/* IPAd testsuite in TTCN-3 * * Author: Philipp Maier / sysmocom - s.f.m.c. GmbH * * Released under the terms of GNU General Public License, Version 2 or * (at your option) any later version. * * SPDX-License-Identifier: GPL-2.0-or-later */ module IPAd_Tests { import from Misc_Helpers all; import from General_Types all; import from Osmocom_Types all; import from SGP32Definitions all; import from SGP32Definitions_Types all; import from SGP32Definitions_Templates all; import from RSPDefinitions all; import from RSPDefinitions_Types all; import from RSPDefinitions_Templates all; import from PKIX1Explicit88 all; import from PKIX1Explicit88_Templates all; import from PKIX1Explicit88_Types all; import from HTTP_Server_Emulation all; import from HTTPmsg_Types all; import from VPCD_Types all; import from VPCD_CodecPort all; import from VPCD_Adapter all; modulepar { /* emulated eIM HTTPs server */ charstring mp_esipa_ip := "127.0.0.1"; integer mp_esipa_port := 4430; boolean mp_esipa_disable_ssl := false; boolean mp_use_vpcd := true; float mp_restart_guardtime := 2.0 } /* Altstep to handle card power up/down and ATR transmission */ private altstep as_vpcd_atr() runs on VPCD_Adapter_CT { [] VPCD.receive(tr_VPCD_Recv(g_vpcd_conn_id, tr_VPCD_CTRL_ATR)) { f_vpcd_send(ts_VPCD_DATA('3B9F96801FC78031A073BE21136743200718000001A5'O)); repeat; } [] VPCD.receive(tr_VPCD_Recv(g_vpcd_conn_id, tr_VPCD_CTRL_OFF)) { repeat; } [] VPCD.receive(tr_VPCD_Recv(g_vpcd_conn_id, tr_VPCD_CTRL_ON)) { repeat; } } /* Helper template to format HTTP responses */ private template (value) HTTPMessage ts_http_resp(template (value) octetstring resp := ''O) := { response_binary := { client_id := omit, version_major := 1, version_minor := 1, statuscode := 200, statustext := "OK", /* See also SGP.32, section 6.1.1 */ header := { { header_name := "X-Admin-Protocol", header_value := "gsma/rsp/v1.0.0" }, { header_name := "Content-Type", header_value := "application/x-gsma-rsp-asn1" }, { header_name := "Content-Length", header_value := int2str(lengthof(resp)) } }, body := resp } } type component MTC_CT { timer g_Tguard; /* HTTP server */ var HTTP_Server_Emulation_CT vc_HTTP; }; type component IPAd_ConnHdlr extends HTTP_ConnHdlr, VPCD_Adapter_CT { var IPAd_ConnHdlrPars g_pars; }; type record IPAd_ConnHdlrPars { /* TODO: add some useful parameters */ }; private function f_init_pars() runs on MTC_CT return IPAd_ConnHdlrPars { var IPAd_ConnHdlrPars pars := { /* TODO: fill parameters with meaninful values */ }; return pars; } private altstep as_Tguard() runs on MTC_CT { [] g_Tguard.timeout { Misc_Helpers.f_shutdown(__BFILE__, __LINE__, fail, "Tguard timeout"); } } private type function void_fn(charstring id) runs on IPAd_ConnHdlr; private function f_init_handler(void_fn fn, charstring id, IPAd_ConnHdlrPars pars) runs on IPAd_ConnHdlr { g_pars := pars; /* Initialize VPDC (virtual smartcard) */ if (mp_use_vpcd) { VPCD_Adapter.f_connect(); activate(as_vpcd_atr()); } fn.apply(id); } private function f_start_handler(void_fn fn, IPAd_ConnHdlrPars pars) runs on MTC_CT return IPAd_ConnHdlr { var IPAd_ConnHdlr vc_conn; var charstring id := testcasename(); vc_conn := IPAd_ConnHdlr.create(id); if (isbound(vc_HTTP)) { connect(vc_conn:HTTP_SRV, vc_HTTP:CLIENT); connect(vc_conn:HTTP_SRV_PROC, vc_HTTP:CLIENT_PROC); } vc_conn.start(f_init_handler(fn, id, pars)); return