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osmo-sip-connector
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forward SDP between SIP and MNCC 

We have added support for sending SDP via MNCC a long time ago, but so
far the SDP section remained empty. Now, implement actually forwarding
SDP codec information between SIP and MNCC.

The aim is to let the MSC know about all codec choices the remote SIP
call leg has to offer, so that finding a codec match between local and
remote call leg becomes possible.

Store any SDP info contained in incoming SIP and MNCC messages, and send
the stored SDP to the other call leg in all outgoing SIP and MNCC
messages.

In sdp_create_file(), we used to compose fixed SDP -- instead, take the
other call leg's SDP as-is, only make sure to modify the mode (e.g.
"a=sendrecv") to reflect the current call hold state.

The RTP address and codec info in the MNCC structures is now essentially
a redundant / possibly less accurate copy of the SDP info, but leave all
of that as-is, for backwards compat.

There is codec checking that may reject unexpected codecs. The
overall/future aim is to leave all codec checking up to the MSC, but so
far just leave current behaviour unchanged, until we notice problems.

Related: SYS#5066
Change-Id: I3df5d06f38ee2d122706a9ebffde7db4f2bd6bae
This commit is contained in:
Neels Hofmeyr 2019-08-15 06:12:54 +02:00 committed by Neels Hofmeyr
parent 95312c53c2
commit 74124a8172
6 changed files with 116 additions and 54 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

9
src/call.c
View File

@ -172,3 +172,12 @@ const char *call_leg_state(struct call_leg *leg)
return "Unknown call type";
}
}
void call_leg_update_sdp(struct call_leg *leg, const char *sdp)
{
/* If no SDP was received, keep whatever SDP was previously seen. */
if (!sdp || !*sdp || !strncmp(leg->sdp, sdp, sizeof(leg->sdp)))
return;
OSMO_STRLCPY_ARRAY(leg->sdp, sdp);
LOGP(DAPP, LOGL_DEBUG, "call(%u) leg(0x%p) received new SDP\n", leg->call->id, leg);
}

2
src/call.h
View File

@ -167,6 +167,8 @@ void calls_init(void);
struct call_leg *call_leg_other(struct call_leg *leg);
void call_leg_update_sdp(struct call_leg *cl, const char *sdp);
void call_leg_release(struct call_leg *leg);

