FreeCalypso > hg > fc-magnetite
view src/aci2/aci/aci_em.c @ 662:8cd8fd15a095
SIM speed enhancement re-enabled and made configurable
TI's original code supported SIM speed enhancement, but Openmoko had it
disabled, and OM's disabling of speed enhancement somehow caused certain
SIM cards to start working which didn't work before (OM's bug #666).
Because our FC community is much smaller in year 2020 than OM's community
was in their day, we are not able to find one of those #666-affected SIMs,
thus the real issue they had encountered remains elusive. Thus our
solution is to re-enable SIM speed enhancement and simply wait for if
and when someone runs into a #666-affected SIM once again. We provide
a SIM_allow_speed_enhancement global variable that allows SIM speed
enhancement to be enabled or disabled per session, and an /etc/SIM_spenh
file in FFS that allows it to enabled or disabled on a non-volatile
basis. SIM speed enhancement is now enabled by default.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sun, 24 May 2020 05:02:28 +0000 |
parents | 93999a60b835 |
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 engineering mode (EM) device driver for the | G23 protocol stack. This driver is used to control all engineering | mode related functions. +----------------------------------------------------------------------------- */ #ifndef ACI_EM_C #define ACI_EM_C #endif #include "aci_all.h" /*===== INCLUDES ===================================================*/ #include "aci_cmh.h" #ifdef UART #include "dti.h" #include "dti_conn_mng.h" #endif #ifdef _SIMULATION_ #ifdef UART #include "psa_uart.h" #endif #endif #include "ati_cmd.h" #include "aci_mem.h" #ifdef FF_ATI #include "aci_io.h" #endif #include "aci.h" #include "aci_em.h" #ifdef GPRS #include "gaci.h" #include "gaci_cmh.h" #include "psa.h" #include "cmh.h" #include "cmh_sm.h" #endif /*==== CONSTANTS ==================================================*/ /*==== PRIVAT =====================================================*/ /*==== EXPORT =====================================================*/ EXTERN UBYTE em_l1_sem_buffer []; EXTERN UBYTE em_l1_sem_index; EXTERN UBYTE em_dl_sem_buffer []; EXTERN UBYTE em_dl_sem_index; EXTERN UBYTE em_rr_sem_buffer []; EXTERN UBYTE em_rr_sem_index; EXTERN void em_l1_sem_read (void); EXTERN void em_l1_sem_reset(void); EXTERN void em_dl_sem_read (void); EXTERN void em_dl_sem_reset(void); EXTERN void em_rr_sem_read (void); EXTERN UBYTE em_rr_sem_reset(void); EXTERN UBYTE em_mm_event_buffer[EM_MM_BUFFER_SIZE]; EXTERN UBYTE em_mm_buffer_write; EXTERN UBYTE em_cc_event_buffer[EM_CC_BUFFER_SIZE]; EXTERN UBYTE em_cc_buffer_write; EXTERN UBYTE em_ss_event_buffer[EM_SS_BUFFER_SIZE]; EXTERN UBYTE em_ss_buffer_write; EXTERN UBYTE em_sms_event_buffer[EM_SMS_BUFFER_SIZE]; EXTERN UBYTE em_sms_buffer_write; EXTERN UBYTE em_sim_event_buffer[EM_SIM_BUFFER_SIZE]; EXTERN UBYTE em_sim_buffer_write; EXTERN void em_aci_sem (UBYTE entity, UBYTE *buffer, UBYTE buf_index_tmp); #ifndef WIN32 EXTERN const CHAR* l1_version(void); EXTERN const CHAR* dl_version(void); EXTERN const CHAR* rr_version(void); EXTERN const CHAR* mm_version(void); EXTERN const CHAR* cc_version(void); EXTERN const CHAR* ss_version(void); EXTERN const CHAR* sim_version(void); EXTERN const CHAR* sms_version(void); /*EXTERN const CHAR* aci_version(void);*/ #endif /*==== VARIABLES ==================================================*/ /* * callback for the single infrastructure and mobile data functions. */ static drv_SignalCB_Type_EM em_para_signal_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_sc_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_sc_gprs_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_nc_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_loc_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_plmn_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_cip_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_pow_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_id_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_ver_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_gmm_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_grlc_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_amr_callback = NULL; static drv_SignalCB_Type_EM em_para_signal_pdp_callback = NULL; /* * callback for the event trace function. */ static drv_SignalCB_Type_EM_EVENT em_event_signal_callback = NULL; /* * These flags indicates if the first event for the corresponding entity occurred. It is only used to * prevent unnecessary semaphor copying. */ static UBYTE em_l1_trace; static UBYTE em_dl_trace; static UBYTE em_rr_trace; static UBYTE em_mm_trace; static UBYTE em_cc_trace; static UBYTE em_ss_trace; static UBYTE em_sms_trace; static UBYTE em_sim_trace; /* * The buffer keeps all information about index and length of the single event trace data until it is * passed to the originator of the em_Read_Event_Parameter() call. */ static T_EM_EVENT_BUF aci_em_buf; static UBYTE drv_enabled; static UBYTE em_aci_buf_index; GLOBAL USHORT em_relcs = 0; /*==== FUNCTIONS ==================================================*/ LOCAL UBYTE em_class_infra_data (UBYTE em_subclass, UBYTE em_type); LOCAL UBYTE em_class_mobile_data (UBYTE em_subclass, UBYTE em_type); LOCAL UBYTE em_class_event_tracing (UBYTE em_subclass, ULONG bitmask_h, ULONG bitmask_l); LOCAL UBYTE em_subclass_sc (UBYTE em_type); LOCAL UBYTE em_subclass_sc_gprs (UBYTE em_type); LOCAL