FreeCalypso > hg > fc-magnetite
view src/g23m-gsm/rr/rr_pei.c @ 352:c6dfde2b57c0
gsmcomp.c: support split IRAM/XRAM compilation
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sun, 24 Dec 2017 23:53:09 +0000 |
parents | dcc3b8646a34 |
children |
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/* +----------------------------------------------------------------------------- | Project : | Modul : +----------------------------------------------------------------------------- | 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 module defines the process body interface | for the component RR of the mobile station +----------------------------------------------------------------------------- */ #ifndef RR_PEI_C #define RR_PEI_C #define ENTITY_RR /*==== INCLUDES ===================================================*/ #include <string.h> #include <stdlib.h> #include <stddef.h> /* offsetof */ #include <stdio.h> /* sprintf */ #include "typedefs.h" #include "pcm.h" #include "pconst.cdg" #include "mconst.cdg" #include "message.h" #include "ccdapi.h" #include "vsi.h" #include "custom.h" #include "gsm.h" #include "prim.h" #include "cnf_rr.h" #include "tok.h" #include "rr.h" #include "rr_em.h" #include "cl_shrd.h" #if !defined(_SIMULATION_) #include "ffs/ffs.h" #include "ffs_coat.h" #endif /* !_SIMULATION_ */ /*==== EXPORT =====================================================*/ /* * several handles for communication with other entities */ #ifdef TI_PS_HCOMM_CHANGE GLOBAL T_HANDLE rr_handle = VSI_ERROR; #ifdef GPRS GLOBAL T_HANDLE hCommGRR = VSI_ERROR; /* GRR Communication */ #endif #else /* for hCommHandles backward compatibility */ GLOBAL T_HANDLE hCommDL = VSI_ERROR; #if defined FF_EOTD GLOBAL T_HANDLE hCommLC = VSI_ERROR; GLOBAL T_HANDLE hCommRRLP = VSI_ERROR; #endif /* FF_EOTD */ GLOBAL T_HANDLE hCommMM = VSI_ERROR; GLOBAL T_HANDLE hCommPL = VSI_ERROR; GLOBAL T_HANDLE rr_handle = VSI_ERROR; #ifdef GPRS GLOBAL T_HANDLE hCommGRR = VSI_ERROR; /* GRR Communication */ #endif GLOBAL T_HANDLE hCommMMI = VSI_ERROR; /* EM Communication */ #ifdef FF_WAP GLOBAL T_HANDLE hCommWAP = VSI_ERROR; /* FMM-WAP Communication */ #endif #endif /* TI_PS_HCOMM_CHANGE */ static UBYTE stop_reg = FALSE; GLOBAL T_RR_DATA rr_data_base; #ifdef TI_PS_FF_QUAD_BAND_SUPPORT const UBYTE std_bands[12] = #else const UBYTE std_bands[8] = #endif { BAND_GSM_900, /* std = 1 */ BAND_GSM_900 | BAND_E_GSM, /* std = 2 */ BAND_PCS_1900, /* std = 3 */ BAND_DCS_1800, /* std = 4 */ BAND_DUAL, /* std = 5 */ BAND_DUAL_EXT, /* std = 6 */ BAND_GSM_850, /* std = 7 */ BAND_DUAL_US /* std = 8 */ #ifdef TI_PS_FF_QUAD_BAND_SUPPORT ,BAND_GSM_850 | BAND_DCS_1800, /* std = 9 */ BAND_GSM_900 | BAND_E_GSM | BAND_PCS_1900, /* std = 10 */ BAND_GSM_850 | BAND_GSM_900 | BAND_E_GSM | BAND_DCS_1800, /* std = 11 */ BAND_GSM_850 | BAND_GSM_900 | BAND_E_GSM | BAND_PCS_1900 /* std = 12 */ #endif }; /*==== PRIVATE ====================================================*/ LOCAL void pei_not_supported (void *data); /*==== VARIABLES ==================================================*/ #ifdef _SIMULATION_ LOCAL BOOL first_access = TRUE; #endif /* _SIMULATION_ */ /*==== FUNCTIONS ==================================================*/ LOCAL const T_FUNC dl_table[] = { MAK_FUNC_0( dat_dl_establish_ind, DL_ESTABLISH_IND ), /* 0x80004003 */ MAK_FUNC_0( dat_dl_establish_cnf, DL_ESTABLISH_CNF ), /* 0x80014003 */ MAK_FUNC_0( dat_dl_release_ind, DL_RELEASE_IND ), /* 0x80024003 */ MAK_FUNC_0( dat_dl_release_cnf, DL_RELEASE_CNF ), /* 0x80034003 */ MAK_FUNC_S( for_dl_data_ind, DL_DATA_IND ), /* 0x80044003 */ #if defined (REL99) && defined (TI_PS_FF_EMR) MAK_FUNC_S( for_dl_short_unitdata_ind, DL_SHORT_UNITDATA_IND ), /* 0x80054003 */ #else MAK_FUNC_0( pei_not_supported, DL_DATA_CNF ), /* 0x80054003 */ #endif }; LOCAL const T_FUNC rr_table[] = { MAK_FUNC_0( dat_rr_abort_req, RR_ABORT_REQ ), MAK_FUNC_0( att_rr_activate_req, RR_ACTIVATE_REQ ), MAK_FUNC_S( dat_rr_data_req, RR_DATA_REQ ), MAK_FUNC_0( att_rr_deactivate_req, RR_DEACTIVATE_REQ ), MAK_FUNC_S( dat_rr_establish_req, RR_ESTABLISH_REQ ), MAK_FUNC_0( att_rr_sync_req, RR_SYNC_REQ ), MAK_FUNC_0( att_rr_sync_hplmn_req, RR_SYNC_HPLMN_REQ ) }; LOCAL const T_FUNC mph_table[] = { MAK_FUNC_N( pei_not_supported, MPH_BCCH_IND ), MAK_FUNC_0( att_mph_measurement_ind, MPH_MEASUREMENT_IND ), MAK_FUNC_0( dat_mph_dedicated_cnf, MPH_DEDICATED_CNF ), MAK_FUNC_0( dat_mph_dedicated_fail_cnf, MPH_DEDICATED_FAIL_CNF ), MAK_FUNC_0( att_mph_error_ind, MPH_ERROR_IND ), MAK_FUNC_0( dat_mph_emo_meas_ind, MPH_EMO_MEAS_IND ), MAK_FUNC_0( dat_mph_paging_ind, MPH_PAGING_IND ), MAK_FUNC_0( cs_mph_power_cnf, MPH_POWER_CNF ), MAK_FUNC_0( cs_mph_bsic_cnf, MPH_BSIC_CNF ), MAK_FUNC_S( for_mph_unitdata_ind, MPH_UNITDATA_IND ), MAK_FUNC_0( dat_mph_random_access_cnf, MPH_RANDOM_ACCESS_CNF ), MAK_FUNC_0( att_mph_sync_ind, MPH_SYNC_IND ), MAK_FUNC_0( att_mph_meas_order_cnf, MPH_MEAS_ORDER_CNF ), #ifdef GPRS MAK_FUNC_0( att_mph_ext_meas_cnf, MPH_EXT_MEAS_CNF ), #else MAK_FUNC_N( pei_not_supported, 0 ), /* 0x0D */ #endif #if defined FF_EOTD MAK_FUNC_0( att_mph_ncell_pos_ind, MPH_NCELL_POS_IND ), #else MAK_FUNC_N( pei_not_supported, 0 ), /* 0x0E */ #endif /* FF_EOTD */ MAK_FUNC_0( att_mph_stop_dedicated_cnf, MPH_STOP_DEDICATED_CNF), /* 0x0f */ #ifdef GPRS MAK_FUNC_0( att_mph_meas_rep_cnf, MPH_MEAS_REP_CNF ) #else MAK_FUNC_N( pei_not_supported, 0 ) /* 0x10 */ #endif #ifdef TI_PS_FF_QUAD_BAND_SUPPORT , MAK_FUNC_N( att_mph_init_rr_ind, MPH_INIT_RR_IND ) /* 0x11 */ #endif }; #ifdef FF_EM_MODE LOCAL const T_FUNC em_ul_table[] = { MAK_FUNC_0( dat_em_sc_info_req, EM_SC_INFO_REQ ), /* 0x00*/ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x01*/ MAK_FUNC_0( dat_em_nc_info_req, EM_NC_INFO_REQ ), /* 0x02*/ MAK_FUNC_0( dat_em_loc_pag_info_req, EM_LOC_PAG_INFO_REQ ), /* 0x03*/ MAK_FUNC_0( dat_em_plmn_info_req, EM_PLMN_INFO_REQ ), /* 0x04*/ MAK_FUNC_0( dat_em_cip_hop_dtx_info_req, EM_CIP_HOP_DTX_INFO_REQ ), /* 0x05*/ MAK_FUNC_0( dat_em_mobdata_power_info_req, EM_POWER_INFO_REQ ), /* 0x06*/ MAK_FUNC_0( dat_em_mobdata_id_info_req, EM_IDENTITY_INFO_REQ ), /* 0x07*/ MAK_FUNC_0( dat_em_mobdata_version_info_req,EM_SW_VERSION_INFO_REQ ), /* 0x08*/ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x09*/ MAK_FUNC_N( pei_not_supported, 0 ), /* 0x0A*/ MAK_FUNC_N( rr_em_rr_event_req, EM_RR_EVENT_REQ ), /* 0x0B*/ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x0C */ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x0D */ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x0E */ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x0F */ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x10 */ /*SIM - event*/ MAK_FUNC_0( rr_em_pco_trace_req, EM_PCO_TRACE_REQ ), /* 0x11*/ /*PCO output*/ #ifdef GPRS MAK_FUNC_0 (dat_em_fmm_sc_info_req, EM_FMM_SC_INFO_REQ ), /* 0x12 */ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x13 */ MAK_FUNC_0 (dat_em_fmm_nc_info_req, EM_FMM_NC_INFO_REQ ), /* 0x14 */ #else /*GPRS*/ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x12 */ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x13 */ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x14 */ #endif /*GPRS*/ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x15 */ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x16 */ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x17 */ MAK_FUNC_N (pei_not_supported, 0 ), /* 0x18 */ MAK_FUNC_0 (dat_em_amr_info_req, EM_AMR_INFO_REQ ) /* 0x19 */ }; #endif /* FF_EM_MODE */ #if defined FF_EOTD LOCAL const T_FUNC rrlc_table[] = { MAK_FUNC_0( dat_rrlc_meas_req, RRLC_MEAS_REQ ) }; LOCAL const T_FUNC rrrrlp_table[] = { MAK_FUNC_S( dat_rrrrlp_data_req, RRRRLP_DATA_REQ ) }; #endif /* FF_EOTD */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_PEI | | STATE : code ROUTINE : pei_primitive | +--------------------------------------------------------------------+ PURPOSE : Process protocol specific primitive. */ LOCAL SHORT pei_primitive (void * ptr) { T_PRIM *prim = ptr; /* * | | | | * RR EM RRLC RRRRLP UPLINK * | | | | * +-------v-------v-------v-------v------+ * | | * | RR | * | | * +----------^------------------^--------+ * | | * MPH DL DOWNLINK * | | * */ TRACE_FUNCTION ("pei_primitive()"); /* * On keypress may stop the registration timer */ if (stop_reg) { stop_reg = FALSE; tim_reset_registration_timer (); } if (prim NEQ NULL) { ULONG opc = prim->custom.opc; USHORT n; const T_FUNC *table; GET_INSTANCE_DATA; VSI_PPM_REC ((T_PRIM_HEADER*)prim, __FILE__, __LINE__); PTRACE_IN (opc); switch (SAP_NR(opc)) { case SAP_NR(RR_UL) : table = rr_table; n = TAB_SIZE ( rr_table); break; case SAP_NR(DL_DL) : table = dl_table; n = TAB_SIZE ( dl_table); break; case SAP_NR(MPH_UL) : table = mph_table; n = TAB_SIZE ( mph_table); break; #if defined FF_EOTD case