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view src/g23m-gsm/alr3/alr_main.c @ 63:c7e5cb543a53
src/g23m-gsm/dl/dl_{state,trc}.c: include case fix
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Thu, 19 Jul 2018 23:33:27 +0000 |
parents | e636eadcad21 |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS | Modul : ALR_MAIN +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : This Modul defines the functions for the SDL process | Main_Control of the ALR functionality. +----------------------------------------------------------------------------- */ #ifndef ALR_MAIN_C #define ALR_MAIN_C #define ENTITY_PL /*==== INCLUDES ===================================================*/ #include <string.h> #include <stdlib.h> #include <ctype.h> #include "typedefs.h" #include "message.h" #include "ccdapi.h" #include "vsi.h" #include "custom.h" #include "gsm.h" #include "prim.h" #include "cnf_alr.h" #include "mon_alr.h" #include "pei.h" #include "tok.h" #include "pcm.h" #ifdef GPRS #include "alr_gprs.h" #endif #if defined (WIN32) #define TRACING #else /* #define TRACING */ /* #define DL_TRACE_ENABLED */ #endif #include "alr.h" #include "alr_em.h" #if defined (TRACING) #define ALR_TRACE_MAIN(a) ALR_TRACE(a) #else #define ALR_TRACE_MAIN(a) #endif #if defined (TRACING) #define ALR_TRACE_MAIN_BSIC_REQ(s) TRACE_EVENT_P1 ("bsic_req state %d",s) #define ALR_TRACE_MAIN_RAND_ACC(s,m) TRACE_EVENT_P2 ("con est on for: %d %d times", s, m); #define ALR_TRACE_MAIN_SCELL(o,s) TRACE_EVENT_P2 ("SC [%d]->[%d]", o, s) #define ALR_TRACE_MAIN_VALID_BLOCK(m) TRACE_EVENT_P1 ("VALID BLOCK %d", m) #define ALR_TRACE_MAIN_SI_UNEQ(c) TRACE_EVENT_P1 ("si uneq %d", c) #define ALR_TRACE_MAIN_CR(m) TRACE_EVENT_P1 ("VALID BLOCK CR %d",m) #ifdef TI_PS_FF_QUAD_BAND_SUPPORT #define ALR_TRACE_MAIN_RACH(t) TRACE_EVENT_P1 ("powerclass txpwr %d", t) #else #define ALR_TRACE_MAIN_RACH(p,t) TRACE_EVENT_P2 ("powerclass gsm %d txpwr %d", p, t) #endif #define ALR_TRACE_MAIN_POWER_CNF { USHORT i; \ TRACE_EVENT_P1 ("power cnf: %d channels", mph_power_cnf->num_of_chan)\ for (i = 0; i < mph_power_cnf->num_of_chan; i++) { \ TRACE_EVENT_P2 ("rx_lev[%4d]= %d", \ mph_power_cnf->arfcn[i]&ARFCN_MASK, \ mph_power_cnf->rx_lev[i]);} } #define ALR_TRACE_MAIN_RA_CNF(t1,t2,t3) TRACE_EVENT_P3 ("af: %d %d %d", t1,t2,t3) #else /* TRACING */ #define ALR_TRACE_MAIN_BSIC_REQ(s) #define ALR_TRACE_MAIN_RAND_ACC(s,m) #define ALR_TRACE_MAIN_SCELL(o,s) #define ALR_TRACE_MAIN_VALID_BLOCK(m) #define ALR_TRACE_MAIN_SI_UNEQ(c) #define ALR_TRACE_MAIN_CR(m) #ifdef TI_PS_FF_QUAD_BAND_SUPPORT #define ALR_TRACE_MAIN_RACH(t) #else #define ALR_TRACE_MAIN_RACH(p,t) #endif #define ALR_TRACE_MAIN_POWER_CNF #define ALR_TRACE_MAIN_RA_CNF(t1,t2,t3) #endif /* TRACING */ /*==== EXPORT =====================================================*/ /*==== PRIVAT =====================================================*/ /*==== VARIABLES ==================================================*/ LOCAL UBYTE from_dedicated = FALSE; /*==== FUNCTIONS ==================================================*/ LOCAL BOOL ma_compare_dedi_sys_buffer (T_MPHC_DATA_IND *mphc_data_ind, UBYTE msg_t); LOCAL void ma_fill_dedi_sys_buffer (T_MPHC_DATA_IND *mphc_data_ind, UBYTE msg_t); LOCAL void ma_stop_rxlev_periodic_req (void); LOCAL BOOL ma_compare_sys_buffer (T_MPHC_DATA_IND *mphc_data_ind, UBYTE msg_t); LOCAL void ma_send_dedi_unitdata (T_MPHC_DATA_IND *data_ind); LOCAL void ma_sync_ind (UBYTE cause, USHORT arfcn); LOCAL void ma_set_si_bitmap (UBYTE msg_t); LOCAL void ma_fill_sys_buffer (T_MPHC_DATA_IND *data_ind, UBYTE msg_t); LOCAL void ma_dedi_data_out (T_PH_DATA_IND *data_ind); #ifdef TI_PS_FF_QUAD_BAND_SUPPORT LOCAL void compare_l1_frequency_band_with_ffs (T_MPHC_INIT_L1_CON *init_l1_cnf); #endif /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_CS | | STATE : code ROUTINE : ma_init | +--------------------------------------------------------------------+ PURPOSE : Initialize Main Control. */ GLOBAL void ma_init (void) { GET_INSTANCE_DATA; memset (alr_data, 0, sizeof (T_ALR_DATA)); alr_data->state[STATE_MA] = MA_NULL; alr_data->mmi = 2; /* EVA 4 Board */ alr_data->keypad = 2; /* EVA 4 Board */ alr_data->ext_display = FALSE; /* internal display */ alr_data->pch_data.last_start_ccch_req.bs_pa_mfrms = NOT_PRESENT_8BIT; ma_clean_sys_buffer (IND_ALL_SI); ma_clean_dedi_sys_buffer (); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_idle_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_IDLE_REQ. */ UBYTE v_eotd = 0; /* for test automation */ GLOBAL void ma_mph_idle_req (T_MPH_IDLE_REQ* idle) { GET_INSTANCE_DATA; if(idle->mod EQ MODE_CELL_SELECTION) { alr_data->nc_data.eotd_avail = idle->eotd_avail | v_eotd; #if defined (REL99) && defined (TI_PS_FF_EMR) if(idle->si2quater_status EQ SI2QUATER_CONFIGURE) { alr_data->nc_data.si2quater_status = SI2QUATER_CONFIGURE; alr_data->nc_data.si2quater_pos = idle->si2quater_pos; } else if(idle->si2quater_status EQ SI2QUATER_ABSENT ) { alr_data->nc_data.si2quater_status = SI2QUATER_ABSENT; } alr_data->nc_data.si2_count = NOT_PRESENT_8BIT; #endif } switch (GET_STATE (STATE_MA)) { case MA_DEDICATED: ALR_TRACE_MAIN ("leave dedi"); ma_stop_active_procs(DONT_STOP_PCH_READING); alr_data->bs_pa_mfrms = idle->bs_pa_mfrms; nc_new_serving_cell (idle->arfcn); switch(idle->mod) { case MODE_CELL_RESELECTION: ALR_TRACE_MAIN ("CR"); trc_state_transition(__LINE__, MA_CELL_RESELECTION); SET_STATE (STATE_MA, MA_CELL_RESELECTION); #ifdef GPRS /* * if going to a PBCCH cell we have to update the * ncell states with GRR */ gprs_alr_init(); alr_data->nc_sync_with_grr = TRUE; #endif from_dedicated = TRUE; rach_init (); rach_configure_power (idle->power); pch_configure (idle, PGM_REORG); pch_save_pgm(PGM_REORG_CS); /* reset saved pgm to REORG_CS */ nc_suspend (); /* to set the nc state */ nc_start_reselect (idle->arfcn); break; case MODE_CELL_SELECTION: ALR_TRACE_MAIN ("CS"); if (idle->arfcn NEQ alr_data->old_serving_cell) { ALR_TRACE_MAIN ("CS but different cell!!!"); } trc_state_transition(__LINE__, MA_IDLE); SET_STATE(STATE_MA, MA_IDLE); nc_suspend(); /* stop dedicated mode activity */ nc_add_offset(); #ifdef GPRS set_gprs_support(idle->gprs_support); #endif pch_configure (idle, SAVED_PGM); pch_start_ccch_req(); cb_start(); nc_start_monitoring(); break; #ifdef GPRS case MODE_CONFIG_PL: /* Cell has PBCCH */ ma_stop_active_procs(STOP_PCH_READING); nc_suspend(); /* stop dedicated mode activity */ gprs_alr_init(); set_gprs_support(idle->gprs_support); alr_data->nc_sync_with_grr = TRUE; alr_data->gprs_data.pbcch = TRUE; nc_add_offset(); /* convert counters */ rach_init (); rach_configure_power (idle->power); pch_configure (idle, PGM_NORMAL); alr_data->nc_sync_with_grr = TRUE; SET_STATE(STATE_MA, MA_IDLE); break; #endif default: break; } break; case MA_CON_EST: #ifdef GPRS if(idle->mod EQ MODE_PACKET_TRANSFER) /* transition to PTM */ { /* * NC BCCH reading doesn't need to be stopped, because it has * already been stopped when entering MA_CON_EST */ ma_stop_active_procs(STOP_PCH_READING); SET_STATE (STATE_MA, MA_PTM); } else { #endif /* GPRS */ ma_stop_active_procs(DONT_STOP_PCH_READING); rach_configure_power (idle->power); alr_data->bs_pa_mfrms = idle->bs_pa_mfrms; nc_new_serving_cell (idle->arfcn); #ifdef GPRS if(idle->mod EQ MODE_CONFIG_PL) { ma_stop_active_procs(STOP_PCH_READING); gprs_alr_init(); set_gprs_support(idle->gprs_support); alr_data->gprs_data.pbcch = TRUE; alr_data->nc_sync_with_grr = TRUE; rach_init (); rach_configure_power (idle->power); pch_configure (idle, PGM_NORMAL); SET_STATE(STATE_MA, MA_IDLE); } else { #endif if (idle->arfcn EQ alr_data->old_serving_cell) { /* coming back after RACH failure */ trc_state_transition(__LINE__, MA_IDLE); SET_STATE (STATE_MA, MA_IDLE); #ifdef GPRS set_gprs_support(idle->gprs_support); #endif pch_configure (idle, SAVED_PGM); pch_start_ccch_req(); cb_start(); nc_start_monitoring(); } else { trc_state_transition(__LINE__, MA_CELL_RESELECTION); SET_STATE (STATE_MA, MA_CELL_RESELECTION); #ifdef GPRS /* * if going to a PBCCH cell we have to update the * ncell states with GRR */ gprs_alr_init(); alr_data->nc_sync_with_grr = TRUE; #endif pch_configure (idle, PGM_REORG); pch_save_pgm(PGM_REORG_CS); /* reset saved pgm to REORG_CS */ nc_start_reselect (idle->arfcn); } #ifdef GPRS } } #endif break; case MA_CELL_SELECTION: TRACE_EVENT_P1 ("SC[%u] in use, leave CS", idle->arfcn); #ifdef GPRS if(idle->mod EQ MODE_CONFIG_PL) { ma_stop_active_procs(STOP_PCH_READING); gprs_alr_init(); set_gprs_support(idle->gprs_support); alr_data->gprs_data.pbcch = TRUE; alr_data->nc_sync_with_grr = TRUE; rach_init (); rach_configure_power (idle->power); nc_new_serving_cell (idle->arfcn); pch_configure (idle, PGM_NORMAL); SET_STATE(STATE_MA, MA_IDLE); break; } #endif ALR_EM_CONFIGURE_IDLE_MODE; ma_stop_active_procs(DONT_STOP_PCH_READING); trc_state_transition(__LINE__, MA_IDLE); SET_STATE (STATE_MA, MA_IDLE); #ifdef GPRS alr_data->nc_sync_with_grr=FALSE; set_gprs_support(idle->gprs_support); #endif rach_configure_power (idle->power); alr_data->bs_pa_mfrms = idle->bs_pa_mfrms; nc_check_new_ncc_permitted (idle->ncc_permitted); nc_new_serving_cell (idle->arfcn); pch_configure (idle, PGM_REORG_CS); pch_save_pgm(0); /* reset saved pgm to REORG_CS */ pch_start_ccch_req(); /* * nc_start_monitoring will be called when ncell list from RR * is received */ break; case MA_IDLE: switch (idle->mod) { #ifdef GPRS case MODE_PACKET_TRANSFER: /* transition to PTM */ /*NC BCCH reading will be stopped when leaving idle*/ ma_stop_active_procs(STOP_PCH_READING | STOP_MEASUREMENTS); SET_STATE (STATE_MA, MA_PTM); break; case MODE_CONFIG_PL: ma_stop_active_procs(STOP_PCH_READING|STOP_MEASUREMENTS); gprs_alr_init(); set_gprs_support(idle->gprs_support); /* PBCCH activated in cell */ alr_data->nc_sync_with_grr = TRUE; alr_data->gprs_data.pbcch = TRUE; rach_init (); rach_configure_power (idle->power); pch_configure (idle, PGM_NORMAL); SET_STATE(STATE_MA, MA_IDLE); break; #endif /* GPRS */ case MODE_CELL_RESELECTION: ALR_TRACE_MAIN ("idle mode cr"); ma_stop_active_procs(STOP_PCH_READING | STOP_MEASUREMENTS); trc_state_transition(__LINE__, MA_CELL_RESELECTION); SET_STATE (STATE_MA, MA_CELL_RESELECTION); #ifdef GPRS /* * if going to a PBCCH cell we have to update the * ncell states with GRR */ gprs_alr_init(); alr_data->nc_sync_with_grr = TRUE; #endif rach_init (); rach_configure_power (idle->power); TRACE_EVENT("IDLE_REQ : Cell found after CR"); alr_data->bs_pa_mfrms = idle->bs_pa_mfrms; // nc_check_new_ncc_permitted(idle->ncc_permitted); nc_new_serving_cell (idle->arfcn); pch_configure (idle, PGM_REORG); pch_save_pgm(PGM_REORG_CS); /* reset saved pgm to REORG_CS */ nc_start_reselect (idle->arfcn); break; #ifdef GPRS case MODE_CELL_RESELECTION_SYNC_ONLY: if(alr_data->gprs_data.pbcch) { alr_data->gprs_data.sync_only=1; alr_data->gprs_data.ptm=0; ma_stop_active_procs(STOP_PCH_READING); trc_state_transition(__LINE__, MA_CELL_RESELECTION); SET_STATE (STATE_MA, MA_CELL_RESELECTION); nc_new_serving_cell (idle->arfcn); nc_start_reselect (idle->arfcn); } break; #endif case MODE_SYS_INFO_CHANGE: ALR_TRACE_MAIN ("idle mode sys info changed"); rach_init (); rach_configure_power (idle->power); alr_data->bs_pa_mfrms = idle->bs_pa_mfrms; nc_check_new_ncc_permitted (idle->ncc_permitted); if((idle->tn/2) NEQ (alr_data->pch_data.pl_idle.ccch_group) #ifdef GPRS OR alr_data->gprs_data.pbcch #endif ) { /* stop CCCH reading beforehand */ ma_stop_active_procs(STOP_PCH_READING | STOP_MEASUREMENTS); #ifdef GPRS gprs_alr_init(); set_gprs_support(idle->gprs_support); #endif pch_configure (idle, PGM_REORG_CS); pch_save_pgm(PGM_REORG_CS); /* reset saved pgm to REORG_CS */ pch_start_ccch_req(); nc_start_monitoring (); } else { #ifdef GPRS if(idle->reorg_only EQ NORMAL_PGM AND alr_data->gprs_data.ign_pgm EQ TRUE) { /* * use last page mode read on PCH * when the NON_DRX_TIMER has expired */ pch_configure (idle, SAVED_PGM); pch_start_ccch_req(); alr_data->gprs_data.ign_pgm = FALSE; } else if(alr_data->gprs_data.ign_pgm EQ FALSE) { set_gprs_support(idle->gprs_support); if(gprs_alr_is_supported()) { gprs_alr_init(); set_gprs_support(idle->gprs_support); ma_stop_scell_bcch_req(); } #endif pch_save_pgm(0); /* save current pgm */ pch_configure (idle, SAVED_PGM); pch_start_ccch_req(); #ifdef GPRS } /* other case should not happen */ #endif } break; case MODE_CELL_SELECTION: /* XXX does not seem to be used by RR*/ break; default: break; } break; case MA_CELL_RESELECTION: switch(idle->mod) { case MODE_CELL_SELECTION: ALR_TRACE_MAIN ("from cr use cell"); /* we have found a suitable cell */ ma_stop_active_procs(DONT_STOP_PCH_READING); rach_init (); rach_configure_power (idle->power); TRACE_EVENT("IDLE_REQ : PM config after CR"); alr_data->bs_pa_mfrms = idle->bs_pa_mfrms; nc_check_new_ncc_permitted (idle->ncc_permitted); if (from_dedicated) { from_dedicated = FALSE; nc_add_offset (); } pch_configure (idle, SAVED_PGM); /* For OMAPS#90692 - Move to MA_IDLE before configuring * the serving cell BCCH request, so as not to reset the * si_bitmap again */ trc_state_transition(__LINE__, MA_IDLE); SET_STATE (STATE_MA, MA_IDLE); pch_start_ccch_req(); #ifdef GPRS alr_data->nc_sync_with_grr=FALSE; set_gprs_support(idle->gprs_support); #endif /* * resume neighbourcell operation */ nc_start_monitoring (); break; case MODE_CELL_RESELECTION: /* the last cell wasn't the right one, try again */ ma_stop_active_procs(STOP_PCH_READING);/* donīt forget to stop all processes */ #ifdef GPRS gprs_alr_init(); #endif alr_data->bs_pa_mfrms = idle->bs_pa_mfrms; // nc_check_new_ncc_permitted (idle->ncc_permitted); nc_new_serving_cell (idle->arfcn); pch_configure (idle, PGM_REORG); pch_save_pgm(PGM_REORG_CS); /* reset saved pgm to REORG_CS */ nc_start_reselect (idle->arfcn); break; #ifdef GPRS case MODE_CONFIG_PL: ma_stop_active_procs(STOP_PCH_READING); if (from_dedicated) from_dedicated = FALSE; gprs_alr_init(); set_gprs_support(idle->gprs_support); alr_data->gprs_data.pbcch = TRUE; alr_data->nc_sync_with_grr = TRUE; rach_init (); rach_configure_power (idle->power); pch_configure (idle, PGM_NORMAL); SET_STATE(STATE_MA, MA_IDLE); break; #endif default: break; } break; #ifdef GPRS case MA_PTM: /* back to packet idle */ ma_stop_active_procs(DONT_STOP_PCH_READING); rach_configure_power (idle->power); alr_data->bs_pa_mfrms = idle->bs_pa_mfrms; nc_new_serving_cell (idle->arfcn); nc_suspend(); if (idle->arfcn EQ alr_data->old_serving_cell) { trc_state_transition(__LINE__, MA_IDLE); SET_STATE(STATE_MA, MA_IDLE); #ifdef GPRS set_gprs_support(idle->gprs_support); #endif if(idle->reorg_only EQ REORG_ONLY) { pch_configure (idle, PGM_REORG_CS); alr_data->gprs_data.ign_pgm = TRUE; } else { pch_configure (idle, SAVED_PGM); alr_data->gprs_data.ign_pgm = FALSE; } pch_start_ccch_req(); cb_start(); nc_start_monitoring(); } else { trc_state_transition(__LINE__, MA_CELL_RESELECTION); SET_STATE (STATE_MA, MA_CELL_RESELECTION); #ifdef GPRS /* * if going to a PBCCH cell we have to update the * ncell states with GRR */ gprs_alr_init(); alr_data->nc_sync_with_grr = TRUE; #endif pch_configure (idle, PGM_REORG); pch_save_pgm(PGM_REORG_CS); /* reset saved pgm to REORG_CS */ nc_start_reselect (idle->arfcn); } break; #endif default: break; } PFREE (idle); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_neighbourcell_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_NEIGHBOURCELL_REQ. */ GLOBAL void ma_mph_neighbourcell_req (T_MPH_NEIGHBOURCELL_REQ* mph_neighbourcell_req) { GET_INSTANCE_DATA; switch (GET_STATE (STATE_MA)) { case MA_IDLE: case MA_DEDICATED: nc_ncell_list (mph_neighbourcell_req); ALR_EM_CONFIGURE_NEIGHBOUERCELL_LIST; break; #ifdef GPRS case MA_PTM: /*In PTM just update the BA list. No need to start monitoring at L1 through MPHC*/ /* * mix new list with old list */ nc_update_ba_list (alr_data->serving_cell, mph_neighbourcell_req); break; #endif default: break; } PFREE (mph_neighbourcell_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_dedicated_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_DEDICATED_REQ. */ GLOBAL void ma_mph_dedicated_req (T_MPH_DEDICATED_REQ* dedi) { GET_INSTANCE_DATA; switch (GET_STATE (STATE_MA)) { case MA_CON_EST: ALR_TRACE_MAIN ("dedi on"); ma_stop_active_procs (STOP_PCH_READING); trc_state_transition(__LINE__, MA_DEDICATED); SET_STATE (STATE_MA, MA_DEDICATED); dedi_req (dedi); ma_clean_dedi_sys_buffer (); nc_start_dedicated (dedi->tr_para.pwrc, dedi->tr_para.dtx); break; case MA_DEDICATED: dedi_req (dedi); break; default: break; } PFREE (dedi); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_dedicated_fail_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_DEDICATED_FAIL_REQ. */ GLOBAL void ma_mph_dedicated_fail_req (T_MPH_DEDICATED_FAIL_REQ* mph_dedicated_fail_req) { dedi_fail_req (); PFREE (mph_dedicated_fail_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_ciphering_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_CIPHERING_REQ. */ GLOBAL void ma_mph_ciphering_req (T_MPH_CIPHERING_REQ* mph_ciphering_req) { dedi_ciph_req (mph_ciphering_req); PFREE(mph_ciphering_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_freq_redef_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_FREQ_REDEF_REQ. */ GLOBAL void ma_mph_freq_redef_req (T_MPH_FREQ_REDEF_REQ* mph_freq_redef_req) { dedi_freq_redef_req(mph_freq_redef_req); PFREE(mph_freq_redef_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_channel_mode_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_CHANNEL_MODE_REQ. */ GLOBAL void ma_mph_channel_mode_req (T_MPH_CHANNEL_MODE_REQ* mph_channel_mode_req) { dedi_chan_mode_req (mph_channel_mode_req); PFREE(mph_channel_mode_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_deactivate_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_DEACTIVATE_REQ. */ GLOBAL void ma_mph_deactivate_req (T_MPH_DEACTIVATE_REQ* mph_deactivate_req) { GET_INSTANCE_DATA; UBYTE flags = 0; PREUSE (mph_deactivate_req, mphc_deactivate_req, MPHC_DEACTIVATE_REQ); if (alr_data->pch_data.last_start_ccch_req.bs_pa_mfrms NEQ NOT_PRESENT_8BIT) flags |= STOP_PCH_READING; switch (GET_STATE(STATE_MA)) { case MA_CELL_SELECTION: case MA_CELL_RESELECTION: case MA_CON_EST: case MA_DEDICATED: #ifdef GPRS case MA_PTM: #endif break; case MA_IDLE: #ifdef GPRS if (alr_data->gprs_data.pbcch EQ TRUE) break; #endif /*lint -fallthrough*/ default: flags |= STOP_MEASUREMENTS; break; } ma_stop_active_procs(flags); ALR_EM_DEACTIVATE_L1; /* * There is no activation request for ALR. Therefore ALR is prepared * here for the next powering on by stopping really all running processes * and reinitialising the state variables. */ nc_stop (); cb_init (); cs_init (); pch_init (); dedi_init (); SET_STATE(STATE_MA, MA_NULL); /* it isn't clear whether the whole ma_init() should be performed */ ma_clean_sys_buffer (IND_ALL_SI); ma_clean_dedi_sys_buffer (); PSENDX(L1, mphc_deactivate_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_classmark_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_CLASSMARK_REQ. */ GLOBAL void ma_mph_classmark_req (T_MPH_CLASSMARK_REQ* classmark) { rach_configure_class (classmark->classmark.pclass, classmark->classmark.pclass2); ALR_EM_CONFIGURE_CLASSMARK; PFREE (classmark); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_ext_meas_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_EXT_MEAS_REQ. */ GLOBAL void ma_mph_ext_meas_req (T_MPH_EXT_MEAS_REQ* mph_ext_meas_req) { GET_INSTANCE_DATA; /* Process CS must be state CS_NULL (no Cell Selection active) */ if ( GET_STATE ( STATE_CS ) EQ CS_NULL ) { mph_ext_meas_req->pch_interrupt = NO_PCH_INTERRUPT; /* alr_data->cs_data.mph_ext_meas_req must be NULL */ if ( IS_EXT_MEAS_RUNNING ) /*alr_data->cs_data.mph_ext_meas_req NEQ NULL*/ { PFREE ( alr_data->cs_data.mph_ext_meas_req ); } alr_data->cs_data.mph_ext_meas_req = mph_ext_meas_req; alr_data->cs_data.ext_meas_state_pend = CS_NULL; ma_mph_power_req((T_MPH_POWER_REQ*) mph_ext_meas_req); } else { PALLOC ( mph_ext_meas_cnf, MPH_EXT_MEAS_CNF ); mph_ext_meas_cnf->num_of_chan = 0; PSENDX ( RR, mph_ext_meas_cnf ); PFREE (mph_ext_meas_req); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_tch_loop_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_TCH_LOOP_REQ. */ GLOBAL void ma_mph_tch_loop_req (T_MPH_TCH_LOOP_REQ* mph_tch_loop_req) { dedi_tch_loop_req (mph_tch_loop_req); PFREE(mph_tch_loop_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_dai_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_DAI_REQ. */ GLOBAL void ma_mph_dai_req (T_MPH_DAI_REQ* mph_dai_req) { dedi_dai_req (mph_dai_req); PFREE(mph_dai_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_cbch_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_CBCH_REQ. */ GLOBAL void ma_mph_cbch_req (T_MPH_CBCH_REQ* cbch_req) { cb_mph_cbch_req( &cbch_req->cbch); PFREE (cbch_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_identity_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_IDENTITY_REQ. */ GLOBAL void ma_mph_identity_req (T_MPH_IDENTITY_REQ* mph_identity_req) { pch_identity_req (mph_identity_req); PFREE (mph_identity_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_sync_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_SYNC_REQ. */ GLOBAL void ma_mph_sync_req (T_MPH_SYNC_REQ* mph_sync_req) { GET_INSTANCE_DATA; switch (mph_sync_req->cs) { case CS_CLEAN_SYS_INFO: /* * clean stored system information messages to force * sending to RR. */ ma_clean_dedi_sys_buffer (); break; case CS_STOP_BCCH_READING: switch (GET_STATE (STATE_MA)) { case MA_CELL_SELECTION: cs_stop (); break; case MA_IDLE: nc_stop_rr_activity (FALSE); break; } break; case CS_STOP_PLMN_SEARCH: switch (GET_STATE (STATE_MA)) { case MA_CELL_SELECTION: cs_stop (); break; case MA_IDLE: /* * PLMN search is stopped. If mobile was in REORG before * PLMN search, this is set again after finishing all BCCH reading. */ if(alr_data->pch_data.pl_idle.page_mode EQ PGM_REORG_NC_SYNC) { alr_data->pch_data.pl_idle.page_mode = page_mode_before_hplmn_search; pch_start_ccch_req (); ALR_TRACE_MAIN ("PLMN search complete - REORG reestablished"); } cs_stop (); nc_stop_rr_activity (TRUE); break; } break; case CS_STOP_PLMN_SEARCH_AND_DEACTIVATE: switch (GET_STATE (STATE_MA)) { case MA_CELL_SELECTION: cs_stop (); break; case MA_IDLE: /* * If mobile was in REORG before PLMN search, this is set again after * finishing PLMN search. L1 is not configured, because PCH reading * is stopped anyway */ if(alr_data->pch_data.pl_idle.page_mode EQ PGM_REORG_NC_SYNC) { alr_data->pch_data.pl_idle.page_mode = page_mode_before_hplmn_search; ALR_TRACE_MAIN ("PLMN search complete - REORG reestablished"); } cs_stop (); nc_stop_rr_activity (TRUE); ma_stop_active_procs(STOP_PCH_READING | STOP_MEASUREMENTS); break; } { PALLOC(deact_req, MPHC_DEACTIVATE_REQ); PSENDX(L1, deact_req); } break; #ifdef GPRS case CS_START_PCCO: alr_data->gprs_data.pcco_active = TRUE; if ( GET_STATE(STATE_MA) EQ MA_PTM ) { ma_stop_active_procs(STOP_MEASUREMENTS |STOP_PCH_READING); SET_STATE(STATE_MA, MA_IDLE); } break; #endif case CS_RXLEV_VAL_REQ: switch (GET_STATE(STATE_MA)) { #ifdef GPRS case MA_PTM: case MA_IDLE: break; #endif /* GPRS */ case MA_DEDICATED: /* EMO */ break; } break; case CS_SYS_INFO_2BIS_SUPPORT_CHANGED: if((GET_STATE(STATE_MA) EQ MA_IDLE) AND (alr_data->pch_data.pl_idle.page_mode EQ PGM_NORMAL OR alr_data->pch_data.pl_idle.page_mode EQ PGM_EXTENDED) AND (alr_data->pch_data.reorg_bcch_reading EQ FALSE)) { ma_stop_scell_bcch_req (); if(alr_data->cs_data.si_bitmap & SI_2BIS_READ) alr_data->cs_data.si_bitmap &= ~(SI_2BIS_READ); else alr_data->cs_data.si_bitmap |= SI_2BIS_READ; sc_start_periodic(); } break; case CS_SYS_INFO_2TER_SUPPORT_CHANGED: /* Dont start periodic reading if we are in PGM_REORG */ if((GET_STATE(STATE_MA) EQ MA_IDLE) AND (alr_data->pch_data.pl_idle.page_mode EQ PGM_NORMAL OR alr_data->pch_data.pl_idle.page_mode EQ PGM_EXTENDED) AND (alr_data->pch_data.reorg_bcch_reading EQ FALSE)) { ma_stop_scell_bcch_req (); if(alr_data->cs_data.si_bitmap & SI_2TER_READ) alr_data->cs_data.si_bitmap &= ~(SI_2TER_READ); else alr_data->cs_data.si_bitmap |= SI_2TER_READ; sc_start_periodic(); } break; default: break; } PFREE (mph_sync_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_clean_buf_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_CLEAN_BUF_REQ. */ GLOBAL void ma_mph_clean_buf_req (T_MPH_CLEAN_BUF_REQ* mph_clean_buf_req) { ma_clean_sys_buffer(mph_clean_buf_req->si_to_clean); PFREE(mph_clean_buf_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_stop_dedi_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_STOP_DEDICATED_REQ. */ GLOBAL void ma_mph_stop_dedi_req(T_MPH_STOP_DEDICATED_REQ *stop_dedi) { dedi_stop(); PFREE(stop_dedi); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_power_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_POWER_REQ and MPH_EXT_MEAS_REQ. */ GLOBAL void ma_mph_power_req(T_MPH_POWER_REQ* mph_power_req) { GET_INSTANCE_DATA; if ( D_OPC(mph_power_req) EQ MPH_POWER_REQ && IS_EXT_MEAS_RUNNING ) { PALLOC ( mph_power_cnf, MPH_POWER_CNF ); mph_power_cnf->num_of_chan = 0; PSENDX ( RR, mph_power_cnf ); TRACE_ERROR ( "Cell Sel during Ext Meas"); PFREE (mph_power_req); return; } if (mph_power_req->freq_bands EQ 0) { TRACE_ERROR ("MPH_POWER_REQ with freq_bands=0 (Invalid value)!"); TRACE_ASSERT (mph_power_req->freq_bands EQ 0); } if(!IS_EXT_MEAS_RUNNING) { /* CSI-LLD Section : 4.1.3.4.2.2 */ if(alr_data->cs_data.p_power_req NEQ NULL) { TRACE_ERROR("MPH_POWER_REQ buffer leakage"); PFREE(alr_data->cs_data.p_power_req); } /* Store the MPH_POWER_REQ pointer for later usage */ alr_data->cs_data.p_power_req = mph_power_req; } alr_data->cs_data.freq_bands = mph_power_req->freq_bands; ALR_EM_POWER_MEASSUREMENT_REQUEST; switch (mph_power_req->pch_interrupt) { case NO_PCH_INTERRUPT: /* * Full list power measurements without changing the current state */ alr_data->plmn_search_running = TRUE; nc_suspend(); cs_power_req (NO_PCH_INTERRUPT); break; case PCH_INTERRUPT: /* * Full list power measurements for Cell Selection */ alr_data->plmn_search_running = FALSE; alr_multiband_std = NOT_PRESENT_8BIT; #ifdef GPRS gprs_alr_init(); #endif switch (GET_STATE(STATE_MA)) { case MA_NULL: case MA_CELL_SELECTION: ma_stop_active_procs(DONT_STOP_PCH_READING); SET_STATE(STATE_MA, MA_CELL_SELECTION); cs_power_req (PCH_INTERRUPT); break; case MA_CELL_RESELECTION: ma_stop_active_procs(STOP_PCH_READING | STOP_MEASUREMENTS); nc_stop(); SET_STATE(STATE_MA, MA_CELL_SELECTION); cs_power_req (PCH_INTERRUPT); break; case MA_CON_EST: case MA_DEDICATED: case MA_IDLE: #ifdef GPRS case MA_PTM: alr_data->nc_sync_with_grr = TRUE; #endif ma_stop_active_procs(STOP_PCH_READING | STOP_MEASUREMENTS); /* * call this explicitly here, because stop_active_procs only * suspends ncell procedures */ nc_stop(); SET_STATE(STATE_MA, MA_CELL_SELECTION); cs_power_req (PCH_INTERRUPT); break; default: if(!IS_EXT_MEAS_RUNNING) { PFREE (mph_power_req); alr_data->cs_data.p_power_req = NULL; TRACE_ERROR ("MPH_POWER_REQ received in invalid MA state"); } break; } break; default: if(!IS_EXT_MEAS_RUNNING) { PFREE (mph_power_req); alr_data->cs_data.p_power_req = NULL; TRACE_ERROR ("MPH_POWER_REQ: Invalid search type"); } break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_bsic_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_BSIC_REQ. */ GLOBAL void ma_mph_bsic_req (T_MPH_BSIC_REQ* mph_bsic_req) { GET_INSTANCE_DATA; ALR_TRACE_MAIN_BSIC_REQ (GET_STATE(STATE_MA)); #ifdef GPRS if(alr_data->gprs_data.pcco_active) { cs_bsic_req(mph_bsic_req); PFREE (mph_bsic_req); return; } #endif switch (GET_STATE (STATE_MA)) { case MA_CELL_SELECTION: cs_bsic_req (mph_bsic_req); break; case MA_IDLE: nc_bsic_req (mph_bsic_req); break; #ifdef GPRS case MA_DEDICATED: ma_stop_active_procs(STOP_PCH_READING | STOP_MEASUREMENTS); /* DEDI-state is now DEDI_INACTIVE */ /* DEDI-state is now DEDI_INACTIVE */ SET_STATE(STATE_NC, NC_NULL); #ifdef NOT_YET nc_suspend(); /* stop dedicated mode activity */ #endif SET_STATE(STATE_MA, MA_CELL_SELECTION); cs_bsic_req (mph_bsic_req); break; #endif default: break; } PFREE (mph_bsic_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_meas_rep_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_MEAS_REP_REQ. */ #ifdef GPRS GLOBAL void ma_mph_meas_rep_req(T_MPH_MEAS_REP_REQ * mph_meas_rep_req) { GET_INSTANCE_DATA; USHORT i; TRACE_EVENT("mph_meas_rep_req"); switch(mph_meas_rep_req->cause) { case NC_START_MEAS: /* * Reset nc mease results database */ for(i=0;i<=BA_LIST_SIZE;i++) { alr_data->nc_data.cell[i].nc_rxlev = 0; alr_data->nc_data.cell[i].c_nc_rxlev = 0; } /* * activate rx_lev averaging when NC=1 or NC=2 */ alr_data->nwctrl_meas_active = TRUE; break; case NC_REPORT_MEAS: /* * Calculate rx_lev average and send the report to RR. RR forwards this to GRR */ if(alr_data->nwctrl_meas_active) { PALLOC(mph_meas_rep_cnf, MPH_MEAS_REP_CNF); memset(mph_meas_rep_cnf,0,sizeof(T_MPH_MEAS_REP_CNF)); nc_build_nwctrl_rr_report(mph_meas_rep_cnf); PSENDX ( RR, mph_meas_rep_cnf); for(i=0;i<=BA_LIST_SIZE;i++) { alr_data->nc_data.cell[i].nc_rxlev = 0; alr_data->nc_data.cell[i].c_nc_rxlev = 0; } } break; case NC_STOP_MEAS: /* * De-activate rx_lev averaging for Network control */ alr_data->nwctrl_meas_active = FALSE; break; default: break; } PFREE(mph_meas_rep_req); } #endif /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_random_access_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_RANDOM_ACCESS_REQ. */ GLOBAL void ma_mph_random_access_req (T_MPH_RANDOM_ACCESS_REQ* mph_random_access_req) { GET_INSTANCE_DATA; switch (GET_STATE (STATE_MA)) { case MA_IDLE: ALR_TRACE_MAIN_RAND_ACC(alr_data->serving_cell, mph_random_access_req->send_mode.no); /* * suspend neighbour cell procedures */ ma_stop_active_procs(DONT_STOP_PCH_READING | STOP_MEASUREMENTS); SET_STATE (STATE_MA, MA_CON_EST); /* * switch to full downlink CCCH listening */ pch_save_pgm(0); pch_configure(NULL, PGM_REORG_CS); pch_start_ccch_req (); /* * Send uplink Random Bursts */ rach_random_req (mph_random_access_req); break; #ifdef GPRS case MA_PTM: ma_stop_active_procs(DONT_STOP_PCH_READING| STOP_MEASUREMENTS); // nc_suspend(); gprs_alr_nc_leave_ptm(); SET_STATE (STATE_MA, MA_CON_EST); /* * switch to full downlink CCCH listening */ /*pch_save_pgm(0);*/ pch_configure(NULL, PGM_REORG_CS); pch_start_ccch_req (); /* * Send uplink Random Bursts */ rach_random_req (mph_random_access_req); break; #endif case MA_CON_EST: SET_STATE (STATE_MA, MA_CON_EST); rach_random_req (mph_random_access_req); break; default: break; } PFREE (mph_random_access_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_mph_emo_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_MPH_EMO_REQ. */ GLOBAL void ma_mph_emo_req (T_MPH_EMO_REQ *mph_emo_req) { GET_INSTANCE_DATA; switch (GET_STATE (STATE_MA)) { case MA_DEDICATED: { UBYTE i,n; USHORT *radio_freq; USHORT *arfcn; USHORT sc = alr_data->serving_cell; BOOL sc_ok; PALLOC (mphc_update_ba_list, MPHC_UPDATE_BA_LIST); alr_data->dedi_data.emo_ba_id = mph_emo_req->ba_id; n = mph_emo_req->c_arfcn; if ( n >= BA_LIST_SIZE ) n = BA_LIST_SIZE; /* * Initialize the outgoing primitive MPHC_UPDATE_BA_LIST. */ radio_freq = &mphc_update_ba_list->chan_list.radio_freq[0]; arfcn = &mph_emo_req->arfcn[0]; sc_ok = FALSE; for ( i = 0; i < n; i++ ) { radio_freq[i] = ARFCN_TO_L1 (arfcn[i]); if ( radio_freq[i] EQ sc ) { sc_ok = TRUE; } } if ( !sc_ok AND n < BA_LIST_SIZE ) /* add the serving cell ARFCN */ { radio_freq[n++] = sc; } mphc_update_ba_list->num_of_chans = n; mphc_update_ba_list->pwrc = alr_data->nc_data.pwrc; mphc_update_ba_list->dtx_allowed = alr_data->nc_data.dtx; mphc_update_ba_list->ba_id = mph_emo_req->ba_id; PSENDX (L1, mphc_update_ba_list); break; } } PFREE (mph_emo_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_mph_emo_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_MPH_EMO_REQ. */ GLOBAL void ma_mph_ncell_pos_req (T_MPH_NCELL_POS_REQ *mph_ncell_pos_req) { nc_ncell_pos_req(mph_ncell_pos_req); } /* ------------------------------------------------------------------ * ------------------------------------------------------------------ * Functions for the lower layer(MPHC) primitive processing * ------------------------------------------------------------------ * ------------------------------------------------------------------ */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_rxlev_con | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_RXLEV_CON. */ GLOBAL void ma_mphc_rxlev_ind (T_MPHC_RXLEV_IND* rxlev_ind) { GET_INSTANCE_DATA; USHORT cs_state = GET_STATE (STATE_CS); switch (cs_state) { default: TRACE_EVENT_P1 ("wrong CS state (%u) in ma_mphc_rxlev_ind()", cs_state); /*lint -fallthrough*/ case CS_ACTIVE_MEASURE: SET_STATE(STATE_CS, CS_MEASURED); break; } ALR_EM_FIELDSTRENGTH_MEASUREMENT_CONFIRM; cs_rxlev_ind (rxlev_ind); PFREE (rxlev_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_stop_rxlev_con | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_RXLEV_CON. */ GLOBAL void ma_mphc_stop_rxlev_cnf (T_MPHC_STOP_RXLEV_CON * rxlev_cnf) { GET_INSTANCE_DATA; if ( IS_EXT_MEAS_RUNNING ) { nc_stop_ext_meas_ind(); alr_data->cs_data.ext_meas_state_pend = CS_NULL; } PFREE(rxlev_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_stop_cnf | +--------------------------------------------------------------------+ PURPOSE : Processes the primitives MPHC_STOP_*_CON. */ GLOBAL void ma_mphc_empty_cnf (void *cnf) { PFREE (cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_network_sync_ind | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_NETWORK_SYNC_IND. */ GLOBAL void ma_mphc_network_sync_ind (T_MPHC_NETWORK_SYNC_IND* sync_ind) { TIMERSTOP(TIM_NW_SYNC_GUARD); cs_network_sync_ind (sync_ind); PFREE(sync_ind); } #if defined(STOP_SYNC_TASK) /* +----------------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_stop_network_sync_req | +----------------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_STOP_NETWORK_SYNC_REQ. */ GLOBAL void ma_cs_stop_network_sync_req(void) { GET_INSTANCE_DATA; if (alr_data->cs_data.sync_active) { PALLOC (stop_sync_task, MPHC_STOP_NETWORK_SYNC_REQ); /* T_MPHC_STOP_NETWORK_SYNC_REQ */ TRACE_EVENT ("STOP_NETWORK_SYNC_REQ"); PSENDX(L1, stop_sync_task); } } /* +----------------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_stop_network_sync_cnf | +----------------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_STOP_NETWORK_SYNC_CON. */ GLOBAL void ma_mphc_stop_network_sync_cnf(T_MPHC_STOP_NETWORK_SYNC_CON *stop_network_sync_cnf) { GET_INSTANCE_DATA; alr_data->cs_data.sync_active = FALSE; switch(GET_STATE(STATE_CS)) { case CS_STOP_SYNC: SET_STATE (STATE_CS, CS_STOP_SYNC_DONE); cs_bsic_req(NULL); break; case CS_NW_SYNC_TIMEOUT: /* Inform RR that no BCCH was found */ SET_STATE (STATE_CS, CS_ACTIVE_SYNC); { PALLOC (mph_bsic_cnf, MPH_BSIC_CNF); mph_bsic_cnf->cs = CS_NO_BCCH_AVAIL; PSENDX (RR, mph_bsic_cnf); } break; default: break; } PFREE(stop_network_sync_cnf); } #endif /* STOP_SYNC_TASK */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_new_scell_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_NEW_SCELL_CON. */ GLOBAL void ma_mphc_new_scell_cnf (T_MPHC_NEW_SCELL_CON* new_scell_cnf) { GET_INSTANCE_DATA; /* we have a new serving cell */ vsi_t_sleep(VSI_CALLER 10); switch (GET_STATE(STATE_MA)) { case MA_CELL_SELECTION: /* * we are synchronized to the new cell * now read the BCCH to check if the cell * is suitable */ cs_read_scell_bcch (); break; case MA_CELL_RESELECTION: ALR_TRACE_MAIN ("new sc in cr"); if (alr_data->old_serving_cell NEQ alr_data->serving_cell) { ALR_TRACE_MAIN_SCELL(alr_data->old_serving_cell, alr_data->serving_cell); ALR_TRACE_MAIN ("update timebase"); /* * update the timebase now */ nc_update_list (alr_data->serving_cell); /* * removing of the old serving cell only just if * RR gives a positive receipt for cell selection. * obsolet: nc_update_serving_cell (alr_data->old_serving_cell); */ /* * In case the serving cell has been changed, the last CCCH configuration * is not valid anymore! It will delete now, so that the sucessful * comparison inside ma_pch_start_ccch_req() will not prevent a new * CCCH configuration of L1. */ memset (&alr_data->pch_data.last_start_ccch_req, 0, sizeof (alr_data->pch_data.last_start_ccch_req)); } #ifdef GPRS if(alr_data->gprs_data.sync_only) { PALLOC(sync, MPH_SYNC_IND); sync->cs = CS_SCELL_IS_SYNCED; alr_data->gprs_data.sync_only=0; SET_STATE(STATE_MA, MA_IDLE); PSENDX (RR, sync); } else { #endif pch_start_ccch_req(); #ifdef GPRS } #endif break; case MA_IDLE: ALR_TRACE_MAIN ("new sc in idle"); if (alr_data->old_serving_cell NEQ alr_data->serving_cell) nc_update_list (alr_data->serving_cell); break; case MA_CON_EST: break; default: break; } PFREE (new_scell_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_ncell_bcch_ind | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_NCELL_BCCH_IND. */ GLOBAL void ma_mphc_ncell_bcch_ind (T_MPHC_NCELL_BCCH_IND* ncell_bcch_ind) { nc_bcch_ind (ncell_bcch_ind); PFREE (ncell_bcch_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_ncell_sync_ind | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_NCELL_SYNC_IND. */ GLOBAL void ma_mphc_ncell_sync_ind (T_MPHC_NCELL_SYNC_IND* ncell_sync_ind) { nc_sync_ind (ncell_sync_ind); PFREE (ncell_sync_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_stop_ncell_sync_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_NCELL_SYNC_IND. */ GLOBAL void ma_mphc_stop_ncell_sync_cnf (T_MPHC_STOP_NCELL_SYNC_CON *cnf ) { GET_INSTANCE_DATA; if ( IS_EXT_MEAS_RUNNING ) { nc_stop_ext_meas_ind(); alr_data->cs_data.ext_meas_state_pend = CS_NULL; } PFREE (cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_ncell_bcch_ind | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_RXLEV_PERIODIC_IND. */ GLOBAL void ma_mphc_rxlev_periodic_ind (T_MPHC_RXLEV_PERIODIC_IND* rxlev_periodic_ind) { GET_INSTANCE_DATA; switch (GET_STATE (STATE_MA)) { case MA_CELL_RESELECTION: case MA_CON_EST: case MA_IDLE: nc_report (rxlev_periodic_ind); #ifdef TI_PS_HCOMM_CHANGE PSIGNAL (_hCommDL, PH_TRACE_IND, NULL); #else PSIGNAL (hCommDL, PH_TRACE_IND, NULL); #endif /* TI_PS_HCOMM_CHANGE */ alr_trc_read (8); break; default: break; } PFREE (rxlev_periodic_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_ra_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_RA_CON. */ GLOBAL void ma_mphc_ra_cnf (T_MPHC_RA_CON* ra_cnf) { GET_INSTANCE_DATA; switch (GET_STATE (STATE_MA)) { case MA_CON_EST: rach_ra_cnf (ra_cnf); break; default: break; } PFREE (ra_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_trc_data_ind | +--------------------------------------------------------------------+ PURPOSE : Trace the primitive MPHC_DATA_IND. configure the output with the following command: CONFIG TRC_DATA_IND=n the available decimal values of the bit mask 'n' are: ID_TRC_DATA_IND_ALL 255 ID_TRC_DATA_IND_VALID 127 ID_TRC_DATA_IND_INVALID 128 ID_TRC_DATA_IND_BCCH 1 normal and extended BCCH ID_TRC_DATA_IND_PCH 2 normal and extended PCH ID_TRC_DATA_IND_CCCH 4 ID_TRC_DATA_IND_CBCH 8 ID_TRC_DATA_IND_SCCH 16 SACCH and SDCCH ID_TRC_DATA_IND_FCCH 32 full and half rate FACCH ID_TRC_DATA_IND_STATE 64 MA status ID_TRC_DATA_IND_INIT 63 all valid frames without stati ID_TRC_DATA_IND_INIT2 31 ... without FACCH */ #if !defined(NCONFIG) static void ma_trc_data_ind(T_MPHC_DATA_IND* data_ind) { GET_INSTANCE_DATA; char *msg_s = ""; UBYTE msg_t = 0; if (data_ind->error_flag NEQ VALID_BLOCK) { if (v_mon_trc_data_ind & ID_TRC_DATA_IND_INVALID) { #if !defined(DL_TRACE_ENABLED) SYST_TRACE ("invalid block"); #else /* !DL_TRACE_ENABLED */ DL_OFFLINE_TRACE ("invalid block"); #endif /* !DL_TRACE_ENABLED */ } return; } switch (data_ind->l2_channel) { case L2_CHANNEL_SACCH: case L2_CHANNEL_SDCCH: if ((v_mon_trc_data_ind & ID_TRC_DATA_IND_SCCH) EQ 0) msg_t = (UBYTE)-1; break; case L2_CHANNEL_FACCH_H: case L2_CHANNEL_FACCH_F: if ((v_mon_trc_data_ind & ID_TRC_DATA_IND_FCCH) EQ 0) msg_t = (UBYTE)-1; break; case L2_CHANNEL_CCCH: if ((v_mon_trc_data_ind & ID_TRC_DATA_IND_CCCH) EQ 0) return; break; case L2_CHANNEL_NBCCH: case L2_CHANNEL_EBCCH: if ((v_mon_trc_data_ind & ID_TRC_DATA_IND_BCCH) EQ 0) msg_t = (UBYTE)-1; break; case L2_CHANNEL_PCH: case L2_CHANNEL_EPCH: if ((v_mon_trc_data_ind & ID_TRC_DATA_IND_PCH) EQ 0) msg_t = (UBYTE)-1; break; case L2_CHANNEL_CBCH: if ((v_mon_trc_data_ind & ID_TRC_DATA_IND_CBCH) EQ 0) msg_t = (UBYTE)-1; break; default: msg_t = (UBYTE)-1; SYST_TRACE_P((SYST, "trc_data_ind %02x ch=%d", v_mon_trc_data_ind, data_ind->l2_channel)); break; } if (msg_t) { return; } if (data_ind->error_flag EQ VALID_BLOCK) { msg_t = data_ind->l2_frame.content[SI_CONTENTS_MSG_T]; switch (msg_t) { case D_IMM_ASSIGN: msg_s = "IMM_ASS"; break; case D_IMM_ASSIGN_EXT: msg_s = "IMM_ASS_EXT"; break; case D_IMM_ASSIGN_REJ: msg_s = "IMM_ASS_REJ"; break; case D_PAG_REQ_1: msg_s = "PAG1"; break; case D_PAG_REQ_2: msg_s = "PAG2"; break; case D_PAG_REQ_3: msg_s = "PAG3"; break; case D_SYS_INFO_1: msg_s = "SI 1"; break; case D_SYS_INFO_2: msg_s = "SI 2"; break; case D_SYS_INFO_2BIS: msg_s = "SI 2bis"; break; case D_SYS_INFO_2TER: msg_s = "SI 2ter"; break; #if defined (REL99) && defined (TI_PS_FF_EMR) case D_SYS_INFO_2QUATER: msg_s = "SI 2quater"; break; #endif case D_SYS_INFO_3: msg_s = "SI 3"; /* TRACE_EVENT_P8 ("SI3: lai=%x%x%x %x%x%x %02x%02x", data_ind->l2_frame.content[5]&0x0f, data_ind->l2_frame.content[5]>>4, data_ind->l2_frame.content[6]&0x0f, data_ind->l2_frame.content[7]&0x0f, data_ind->l2_frame.content[7]>>4, data_ind->l2_frame.content[6]>>4, data_ind->l2_frame.content[8], data_ind->l2_frame.content[9]); */ break; case D_SYS_INFO_4: msg_s = "SI 4"; /* TRACE_EVENT_P8 ("SI4: lai=%x%x%x %x%x%x %02x%02x", data_ind->l2_frame.content[3]&0x0f, data_ind->l2_frame.content[3]>>4, data_ind->l2_frame.content[4]&0x0f, data_ind->l2_frame.content[5]&0x0f, data_ind->l2_frame.content[5]>>4, data_ind->l2_frame.content[4]>>4, data_ind->l2_frame.content[6], data_ind->l2_frame.content[7]); */ break; case D_SYS_INFO_5: msg_s = "SI 5"; break; case D_SYS_INFO_5BIS: msg_s = "SI 5bis"; break; case D_SYS_INFO_5TER: msg_s = "SI 5ter"; break; case D_SYS_INFO_6: msg_s = "SI 6"; break; #ifdef GPRS case D_SYS_INFO_13: msg_s = "SI 13"; break; #endif /* GPRS */ default: if (data_ind->l2_channel EQ L2_CHANNEL_CBCH) msg_s = "CBCH"; else msg_s = 0; break; } } #if !defined(DL_TRACE_ENABLED) if (msg_s) { if (v_mon_trc_data_ind & ID_TRC_DATA_IND_STATE) { SYST_TRACE_P((SYST, "[%u] %s %s", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, msg_s, STATE_MA_NAME[GET_STATE (STATE_MA)])); } else { SYST_TRACE_P((SYST, "[%u] %s", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, msg_s)); } } else { /* protocol discriminator */ UBYTE pd = data_ind->l2_frame.content[SI_CONTENTS_MSG_T-1]; char buf[47]; if (v_mon_trc_data_ind & ID_TRC_DATA_IND_STATE) { SYST_TRACE_P((SYST, "[%u] unknown %02x (PD%02x, ch=%d) %s", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, msg_t, pd, data_ind->l2_channel, STATE_MA_NAME[GET_STATE (STATE_MA)])); } else { SYST_TRACE_P((SYST, "[%u] unknown %02x (PD%02x, ch=%d)", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, msg_t, pd, data_ind->l2_channel)); } for (pd=0; pd<23; pd++) sprintf (buf+(pd<<1), "%02x", (UBYTE)data_ind->l2_frame.content[pd]); SYST_TRACE(buf); } #else /* !DL_TRACE_ENABLED */ { if (msg_s) { if (v_mon_trc_data_ind & ID_TRC_DATA_IND_STATE) { sprintf (dl_trace_buf, "[%u] %s %s", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, msg_s, STATE_MA_NAME[GET_STATE (STATE_MA)]); } else { sprintf (dl_trace_buf, "[%u] %s", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, msg_s); } } else { /* protocol discriminator */ UBYTE pd = data_ind->l2_frame.content[SI_CONTENTS_MSG_T-1]; sprintf (dl_trace_buf, "[%u] unknown %02x (PD%02x, ch=%d)", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, msg_t, pd, data_ind->l2_channel); } DL_OFFLINE_TRACE (dl_trace_buf); } #endif /* !DL_TRACE_ENABLED */ } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : trc_state_transition | +--------------------------------------------------------------------+ PURPOSE : Traces state transition */ #if !defined(NTRACE) && defined(TRACE_STATE_TRANSITION) void trc_state_transition(int line, UBYTE newstate) { #if defined(DL_TRACE_ENABLED) sprintf (dl_trace_buf, "%s->%s (#%u)", STATE_MA_NAME[GET_STATE (STATE_MA)], STATE_MA_NAME[newstate], line); DL_OFFLINE_TRACE (dl_trace_buf); #else /* DL_TRACE_ENABLED */ SYST_TRACE_P((SYST, "%s->%s (#%u)", STATE_MA_NAME[GET_STATE (STATE_MA)], STATE_MA_NAME[newstate], line)); #endif /* DL_TRACE_ENABLED */ } #endif /* !NTRACE && TRACE_STATE_TRANSITION */ #endif /* !NCONFIG */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : trc_paging | +--------------------------------------------------------------------+ PURPOSE : Traces state transition */ #if !defined(NTRACE) && 0 void trc_paging(T_MPHC_DATA_IND* data_ind) { if ((data_ind->error_flag EQ VALID_BLOCK) AND ((data_ind->l2_channel EQ L2_CHANNEL_PCH) OR (data_ind->l2_channel EQ L2_CHANNEL_EPCH))) { char *str; switch (data_ind->l2_frame.content[SI_CONTENTS_MSG_T]) // SI_CONTENTS_MSG_T=2 { case D_PAG_REQ_1: str="D_PAG_REQ_1"; break; case D_PAG_REQ_2: str="D_PAG_REQ_2"; break; case D_PAG_REQ_3: str="D_PAG_REQ_3"; break; default: str = NULL; break; } if (str) { /* TRACE_BINDUMP first available with FRAME_2.9.18 */ #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL ,TC_EVENT, str, data_ind->l2_frame.content, MAX_L2_FRAME_SIZE); #else TRACE_BINDUMP(hCommPL ,TC_EVENT, str, data_ind->l2_frame.content, MAX_L2_FRAME_SIZE); #endif /* TI_PS_HCOMM_CHANGE */ } } } #endif /* !NTRACE */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_data_ind | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_DATA_IND. */ GLOBAL void ma_mphc_data_ind (T_MPHC_DATA_IND* data_ind) { GET_INSTANCE_DATA; USHORT length=0, valid=0; UBYTE msg_t; alr_trc_read (1); #if !defined(NTRACE) && 0 trc_paging(data_ind); #endif /* !NTRACE */ #if !defined(NCONFIG) if (v_mon_trc_data_ind) ma_trc_data_ind(data_ind); /* IOT and FT trace */ if (data_ind->l2_channel NEQ L2_CHANNEL_CBCH AND data_ind->l2_channel NEQ L2_CHANNEL_SACCH) { /* Implements Measure#32: Row 90,...,101 */ if(data_ind->error_flag EQ VALID_BLOCK) { length = MAX_L2_FRAME_SIZE; valid = 1; } switch (data_ind->l2_frame.content[SI_CONTENTS_MSG_T]) { case D_SYS_INFO_1: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] D_SYS_INFO_1 block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; case D_SYS_INFO_2: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] D_SYS_INFO_2 block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; case D_SYS_INFO_2BIS: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] D_SYS_INFO_2BIS block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; case D_SYS_INFO_2TER: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] D_SYS_INFO_2TER block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; #if defined (REL99) && defined (TI_PS_FF_EMR) case D_SYS_INFO_2QUATER: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] D_SYS_INFO_2QUATER block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; #endif case D_SYS_INFO_3: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] D_SYS_INFO_3 block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; case D_SYS_INFO_4: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] D_SYS_INFO_4 block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; #ifdef GPRS case D_SYS_INFO_13: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] D_SYS_INFO_13 block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; #endif case D_IMM_ASSIGN: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] D_IMM_ASSIGN block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; case D_IMM_ASSIGN_EXT: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] D_IMM_ASSIGN_EXT block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; case D_IMM_ASSIGN_REJ: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] D_IMM_ASSIGN_REJ block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; case D_PAG_REQ_1: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] PAG_REQ_1 DL block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; case D_PAG_REQ_2: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] PAG_REQ_2 DL block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; case D_PAG_REQ_3: TRACE_USER_CLASS_P2 (TC_USER4, "[%u] PAG_REQ_3 DL block: Valid=%d", ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK, valid); break; default: break; } switch (data_ind->l2_frame.content[SI_CONTENTS_MSG_T]) { case D_SYS_INFO_1: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "D_SYS_INFO_1", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "D_SYS_INFO_1", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; case D_SYS_INFO_2: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "D_SYS_INFO_2", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "D_SYS_INFO_2", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; case D_SYS_INFO_2BIS: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "D_SYS_INFO_2BIS", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "D_SYS_INFO_2BIS", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; case D_SYS_INFO_2TER: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "D_SYS_INFO_2TER", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "D_SYS_INFO_2TER", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; #if defined (REL99) && defined (TI_PS_FF_EMR) case D_SYS_INFO_2QUATER: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "D_SYS_INFO_2QUATER", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "D_SYS_INFO_2QUATER", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; #endif case D_SYS_INFO_3: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "D_SYS_INFO_3", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "D_SYS_INFO_3", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; case D_SYS_INFO_4: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "D_SYS_INFO_4", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "D_SYS_INFO_4", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; #ifdef GPRS case D_SYS_INFO_13: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "D_SYS_INFO_13", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "D_SYS_INFO_13", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; #endif case D_IMM_ASSIGN: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "D_IMM_ASSIGN", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "D_IMM_ASSIGN", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; case D_IMM_ASSIGN_EXT: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "D_IMM_ASSIGN_EXT", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "D_IMM_ASSIGN_EXT", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; case D_IMM_ASSIGN_REJ: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "D_IMM_ASSIGN_REJ", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "D_IMM_ASSIGN_REJ", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; case D_PAG_REQ_1: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "PAG_REQ_1 DL", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "PAG_REQ_1 DL", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; case D_PAG_REQ_2: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "PAG_REQ_2 DL", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "PAG_REQ_2 DL", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; case D_PAG_REQ_3: #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL , TC_USER4, "PAG_REQ_3 DL", data_ind->l2_frame.content, length); #else /* not TI_PS_HCOMM_CHANGE */ TRACE_BINDUMP(hCommPL , TC_USER4, "PAG_REQ_3 DL", data_ind->l2_frame.content, length); #endif /* TI_PS_HCOMM_CHANGE */ break; default: break; } } #endif /* !NCONFIG */ if (data_ind->l2_channel EQ L2_CHANNEL_CBCH) { cb_data_ind (data_ind); } else { if (data_ind->error_flag EQ VALID_BLOCK AND data_ind->l2_channel EQ L2_CHANNEL_SACCH) { /* * store Timing Advance contained in every decodable downlink SACCH frame */ nc_store_tav((USHORT)(data_ind->l2_frame.content[1] & 63)); } msg_t = data_ind->l2_frame.content[SI_CONTENTS_MSG_T]; switch (GET_STATE (STATE_MA)) { case MA_NULL: /* * no message expected */ break; case MA_CELL_SELECTION: if (data_ind->error_flag EQ VALID_BLOCK) { ALR_TRACE_MAIN_VALID_BLOCK(msg_t); switch (msg_t) { case D_SYS_INFO_1: case D_SYS_INFO_2: case D_SYS_INFO_2BIS: case D_SYS_INFO_2TER: #if defined (REL99) && defined (TI_PS_FF_EMR) case D_SYS_INFO_2QUATER: #endif case D_SYS_INFO_3: case D_SYS_INFO_4: #ifdef GPRS case D_SYS_INFO_13: #endif switch(data_ind->l2_channel) { case L2_CHANNEL_NBCCH: if (data_ind->tc EQ 0 AND msg_t NEQ D_SYS_INFO_1) ma_sync_ind (CS_SYS_INFO_1_NOT_NEEDED, ARFCN_TO_G23(data_ind->radio_freq)); /*lint -fallthrough*/ case L2_CHANNEL_EBCCH: ma_send_unitdata (data_ind); ma_fill_sys_buffer (data_ind, msg_t); ma_set_si_bitmap(msg_t); ALR_EM_IDLE_MODE_BCCH_PARAMETER_CHANGED; cs_increment_bfc(); break; default: ALR_TRACE_MAIN ("stray SI"); break; } break; default: break; } } else { ALR_TRACE_MAIN ("INVALID BLOCK"); if (data_ind->l2_channel EQ L2_CHANNEL_NBCCH OR data_ind->l2_channel EQ L2_CHANNEL_EBCCH) { ma_error_ind (CS_BCCH_READ_ERROR, ARFCN_TO_G23(data_ind->radio_freq)); cs_decrement_bfc(); } } break; case MA_IDLE: if (data_ind->error_flag EQ VALID_BLOCK) { switch (msg_t) { case D_SYS_INFO_2: /* * setting ncc permitted directly after receive sys info 2 */ nc_check_new_ncc_permitted (data_ind->l2_frame.content[SI_CONTENTS_MSG_T+17]); /*lint -fallthrough*/ case D_SYS_INFO_1: case D_SYS_INFO_2BIS: case D_SYS_INFO_2TER: case D_SYS_INFO_3: case D_SYS_INFO_4: if(data_ind->l2_channel NEQ L2_CHANNEL_NBCCH) { ALR_TRACE_MAIN ("stray SI"); } if (data_ind->tc EQ 0 AND msg_t NEQ D_SYS_INFO_1) { ma_sync_ind (CS_SYS_INFO_1_NOT_NEEDED, ARFCN_TO_G23(data_ind->radio_freq)); alr_data->pch_data.si_bitmap |= SYSTEM_INFO_1_READ; } if( alr_data->pch_data.reorg_bcch_reading EQ TRUE) { if(msg_t EQ D_SYS_INFO_1) alr_data->pch_data.si_bitmap |= SYSTEM_INFO_1_READ; else if(msg_t EQ D_SYS_INFO_2) alr_data->pch_data.si_bitmap |= SYSTEM_INFO_2_READ; else if(msg_t EQ D_SYS_INFO_3) alr_data->pch_data.si_bitmap |= SYSTEM_INFO_3_READ; else if(msg_t EQ D_SYS_INFO_4) alr_data->pch_data.si_bitmap |= SYSTEM_INFO_4_READ; ma_set_si_bitmap(msg_t); #ifdef GPRS if( !gprs_alr_is_supported() ) #endif { if( (alr_data->pch_data.si_bitmap & ALL_SI_READ_EXCEPT_SI13) EQ ALL_SI_READ_EXCEPT_SI13) { alr_data->pch_data.reorg_bcch_reading = FALSE; if((alr_data->pch_data.pl_idle.page_mode EQ PGM_NORMAL) OR (alr_data->pch_data.pl_idle.page_mode EQ PGM_EXTENDED)) { sc_start_periodic(); } } } } if (!ma_compare_sys_buffer (data_ind, msg_t)) { ALR_TRACE_MAIN_SI_UNEQ(data_ind->l2_channel); ma_send_unitdata (data_ind); ma_fill_sys_buffer (data_ind, msg_t); ALR_EM_IDLE_MODE_BCCH_PARAMETER_CHANGED; } #if defined (REL99) && defined (TI_PS_FF_EMR) if ( (msg_t EQ D_SYS_INFO_2) OR (msg_t EQ D_SYS_INFO_2BIS) OR (msg_t EQ D_SYS_INFO_2TER) ) { if ( (alr_data->nc_data.si2_count NEQ NOT_PRESENT_8BIT ) AND (alr_data->nc_data.si2_count NEQ 0) ) alr_data->nc_data.si2_count--; /*Required SI-2 variants have been acquired, now we will configure L1 for SI-2quater if it's required to be configured*/ if ((alr_data->nc_data.si2quater_status NEQ SI2QUATER_ABSENT ) AND (alr_data->nc_data.si2quater_pos EQ SI2QUATER_ON_EBCCH) AND (alr_data->nc_data.si2_count EQ 0)) { ma_scell_mon_si2quater_ebcch(); alr_data->nc_data.si2_count = NOT_PRESENT_8BIT; } } break; case D_SYS_INFO_2QUATER: ALR_TRACE_MAIN_SI_UNEQ(data_ind->l2_channel); ma_send_unitdata (data_ind); #endif break; #ifdef GPRS case D_SYS_INFO_13: if(gprs_alr_is_supported()) { alr_data->pch_data.si_bitmap |= SYSTEM_INFO_13_READ; alr_data->pch_data.reorg_bcch_reading = FALSE; } if(! pch_mode_reorg() AND gprs_alr_is_supported()) { /* stop scell BCCH */ ma_stop_scell_bcch_req(); } ma_send_unitdata (data_ind); ma_fill_sys_buffer (data_ind, msg_t); ALR_EM_IDLE_MODE_BCCH_PARAMETER_CHANGED; ALR_TRACE_MAIN ("SI13"); break; #endif /* GPRS */ case D_PAG_REQ_1: ALR_TRACE_MAIN("PG1"); pch_check_pag_1 (data_ind); if (data_ind->l2_channel EQ L2_CHANNEL_PCH) { /* * check only if it is the own paging group */ #ifdef GPRS gprs_check_page_mode(data_ind); #else pch_check_page_mode (data_ind); #endif /* GPRS */ pch_increment_dlt (); } break; case D_PAG_REQ_2: ALR_TRACE_MAIN ("PG2"); if (alr_data->pch_data.pl_idle.page_mode EQ PGM_NORMAL) { if (data_ind->l2_channel EQ L2_CHANNEL_PCH) pch_check_pag_2 (data_ind); else { ALR_TRACE_MAIN ("PCH block skipped"); } } else pch_check_pag_2 (data_ind); if (data_ind->l2_channel EQ L2_CHANNEL_PCH) { /* check only if it is the own paging group */ #ifdef GPRS gprs_check_page_mode(data_ind); #else pch_check_page_mode (data_ind); #endif /* GPRS */ pch_increment_dlt (); } break; case D_PAG_REQ_3: ALR_TRACE_MAIN ("PG3"); if (alr_data->pch_data.pl_idle.page_mode EQ PGM_NORMAL) { if (data_ind->l2_channel EQ L2_CHANNEL_PCH) pch_check_pag_3 (data_ind); else { ALR_TRACE_MAIN ("PCH block skipped"); } } else pch_check_pag_3 (data_ind); if (data_ind->l2_channel EQ L2_CHANNEL_PCH) { /* check only if it is the own paging group */ #ifdef GPRS gprs_check_page_mode(data_ind); #else pch_check_page_mode (data_ind); #endif/* GPRS */ pch_increment_dlt (); } break; case D_IMM_ASSIGN: #ifdef GPRS gprs_alr_check_downlink_assign(data_ind); /*lint -fallthrough*/ #endif case D_IMM_ASSIGN_EXT: case D_IMM_ASSIGN_REJ: if (data_ind->l2_channel EQ L2_CHANNEL_PCH) { /* check only if it is the own paging group */ #ifdef GPRS gprs_check_page_mode(data_ind); #else pch_check_page_mode (data_ind); #endif /* GPRS */ pch_increment_dlt (); } break; default: break; } /* message type */ } else { /* * invalid block */ ALR_TRACE_MAIN ("INVALID"); if (data_ind->l2_channel EQ L2_CHANNEL_PCH) pch_decrement_dlt (); } break; #ifdef GPRS case MA_PTM: if (data_ind->error_flag EQ VALID_BLOCK) { switch (msg_t) { case D_SYS_INFO_2: /* * setting ncc permitted directly after receive sys info 2 */ nc_check_new_ncc_permitted (data_ind->l2_frame.content[SI_CONTENTS_MSG_T+17]); /*lint -fallthrough*/ case D_SYS_INFO_1: case D_SYS_INFO_2BIS: case D_SYS_INFO_2TER: #if defined (REL99) && defined (TI_PS_FF_EMR) case D_SYS_INFO_2QUATER: #endif case D_SYS_INFO_3: case D_SYS_INFO_4: if(data_ind->l2_channel NEQ L2_CHANNEL_NBCCH) { ALR_TRACE_MAIN ("stray SI"); } if (data_ind->tc EQ 0 AND msg_t NEQ D_SYS_INFO_1) ma_sync_ind (CS_SYS_INFO_1_NOT_NEEDED, ARFCN_TO_G23(data_ind->radio_freq)); if (!ma_compare_sys_buffer (data_ind, msg_t)) { ALR_TRACE_MAIN_SI_UNEQ(data_ind->l2_channel); ma_send_unitdata (data_ind); ma_fill_sys_buffer (data_ind, msg_t); ALR_EM_IDLE_MODE_BCCH_PARAMETER_CHANGED; } break; case D_SYS_INFO_13: /* stop scell BCCH */ ma_stop_scell_bcch_req(); ma_send_unitdata (data_ind); ALR_EM_IDLE_MODE_BCCH_PARAMETER_CHANGED; ma_fill_sys_buffer (data_ind, msg_t); break; case D_PAG_REQ_1: ALR_TRACE_MAIN("PG1"); pch_check_pag_1 (data_ind); if (data_ind->l2_channel EQ L2_CHANNEL_PCH) { /* * check only if it is the own paging group */ //pch_increment_dlt (); } break; case D_PAG_REQ_2: pch_check_pag_2 (data_ind); //pch_increment_dlt (); break; case D_PAG_REQ_3: pch_check_pag_3 (data_ind); //pch_increment_dlt (); break; default: break; } } break; #endif /* GPRS */ case MA_CELL_RESELECTION: if (data_ind->error_flag EQ VALID_BLOCK) { ALR_TRACE_MAIN_CR(msg_t); switch (msg_t) { case D_IMM_ASSIGN: #ifdef GPRS TRACE_EVENT_P1 ("downlink assign %02x", data_ind->l2_frame.content[3]); gprs_alr_check_downlink_assign(data_ind); /*lint -fallthrough*/ #endif case D_IMM_ASSIGN_EXT: case D_IMM_ASSIGN_REJ: break; case D_PAG_REQ_1: ALR_TRACE_MAIN ("PG1"); pch_check_pag_1 (data_ind); if (data_ind->l2_channel EQ L2_CHANNEL_PCH) { pch_increment_dlt (); pch_check_page_mode_cr (data_ind); } break; case D_PAG_REQ_2: ALR_TRACE_MAIN ("PG2"); pch_check_pag_2 (data_ind); if (data_ind->l2_channel EQ L2_CHANNEL_PCH) { pch_increment_dlt (); pch_check_page_mode_cr (data_ind); } break; case D_PAG_REQ_3: ALR_TRACE_MAIN ("PG3"); pch_check_pag_3 (data_ind); if (data_ind->l2_channel EQ L2_CHANNEL_PCH) { pch_increment_dlt (); pch_check_page_mode_cr (data_ind); } break; case D_SYS_INFO_1: case D_SYS_INFO_2: case D_SYS_INFO_2BIS: case D_SYS_INFO_2TER: #if defined (REL99) && defined (TI_PS_FF_EMR) case D_SYS_INFO_2QUATER: #endif case D_SYS_INFO_3: case D_SYS_INFO_4: #ifdef GPRS case D_SYS_INFO_13: #endif ALR_TRACE_MAIN ("cr si"); if (data_ind->tc EQ 0 AND msg_t NEQ D_SYS_INFO_1) ma_sync_ind (CS_SYS_INFO_1_NOT_NEEDED, ARFCN_TO_G23(data_ind->radio_freq)); ma_send_unitdata (data_ind); ma_fill_sys_buffer (data_ind, msg_t); ma_set_si_bitmap(msg_t); ALR_EM_IDLE_MODE_BCCH_PARAMETER_CHANGED; /* * When having received all SI in cell reselection state RR will * send an MPH_IDLE_REQ and ALR will send an MPHC_START_CCCH_REQ * This is not a good timing for FTA 20.19 because L1 is then * unable to detect a paging for some blocks. The test device will * not send the paging near the SI3. Therefore the * MPHC_START_CCCH_REQ is sent here (and may be overwritten be the * later when ALR receives the MPH_IDLE_REQ with other parameters). */ if (msg_t EQ D_SYS_INFO_3 AND alr_data->pch_data.imsi[0] AND ARFCN_TO_G23(data_ind->radio_freq) EQ alr_data->serving_cell) pch_config_resel(data_ind); break; default: break; } } else /* invalid block */ { if (data_ind->l2_channel EQ L2_CHANNEL_NBCCH OR data_ind->l2_channel EQ L2_CHANNEL_EBCCH) { ALR_TRACE_MAIN ("INVALID BLOCK"); ma_error_ind (CS_BCCH_READ_ERROR, ARFCN_TO_G23(data_ind->radio_freq)); cs_decrement_bfc(); } } break; case MA_CON_EST: if (data_ind->error_flag EQ VALID_BLOCK) { switch (msg_t) { case D_IMM_ASSIGN: case D_IMM_ASSIGN_EXT: case D_IMM_ASSIGN_REJ: ALR_TRACE_MAIN ("IA"); ma_send_unitdata (data_ind); break; #ifdef GPRS case D_PAG_REQ_1: pch_check_pag_1 (data_ind); break; case D_PAG_REQ_2: pch_check_pag_2 (data_ind); break; case D_PAG_REQ_3: pch_check_pag_3 (data_ind); break; #endif /* GPRS */ default: break; } } break; case MA_DEDICATED: if (data_ind->error_flag EQ VALID_BLOCK) { switch (data_ind->l2_channel) { case L2_CHANNEL_SACCH: if ((data_ind->l2_frame.content[3] & 0xEF) EQ 3) /* layer 2 Control field octet */ { /* * check control field of l2 header * UI Frame received */ UBYTE msg_t = data_ind->l2_frame.content[6]; /* layer 3 Message Type octet */ switch (msg_t) { case D_SYS_INFO_6: /* * setting ncc permitted directly after receive sys info 6 */ nc_check_new_ncc_permitted (data_ind->l2_frame.content[15]); /*lint -fallthrough*/ case D_SYS_INFO_5: case D_SYS_INFO_5BIS: case D_SYS_INFO_5TER: if (!ma_compare_dedi_sys_buffer (data_ind, msg_t)) { ma_send_dedi_unitdata (data_ind); ma_fill_dedi_sys_buffer (data_ind, msg_t); } break; case D_EXT_MEAS_ORDER: ma_send_dedi_unitdata (data_ind); break; default: break; } } else { /* * no unacknowledged frame or short PD header (format type Bter) * must be handled by DL * is forwarded in original primitive format */ ma_dedi_data_out ((T_PH_DATA_IND *)data_ind); data_ind = NULL; /* must not be freed by ALR */ } dedi_increment_rlt (); break; default: break; } /*l2_channel*/ } else { /* invalid block */ if (data_ind->l2_channel EQ L2_CHANNEL_SACCH) dedi_decrement_rlt (); } break; default: break; } } if (data_ind) { PFREE (data_ind); } } /* +----------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_change_frequency_cnf | +----------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_CHANGE_FREQUENCY_CON. */ GLOBAL void ma_mphc_change_frequency_cnf (T_MPHC_CHANGE_FREQUENCY_CON* change_frequency_cnf) { PFREE (change_frequency_cnf); dedi_change_freq_cnf (); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_async_ho_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_ASYNC_HO_CNF. */ GLOBAL void ma_mphc_async_ho_cnf (T_MPHC_ASYNC_HO_CON* async_ho_cnf) { PFREE (async_ho_cnf); dedi_ho_cnf(HO_TYPE_ASYNC); } /* +---------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_channel_assign_cnf | +---------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_CHANNEL_ASSIGN_CON. */ GLOBAL void ma_mphc_channel_assign_cnf (T_MPHC_CHANNEL_ASSIGN_CON* channel_assign_cnf) { PFREE (channel_assign_cnf); #if defined(DL_TRACE_ENABLED) DL_OFFLINE_TRACE ("MPHC_CHANNEL_ASSIGN_CON"); #else SYST_TRACE ("dedi chan ass con"); #endif /* DL_TRACE_ENABLED */ dedi_chan_ass_cnf (); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_handover_fail_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_HANDOVER_FAIL_CON. */ GLOBAL void ma_mphc_handover_fail_cnf (T_MPHC_HANDOVER_FAIL_CON* handover_fail_cnf) { PFREE (handover_fail_cnf); dedi_ho_fail_cnf (); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_immed_assign_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_IMMED_ASSIGN_CON. */ GLOBAL void ma_mphc_immed_assign_cnf (T_MPHC_IMMED_ASSIGN_CON* immed_assign_cnf) { PFREE (immed_assign_cnf); #if defined(DL_TRACE_ENABLED) DL_OFFLINE_TRACE ("MPHC_IMMED_ASSIGN_CON"); #endif /* DL_TRACE_ENABLED */ dedi_imm_ass_cnf (); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_pre_sync_ho_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_PRE_SYNC_HO_CON. */ GLOBAL void ma_mphc_pre_sync_ho_cnf (T_MPHC_PRE_SYNC_HO_CON* pre_sync_ho_cnf) { PFREE (pre_sync_ho_cnf); dedi_ho_cnf(HO_TYPE_PRE_SYNC); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_sync_ho_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_SYNC_HO_CON. */ GLOBAL void ma_mphc_sync_ho_cnf (T_MPHC_SYNC_HO_CON* sync_ho_cnf) { PFREE (sync_ho_cnf); dedi_ho_cnf(HO_TYPE_SYNC); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_ta_fail_ind | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_TA_FAIL_IND. */ GLOBAL void ma_mphc_ta_fail_ind (T_MPHC_TA_FAIL_IND* ta_fail_ind) { PFREE (ta_fail_ind); dedi_ta_fail_ind (); } /* +-----------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_handover_finished_ind | +-----------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_HANDOVER_FINISHED. */ GLOBAL void ma_mphc_handover_finished_ind (T_MPHC_HANDOVER_FINISHED* ho_finished) { dedi_ho_finished (ho_finished); PFREE (ho_finished); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_meas_report_ind_emo| +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_MEAS_REPORT for Extended Measurement procedure. */ LOCAL BOOL ma_mphc_meas_report_ind_emo (T_MPHC_MEAS_REPORT* mphc_meas_report) { GET_INSTANCE_DATA; UBYTE emo_ba_id = alr_data->dedi_data.emo_ba_id; UBYTE rep_ba_id = mphc_meas_report->ba_id; if ( INRANGE(RR_BA_LOW,rep_ba_id,RR_BA_HIGH) AND mphc_meas_report->meas_valid ) { if ( rep_ba_id EQ emo_ba_id ) { T_ncell_meas *ncell_meas = &mphc_meas_report->ncell_meas; T_res_list *res_list = &ncell_meas->res_list[0]; T_meas_results *meas_results; USHORT k,n; UBYTE nmax; PALLOC (mph_emo_meas_ind, MPH_EMO_MEAS_IND); meas_results = &mph_emo_meas_ind->meas_results[0]; mph_emo_meas_ind->ba_id = mphc_meas_report->ba_id; mph_emo_meas_ind->dtx = mphc_meas_report->dtx_used; nmax = sizeof mph_emo_meas_ind->meas_results / sizeof mph_emo_meas_ind->meas_results[0]; if ( mphc_meas_report->no_of_ncells_meas > nmax ) mphc_meas_report->no_of_ncells_meas = nmax; n = mph_emo_meas_ind->c_meas_results = mphc_meas_report->no_of_ncells_meas; for ( k = 0; k < n; k++ ) { SHORT rx_lev = (SHORT)res_list[k].rxlev_acc / (BYTE) res_list[k].rxlev_nbr_meas; if ( rx_lev < 0 ) rx_lev = 0; meas_results[k].rx_lev = (UBYTE) rx_lev; meas_results[k].arfcn = ARFCN_TO_G23 ( res_list[k].bcch_freq ); } PSENDX(RR, mph_emo_meas_ind); } return TRUE; /* primitive handled */ } return FALSE; /* indicate that the primitive has not been handled */ } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_meas_report_ind | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_MEAS_REPORT. */ GLOBAL void ma_mphc_meas_report_ind (T_MPHC_MEAS_REPORT* report) { GET_INSTANCE_DATA; switch (GET_STATE (STATE_MA)) { case MA_DEDICATED: if (report->meas_valid) { if ( ma_mphc_meas_report_ind_emo ( report ) ) { PFREE ( report ); /*report isn't used any more*/ return; } nc_report_dedicated (report); } else { PALLOC (rr_report, MPH_MEASUREMENT_IND); memset (rr_report, 0, sizeof (T_MPH_MEASUREMENT_IND)); #ifdef GPRS rr_report->gprs_sync = NORMAL_MEAS_REP; #endif if (alr_data->nc_data.update) nc_fill_report_sc_dedi (rr_report, 0); ma_nc_report_res (rr_report); } alr_data->nc_data.update = FALSE; break; default: break; } PFREE (report); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : mphc_adc_ind | +--------------------------------------------------------------------+ PURPOSE : Process the primitive CST_ADC_RESULT. */ GLOBAL void ma_mphc_adc_ind (T_MPHC_ADC_IND *adc_results) { PFREE (adc_results); } /* ------------------------------------------------------------------- * ------------------------------------------------------------------- * SIGNAL Processing functions * These are called by the other ALR processes * ------------------------------------------------------------------- * ------------------------------------------------------------------- */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_rach_ra_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal rach_ra_req from SDL process RACH_Control. */ GLOBAL void ma_rach_ra_req (T_MPHC_RA_REQ * mph_ra_req) { #ifdef TI_PS_FF_QUAD_BAND_SUPPORT ALR_TRACE_MAIN_RACH (mph_ra_req->txpwr); #else ALR_TRACE_MAIN_RACH (mph_ra_req->powerclass_gsm, mph_ra_req->txpwr); #endif #ifdef TI_PS_HCOMM_CHANGE TRACE_BINDUMP(_hCommPL, TC_USER4, "CHANNEL_REQ UL", &mph_ra_req->channel_request, sizeof(mph_ra_req->channel_request)); #else TRACE_BINDUMP(hCommPL, TC_USER4, "CHANNEL_REQ UL", &mph_ra_req->channel_request, sizeof(mph_ra_req->channel_request)); #endif /* TI_PS_HCOMM_CHANGE */ PSENDX (L1, mph_ra_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_cs_power_cnf | +--------------------------------------------------------------------+ PURPOSE : Sends the power measurement results to RR. */ GLOBAL void ma_cs_power_cnf (T_MPH_POWER_CNF *mph_power_cnf) { GET_INSTANCE_DATA; #if 0 || defined(TRACING) int i; TRACE_EVENT_P1 ("mph_power_cnf: %u freq.", mph_power_cnf->num_of_chan); for (i = 0; i < mph_power_cnf->num_of_chan AND i<10; i++) TRACE_EVENT_P3("[%u] std=%u rx_lev=%u", mph_power_cnf->arfcn[i]&ARFCN_MASK, STD_GET_FROM_ARFCN(mph_power_cnf->arfcn[i]), mph_power_cnf->rx_lev[i]); #endif /* TRACING */ if ( IS_EXT_MEAS_RUNNING ) /*alr_data->cs_data.mph_ext_meas_req NEQ NULL */ { D_OPC ( mph_power_cnf ) = MPH_EXT_MEAS_CNF; } PSENDX (RR, mph_power_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_cs_rxlev_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal cs_rxlev_req from SDL process Cell_Selection. */ GLOBAL void ma_cs_rxlev_req (void) { GET_INSTANCE_DATA; T_POWER_MEAS* power_meas = NULL; TRACE_FUNCTION ("ma_cs_rxlev_req()"); switch (GET_STATE (STATE_CS)) { case CS_INIT_L1: power_meas = cs_prepare_power_req(); /* init radio band before measurement */ #ifdef TI_PS_FF_QUAD_BAND_SUPPORT ma_cs_init_l1_req(); #else ma_cs_init_l1_req(alr_data->cs_data.std); #endif SET_STATE(STATE_CS, CS_INIT_ACTIVE); return; /* wait of MPHC_INIT_L1_CON */ case CS_INIT_ACTIVE: return; /* wait of MPHC_INIT_L1_CON */ case CS_INIT_DONE: /* go through and wait or start the first resp. next measurement */ case CS_START_MEASURE: /* without or after configuration of radio band */ if (IS_TIMER_ACTIVE(TIM_POWERMEAS)) { /* * use time to spread power measurements also to write out * possible available DL offline traces */ #ifdef TI_PS_HCOMM_CHANGE PSIGNAL (_hCommDL, PH_TRACE_IND, NULL); #else PSIGNAL (hCommDL, PH_TRACE_IND, NULL); #endif /* TI_PS_HCOMM_CHANGE */ return; /* do nothing and wait for timer delay */ } break; /* OK start the first resp. next measurement */ default: TRACE_EVENT_P1 ("wrong CS state (%u) in ma_cs_rxlev_req()", GET_STATE (STATE_CS)); return; } power_meas = cs_prepare_power_req(); if (power_meas) { PALLOC(rxlev_req, MPHC_RXLEV_REQ); rxlev_req->shared_ptr = (ULONG) power_meas; SET_STATE(STATE_CS, CS_ACTIVE_MEASURE); PSENDX(L1, rxlev_req); /* start timer new */ TIMERSTART(TIM_POWERMEAS, alr_data->cs_data.c_tim_meas); ALR_EM_FIELDSTRENGTH_MEASUREMENT_REQUEST; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_cs_init_l1_req | +--------------------------------------------------------------------+ PURPOSE : set the radio band configuration. */ #ifdef TI_PS_FF_QUAD_BAND_SUPPORT GLOBAL void ma_cs_init_l1_req () #else GLOBAL void ma_cs_init_l1_req (UBYTE radio_band_config) #endif { PALLOC (init_l1_req, MPHC_INIT_L1_REQ); /* T_MPHC_INIT_L1_REQ */ /* No need to configure L1 for different bands. l1 is capable of scanning across different bands */ #ifndef TI_PS_FF_QUAD_BAND_SUPPORT init_l1_req->radio_band_config = radio_band_config; TRACE_EVENT_P1 ("radio_band_config=%u", init_l1_req->radio_band_config); #endif PSENDX(L1, init_l1_req); cs_set_wideband_sync(); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_cs_network_sync_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal cs_network_sync_req from SDL process Cell_Selection. */ GLOBAL void ma_cs_network_sync_req (USHORT channel) { GET_INSTANCE_DATA; PALLOC (network_sync_req, MPHC_NETWORK_SYNC_REQ); network_sync_req->radio_freq = channel; network_sync_req->fn_offset = 0; network_sync_req->time_alignment = 0; network_sync_req->timing_validity = TV_INVALID_TIMING_INFO; network_sync_req->search_mode = alr_data->cs_data.search_mode; alr_data->cs_data.sync_active = TRUE; PSENDX(L1, network_sync_req); TIMERSTART(TIM_NW_SYNC_GUARD, TIM_NW_SYNC_GUARD_VALUE); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_nc_rxlev_periodic_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal nc_rxlev_periodic_req from SDL process Idle_Neighbour_Cell. */ GLOBAL void ma_nc_rxlev_periodic_req (T_MPHC_RXLEV_PERIODIC_REQ* update) { GET_INSTANCE_DATA; switch (GET_STATE (STATE_MA)) { case MA_CELL_RESELECTION: case MA_IDLE: PSENDX (L1, update); break; default: PFREE (update); break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_nc_stop_ncell_bcch_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal nc_stop_ncell_bcch_req from SDL process Idle_Neighbour_Cell. */ GLOBAL void ma_nc_stop_ncell_bcch_req (USHORT arfcn) { PALLOC(stop_req, MPHC_STOP_NCELL_BCCH_REQ); memset (stop_req, 0, sizeof(T_MPHC_STOP_NCELL_BCCH_REQ)); stop_req->radio_freq_array_size = 1; stop_req->radio_freq_array[0] = ARFCN_TO_L1(arfcn); PSENDX(L1, stop_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_nc_stop_ncell_bcch_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal nc_stop_ncell_bcch_req from SDL process Idle_Neighbour_Cell. */ GLOBAL void ma_nc_stop_ncell_sync_req (USHORT arfcn) { PALLOC (mphc_stop_ncell_sync_req, MPHC_STOP_NCELL_SYNC_REQ); mphc_stop_ncell_sync_req->radio_freq_array_size = 1; mphc_stop_ncell_sync_req->radio_freq_array[0] = ARFCN_TO_L1(arfcn); PSENDX(L1, mphc_stop_ncell_sync_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_nc_sync_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal nc_sync_req from SDL process Idle_Neighbour_Cell. */ GLOBAL void ma_nc_sync_req (T_MPHC_NCELL_SYNC_REQ *sync_req) { PSENDX(L1, sync_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_nc_list_sync_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal nc_list_sync_req from SDL process Idle_Neighbour_Cell. */ GLOBAL void ma_nc_list_sync_req (T_MPHC_NCELL_LIST_SYNC_REQ *list_sync_req) { PSENDX(L1, list_sync_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_nc_bcch_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal nc_bcch_req from SDL process Idle_Neighbour_Cell. */ GLOBAL void ma_nc_bcch_req (T_MPHC_NCELL_BCCH_REQ *bcch_req) { ALR_EM_READ_NEIGHBOURCELL_BCCH; PSENDX(L1, bcch_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_nc_update_ba_list | +--------------------------------------------------------------------+ PURPOSE : Process the signal nc_update_ba_list from SDL process Idle_Neighbour_Cell. */ GLOBAL void ma_nc_update_ba_list (T_MPHC_UPDATE_BA_LIST *update_ba_list) { GET_INSTANCE_DATA; switch (GET_STATE (STATE_MA)) { case MA_DEDICATED: PSENDX (L1, update_ba_list); break; default: PFREE (update_ba_list); break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_nc_report_res | +--------------------------------------------------------------------+ PURPOSE : Process the signal nc_report_res from SDL process Idle_Neighbour_Cell. */ GLOBAL void ma_nc_report_res (T_MPH_MEASUREMENT_IND *mph_measurement_ind) { /* Implements Measure#32: Row 112 */ GET_INSTANCE_DATA; TRACE_ASSERT((GET_STATE(STATE_MA) NEQ MA_NULL) OR (GET_STATE(STATE_MA) NEQ MA_CELL_SELECTION)); switch (GET_STATE (STATE_MA)) { case MA_IDLE: #ifdef GPRS case MA_PTM: #endif case MA_CON_EST: case MA_CELL_RESELECTION: case MA_DEDICATED: PSENDX (RR, mph_measurement_ind); break; default: PFREE (mph_measurement_ind); break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_stop_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_stop_req from SDL process Dedicated_Control. */ GLOBAL void ma_dedi_stop_req (void) { PALLOC (stop_dedicated, MPHC_STOP_DEDICATED_REQ); #if defined(DL_TRACE_ENABLED) DL_OFFLINE_TRACE ("MPHC_STOP_DEDICATED_REQ"); #endif /* DL_TRACE_ENABLED */ PSENDX (L1, stop_dedicated); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_cnf from SDL process Dedicated_Control. */ GLOBAL void ma_dedi_cnf (UBYTE cause) { PALLOC (dedicated_cnf, MPH_DEDICATED_CNF); dedicated_cnf->dedi_res = cause; PSENDX (RR, dedicated_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_chan_ass_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_chan_ass_req from SDL process Dedi Control. */ GLOBAL void ma_dedi_chan_ass_req (T_MPHC_CHANNEL_ASSIGN_REQ *mphc_channel_assign_req) { #if defined(DL_TRACE_ENABLED) DL_OFFLINE_TRACE ("MPHC_CHANNEL_ASSIGN_REQ"); #else SYST_TRACE_P ((SYST, "dedi chan ass req %d", mphc_channel_assign_req->channel_desc_1.channel_type)); #endif /* DL_TRACE_ENABLED */ PSENDX (L1, mphc_channel_assign_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_async_ho_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_async_ho_req from SDL process Dedi Control. */ GLOBAL void ma_dedi_async_ho_req (T_MPHC_ASYNC_HO_REQ *async_ho_req) { PSENDX (L1, async_ho_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_sync_ho_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_sync_ho_req from SDL process Dedi Control. */ GLOBAL void ma_dedi_sync_ho_req (T_MPHC_SYNC_HO_REQ * sync_ho_req) { PSENDX (L1, sync_ho_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_pre_sync_ho_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_pre_sync_ho_req from SDL process Dedi Control. */ GLOBAL void ma_dedi_pre_sync_ho_req (T_MPHC_PRE_SYNC_HO_REQ *pre_sync_ho_req) { PSENDX (L1, pre_sync_ho_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_fail_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_fail_cnf from SDL process Dedicated_Control. */ GLOBAL void ma_dedi_fail_cnf (void) { PALLOC (mph_dedicated_fail_cnf, MPH_DEDICATED_FAIL_CNF); PSENDX (RR, mph_dedicated_fail_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_ho_fail_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_ho_fail_req from SDL process Dedicated_Control. */ GLOBAL void ma_dedi_ho_fail_req (void) { PALLOC (handover_fail_req, MPHC_HANDOVER_FAIL_REQ); PSENDX (L1, handover_fail_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_imm_ass_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_imm_ass_req from SDL process Dedicated_Control. */ GLOBAL void ma_dedi_imm_ass_req (T_MPHC_IMMED_ASSIGN_REQ *immed_assign_req) { #if defined(DL_TRACE_ENABLED) DL_OFFLINE_TRACE ("MPHC_IMMED_ASSIGN_REQ"); #else SYST_TRACE_P ((SYST, "dedi imm ass req %d", immed_assign_req->channel_desc.channel_type)); #endif /* DL_TRACE_ENABLED */ PSENDX (L1, immed_assign_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_change_freq_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_change_freq_req from SDL process Dedicated_Control. */ GLOBAL void ma_dedi_change_freq_req (T_MPHC_CHANGE_FREQUENCY *change_frequency) { PSENDX (L1, change_frequency); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_chan_mode_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_chan_mode_req from SDL process Dedicated_Control. */ GLOBAL void ma_dedi_chan_mode_req (T_MPHC_CHANNEL_MODE_MODIFY_REQ *channel_mode_modify_req) { PSENDX (L1, channel_mode_modify_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_ciph_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_ciph_req from SDL process Dedicated_Control. */ GLOBAL void ma_dedi_ciph_req (T_MPHC_SET_CIPHERING_REQ *set_ciphering_req) { PSENDX (L1, set_ciphering_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_data_out | +--------------------------------------------------------------------+ PURPOSE : Acknowledged frame or short PD header (format type Bter) Forward the message to DL. Uses the original primitive format. */ LOCAL void ma_dedi_data_out (T_PH_DATA_IND *data_ind) { PPASS (data_ind, ph_data_ind, PH_DATA_IND); PSENDX (DL, ph_data_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_send_dedi_unitdata | +--------------------------------------------------------------------+ PURPOSE : Sends an unacknowledged message on SACCH to RR. */ LOCAL void ma_send_dedi_unitdata (T_MPHC_DATA_IND *data_ind) { USHORT len_in_bits = 19 * 8; PALLOC_SDU (data_out, MPH_UNITDATA_IND, len_in_bits); data_out->sdu.l_buf = 18 * 8; data_out->sdu.o_buf = 8; data_out->sdu.buf[0] = 0; /*lint -e{419} (Warning -- Apparent data overrun) */ memcpy (&data_out->sdu.buf[1], &data_ind->l2_frame.content[5], 18); data_out->arfcn = ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK; data_out->fn = data_ind->fn; PSENDX (RR, data_out); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_open_tch_loop_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_open_tch_loop_req from SDL process Dedicated_Control. */ GLOBAL void ma_dedi_open_tch_loop_req (void) { PALLOC (oml1_open_tch_loop_req, OML1_OPEN_TCH_LOOP_REQ); PSENDX (L1, oml1_open_tch_loop_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_stop_dai_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_stop_dai_req from SDL process Dedicated_Control. */ GLOBAL void ma_dedi_stop_dai_req (void) { PALLOC (oml1_stop_dai_test_req, OML1_STOP_DAI_TEST_REQ); PSENDX (L1, oml1_stop_dai_test_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_close_tch_loop_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_close_tch_loop_req from SDL process Dedicated_Control. */ GLOBAL void ma_dedi_close_tch_loop_req (T_OML1_CLOSE_TCH_LOOP_REQ *oml1_close_tch_loop_req) { PSENDX (L1, oml1_close_tch_loop_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_dedi_start_dai_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_dedi_start_dai_req from SDL process Dedicated_Control. */ GLOBAL void ma_dedi_start_dai_req (T_OML1_START_DAI_TEST_REQ *oml1_start_dai_test_req) { PSENDX (L1, oml1_start_dai_test_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_rach_stop_ra_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal rach_stop_ra_req from SDL process RACH_Control. */ GLOBAL void ma_rach_stop_ra_req (void) { PALLOC (stop_ra_req, MPHC_STOP_RA_REQ); PSENDX (L1, stop_ra_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_pch_start_ccch_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal pch_start_ccch_req from SDL process PCH_Control. */ GLOBAL void ma_pch_start_ccch_req (T_MPHC_START_CCCH_REQ *pl_idle) { GET_INSTANCE_DATA; if (memcmp ( &(alr_data->pch_data.last_start_ccch_req), pl_idle, sizeof(T_MPHC_START_CCCH_REQ) ) NEQ 0) { memcpy ( &(alr_data->pch_data.last_start_ccch_req), pl_idle, sizeof(T_MPHC_START_CCCH_REQ)); PSENDX (L1, pl_idle); } else { PFREE(pl_idle); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_rach_random_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the signal rach_random_cnf from SDL process RACH_Control. */ GLOBAL void ma_rach_random_cnf (T_MPH_RANDOM_ACCESS_CNF * mph_random_access_cnf) { GET_INSTANCE_DATA; switch (GET_STATE (STATE_MA)) { case MA_CON_EST: ALR_TRACE_MAIN_RA_CNF(mph_random_access_cnf->frame_no.t1, mph_random_access_cnf->frame_no.t2, mph_random_access_cnf->frame_no.t3); #if !defined (NCONFIG) if(v_cfg_rach_failure) memset(mph_random_access_cnf,0, sizeof(T_MPH_RANDOM_ACCESS_CNF)); #endif PSENDX (RR, mph_random_access_cnf); break; default: PFREE (mph_random_access_cnf); break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_PCH | | STATE : code ROUTINE : ma_pch_paging_ind | +--------------------------------------------------------------------+ PURPOSE : Sends a paging indication to RR. */ GLOBAL void ma_pch_paging_ind (UBYTE id_type, UBYTE channel_needed) { PALLOC (mph_paging_ind, MPH_PAGING_IND); ALR_EM_PAGING_DETECTED; mph_paging_ind->identity_type = id_type; mph_paging_ind->channel_needed = channel_needed; // vsi_o_ttrace(VSI_CALLER 0xFFFF, "PAG IND ch=%x", channel_needed); #if defined(DL_TRACE_ENABLED) { sprintf (dl_trace_buf, "PAG%u ch=%u", id_type,channel_needed); DL_OFFLINE_TRACE (dl_trace_buf); } #else /* DL_TRACE_ENABLED */ SYST_TRACE_P ((SYST, "PAG%u ch=%u", id_type,channel_needed)); #endif /* DL_TRACE_ENABLED */ PSENDX (RR, mph_paging_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_pch_stop | +--------------------------------------------------------------------+ PURPOSE : Stop CCCH reading. */ GLOBAL void ma_pch_stop(void) { GET_INSTANCE_DATA; PALLOC(stop_req, MPHC_STOP_CCCH_REQ); alr_data->pch_data.last_start_ccch_req.bs_pa_mfrms = NOT_PRESENT_8BIT; PSENDX(L1, stop_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mmi_cbch_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MMI_CBCH_REQ. */ GLOBAL void ma_mmi_cbch_req (T_MMI_CBCH_REQ *cbch_req) { TRACE_EVENT ("MMI_CBCH_REQ"); cb_mmi_cbch_req (cbch_req); PFREE (cbch_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mmi_cbch_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MMI_CBCH_REQ. */ GLOBAL void ma_mmi_sat_cbch_dwnld_req (T_MMI_SAT_CBCH_DWNLD_REQ *cbch_req) { TRACE_EVENT ("MMI_SAT_CBCH_DWNLD_REQ"); cb_mmi_sat_cbch_req (cbch_req); PFREE (cbch_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_cb_stop_cbch_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_cb_stop_cbch_req. */ GLOBAL void ma_cb_stop_cbch_req (void) { PALLOC(stop_cbch_req, MPHC_STOP_CBCH_REQ); stop_cbch_req->normal_cbch = CBCH_STOP; stop_cbch_req->extended_cbch = CBCH_STOP; TRACE_EVENT ("MPHC_STOP_CBCH_REQ"); PSENDX(L1, stop_cbch_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_cb_sched_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_cb_sched_req. */ GLOBAL void ma_cb_sched_req (T_MPHC_CBCH_SCHEDULE_REQ *sched_req) { /* TRACE_EVENT ("MPHC_CBCH_SCHEDULE_REQ"); */ PSENDX (L1, sched_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_cb_config_cbch | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_cb_config_cbch. */ GLOBAL void ma_cb_config_cbch (T_MPHC_CONFIG_CBCH_REQ *config_cbch) { TRACE_EVENT ("MPHC_CONFIG_CBCH_REQ"); PSENDX(L1, config_cbch); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_cb_mmi_cbch_ind | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_cb_mmi_cbch_ind. */ GLOBAL void ma_cb_mmi_cbch_ind (T_MMI_CBCH_IND *mmi_cbch_ind) { TRACE_EVENT ("MMI_CBCH_IND"); PSENDX (MMI, mmi_cbch_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_cb_info_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_cb_info_req. */ GLOBAL void ma_cb_info_req (UBYTE bitmap) { PALLOC(info_req, MPHC_CBCH_INFO_REQ); info_req->tb_bitmap = bitmap; TRACE_EVENT ("MPHC_CBCH_INFO_REQ"); PSENDX (L1, info_req); } /*==================================================================== *Functions used by more than one process *==================================================================== +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_scell_nbcch_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal ma_scell_nbcch_req . */ GLOBAL void ma_scell_full_nbcch (void) { GET_INSTANCE_DATA; PALLOC(scell_nbcch_req, MPHC_SCELL_NBCCH_REQ); ALR_TRACE_MAIN ("start full sc bcch"); switch(GET_STATE(STATE_MA)) { case MA_CELL_SELECTION: case MA_CELL_RESELECTION: alr_data->cs_data.si_bitmap = 0; break; } scell_nbcch_req->schedule_array_size = 1; scell_nbcch_req->schedule_array[0].modulus = 1; scell_nbcch_req->schedule_array[0].relative_position = 0; ma_scell_nbcch_req(scell_nbcch_req); } GLOBAL void ma_scell_nbcch_req (T_MPHC_SCELL_NBCCH_REQ *nbcch_req) { ALR_TRACE_MAIN ("start sc bcch"); PSENDX (L1, nbcch_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_scell_ebcch_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal cs_scell_nbcch_req from SDL process Cell_Selection. */ GLOBAL void ma_scell_ebcch_req (T_MPHC_SCELL_EBCCH_REQ *ebcch_req) { PSENDX (L1, ebcch_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_stop_active_procs | +--------------------------------------------------------------------+ PURPOSE : Stop all active procedures. */ GLOBAL void ma_stop_active_procs (UBYTE flags) { GET_INSTANCE_DATA; if (flags & STOP_PCH_READING) { pch_stop(); } if (flags & STOP_MEASUREMENTS) { ma_stop_rxlev_periodic_req(); } switch (GET_STATE(STATE_MA)) { case MA_CELL_SELECTION: /* * if we are doing measurements or synchronising or * reading the BCCH of a cell, stop the process */ cs_stop(); break; case MA_CELL_RESELECTION: ma_stop_scell_bcch_req (); break; case MA_CON_EST: /* * Stop Uplink Random Burst Sending */ rach_stop(); break; case MA_DEDICATED: dedi_stop(); break; case MA_IDLE: /* if we are reading the FCH or SCH of a ncell or reading its BCCH, stop it */ nc_suspend(); #if defined (REL99) && defined (TI_PS_FF_EMR) /* before stop reading the scell BCCH reset the SIq_status to configure when it is in pending state, so that it is easy to reconfigure again*/ if((alr_data->nc_data.si2quater_status EQ SI2QUATER_ACQ_PENDING) OR (alr_data->nc_data.si2quater_status EQ SI2QUATER_ACQ_FULL_BCCH)) { alr_data->nc_data.si2quater_status = SI2QUATER_CONFIGURE; } #endif /* if we are reading the BCCH of the serving cell, stop it */ ma_stop_scell_bcch_req(); /* if we are reading the CBCH, stop it */ cb_stop(); break; #ifdef GPRS case MA_PTM: /* if we are reading the FCH or SCH of a ncell or reading its BCCH, stop it */ nc_suspend(); /* if we are reading the BCCH of the serving cell, stop it */ /* ma_stop_scell_bcch_req(); */ break; #endif /* GPRS */ }; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_send_unitdata | +--------------------------------------------------------------------+ PURPOSE : Cut pseudo length and send data directly to RR. */ GLOBAL void ma_send_unitdata (T_MPHC_DATA_IND * data_ind) { #define SYS_INFO_LEN 24 USHORT len_in_bits = SYS_INFO_LEN * BITS_PER_BYTE; PALLOC_SDU (data_out, MPH_UNITDATA_IND, len_in_bits); /* No IE and Pseudo Length */ data_out->sdu.l_buf = (SYS_INFO_LEN - 2) * BITS_PER_BYTE; /* Pseudo Length */ data_out->sdu.o_buf = 1 * BITS_PER_BYTE; /* No IE */ /*lint -e{419} (Warning -- Apparent data overrun) */ memcpy (data_out->sdu.buf, &data_ind->l2_frame, SYS_INFO_LEN - 1); data_out->arfcn = ARFCN_TO_G23(data_ind->radio_freq)&ARFCN_MASK; data_out->fn = data_ind->fn; #if 0 && defined(DL_TRACE_ENABLED) { sprintf (dl_trace_buf, "DATA ind msg=%u", msg_t); DL_OFFLINE_TRACE (dl_trace_buf); } #endif /* DL_TRACE_ENABLED */ PSENDX (RR, data_out); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_error_ind | +--------------------------------------------------------------------+ PURPOSE : send a MPH_ERROR_IND to RR. */ GLOBAL void ma_error_ind (UBYTE cause, USHORT arfcn) { PALLOC (error_ind, MPH_ERROR_IND); ALR_TRACE_MAIN ("err ind"); ALR_EM_ERROR_IND(cause, arfcn); error_ind->cs = cause; error_ind->arfcn = arfcn; PSENDX (RR, error_ind); /* * These errors could mean that the AFC value in L1 might be srewed * up somehow. So go back to wide band search mode for next CS to be * safe. */ if( (cause EQ CS_DOWN_LINK_FAIL) OR (cause EQ CS_RADIO_LINK_FAIL)) cs_set_wideband_sync(); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_sync_ind | +--------------------------------------------------------------------+ PURPOSE : Send a synchronisation primitive to RR. */ LOCAL void ma_sync_ind (UBYTE cause, USHORT arfcn) { PALLOC (sync_ind, MPH_SYNC_IND); TRACE_FUNCTION ("ma_sync_ind()"); sync_ind->cs = cause; sync_ind->arfcn = arfcn; PSENDX (RR, sync_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_stop_scell_bcch_req | +--------------------------------------------------------------------+ PURPOSE : Process the signal cs_stop_bcch_reading from SDL processes Cell_Selection or Serving_Cell. */ GLOBAL void ma_stop_scell_bcch_req (void) { PALLOC (stop_bcch_req, MPHC_STOP_SCELL_BCCH_REQ); ALR_TRACE_MAIN ("stop sc bcch"); PSENDX (L1, stop_bcch_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_stop_rxlev_periodic_req | +--------------------------------------------------------------------+ PURPOSE : Stops the periodic fieldstrength measurements during idle mode. */ LOCAL void ma_stop_rxlev_periodic_req (void) { PALLOC (stop_rxlev_req, MPHC_STOP_RXLEV_PERIODIC_REQ); ALR_TRACE_MAIN ("stop rxlev perio."); PSENDX (L1, stop_rxlev_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_bsic_cnf | +--------------------------------------------------------------------+ PURPOSE : Sends the synchronisation result to RR. */ GLOBAL void ma_bsic_cnf (T_MPH_BSIC_CNF* mph_bsic_cnf) { PSENDX (RR, mph_bsic_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_new_scell_req | +--------------------------------------------------------------------+ PURPOSE : Sends a new scell request to layer 1. */ GLOBAL void ma_new_scell_req(T_MPHC_NEW_SCELL_REQ *new_scell) { GET_INSTANCE_DATA; alr_data->bsic = new_scell->tsc; PSENDX(L1, new_scell); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_init_l1_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_INIT_L1_CON. */ GLOBAL void ma_mphc_init_l1_cnf (T_MPHC_INIT_L1_CON *init_l1_cnf) { GET_INSTANCE_DATA; switch (GET_STATE (STATE_CS)) { case CS_INIT_ACTIVE: SET_STATE (STATE_CS, CS_INIT_DONE); #ifdef TI_PS_FF_QUAD_BAND_SUPPORT compare_l1_frequency_band_with_ffs (init_l1_cnf); #endif ma_cs_rxlev_req (); break; #ifdef TI_PS_FF_QUAD_BAND_SUPPORT default : TRACE_EVENT_P1 ("MPHC_INIT_L1_CON received in the wrong CS state %d", GET_STATE (STATE_CS)); break; #else case CS_INIT_SYNC: SET_STATE (STATE_CS, CS_INIT_DONE); cs_bsic_req (NULL); #endif } PFREE (init_l1_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mphc_stop_dedi_con | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPHC_STOP_DEDICATED_CON. */ GLOBAL void ma_mphc_stop_dedi_con (T_MPHC_STOP_DEDICATED_CON *stop_cnf) { #ifdef GPRS GET_INSTANCE_DATA; #endif PFREE (stop_cnf); #ifdef GPRS if(alr_data->dedi_data.act_mode EQ MODE_PDCH_ASSIGN) { /* * Notify RR about the actions performed due to PDCH Assignment. * Note that MPH_DEDICATED_CNF is misleading as L1 is in Idle Mode now. */ ma_dedi_cnf (DEDI_RES_OK); trc_state_transition(0, MA_IDLE); SET_STATE(STATE_MA, MA_IDLE); /* allow PTM with next MPH_IDLE_REQ(PTM) */ return; } #endif { PALLOC(mph_dedi_cnf, MPH_STOP_DEDICATED_CNF); PSENDX ( RR, mph_dedi_cnf ); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : convert_arfcn_to_l1 | +--------------------------------------------------------------------+ PURPOSE : Convert_arfcn_to_l1 converts the arfcn given by the upper layer (ETSI GSM spec.) to the internal format of layer 1. Frequency Band config. ETSI GSM spec. coding used in L1 GSM 900 STD_900 1-124 1-124 E-GSM STD_EGSM 1-124, 1-124, 975-1023, 0 975-1023, 0 PCS 1900 STD_1900 512-810 1024-1322 DCS 1800 STD_1800 512-885 512-885 GSM 900/DCS 1800 STD_DUAL 1-124, 1-124, 512-885 512-885 E-GSM/DCS 1800 STD_DUAL_EGSM 1-124, 1-124, 975-1023,0 975-1023,0 512-885 512-885 GSM 850 STD_850 128-251 128-251 GSM 850/PCS 1900 STD_DUAL_US 128-251, 128-251, 512-810 1024-1322 GSM 850/DCS 1800 STD_850_1800 128-251, 128-251, 512-885 512-885 GSM 900/PCS 1900 STD_900_1900 1-124, 1-124, 512-810 1024-1322 */ GLOBAL USHORT convert_arfcn_to_l1 (USHORT arfcn, UBYTE local_std) { #ifdef WIN32 GET_INSTANCE_DATA; if (!alr_data->mb_testing) arfcn = arfcn&ARFCN_MASK; else { #endif if (local_std EQ 0) local_std = std; arfcn &= ARFCN_MASK; switch (local_std) { #ifdef TI_PS_FF_QUAD_BAND_SUPPORT case STD_1900: case STD_DUAL_US: case STD_900_1900: case STD_850_900_1900: if ((arfcn >= LOW_CHANNEL_1900) AND (arfcn <= HIGH_CHANNEL_1900)) arfcn += LOW_CHANNEL_1900; break; #else case STD_DUAL: if (arfcn >= LOW_CHANNEL_1800) arfcn -= (LOW_CHANNEL_1800-125); break; case STD_EGSM: case STD_DUAL_EGSM: if (arfcn >= LOW_CHANNEL_EGSM) arfcn -= (LOW_CHANNEL_EGSM-125); else if (arfcn >= LOW_CHANNEL_1800) arfcn -= (LOW_CHANNEL_1800-175); else if (arfcn EQ CHANNEL_0) arfcn = 174; break; case STD_DUAL_US: if (arfcn >= LOW_CHANNEL_1900) arfcn -= (LOW_CHANNEL_1900-125); else arfcn -= (LOW_CHANNEL_850-1); break; #endif default: break; } #ifdef WIN32 } #endif return arfcn; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : convert_arfcn_to_g23 | +--------------------------------------------------------------------+ PURPOSE : Convert_arfcn_to_g23 converts the radio frequence given by layer 1 to the common format of the upper layer (ETSI GSM spec.). Frequency Band config. ETSI GSM spec. coding used in L1 GSM 900 STD_900 1-124 1-124 E-GSM STD_EGSM 1-124, 1-124, 975-1023, 0 975-1023, 0 PCS 1900 STD_1900 512-810 1024-1322 DCS 1800 STD_1800 512-885 512-885 GSM 900/DCS 1800 STD_DUAL 1-124, 1-124, 512-885 512-885 E-GSM/DCS 1800 STD_DUAL_EGSM 1-124, 1-124, 975-1023,0 975-1023,0 512-885 512-885 GSM 850 STD_850 128-251 128-251 GSM 850/PCS 1900 STD_DUAL_US 128-251, 128-251, 512-810 1024-1322 GSM 850/DCS 1800 STD_850_1800 128-251, 128-251, 512-885 512-885 GSM 900/PCS 1900 STD_900_1900 1-124, 1-124, 512-810 1024-1322 */ GLOBAL USHORT convert_arfcn_to_g23 (USHORT arfcn, UBYTE local_std) { #ifdef WIN32 GET_INSTANCE_DATA; if (!alr_data->mb_testing) arfcn = arfcn&ARFCN_MASK; else { #endif if (local_std EQ 0) local_std = std; arfcn &= ARFCN_MASK; switch (local_std) { #ifdef TI_PS_FF_QUAD_BAND_SUPPORT case STD_1900: case STD_DUAL_US: case STD_900_1900: case STD_850_900_1900: if (arfcn >= LOW_CHANNEL_1900_INTERNAL) arfcn -= LOW_CHANNEL_1900; break; #else case STD_DUAL: if (arfcn >=125) arfcn += (LOW_CHANNEL_1800-125); break; case STD_EGSM: case STD_DUAL_EGSM: if (arfcn >= 175) arfcn += (LOW_CHANNEL_1800-175); else if (arfcn EQ 174) arfcn = CHANNEL_0; else if (arfcn >= 125) arfcn += (LOW_CHANNEL_EGSM-125); break; case STD_DUAL_US: if (arfcn >= 125) arfcn += (LOW_CHANNEL_1900-125); else arfcn += (LOW_CHANNEL_850-1); /*lint -fallthrough*/ case STD_850: case STD_1900: /* only for MPH_POWER_CNF and MPH_BSIC_CNF arfcn |= US_BIT; */ break; #endif default: break; } #ifdef WIN32 } #endif return arfcn; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_clean_dedi_sys_buffer | +--------------------------------------------------------------------+ PURPOSE : Cleans System Information Message from SACCH. */ GLOBAL void ma_clean_dedi_sys_buffer (void) { GET_INSTANCE_DATA; memset (alr_data->ma_data.sys_info_5, 0, 18); memset (alr_data->ma_data.sys_info_5bis, 0, 18); memset (alr_data->ma_data.sys_info_5ter, 0, 18); memset (alr_data->ma_data.sys_info_6, 0, 18); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_set_si_bitmap | +--------------------------------------------------------------------+ PURPOSE : Updates the si_bitmap. */ LOCAL void ma_set_si_bitmap (UBYTE msg_t) { GET_INSTANCE_DATA; switch(msg_t) { case D_SYS_INFO_1: alr_data->cs_data.si_bitmap |= SI_1_READ; break; case D_SYS_INFO_2: alr_data->cs_data.si_bitmap |= SI_2_READ; break; case D_SYS_INFO_3: alr_data->cs_data.si_bitmap |= SI_3_READ; break; case D_SYS_INFO_4: alr_data->cs_data.si_bitmap |= SI_4_READ; break; case D_SYS_INFO_2BIS: alr_data->cs_data.si_bitmap |= SI_2BIS_READ; break; case D_SYS_INFO_2TER: alr_data->cs_data.si_bitmap |= SI_2TER_READ; break; default: break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_fill_sys_buffer | +--------------------------------------------------------------------+ PURPOSE : Stores a System Information Message. */ LOCAL void ma_fill_sys_buffer (T_MPHC_DATA_IND* data_ind, UBYTE msg_t) { GET_INSTANCE_DATA; switch (msg_t) { case D_SYS_INFO_1: memcpy (alr_data->ma_data.sys_info_1, &data_ind->l2_frame.content[1], 22); break; case D_SYS_INFO_2: memcpy (alr_data->ma_data.sys_info_2, &data_ind->l2_frame.content[1], 22); break; case D_SYS_INFO_2BIS: memcpy (alr_data->ma_data.sys_info_2bis, &data_ind->l2_frame.content[1], 22); break; case D_SYS_INFO_2TER: memcpy (alr_data->ma_data.sys_info_2ter, &data_ind->l2_frame.content[1], 22); break; #if defined (REL99) && defined (TI_PS_FF_EMR) case D_SYS_INFO_2QUATER: memcpy (alr_data->ma_data.sys_info_2quater, &data_ind->l2_frame.content[1], 22); break; #endif case D_SYS_INFO_3: memcpy (alr_data->ma_data.sys_info_3, &data_ind->l2_frame.content[1], 22); break; case D_SYS_INFO_4: memcpy (alr_data->ma_data.sys_info_4, &data_ind->l2_frame.content[1], 22); break; #ifdef GPRS case D_SYS_INFO_13: memcpy (alr_data->ma_data.sys_info_13, &data_ind->l2_frame.content[1], 22); break; #endif /* GPRS */ default: break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_compare_sys_buffer | +--------------------------------------------------------------------+ PURPOSE : Compares a System Information Message. */ LOCAL BOOL ma_compare_sys_buffer (T_MPHC_DATA_IND *mphc_data_ind, UBYTE msg_t) { GET_INSTANCE_DATA; switch (msg_t) { case D_SYS_INFO_1: return (!memcmp (alr_data->ma_data.sys_info_1, &mphc_data_ind->l2_frame.content[1], 22)); /*break;*/ case D_SYS_INFO_2: return (!memcmp (alr_data->ma_data.sys_info_2, &mphc_data_ind->l2_frame.content[1], 22)); /*break;*/ case D_SYS_INFO_2BIS: return (!memcmp (alr_data->ma_data.sys_info_2bis, &mphc_data_ind->l2_frame.content[1], 22)); /*break;*/ case D_SYS_INFO_2TER: return (!memcmp (alr_data->ma_data.sys_info_2ter, &mphc_data_ind->l2_frame.content[1], 18));/* Ignore si2ter_rest_octets changes */ /*break;*/ #if defined (REL99) && defined (TI_PS_FF_EMR) case D_SYS_INFO_2QUATER: return 0; /*break;*/ #endif case D_SYS_INFO_3: return (!memcmp (alr_data->ma_data.sys_info_3, &mphc_data_ind->l2_frame.content[1], 22)); /*break;*/ case D_SYS_INFO_4: return (!memcmp (alr_data->ma_data.sys_info_4, &mphc_data_ind->l2_frame.content[1], 22)); /*break;*/ #ifdef GPRS case D_SYS_INFO_13: return (!memcmp (alr_data->ma_data.sys_info_13, &mphc_data_ind->l2_frame.content[1], 22)); /*break;*/ #endif /* GPRS */ default: break; } return 0; } GLOBAL void sc_start_periodic (void) { GET_INSTANCE_DATA; #ifdef GPRS if(gprs_check_read_si13_only()) #endif /* GPRS */ { USHORT i; UBYTE k, si_bitmap = alr_data->cs_data.si_bitmap; PALLOC(scell_bcch_req, MPHC_SCELL_NBCCH_REQ); /* 3GPP TS 05.02 Section 6.3.1.3: If only one of SI2bis and * SI2ter is there it will be sent when TC=5 */ if((si_bitmap&SI_2BIS_READ) EQ 0 AND (si_bitmap&SI_2TER_READ) NEQ 0) si_bitmap = (si_bitmap & ~(SI_2TER_READ)) | SI_2BIS_READ; /* we want to read all SYSTEM INFO's