **p_tp)
{
struct transport_udp *tp;
pj_pool_t *pool;
pj_ioqueue_t *ioqueue;
pj_ioqueue_callback rtp_cb, rtcp_cb;
pj_ssize_t size;
unsigned i;
pj_status_t status;
/* Sanity check */
PJ_ASSERT_RETURN(endpt && si && p_tp, PJ_EINVAL);
/* Get ioqueue instance */
ioqueue = pjmedia_endpt_get_ioqueue(endpt);
if (name==NULL)
name = "udp%p";
/* Create transport structure */
pool = pjmedia_endpt_create_pool(endpt, name, 512, 512);
if (!pool)
return PJ_ENOMEM;
tp = PJ_POOL_ZALLOC_T(pool, struct transport_udp);
tp->pool = pool;
tp->options = options;
pj_memcpy(tp->base.name, pool->obj_name, PJ_MAX_OBJ_NAME);
tp->base.op = &transport_udp_op;
tp->base.type = PJMEDIA_TRANSPORT_TYPE_UDP;
/* Copy socket infos */
tp->rtp_sock = si->rtp_sock;
tp->rtp_addr_name = si->rtp_addr_name;
tp->rtcp_sock = si->rtcp_sock;
tp->rtcp_addr_name = si->rtcp_addr_name;
/* If address is 0.0.0.0, use host's IP address */
if (!pj_sockaddr_has_addr(&tp->rtp_addr_name)) {
pj_sockaddr hostip;
status = pj_gethostip(tp->rtp_addr_name.addr.sa_family, &hostip);
if (status != PJ_SUCCESS)
goto on_error;
pj_memcpy(pj_sockaddr_get_addr(&tp->rtp_addr_name),
pj_sockaddr_get_addr(&hostip),
pj_sockaddr_get_addr_len(&hostip));
}
/* Same with RTCP */
if (!pj_sockaddr_has_addr(&tp->rtcp_addr_name)) {
pj_memcpy(pj_sockaddr_get_addr(&tp->rtcp_addr_name),
pj_sockaddr_get_addr(&tp->rtp_addr_name),
pj_sockaddr_get_addr_len(&tp->rtp_addr_name));
}
/* Setup RTP socket with the ioqueue */
pj_bzero(&rtp_cb, sizeof(rtp_cb));
rtp_cb.on_read_complete = &on_rx_rtp;
status = pj_ioqueue_register_sock(pool, ioqueue, tp->rtp_sock, tp,
&rtp_cb, &tp->rtp_key);
if (status != PJ_SUCCESS)
goto on_error;
/* Disallow concurrency so that detach() and destroy() are
* synchronized with the callback.
*/
status = pj_ioqueue_set_concurrency(tp->rtp_key, PJ_FALSE);
if (status != PJ_SUCCESS)
goto on_error;
pj_ioqueue_op_key_init(&tp->rtp_read_op, sizeof(tp->rtp_read_op));
for (i=0; i<PJ_ARRAY_SIZE(tp->rtp_pending_write); ++i)
pj_ioqueue_op_key_init(&tp->rtp_pending_write[i].op_key,
sizeof(tp->rtp_pending_write[i].op_key));
/* Kick of pending RTP read from the ioqueue */
tp->rtp_addrlen = sizeof(tp->rtp_src_addr);
size = sizeof(tp->rtp_pkt);
status = pj_ioqueue_recvfrom(tp->rtp_key, &tp->rtp_read_op,
tp->rtp_pkt, &size, PJ_IOQUEUE_ALWAYS_ASYNC,
&tp->rtp_src_addr, &tp->rtp_addrlen);
if (status != PJ_EPENDING)
goto on_error;
/* Setup RTCP socket with ioqueue */
pj_bzero(&rtcp_cb, sizeof(rtcp_cb));
rtcp_cb.on_read_complete = &on_rx_rtcp;
status = pj_ioqueue_register_sock(pool, ioqueue, tp->rtcp_sock, tp,
&rtcp_cb, &tp->rtcp_key);
if (status != PJ_SUCCESS)
goto on_error;
status = pj_ioqueue_set_concurrency(tp->rtcp_key, PJ_FALSE);
if (status != PJ_SUCCESS)
goto on_error;
pj_ioqueue_op_key_init(&tp->rtcp_read_op, sizeof(tp->rtcp_read_op));
pj_ioqueue_op_key_init(&tp->rtcp_write_op, sizeof(tp->rtcp_write_op));
/* Kick of pending RTCP read from the ioqueue */
size = sizeof(tp->rtcp_pkt);
tp->rtcp_addr_len = sizeof(tp->rtcp_src_addr);
status = pj_ioqueue_recvfrom( tp->rtcp_key, &tp->rtcp_read_op,
tp->rtcp_pkt, &size, PJ_IOQUEUE_ALWAYS_ASYNC,
&tp->rtcp_src_addr, &tp->rtcp_addr_len);
if (status != PJ_EPENDING)
goto on_error;
/* Done */
*p_tp = &tp->base;
return PJ_SUCCESS;
on_error:
transport_destroy(&tp->base);
return status;
}
/**
* Close UDP transport.
