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view src/g23m-gsm/sim/sim_app.c @ 254:cae495752cf7
top README: update for the FCDEV3B
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Thu, 03 Aug 2017 19:18:16 +0000 |
parents | 27a4235405c6 |
children | 41f2cc21bca9 |
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/* +----------------------------------------------------------------------------- | Project : GSM-F&D (8411) | Modul : SIM_APP +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : This modul defines the SIM Application. +----------------------------------------------------------------------------- */ #ifndef SIM_APP_C #define SIM_APP_C #define ENTITY_SIM /*==== INCLUDES ===================================================*/ #include <string.h> #include "typedefs.h" #include "pcm.h" #include "pconst.cdg" #include "message.h" #include "ccdapi.h" #include "vsi.h" #include "custom.h" #include "gsm.h" #include "cnf_sim.h" #include "mon_sim.h" #include "prim.h" #include "pei.h" #include "tok.h" #include "sim.h" #include "sim_em.h" #ifdef TI_PS_UICC_CHIPSET_15 #include "8010_136_SIMDRV_SAP_inline.h" #endif /*==== EXPORT =====================================================*/ /*==== PRIVAT =====================================================*/ /*==== VARIABLES ==================================================*/ GLOBAL T_FIELD_STATUS field_status; /*==== FUNCTIONS ==================================================*/ LOCAL UBYTE app_read_sim_service_table (T_SIM_MMI_INSERT_IND * sim_mmi_insert_ind); LOCAL USHORT app_get_ef_size(USHORT service, USHORT ef_name, UBYTE* res); #ifdef TI_PS_UICC_CHIPSET_15 GLOBAL void app_sim_insert( T_SIMDRV_atr_string_info *atr_string_info, U8 config_requested, T_SIMDRV_config_characteristics *config_characteristics); #ifdef _SIMULATION_ GLOBAL UBYTE sim_command_type; #endif #endif /* TI_PS_UICC_CHIPSET_15 */ #ifndef TI_PS_UICC_CHIPSET_15 #define SIMDRV_MAX_RESULT 0x100 #endif /* Implements Measure# 2 to 8 */ /* Table */ #ifdef TI_PS_HCOMM_CHANGE T_HANDLE const hComm_mux[] = {_hCommMMI, _hCommMM, _hCommSMS}; #else T_HANDLE* const hComm_mux[] = {&sim_hCommMMI, &sim_hCommMM, &sim_hCommSMS}; #endif /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS MODULE : SIM_APP | | STATE : code ROUTINE : app_get_ef_size | +--------------------------------------------------------------------+ PURPOSE : Return size of the Elementory file. If Elementory file is not present return 0. */ LOCAL USHORT app_get_ef_size(USHORT service, USHORT ef_name, UBYTE *res) { if (SIM_IS_FLAG_SET (service)) { T_FIELD_STATUS field_status; if (FKT_Select (ef_name, FALSE, NULL, res, SIM_MIN_EF_ST_LEN) EQ SIM_NO_ERROR) { memcpy(&field_status, res, SIM_MIN_EF_ST_LEN); return((((USHORT)field_status.field_size[0]) << 8) | (USHORT)field_status.field_size[1]); } } return 0; } /* Implements Measure# 18 */ /* +----------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_read_n_update_req | +----------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_READ_REQ and SIM_UPDATE_REQ */ LOCAL void app_sim_read_n_update_req(USHORT *cause, USHORT *datafield, UBYTE rd_upd_access, U8 *v_path_info, T_path_info *path_info) { UBYTE response[SIMDRV_MAX_RESULT]; TRACE_FUNCTION ("app_sim_read_n_update_req()"); /* if SIM is inserted, try to select the SIM card.