module MGCP_Test { import from Osmocom_Types all; import from MGCP_Types all; import from SDP_Types all; import from MGCP_CodecPort all; import from MGCP_CodecPort_CtrlFunct all; import from RTP_CodecPort all; import from RTP_CodecPort_CtrlFunct all; import from RTP_Endpoint all; import from IPL4asp_Types all; /* any variables declared in the component will be available to * all functions that 'run on' the named component, similar to * class members in C++ */ type component dummy_CT { port MGCP_CODEC_PT MGCP; port RTP_CODEC_PT RTP; var boolean initialized := false; var ConnectionId g_mgcp_conn_id := -1; var integer g_trans_id; var RtpEndpoint g_rtp_ep[2]; }; function get_next_trans_id() runs on dummy_CT return MgcpTransId { var MgcpTransId tid := int2str(g_trans_id); g_trans_id := g_trans_id + 1; return tid; } /* all parameters declared here can be modified / overridden by * the config file in the [MODULE_PARAMETERS] section. If no * config file is used or the file doesn't specify them, the * default values assigned below are used */ modulepar { PortNumber mp_local_udp_port := 2727; charstring mp_local_ip := "127.0.0.1"; PortNumber mp_remote_udp_port := 2427; charstring mp_remote_ip := "127.0.0.1"; PortNumber mp_local_rtp_port_base := 10000; } /* initialization function, called by each test case at the * beginning, but 'initialized' variable ensures its body is * only executed once */ private function f_init()runs on dummy_CT { var Result res; var uint32_t ssrc; if (initialized == true) { return; } initialized := true; /* some random number for the initial transaction id */ g_trans_id := float2int(rnd()*65535.0); map(self:MGCP, system:MGCP_CODEC_PT); /* connect the MGCP test port using the given * source/destionation ip/port and store the connection id in g_mgcp_conn_id * */ res := MGCP_CodecPort_CtrlFunct.f_IPL4_connect(MGCP, mp_remote_ip, mp_remote_udp_port, mp_local_ip, mp_local_udp_port, 0, { udp := {} }); g_mgcp_conn_id := res.connId; map(self:RTP, system:RTP_CODEC_PT); ssrc := float2int(rnd()*4294967296.0); rtp_endpoint_init(g_rtp_ep[0], mp_local_ip, mp_local_rtp_port_base, ssrc); rtp_endpoint_bind(RTP, g_rtp_ep[0]); rtp_endpoint_init(g_rtp_ep[1], mp_local_ip, mp_local_rtp_port_base+2, ssrc); rtp_endpoint_bind(RTP, g_rtp_ep[1]); } /* 3.2.2.6 Connection Mode (sendonly, recvonly, sendrecv, confrnce, inactive, loopback, * conttest, netwloop, netwtest) */ template MgcpParameter t_MgcpParConnMode(template MgcpConnectionMode mode) := { "M", mode }; /* 3.2.2.2 CallId: maximum 32 hex chars */ template MgcpParameter ts_MgcpParCallId(MgcpCallId cid) := { code := "C", val := hex2str(cid) }; /* 3.2.2.18 RequestIdentifier: Maximum 32 hex chars */ template MgcpParameter ts_MgcpParReqId(MgcpRequestId rid) := { code := "X", val := hex2str(rid) }; /* 3.2.2.10: LocalConnectionOptions (codec, packetization, bandwidth, ToS, eco, gain, silence, ...) */ template MgcpParameter t_MgcpParLocConnOpt(template charstring lco) := { "L", lco }; /* 3.2.2.5: ConnectionId: maximum 32 hex chars */ template MgcpParameter ts_MgcpParConnectionId(MgcpConnectionId cid) := { code := "I", val := hex2str(cid) }; /* osmo-bsc_mgcp implements L/C/M/X only, osmo-mgw adds 'I' */ /* SDP: osmo-bsc_mgcp implements Tx of v,o,s,c,t,m,a */ template MgcpResponse tr_MgcpResp_Err(template MgcpResponseCode code) := { line := { code := code, trans_id := ?, string := ? }, params := {}, sdp := omit } template MgcpCommandLine t_MgcpCmdLine(template charstring verb, template MgcpTransId trans_id, template charstring ep) := { verb := verb, trans_id := trans_id, ep := ep, ver := "1.0" }; template MgcpCommand ts_CRCX(MgcpTransId trans_id, charstring ep, MgcpConnectionMode mode, MgcpCallId call_id, template SDP_Message sdp := omit) := { line := t_MgcpCmdLine("CRCX", trans_id, ep), params := { t_MgcpParConnMode(mode), ts_MgcpParCallId(call_id), //t_MgcpParReqId(omit), t_MgcpParLocConnOpt("p: 20") }, sdp := sdp } template MgcpCommand ts_MDCX(MgcpTransId trans_id, charstring ep, MgcpConnectionMode mode, MgcpCallId call_id, template SDP_Message sdp := omit) := { line := t_MgcpCmdLine("MDCX", trans_id, ep), params := { t_MgcpParConnMode(mode), ts_MgcpParCallId(call_id), //t_MgcpParReqId(omit), t_MgcpParLocConnOpt("p: 20") }, sdp := sdp } template MgcpCommand ts_DLCX(MgcpTransId trans_id, charstring ep, MgcpCallId call_id) := { line := t_MgcpCmdLine("DLCX", trans_id, ep), params := { ts_MgcpParCallId(call_id) }, sdp := omit } /* SDP Templates */ template SDP_Origin ts_SDP_origin(charstring addr, charstring session_id, charstring session_version := "1", charstring addr_type := "IP4", charstring user_name := "-") := { user_name := user_name, session_id := session_id, session_version := session_version, net_type := "IN", addr_type := addr_type, addr := addr } template SDP_connection ts_SDP_connection_IP(charstring addr, charstring addr_type := "IP4", template integer ttl := omit, template integer num_of_addr := omit) :={ net_type := "IN", addr_type := addr_type, conn_addr := { addr := addr, ttl := ttl, num_of_addr := num_of_addr } } template SDP_time ts_SDP_time(charstring beg, charstring end) := { time_field := { start_time := beg, stop_time := end }, time_repeat := omit } template SDP_media_desc ts_SDP_media_desc(integer port_number, SDP_fmt_list fmts, SDP_attribute_list attributes) := { media_field := { media := "audio", ports := { port_number := port_number, num_of_ports := omit }, transport := "ARTP/AVP", fmts := fmts }, information := omit, connections := omit, bandwidth := omit, key := omit, attributes := attributes } /* master template for generating SDP based in template arguments */ template SDP_Message ts_SDP(charstring local_addr, charstring remote_addr, charstring session_id, charstring session_version, integer rtp_port, SDP_fmt_list fmts, SDP_attribute_list attributes) := { protocol_version := 0, origin := ts_SDP_origin(local_addr, session_id, session_version), session_name := "-", information := omit, uri := omit, emails := omit, phone_numbers := omit, connection := ts_SDP_connection_IP(remote_addr), bandwidth := omit, times := { ts_SDP_time("0","0") }, timezone_adjustments := omit, key := omit, attributes := omit, media_list := { ts_SDP_media_desc(rtp_port, fmts, attributes) } } template SDP_attribute ts_SDP_rtpmap(integer fmt, charstring val) := { rtpmap := { attr_value := int2str(fmt) & " " & val } } template SDP_attribute ts_SDP_ptime(integer