*/
static pj_status_t transport_destroy(pjmedia_transport *tp)
{
struct transport_udp *udp = (struct transport_udp*) tp;
/* Sanity check */
PJ_ASSERT_RETURN(tp, PJ_EINVAL);
/* Must not close while application is using this */
//PJ_ASSERT_RETURN(!udp->attached, PJ_EINVALIDOP);
if (udp->rtp_key) {
/* This will block the execution if callback is still
* being called.
*/
pj_ioqueue_unregister(udp->rtp_key);
udp->rtp_key = NULL;
udp->rtp_sock = PJ_INVALID_SOCKET;
} else if (udp->rtp_sock != PJ_INVALID_SOCKET) {
pj_sock_close(udp->rtp_sock);
udp->rtp_sock = PJ_INVALID_SOCKET;
}
if (udp->rtcp_key) {
pj_ioqueue_unregister(udp->rtcp_key);
udp->rtcp_key = NULL;
udp->rtcp_sock = PJ_INVALID_SOCKET;
} else if (udp->rtcp_sock != PJ_INVALID_SOCKET) {
pj_sock_close(udp->rtcp_sock);
udp->rtcp_sock = PJ_INVALID_SOCKET;
}
pj_pool_release(udp->pool);
return PJ_SUCCESS;
}
/* Notification from ioqueue about incoming RTP packet */
static void on_rx_rtp( pj_ioqueue_key_t *key,
pj_ioqueue_op_key_t *op_key,
pj_ssize_t bytes_read)
{
struct transport_udp *udp;
pj_status_t status;
PJ_UNUSED_ARG(op_key);
udp = (struct transport_udp*) pj_ioqueue_get_user_data(key);
do {
void (*cb)(void*,void*,pj_ssize_t);
void *user_data;
pj_bool_t discard = PJ_FALSE;
cb = udp->rtp_cb;
user_data = udp->user_data;
/* Simulate packet lost on RX direction */
if (udp->rx_drop_pct) {
if ((pj_rand() % 100) <= (int)udp->rx_drop_pct) {
PJ_LOG(5,(udp->base.name,
"RX RTP packet dropped because of pkt lost "
"simulation"));
discard = PJ_TRUE;
}
}
/* See if source address of RTP packet is different than the
* configured address, and switch RTP remote address to
* source packet address after several consecutive packets
* have been received.
*/
if (bytes_read>0 &&
(udp->options & PJMEDIA_UDP_NO_SRC_ADDR_CHECKING)==0)
{
if (pj_sockaddr_cmp(&udp->rem_rtp_addr, &udp->rtp_src_addr) == 0) {
/* We're still receiving from rem_rtp_addr. Don't switch. */
udp->rtp_src_cnt = 0;
} else {
udp->rtp_src_cnt++;
if (udp->rtp_src_cnt < PJMEDIA_RTP_NAT_PROBATION_CNT) {
discard = PJ_TRUE;
} else {
char addr_text[80];
/* Set remote RTP address to source address */
pj_memcpy(&udp->rem_rtp_addr, &udp->rtp_src_addr,
sizeof(pj_sockaddr));
/* Reset counter */
udp->rtp_src_cnt = 0;
PJ_LOG(4,(udp->base.name,
"Remote RTP address switched to %s",
pj_sockaddr_print(&udp->rtp_src_addr, addr_text,
sizeof(addr_text), 3)));
/* Also update remote RTCP address if actual RTCP source
* address is not heard yet.