vc_conn; } function f_init_esipa(charstring id) runs on MTC_CT { var HttpServerEmulationCfg http_cfg := { http_bind_ip := mp_esipa_ip, http_bind_port := mp_esipa_port, use_ssl := not mp_esipa_disable_ssl }; vc_HTTP := HTTP_Server_Emulation_CT.create(id); vc_HTTP.start(HTTP_Server_Emulation.main(http_cfg)); } private function f_init(charstring id, float t_guard := 40.0) runs on MTC_CT { /* Ensure a guard time inbetween tests. This is to make sure that the IPAd is able to finish its current poll * cycle. In practice this means that the IPAd will notice that the connectivity towards the eIM is lost and * since this is one of the conditions for ending the current poll cycle it will exit. A freshly restarted * IPAd is a mandatory start condition for the tests since all tests expect the initialization procedure * (selection of ISD-P etc.) that the IPAd executes on startup. */ f_sleep(mp_restart_guardtime); g_Tguard.start(t_guard); activate(as_Tguard()); f_init_esipa(id); } /* Expect a GetResponse request from IUT and transfer as many response bytes the IUT requests */ private function f_vpcd_get_response(octetstring response) runs on IPAd_ConnHdlr return integer { var octetstring sw; var VPCD_PDU req; var integer len; req := f_vpcd_exp(tr_VPCD_DATA(?)); len := oct2int(req.u.data[4]); if (len == 0) { len := 256; } /* Make sure that the request APDU is actually a GetResponse request (on logical channel 2) */ if (substr(req.u.data, 0, 4) != '01c00000'O) { setverdict(fail, "unexpected APDU, expecting GetResponse"); return 0; } /* Compute status word, in case the requested data is shorter then the response data we intend to send, we must * tell the IUT that there is still data available, so that a consecutive GetResponse request can be issued. * (caller must check return code to determine if a consecutive GetResponse is needed/expected) */ if (lengthof(response) > len) { if (lengthof(response) - len > 255) { sw := '6100'O; } else { sw := '61'O & int2oct(lengthof(response) - len, 1); } } else { sw := '9000'O; } /* Send response to IUT */ f_vpcd_send(ts_VPCD_DATA(substr(response, 0, len) & sw)); /* Return how many bytes have sent */ return len; } /* Expect one or more GetResponse requests from IUT until the full response is transferred */ private function f_vpcd_get_response_multi(octetstring response) runs on IPAd_ConnHdlr { var integer bytes_sent := 0; var octetstring response_remainder := response; while (true) { response_remainder := substr(response_remainder, bytes_sent, lengthof(response_remainder) - bytes_sent); bytes_sent := f_vpcd_get_response(response_remainder); /* Check if we reached the last chunk */ if (lengthof(response_remainder) <= bytes_sent) { return; } } } /* Expect one or more STORE DATA requests until the IUT has completed the transmision cycle */ private function f_vpcd_store_data(octetstring exp := ''O) runs on IPAd_ConnHdlr return octetstring { var VPCD_PDU req; var octetstring block; var integer len; var octetstring data := ''O; while (true) { req := f_vpcd_exp(tr_VPCD_DATA(?)); /* Make sure that the request APDU is actually a STORE DATA request (on logical channel 1) */ if (substr(req.u.data, 0, 3) != '81E291'O and substr(req.u.data, 0, 3) != '81E211'O) { setverdict(fail, "unexpected APDU, expecting GetResponse"); return ''O; } if (lengthof(req.u.data) - 5 > 255) { len := 255; } else { len := lengthof(req.u.data) - 5; } block := substr(req.u.data, 5, len); data := data & block; /* The final status word contains the length of the response. We can not send it right now * since the caller must first process the received data block and compute a response. When * the exact length of the response data is known. The final status word can be sent using * f_vpcd_store_data_final_ack() */ if (substr(req.u.data, 2, 1) == '91'O) { if (exp != ''O and block != exp) { setverdict(fail, "received block contains unexpected data (", block, " != ", exp, ")"); } return block; } f_vpcd_send(ts_VPCD_DATA('9000'O)); } setverdict(fail, "no data? (we should not reach this code path)"); return ''O; } /* Send a final status word to acknowledge the last block of a STORE DATA transmission. The status word will tell * the IUT how many response bytes are available. (The IUT will immediately begin to fetch the response using * one or more GetResponse requests */ private function f_vpcd_store_data_final_ack(integer response_len) runs on IPAd_ConnHdlr { var octetstring second_sw_byte; var octetstring first_sw_byte; if (response_len > 255) { second_sw_byte := '00'O; } else { second_sw_byte := int2oct(response_len, 1); } if (response_len > 0) { first_sw_byte := '61'O; /* 61xx */ } else { first_sw_byte := '90'O; /* 9000 */ } f_vpcd_send(ts_VPCD_DATA(first_sw_byte & second_sw_byte)); } /* Expect a pre-defined request (optional), and send a pre-defined response. This is a shortcut that only works in case * the response does not depend on the request. */ private function f_vpcd_transceive(octetstring response, octetstring expected_request := ''O) runs on IPAd_ConnHdlr { /* In case we do not use the VPCD (because we have some other kind of eUICC emulation or even a real card * present), we just skip. */ if (mp_use_vpcd == false) { return; } f_vpcd_store_data(expected_request); f_vpcd_store_data_final_ack(lengthof(response)); if (response != ''O) { f_vpcd_get_response_multi(response); } } /* Handle the opening of logical channel 1 and the selection of the ISD-R */ private function f_es10x_init() runs on IPAd_ConnHdlr { var charstring eim_fqdn := mp_esipa_ip & ":" & int2str(mp_esipa_port); /* If we decide not to use vpcd, then we must not initialize anything here */ if (mp_use_vpcd == false) { return; } /* Expect a TERMINAL CAPABILITIES request * (see also: 3GPP TS 102.221, section 11.1.19.2.4 and SGP.22, section 3.4.2) */ f_vpcd_exp(tr_VPCD_DATA('80AA000005A903830107'O)); f_vpcd_send(ts_VPCD_DATA('9000'O)); /* Expect a MANAGE CHANNEL request that opens logical channel 1 */ f_vpcd_exp(tr_VPCD_DATA('0070000100'O)); f_vpcd_send(ts_VPCD_DATA('9000'O)); /* Expect selection of ISD-R request */ f_vpcd_exp(tr_VPCD_DATA('01a4040410a0000005591010ffffffff8900000100'O)); f_vpcd_send(ts_VPCD_DATA('6121'O)); /* 21 bytes of response, which are not requested by the ipad. */ /* Expect the IPAd to query the eID from the eUICC */ f_vpcd_transceive(enc_GetEuiccDataResponse(valueof(ts_getEuiccDataResponse)), 'BF3E035C015A'O); /* Expect the IPAd to query the eIM configuration data from the eUICC */ f_vpcd_transceive(enc_GetEimConfigurationDataResponse(valueof(ts_getEimConfigurationDataResponse(eim_fqdn))), 'BF5500'O); } /* Handle the closing of logical channel 1 */ private function