*/ *cause = FKT_Select (*datafield, *v_path_info, path_info, response, SIM_MIN_EF_ST_LEN); if (*cause EQ SIM_NO_ERROR) { memcpy(&field_status, response, SIM_MIN_EF_ST_LEN); sim_data.act_length = (USHORT)field_status.field_size[0] * 256 + field_status.field_size[1]; } if ((*cause EQ SIM_NO_ERROR) OR (*cause EQ SIM_NO_ERR_FILE_ALREADY_SELECTED)) { /* field_status is global and has been updated either * in "if" above or during previous operation on same file */ if (!(sim_data.act_access = app_check_access_conditions (rd_upd_access, &field_status))) { /* access not allowed */ *cause = SIM_CAUSE_ACCESS_PROHIBIT; } else { *cause = SIM_NO_ERROR; } } } /* Implements Measure# 14 */ /* +-------------------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_activate_req_fdn_enable | +-------------------------------------------------------------------------------+ PURPOSE : Process the SIM activate req for FDN ENABLE and FDN DISABLE cases */ LOCAL void app_sim_activate_req_fdn_enable(BOOL sim_fdn_en) { ULONG support_flag, service_flag; USHORT error, (*FKT_FuncPtr)(void); TRACE_FUNCTION ("app_sim_activate_req_fdn_enable()"); if(sim_fdn_en EQ TRUE) { support_flag = ADN_SUPPORT_BY_SIM; service_flag = SERVICE_3_SUPPORT; FKT_FuncPtr = FKT_Invalidate ; } else { support_flag = FDN_SUPPORT_BY_SIM; service_flag = SERVICE_2_SUPPORT; FKT_FuncPtr = FKT_Rehabilitate ; } if (SIM_IS_FLAG_SET (support_flag)) { if (SIM_IS_FLAG_SET (service_flag)) { sim_data.last_requested_pin_no = LRP_PIN_2; error = FKT_Select (SIM_ADN, FALSE, NULL, NULL, 0); if (error EQ SIM_NO_ERROR OR error EQ SIM_NO_ERR_FILE_ALREADY_SELECTED) { error = FKT_FuncPtr(); if (error EQ SIM_NO_ERROR) { if(sim_fdn_en EQ FALSE) { if (!app_check_imsi_loci_validation()) { if (!app_rehabilitate_imsi_loci()) { app_sim_card_error (SIM_CAUSE_EF_INVALID); return ; /* return is replaced for break */ } } SIM_SET_FLAG (ADN_SUPPORT_BY_SIM); } else SIM_SET_FLAG (FDN_SUPPORT_BY_SIM); SIM_CLEAR_FLAG (support_flag); app_sim_card_error (SIM_NO_ERROR); } else app_sim_card_error (error); } else app_sim_card_error (error); if(sim_fdn_en EQ TRUE) { SIM_EM_FDN_ENABLE; } else { SIM_EM_ADN_ENABLE; } } else app_sim_card_error (SIM_CAUSE_ACCESS_PROHIBIT); } else app_sim_card_error (SIM_NO_ERROR); } /* * ------------------------------------------------------------------- * PRIMITIVE Processing functions * ------------------------------------------------------------------- */ /*lint -e720 (boolean test of assignment) */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_init_sim_data | +--------------------------------------------------------------------+ PURPOSE : Initialize the SIM data for the module application. */ GLOBAL void app_init_sim_data (void) { #ifdef SIM_TOOLKIT int i; #endif TRACE_FUNCTION ("app_init_sim_data()"); /* * initialize all internal flags */ sim_data.flags = 0; sim_data.last_requested_pin_no = LRP_NONE; /* sim_data.pin_no_puct = NOT_PRESENT_8BIT; sim_data.pin_no_acm = NOT_PRESENT_8BIT; sim_data.pin_no_acmmax = NOT_PRESENT_8BIT; */ sim_data.act_directory = NOT_PRESENT_16BIT; sim_data.act_field = NOT_PRESENT_16BIT; sim_data.remove_error = SIM_CAUSE_CARD_REMOVED; #ifdef SIM_TOOLKIT sim_data.sync_awaited = 0; /* startup with idle polling, after 11.11[11.2.8] */ sim_data.idle_polling = TRUE; for (i = 0; i < MAX_SAT_TIMER; i++) { sim_data.timer[i].active = FALSE; } #endif #ifndef TI_PS_UICC_CHIPSET_15 SIM_Init (app_sim_insert, app_sim_remove); #else simdrv_register(app_sim_insert, app_sim_remove); #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_read_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_READ_REQ. */ GLOBAL void app_sim_read_req (T_SIM_READ_REQ * sim_read_req) { USHORT source; PALLOC (sim_read_cnf, SIM_READ_CNF); TRACE_FUNCTION ("app_sim_read_req()"); // initialize answer source = sim_read_req->source; sim_read_cnf->req_id = sim_read_req->req_id; if (SIM_IS_FLAG_SET (SIM_INSERT)) { /* * If unknown length request, a Select must be * carried out in any case to determine real length */ if (sim_read_req->length EQ NOT_PRESENT_8BIT) { sim_data.act_field = NOT_PRESENT_16BIT; } /* Implements Measure# 18 */ app_sim_read_n_update_req(&sim_read_cnf->cause, &sim_read_req->datafield, ACCESS_READ,&sim_read_req->v_path_info ,&sim_read_req->path_info); if (sim_read_cnf->cause EQ SIM_NO_ERROR) { if (sim_read_req->length EQ NOT_PRESENT_8BIT) { // unknown length, must be calculated by the entity if (sim_read_req->offset < sim_data.act_length) { sim_read_cnf->length = (UBYTE)(sim_data.act_length - sim_read_req->offset); } else { // incorrect offset sim_read_cnf->cause = SIM_CAUSE_PARAM_WRONG; } } else { sim_read_cnf->length = sim_read_req->length; // check given length if (((USHORT)sim_read_req->offset + sim_read_req->length) <= sim_data.act_length) { sim_read_cnf->length = sim_read_req->length; } else { // incorrect offset and/or length sim_read_cnf->cause = SIM_CAUSE_PARAM_WRONG; } } } } else { // sim is not inserted sim_read_cnf->cause = SIM_CAUSE_CARD_REMOVED; } if (sim_read_cnf->cause EQ SIM_NO_ERROR) { // cut length if needed if ((sim_read_req->max_length > 0) AND (sim_read_cnf->length > sim_read_req->max_length)) sim_read_cnf->length = sim_read_req->max_length; // length is available then read and start status timer again sim_read_cnf->cause = FKT_ReadBinary (sim_read_cnf->trans_data, sim_read_req->offset, (USHORT)sim_read_cnf->length); app_start_status_timer (FALSE); } else { sim_read_cnf->length = 0; memset (sim_read_cnf->trans_data, 0, sizeof (sim_read_cnf->trans_data)); } SIM_EM_READ_BINARY_FILE; // free incoming primitive PFREE (sim_read_req); /* Implements Measure# 2 */ #ifdef TI_PS_HCOMM_CHANGE vsi_c_psend (hComm_mux[source], (T_VOID_STRUCT*) sim_read_cnf FILE_LINE_MACRO); #else vsi_c_psend (*hComm_mux[source], (T_VOID_STRUCT*) sim_read_cnf FILE_LINE_MACRO); #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_read_record_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_READ_RECORD_REQ. */ GLOBAL void app_sim_read_record_req (T_SIM_READ_RECORD_REQ * sim_read_record_req) { USHORT source; UBYTE response[SIMDRV_MAX_RESULT]; PALLOC (sim_read_record_cnf, SIM_READ_RECORD_CNF); TRACE_FUNCTION ("app_sim_read_record_req()"); source = sim_read_record_req->source; sim_read_record_cnf->req_id = sim_read_record_req->req_id; sim_read_record_cnf->max_record = 0; if (SIM_IS_FLAG_SET (SIM_INSERT)) { sim_read_record_cnf->cause = FKT_Select (sim_read_record_req->datafield, sim_read_record_req->v_path_info, &sim_read_record_req->path_info, response, SIM_MIN_EF_ST_LEN); if (sim_read_record_cnf->cause EQ SIM_NO_ERROR) { USHORT total_length; memcpy(&field_status,response,SIM_MIN_EF_ST_LEN); sim_data.field_type = field_status.field_type; sim_data.act_length = (USHORT)field_status.record_length; total_length = (USHORT)field_status.field_size[0] * 256 + field_status.field_size[1]; if (field_status.record_length) { sim_read_record_cnf->max_record = total_length / field_status.record_length; } else { sim_read_record_cnf->max_record = 1; /* don't divide by zero */ } sim_data.max_record = sim_read_record_cnf->max_record; } if ((sim_read_record_cnf->cause EQ SIM_NO_ERROR) OR (sim_read_record_cnf->cause EQ SIM_NO_ERR_FILE_ALREADY_SELECTED)) { /* field_status is global and has been updated either * in "if" above or during previous operation on same file */ if (!(sim_data.act_access = app_check_access_conditions (ACCESS_READ, &field_status))) { sim_read_record_cnf->cause = SIM_CAUSE_ACCESS_PROHIBIT; } else if ((sim_read_record_req->record EQ 0) OR (sim_read_record_req->record > sim_data.max_record)) { sim_read_record_cnf->cause = SIM_CAUSE_ADDR_WRONG; } else { sim_read_record_cnf->cause = SIM_NO_ERROR; sim_read_record_cnf->max_record = sim_data.max_record; sim_read_record_cnf->length = (sim_read_record_req->length > (UBYTE)sim_data.act_length)? (UBYTE)sim_data.act_length: sim_read_record_req->length; } } } else { sim_read_record_cnf->cause = SIM_CAUSE_CARD_REMOVED; } if (sim_read_record_cnf->cause EQ SIM_NO_ERROR) { sim_read_record_cnf->cause = FKT_ReadRecord (sim_read_record_cnf->linear_data, 4, sim_read_record_req->record, (USHORT)sim_data.act_length); app_start_status_timer (FALSE); } else { sim_read_record_cnf->length = 0; memset (sim_read_record_cnf->linear_data, 0, sizeof (sim_read_record_cnf->linear_data)); } SIM_EM_READ_RECORD_FILE; PFREE (sim_read_record_req); /* Implements Measure# 2 */ #ifdef TI_PS_HCOMM_CHANGE vsi_c_psend (hComm_mux[source], (T_VOID_STRUCT*) sim_read_record_cnf FILE_LINE_MACRO); #else vsi_c_psend (*hComm_mux[source], (T_VOID_STRUCT*) sim_read_record_cnf FILE_LINE_MACRO); #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_update_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_UPDATE_REQ. */ GLOBAL void app_sim_update_req (T_SIM_UPDATE_REQ * sim_update_req) { USHORT source; PALLOC (sim_update_cnf, SIM_UPDATE_CNF); TRACE_FUNCTION ("app_sim_update_req()"); source = sim_update_req->source; sim_update_cnf->req_id = sim_update_req->req_id; sim_update_cnf->cause = SIM_NO_ERROR; if (SIM_IS_FLAG_SET (SIM_INSERT)) { /* Implements Measure# 18 */ app_sim_read_n_update_req(&sim_update_cnf->cause, &sim_update_req->datafield, ACCESS_UPDATE,&sim_update_req->v_path_info ,&sim_update_req->path_info) ; if (sim_update_cnf->cause EQ SIM_NO_ERROR) { if ((sim_update_req->offset + (USHORT)sim_update_req->length) > sim_data.act_length) { sim_update_cnf->cause = SIM_CAUSE_PARAM_WRONG; } else { sim_update_cnf->cause = FKT_UpdateBinary (sim_update_req->trans_data, (USHORT)sim_update_req->length, sim_update_req->offset); app_start_status_timer (FALSE); if ((sim_update_cnf->cause EQ SIM_NO_ERROR) AND (sim_update_req->v_path_info EQ FALSE)) { switch(sim_update_req->datafield) { case SIM_PLMNSEL: if (SIM_IS_FLAG_SET (SERVICE_7_SUPPORT)) { /* * MM should be notified about the changed file so that MM can read this file. */ PALLOC (sim_mm_info_ind, SIM_MM_INFO_IND); sim_mm_info_ind->datafield = sim_update_req->datafield; PSENDX (MM, sim_mm_info_ind); } break; #ifdef REL99 case SIM_UCPS_ACTEC: if (SIM_IS_FLAG_SET (SERVICE_43_SUPPORT)) { /* * MM should be notified about the changed file so that MM can read this file. */ PALLOC (sim_mm_info_ind, SIM_MM_INFO_IND); sim_mm_info_ind->datafield = sim_update_req->datafield; PSENDX (MM, sim_mm_info_ind); } break; #endif default: break; } } } } } else { sim_update_cnf->cause = SIM_CAUSE_CARD_REMOVED; } SIM_EM_UPDATE_BINARY_FILE; PFREE (sim_update_req); #ifdef TI_PS_HCOMM_CHANGE vsi_c_psend (hComm_mux[source], (T_VOID_STRUCT*) sim_update_cnf FILE_LINE_MACRO); #else vsi_c_psend (*hComm_mux[source], (T_VOID_STRUCT*) sim_update_cnf FILE_LINE_MACRO); #endif /* Implements Measure# 3 */ } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_update_record_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_UPDATE_RECORD_REQ. */ GLOBAL void app_sim_update_record_req (T_SIM_UPDATE_RECORD_REQ * sim_update_record_req) { USHORT source; UBYTE response[SIMDRV_MAX_RESULT]; PALLOC (sim_update_record_cnf, SIM_UPDATE_RECORD_CNF); TRACE_FUNCTION ("app_sim_update_record_req()"); source = sim_update_record_req->source; sim_update_record_cnf->req_id = sim_update_record_req->req_id; if (SIM_IS_FLAG_SET (SIM_INSERT)) { sim_update_record_cnf->cause = FKT_Select (sim_update_record_req->datafield, sim_update_record_req->v_path_info, &sim_update_record_req->path_info, response,SIM_MIN_EF_ST_LEN); if (sim_update_record_cnf->cause EQ SIM_NO_ERROR) { USHORT total_length; memcpy(&field_status,response,SIM_MIN_EF_ST_LEN); sim_data.field_type = field_status.field_type; sim_data.act_length = (USHORT)field_status.record_length; total_length = (USHORT)field_status.field_size[0] * 256 + (USHORT)field_status.field_size[1]; if (field_status.record_length) { sim_data.max_record = (UBYTE)(total_length / field_status.record_length); } else { sim_data.max_record = 1; /* don't divide by zero */ } } if ((sim_update_record_cnf->cause EQ SIM_NO_ERROR) OR (sim_update_record_cnf->cause EQ SIM_NO_ERR_FILE_ALREADY_SELECTED)) { /* field_status is global and has been updated either * in "if" above or during previous operation on same file */ if (!(sim_data.act_access = app_check_access_conditions (ACCESS_UPDATE, &field_status))) { sim_update_record_cnf->cause = SIM_CAUSE_ACCESS_PROHIBIT; } else if ((sim_update_record_req->length > sim_data.act_length) OR ((sim_data.field_type EQ LINEAR_FIXED) AND (sim_update_record_req->record EQ 0)) OR (sim_update_record_req->record > sim_data.max_record)) { sim_update_record_cnf->cause = SIM_CAUSE_ADDR_WRONG; } else { if (sim_data.field_type EQ LINEAR_FIXED) { sim_update_record_cnf->cause = FKT_UpdateRecord (sim_update_record_req->linear_data, (USHORT)sim_update_record_req->length, 4, sim_update_record_req->record); } else { /* * Cyclic file */ sim_update_record_cnf->cause = FKT_UpdateRecord (sim_update_record_req->linear_data, (USHORT)sim_update_record_req->length, 3, 0); } app_start_status_timer (FALSE); } } } else { sim_update_record_cnf->cause = SIM_CAUSE_CARD_REMOVED; } SIM_EM_UPDATE_RECORD; PFREE (sim_update_record_req); /* Implements Measure# 4 */ #ifdef TI_PS_HCOMM_CHANGE vsi_c_psend (hComm_mux[source], (T_VOID_STRUCT*) sim_update_record_cnf FILE_LINE_MACRO); #else vsi_c_psend (*hComm_mux[source], (T_VOID_STRUCT*) sim_update_record_cnf