p) := { ptime := { attr_value := int2str(p) } } testcase TC_selftest() runs on dummy_CT { const charstring c_auep := "AUEP 158663169 ds/e1-1/2@172.16.6.66 MGCP 1.0\r\n"; const charstring c_mdcx3 := "MDCX 18983215 1@mgw MGCP 1.0\r\n"; const charstring c_mdcx3_ret := "200 18983215 OK\r\n" & "I: 1\n" & "\n" & "v=0\r\n" & "o=- 1 23 IN IP4 0.0.0.0\r\n" & "s=-\r\n" & "c=IN IP4 0.0.0.0\r\n" & "t=0 0\r\n" & "m=audio 0 RTP/AVP 126\r\n" & "a=rtpmap:126 AMR/8000\r\n" & "a=ptime:20\r\n"; const charstring c_mdcx4 := "MDCX 18983216 1@mgw MGCP 1.0\r\n" & "M: sendrecv\r" & "C: 2\r\n" & "I: 1\r\n" & "L: p:20, a:AMR, nt:IN\r\n" & "\n" & "v=0\r\n" & "o=- 1 23 IN IP4 0.0.0.0\r\n" & "s=-\r\n" & "c=IN IP4 0.0.0.0\r\n" & "t=0 0\r\n" & "m=audio 4441 RTP/AVP 99\r\n" & "a=rtpmap:99 AMR/8000\r\n" & "a=ptime:40\r\n"; const charstring c_crcx510_ret := "510 23 FAIL\r\n" log(c_auep); log(dec_MgcpCommand(c_auep)); log(c_mdcx3); log(dec_MgcpCommand(c_mdcx3)); log(c_mdcx3_ret); log(dec_MgcpResponse(c_mdcx3_ret)); log(c_mdcx4); log(dec_MgcpCommand(c_mdcx4)); log(ts_CRCX("23", "42@mgw", "sendrecv", '1234'H)); log(enc_MgcpCommand(valueof(ts_CRCX("23", "42@mgw", "sendrecv", '1234'H)))); log(c_crcx510_ret); log(dec_MgcpResponse(c_crcx510_ret)); log(dec_MgcpMessage(c_crcx510_ret)); } /* CRCX test ideas: * - without mandatory CallId * - without mandatory ConnectionId * - with forbidden parameters (e.g. Capabilities, PackageList, ... * - CRCX with remote session description and without * * general ideas: * - packetization != 20ms * - invalid mode * x unsupported mode (517) * x bidirectional mode before RemoteConnDesc: 527 * - invalid codec * - retransmission of same transaction * - unsupported LocalConnectionOptions ("b", "a", "e", "gc", "s", "r", "k", ..) */ /* build a receive template for receiving a MGCP message. You * pass the MGCP response template in, and it will generate an * MGCP_RecvFrom template that can match the primitives arriving on the * MGCP_CodecPort */ function tr_MGCP_RecvFrom_R(template MgcpResponse resp) runs on dummy_CT return template MGCP_RecvFrom { var template MGCP_RecvFrom mrf := { connId := g_mgcp_conn_id, remName := mp_remote_ip, remPort := mp_remote_udp_port, locName := mp_local_ip, locPort := mp_local_udp_port, msg := { response := resp } } return mrf; } /* Send a MGCP request + receive a (matching!) response */ function mgcp_transceive_mgw(template MgcpCommand cmd, template MgcpResponse resp := ?) runs on dummy_CT return MgcpResponse { var MgcpMessage msg := { command := valueof(cmd) }; resp.line.trans_id := cmd.line.trans_id; var template MGCP_RecvFrom mrt := tr_MGCP_RecvFrom_R(resp); var MGCP_RecvFrom mrf; timer T := 5.0; MGCP.send(t_MGCP_Send(g_mgcp_conn_id, msg)); T.start; alt { [] MGCP.receive(mrt) -> value mrf { } [] MGCP.receive(tr_MGCP_RecvFrom_R(?)) { setverdict(fail); } [] MGCP.receive { repeat; } [] T.timeout { setverdict(fail); } } T.stop; if (isbound(mrf) and isbound(mrf.msg) and ischosen(mrf.msg.response)) { return mrf.msg.response; } else { var MgcpResponse r := { line := { code := "999", trans_id := valueof(cmd.line.trans_id) } }; return r; } } /* test valid CRCX without SDP */ testcase TC_crcx() runs on dummy_CT { var template MgcpCommand