FreeCalypso > hg > fc-magnetite
view src/g23m-gsm/rr/rr_pei.c @ 640:16eb1b9640dc
target gtm900 renamed to gtm900mgc2
This change reflects the fact that the build target in question supports
MGC2GSMT hardware only, and will NOT work on other hw that confusing bears
the same end user name of GTM900, neither the LoCosto-based GTM900-C
nor the Calypso-based MG01GSMT that has a different and incompatible RFFE.
If we ever get our hands on a piece of MG01GSMT hw and add support for it,
that other target will be named gtm900mg01.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Fri, 31 Jan 2020 00:46:07 +0000 |
parents | dcc3b8646a34 |
children |
line wrap: on
line source
/* +----------------------------------------------------------------------------- | 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