*/
if (!pj_sockaddr_has_addr(&udp->rtcp_src_addr)) {
pj_uint16_t port;
pj_memcpy(&udp->rem_rtcp_addr, &udp->rem_rtp_addr,
sizeof(pj_sockaddr));
pj_sockaddr_copy_addr(&udp->rem_rtcp_addr,
&udp->rem_rtp_addr);
port = (pj_uint16_t)
(pj_sockaddr_get_port(&udp->rem_rtp_addr)+1);
pj_sockaddr_set_port(&udp->rem_rtcp_addr, port);
pj_memcpy(&udp->rtcp_src_addr, &udp->rem_rtcp_addr,
sizeof(pj_sockaddr));
PJ_LOG(4,(udp->base.name,
"Remote RTCP address switched to predicted"
" address %s",
pj_sockaddr_print(&udp->rtcp_src_addr,
addr_text,
sizeof(addr_text), 3)));
}
}
}
}
if (!discard && udp->attached && cb)
(*cb)(user_data, udp->rtp_pkt, bytes_read);
bytes_read = sizeof(udp->rtp_pkt);
udp->rtp_addrlen = sizeof(udp->rtp_src_addr);
status = pj_ioqueue_recvfrom(udp->rtp_key, &udp->rtp_read_op,
udp->rtp_pkt, &bytes_read, 0,
&udp->rtp_src_addr,
&udp->rtp_addrlen);
if (status != PJ_EPENDING && status != PJ_SUCCESS)
bytes_read = -status;
} while (status != PJ_EPENDING && status != PJ_ECANCELLED);
}
/* Notification from ioqueue about incoming RTCP packet */
static void on_rx_rtcp(pj_ioqueue_key_t *key,
pj_ioqueue_op_key_t *op_key,
pj_ssize_t bytes_read)
{
struct transport_udp *udp;
pj_status_t status;
PJ_UNUSED_ARG(op_key);
udp = (struct transport_udp*) pj_ioqueue_get_user_data(key);
do {
void (*cb)(void*,void*,pj_ssize_t);
void *user_data;
cb = udp->rtcp_cb;
user_data = udp->user_data;
if (udp->attached && cb)
(*cb)(user_data, udp->rtcp_pkt, bytes_read);
/* Check if RTCP source address is the same as the configured
* remote address, and switch the address when they are
* different.
*/
if (bytes_read>0 &&
(udp->options & PJMEDIA_UDP_NO_SRC_ADDR_CHECKING)==0)
{
if (pj_sockaddr_cmp(&udp->rem_rtcp_addr, &udp->rtcp_src_addr) == 0) {
/* Still receiving from rem_rtcp_addr, don't switch */
udp->rtcp_src_cnt = 0;
} else {
++udp->rtcp_src_cnt;
if (udp->rtcp_src_cnt >= PJMEDIA_RTCP_NAT_PROBATION_CNT ) {
char addr_text[80];
udp->rtcp_src_cnt = 0;
pj_memcpy(&udp->rem_rtcp_addr, &udp->rtcp_src_addr,
sizeof(pj_sockaddr));
PJ_LOG(4,(udp->base.name,
"Remote RTCP address switched to %s",
pj_sockaddr_print(&udp->rtcp_src_addr, addr_text,
sizeof(addr_text), 3)));
}
}
}
bytes_read = sizeof(udp->rtcp_pkt);
udp->rtcp_addr_len = sizeof(udp->rtcp_src_addr);
status = pj_ioqueue_recvfrom(udp->rtcp_key, &udp->rtcp_read_op,
udp->rtcp_pkt, &bytes_read, 0,
&udp->rtcp_src_addr,
&udp->rtcp_addr_len);
if (status != PJ_EPENDING && status != PJ_SUCCESS)
bytes_read = -status;
} while (status != PJ_EPENDING && status != PJ_ECANCELLED);
}
/* Called to get the transport info */
static pj_status_t transport_get_info(pjmedia_transport *tp,