cmd; var MgcpResponse resp; var template MgcpResponse rtmpl := { line := { code := "200", string := "OK" }, params := { { "I", ? }, *}, sdp := ? }; f_init(); cmd := ts_CRCX(get_next_trans_id(), "2@mgw", "sendrecv", '1234'H); resp := mgcp_transceive_mgw(cmd, rtmpl); setverdict(pass); } /* test CRCX with unsupported mode, expect 517 */ testcase TC_crcx_unsupp_mode() runs on dummy_CT { var template MgcpCommand cmd; var MgcpResponse resp; var template MgcpResponse rtmpl := tr_MgcpResp_Err("517"); f_init(); cmd := ts_CRCX(get_next_trans_id(), "2@mgw", "netwtest", '1234'H); resp := mgcp_transceive_mgw(cmd, rtmpl); setverdict(pass); } /* test CRCX with early bi-directional mode, expect 527 as * bi-diretional media can only be established once both local and * remote side are specified, see MGCP RFC */ testcase TC_crcx_early_bidir_mode() runs on dummy_CT { var template MgcpCommand cmd; var MgcpResponse resp; var template MgcpResponse rtmpl := tr_MgcpResp_Err("527"); f_init(); cmd := ts_CRCX(get_next_trans_id(), "2@mgw", "sendrecv", '1234'H); resp := mgcp_transceive_mgw(cmd, rtmpl); setverdict(pass); } /* test CRCX with unsupported Parameters */ testcase TC_crcx_unsupp_param() runs on dummy_CT { var template MgcpCommand cmd; var MgcpResponse resp; var template MgcpResponse rtmpl := tr_MgcpResp_Err("539"); f_init(); cmd := ts_CRCX(get_next_trans_id(), "2@mgw", "recvonly", '1234'H); cmd.params := { t_MgcpParConnMode("recvonly"), ts_MgcpParCallId('1234'H), t_MgcpParLocConnOpt("p:20"), /* osmo-bsc_mgcp/mgw doesn't implement notifications */ { "N", "foobar" } } resp := mgcp_transceive_mgw(cmd, rtmpl); setverdict(pass); } /* test CRCX with missing CallId */ testcase TC_crcx_missing_callid() runs on dummy_CT { var template MgcpCommand cmd; var MgcpResponse resp; var template MgcpResponse rtmpl := tr_MgcpResp_Err("400"); f_init(); cmd := ts_CRCX(get_next_trans_id(), "2@mgw", "recvonly", '1234'H); cmd.params := { t_MgcpParConnMode("recvonly"), t_MgcpParLocConnOpt("p:20") } resp := mgcp_transceive_mgw(cmd, rtmpl); setverdict(pass); } /* test CRCX with missing Mode */ testcase TC_crcx_missing_mode() runs on dummy_CT { var template MgcpCommand cmd; var MgcpResponse resp; var template MgcpResponse rtmpl := tr_MgcpResp_Err("400"); f_init(); cmd := ts_CRCX(get_next_trans_id(), "2@mgw", "recvonly", '1234'H); cmd.params := { ts_MgcpParCallId('1234'H), t_MgcpParLocConnOpt("p:20") } resp := mgcp_transceive_mgw(cmd, rtmpl); setverdict(pass); } /* test CRCX with unsupported packetization interval */ testcase TC_crcx_unsupp_packet_intv() runs on dummy_CT { var template MgcpCommand cmd; var MgcpResponse resp; var template MgcpResponse rtmpl := tr_MgcpResp_Err("532"); f_init(); cmd := ts_CRCX(get_next_trans_id(), "2@mgw", "recvonly", '1234'H); cmd.params := { t_MgcpParConnMode("recvonly"), ts_MgcpParCallId('1234'H), t_MgcpParLocConnOpt("p:111") } resp := mgcp_transceive_mgw(cmd, rtmpl); setverdict(pass); } /* test CRCX with illegal double presence of local connection option */ testcase TC_crcx_illegal_double_lco() runs on dummy_CT { var template MgcpCommand cmd; var MgcpResponse resp; var template MgcpResponse rtmpl := tr_MgcpResp_Err("524"); f_init(); cmd := ts_CRCX(get_next_trans_id(), "2@mgw", "recvonly", '1234'H); cmd.params := { t_MgcpParConnMode("recvonly"), ts_MgcpParCallId('1234'H), /* p:20 is permitted only once and not twice! */ t_MgcpParLocConnOpt("p:20, a:AMR, p:20") } resp := mgcp_transceive_mgw(cmd, rtmpl); setverdict(pass); } /* test valid CRCX with valid SDP */ testcase TC_crcx_sdp() runs on dummy_CT { var template MgcpCommand cmd; var MgcpResponse resp; var template MgcpResponse rtmpl := { line := { code := "200", string := "OK" }, params := { { "I", ? }, *}, sdp := ? }; f_init(); cmd := ts_CRCX(get_next_trans_id(), "2@mgw", "sendrecv", '1234'H); cmd.sdp := ts_SDP("127.0.0.1", "127.0.0.2", "23", "42", 2344, { "98" }, { valueof(ts_SDP_rtpmap(98, "AMR/8000")), valueof(ts_SDP_ptime(20)) }); resp := mgcp_transceive_mgw(cmd, rtmpl); setverdict(pass); } /* TODO: various SDP related bits */ /* TODO: CRCX with X-Osmux */ /* TODO: double CRCX without force_realloc */ /* TODO: MDCX (various) */ /* TODO: MDCX without CRCX first */ testcase TC_mdcx_without_crcx() runs on dummy_CT { var template MgcpCommand cmd; var MgcpResponse resp; var template MgcpResponse rtmpl := { line := { /* TODO: accept/enforce better error? */ code := "400", string := ? }, params:= { }, sdp := omit }; f_init(); cmd := ts_MDCX(get_next_trans_id(), "3@mgw", "sendrecv", '31234'H); cmd.sdp := ts_SDP("127.0.0.1", "127.0.0.2", "23", "42", 2344, { "98" }, { valueof(ts_SDP_rtpmap(98, "AMR/8000")), valueof(ts_SDP_ptime(20)) }); resp := mgcp_transceive_mgw(cmd, rtmpl); setverdict(pass); } /* DLCX without CRCX first */ testcase TC_dlcx_without_crcx() runs on dummy_CT { var template MgcpCommand cmd; var MgcpResponse resp; var template MgcpResponse rtmpl := { line := { /* TODO: accept/enforce better error? */ code := "400", string := ? }, params:= { }, sdp := omit }; f_init(); cmd := ts_DLCX(get_next_trans_id(), "4@mgw", '41234'H); resp := mgcp_transceive_mgw(cmd, rtmpl); setverdict(pass); } /* Test (valid) CRCX followed by (valid) DLCX */ testcase TC_crcx_and_dlcx() runs on dummy_CT { var template MgcpCommand cmd; var MgcpResponse resp; var template MgcpResponse rtmpl := { line := { code := ("200", "250"), string := "OK" }, params:= { { "I", ? }, *}, sdp := ? }; f_init(); cmd := ts_CRCX(get_next_trans_id(), "5@mgw", "sendrecv", '51234'H); resp := mgcp_transceive_mgw(cmd, rtmpl); cmd := ts_DLCX(get_next_trans_id(), "5@mgw", '51234'H); rtmpl.sdp := omit; rtmpl.params := *; resp := mgcp_transceive_mgw(cmd, rtmpl); setverdict(pass); } /* TODO: DLCX of valid endpoint but invalid call-id */ /* TODO: Double-DLCX (retransmission) */ /* TODO: Double-DLCX (no retransmission) */ /* TODO: AUEP (various) */ /* TODO: RSIP (various) */ /* TODO: RQNT (various) */ /* TODO: EPCF (various) */ /* TODO: AUCX (various) */ /* TODO: invalid verb (various) */ control { execute(TC_selftest()); execute(TC_crcx()); execute(TC_crcx_unsupp_mode()); execute(TC_crcx_early_bidir_mode()); execute(TC_crcx_unsupp_param()); execute(TC_crcx_missing_callid()); execute(TC_crcx_missing_mode()); execute(TC_crcx_unsupp_packet_intv()); execute(TC_crcx_illegal_double_lco()); execute(TC_crcx_sdp()); execute(TC_mdcx_without_crcx()); execute(TC_dlcx_without_crcx()); execute(TC_crcx_and_dlcx()); } }