FILE_LINE_MACRO); #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_increment_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_INCREMENT_REQ. */ GLOBAL void app_sim_increment_req (T_SIM_INCREMENT_REQ * sim_increment_req) { USHORT source; UBYTE response[SIMDRV_MAX_RESULT]; PALLOC (sim_increment_cnf, SIM_INCREMENT_CNF); TRACE_FUNCTION ("app_sim_increment_req()"); source = sim_increment_req->source; sim_increment_cnf->req_id = sim_increment_req->req_id; if (SIM_IS_FLAG_SET (SIM_INSERT)) { sim_increment_cnf->cause = FKT_Select (sim_increment_req->datafield, sim_increment_req->v_path_info, &sim_increment_req->path_info, response,SIM_MIN_EF_ST_LEN ); if (sim_increment_cnf->cause EQ SIM_NO_ERROR) { memcpy(&field_status,response,SIM_MIN_EF_ST_LEN); sim_data.field_type = field_status.field_type; } if ((sim_increment_cnf->cause EQ SIM_NO_ERROR) OR (sim_increment_cnf->cause EQ SIM_NO_ERR_FILE_ALREADY_SELECTED)) { /* field_status is global and has been updated either * in "if" above or during previous operation on same file */ if (!(sim_data.act_access = app_check_access_conditions (ACCESS_INCREASE, &field_status))) { sim_increment_cnf->cause = SIM_CAUSE_ACCESS_PROHIBIT; } else { sim_increment_cnf->cause = SIM_NO_ERROR; } } } else { sim_increment_cnf->cause = SIM_CAUSE_CARD_REMOVED; } if (sim_increment_cnf->cause EQ SIM_NO_ERROR) { sim_increment_cnf->cause = FKT_Increase (sim_increment_req->linear_data); sim_increment_cnf->length = 0; /* sim_increment_req ->length; */ app_start_status_timer (FALSE); } else { memset (&sim_increment_cnf->linear_data, 0, sizeof (sim_increment_cnf->linear_data)); sim_increment_cnf->length = 0; } SIM_EM_INCREMENT_FILE; PFREE (sim_increment_req); /* Implements Measure# 5 */ #ifdef TI_PS_HCOMM_CHANGE vsi_c_psend (hComm_mux[source], (T_VOID_STRUCT*) sim_increment_cnf FILE_LINE_MACRO); #else vsi_c_psend (*hComm_mux[source], (T_VOID_STRUCT*) sim_increment_cnf FILE_LINE_MACRO); #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_verify_pin_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_VERIFY_PIN_REQ. */ GLOBAL void app_sim_verify_pin_req (T_SIM_VERIFY_PIN_REQ * sim_verify_pin_req) { USHORT source; /* which entity has requested */ USHORT error; /* result of operation */ /* * allocate buffer for answer */ PALLOC (sim_verify_pin_cnf, SIM_VERIFY_PIN_CNF); TRACE_FUNCTION ("app_sim_verify_pin_req()"); SIM_EM_VERIFY_PIN; /* * fill the answer */ memset (sim_verify_pin_cnf, 0, sizeof(T_SIM_VERIFY_PIN_CNF)); source = sim_verify_pin_req->source; sim_verify_pin_cnf->pin_id = sim_verify_pin_req->pin_id; sim_data.last_requested_pin_no = sim_verify_pin_req->pin_id; /* * use SIM driver call for verification */ if (SIM_IS_FLAG_SET (SIM_INSERT)) { error = FKT_VerifyCHV (sim_verify_pin_req->pin, sim_verify_pin_req->pin_id); } else error = SIM_CAUSE_CARD_REMOVED; /* * deallocate incoming primitive */ PFREE (sim_verify_pin_req); /* * check actual pin/puk counts */ FKT_Status (&sim_verify_pin_cnf->pin_cnt, &sim_verify_pin_cnf->pin2_cnt, &sim_verify_pin_cnf->puk_cnt, &sim_verify_pin_cnf->puk2_cnt); /* * fill results for answer */ sim_verify_pin_cnf->cause = error; /* Implements Measure# 6 */ #ifdef TI_PS_HCOMM_CHANGE vsi_c_psend (hComm_mux[source], (T_VOID_STRUCT*) sim_verify_pin_cnf FILE_LINE_MACRO); #else vsi_c_psend (*hComm_mux[source], (T_VOID_STRUCT*) sim_verify_pin_cnf