UBYTE em_subclass_nc (UBYTE em_type); LOCAL UBYTE em_subclass_loc_pag (UBYTE em_type); LOCAL UBYTE em_subclass_plmn (UBYTE em_type); LOCAL UBYTE em_subclass_ciph_hop_dtx (UBYTE em_type); LOCAL UBYTE em_subclass_power (UBYTE em_type); LOCAL UBYTE em_subclass_id (UBYTE em_type); LOCAL UBYTE em_subclass_version (UBYTE em_type); LOCAL UBYTE em_subclass_gmm (UBYTE em_type); LOCAL UBYTE em_subclass_grlc (UBYTE em_type); LOCAL UBYTE em_subclass_amr (UBYTE em_type); #ifdef GPRS LOCAL UBYTE em_subclass_pdp (UBYTE em_type); LOCAL void em_pco_pdp_trace_req (void ); #endif LOCAL UBYTE em_event_l1 (USHORT bitmask_h, ULONG bitmask_l); LOCAL UBYTE em_event_dl (USHORT bitmask_h); LOCAL UBYTE em_event_rr (USHORT bitmask_h, ULONG bitmask_l); LOCAL UBYTE em_event_mm (ULONG bitmask_h); LOCAL UBYTE em_event_cc (ULONG bitmask_h, ULONG bitmask_l); LOCAL UBYTE em_event_ss (USHORT bitmask_h); LOCAL UBYTE em_event_sms (ULONG bitmask_h, ULONG bitmask_l); LOCAL UBYTE em_event_sim (ULONG bitmask); LOCAL void em_sw_ver_info_cnf (T_EM_SW_VER *version); /*==== FUNCTIONS ==================================================*/ /* +------------------------------------------------------------------------------ | Function : em_Init +------------------------------------------------------------------------------ | Description : The function initializes the driverīs internal data. The | function returns DRV_OK in case of a successful completition. | The function returns DRV_INITIALIZED if the driver has already | been initialized and is ready to be used or is already in use. | In case of an initialization failure, which means that the | driver cannot be used, the function returns DRV_INITFAILURE. | This function handles unsupported primitives. | | Parameters : Callback function | | Return : UBYTE +------------------------------------------------------------------------------ */ GLOBAL UBYTE em_Init (drv_SignalCB_Type_EM in_SignalCBPtr, drv_SignalCB_Type_EM_EVENT in_SignalEventCBPtr) { TRACE_FUNCTION("em_Init ()"); em_para_signal_callback = in_SignalCBPtr; /* store call-back function - Data */ em_event_signal_callback = in_SignalEventCBPtr; /* store call-back function - Event */ em_relcs = 0; if (drv_enabled EQ FALSE) { /* EM not initialized yet */ drv_enabled = TRUE; return DRV_OK; } else { return DRV_INITIALIZED; } } /* +------------------------------------------------------------------------------ | Function : em_Exit +------------------------------------------------------------------------------ | Description : The function is used to indicate that the driver and its | functionality isnīt needed anymore. | | Parameters : void | | Return : void +------------------------------------------------------------------------------ */ GLOBAL void em_Exit (void) { TRACE_FUNCTION("em_Exit ()"); em_para_signal_callback = NULL; } /* +------------------------------------------------------------------------------ | Function : em_Read_Data_Parameter +------------------------------------------------------------------------------ | Description : The function is used to indicate that the driver and its | functionality isnīt needed anymore. | | Parameters : UBYTE em_class | UBYTE em_subclass | UBYTE em_type | void (*cbfunc)(T_DRV_SIGNAL_EM * Signal) | | Return : UBYTE +------------------------------------------------------------------------------ */ GLOBAL UBYTE em_Read_Data_Parameter (UBYTE em_class, UBYTE em_subclass, UBYTE em_type, void (*cbfunc)(T_DRV_SIGNAL_EM * Signal)) { TRACE_FUNCTION("em_Read_Data_Parameter ()"); /* Used to store the callback-address for the different sub-functions. If the same infrastructure data is requested a second time before the first one is served only the latest one is handled. */ switch (em_subclass) { case EM_SUBCLASS_SC: em_para_signal_sc_callback = cbfunc; break; case EM_SUBCLASS_SC_GPRS: em_para_signal_sc_gprs_callback = cbfunc; break; case EM_SUBCLASS_NC: em_para_signal_nc_callback = cbfunc; break; case EM_SUBCLASS_LOC_PAG: em_para_signal_loc_callback = cbfunc; break; case EM_SUBCLASS_PLMN: em_para_signal_plmn_callback = cbfunc; break; case EM_SUBCLASS_CIPH_HOP_DTX: em_para_signal_cip_callback = cbfunc; break; case EM_SUBCLASS_POWER: em_para_signal_pow_callback = cbfunc; break; case EM_SUBCLASS_ID: em_para_signal_id_callback = cbfunc; break; case EM_SUBCLASS_SW_VERSION: em_para_signal_ver_callback = cbfunc; break; case EM_SUBCLASS_GMM: em_para_signal_gmm_callback = cbfunc; break; case EM_SUBCLASS_GRLC: em_para_signal_grlc_callback = cbfunc; break; case EM_SUBCLASS_AMR: em_para_signal_amr_callback = cbfunc; break; case EM_SUBCLASS_PDP: em_para_signal_pdp_callback = cbfunc; break; default: em_para_signal_callback = NULL; break; } switch (em_class) { case EM_CLASS_INFRA_DATA: return(em_class_infra_data(em_subclass, em_type)); case EM_CLASS_MOBILE_DATA: return(em_class_mobile_data(em_subclass, em_type)); default: return EM_INVALID_CLASS; } } /* +------------------------------------------------------------------------------ | Function : em_Read_Event_Parameter +------------------------------------------------------------------------------ | Description : The function is used to indicate that the driver and its | functionality isnīt needed anymore. | | Parameters : UBYTE entity | (*cbfunc)(T_DRV_SIGNAL_EM_EVENT * Signal) | | Return : UBYTE +------------------------------------------------------------------------------ */ GLOBAL UBYTE em_Read_Event_Parameter (UBYTE entity, void (*cbfunc)(T_DRV_SIGNAL_EM_EVENT * Signal)) { T_DRV_SIGNAL_EM_EVENT signal_params; UBYTE emet1=0,emet2=0,emet3=0,emet4=0,emet5=0,emet6=0,emet7=0,emet8=0; UBYTE *event_buf; USHORT length_event_buf; UBYTE alr_tmp, dl_tmp, rr_tmp, mm_tmp, cc_tmp, ss_tmp, sms_tmp, sim_tmp; TRACE_FUNCTION("em_Read_Event_Parameter ()"); /* * Used to store the callback-address for the different sub-functions. If the same event trace is * requested a second time before the first one is served only the latest one is handled. */ em_event_signal_callback = cbfunc; em_aci_buf_index = 0; /* * length_event_buf indicates the length of all event traces and is used for dynamic * memory allocation. The single values are from the correspondent entities and therefor * defined as global. To ensure that no buffer overflow happens, the actual index is stored * in a temp variable - a new event could occure after the memory is allocated. */ length_event_buf = (alr_tmp=em_l1_sem_index) + (dl_tmp=em_dl_sem_index) + (rr_tmp=em_rr_sem_index) + (mm_tmp=em_mm_buffer_write) + (cc_tmp=em_cc_buffer_write) + (ss_tmp=em_ss_buffer_write) + (sms_tmp=em_sms_buffer_write) + (sim_tmp=em_sim_buffer_write); #ifdef WIN32 length_event_buf = 100; #endif /* WIN32 */ memset(&aci_em_buf, 0, sizeof(T_EM_EVENT_BUF)); ACI_MALLOC(event_buf, length_event_buf); /* * This checks if the entity is set in the bitmask and at least one event * occurred in the corresponding entity. The event flag (em_xx_trace) protects * unnecessary buffer operations. */ emet1 = ( (((entity & 0x0001) > 0) ? TRUE : FALSE) AND em_l1_trace ) ; /* L1 */ emet2 = ( (((entity & 0x0002) > 0) ? TRUE : FALSE) AND em_dl_trace ) ; /* DL */ emet3 = ( (((entity & 0x0004) > 0) ? TRUE : FALSE) AND em_rr_trace ) ; /* RR */ emet4 = ( (((entity & 0x0008) > 0) ? TRUE : FALSE) AND em_mm_trace ) ; /* MM */ emet5 = ( (((entity & 0x0010) > 0) ? TRUE : FALSE) AND em_cc_trace ) ; /* CC */ emet6 = ( (((entity & 0x0020) > 0) ? TRUE : FALSE) AND em_ss_trace ) ; /* SS */ emet7 = ( (((entity & 0x0040) > 0) ? TRUE : FALSE) AND em_sms_trace ); /* SMS */ emet8 = ( (((entity & 0x0080) > 0) ? TRUE : FALSE) AND em_sim_trace ); /* SIM */ if(emet1) { em_aci_sem(EM_L1, event_buf, alr_tmp); em_l1_trace = FALSE; } if(emet2) { em_aci_sem(EM_DL, event_buf, dl_tmp); em_dl_trace = FALSE; } if(emet3) { em_aci_sem(EM_RR, event_buf, rr_tmp); em_rr_trace = FALSE; } if(emet4) { em_aci_sem(EM_MM, event_buf, mm_tmp); em_mm_trace = FALSE; } if(emet5) { em_aci_sem(EM_CC, event_buf, cc_tmp); em_cc_trace = FALSE; } if(emet6) { em_aci_sem(EM_SS, event_buf, ss_tmp); em_ss_trace = FALSE; } if(emet7) { em_aci_sem(EM_SMS, event_buf, sms_tmp); em_sms_trace = FALSE; } if(emet8) { em_aci_sem(EM_SIM, event_buf, sim_tmp); em_sim_trace = FALSE; } memcpy(&signal_params.Data, &aci_em_buf, sizeof(T_EM_EVENT_BUF)); signal_params.DataLength = length_event_buf; signal_params.Pointer = event_buf; if (em_event_signal_callback NEQ NULL) { (*em_event_signal_callback)(&signal_params); } ACI_MFREE(event_buf); return TRUE; } /* +------------------------------------------------------------------------------ | Function : em_Set_EventTrace +------------------------------------------------------------------------------ | Description : Set the event flags and the callback function for the subclass | | Parameters : subclass - defines the subclass the data is coming from | bitmask_h - bitmask | bitmask_l - bitmask | | Return : UBYTE +------------------------------------------------------------------------------ */ GLOBAL UBYTE em_Set_EventTrace (UBYTE em_subclass, ULONG bitmask_h, ULONG bitmask_l) { TRACE_FUNCTION("em_Set_EventTrace ()"); return(em_class_event_tracing(em_subclass, bitmask_h, bitmask_l)); } /* +------------------------------------------------------------------------------ | Function : em_Received_Data +------------------------------------------------------------------------------ | Description : Compose the callback function | | Parameters : data - requested data subclass - defines the subclass the data is coming from | | Return : void +------------------------------------------------------------------------------ */ GLOBAL void em_Received_Data (void *data, UBYTE subclass) { /*lint -e813*//* info about auto variable size of drv_SignalID_Type_EM*/ drv_SignalID_Type_EM signal_params; TRACE_FUNCTION("em_Received_Data ()"); signal_params.SignalType = subclass; switch (subclass) { case EM_SUBCLASS_SC: { memcpy(&signal_params.UserData.sc, data, sizeof (T_EM_SC_INFO_CNF)); signal_params.DataLength = (sizeof (signal_params.UserData.sc) + 6); em_para_signal_callback = em_para_signal_sc_callback; break; } case EM_SUBCLASS_SC_GPRS: { memcpy(&signal_params.UserData.sc_gprs, data, sizeof (T_EM_SC_GPRS_INFO_CNF)); signal_params.DataLength = (sizeof (signal_params.UserData.sc_gprs) + 6); em_para_signal_callback = em_para_signal_sc_gprs_callback; break; } case EM_SUBCLASS_NC: { memcpy(&signal_params.UserData.nc, data, sizeof (T_EM_NC_INFO_CNF)); signal_params.DataLength = (sizeof (signal_params.UserData.nc) + 6); em_para_signal_callback = em_para_signal_nc_callback; break; } case EM_SUBCLASS_LOC_PAG: { memcpy(&signal_params.UserData.log_pag, data, sizeof (T_EM_LOC_PAG_INFO_CNF)); signal_params.DataLength = (sizeof (signal_params.UserData.log_pag) + 6); em_para_signal_callback = em_para_signal_loc_callback; break; } case EM_SUBCLASS_PLMN: { memcpy(&signal_params.UserData.plmn, data, sizeof (T_EM_PLMN_INFO_CNF)); signal_params.UserData.plmn.rel_cause = em_relcs; signal_params.DataLength = (sizeof (signal_params.UserData.plmn) + 6); em_para_signal_callback = em_para_signal_plmn_callback; break; } case EM_SUBCLASS_CIPH_HOP_DTX: { memcpy(&signal_params.UserData.cip, data, sizeof (T_EM_CIP_HOP_DTX_INFO_CNF)); signal_params.DataLength = (sizeof (signal_params.UserData.cip) + 6); em_para_signal_callback = em_para_signal_cip_callback; break; } case EM_SUBCLASS_POWER: { memcpy(&signal_params.UserData.power, data, sizeof (T_EM_POWER_INFO_CNF)); signal_params.DataLength = (sizeof (signal_params.UserData.power) + 6); em_para_signal_callback = em_para_signal_pow_callback; break; } case EM_SUBCLASS_ID: { memcpy(&signal_params.UserData.id, data, sizeof (T_EM_IDENTITY_INFO_CNF)); signal_params.DataLength = (sizeof (signal_params.UserData.id) + 6); em_para_signal_callback = em_para_signal_id_callback; break; } case EM_SUBCLASS_SW_VERSION: { em_sw_ver_info_cnf(&signal_params.UserData.version); signal_params.DataLength = (sizeof (signal_params.UserData.version) + 6); em_para_signal_callback = em_para_signal_ver_callback; break; } case EM_SUBCLASS_GMM: { memcpy(&signal_params.UserData.gmm, data, sizeof (T_EM_GMM_INFO_CNF)); signal_params.DataLength = (sizeof (signal_params.UserData.gmm) + 6); em_para_signal_callback = em_para_signal_gmm_callback; break; } case EM_SUBCLASS_GRLC: { memcpy(&signal_params.UserData.grlc, data, sizeof (T_EM_GRLC_INFO_CNF)); signal_params.DataLength = (sizeof (signal_params.UserData.grlc) + 6); em_para_signal_callback = em_para_signal_grlc_callback; break; } case EM_SUBCLASS_AMR: { memcpy(&signal_params.UserData.amr, data, sizeof (T_EM_AMR_INFO_CNF)); signal_params.DataLength = (sizeof (signal_params.UserData.amr) + 6); em_para_signal_callback = em_para_signal_amr_callback; break; } case EM_SUBCLASS_PDP: { em_para_signal_callback = em_para_signal_pdp_callback; break; } default: { signal_params.UserData.defaulT = 0xff; signal_params.DataLength = (sizeof (signal_params.UserData.defaulT) + 6); em_para_signal_callback = NULL; break; } } if (em_para_signal_callback NEQ NULL) { (*em_para_signal_callback)(&signal_params); } if(data NEQ NULL) PFREE(data); } LOCAL void em_sw_ver_info_cnf (T_EM_SW_VER *version) { TRACE_FUNCTION ("em_sw_ver_info_cnf()"); memset (version, 0, sizeof (T_EM_SW_VER)); #ifndef WIN32 /* The respective functions are auto-generated by the target build only */ /* Copy the static const strings into the structure */ strncpy (version->alr, l1_version(), MAX_VER-1); strncpy (version->dl, dl_version(), MAX_VER-1); strncpy (version->rr, rr_version(), MAX_VER-1); strncpy (version->mm, mm_version(), MAX_VER-1); strncpy (version->cc, cc_version(), MAX_VER-1); strncpy (version->ss, ss_version(), MAX_VER-1); strncpy (version->sms, sms_version(), MAX_VER-1); strncpy (version->sim, sim_version(), MAX_VER-1); #endif } /* +------------------------------------------------------------------------------ | Function : em_class_infra_data +------------------------------------------------------------------------------ | Description : This function calls the appropriate subfunction for the | requested data (infrastructure data). | | Parameters : em_subclass - defines the subclass the data is requested from | em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_class_infra_data (UBYTE em_subclass, UBYTE em_type) { TRACE_FUNCTION("em_class_infra_data ()"); switch (em_subclass) { case EM_SUBCLASS_SC: return (em_subclass_sc(em_type)); case EM_SUBCLASS_SC_GPRS: #ifdef GPRS return (em_subclass_sc_gprs(em_type)); #else return EM_INVALID_SUBCLASS; #endif /* GPRS */ case EM_SUBCLASS_NC: return (em_subclass_nc(em_type)); case EM_SUBCLASS_LOC_PAG: return (em_subclass_loc_pag(em_type)); case EM_SUBCLASS_PLMN: return (em_subclass_plmn(em_type)); case EM_SUBCLASS_CIPH_HOP_DTX: return (em_subclass_ciph_hop_dtx(em_type)); case EM_SUBCLASS_GMM: #ifdef GPRS return (em_subclass_gmm(em_type)); #else /* GPRS */ return EM_INVALID_SUBCLASS; #endif /* GPRS */ case EM_SUBCLASS_GRLC: #ifdef GPRS return (em_subclass_grlc(em_type)); #else /* GPRS */ return EM_INVALID_SUBCLASS; #endif /* GPRS */ case EM_SUBCLASS_AMR: return (em_subclass_amr(em_type)); #ifdef GPRS case EM_SUBCLASS_PDP: return (em_subclass_pdp(em_type)); #else return EM_INVALID_SUBCLASS; #endif default: return EM_INVALID_SUBCLASS; } } /* +------------------------------------------------------------------------------ | Function : em_class_mobile_data +------------------------------------------------------------------------------ | Description : This function calls the appropriate subfunction for the | requested data (mobile data). | | Parameters : em_subclass - defines the subclass the data is requested from | em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_class_mobile_data (UBYTE em_subclass, UBYTE em_type) { TRACE_FUNCTION("em_class_mobile_data ()"); switch (em_subclass) { case EM_SUBCLASS_POWER: return (em_subclass_power(em_type)); case EM_SUBCLASS_ID: return (em_subclass_id(em_type)); case EM_SUBCLASS_SW_VERSION: return (em_subclass_version(em_type)); /* not implemented yet */ default: return EM_INVALID_SUBCLASS; } } /* +------------------------------------------------------------------------------ | Function : em_class_event_tracing +------------------------------------------------------------------------------ | Description : This function calls the appropriate subfunction for the | requested data (event trace). | | Parameters : em_subclass - defines the event subclass | bitmask - defines the single events | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_class_event_tracing (UBYTE em_subclass, ULONG bitmask_h, ULONG bitmask_l) { TRACE_FUNCTION("em_class_event_tracing ()"); switch (em_subclass) { case EM_SUBCLASS_LAYER_1: return em_event_l1((USHORT)bitmask_h, bitmask_l); case EM_SUBCLASS_DL: return em_event_dl((USHORT)bitmask_l); case EM_SUBCLASS_RR: return em_event_rr((USHORT)bitmask_h, bitmask_l); case EM_SUBCLASS_MM: return em_event_mm(bitmask_l); case EM_SUBCLASS_CC: return em_event_cc(bitmask_h, bitmask_l); case EM_SUBCLASS_SS: return em_event_ss((USHORT)bitmask_l); case EM_SUBCLASS_SMS: return em_event_sms(bitmask_h, bitmask_l); case EM_SUBCLASS_SIM: return em_event_sim(bitmask_l); default: return EM_INVALID_SUBCLASS; } } /* +------------------------------------------------------------------------------ | Function : em_subclass_sc +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_subclass_sc (UBYTE em_type) { TRACE_FUNCTION ("em_subclass_sc()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_sc_info_req, EM_SC_INFO_REQ); /* T_EM_SC_INFO_REQ */ /* fill in primitive parameter: */ /* the bitmask em_type is only used to prevent unnecesary use of primitives*/ em_sc_info_req->data = em_type; /* the primitive is send to RR via MM */ PSENDX (RR, em_sc_info_req); } return TRUE; } /* +------------------------------------------------------------------------------ | Function : em_subclass_sc_gprs +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ #ifdef GPRS LOCAL UBYTE em_subclass_sc_gprs (UBYTE em_type) { TRACE_FUNCTION ("em_subclass_sc_gprs()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_sc_gprs_info_req, EM_SC_GPRS_INFO_REQ); /* T_EM_SC_GPRS_INFO_REQ */ /* fill in primitive parameter: */ /* the bitmask em_type is only used to prevent unnecesary use of primitives*/ em_sc_gprs_info_req->data = em_type; /* the primitive is send to GRR via GMM */ PSEND (hCommGMM, em_sc_gprs_info_req); } return TRUE; } #endif /* GPRS */ /* +------------------------------------------------------------------------------ | Function : em_subclass_nc +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_subclass_nc (UBYTE em_type) { TRACE_FUNCTION ("em_subclass_nc()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_nc_info_req, EM_NC_INFO_REQ); /* T_EM_NC_INFO_REQ */ /* fill in primitive parameter: */ /* the bitmask em_type is only used to prevent unnecesary use of primitives*/ em_nc_info_req->data = em_type; /* the primitive is send to RR via MM */ PSENDX (RR, em_nc_info_req); } return TRUE; } /* +------------------------------------------------------------------------------ | Function : em_subclass_loc_pag +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_subclass_loc_pag (UBYTE em_type) { TRACE_FUNCTION ("em_subclass_loc_pag()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_loc_pag_info_req, EM_LOC_PAG_INFO_REQ); /* T_EM_LOC_PAG_INFO_REQ */ /* fill in primitive parameter: */ /* the bitmask em_type is only used to prevent unnecesary use of primitives*/ em_loc_pag_info_req->data = em_type; /* the primitive is send to RR via MM */ PSENDX (RR, em_loc_pag_info_req); } return TRUE; } /* +------------------------------------------------------------------------------ | Function : em_subclass_plmn +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_subclass_plmn (UBYTE em_type) { TRACE_FUNCTION ("em_subclass_plmn()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_plmn_info_req, EM_PLMN_INFO_REQ); /* T_EM_PLMN_INFO_REQ */ /* fill in primitive parameter: */ /* the bitmask em_type is only used to prevent unnecesary use of primitives*/ em_plmn_info_req->data = em_type; /* the primitive is send to RR via MM */ PSENDX (RR, em_plmn_info_req); } return TRUE; } /* +------------------------------------------------------------------------------ | Function : em_subclass_ciph_hop_dtx +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_subclass_ciph_hop_dtx (UBYTE em_type) { TRACE_FUNCTION ("em_subclass_ciph_hop_dtx()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_cip_hop_dtx_info_req, EM_CIP_HOP_DTX_INFO_REQ); /* T_EM_CIP_HOP_DTX_INFO_REQ */ /* fill in primitive parameter: */ /* the bitmask em_type is only used to prevent unnecesary use of primitives*/ em_cip_hop_dtx_info_req->data = em_type; /* the primitive is send to RR via MM */ PSENDX (RR, em_cip_hop_dtx_info_req); } return TRUE; } /* +------------------------------------------------------------------------------ | Function : em_subclass_power +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_subclass_power (UBYTE em_type) { TRACE_FUNCTION ("em_subclass_power()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_power_info_req, EM_POWER_INFO_REQ); /* T_EM_POWER_INFO_REQ */ /* fill in primitive parameter: */ /* the bitmask em_type is only used to prevent unnecesary use of primitives*/ em_power_info_req->data = em_type; /* the primitive is send to RR via MM */ PSENDX (RR, em_power_info_req); } return TRUE; } /* +------------------------------------------------------------------------------ | Function : em_subclass_id +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_subclass_id (UBYTE em_type) { TRACE_FUNCTION ("em_subclass_id()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_identity_info_req, EM_IDENTITY_INFO_REQ); /* T_EM_IDENTITY_INFO_REQ */ /* fill in primitive parameter: */ /* the bitmask em_type is only used to prevent unnecesary use of primitives*/ em_identity_info_req->data = em_type; /* the