FreeCalypso > hg > tcs211-l1-reconst
view g23m/condat/ms/src/alr/alr_test/alr_ncell_steps.cpp @ 0:509db1a7b7b8
initial import: leo2moko-r1
author | Space Falcon <falcon@ivan.Harhan.ORG> |
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date | Mon, 01 Jun 2015 03:24:05 +0000 |
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#include "alr_constraints.h" #include "alr_ncell_steps.h" /*------------------------------------------------------------------------------ * * Description: Measurement reporting for the serving cell is tested. The multiframe * period is set to two multiframes. It is expected that the * initial report to RR is send after eleven reports of layer 1 * and successive reports are send to RR after ten reports. * The number of TDMA frames between measurement reports to RR is * 102 TDMA frames which is equal to two multiframes. *-------------------------------------------------------------------------------*/ T_STEP meas_rep_bs_pa_mfrms_2() { BEGIN_STEP ("measurement reporting bs_pa_mfrms=2") { SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); AWAIT ( mph_measurement_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); AWAIT ( mph_measurement_ind_2() ); } } /*------------------------------------------------------------------------------- * * Description: Measurement reporting for the serving cell is tested. The multiframe * period is set to three multiframes. It is expected that the initial * report to RR is send after eight reports of layer 1 and successive * reports are send to RR after seven reports. The number of TDMA frames * between measurement reports to RR is 153 TDMA frames which is equal to * three multiframes. *-------------------------------------------------------------------------------*/ T_STEP meas_rep_bs_pa_mfrms_3() { BEGIN_STEP ("measurement reporting bs_pa_mfrms=3") { SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); AWAIT ( mph_measurement_ind_3() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); AWAIT ( mph_measurement_ind_4() ); } } /*-------------------------------------------------------------------------------- * * Description: Measurement reporting for the serving cell is tested. The multiframe * period is set to four multiframes. It is expected that the initial * report to RR is send after six reports of layer 1 and successive * reports are send to RR after five reports. The number of TDMA frames * between measurement reports to RR is 204 TDMA frames which is * equal to four multiframes. *-------------------------------------------------------------------------------*/ T_STEP meas_rep_bs_pa_mfrms_4() { BEGIN_STEP ("measurement reporting bs_pa_mfrms=4") { SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); AWAIT ( mph_measurement_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); AWAIT ( mph_measurement_ind_5() ); } } /*------------------------------------------------------------------------------ * * Description: Measurement reporting for the serving cell is tested. * The multiframe period is set to five multiframes. It is expected * that the initial report to RR is send after five reports of * layer 1 and successive reports are send to RR after four reports. * The number of TDMA frames between measurement reports to RR is * 255 TDMA frames which is equal to five multiframes. *-------------------------------------------------------------------------------*/ T_STEP meas_rep_bs_pa_mfrms_5() { BEGIN_STEP ("measurement reporting bs_pa_mfrms=5") { SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); AWAIT ( mph_measurement_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); AWAIT ( mph_measurement_ind_6() ); } } /*----------------------------------------------------------------------------- * * Description: Measurement reporting for the serving cell is tested. The multiframe * period is set to six multiframes. It is expected that the initial * report to RR is send after five reports of layer 1 and successive * reports are send to RR after three reports. The number of TDMA frames * between measurement reports to RR is 306 TDMA frames which is equal * to six multiframes. *-------------------------------------------------------------------------------*/ T_STEP meas_rep_bs_pa_mfrms_6() { BEGIN_STEP ("measurement reporting bs_pa_mfrms=6") { SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); AWAIT ( mph_measurement_ind_7() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); AWAIT ( mph_measurement_ind_8() ); } } /*--------------------------------------------------------------------------------- * * Description: Measurement reporting for the serving cell is tested. The multiframe * period is set to eight multiframes. It is expected that the initial * report to RR is send after five reports of layer 1 and successive * reports are send to RR after two reports. The