SAP_NR(RRLC_UL) : table = rrlc_table; n = TAB_SIZE ( rrlc_table); break; case SAP_NR(RRRRLP_UL): table = rrrrlp_table; n = TAB_SIZE (rrrrlp_table); break; #endif /* FF_EOTD */ #ifdef GPRS case RRGRR_UL: gprs_get_table_n (&table, &n); break; #endif /* GPRS */ #ifdef FF_EM_MODE case EM_Ul: table = em_ul_table; n = TAB_SIZE (em_ul_table); break; #endif /* FF_EM_MODE*/ default : table = NULL; n = 0; break; } if (table NEQ NULL) { if (PRIM_NR(opc) < n) { table += PRIM_NR(opc); #ifdef PALLOC_TRANSITION P_SDU(prim) = table->soff ? (T_sdu*) (((char*)&prim->data) + table->soff) : 0; #ifndef NO_COPY_ROUTING P_LEN(prim) = table->size + sizeof (T_PRIM_HEADER); #endif /* NO_COPY_ROUTING */ #endif /* PALLOC_TRANSITION */ JUMP (table->func) (P2D(prim)); while (ENTITY_DATA->use_stored_entries) { ENTITY_DATA->use_stored_entries = FALSE; srv_use_stored_prim (); } } #if defined (REL99) && defined (TI_PS_FF_EMR) else if (PRIM_NR(opc) EQ DL_SPD_PID ) { for_dl_short_unitdata_ind((T_DL_SHORT_UNITDATA_IND*) P2D(prim)); } #endif else { pei_not_supported (P2D(prim)); } return PEI_OK; } /* * Primitive is no GSM Primitive * then forward to the environment */ #ifdef GSM_ONLY PFREE (P2D(prim)) return PEI_ERROR; #else if (opc & SYS_MASK) vsi_c_primitive (VSI_CALLER prim); else { PFREE (P2D(prim)); return PEI_ERROR; } #endif } return PEI_OK; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_PEI | | STATE : code ROUTINE : rr_pei_primitive | +--------------------------------------------------------------------+ PURPOSE : used to restart a stored primitive. */ GLOBAL void rr_pei_primitive (T_PRIM * prim) { pei_primitive (prim); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_PEI | | STATE : code ROUTINE : wake_up_rr | +--------------------------------------------------------------------+ PURPOSE : This function can be called from the MMI or keypad driver to restart registration if in limited / no service condition. */ /*lint -esym(714,wake_up_rr) | Symbol not referenced */ /*lint -esym(765,wake_up_rr) | external could be made static */ GLOBAL void wake_up_rr (void) { GET_INSTANCE_DATA; T_TIME status = 0L; TRACE_FUNCTION ("wake_up_rr()"); switch (rr_data->ms_data.rr_service) { case NO_SERVICE: case LIMITED_SERVICE: if (rr_data->ms_data.reg_counter >= 12) { TIMER_STATUS (rr_handle, TREG, &status); if (status) { stop_reg = TRUE; vsi_c_awake (VSI_CALLER_SINGLE); } } break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_PEI | | STATE : code ROUTINE : pei_not_supported | +--------------------------------------------------------------------+ PURPOSE : An unsupported primitive is received. */ static void pei_not_supported (void * data) { TRACE_FUNCTION ("pei_not_supported()"); PFREE (data) } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_PEI | | STATE : code ROUTINE : pei_init | +--------------------------------------------------------------------+ PURPOSE : Initialize Protocol Stack Entity */ LOCAL SHORT pei_init (T_HANDLE handle) { GET_INSTANCE_DATA; rr_handle = handle; TRACE_FUNCTION ("pei_init()"); #ifdef TI_PS_HCOMM_CHANGE if (!cl_hcom_all_handles_open()) { return PEI_ERROR; } #ifdef GPRS if (hCommGRR < VSI_OK) { if ((hCommGRR = vsi_c_open (VSI_CALLER GRR_NAME)) < VSI_OK) return PEI_ERROR; } #endif #else /* for hCommHandles backward compatibility */ if (hCommDL < VSI_OK) { if ((hCommDL = vsi_c_open (VSI_CALLER DL_NAME)) < VSI_OK) return PEI_ERROR; } #if defined FF_EOTD if (hCommLC < VSI_OK) { if ((hCommLC = vsi_c_open (VSI_CALLER LC_NAME)) < VSI_OK) return PEI_ERROR; } if (hCommRRLP < VSI_OK) { if ((hCommRRLP = vsi_c_open (VSI_CALLER RRLP_NAME)) < VSI_OK) return PEI_ERROR; } #endif /* FF_EOTD */ if (hCommMM < VSI_OK) { if ((hCommMM = vsi_c_open (VSI_CALLER MM_NAME)) < VSI_OK) return PEI_ERROR; } if (hCommPL < VSI_OK) { if ((hCommPL = vsi_c_open (VSI_CALLER PL_NAME)) < VSI_OK) return PEI_ERROR; } #ifdef GPRS if (hCommGRR < VSI_OK) { if ((hCommGRR = vsi_c_open (VSI_CALLER GRR_NAME)) < VSI_OK) return PEI_ERROR; } #endif #ifdef FF_WAP /*FMM*/ if (hCommWAP < VSI_OK) { if ((hCommWAP = vsi_c_open (VSI_CALLER WAP_NAME)) < VSI_OK) return PEI_ERROR; } #endif if (hCommMMI < VSI_OK) { /* * Open MMI (Layer 4) */ if ((hCommMMI = vsi_c_open (VSI_CALLER ACI_NAME)) < VSI_OK) return PEI_ERROR; } #endif /* TI_PS_HCOMM_CHANGE */ rr_data->ms_data.multislot_class_configured = FALSE; rr_data->ms_data.cmsp_configured = FALSE; /* * Initialize Condat Coder Decoder and * processes */ #if !defined(_SIMULATION_) // TRACE_EVENT (rr_version()); // SYST_TRACE (rr_version()); #endif /* !