primitive is send to RR via MM */ PSENDX (RR, em_identity_info_req); } return TRUE; } /* +------------------------------------------------------------------------------ | Function : em_subclass_version +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_subclass_version (UBYTE em_type) { TRACE_FUNCTION ("em_subclass_version()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_sw_version_info_req, EM_SW_VERSION_INFO_REQ); /* T_EM_SW_VERSION_INFO_REQ */ /* fill in primitive parameter: */ /* the bitmask em_type is only used to prevent unnecesary use of primitives*/ em_sw_version_info_req->data = em_type; /* the primitive is send to RR via MM */ PSENDX (RR, em_sw_version_info_req); } return TRUE; } /* +------------------------------------------------------------------------------ | Function : em_subclass_pco_bitmap +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_pco_bitmap - defines the actual requested data | | Return : UBYTE +------------------------------------------------------------------------------ */ UBYTE em_subclass_pco_bitmap (U32 em_pco_bitmap) { TRACE_FUNCTION ("em_subclass_pco_bitmap()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ #ifdef GPRS /*check for requested GMM, GRLC, GRR info*/ if(em_pco_bitmap & (EM_PCO_GPRS_INFO | EM_PCO_GMM_INFO | EM_PCO_GRLC_INFO)) { PALLOC(em_pco_trace_req, EM_PCO_TRACE_REQ); /* T_EM_PCO_TRACE_REQ */ em_pco_trace_req->pco_bitmap = em_pco_bitmap; /* the primitive is send to GMM*/ PSENDX(GMM, em_pco_trace_req); } #endif /*GPRS*/ /*check for requested RR info*/ if(em_pco_bitmap & (EM_PCO_SC_INFO | EM_PCO_NC_INFO | EM_PCO_LOC_PAG_INFO | EM_PCO_IDENTITY_INFO | EM_PCO_CIPH_HOP_DTX_INFO | EM_PCO_POWER_INFO | EM_PCO_PLMN_INFO | EM_PCO_SW_VERSION_INFO | EM_PCO_AMR_INFO)) { PALLOC(em_pco_trace_req, EM_PCO_TRACE_REQ); /* T_EM_PCO_TRACE_REQ */ em_pco_trace_req->pco_bitmap = em_pco_bitmap; /* the primitive is send to RR*/ PSENDX(RR, em_pco_trace_req); } #ifdef GPRS if(em_pco_bitmap & EM_PCO_PDP_INFO) { em_pco_pdp_trace_req(); } #endif return TRUE; }/*em_subclass_pco_bitmap*/ /* +------------------------------------------------------------------------------ | Function : em_pco_pdp_trace_req +------------------------------------------------------------------------------ | Description : This function prints PDP configuration on PCO | | Parameters : void | | Return : void +------------------------------------------------------------------------------ */ #ifdef GPRS LOCAL void em_pco_pdp_trace_req(void) { UBYTE c_state,cid; TRACE_FUNCTION ("em_pco_pdp_trace_req()"); TRACE_EVENT_EM_P1("EM_PDP_INFO_REQ: num_ctxts : %d",MAX_CID); for(cid=1;cid<=MAX_PDP_CTXT;cid++) { c_state = get_state_over_cid( cid ); if((c_state EQ CS_UNDEFINED) OR (c_state EQ CS_INVALID_STATE)) TRACE_EVENT_EM_P1("EM_PDP_INFO_REQ: state : %d",c_state); else { TRACE_EVENT_EM_P4("EM_PDP_INFO_REQ: state:%d,pdp_type:%s,apn:%s,pdp address:%s", c_state, pdp_context[cid-1].con.pdp_type, pdp_context[cid-1].con.apn, ((c_state EQ CS_ACTIVATED) OR (c_state EQ CS_DATA_LINK)) ? pdp_context[cid-1].allocated_pdp_addr : pdp_context[cid-1].con.pdp_addr); } } } #endif /* GPRS */ /* +------------------------------------------------------------------------------ | Function : em_subclass_gmm +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ #ifdef GPRS LOCAL UBYTE em_subclass_gmm(UBYTE em_type) { TRACE_FUNCTION ("em_subclass_gmm()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_gmm_info_req, EM_GMM_INFO_REQ); /* T_EM_SC_GPRS_INFO_REQ */ /* fill in primitive parameter: */ /* the bitmask em_type is only used to prevent unnecesary use of primitives*/ em_gmm_info_req->data = em_type; /* the primitive is send to GMM */ PSEND (hCommGMM, em_gmm_info_req); } return TRUE; } #endif /* GPRS */ /* +------------------------------------------------------------------------------ | Function : em_subclass_gmm +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ #ifdef GPRS LOCAL UBYTE em_subclass_grlc(UBYTE em_type) { TRACE_FUNCTION ("em_subclass_grlc()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_subclass_grlc, EM_GRLC_INFO_REQ); /* T_EM_SC_GPRS_INFO_REQ */ /* fill in primitive parameter: */ /* the bitmask em_type is only used to prevent unnecesary use of primitives*/ em_subclass_grlc->data = em_type; /* the primitive is send to GRLC via GMM */ PSEND (hCommGMM, em_subclass_grlc); } return TRUE; } #endif /* GPRS */ /* +------------------------------------------------------------------------------ | Function : em_subclass_amr +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_subclass_amr (UBYTE em_type) { TRACE_FUNCTION ("em_subclass_amr()"); /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_amr_info_req, EM_AMR_INFO_REQ); /* T_EM_AMR_INFO_REQ */ /* fill in primitive parameter: */ /* the bitmask em_type is only used to prevent unnecesary use of primitives*/ em_amr_info_req->data = em_type; /* the primitive directly to RR */ PSENDX (RR, em_amr_info_req); } return TRUE; } /* +------------------------------------------------------------------------------ | Function : em_subclass_pdp +------------------------------------------------------------------------------ | Description : This function displays PDP output directly since the | data is available in ACI itself. | | Parameters : em_type - defines the actual data | | Return : UBYTE +------------------------------------------------------------------------------ */ #ifdef GPRS LOCAL UBYTE em_subclass_pdp (UBYTE em_type) { TRACE_FUNCTION ("em_subclass_pdp()"); em_Received_Data ((void *)NULL, EM_SUBCLASS_PDP); return TRUE; } #endif /* +------------------------------------------------------------------------------ | Function : em_event_l1 +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : bitmask - defines the single events | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_event_l1 (USHORT bitmask_h, ULONG bitmask_l) { TRACE_FUNCTION ("em_event_l1()"); /* check if only specified events are set in the bitmask */ if (!