f_es10x_close() runs on IPAd_ConnHdlr { /* Expect a MANAGE CHANNEL request that closes logical channel 1 */ f_vpcd_exp(tr_VPCD_DATA('0070800100'O)); f_vpcd_send(ts_VPCD_DATA('9000'O)); } /* Receive ESipa HTTP request */ private function f_esipa_receive() runs on IPAd_ConnHdlr return EsipaMessageFromIpaToEim { var HTTPMessage esipa_req; timer T := 10.0; var EsipaMessageFromIpaToEim request; T.start; alt { [] HTTP_SRV.receive({ request_binary := ? }) -> value esipa_req { request := dec_EsipaMessageFromIpaToEim(esipa_req.request_binary.body); } [] T.timeout { setverdict(fail, "no HTTP request received?"); } } return request; } /* Send ESipa HTTP response */ private function f_esipa_send(EsipaMessageFromEimToIpa response) runs on IPAd_ConnHdlr { var octetstring esipa_res; esipa_res := enc_EsipaMessageFromEimToIpa(response); HTTP_SRV.send(ts_http_resp(esipa_res)); } /* Perform one ESipa HTTP request/response cycle */ private function f_esipa_transceive(EsipaMessageFromEimToIpa response) runs on IPAd_ConnHdlr return EsipaMessageFromIpaToEim { var EsipaMessageFromIpaToEim request; request := f_esipa_receive(); f_esipa_send(response); return request; } /* Perform one ESipa HTTP request/response cycle but with an empty response */ private function f_esipa_transceive_empty_response() runs on IPAd_ConnHdlr return EsipaMessageFromIpaToEim { var EsipaMessageFromIpaToEim request; request := f_esipa_receive(); HTTP_SRV.send(ts_http_resp(''O)); return request; } /* Common Mutual Authentication Procedure, see also: GSMA SGP.22, section 3.0.1 */ private function f_proc_cmn_mtl_auth() runs on IPAd_ConnHdlr { var EsipaMessageFromIpaToEim esipa_req; var EsipaMessageFromEimToIpa esipa_res; /* Step #1 */ f_vpcd_transceive(enc_EUICCInfo1(valueof(ts_EUICCInfo1)), 'bf2000'O); /* Step #2-#4 */ f_vpcd_transceive(enc_GetEuiccChallengeResponse(valueof(ts_GetEuiccChallengeResponse)), 'bf2e00'O); /* Step #5-#10 */ esipa_req := f_esipa_receive(); if (not match(esipa_req, tr_initiateAuthenticationRequestEsipa)) { setverdict(fail, "unexpected message from IPAd"); } esipa_res := valueof(ts_initiateAuthenticationResponseEsipa(euiccChallenge := esipa_req.initiateAuthenticationRequestEsipa.euiccChallenge)); f_esipa_send(esipa_res); /* Step #11-#14 */ f_vpcd_transceive(enc_AuthenticateServerResponse(valueof(ts_authenticateServerResponse))); /* Step #15-#17 */ esipa_req := f_esipa_transceive(valueof(ts_authenticateClientResponseEsipa_dpe)); if (not match(esipa_req, tr_authenticateClientRequestEsipa)) { setverdict(fail, "unexpected message from IPAd"); } } /* ********************************************* */ /* ********** BELOW ONLY TESTCASES! ************ */ /* ********************************************* */ /* A testcase to try out an indirect profile download, * See also: GSMA SGP.32, section 3.2.3.2: Indirect Profile Download */ private function f_TC_proc_indirect_prfle_dwnld(charstring id) runs on IPAd_ConnHdlr { var EsipaMessageFromIpaToEim esipa_req; var EsipaMessageFromEimToIpa esipa_res; var integer i; var charstring eim_fqdn := mp_esipa_ip & ":" & int2str(mp_esipa_port); var BoundProfilePackage boundProfilePackage; f_es10x_init(); f_http_register(); /* Prepare indirect profile download by responding with a download trigger request */ esipa_res := valueof(ts_getEimPackageResponse_dnlTrigReq); esipa_req := f_esipa_transceive(esipa_res); if (not match(esipa_req, tr_getEimPackageRequest)) { setverdict(fail, "unexpected message from IPAd"); } /* Expect the IPAd to query the eIM configuration data from the eUICC */ f_vpcd_transceive(enc_GetEimConfigurationDataResponse(valueof(ts_getEimConfigurationDataResponse(eim_fqdn))), 'BF5500'O); f_proc_cmn_mtl_auth(); f_vpcd_transceive(enc_PrepareDownloadResponse(valueof(ts_prepareDownloadResponse))); esipa_res := valueof(ts_getBoundProfilePackageResponseEsipa); esipa_req := f_esipa_transceive(esipa_res); boundProfilePackage := esipa_res.getBoundProfilePackageResponseEsipa.getBoundProfilePackageOkEsipa.boundProfilePackage; /* TODO: match response (we do not have a template yet) */ /* initialiseSecureChannelRequest */ f_vpcd_transceive(''O); /* Step #3 (ES8+.ConfigureISDP) */ for (i := 0; i < sizeof(boundProfilePackage.firstSequenceOf87); i := i + 1) { f_vpcd_transceive(''O); } /* Step #4 (ES8+.StoreMetadata) */ for (i := 0; i < sizeof(boundProfilePackage.sequenceOf88); i := i + 1) { f_vpcd_transceive(''O); } /* Step #5 (ES8+.ReplaceSessionKeys", optional, left out) */ if (ispresent(boundProfilePackage.secondSequenceOf87)) { for (i := 0; i < sizeof(boundProfilePackage.secondSequenceOf87); i := i + 1) { f_vpcd_transceive(''O); } } /* Step #6 (ES8+.LoadProfileElements) */ for (i := 0; i < sizeof(boundProfilePackage.sequenceOf86); i := i + 1) { if (i < sizeof(boundProfilePackage.sequenceOf86) - 1) { f_vpcd_transceive(''O); } else { /* In the last message we send the ProfileInstallationResult */ f_vpcd_transceive(enc_ProfileInstallationResult(valueof(ts_profileInstallationResult))); } } /* Responds to the profile auto enable attempt by the iPAD */ f_vpcd_transceive(enc_EnableUsingDDResponse(valueof(ts_enableUsingDDResponse))); /* Receive ProfileInstallationResult from iPAD->eIM */ esipa_req := f_esipa_transceive_empty_response(); /* TODO: match response (we do not have a template yet) */ /* Receive RemoveNotificationFromList from iPAD->eUICC */ f_vpcd_transceive(enc_NotificationSentResponse(valueof(ts_notificationSentResponse))); /* Wait some time until the the last HTTP response is actually delivered */ f_sleep(2.0); f_es10x_close(); setverdict(pass); } testcase TC_proc_indirect_prfle_dwnld() runs on MTC_CT { var charstring id := testcasename(); var IPAd_ConnHdlrPars pars := f_init_pars(); var IPAd_ConnHdlr vc_conn; f_init(id); vc_conn := f_start_handler(refers(f_TC_proc_indirect_prfle_dwnld), pars); vc_conn.done; setverdict(pass); } /* A testcase to try out an the Generic eUICC Package Download and Execution Procedure, * See also: GSMA SGP.32, section 3.3.1: Generic eUICC Package Download and Execution */ private function f_TC_proc_euicc_pkg_dwnld_exec(charstring id) runs on IPAd_ConnHdlr { var EsipaMessageFromIpaToEim esipa_req; var EsipaMessageFromEimToIpa esipa_res; f_es10x_init(); f_http_register(); /* Step #1-#2 */ esipa_res := valueof(ts_getEimPackageResponse_euiccPkgReq); esipa_req := f_esipa_transceive(esipa_res); if (not match(esipa_req, tr_getEimPackageRequest)) { setverdict(fail, "unexpected message from IPAd"); } /* Step #3-#8 */ f_vpcd_transceive(enc_EuiccPackageResult(valueof(ts_euiccPackageResult))); /* Step #9 */ f_vpcd_transceive(enc_RetrieveNotificationsListResponse(valueof(ts_retrieveNotificationsListResponse))); /* Step #10-14 */ esipa_res := valueof(ts_provideEimPackageResultResponse_eimAck(eimAcknowledgements := {1,2,3,4})); esipa_req := f_esipa_transceive(esipa_res); if (not match(esipa_req, tr_provideEimPackageResult_ePRAndNotif)) { setverdict(fail, "unexpected message from IPAd"); } /* Step #15-17 */ f_vpcd_transceive(enc_NotificationSentResponse(valueof(ts_notificationSentResponse))); f_vpcd_transceive(enc_NotificationSentResponse(valueof(ts_notificationSentResponse))); f_vpcd_transceive(enc_NotificationSentResponse(valueof(ts_notificationSentResponse))); f_vpcd_transceive(enc_NotificationSentResponse(valueof(ts_notificationSentResponse))); f_vpcd_transceive(enc_NotificationSentResponse(valueof(ts_notificationSentResponse))); /* Wait some time until the the last HTTP response is actually delivered */ f_sleep(2.0); f_es10x_close(); setverdict(pass); } testcase TC_proc_euicc_pkg_dwnld_exec() runs on MTC_CT { var charstring id := testcasename(); var IPAd_ConnHdlrPars pars := f_init_pars(); var IPAd_ConnHdlr vc_conn; f_init(id); vc_conn := f_start_handler(refers(f_TC_proc_euicc_pkg_dwnld_exec), pars); vc_conn.done; setverdict(pass); } /* A testcase to try out an the Generic eUICC Package Download and Execution Procedure, * but this time we force a rollback meneuver */ private function f_TC_proc_euicc_pkg_dwnld_exec_rollback(charstring id) runs on IPAd_ConnHdlr { var EsipaMessageFromIpaToEim esipa_req; var EsipaMessageFromEimToIpa esipa_res; f_es10x_init(); f_http_register(); /* Step #1-#2 */ esipa_res := valueof(ts_getEimPackageResponse_euiccPkgReq); esipa_req := f_esipa_transceive(esipa_res); if (not match(esipa_req, tr_getEimPackageRequest)) { setverdict(fail, "unexpected message from IPAd"); } /* Step #3-#8 */ f_vpcd_transceive(enc_EuiccPackageResult(valueof(ts_euiccPackageResult))); /* Step #9 */ f_vpcd_transceive(enc_RetrieveNotificationsListResponse(valueof(ts_retrieveNotificationsListResponse))); /* We now ignore the response from the IPAd. The IPAd will interpret this as a disturbed IP connection. */ f_esipa_receive(); /* To fix the problem, the IPAd will now try a profile rollback meneuver. */ f_vpcd_transceive(enc_ProfileRollbackResponse(valueof(ts_profileRollbackResponse)), enc_ProfileRollbackRequest(valueof(ts_profileRollbackRequest))); /* At this point the old profile is active again. The IPAd is now expected to start at Step #9 again * to continue the procedure normally. */ /* Step #9 */ f_vpcd_transceive(enc_RetrieveNotificationsListResponse(valueof(ts_retrieveNotificationsListResponse))); /* Step #10-14 */ esipa_res := valueof(ts_provideEimPackageResultResponse_eimAck(eimAcknowledgements := {1,2,3,4})); esipa_req := f_esipa_transceive(esipa_res); if (not match(esipa_req, tr_provideEimPackageResult_ePRAndNotif(euiccPackageResult := ?))) { setverdict(fail, "unexpected message from IPAd"); } /* Step #15-17 */ f_vpcd_transceive(enc_NotificationSentResponse(valueof(ts_notificationSentResponse))); f_vpcd_transceive(enc_NotificationSentResponse(valueof(ts_notificationSentResponse))); f_vpcd_transceive(enc_NotificationSentResponse(valueof(ts_notificationSentResponse))); f_vpcd_transceive(enc_NotificationSentResponse(valueof(ts_notificationSentResponse))); f_vpcd_transceive(enc_NotificationSentResponse(valueof(ts_notificationSentResponse))); /* Wait some time until the the last HTTP response