26
src/mncc.c
View File

@ -195,6 +195,8 @@ static bool send_rtp_connect(struct mncc_call_leg *leg, struct call_leg *other)
mncc.callref = leg->callref;
mncc.addr = other->addr;
mncc.payload_type = other->payload_type;
OSMO_STRLCPY_ARRAY(mncc.sdp, other->sdp);
/*
* FIXME: mncc.payload_msg_type should already be compatible.. but
* payload_type should be different..
@ -408,6 +410,8 @@ static void check_rtp_connect(struct mncc_connection *conn, const char *buf, int
return;
}
call_leg_update_sdp(&leg->base, rtp->sdp);
/* extract information about where the RTP is */
if (rtp->addr.ss_family != AF_UNSPEC ||
osmo_sockaddr_port((const struct sockaddr *)&rtp->addr) != 0 ||
@ -446,6 +450,7 @@ static void check_rtp_create(struct mncc_connection *conn, const char *buf, int
leg->base.addr = rtp->addr;
leg->base.payload_type = rtp->payload_type;
leg->base.payload_msg_type = rtp->payload_msg_type;
call_leg_update_sdp(&leg->base, rtp->sdp);
/* TODO.. now we can continue with the call */
LOGP(DMNCC, LOGL_INFO,
@ -557,6 +562,7 @@ static void check_setup(struct mncc_connection *conn, const char *buf, int rc)
memcpy(&leg->called, called, sizeof(leg->called));
memcpy(&leg->calling, &data->calling, sizeof(leg->calling));
memcpy(&leg->imsi, data->imsi, sizeof(leg->imsi));
call_leg_update_sdp(&leg->base, data->sdp);
if (data->fields & MNCC_F_GCR) {
leg->base.call->gcr_present = true;
@ -672,6 +678,8 @@ static void check_stp_cmpl_ind(struct mncc_connection *conn, const char *buf, in
if (!leg)
return;
call_leg_update_sdp(&leg->base, data->sdp);
LOGP(DMNCC, LOGL_INFO, "leg(%u) is now connected.\n", leg->callref);
stop_cmd_timer(leg, MNCC_SETUP_COMPL_IND);
leg->state = MNCC_CC_CONNECTED;
@ -706,6 +714,8 @@ static void check_cnf_ind(struct mncc_connection *conn, const char *buf, int rc)
if (!leg)
return;
call_leg_update_sdp(&leg->base, data->sdp);
LOGP(DMNCC, LOGL_DEBUG,
"leg(%u) confirmed. creating RTP socket.\n",
leg->callref);
@ -724,6 +734,8 @@ static void check_alrt_ind(struct mncc_connection *conn, const char *buf, int rc
if (!leg)
return;
call_leg_update_sdp(&leg->base, data->sdp);
LOGP(DMNCC, LOGL_DEBUG,
"leg(%u) is alerting.\n", leg->callref);
@ -802,6 +814,8 @@ static void check_stp_cnf(struct mncc_connection *conn, const char *buf, int rc)
if (!leg)
return;
call_leg_update_sdp(&leg->base, data->sdp);
LOGP(DMNCC, LOGL_DEBUG, "leg(%u) setup completed\n", leg->callref);
other_leg = call_leg_other(&leg->base);
@ -831,6 +845,8 @@ static void check_dtmf_start(struct mncc_connection *conn, const char *buf, int
if (!leg)
return;
call_leg_update_sdp(&leg->base, data->sdp);
LOGP(DMNCC, LOGL_DEBUG, "leg(%u) DTMF key=%c\n", leg->callref, data->keypad);
other_leg = call_leg_other(&leg->base);
@ -853,6 +869,8 @@ static void check_dtmf_stop(struct mncc_connection *conn, const char *buf, int r
if (!leg)
return;
call_leg_update_sdp(&leg->base, data->sdp);
LOGP(DMNCC, LOGL_DEBUG, "leg(%u) DTMF key=%c\n", leg->callref, data->keypad);
mncc_fill_header(&out_mncc, MNCC_STOP_DTMF_RSP, leg->callref);
@ -945,11 +963,15 @@ int mncc_create_remote_leg(struct mncc_connection *conn, struct call *call)
msgb_free(msg);
}
/* The call->initial leg is a SIP call leg that starts an MT call. There was SDP received in the SIP INVITE that
* started this call. This here will be the call->remote, always forwarding the SDP that came in on
* call->initial. */
if (call->initial)
OSMO_STRLCPY_ARRAY(mncc.sdp, call->initial->sdp);
/*
* TODO/FIXME:
* - Determine/request channel based on offered audio codecs
* - Screening, redirect?
* - Synth. the bearer caps based on codecs?
*/
rc = mncc_write(conn, &mncc);
if (rc != sizeof(mncc)) {