pjmedia_transport_info *info)
{
struct transport_udp *udp = (struct transport_udp*)tp;
PJ_ASSERT_RETURN(tp && info, PJ_EINVAL);
info->sock_info.rtp_sock = udp->rtp_sock;
info->sock_info.rtp_addr_name = udp->rtp_addr_name;
info->sock_info.rtcp_sock = udp->rtcp_sock;
info->sock_info.rtcp_addr_name = udp->rtcp_addr_name;
/* Get remote address originating RTP & RTCP. */
info->src_rtp_name = udp->rtp_src_addr;
info->src_rtcp_name = udp->rtcp_src_addr;
return PJ_SUCCESS;
}
/* Called by application to initialize the transport */
static pj_status_t transport_attach( pjmedia_transport *tp,
void *user_data,
const pj_sockaddr_t *rem_addr,
const pj_sockaddr_t *rem_rtcp,
unsigned addr_len,
void (*rtp_cb)(void*,
void*,
pj_ssize_t),
void (*rtcp_cb)(void*,
void*,
pj_ssize_t))
{
struct transport_udp *udp = (struct transport_udp*) tp;
const pj_sockaddr *rtcp_addr;
/* Validate arguments */
PJ_ASSERT_RETURN(tp && rem_addr && addr_len, PJ_EINVAL);
/* Must not be "attached" to existing application */
PJ_ASSERT_RETURN(!udp->attached, PJ_EINVALIDOP);
/* Lock the ioqueue keys to make sure that callbacks are
* not executed. See ticket #844 for details.
*/
pj_ioqueue_lock_key(udp->rtp_key);
pj_ioqueue_lock_key(udp->rtcp_key);
/* "Attach" the application: */
/* Copy remote RTP address */
pj_memcpy(&udp->rem_rtp_addr, rem_addr, addr_len);
/* Copy remote RTP address, if one is specified. */
rtcp_addr = (const pj_sockaddr*) rem_rtcp;
if (rtcp_addr && pj_sockaddr_has_addr(rtcp_addr)) {
pj_memcpy(&udp->rem_rtcp_addr, rem_rtcp, addr_len);
} else {
unsigned rtcp_port;
/* Otherwise guess the RTCP address from the RTP address */
pj_memcpy(&udp->rem_rtcp_addr, rem_addr, addr_len);
rtcp_port = pj_sockaddr_get_port(&udp->rem_rtp_addr) + 1;
pj_sockaddr_set_port(&udp->rem_rtcp_addr, (pj_uint16_t)rtcp_port);
}
/* Save the callbacks */
udp->rtp_cb = rtp_cb;
udp->rtcp_cb = rtcp_cb;
udp->user_data = user_data;
/* Save address length */
udp->addr_len = addr_len;
/* Last, mark transport as attached */
udp->attached = PJ_TRUE;
/* Reset source RTP & RTCP addresses and counter */
pj_bzero(&udp->rtp_src_addr, sizeof(udp->rtp_src_addr));
pj_bzero(&udp->rtcp_src_addr, sizeof(udp->rtcp_src_addr));
udp->rtp_src_cnt = 0;
udp->rtcp_src_cnt = 0;
/* Set buffer size for RTP socket */
#if PJMEDIA_TRANSPORT_SO_RCVBUF_SIZE
{
unsigned sobuf_size = PJMEDIA_TRANSPORT_SO_RCVBUF_SIZE;
pj_status_t status;
status = pj_sock_setsockopt_sobuf(udp->rtp_sock, pj_SO_RCVBUF(),
PJ_TRUE, &sobuf_size);
if (status != PJ_SUCCESS) {
pj_perror(3, tp->name, status, "Failed setting SO_RCVBUF");
} else {
if (sobuf_size < PJMEDIA_TRANSPORT_SO_RCVBUF_SIZE) {
PJ_LOG(4, (tp->name,