number of TDMA frames * between measurement reports to RR is 408 TDMA frames which is equal to * eight multiframes. *-------------------------------------------------------------------------------*/ T_STEP meas_rep_bs_pa_mfrms_8() { BEGIN_STEP ("measurement reporting bs_pa_mfrms=8") { SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); AWAIT ( mph_measurement_ind_10() ); SEND ( mphc_rxlev_periodic_ind_1() ); SEND ( mphc_rxlev_periodic_ind_1() ); AWAIT ( mph_measurement_ind_11() ); } } /*--------------------------------------------------------------------------------- * * Description: The 10 seconds interval for next ncell synchronization in idle * mode is effected by sending (42/bs_pa_mfrms) measurement reports. * This function sends (count*3) number of measurement reports. *-------------------------------------------------------------------------------*/ T_STEP wait_ncsync_idle_2_14(int count) { BEGIN_STEP ("wait for ncsync expiry in idle mode") { int i; for( i=1 ; i<count ; i++ ) { SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_14() ); } SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); } } /*--------------------------------------------------------------------------------- * * Description: The 10 seconds interval for next ncell synchronization in idle * mode is effected by sending (42/bs_pa_mfrms) measurement reports. * This function sends (count*2) number of measurement reports. *-------------------------------------------------------------------------------*/ T_STEP wait_ncsync_idle_2_31(int count) { BEGIN_STEP ("wait for ncsync expiry in idle mode") { int i; for( i=1 ; i<count ; i++ ) { SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_31() ); } SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); } } /*--------------------------------------------------------------------------------- * * Description: The 10 seconds interval for next ncell synchronization in idle * mode is effected by sending (42/bs_pa_mfrms) measurement reports. * This function sends (count*3) number of measurement reports. *-------------------------------------------------------------------------------*/ T_STEP wait_ncsync_idle_3_33(int count) { BEGIN_STEP ("wait for ncsync expiry in idle mode") { int i; for( i=1 ; i<count ; i++ ) { SEND ( mphc_rxlev_periodic_ind_3() ); SEND ( mphc_rxlev_periodic_ind_3() ); SEND ( mphc_rxlev_periodic_ind_3() ); AWAIT ( mph_measurement_ind_33() ); } SEND ( mphc_rxlev_periodic_ind_3() ); SEND ( mphc_rxlev_periodic_ind_3() ); SEND ( mphc_rxlev_periodic_ind_3() ); } } /*--------------------------------------------------------------------------------- * * Description: The 10 seconds interval for next ncell synchronization in dedicated * mode is effected by sending 21 measurement reports. This function sends * 'count' number of measurement reports. *-------------------------------------------------------------------------------*/ T_STEP wait_ncsync_dedicated(int count) { BEGIN_STEP ("wait for ncsync expiry in dedicated mode") { int i; for( i=1 ; i<count ; i++ ) { SEND ( mphc_meas_report_4() ); AWAIT ( mph_measurement_ind_34() ); } SEND ( mphc_meas_report_4() ); } } /*--------------------------------------------------------------------------------- * * Description: The 10 seconds interval for next ncell synchronization in dedicated * mode is effected by sending 21 measurement reports. This function sends * 'count' number of measurement reports. *-------------------------------------------------------------------------------*/ T_STEP wait_ncsync_dedicated_102(int count) { BEGIN_STEP ("wait for ncsync expiry in dedicated mode") { int i; for( i=1 ; i<count ; i++ ) { SEND ( mphc_meas_report_4() ); AWAIT ( mph_measurement_ind_dummy(ARFCN_23,25) ); } SEND ( mphc_meas_report_4() ); } } /*--------------------------------------------------------------------------------- * * Description: The 10 seconds interval for next ncell synchronization in dedicated * mode is effected by sending 21 measurement reports. This function sends * 'count' number of measurement reports. *-------------------------------------------------------------------------------*/ T_STEP wait_ncsync_dedicated_102a(int count) { BEGIN_STEP ("wait for ncsync expiry in dedicated mode") { int i; for( i=1 ; i<count ; i++ ) { SEND ( mphc_meas_report_5() ); AWAIT ( mph_measurement_ind_dummy(ARFCN_23,25) ); } SEND ( mphc_meas_report_5() ); } } /*--------------------------------------------------------------------------------- * * Description: The 10 seconds interval for next ncell synchronization in dedicated * mode is effected by sending 21 measurement reports. This function sends * 'count' number of measurement reports. *-------------------------------------------------------------------------------*/ T_STEP wait_ncsync_dedicated_102b(int count) { BEGIN_STEP ("wait for