_SIMULATION_ */ ccd_init (); att_init_gsm_data (); dat_init_rr_data (); cs_init_process (); pcm_Init (); cl_shrd_init(rr_handle); #if defined(_SIMULATION_) rr_csf_ms_cap (); rr_csf_check_rfcap (TRUE); #endif #ifdef GPRS gprs_init_gprs_data (); #endif #ifdef FF_EM_MODE em_init_rr_event_trace(); em_rr_sem_init(); em_init_get_hchn (); #endif /* FF_EM_MODE */ return PEI_OK; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_PEI | | STATE : code ROUTINE : pei_timeout | +--------------------------------------------------------------------+ PURPOSE : Process timeout */ LOCAL SHORT pei_timeout (USHORT index) { GET_INSTANCE_DATA; TRACE_FUNCTION ("pei_timeout ()"); /* * Handle Timeouts */ tim_exec_timeout (index); while (ENTITY_DATA->use_stored_entries) { ENTITY_DATA->use_stored_entries = FALSE; srv_use_stored_prim (); } return PEI_OK; } #ifdef _SIMULATION_ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_PEI | | STATE : code ROUTINE : pei_exit | +--------------------------------------------------------------------+ PURPOSE : Close Resources and terminate */ LOCAL SHORT pei_exit (void) { TRACE_FUNCTION ("pei_exit()"); /* * clean up communication */ #ifdef TI_PS_HCOMM_CHANGE #else /* for hCommHandles backward compatibility */ vsi_c_close (VSI_CALLER hCommDL); hCommDL = VSI_ERROR; #if defined FF_EOTD vsi_c_close (VSI_CALLER hCommLC); hCommLC = VSI_ERROR; vsi_c_close (VSI_CALLER hCommRRLP); hCommRRLP = VSI_ERROR; #endif /* FF_EOTD */ vsi_c_close (VSI_CALLER hCommMM); hCommMM = VSI_ERROR; vsi_c_close (VSI_CALLER hCommPL); hCommPL = VSI_ERROR; vsi_c_close (VSI_CALLER hCommMMI); hCommMMI = VSI_ERROR; #ifdef FF_WAP /*FFM*/ vsi_c_close (VSI_CALLER hCommWAP); hCommWAP = VSI_ERROR; #endif #endif /* TI_PS_HCOMM_CHANGE */ #ifdef FF_EM_MODE em_rr_sem_exit(); #endif /* FF_EM_MODE */ ccd_exit(); cl_shrd_exit(); return PEI_OK; } #endif /* _SIMULATION_ */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_PEI | | STATE : code ROUTINE : pei_config | +--------------------------------------------------------------------+ PURPOSE : Dynamic Configuration */ #if !defined (NCONFIG) LOCAL const KW_DATA kwtab[] = { #ifdef OPTION_TIMER RR_TIMER_SET, TIMER_SET, RR_TIMER_RESET, TIMER_RESET, RR_TIMER_SPEED_UP, TIMER_SPEED_UP, RR_TIMER_SLOW_DOWN, TIMER_SLOW_DOWN, RR_TIMER_SUPPRESS, TIMER_SUPPRESS, #endif /* OPTION_TIMER */ RR_TFAST_CS, TIM_FAST, RR_TNORMAL_CS, TIM_NORMAL, RR_FCR, FCR, RR_SCR, SCR, RR_DLE, DLE, RR_FCA, FCA, RR_FRL, FRL, RR_FHO, FHO, RR_IHO, IHO, RR_NO_SYS_TIME, NO_SYS_TIME, RR_GSM_OFFSET, GSM_OFFSET, RR_DCS_OFFSET, DCS_OFFSET, RR_CTO, CTO, RR_NKC, NKC, RR_RESTRICTED_BAND, ID_RESTRICTED_BAND, RR_BL_CS, BL_CS, RR_U_RXT, U_RXT, RR_M_RXT, M_RXT, RR_L_RXT, L_RXT, RR_FBLS, FBLS, RR_SHOW_BL, SHOW_BL, RR_SHOW_WL, SHOW_WL, RR_SET_NPS_DELAY, SET_NPS_DELAY, #if defined (_SIMULATION_) RR_MT_CALL_NAME, RR_MT_CALL, RR_MT_SMS_0_NAME, RR_MT_SMS_0, RR_MT_SMS_2_NAME, RR_MT_SMS_2, RR_SRV_FULL_NAME, RR_SERVICE_FULL, RR_SRV_LIM_NAME, RR_SERVICE_LIMITED, RR_SRV_NO, RR_SERVICE_NO, RR_PSEUDO_SYNC_HO, ID_PSEUDO_SYNC_HO, RR_PCM, ID_PCM, RR_DCS_PCLASS_3, DCS_PCLASS_3, #endif /* _SIMULATION_ */ RR_MULTISLOT_CLASS, ID_MULTISLOT_CLASS, RR_CMSP, ID_CMSP, #if !defined(_SIMULATION_) RR_FFS_CHECK, ID_FFS_CHECK, #endif #if defined (_SIMULATION_FFS_) RR_ERASE_WL, ERASE_WL, RR_ERASE_BL, ERASE_BL, RR_SHIELD, SHIELD, RR_INIT_FFS, INIT_FFS, RR_WRITE_FFS, WRITE_FFS, #endif /* (_SIMULATION_FFS_)*/ RR_SET_WL, SET_WL, RR_SET_BL, SET_BL, RR_SET_WL_REGION, SET_WL_REGION, RR_SET_LAST_USED_SC, SET_LAST_USED_SC, RR_SCS, SCS, RR_SET_WL_PLMN, SET_WL_PLMN, "", 0 }; static const KW_DATA partab[] = { #ifdef OPTION_TIMER T3110_NAME, T3110, T3122_NAME, T3122, T3126_NAME, T3126, TRESELECT_NAME, T_RESELECT, TREG_NAME, TREG, TABORT_NAME, TABORT, #endif "", 0 }; #endif /*!defined (NCONFIG)*/ /* Implements Measure#36 */ #if defined(NCONFIG) #else /* NCONFIG */ LOCAL SHORT pei_config (T_PEI_CONFIG inString) { GET_INSTANCE_DATA; #if !defined (NCONFIG) #define NMAX_VAL 20 { char * s = inString; SHORT valno; char * keyw; char * val [NMAX_VAL]; #ifdef OPTION_TIMER BOOL t_man = FALSE; SHORT t_num = 0; LONG t_val = 0; #endif #if defined(_SIMULATION_FFS_) UBYTE count = 0,index = 0,mcc[SIZE_MCC]; SHORT mcc_val = 0; #endif /* _SIMULATION_FFS */ TRACE_FUNCTION ("pei_config()"); TRACE_EVENT (s); tok_init(s); /* * Parse next keyword and number of variables */ while ((valno = tok_next(&keyw,val)) NEQ TOK_EOCS) { switch ( tok_key((KW_DATA *)kwtab,keyw)) { case TOK_NOT_FOUND: TRACE_ERROR ("[PEI_CONFIG]: Illegal Keyword"); break; case FCR: /* fast cell reselection */ TRACE_EVENT ("[PEI_CONFIG]: FAST CELL RESELECTION"); rr_data->dyn_config.fcr = 1; break; case SCS: { SHORT i = 0; PALLOC (error_ind, MPH_ERROR_IND); TRACE_EVENT(" [PEI_CONFIG]: START CELL SELECTION"); for( i=0; i < 6; i++) rr_data->nc_data[i].bcch_status = NON_DECODED; /* * Simulating Downlink Failure */ error_ind->cs = CS_DOWN_LINK_FAIL; error_ind->arfcn = rr_data->nc_data[SC_INDEX].arfcn; pei_primitive ((T_PRIM *)D2P(error_ind)); } break; case SCR: /* slow cell reselection */ TRACE_EVENT ("[PEI_CONFIG]: SLOW CELL RESELECTION"); rr_data->dyn_config.scr = 1; break; case DLE: /* downlink error */ { PALLOC (error_ind, MPH_ERROR_IND); TRACE_EVENT ("[PEI_CONFIG]: DOWNLINK ERROR"); error_ind->cs = CS_DOWN_LINK_FAIL; pei_primitive ((T_PRIM *)D2P(error_ind)); } break; case FRL: /* force radio link timeout */ { PALLOC (error_ind, MPH_ERROR_IND); TRACE_EVENT ("[PEI_CONFIG]: RADIO LINK ERROR"); error_ind->cs = CS_RADIO_LINK_FAIL; pei_primitive ((T_PRIM *)D2P(error_ind)); } break; case FCA: /* failed channel assign */ TRACE_EVENT ("[PEI_CONFIG]: FAILED CHANNEL ASSIGN"); rr_data->dyn_config.fca = 1; break; case FHO: /* forced handover */ TRACE_EVENT ("[PEI_CONFIG]: FORCED HANDOVER"); rr_data->dyn_config.fho = 1; break; case IHO : /* Lock/Unlock the DUT to the cell it is already camping */ TRACE_EVENT_P1("[PEI_CONFIG]: Lock/Unlock the DUT to the cell it is already camping : %s", val[0]); rr_data->dyn_config.iho = atoi (val[0]); break; case GSM_OFFSET: /* Offset for GSM channels */ rr_data->dyn_config.gsm_offset = atoi (val[0]); break; case DCS_OFFSET: /* Offset for DCS channels */ rr_data->dyn_config.dcs_offset = atoi (val[0]); break; case CTO: /* enable cell test operation mode */ rr_data->cell_test_operation = TRUE; break; case NKC: /* request to cipher when no ciphering key available */ rr_data->dyn_config.nkc = TRUE; break; case BL_CS: /* Controls Black List search */ if(valno) { valno = atoi (val[0]); rr_data->dyn_config.bl_cs_en = valno ? 1 : 0; TRACE_EVENT_P1("[PEI_CONFIG]: BL_CS : Black List search : %s", val[0]); } else { TRACE_ERROR ("[PEI_CONFIG]: BL_CS-Wrong Number of Parameters"); } break; case U_RXT: /* Upper RxLev threshold Level*/ if(valno>0 AND valno<=MAX_NUM_BANDS) { rr_csf_write_rxlev_thr( U_RXT, valno, val ); } else { TRACE_ERROR ("[PEI_CONFIG]: U_RXT-Wrong Number of Parameters"); } break; case M_RXT: /* Medium threshold level*/ if(valno>0 AND valno<=MAX_NUM_BANDS) { rr_csf_write_rxlev_thr( M_RXT, valno, val ); } else { TRACE_ERROR ("[PEI_CONFIG]: M_RXT-Wrong Number of Parameters"); } break; case L_RXT: /* Lower threshold level*/ if(valno>0 AND valno<=MAX_NUM_BANDS) { rr_csf_write_rxlev_thr( L_RXT, valno, val ); } else { TRACE_ERROR ("[PEI_CONFIG]: L_RXT-Wrong Number of Parameters"); } break; case FBLS: /* Force Black List Search */ if((GET_STATE(STATE_ATT) EQ ATT_IDLE) AND (rr_data->ms_data.rr_service EQ FULL_SERVICE)) { #ifdef TI_PS_FF_QUAD_BAND_SUPPORT if (rr_data->cs_data.region EQ BOTH_REGIONS) { if(srv_is_list_set(&rr_data->cs_data.black_list.list[EUROPEAN_REGION]) OR srv_is_list_set(&rr_data->cs_data.black_list.list[AMERICAN_REGION])) { att_start_cell_selection(RR_ORIGINATED,CS_PARALLEL,BLACK_LIST_SEARCH_MODE); } else TRACE_EVENT("Black List empty"); } else { #endif if(srv_is_list_set( &rr_data->cs_data.black_list.list[rr_data->cs_data.region])) { att_start_cell_selection(RR_ORIGINATED,CS_PARALLEL,BLACK_LIST_SEARCH_MODE); } else TRACE_EVENT("Black List empty"); #ifdef TI_PS_FF_QUAD_BAND_SUPPORT } #endif } break; case ID_RESTRICTED_BAND: rr_data->dyn_config.set_band = atoi (val[0]); switch (GET_STATE (STATE_ATT)) { case ATT_NULL: case ATT_NO_SERVICE: case ATT_CS1: case ATT_CS2: case ATT_CS3: case ATT_IDLE: rr_data->ms_data.rr_service = NO_SERVICE; att_code_rr_abort_ind (RRCS_ABORT_CEL_SEL_FAIL); SET_STATE (STATE_ATT, ATT_NO_SERVICE); rr_data->cs_data.scan_mode = CS_FIRST_SCAN_FIRST_ATTEMPT; att_reset_old_lai_rac(); cs_set_null (); cs_set_all (); cs_start_scan (); /* * initialise cell selection parameter */ rr_data->sc_data.selection_type = CELL_SELECTION; rr_data->sc_data.mm_started = FALSE; rr_data->sc_data.found_entries = 0; att_init_cr_data(); SET_STATE (STATE_ATT, ATT_CS1); switch (rr_data->dyn_config.set_band) { case 0: TRACE_EVENT ("[PEI_CONFIG]: Set band to default"); break; case 1: TRACE_EVENT ("[PEI_CONFIG]: Set band to GSM 900"); break; case 2: TRACE_EVENT ("[PEI_CONFIG]: Set band to DCS 1800"); break; } /* switch (rr_data->set_band) */ } /* switch (GET_STATE (STATE_ATT)) */ break; case NO_SYS_TIME: rr_data->dyn_config.no_sys_time = TRUE; break; case SET_LAST_USED_SC: if(valno) { rr_data->cs_data.white_list.last_sc_arfcn = atoi (val[0]); TRACE_EVENT_P1("LAST SC ARFCN = %x",rr_data->cs_data.white_list.last_sc_arfcn); } else { TRACE_ERROR ("[PEI_CONFIG]: LAST_USED_SC-Wrong Number of Parameters"); } break; #if defined (_SIMULATION_FFS_) case INIT_FFS: rr_csf_ffs_init(); TRACE_EVENT_P1("LAST SC ARFCN = %x",rr_data->cs_data.white_list.last_sc_arfcn); break; case WRITE_FFS: { rr_csf_write_black_list(&rr_data->cs_data.black_list.list[0]); rr_csf_write_white_list(&rr_data->cs_data.white_list); } break; #endif /* _SIMULATION_FFS_ */ #ifdef OPTION_TIMER case TIMER_SET: if (valno EQ 2) { t_man = TRUE; t_num = tok_key((KW_DATA *)partab,val[0]); t_val = atoi(val[1]); if (t_val < 0L) t_val = 0L; } else { TRACE_ERROR ("[PEI_CONFIG]: Wrong Number of Parameters"); } break; case TIMER_RESET: case TIMER_SUPPRESS: if (valno EQ 1) { t_man = TRUE; /* Timermanipulation */ t_num = tok_key((KW_DATA *)partab,val[0]); t_val = 0L; } else { TRACE_ERROR ("[PEI_CONFIG]: Wrong Number of Parameters"); } break; case TIMER_SPEED_UP: case TIMER_SLOW_DOWN: if (valno EQ 2) { t_man = TRUE; t_num = tok_key((KW_DATA *)partab,val[0]); t_val = atoi(val[1]); if (t_val <= 0L) t_val = 1L; } else { TRACE_ERROR ("[PEI_CONFIG]: Wrong Number of Parameters"); } break; case TIM_FAST: if(valno) { rr_data->dyn_config.tfast_cs_val = atoi(val[0])*60000; TRACE_EVENT_P1("[PEI_CONFIG]TFAST_CS : %dms",rr_data->dyn_config.tfast_cs_val); if(!rr_data->dyn_config.tfast_cs_val) { if(IS_TIMER_ACTIVE(T_FAST_CS)) TIMERSTOP(T_FAST_CS); } } else { TRACE_ERROR ("[PEI_CONFIG]: TFAST_CS-Wrong Number of Parameters"); } break; case TIM_NORMAL: if(valno) { rr_data->dyn_config.tnormal_cs_val = atoi(val[0])*60000; TRACE_EVENT_P1("[PEI_CONFIG]TNORMAL_CS : %dms",rr_data->dyn_config.tnormal_cs_val); if(!rr_data->dyn_config.tnormal_cs_val) { if(IS_TIMER_ACTIVE(T_NORMAL_CS)) TIMERSTOP(T_NORMAL_CS); } } else { TRACE_ERROR ("[PEI_CONFIG]: TNORMAL_CS-Wrong Number of Parameters"); } break; #endif #if defined (_SIMULATION_) case RR_MT_CALL: /* * Start mobile terminated call * if simulation is enabled */ break; case RR_MT_SMS_0: /* * Start mobile terminated SMS class 0 * if simulation is enabled */ break; case RR_MT_SMS_2: /* * Start mobile terminated SMS class 0 * if simulation is enabled */ break; case RR_SERVICE_FULL: /* * Set full service * if simulation is enabled */ break; case RR_SERVICE_LIMITED: /* * Set limited service * if simulation is enabled */ break; case RR_SERVICE_NO: /* * Set no service * if simulation is enabled */ break; case RR_MO_CONNECT: break; case ID_PSEUDO_SYNC_HO: if (valno) { if (atoi (val[0])) rr_data->ms_data.rf_cap.ps = TRUE; else rr_data->ms_data.rf_cap.ps = FALSE; TRACE_EVENT_P1 ("PSEUDO_SYNC_HO capability changed (%u)", rr_data->ms_data.rf_cap.ps); rr_csf_fit_capability (); } else { TRACE_ERROR("[PEI_CONFIG]: use CONFIG PSEUDO_SYNC_HO=<value>"); } break; case DCS_PCLASS_3 : TRACE_EVENT_P1("DCS_PCLASS_3 old [%d] -> new[3]", rr_data->ms_data.rf_cap.rf_power.pow_class4[IDX_PWRCLASS_1800].pow_class); rr_data->ms_data.rf_cap.rf_power.pow_class4[IDX_PWRCLASS_1800].pow_class = POWER_CLASS_3; break; case ID_PCM: /* sample: COMMAND ("RR CONFIG PCM=<MSCAP,0x0F,0xb7,0b10001010,0,0,0>") */ if (valno) { UBYTE b[NMAX_VAL-1]; UBYTE version,ok=1; USHORT i,n=valno-1; if ( pcm_ReadFile ( val[0], n, b, &version) EQ PCM_OK) { for ( i = 0; i < n; ++i ) { UBYTE c,*p = val[i+1]; int dig,z = 0; UBYTE base; if ( p[0] EQ '0' ) { if ( p[1] EQ 'x' OR p[1] EQ 'X' ) { p += 2; base = 16; } else if ( p[1] EQ 'b' OR p[1] EQ 'B' ) { p += 2; base = 2; } else base = 8; } else base = 10; while ( ok AND (c = *p++) != '\0' ) { if ( c >= '0' AND c <= '9' ) dig = c - '0'; else if ( c >= 'A' AND c <= 'F' ) dig = c - 'A' + 10; else if ( c >= 'a' AND c <= 'f' ) dig = c - 'a' + 10; else { ok = 0; break; } if ( base EQ 2 ) ok = dig >= 