"Warning! Cannot set SO_RCVBUF as configured, "
"now=%d, configured=%d",
sobuf_size, PJMEDIA_TRANSPORT_SO_RCVBUF_SIZE));
} else {
PJ_LOG(5, (tp->name, "SO_RCVBUF set to %d", sobuf_size));
}
}
}
#endif
#if PJMEDIA_TRANSPORT_SO_SNDBUF_SIZE
{
unsigned sobuf_size = PJMEDIA_TRANSPORT_SO_SNDBUF_SIZE;
pj_status_t status;
status = pj_sock_setsockopt_sobuf(udp->rtp_sock, pj_SO_SNDBUF(),
PJ_TRUE, &sobuf_size);
if (status != PJ_SUCCESS) {
pj_perror(3, tp->name, status, "Failed setting SO_SNDBUF");
} else {
if (sobuf_size < PJMEDIA_TRANSPORT_SO_SNDBUF_SIZE) {
PJ_LOG(4, (tp->name,
"Warning! Cannot set SO_SNDBUF as configured, "
"now=%d, configured=%d",
sobuf_size, PJMEDIA_TRANSPORT_SO_SNDBUF_SIZE));
} else {
PJ_LOG(5, (tp->name, "SO_SNDBUF set to %d", sobuf_size));
}
}
}
#endif
/* Unlock keys */
pj_ioqueue_unlock_key(udp->rtcp_key);
pj_ioqueue_unlock_key(udp->rtp_key);
return PJ_SUCCESS;
}
/* Called by application when it no longer needs the transport */
static void transport_detach( pjmedia_transport *tp,
void *user_data)
{
struct transport_udp *udp = (struct transport_udp*) tp;
pj_assert(tp);
if (udp->attached) {
/* Lock the ioqueue keys to make sure that callbacks are
* not executed. See ticket #460 for details.
*/
pj_ioqueue_lock_key(udp->rtp_key);
pj_ioqueue_lock_key(udp->rtcp_key);
/* User data is unreferenced on Release build */
PJ_UNUSED_ARG(user_data);
/* As additional checking, check if the same user data is specified */
pj_assert(user_data == udp->user_data);
/* First, mark transport as unattached */
udp->attached = PJ_FALSE;
/* Clear up application infos from transport */
udp->rtp_cb = NULL;
udp->rtcp_cb = NULL;
udp->user_data = NULL;
/* Unlock keys */
pj_ioqueue_unlock_key(udp->rtcp_key);
pj_ioqueue_unlock_key(udp->rtp_key);
}
}
/* Called by application to send RTP packet */
static pj_status_t transport_send_rtp( pjmedia_transport *tp,
const void *pkt,
pj_size_t size)
{
struct transport_udp *udp = (struct transport_udp*)tp;
pj_ssize_t sent;
unsigned id;
struct pending_write *pw;
pj_status_t status;
/* Must be attached */
PJ_ASSERT_RETURN(udp->attached, PJ_EINVALIDOP);
/* Check that the size is supported */
PJ_ASSERT_RETURN(size <= PJMEDIA_MAX_MTU, PJ_ETOOBIG);
/* Simulate packet lost on TX direction */
if (udp->tx_drop_pct) {
if ((pj_rand() % 100) <= (int)udp->tx_drop_pct) {
PJ_LOG(5,(udp->base.name,
"TX RTP packet dropped because of pkt lost "
"simulation"));
return PJ_SUCCESS;
}
}
id = udp->rtp_write_op_id;
pw = &udp->rtp_pending_write[id];
/* We need to copy packet to our buffer because when the
* operation is pending, caller might write something else
* to the original buffer.