(bitmask_h & ~EM_BITMASK_L1_H)) { /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ PALLOC(em_l1_event_req, EM_L1_EVENT_REQ); /* T_EM_L1_EVENT_REQ */ /* fill in primitive parameter: */ em_l1_event_req->bitmask_l1_h = bitmask_h; em_l1_event_req->bitmask_l1_l = bitmask_l; /* additional information for the mscviewer */ TRACE_PRIM_TO("PL"); /* the primitive is send to PL */ PSENDX (PL, em_l1_event_req); return TRUE; } else /* wrong bitmask */ return EM_DATA_NOT_AVAIL; } /* +------------------------------------------------------------------------------ | Function : em_event_dl +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : bitmask - defines the single events | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_event_dl (USHORT bitmask) { TRACE_FUNCTION ("em_event_dl()"); /* check if only specified events are set in the bitmask */ if (!(bitmask & ~EM_BITMASK_DL)) { /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_dl_event_req, EM_DL_EVENT_REQ); /* T_EM_DL_EVENT_REQ */ /* fill in primitive parameter: */ em_dl_event_req->bitmask_dl = bitmask; /* additional information for the mscviewer */ TRACE_PRIM_TO("DL"); /* the primitive is send to DL via MM */ PSENDX (MM, em_dl_event_req); } return TRUE; } else /* wrong bitmask */ return EM_DATA_NOT_AVAIL; } /* +------------------------------------------------------------------------------ | Function : em_event_rr +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : bitmask - defines the single events | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_event_rr (USHORT bitmask_h, ULONG bitmask_l) { TRACE_FUNCTION ("em_event_rr()"); /* check if only specified events are set in the bitmask */ if (!(bitmask_h & ~EM_BITMASK_RR_H)) { /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_rr_event_req, EM_RR_EVENT_REQ); /* EM_RR_EVENT_REQ */ /* fill in primitive parameter: */ em_rr_event_req->bitmask_rr_h = bitmask_h; em_rr_event_req->bitmask_rr_l = bitmask_l; /* no additional information for the mscviewer is needed here because * RR is the default entity inside the mscview.tbl TRACE_PRIM_TO("RR"); */ /* the primitive is send to RR */ PSENDX (RR, em_rr_event_req); } return TRUE; } else /* wrong bitmask */ return EM_DATA_NOT_AVAIL; } /* +------------------------------------------------------------------------------ | Function : em_event_mm +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : bitmask - defines the single events | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_event_mm (ULONG bitmask) { TRACE_FUNCTION ("em_event_mm()"); /* check if only specified events are set in the bitmask */ if (!(bitmask & ~EM_BITMASK_MM)) { /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_mm_event_req, EM_MM_EVENT_REQ); /* T_EM_MM_EVENT_REQ */ /* fill in primitive parameter: */ em_mm_event_req->bitmask_mm = bitmask; /* additional information for the mscviewer */ TRACE_PRIM_TO("MM"); /* the primitive is send to MM */ PSENDX (MM, em_mm_event_req); } return TRUE; } else /* wrong bitmask */ return EM_DATA_NOT_AVAIL; } /* +------------------------------------------------------------------------------ | Function : em_event_cc +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : bitmask - defines the single events | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_event_cc (ULONG bitmask_h, ULONG bitmask_l) { TRACE_FUNCTION ("em_event_cc()"); /* check if only specified events are set in the bitmask */ if (!(bitmask_h & ~EM_BITMASK_CC_H)) { /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_cc_event_req, EM_CC_EVENT_REQ); /* T_EM_CC_EVENT_REQ */ /* fill in primitive parameter: */ em_cc_event_req->bitmask_cc_h = bitmask_h; em_cc_event_req->bitmask_cc_l = bitmask_l; /* additional information for the mscviewer */ TRACE_PRIM_TO("CC"); /* the primitive is send to CC */ PSENDX (CC, em_cc_event_req); } return TRUE; } else /* wrong bitmask */ return EM_DATA_NOT_AVAIL; } /* +------------------------------------------------------------------------------ | Function : em_event_ss +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : bitmask - defines the single events | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_event_ss (USHORT bitmask) { TRACE_FUNCTION ("em_event_ss()"); /* check if only specified events are set in the bitmask */ if (!(bitmask & ~EM_BITMASK_SS)) { /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_ss_event_req, EM_SS_EVENT_REQ); /* T_EM_SS_EVENT_REQ */ /* fill in primitive parameter: */ em_ss_event_req->bitmask_ss = bitmask; /* additional information for the mscviewer */ TRACE_PRIM_TO("SS"); /* the primitive is send to SS */ PSENDX (SS, em_ss_event_req); } return TRUE; } else /* wrong bitmask */ return EM_DATA_NOT_AVAIL; } /* +------------------------------------------------------------------------------ | Function : em_event_sms +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : bitmask - defines the single events | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_event_sms (ULONG bitmask_h, ULONG bitmask_l) { TRACE_FUNCTION ("em_event_sms()"); /* check if only specified events are set in the bitmask */ if (!