broadcasted, TC=0..7 */ for (i=0,k=0; i < 8; i++ ) { if( (si_bitmap&(1<<i)) != 0) { scell_bcch_req->schedule_array[k].modulus = THIRTY_SECONDS_SCELL_BCCH; scell_bcch_req->schedule_array[k].relative_position = i; k++; } } scell_bcch_req->schedule_array_size = k; ma_scell_nbcch_req(scell_bcch_req); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : alr_MAIN | | STATE : code ROUTINE : ma_is_ptm | +--------------------------------------------------------------------+ PURPOSE : Returns True if the current state is MA_PTM, otherwise returns FALSE. */ #ifdef GPRS GLOBAL BOOL ma_is_ptm(void) { GET_INSTANCE_DATA; if(GET_STATE(STATE_MA) EQ MA_PTM) return TRUE; else return FALSE; } #endif /* GPRS */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : alr_MAIN | | STATE : code ROUTINE : ma_nc_rxlev_sc_req | +--------------------------------------------------------------------+ PURPOSE : A new RXLEV value of the serving cell has been measured. Inform GPL in case it is necessary. */ #ifdef GPRS GLOBAL void ma_nc_rxlev_sc_req (T_TB_RXLEV_SC_REQ *rxlev_sc_req) { GET_INSTANCE_DATA; if(GET_STATE (STATE_MA) EQ MA_IDLE AND gprs_alr_is_supported( ) EQ TRUE ) { PSENDX (GPL, rxlev_sc_req); } else { PFREE (rxlev_sc_req); } } #endif /* #ifdef GPRS */ /* *-------------------------------------------------------------------- * helper functions for main process * these should all be LOCAL *-------------------------------------------------------------------- */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_clean_sys_buffer | +--------------------------------------------------------------------+ PURPOSE : Cleans System Information Message from BCCH. */ GLOBAL void ma_clean_sys_buffer (USHORT si_mask) { GET_INSTANCE_DATA; if ( si_mask & IND_SI_1 ) memset (alr_data->ma_data.sys_info_1, 0, 22); if ( si_mask & IND_SI_2 ) memset (alr_data->ma_data.sys_info_2, 0, 22); if ( si_mask & IND_SI_2BIS ) memset (alr_data->ma_data.sys_info_2bis, 0, 22); if ( si_mask & IND_SI_3 ) memset (alr_data->ma_data.sys_info_3, 0, 22); if ( si_mask & IND_SI_4 ) memset (alr_data->ma_data.sys_info_4, 0, 22); if ( si_mask & IND_SI_2TER ) memset (alr_data->ma_data.sys_info_2ter, 0, 22); #if defined (REL99) && defined (TI_PS_FF_EMR) if ( si_mask & IND_SI_2QUATER ) memset (alr_data->ma_data.sys_info_2quater, 0, 22); #endif #ifdef GPRS if ( si_mask & IND_SI_13 ) memset (alr_data->ma_data.sys_info_13, 0, 22); #endif if ( si_mask & IND_SI_5 ) memset (alr_data->ma_data.sys_info_5, 0, 18); if ( si_mask & IND_SI_5BIS ) memset (alr_data->ma_data.sys_info_5bis, 0, 18); if ( si_mask & IND_SI_5TER ) memset (alr_data->ma_data.sys_info_5ter, 0, 18); if ( si_mask & IND_SI_6 ) memset (alr_data->ma_data.sys_info_6, 0, 18); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_fill_dedi_sys_buffer | +--------------------------------------------------------------------+ PURPOSE : Stores a System Information Message from SACCH. */ LOCAL void ma_fill_dedi_sys_buffer (T_MPHC_DATA_IND * mphc_data_ind, UBYTE msg_t) { GET_INSTANCE_DATA; switch (msg_t) { case D_SYS_INFO_5: memcpy (alr_data->ma_data.sys_info_5, &mphc_data_ind->l2_frame.content[5], 18); break; case D_SYS_INFO_5BIS: memcpy (alr_data->ma_data.sys_info_5bis, &mphc_data_ind->l2_frame.content[5], 18); break; case D_SYS_INFO_5TER: memcpy (alr_data->ma_data.sys_info_5ter, &mphc_data_ind->l2_frame.content[5], 18); break; case D_SYS_INFO_6: memcpy (alr_data->ma_data.sys_info_6, &mphc_data_ind->l2_frame.content[5], 18); break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : alr_MAIN | | STATE : code ROUTINE : ma_compare_dedi_sys_buffer | +--------------------------------------------------------------------+ PURPOSE : Compares a System Information Message on SACCH. */ LOCAL BOOL ma_compare_dedi_sys_buffer (T_MPHC_DATA_IND * mphc_data_ind, UBYTE msg_t) { GET_INSTANCE_DATA; switch (msg_t) { case D_SYS_INFO_5: return (!memcmp (alr_data->ma_data.sys_info_5, &mphc_data_ind->l2_frame.content[5], 18)); /*break;*/ case D_SYS_INFO_5BIS: return (!memcmp (alr_data->ma_data.sys_info_5bis, &mphc_data_ind->l2_frame.content[5], 18)); /*break;*/ case D_SYS_INFO_5TER: return (!memcmp (alr_data->ma_data.sys_info_5ter, &mphc_data_ind->l2_frame.content[5], 18)); /*break;*/ case D_SYS_INFO_6: return (!memcmp (alr_data->ma_data.sys_info_6, &mphc_data_ind->l2_frame.content[5], 18)); /*break;*/ default: break; } return FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_ATT | | STATE : code ROUTINE : tim_stop_sync_to_nw | +--------------------------------------------------------------------+ PURPOSE : Timeout of TIM_NW_SYNC_GUARD - Time to cancel Nw search as it is taking too long */ GLOBAL void tim_stop_sync_to_nw( void ) { GET_INSTANCE_DATA; /* Change the CS State to CS_NW_SYNC_TIMEOUT only if NW Sync is active */ if(alr_data->cs_data.sync_active) { SET_STATE(STATE_CS, CS_NW_SYNC_TIMEOUT); ma_cs_stop_network_sync_req(); } } #ifdef _TARGET_ #ifndef FAX_AND_DATA /* * Dummy functions for RA (needed when building voice-only PS w/ F&D TI * layer 1 libs). */ GLOBAL void dll_data_ul ( USHORT *_ul_buffer_address, USHORT *_d_ra_conf, USHORT *_d_ra_act, USHORT *_d_ra_test, USHORT *_d_ra_statu, USHORT *_d_fax ) { /* do nothing */ } GLOBAL void dll_data_dl ( USHORT *_dl_buffer_address, USHORT *_d_ra_act, USHORT *_d_ra_statd ) { /* do nothing */ } #endif /* !_FAX_AND_DATA_ */ #ifndef GPRS /* * Dummy functions for GRR (needed when building non-GPRS PS w/ GPRS TI * layer 1 libs). */ typedef void T_ul_poll_resp; typedef void T_ul_data; typedef void T_dl_struct; typedef UBYTE UWORD8; typedef ULONG UWORD32; #define WORD8 UBYTE #define UWORD16 USHORT GLOBAL void maca_power_control ( UWORD8 assignment_id, BOOL crc_error, WORD8 bcch_level, UWORD16 *radio_freq, WORD8 *burst_level, UWORD8 *pch ) { /* do nothing */ } GLOBAL void rlc_uplink ( UWORD8 assignment_id, UWORD8 tx_data_no, UWORD32 fn, UWORD8 timing_advance_value, T_ul_poll_resp * ul_poll_response, T_ul_data * ul_data, BOOL allocation_exhausted) { /* do nothing */ } GLOBAL void rlc_downlink ( UWORD8 assignment_id, UWORD32 fn, T_dl_struct *data_ptr, UWORD8 rlc_blocks_sent, UWORD8 last_poll_response) { /* do nothing */ } #endif /* !GPRS */ #endif /* _TARGET_ */ #if defined (REL99) && defined (TI_PS_FF_EMR) /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_enhpara_update_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_ENHPARA_UPDATE_REQ. */ GLOBAL void ma_mph_enhpara_update_req (T_MPH_ENHPARA_UPDATE_REQ* p_enh) { GET_INSTANCE_DATA; /*UBYTE i=0;*/ alr_data->nc_data.emr_data.rep_type = p_enh->rep_type; alr_data->nc_data.emr_data.enh_para = p_enh->enh_para; PFREE(p_enh); return; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_mph_mon_ctrl_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_MON_CTRL_REQ. */ GLOBAL void ma_mph_mon_ctrl_req(T_MPH_MON_CTRL_REQ* ctrl_req) { GET_INSTANCE_DATA; TRACE_EVENT ("ma_mph_mon_ctrl_req"); /*Note: Request for monitoring SI-2quater will always be given for serving cell and when it is in stable IDLE state So, no need to check for MA_STATE here*/ if ( (ctrl_req->action EQ START_MON_NBCCH ) AND (ctrl_req->si_to_read EQ UPDATE_SI2QUATER ) ) { if(alr_data->ma_data.sys_info_2quater[1] EQ D_SYS_INFO_2QUATER) { ma_send_stored_SI2qtr(&alr_data->ma_data.sys_info_2quater[0]); memset (alr_data->ma_data.sys_info_2quater, 0, 22); } ma_scell_mon_si2quater_nbcch(); } else if ( (ctrl_req->action EQ START_MON_EBCCH ) AND (ctrl_req->si_to_read EQ UPDATE_SI2QUATER ) ) { if(alr_data->ma_data.sys_info_2quater[1] EQ D_SYS_INFO_2QUATER) { ma_send_stored_SI2qtr(&alr_data->ma_data.sys_info_2quater[0]); memset (alr_data->ma_data.sys_info_2quater, 0, 22); } ma_scell_mon_si2quater_ebcch(); } else if((ctrl_req->si_to_read EQ UPDATE_SI2QUATER_AGAIN) AND (ctrl_req->action EQ START_MON_EBCCH )) { ma_scell_mon_si2quater_ebcch(); } else if((ctrl_req->si_to_read EQ UPDATE_SI2QUATER_AGAIN) AND (ctrl_req->action EQ START_MON_NBCCH )) { ma_scell_mon_si2quater_nbcch(); } else if ( (ctrl_req->action EQ STOP_MON_BCCH)AND (ctrl_req->si_to_read EQ UPDATE_SI2QUATER ) ) { if ( alr_data->nc_data.si2quater_status EQ SI2QUATER_ACQ_PENDING) { if(alr_data->nc_data.si2quater_pos EQ SI2QUATER_ON_EBCCH) { ma_stop_scell_bcch_req(); } sc_start_periodic(); } alr_data->nc_data.si2quater_status = SI2QUATER_ACQ_COMP; } else if((ctrl_req->action EQ STOP_MON_BCCH)AND (ctrl_req->si_to_read EQ UPDATE_SI2QUATER_AGAIN) ) { if (alr_data->nc_data.si2quater_status EQ SI2QUATER_ACQ_PENDING) { if(alr_data->nc_data.si2quater_pos EQ SI2QUATER_ON_EBCCH) { ma_stop_scell_bcch_req(); } sc_start_periodic(); } alr_data->nc_data.si2quater_status = SI2QUATER_ACQ_WRONG_BAIND; } #ifdef GPRS else { gprs_alr_mon_ctrl_req(ctrl_req); return; } #endif #ifdef _SIMULATION_ switch(alr_data->nc_data.si2quater_status) { case SI2QUATER_ACQ_PENDING: TRACE_EVENT ("Status of SI-2quater : SI2QUATER_ACQ_PENDING"); break; case SI2QUATER_ACQ_FULL_BCCH: TRACE_EVENT ("Status of SI-2quater : SI2QUATER_ACQ_FULL_BCCH"); break; case SI2QUATER_ACQ_COMP: TRACE_EVENT ("Status of SI-2quater : SI2QUATER_ACQ_COMP"); break; case SI2QUATER_ACQ_WRONG_BAIND: TRACE_EVENT ("Status of SI-2quater : SI2QUATER_ACQ_WRONG_BAIND"); break; default: TRACE_EVENT ("Status of SI-2quater : SI2QUATER_ABSENT"); } #endif PFREE(ctrl_req); return; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_scell_mon_si2quater_ebcch | +--------------------------------------------------------------------+ PURPOSE : configure L1 for monitoring SI-2quater on EBCCH. */ GLOBAL void ma_scell_mon_si2quater_ebcch(void) { GET_INSTANCE_DATA; PALLOC(req, MPHC_SCELL_EBCCH_REQ); TRACE_EVENT ("ma_scell_mon_si2quater_ebcch"); req->schedule_array_size = 1; req->schedule_array[0].relative_position = 5; req->schedule_array[0].modulus = 8; ma_scell_ebcch_req(req); alr_data->nc_data.si2quater_status = SI2QUATER_ACQ_PENDING; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_scell_mon_si2quater_nbcch | +--------------------------------------------------------------------+ PURPOSE : configure L1 for monitoring SI-2quater on NBCCH. */ GLOBAL void ma_scell_mon_si2quater_nbcch(void) { GET_INSTANCE_DATA; PALLOC(req, MPHC_SCELL_NBCCH_REQ); TRACE_EVENT ("ma_scell_mon_si2quater_nbcch"); /*on N-BCCH, SI-2quater can be received on either TC = 5 or 4 depending on scheduling of SI-2bis/ter */ req->schedule_array_size = 2; req->schedule_array[0].relative_position = 5; req->schedule_array[0].modulus = 8; req->schedule_array[1].relative_position = 4; req->schedule_array[1].modulus = 8; ma_scell_nbcch_req(req); alr_data->nc_data.si2quater_status = SI2QUATER_ACQ_PENDING; return; } /* BCCH MAPPING ==================================================================== System Information Message | Sent when TC = | Allocation ==================================================================== Type 1 0 BCCH Norm ----------------------------------------------------------------- Type 2 1 BCCH Norm ----------------------------------------------------------------- Type 2 bis 5 BCCH Norm ----------------------------------------------------------------- Type 2 ter 5 or 4 BCCH Norm ----------------------------------------------------------------- Type 2 quater 5 BCCH Norm or 4or5 BCCH Ext ----------------------------------------------------------------- Type 3 2 and 6 BCCH Norm ----------------------------------------------------------------- Type 4 3 and 7 BCCH Norm ----------------------------------------------------------------- Type 7 7 BCCH Ext ----------------------------------------------------------------- Type 8 3 BCCH Ext ----------------------------------------------------------------- Type 9 4 BCCH Norm ----------------------------------------------------------------- Type 13 4 BCCH Norm or 0 BCCH Ext ----------------------------------------------------------------- Type 16 6 BCCH Ext ----------------------------------------------------------------- Type 17 2 BCCH Ext ----------------------------------------------------------------- */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6103) MODULE : ALR_MAIN | | STATE : code ROUTINE : ma_send_stored_SI2qtr | +--------------------------------------------------------------------+ PURPOSE : Cut pseudo length and send the stored SI2qtr data to RR. */ GLOBAL void ma_send_stored_SI2qtr(UBYTE* si_2quater) { GET_INSTANCE_DATA; USHORT len_in_bits = 22 * BITS_PER_BYTE; PALLOC_SDU (data_out, MPH_UNITDATA_IND, len_in_bits); /* No IE and Pseudo Length */ data_out->sdu.l_buf = (22 ) * BITS_PER_BYTE; /* Pseudo Length */ data_out->sdu.o_buf = 0; /* No IE */ /*lint -e{419} (Warning -- Apparent data overrun) */ memcpy (data_out->sdu.buf, &si_2quater[0], 22 ); data_out->arfcn = alr_data->serving_cell; TRACE_EVENT("SI2qtr sent from the function ma_send_stored_SI2qtr"); PSENDX (RR, data_out); } #endif #ifdef TI_PS_FF_QUAD_BAND_SUPPORT LOCAL void compare_l1_frequency_band_with_ffs (T_MPHC_INIT_L1_CON *init_l1_cnf) { GET_INSTANCE_DATA; int i; U16 freq_band ; PALLOC(mph_init_rr_ind, MPH_INIT_RR_IND); for (i=0; i<NB_MAX_GSM_BANDS; i++) { if (init_l1_cnf->multiband_power_class[i].radio_band == RADIO_BAND_PGSM900) { freq_band |= BAND_GSM_900; mph_init_rr_ind->pclass_900 = init_l1_cnf->multiband_power_class[i].power_class; } else if (init_l1_cnf->multiband_power_class[i].radio_band == RADIO_BAND_GSM850) { freq_band |= BAND_GSM_850; mph_init_rr_ind->pclass_850 = init_l1_cnf->multiband_power_class[i].power_class; } else if (init_l1_cnf->multiband_power_class[i].radio_band == RADIO_BAND_PCS1900) { freq_band |= BAND_PCS_1900; mph_init_rr_ind->pclass_1900 = init_l1_cnf->multiband_power_class[i].power_class; } else if (init_l1_cnf->multiband_power_class[i].radio_band == RADIO_BAND_DCS1800) { freq_band |= BAND_DCS_1800; mph_init_rr_ind->pclass_1800 = init_l1_cnf->multiband_power_class[i].power_class; } else if (init_l1_cnf->multiband_power_class[i].radio_band == RADIO_BAND_GSM480) { freq_band |= BAND_GSM_480; } else if (init_l1_cnf->multiband_power_class[i].radio_band == RADIO_BAND_GSM450) { freq_band |= BAND_GSM_450; } else if (init_l1_cnf->multiband_power_class[i].radio_band == RADIO_BAND_EGSM900) { freq_band |= BAND_E_GSM; mph_init_rr_ind->pclass_900 = init_l1_cnf->multiband_power_class[i].power_class; } else if (init_l1_cnf->multiband_power_class[i].radio_band == RADIO_BAND_RGSM900) { freq_band |= BAND_R_GSM; } } mph_init_rr_ind->freq_bands = freq_band; PSENDX (RR, mph_init_rr_ind); /* if (freq_band NEQ alr_data->cs_data.freq_bands) { TRACE_EVENT_P2 ("FFS data %x, doen't match L1 compilation flag %x", alr_data->cs_data.freq_bands, freq_band); TRACE_ERROR ("FFS data doesn't match L1 compilation flag"); TRACE_ASSERT (freq_band NEQ alr_data->cs_data.freq_bands); }*/ } #endif #endif /* ALR_MAIN_C */