*/
pj_memcpy(pw->buffer, pkt, size);
sent = size;
status = pj_ioqueue_sendto( udp->rtp_key,
&udp->rtp_pending_write[id].op_key,
pw->buffer, &sent, 0,
&udp->rem_rtp_addr,
udp->addr_len);
udp->rtp_write_op_id = (udp->rtp_write_op_id + 1) %
PJ_ARRAY_SIZE(udp->rtp_pending_write);
if (status==PJ_SUCCESS || status==PJ_EPENDING)
return PJ_SUCCESS;
return status;
}
/* Called by application to send RTCP packet */
static pj_status_t transport_send_rtcp(pjmedia_transport *tp,
const void *pkt,
pj_size_t size)
{
return transport_send_rtcp2(tp, NULL, 0, pkt, size);
}
/* Called by application to send RTCP packet */
static pj_status_t transport_send_rtcp2(pjmedia_transport *tp,
const pj_sockaddr_t *addr,
unsigned addr_len,
const void *pkt,
pj_size_t size)
{
struct transport_udp *udp = (struct transport_udp*)tp;
pj_ssize_t sent;
pj_status_t status;
PJ_ASSERT_RETURN(udp->attached, PJ_EINVALIDOP);
if (addr == NULL) {
addr = &udp->rem_rtcp_addr;
addr_len = udp->addr_len;
}
sent = size;
status = pj_ioqueue_sendto( udp->rtcp_key, &udp->rtcp_write_op,
pkt, &sent, 0, addr, addr_len);
if (status==PJ_SUCCESS || status==PJ_EPENDING)
return PJ_SUCCESS;
return status;
}
static pj_status_t transport_media_create(pjmedia_transport *tp,
pj_pool_t *pool,
unsigned options,
const pjmedia_sdp_session *sdp_remote,
unsigned media_index)
{
struct transport_udp *udp = (struct transport_udp*)tp;
PJ_ASSERT_RETURN(tp && pool, PJ_EINVAL);
udp->media_options = options;
PJ_UNUSED_ARG(sdp_remote);
PJ_UNUSED_ARG(media_index);
return PJ_SUCCESS;
}
static pj_status_t transport_encode_sdp(pjmedia_transport *tp,
pj_pool_t *pool,
pjmedia_sdp_session *sdp_local,
const pjmedia_sdp_session *rem_sdp,
unsigned media_index)
{
struct transport_udp *udp = (struct transport_udp*)tp;
/* Validate media transport */
/* By now, this transport only support RTP/AVP transport */
if ((udp->media_options & PJMEDIA_TPMED_NO_TRANSPORT_CHECKING) == 0) {
pjmedia_sdp_media *m_rem, *m_loc;
m_rem = rem_sdp? rem_sdp->media[media_index] : NULL;
m_loc = sdp_local->media[media_index];
if (pj_stricmp(&m_loc->desc.transport, &ID_RTP_AVP) ||
(m_rem && pj_stricmp(&m_rem->desc.transport, &ID_RTP_AVP)))
{
pjmedia_sdp_media_deactivate(pool, m_loc);
return PJMEDIA_SDP_EINPROTO;
}
}
return PJ_SUCCESS;
}
static pj_status_t transport_media_start(pjmedia_transport *tp,
pj_pool_t *pool,
const pjmedia_sdp_session *sdp_local,
const pjmedia_sdp_session *sdp_remote,
unsigned media_index)
{
PJ_ASSERT_RETURN(tp && pool && sdp_local, PJ_EINVAL);
PJ_UNUSED_ARG(tp);
PJ_UNUSED_ARG(pool);
PJ_UNUSED_ARG(sdp_local);
PJ_UNUSED_ARG(sdp_remote);
PJ_UNUSED_ARG(media_index);
return PJ_SUCCESS;
}
static pj_status_t transport_media_stop(pjmedia_transport *tp)
{
PJ_UNUSED_ARG(tp);
return PJ_SUCCESS;
}
static pj_status_t transport_simulate_lost(pjmedia_transport *tp,
pjmedia_dir dir,
unsigned pct_lost)
{
struct transport_udp *udp = (struct transport_udp*)tp;
PJ_ASSERT_RETURN(tp && pct_lost <= 100, PJ_EINVAL);
if (dir & PJMEDIA_DIR_ENCODING)
udp->tx_drop_pct = pct_lost;
if (dir & PJMEDIA_DIR_DECODING)
udp->rx_drop_pct = pct_lost;
return PJ_SUCCESS;
}