is actually delivered */ f_sleep(2.0); f_es10x_close(); setverdict(pass); } testcase TC_proc_euicc_pkg_dwnld_exec_rollback() runs on MTC_CT { var charstring id := testcasename(); var IPAd_ConnHdlrPars pars := f_init_pars(); var IPAd_ConnHdlr vc_conn; f_init(id); vc_conn := f_start_handler(refers(f_TC_proc_euicc_pkg_dwnld_exec_rollback), pars); vc_conn.done; setverdict(pass); } /* A testcase to try out an IpaEuiccDataRequest */ private function f_TC_proc_euicc_data_req(charstring id) runs on IPAd_ConnHdlr { var EsipaMessageFromIpaToEim esipa_req; var EsipaMessageFromEimToIpa esipa_res; var charstring eim_fqdn := mp_esipa_ip & ":" & int2str(mp_esipa_port); f_es10x_init(); f_http_register(); /* IPAd requests a package, we tell it to execute an ipaEuiccDataRequest */ esipa_res := valueof(ts_getEimPackageResponse_euiccDataReq); esipa_req := f_esipa_transceive(esipa_res); if (not match(esipa_req, tr_getEimPackageRequest)) { setverdict(fail, "unexpected message from IPAd"); } /* IPAd will obtain the data from the eUICC */ f_vpcd_transceive(enc_EuiccConfiguredAddressesResponse(valueof(ts_euiccConfiguredAddressesResponse))); f_vpcd_transceive(enc_EUICCInfo1(valueof(ts_EUICCInfo1))); f_vpcd_transceive(enc_EUICCInfo2(valueof(ts_EUICCInfo2))); f_vpcd_transceive(enc_GetEimConfigurationDataResponse(valueof(ts_getEimConfigurationDataResponse(eim_fqdn)))); f_vpcd_transceive(enc_GetCertsResponse(valueof(ts_getCertsResponse))); f_vpcd_transceive(enc_RetrieveNotificationsListResponse(valueof(ts_retrieveNotificationsListResponse))); /* IPAd will return the data to us */ esipa_res := valueof(ts_provideEimPackageResultResponse_eimAck(eimAcknowledgements := {1,2,3,4})); esipa_req := f_esipa_transceive(esipa_res); /* Wait some time until the the last HTTP response is actually delivered */ f_sleep(2.0); f_es10x_close(); setverdict(pass); } testcase TC_proc_euicc_data_req() runs on MTC_CT { var charstring id := testcasename(); var IPAd_ConnHdlrPars pars := f_init_pars(); var IPAd_ConnHdlr vc_conn; f_init(id); vc_conn := f_start_handler(refers(f_TC_proc_euicc_data_req), pars); vc_conn.done; setverdict(pass); } /* A testcase to try out what happens when the eIM package request is rejected */ private function f_TC_get_eim_pkg_req_rej(charstring id) runs on IPAd_ConnHdlr { var EsipaMessageFromIpaToEim esipa_req; var EsipaMessageFromEimToIpa esipa_res; f_es10x_init(); f_http_register(); /* IPAd requests a package, we respond with an eimPackageError code 127 (undefined error) */ esipa_res := valueof(ts_getEimPackageResponse_eimPkgErrUndef); esipa_req := f_esipa_transceive(esipa_res); if (not match(esipa_req, tr_getEimPackageRequest)) { setverdict(fail, "unexpected message from IPAd"); } /* Wait some time until the the last HTTP response is actually delivered */ f_sleep(2.0); f_es10x_close(); setverdict(pass); } testcase TC_get_eim_pkg_req_rej() runs on MTC_CT { var charstring id := testcasename(); var IPAd_ConnHdlrPars pars := f_init_pars(); var IPAd_ConnHdlr vc_conn; f_init(id); vc_conn := f_start_handler(refers(f_TC_get_eim_pkg_req_rej), pars); vc_conn.done; setverdict(pass); } control { execute ( TC_proc_indirect_prfle_dwnld() ); execute ( TC_proc_euicc_pkg_dwnld_exec() ); execute ( TC_proc_euicc_pkg_dwnld_exec_rollback() ); execute ( TC_proc_euicc_data_req() ); execute ( TC_get_eim_pkg_req_rej() ); } }