(bitmask_h & ~EM_BITMASK_SMS_H)) { /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_sms_event_req, EM_SMS_EVENT_REQ); /* T_EM_SMS_EVENT_REQ */ /* fill in primitive parameter: */ em_sms_event_req->bitmask_sms_h = bitmask_h; em_sms_event_req->bitmask_sms_l = bitmask_l; /* additional information for the mscviewer */ TRACE_PRIM_TO("SMS"); /* the primitive is send to SMS */ PSENDX (SMS, em_sms_event_req); } return TRUE; } else /* wrong bitmask */ return EM_DATA_NOT_AVAIL; } /* +------------------------------------------------------------------------------ | Function : em_event_sim +------------------------------------------------------------------------------ | Description : This function send the appropriate primitive to the involved | entity. | | Parameters : bitmask - defines the single events | | Return : UBYTE +------------------------------------------------------------------------------ */ LOCAL UBYTE em_event_sim (ULONG bitmask) { TRACE_FUNCTION ("em_event_sim()"); /* check if only specified events are set in the bitmask */ if (!(bitmask & ~EM_BITMASK_SIM)) { /* *------------------------------------------------------------------- * create and send primitive *------------------------------------------------------------------- */ { PALLOC(em_sim_event_req, EM_SIM_EVENT_REQ); /* T_EM_SIM_EVENT_REQ */ /* fill in primitive parameter: */ em_sim_event_req->bitmask_sim = bitmask; /* additional information for the mscviewer */ TRACE_PRIM_TO("SIM"); /* the primitive is send to SIM */ PSENDX (SIM, em_sim_event_req); } return TRUE; } else /* wrong bitmask */ return EM_DATA_NOT_AVAIL; } /* +------------------------------------------------------------------------------ | Function : em_aci_sem +------------------------------------------------------------------------------ | Description : Clear all entries inside the semaphor for event tracing | | Parameters : UBYTE entity | | Return : void +------------------------------------------------------------------------------ */ void em_aci_sem (UBYTE entity, UBYTE *buffer, UBYTE buf_index_tmp) { TRACE_FUNCTION ("em_aci_sem()"); /* * aci_em_buf.xxx.index keeps the position of the data inside the buffer * aci_em_buf.xxx.length indicates the length of the data to be copied * both values are used for later processing of the data */ switch (entity) { case (EM_L1): em_l1_sem_read(); memcpy(buffer + em_aci_buf_index, em_l1_sem_buffer, buf_index_tmp); aci_em_buf.alr.index = em_aci_buf_index; aci_em_buf.alr.length = buf_index_tmp; em_aci_buf_index += buf_index_tmp; em_l1_sem_reset (); break; case (EM_DL): em_dl_sem_read(); memcpy(buffer + em_aci_buf_index, em_dl_sem_buffer, buf_index_tmp); aci_em_buf.dl.index = em_aci_buf_index; aci_em_buf.dl.length = buf_index_tmp; em_aci_buf_index += buf_index_tmp; em_dl_sem_reset (); break; case (EM_RR): em_rr_sem_read(); memcpy(buffer + em_aci_buf_index, em_rr_sem_buffer, buf_index_tmp); aci_em_buf.rr.index = em_aci_buf_index; aci_em_buf.rr.length = buf_index_tmp; em_aci_buf_index += buf_index_tmp; em_rr_sem_reset (); break; case (EM_MM): memcpy(buffer + em_aci_buf_index, em_mm_event_buffer, buf_index_tmp); aci_em_buf.mm.index = em_aci_buf_index; aci_em_buf.mm.length = buf_index_tmp; em_aci_buf_index += buf_index_tmp; em_mm_buffer_write = 0; break; case (EM_CC): memcpy(buffer + em_aci_buf_index, em_cc_event_buffer, buf_index_tmp); aci_em_buf.cc.index = em_aci_buf_index; aci_em_buf.cc.length = buf_index_tmp; em_aci_buf_index += buf_index_tmp; em_cc_buffer_write = 0; break; case (EM_SS): memcpy(buffer + em_aci_buf_index, em_ss_event_buffer, buf_index_tmp); aci_em_buf.ss.index = em_aci_buf_index; aci_em_buf.ss.length = buf_index_tmp; em_aci_buf_index += buf_index_tmp; em_ss_buffer_write = 0; break; case (EM_SMS): memcpy(buffer + em_aci_buf_index, em_sms_event_buffer, buf_index_tmp); aci_em_buf.sms.index = em_aci_buf_index; aci_em_buf.sms.length = buf_index_tmp; em_aci_buf_index += buf_index_tmp; em_sms_buffer_write = 0; break; case (EM_SIM): memcpy(buffer + em_aci_buf_index, em_sim_event_buffer, buf_index_tmp); aci_em_buf.sim.index = em_aci_buf_index; aci_em_buf.sim.length = buf_index_tmp; em_aci_buf_index += buf_index_tmp; em_sim_buffer_write = 0; break; default: break; } /* switch */ } /* endfunc em_aci_sem */ /* +------------------------------------------------------------------------------ | Function : em_event_trace_ind +------------------------------------------------------------------------------ | Description : When event tracing is enabled, the entity sends a notification | that the first event occurred. The event flag (em_xx_trace) | protects unnecessary buffer operations. | | Parameters : Entity | | Return : void +------------------------------------------------------------------------------ */ GLOBAL const void em_event_trace_ind (T_EM_DATA_IND * em_data_ind) { TRACE_FUNCTION ("em_event_trace_ind()"); switch (em_data_ind->entity) { case EM_L1: em_l1_trace = TRUE; break; case EM_DL: em_dl_trace = TRUE; break; case EM_RR: em_rr_trace = TRUE; break; case EM_MM: em_mm_trace = TRUE; break; case EM_CC: em_cc_trace = TRUE; break; case EM_SS: em_ss_trace = TRUE; break; case EM_SMS: em_sms_trace = TRUE; break; case EM_SIM: em_sim_trace = TRUE; break; default: break; } /* switch */ PFREE(em_data_ind); } /*+++++++++++++++++++++++++++++++++++++++++ E O F +++++++++++++++++++++++++++++++++++++++++*/