ncsync expiry in dedicated mode") { int i; for( i=1 ; i<count ; i++ ) { SEND ( mphc_meas_report_6() ); AWAIT ( mph_measurement_ind_dummy(ARFCN_23,25) ); } SEND ( mphc_meas_report_6() ); } } /*--------------------------------------------------------------------------------- * * Description: The 10 seconds interval for next ncell synchronization in dedicated * mode is effected by sending 21 measurement reports. This function sends * 'count' number of measurement reports. *-------------------------------------------------------------------------------*/ T_STEP wait_ncsync_dedicated_102c(int count) { BEGIN_STEP ("wait for ncsync expiry in dedicated mode") { int i; for( i=1 ; i<count ; i++ ) { SEND ( mphc_meas_report_6a() ); AWAIT ( mph_measurement_ind_dummy(ARFCN_23,25) ); } SEND ( mphc_meas_report_6a() ); } } /*--------------------------------------------------------------------------------- * * Description: The 10 seconds interval for next ncell synchronization in dedicated * mode is effected by sending 21 measurement reports. This function sends * 'count' number of measurement reports. *-------------------------------------------------------------------------------*/ T_STEP wait_ncsync_dedicated_1020A(int count) { BEGIN_STEP ("wait for ncsync expiry in dedicated mode alr1020A") { int i; for( i=1 ; i<count ; i++ ) { SEND (mphc_meas_report_4a() ); AWAIT ( mph_measurement_ind_dummy(ARFCN_23,0x19) ); } SEND ( mphc_meas_report_4a() ); } } /*------------------------------------------------------------------------------ * * Description: The BA list contains the serving cell 23 and * the neighbour cells 1, 14 and 124. * The fieldstrength is 56 for channel 23, 12 for channel 1, * 44 for channel 14 and 25 for channel 124 (all values in GSM range). * The ranking for the neighbour cells is 14, 124 and at least channel 1. * Each reports contains two fieldstrength values per channel. * The multiframe period is set to 6. The first measurement report * is send to RR after five reports from PL. Then after each * three reports from PL a measurement report is send to RR. * Synchronisation to channel 14 fails. *-------------------------------------------------------------------------------*/ T_STEP sync_to_ncell_14_fails_once() { BEGIN_STEP ("sync to ncell 14 failes once") { SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1) ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_13() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_sync_ind_failed(ARFCN_14) ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124)); SEND ( mphc_ncell_sync_ind_3() ); AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_1) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_124) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124) ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_15() ); AWAIT ( mph_unitdata_ind_si3(ARFCN_1) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_124) ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14) ); AWAIT ( mph_measurement_ind_15() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_sync_ind (ARFCN_14) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_14) ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_15() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_14) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14) ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_14() ); AWAIT ( mph_unitdata_ind_si3(ARFCN_14) ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_14() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_14() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mphc_ncell_list_sync_req_1a() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1) ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_sync_ind_3() ); AWAIT ( mph_measurement_ind_14() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_14() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_14() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_14() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_sync_ind (ARFCN_14) ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_14() ); SEND ( mphc_rxlev_periodic_ind_2() ); } } /*------------------------------------------------------------------------------ * * Description: ALR requests successive reading of BCCH for all neighbour cells. * This failed for channel 14. *-------------------------------------------------------------------------------*/ T_STEP ncell_bcch_read_fails_for_ncell_14() { BEGIN_STEP ("ncell BCCH read fails for ncell 14") { SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1) ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_13() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_sync_ind (ARFCN_14) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_14) ); SEND ( mphc_ncell_bcch_ind_invalid(ARFCN_14) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_14) ); SEND ( mphc_ncell_bcch_ind_invalid(ARFCN_14) ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_14) ); SEND ( mphc_ncell_bcch_ind_invalid(ARFCN_14) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_14) ); SEND ( mphc_ncell_bcch_ind_invalid(ARFCN_14) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14) ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_16() ); SEND ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1) ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_sync_ind_5() ); AWAIT ( mphc_ncell_bcch_req (ARFCN_124, FN_OFF_ARFCN_124, TIME_ALIGNMT_124)); AWAIT ( mphc_ncell_bcch_req (ARFCN_1, FN_OFF_ARFCN_1, TIME_ALIGNMT_1) ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mphc_ncell_sync_req_1a() ); AWAIT ( mph_measurement_ind_16() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_124) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124) ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_1) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1) ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_15() ); AWAIT ( mph_unitdata_ind_si3(ARFCN_1) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_124) ); SEND ( mphc_ncell_sync_ind (ARFCN_14) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_14) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_14) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14) ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_14() ); AWAIT ( mph_unitdata_ind_si3(ARFCN_14) ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_14() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_14() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mphc_ncell_list_sync_req_1a()); } } /*------------------------------------------------------------------------------ * * Description: The multiband parameter is set to 0, that means the neighbourcells * are ranked after the fieldstrength. The serving cell is 23 * (that means in the GSM 900 frequency band). The neighbourcell list * contains eight channels : 1, 14, 25, 124, 512 580, 637 and 885. * It is expected, that ALR starts synchronization to the six * strongest cells 637, 25, 14, 512, 580, 885. This channels must * be included in the measurement report to RR. *-------------------------------------------------------------------------------*/ T_STEP ncell_reporting_multiband_0_scell_is_gsm900() { BEGIN_STEP("ncell: multiband 0/scell is gsm900") { START_TIMEOUT(29500); SEND ( mphc_rxlev_periodic_ind_3() ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_637) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_25) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_512) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_580) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_885) ); SEND ( mphc_rxlev_periodic_ind_3() ); AWAIT ( mph_measurement_ind_7() ); SEND ( mphc_ncell_sync_ind_12() ); AWAIT ( mphc_ncell_bcch_req_10() ); SEND ( mphc_ncell_sync_ind (ARFCN_25) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_25) ); SEND ( mphc_ncell_sync_ind (ARFCN_14) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_14) ); SEND ( mphc_ncell_sync_ind (ARFCN_512) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_512) ); SEND ( mphc_ncell_sync_ind_15() ); AWAIT ( mphc_ncell_bcch_req_13() ); SEND ( mphc_ncell_sync_ind_16() ); AWAIT ( mphc_ncell_bcch_req (ARFCN_885) ); SEND ( mphc_rxlev_periodic_ind_3() ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_637) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_637) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_25) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_25) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_14) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_512) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_512) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_580) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_580) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_885) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_885) ); SEND ( mphc_rxlev_periodic_ind_3() ); SEND ( mphc_rxlev_periodic_ind_3() ); AWAIT ( mph_measurement_ind_21() ); AWAIT ( mph_unitdata_ind_si3(ARFCN_14) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_25) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_512) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_580) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_637) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_885) ); SEND ( mphc_rxlev_periodic_ind_3() ); SEND ( mphc_rxlev_periodic_ind_3() ); SEND ( mphc_rxlev_periodic_ind_3() ); AWAIT ( mph_measurement_ind_21() ); SEND ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1) ); WAIT_TIMEOUT(); } } /*--------------------------------------------------------------------------------- * * Description: The multiband parameter is set to 0, that means