MGCP_Test: add fmtp to template t_RtpFlow
When creating a flow with fmtp parameters we must always add them in a
second step. Lets update t_RtpFlow, so that it supports fmtp as an
optional parameter.
Change-Id: I04b17c0d233c1db4b9ba1306a4e0555914519bf8
diff --git a/mgw/MGCP_Test.ttcn b/mgw/MGCP_Test.ttcn
index c9e355b..f1936ce 100644
--- a/mgw/MGCP_Test.ttcn
+++ b/mgw/MGCP_Test.ttcn
@@ -1397,13 +1397,12 @@
};
/* from us to MGW */
- flow[0] := valueof(t_RtpFlow(local_ip_rtp, remote_ip_rtp, 112, "AMR/8000"));
+ flow[0] := valueof(t_RtpFlow(local_ip_rtp, remote_ip_rtp, 112, "AMR/8000", fmtp));
flow[0].rtp_cfg := c_RtpemDefaultCfg
flow[0].rtp_cfg.rx_payloads[0].payload_type := flow[0].codec_descr[0].pt;
flow[0].rtp_cfg.rx_payloads[0].fixed_payload := amr_payload;
flow[0].rtp_cfg.tx_payloads[0].payload_type := flow[0].codec_descr[0].pt;
flow[0].rtp_cfg.tx_payloads[0].fixed_payload := amr_payload;
- flow[0].codec_descr[0].fmtp := fmtp;
/* bind local RTP emulation sockets */
flow[0].em.portnr := 10000;
f_flow_create(RTPEM[0], ep, call_id, "sendrecv", flow[0]);
@@ -1796,8 +1795,8 @@
setverdict(pass);
}
- template (value) RtpFlowData t_RtpFlow(charstring host_a, charstring host_b, uint7_t pt,
- charstring codec) := {
+ template RtpFlowData t_RtpFlow(charstring host_a, charstring host_b, uint7_t pt,
+ charstring codec, template charstring fmtp := omit) := {
em := {
hostname := host_a,
portnr := omit
@@ -1808,7 +1807,8 @@
},
codec_descr := {{
pt := pt,
- codec := codec
+ codec := codec,
+ fmtp := fmtp
}},
osmux:= {
local_cid_sent := false,
@@ -2283,7 +2283,7 @@
f_vty_transceive(MGWVTY, "rtp-patch rfc5993hr");
/* Connection #0 (Bidirectional) */
- flow[0] := valueof(t_RtpFlow(mp_local_ipv4, mp_remote_ipv4, 111, "GSM-HR-08/8000"));
+ flow[0] := valueof(t_RtpFlow(mp_local_ipv4, mp_remote_ipv4, 111, "GSM-HR-08/8000", fmtp0));
/* bind local RTP emulation sockets */
flow[0].em.portnr := 10000;
flow[0].rtp_cfg := c_RtpemDefaultCfg;
@@ -2291,18 +2291,16 @@
flow[0].rtp_cfg.tx_payloads[0].payload_type := flow[0].codec_descr[0].pt;
flow[0].rtp_cfg.rx_payloads[0].fixed_payload := pl0;
flow[0].rtp_cfg.tx_payloads[0].fixed_payload := pl0;
- flow[0].codec_descr[0].fmtp := fmtp0;
f_flow_create(RTPEM[0], ep, call_id, "sendrecv", flow[0]);
/* Connection #1 (Bidirectional) */
- flow[1] := valueof(t_RtpFlow(mp_local_ipv4, mp_remote_ipv4, 111, "GSM-HR-08/8000"));
+ flow[1] := valueof(t_RtpFlow(mp_local_ipv4, mp_remote_ipv4, 111, "GSM-HR-08/8000", fmtp1));
flow[1].em.portnr := 20000;
flow[1].rtp_cfg := c_RtpemDefaultCfg;
flow[1].rtp_cfg.rx_payloads[0].payload_type := flow[1].codec_descr[0].pt;
flow[1].rtp_cfg.tx_payloads[0].payload_type := flow[1].codec_descr[0].pt;
flow[1].rtp_cfg.rx_payloads[0].fixed_payload := pl1;
flow[1].rtp_cfg.tx_payloads[0].fixed_payload := pl1;
- flow[1].codec_descr[0].fmtp := fmtp1;
f_flow_create(RTPEM[1], ep, call_id, "sendrecv", flow[1]);
/* Send RTP packets to connection #0, receive on connection #1 */
@@ -2363,7 +2361,7 @@
f_init(ep);
/* Connection #0 (Bidirectional) */
- flow[0] := valueof(t_RtpFlow(mp_local_ipv4, mp_remote_ipv4, 96, "AMR/8000"));
+ flow[0] := valueof(t_RtpFlow(mp_local_ipv4, mp_remote_ipv4, 96, "AMR/8000", fmtp0));
/* bind local RTP emulation sockets */
flow[0].em.portnr := 10000;
flow[0].rtp_cfg := c_RtpemDefaultCfg;
@@ -2371,18 +2369,16 @@
flow[0].rtp_cfg.tx_payloads[0].payload_type := flow[0].codec_descr[0].pt;
flow[0].rtp_cfg.rx_payloads[0].fixed_payload := pl0;
flow[0].rtp_cfg.tx_payloads[0].fixed_payload := pl0;
- flow[0].codec_descr[0].fmtp := fmtp0;
f_flow_create(RTPEM[0], ep, call_id, "sendrecv", flow[0]);
/* Connection #1 (Bidirectional) */
- flow[1] := valueof(t_RtpFlow(mp_local_ipv4, mp_remote_ipv4, 112, "AMR/8000"));
+ flow[1] := valueof(t_RtpFlow(mp_local_ipv4, mp_remote_ipv4, 112, "AMR/8000", fmtp1));
flow[1].em.portnr := 20000;
flow[1].rtp_cfg := c_RtpemDefaultCfg;
flow[1].rtp_cfg.rx_payloads[0].payload_type := flow[1].codec_descr[0].pt;
flow[1].rtp_cfg.tx_payloads[0].payload_type := flow[1].codec_descr[0].pt;
flow[1].rtp_cfg.rx_payloads[0].fixed_payload := pl1;
flow[1].rtp_cfg.tx_payloads[0].fixed_payload := pl1;
- flow[1].codec_descr[0].fmtp := fmtp1;
f_flow_create(RTPEM[1], ep, call_id, "sendrecv", flow[1]);
/* Send RTP packets to connection #0, receive on connection #1 */