100
src/sdp.c
View File

@ -191,7 +191,9 @@ bool sdp_extract_sdp(struct sip_call_leg *leg, const sip_t *sip, bool any_codec)
continue;
for (map = media->m_rtpmaps; map; map = map->rm_next) {
if (!any_codec && strcasecmp(map->rm_encoding, leg->wanted_codec) != 0)
if (!any_codec
&& leg->wanted_codec
&& strcasecmp(map->rm_encoding, leg->wanted_codec) != 0)
continue;
port = media->m_port;
@ -226,55 +228,59 @@ bool sdp_extract_sdp(struct sip_call_leg *leg, const sip_t *sip, bool any_codec)
return true;
}
/* One leg has sent a SIP or MNCC message, which is now translated/forwarded to the counterpart MNCC or SIP.
* Take as much from the source's SDP as possible, but make sure the connection mode reflects the 'mode' arg (sendrecv,
* recvonly, sendonly, inactive).
* For example, if the MSC sent an MNCC_SETUP_IND, the SDP from the MNCC is found in 'other', while 'leg' reflects the
* SIP side that should receive this SDP in the SIP Invite that is being composed by the caller of this function.
* \param leg The target for which the returned SDP is intended.
* \param other The source of which we are to reflect the SDP.
* \return SDP string, using 'leg' as talloc ctx.
*/
char *sdp_create_file(struct sip_call_leg *leg, struct call_leg *other, sdp_mode_t mode)
{
char *fmtp_str = NULL, *sdp;
char *mode_attribute;
char ip_addr[INET6_ADDRSTRLEN];
char ipv;
sdp_parser_t *parser;
sdp_session_t *sdp;
sdp_media_t *media;
const char *sdp_data;
sdp_printer_t *printer;
char buf[1024];
const char *sdp_str;
char *ret;
osmo_sockaddr_ntop((const struct sockaddr*)&other->addr, ip_addr);
ipv = other->addr.ss_family == AF_INET6 ? '6' : '4';
leg->wanted_codec = app_media_name(other->payload_msg_type);
if (strcmp(leg->wanted_codec, "AMR") == 0)
fmtp_str = talloc_asprintf(leg, "a=fmtp:%d octet-align=1\r\n", other->payload_type);
switch (mode) {
case sdp_inactive:
mode_attribute = "a=inactive\r\n";
break;
case sdp_sendrecv:
mode_attribute = "a=sendrecv\r\n";
break;
case sdp_sendonly:
mode_attribute = "a=sendonly\r\n";
break;
case sdp_recvonly:
mode_attribute = "a=recvonly\r\n";
break;
default:
OSMO_ASSERT(false);
break;
sdp_data = other->sdp;
parser = sdp_parse(NULL, sdp_data, strlen(sdp_data), 0);
if (!parser) {
LOGP(DSIP, LOGL_ERROR, "leg(%p) failed to parse SDP\n", other);
return talloc_strdup(leg, sdp_data);
}
sdp = talloc_asprintf(leg,
"v=0\r\n"
"o=Osmocom 0 0 IN IP%c %s\r\n"
"s=GSM Call\r\n"
"c=IN IP%c %s\r\n"
"t=0 0\r\n"
"m=audio %d RTP/AVP %d\r\n"
"%s"
"a=rtpmap:%d %s/8000\r\n"
"%s",
ipv, ip_addr, ipv, ip_addr,
osmo_sockaddr_port((const struct sockaddr *)&other->addr),
other->payload_type,
fmtp_str ? fmtp_str : "",
other->payload_type,
leg->wanted_codec,
mode_attribute);
talloc_free(fmtp_str);
return sdp;
sdp = sdp_session(parser);
if (!sdp) {
LOGP(DSIP, LOGL_ERROR, "leg(%p) no sdp session\n", other);
sdp_parser_free(parser);
return talloc_strdup(leg, sdp_data);
}
for (media = sdp->sdp_media; media; media = media->m_next)
media->m_mode = mode;
printer = sdp_print(NULL, sdp, buf, sizeof(buf), sdp_f_mode_always);
if (!printer) {
LOGP(DSIP, LOGL_ERROR, "leg(%p) failed to print SDP\n", other);
sdp_parser_free(parser);
return talloc_strdup(leg, sdp_data);
}
sdp_str = sdp_message(printer);
if (!sdp_str) {
LOGP(DSIP, LOGL_ERROR, "leg(%p) failed to print SDP: %s\n", other, sdp_printing_error(printer));
sdp_str = sdp_data;
}
ret = talloc_strdup(leg, sdp_str);
sdp_parser_free(parser);
sdp_printer_free(printer);
return ret;
}