0 AND dig <= 1; else if ( base EQ 8 ) ok = dig >= 0 AND dig <= 7; else if ( base EQ 10 ) ok = dig >= 0 AND dig <= 9; else if ( base EQ 16 ) ok = dig >= 0 AND dig <= 15; if ( ok ) z = z * base + dig; }; if ( ok ) { TRACE_EVENT_P4 ( "%s[%d]: 0x%02x -> 0x%02x", val[0], i, b[i], z ); b[i] = z; } else { TRACE_EVENT_P1 ( "invalid number:%s", val[i+1] ); break; } } if ( ok ) { if ( pcm_WriteFile ( val[0], n, b) EQ PCM_OK) { rr_csf_read_rfcap (); rr_csf_fit_capability (); rr_csf_read_imei (&rr_data->ms_data.imei); rr_csf_ms_cap (); } else { TRACE_EVENT ( "cannot perform PCM write action" ); } } } else { TRACE_EVENT ( "cannot perform PCM read action" ); } TRACE_EVENT_P1 ( "PCM '%s' " , val[0] ); } else { TRACE_ERROR("[PEI_CONFIG]: use PCM=<value>"); } break; #endif /* _SIMULATION_ */ #if defined(_SIMULATION_FFS_) case SHIELD: if(!valno) { memset(&rr_data->dyn_config.mcc_shield,0,sizeof(T_shield_mcc)); } else { rr_data->dyn_config.mcc_shield.enabled = TRUE; if(valno > MAX_MCC_SHIELD) { TRACE_ERROR("max configurable mcc shield values are four"); valno = MAX_MCC_SHIELD; } index = rr_data->dyn_config.mcc_shield.index; for(count=0;count< valno;count++) { if(index >= MAX_MCC_SHIELD) { index = 0; } mcc_val = atoi(val[count]); if(!mcc_val) { TRACE_ERROR("mcc value cannot be zero"); } else { mcc[0] = (mcc_val/100); mcc[1] = (mcc_val/10)%10; mcc[2] = (mcc_val % 10); if(!rr_csf_mcc_present(mcc)) { memcpy(rr_data->dyn_config.mcc_shield.mcc[index],mcc,SIZE_MCC); index++; } } } rr_data->dyn_config.mcc_shield.index = index; } rr_csf_write_mcc_shield_to_ffs(); break; #endif /* defined(_SIMULATION_FFS_)*/ case ID_MULTISLOT_CLASS: if (valno EQ 1) { UBYTE ms = atoi (val[0]); TRACE_EVENT_P1 ("MULTISLOT_CLASS changed (%u)", ms); rr_data->ms_data.multislot_class_configured = TRUE; rr_data->ms_data.rf_cap.rf_ms.gprs_ms_class = ms; #ifdef GPRS #ifdef REL99 rr_data->ms_data.ra_cap.ra_cap_values.acc_cap.v_ms_struct = SUPPORTED; rr_data->ms_data.ra_cap.ra_cap_values.acc_cap.ms_struct.gprs_struct.gprs_ms_class = ms; if (rr_data->ms_data.ra_cap.c_ra_cap_r EQ MAX_ADD_RA_CAP) #else rr_data->ms_data.ra_cap.acc_cap.v_ms_struct = SUPPORTED; rr_data->ms_data.ra_cap.acc_cap.ms_struct.gprs_struct.gprs_ms_class = ms; if (rr_data->ms_data.ra_cap.v_ra_cap2) #endif { /* * zero means that the same value for multislot parameters as given * in an earlier access capabilities field within this IE apply * also here. */ #ifdef REL99 rr_data->ms_data.ra_cap.ra_cap_r[0].ra_cap_values.acc_cap.v_ms_struct = FALSE; #else rr_data->ms_data.ra_cap.ra_cap2.acc_cap.v_ms_struct = FALSE; #endif } #endif } else { TRACE_ERROR("[PEI_CONFIG]: use CONFIG MULTISLOT_CLASS=<value>"); } break; case ID_CMSP: if (valno EQ 1) { BOOL cmsp = atoi (val[0]); if (cmsp) cmsp = 1; /* boolean */ TRACE_EVENT_P2 ("CMSP changed (%u->%u)", rr_data->ms_data.rf_cap.cmsp, cmsp); rr_data->ms_data.cmsp_configured = TRUE; rr_data->ms_data.rf_cap.cmsp = cmsp; } else { TRACE_ERROR("[PEI_CONFIG]: use CONFIG CMSP=<0|1>"); } break; #if defined(_TARGET_) #endif /* _TARGET_ */ #if defined (_SIMULATION_FFS_) case ERASE_WL: /*lint -e655 (Warning -- bit-wise operation uses (compatible) enum's)*/ cs_clear_white_list (CLR_WHITE_LIST_RAM | CLR_WHITE_LIST_SIM | CLR_WHITE_LIST_FFS); /*lint +e655 (Warning -- bit-wise operation uses (compatible) enum's)*/ break; case ERASE_BL: /*lint -e655 (Warning -- bit-wise operation uses (compatible) enum's)*/ cs_clear_black_list (CLR_BLACK_LIST_RAM | CLR_BLACK_LIST_FFS); /*lint +e655 (Warning -- bit-wise operation uses (compatible) enum's)*/ break; #endif /* _SIMULATION_FFS_ */ case SHOW_BL: /*lint -e655 (Warning -- bit-wise operation uses (compatible) enum's)*/ srv_trace_black_list (); /*lint +e655 (Warning -- bit-wise operation uses (compatible) enum's)*/ break; case SHOW_WL: /*lint -e655 (Warning -- bit-wise operation uses (compatible) enum's)*/ srv_trace_white_list (); /*lint +e655 (Warning -- bit-wise operation uses (compatible) enum's)*/ break; case SET_WL: if(valno < 2) { TRACE_ERROR("[PEI_CONFIG]: wrong Number of Parameters"); } else { UBYTE c_region; USHORT c_arfcn; UBYTE i; if(valno > 6) valno = 6; /* 1 to 5 ARFCNs can be configured at a time */ c_region = atoi(val[0]); if(cs_check_region(c_region)) { rr_data->cs_data.white_list.region = c_region; for(i=1;i<valno;i++) { c_arfcn = atoi(val[i]); if(cs_check_arfcn_range(c_arfcn)) { srv_set_channel(&rr_data->cs_data.white_list.list,c_arfcn); TRACE_EVENT_P1("Arfcn:%d -> WL", c_arfcn); } /* arfcn */ } /* for */ } /* region */ } /* valno */ break; case SET_BL: if(valno < 2) { TRACE_ERROR("[PEI_CONFIG]: wrong Number of Parameters"); } else { UBYTE c_region; USHORT c_arfcn; UBYTE i; if(valno > 6) valno = 6; /* 1 to 5 ARFCNs can be configured at a time */ c_region = atoi(val[0]); if(cs_check_region(c_region)) { for(i=1;i<valno;i++) { c_arfcn = atoi(val[i]); if(cs_check_arfcn_range(c_arfcn)) { srv_set_channel(&rr_data->cs_data.black_list.list[c_region],c_arfcn); TRACE_EVENT_P1("Arfcn:%d -> BL", c_arfcn); } /* arfcn */ } /* for */ } /* region */ } /* valno */ break; case SET_WL_REGION: if(valno) { if(cs_check_region((U8)atoi (val[0]))) rr_data->cs_data.white_list.region = atoi (val[0]); } else { TRACE_ERROR ("[PEI_CONFIG]: wrong Number of Parameters"); } break; case SET_WL_PLMN: if(valno < 2) { TRACE_ERROR("[PEI_CONFIG]: wrong Number of Parameters"); } else { SHORT plmn = atoi (val[0]); /* copy MCC */ rr_data->cs_data.white_list.last_sc_lac.mcc[0] = (plmn/100); rr_data->cs_data.white_list.last_sc_lac.mcc[1] = (plmn/10)%10; rr_data->cs_data.white_list.last_sc_lac.mcc[2] = (plmn % 10); /* Copy MNC */ plmn = atoi (val[1]); rr_data->cs_data.white_list.last_sc_lac.mnc[0] = (plmn/100); rr_data->cs_data.white_list.last_sc_lac.mnc[1] = (plmn/10)%10; rr_data->cs_data.white_list.last_sc_lac.mnc[2] = (plmn % 10); if(!rr_data->cs_data.white_list.last_sc_lac.mnc[2]) rr_data->cs_data.white_list.last_sc_lac.mnc[2] = 0x0f; TRACE_EVENT_P6( "[PEI_CONFIG]SET_WL_PLMN MCC/MNC r=%x%x%x/%x%x%x", rr_data->cs_data.white_list.last_sc_lac.mcc[0], rr_data->cs_data.white_list.last_sc_lac.mcc[1], rr_data->cs_data.white_list.last_sc_lac.mcc[2], rr_data->cs_data.white_list.last_sc_lac.mnc[0], rr_data->cs_data.white_list.last_sc_lac.mnc[1], rr_data->cs_data.white_list.last_sc_lac.mnc[2]); } break; case SET_NPS_DELAY: if(valno) { rr_data->dyn_config.lim_ser_nps_delay = atoi (val[0]); } else { TRACE_ERROR ("[PEI_CONFIG]: wrong Number of Parameters"); } break; default: break; } #ifdef OPTION_TIMER /* * If timer manipulation */ if (t_man) { t_man = FALSE; if (t_num >= 0 AND t_num < MAX_RR_TIMER) ; /* vsi_t_config is removed in latest GPF */ else { TRACE_ERROR ("[PEI_CONFIG]: Parameter out of Range"); } } #endif } } /*!defined (NCONFIG)*/ #endif /*!defined (NCONFIG)*/ return PEI_OK; } #endif /* NCONFIG */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_PEI | | STATE : code ROUTINE : rr_pei_config | +--------------------------------------------------------------------+ PURPOSE : Dynamic Configuration */ /*lint -esym(714,rr_pei_config) | Symbol not referenced | used by Frame */ /*lint -esym(765,rr_pei_config) | external could be made static | used by Frame */ /* Implements Measure#36 */ #if defined(NCONFIG) #else /* NCONFIG */ GLOBAL SHORT rr_pei_config ( char * inString, char * dummy ) { pei_config ( inString ); return PEI_OK; } #endif /* NCONFIG */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_PEI | | STATE : code ROUTINE : pei_create | +--------------------------------------------------------------------+ PURPOSE : Create the Protocol Stack Entity */ /*lint -esym(714,rr_pei_create) | Symbol not referenced | used by Frame */ /*lint -esym(765,rr_pei_create) | external could be made static | used by Frame */ GLOBAL SHORT rr_pei_create (T_PEI_INFO **info) { static const T_PEI_INFO pei_info = { "RR", { pei_init, #ifdef _SIMULATION_ pei_exit, #else NULL, #endif pei_primitive, pei_timeout, NULL, /* no signal function */ NULL, /* no run function */ /* Implements Measure#36 */ #if defined(NCONFIG) NULL, /* no pei_config function */ #else /* NCONFIG */ pei_config, #endif /* NCONFIG */ NULL, }, #ifdef GPRS 1736, /* Stack Size */ #else 1936, /* Stack Size increase from 1436 to 1936 2007/5/31 */ #endif 10, /* Queue Entries */ 205, /* Priority */ NUM_OF_RR_TIMERS, /* number of timer */ /* flags */ #ifdef _TARGET_ #ifdef GPRS PASSIVE_BODY|COPY_BY_REF|TRC_NO_SUSPEND|PRIM_NO_SUSPEND|INT_DATA_TASK #else PASSIVE_BODY|COPY_BY_REF|TRC_NO_SUSPEND|PRIM_NO_SUSPEND #endif #else PASSIVE_BODY|COPY_BY_REF #endif }; TRACE_FUNCTION ("pei_create()"); /* * Close Resources if open */ #ifdef _SIMULATION_ if (first_access) first_access = FALSE; else pei_exit (); #endif /* * Export startup configuration data */ *info = (T_PEI_INFO *)&pei_info; return PEI_OK; } #endif