the neighbourcells * are ranked after the fieldstrength. The serving cell is 578 * (that means in the DCS 1800 frequency band). The neighbourcell list * contains eight channels : 1, 14, 25, 124, 512 580, 637 and 885. It is * expected, that ALR starts synchronization to the six strongest cells * 14, 25, 512, 580, 637, 885. These channels must be included in * the measurement report to RR. *-------------------------------------------------------------------------------*/ T_STEP ncell_reporting_multiband_0_scell_is_gsm1800() { BEGIN_STEP("ncell: multiband 0/scell is gsm1800") { START_TIMEOUT(29500); SEND ( mphc_rxlev_periodic_ind_4() ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_637) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_25) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_512) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_580) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_885) ); SEND ( mphc_rxlev_periodic_ind_4() ); AWAIT ( mph_measurement_ind_22() ); SEND ( mphc_ncell_sync_ind_12() ); AWAIT ( mphc_ncell_bcch_req_10() ); SEND ( mphc_ncell_sync_ind (ARFCN_25) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_25) ); SEND ( mphc_ncell_sync_ind (ARFCN_14) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_14) ); SEND ( mphc_ncell_sync_ind (ARFCN_512) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_512) ); SEND ( mphc_ncell_sync_ind_15() ); AWAIT ( mphc_ncell_bcch_req_13() ); SEND ( mphc_ncell_sync_ind_16() ); AWAIT ( mphc_ncell_bcch_req (ARFCN_885) ); SEND ( mphc_rxlev_periodic_ind_4() ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_637) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_637) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_25) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_25) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_14) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_512) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_512) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_580) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_580) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_885) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_885) ); SEND ( mphc_rxlev_periodic_ind_4() ); SEND ( mphc_rxlev_periodic_ind_4() ); AWAIT ( mph_measurement_ind_23() ); AWAIT ( mph_unitdata_ind_si3(ARFCN_14) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_25) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_512) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_580) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_637) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_885) ); SEND ( mphc_rxlev_periodic_ind_4() ); SEND ( mphc_rxlev_periodic_ind_4() ); SEND ( mphc_rxlev_periodic_ind_4() ); AWAIT ( mph_measurement_ind_23() ); WAIT_TIMEOUT(); } } /*------------------------------------------------------------------------------ * * Description: The BA list contains the serving cell 23 and the * neighbour cells 1, 14 and 124. * The fieldstrength is 56 for channel 23, 12 for channel 1, * 44 for channel 14 and 25 for channel 124 (all values in GSM range). * The ranking for the neighbour cells is 14, 124 and channel 1. * Each reports contains two fieldstrength values per channel. * The multiframe period is set to 6. The first measurement report * is send to RR after five reports from PL. Then after each three * reports from PL a measurement report is send to RR. The NCC permitted * check for neighbour cell 124 fails. The cell shall be excluded * from further attempts. *-------------------------------------------------------------------------------*/ T_STEP ncell_sync_ncc_permitted_check() { BEGIN_STEP ("ncell sync, NCC is not permitted for ncell 124") { SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1) ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_13() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_sync_ind(ARFCN_14,FN_OFF_ARFCN_14,TIME_ALIGNMT_14,BSIC_16) ); AWAIT ( mphc_ncell_bcch_req_4() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_sync_ind(ARFCN_124,FN_OFF_ARFCN_124,TIME_ALIGNMT_124,BSIC_1) ); SEND ( mphc_ncell_sync_ind(ARFCN_1,FN_OFF_ARFCN_1,TIME_ALIGNMT_1,BSIC_16) ); AWAIT ( mphc_ncell_bcch_req_5() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_16() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_14) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_1) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1) ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124) ); AWAIT ( mph_measurement_ind_17() ); AWAIT ( mph_unitdata_ind_si3(ARFCN_1) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_14) ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); SEND ( mphc_rxlev_periodic_ind_2() ); AWAIT ( mph_measurement_ind_17() ); } } /*------------------------------------------------------------------------------ * * Description: The multiband parameter is set to 1, that means at least one of * the neighbourcells is member of the non-serving cell band * (that means in the DCS 1800 frequency band). The serving cell * is 23 (that means in the GSM 900 frequency band). The neighbourcell * list contains eight channels : 1, 11, 14, 25,87, 124, 512 and 885. * It is expected, that ALR starts synchronization to the six * cells 14, 87, 25, 11, 1 and 512. This channels must be included * in the measurement report to RR. ALR shall not synchronize to 885, * although the cell has a better fieldstrength than most channels * of the GSM 900 frequency band. *-------------------------------------------------------------------------------*/ T_STEP ncell_reporting_multiband_1_scell_is_gsm900() { BEGIN_STEP("ncell: multiband 1/scell is gsm900") { SEND ( mphc_rxlev_periodic_ind_5() ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_25) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_512) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_11) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_87) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_124) ); SEND ( mphc_rxlev_periodic_ind_5() ); AWAIT ( mph_measurement_ind_13() ); SEND ( mphc_ncell_sync_ind (ARFCN_25) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_25) ); SEND ( mphc_ncell_sync_ind (ARFCN_14) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_14) ); SEND ( mphc_ncell_sync_ind (ARFCN_512) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_512) ); SEND ( mphc_ncell_sync_ind (ARFCN_11) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_11) ); SEND ( mphc_ncell_sync_ind (ARFCN_87) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_87) ); SEND ( mphc_ncell_sync_ind (ARFCN_124) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_124) ); SEND ( mphc_rxlev_periodic_ind_5() ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_25) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_25) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_14) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_512) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_512) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_11) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_11) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_87) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_87) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_124) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_124) ); SEND ( mphc_rxlev_periodic_ind_5() ); SEND ( mphc_rxlev_periodic_ind_5() ); AWAIT ( mph_measurement_ind_24() ); AWAIT ( mph_unitdata_ind_si3(ARFCN_11) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_14) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_25) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_87) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_124) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_512) ); SEND ( mphc_rxlev_periodic_ind_5() ); SEND ( mphc_rxlev_periodic_ind_5() ); SEND ( mphc_rxlev_periodic_ind_5() ); AWAIT ( mph_measurement_ind_24() ); } } T_STEP ncell_reporting_multiband_1_scell_is_gsm900_4ch() { BEGIN_STEP("ncell: multiband 1/scell is gsm900 4ch") { SEND ( mphc_rxlev_periodic_ind_6() ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_14) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_512) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_885) ); AWAIT ( mphc_ncell_sync_req_initial(ARFCN_1) ); SEND ( mphc_rxlev_periodic_ind_6() ); AWAIT ( mph_measurement_ind_13() ); SEND ( mphc_ncell_sync_ind (ARFCN_14) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_14) ); SEND ( mphc_ncell_sync_ind (ARFCN_512) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_512) ); SEND ( mphc_ncell_sync_ind_16() ); AWAIT ( mphc_ncell_bcch_req (ARFCN_885) ); SEND ( mphc_ncell_sync_ind (ARFCN_1) ); AWAIT ( mphc_ncell_bcch_req (ARFCN_1) ); SEND ( mphc_rxlev_periodic_ind_6() ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_14) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_14) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_512) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_512) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_885) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_885) ); SEND ( mphc_ncell_bcch_ind_si3(ARFCN_1) ); AWAIT ( mphc_stop_ncell_bcch_req(ARFCN_1) ); SEND ( mphc_rxlev_periodic_ind_6() ); SEND ( mphc_rxlev_periodic_ind_6() ); AWAIT ( mph_measurement_ind_25() ); AWAIT ( mph_unitdata_ind_si3(ARFCN_1) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_14) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_512) ); AWAIT ( mph_unitdata_ind_si3(ARFCN_885) ); SEND ( mphc_rxlev_periodic_ind_6() ); SEND ( mphc_rxlev_periodic_ind_6() ); SEND ( mphc_rxlev_periodic_ind_6() ); AWAIT ( mph_measurement_ind_25() ); } }