11
src/sdp.h
View File

@ -8,8 +8,15 @@
struct sip_call_leg;
struct call_leg;
enum sdp_mode_e {
SDP_MODE_INVALID = -1,
SDP_MODE_INACTIVE = 0,
SDP_MODE_SENDONLY = 1,
SDP_MODE_RECVONLY = 2,
SDP_MODE_SENDRECV = 3,
};
bool sdp_get_sdp_mode(const sip_t *sip, sdp_mode_t *mode);
bool sdp_screen_sdp(const sip_t *sip);
bool sdp_extract_sdp(struct sip_call_leg *leg, const sip_t *sip, bool any_codec);
char *sdp_create_file(struct sip_call_leg *, struct call_leg *, sdp_mode_t mode);
char *sdp_create_file(struct sip_call_leg *leg, struct call_leg *other, sdp_mode_t mode);

22
src/sip.c
View File

@ -46,6 +46,12 @@ static void sip_dtmf_call(struct call_leg *_leg, int keypad);
static void sip_hold_call(struct call_leg *_leg);
static void sip_retrieve_call(struct call_leg *_leg);
static const char *sip_get_sdp(const sip_t *sip)
{
if (!sip || !sip->sip_payload)
return NULL;
return sip->sip_payload->pl_data;
}
/* Find a SIP Call leg by given nua_handle */
static struct sip_call_leg *sip_find_leg(nua_handle_t *nh)
@ -201,6 +207,8 @@ static void new_call(struct sip_agent *agent, nua_handle_t *nh,
nua_handle_bind(nh, leg);
leg->sdp_payload = talloc_strdup(leg, sip->sip_payload->pl_data);
call_leg_update_sdp(&leg->base, sip_get_sdp(sip));
app_route_call(call,
talloc_strdup(leg, from),
talloc_strdup(leg, to));
@ -241,6 +249,8 @@ static void sip_handle_reinvite(struct sip_call_leg *leg, nua_handle_t *nh, cons
osmo_sockaddr_ntop((struct sockaddr*)&prev_addr, ip_addr),
osmo_sockaddr_port((struct sockaddr*)&prev_addr));
call_leg_update_sdp(&leg->base, sip_get_sdp(sip));
if (mode == sdp_sendonly) {
/* SIP side places call on HOLD */
sdp = sdp_create_file(leg, other, sdp_recvonly);
@ -360,6 +370,8 @@ void nua_callback(nua_event_t event, int status, char const *phrase, nua_t *nua,
struct sip_call_leg *leg;
leg = (struct sip_call_leg *) hmagic;
call_leg_update_sdp(&leg->base, sip_get_sdp(sip));
/* MT call is moving forward */
/* The dialogue is now confirmed */
@ -396,8 +408,10 @@ void nua_callback(nua_event_t event, int status, char const *phrase, nua_t *nua,
* respond to the re-INVITE query. */
if (sip->sip_payload && sip->sip_payload->pl_data) {
struct sip_call_leg *leg = sip_find_leg(nh);
if (leg)
if (leg) {
call_leg_update_sdp(&leg->base, sip_get_sdp(sip));
sip_handle_reinvite(leg, nh, sip);
}
}
} else if (event == nua_r_bye || event == nua_r_cancel) {
/* our bye or hang up is answered */
@ -423,10 +437,12 @@ void nua_callback(nua_event_t event, int status, char const *phrase, nua_t *nua,
if (status == 100) {
struct sip_call_leg *leg = sip_find_leg(nh);
if (leg)
if (leg) {
call_leg_update_sdp(&leg->base, sip_get_sdp(sip));
sip_handle_reinvite(leg, nh, sip);
else
} else {
new_call((struct sip_agent *) magic, nh, sip);
}
}
} else if (event == nua_i_cancel) {
struct sip_call_leg *leg;