FILE_LINE_MACRO); #endif /* * during initialization start * remaining part of initialisation procedure * */ if (error EQ SIM_NO_ERROR) { if (SIM_IS_FLAG_CLEARED (MM_KNOWS_FROM_SIM)) { app_sim_read_parameters (); app_start_status_timer (TRUE); } else app_start_status_timer (FALSE); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_change_pin_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_CHANGE_PIN_REQ. */ GLOBAL void app_sim_change_pin_req (T_SIM_CHANGE_PIN_REQ * sim_change_pin_req) { USHORT source; PALLOC (sim_change_pin_cnf, SIM_CHANGE_PIN_CNF); TRACE_FUNCTION ("app_sim_change_pin_req()"); SIM_EM_CHANGE_PIN; source = sim_change_pin_req->source; sim_change_pin_cnf->pin_id = sim_change_pin_req->pin_id; sim_data.last_requested_pin_no = sim_change_pin_req->pin_id; if (SIM_IS_FLAG_SET (SIM_INSERT)) { sim_change_pin_cnf->cause = FKT_ChangeCHV (sim_change_pin_req->old_pin, sim_change_pin_req->new_pin, sim_change_pin_req->pin_id); app_start_status_timer (FALSE); } else sim_change_pin_cnf->cause = SIM_CAUSE_CARD_REMOVED; PFREE (sim_change_pin_req); /* * check actual pin/puk counts */ FKT_Status (&sim_change_pin_cnf->pin_cnt, &sim_change_pin_cnf->pin2_cnt, &sim_change_pin_cnf->puk_cnt, &sim_change_pin_cnf->puk2_cnt); /* Implements Measure# 7 */ #ifdef TI_PS_HCOMM_CHANGE vsi_c_psend (hComm_mux[source], (T_VOID_STRUCT*) sim_change_pin_cnf FILE_LINE_MACRO); #else vsi_c_psend (*hComm_mux[source], (T_VOID_STRUCT*) sim_change_pin_cnf FILE_LINE_MACRO); #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_disable_pin_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_DISABLE_PIN_REQ. */ GLOBAL void app_sim_disable_pin_req (T_SIM_DISABLE_PIN_REQ * sim_disable_pin_req) { USHORT source; PALLOC (sim_disable_pin_cnf, SIM_DISABLE_PIN_CNF); TRACE_FUNCTION ("app_sim_disable_pin_req()"); SIM_EM_DISABLE_PIN; /* * store source of request */ source = sim_disable_pin_req->source; if (SIM_IS_FLAG_SET (SIM_INSERT)) { /* * only if a SIM card is inserted */ if (SIM_IS_FLAG_SET (SIM_PIN_FLAG)) { /* * CHV1 entering was necessary, that means not disabled */ if (SIM_IS_FLAG_SET (SERVICE_1_SUPPORT)) { /* * SIM card supports disabling of CHV1 */ sim_data.last_requested_pin_no = LRP_PIN_1; sim_disable_pin_cnf->cause = FKT_DisableCHV (sim_disable_pin_req->pin); app_start_status_timer (FALSE); } else sim_disable_pin_cnf->cause = SIM_CAUSE_ACCESS_PROHIBIT; } else sim_disable_pin_cnf->cause = SIM_NO_ERROR; } else sim_disable_pin_cnf->cause = SIM_CAUSE_CARD_REMOVED; if (sim_disable_pin_cnf->cause EQ SIM_NO_ERROR) { SIM_CLEAR_FLAG (SIM_PIN_FLAG); } PFREE (sim_disable_pin_req); /* * check actual pin/puk counts */ FKT_Status (&sim_disable_pin_cnf->pin_cnt, &sim_disable_pin_cnf->pin2_cnt, &sim_disable_pin_cnf->puk_cnt, &sim_disable_pin_cnf->puk2_cnt); /* Implements Measure# 2 to 8 */ #ifdef TI_PS_HCOMM_CHANGE vsi_c_psend (hComm_mux[source], (T_VOID_STRUCT*) sim_disable_pin_cnf FILE_LINE_MACRO); #else vsi_c_psend (*hComm_mux[source], (T_VOID_STRUCT*) sim_disable_pin_cnf FILE_LINE_MACRO); #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_enable_pin_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_ENABLE_PIN_REQ. */ GLOBAL void app_sim_enable_pin_req (T_SIM_ENABLE_PIN_REQ * sim_enable_pin_req) { USHORT source; PALLOC (sim_enable_pin_cnf, SIM_ENABLE_PIN_CNF); TRACE_FUNCTION ("app_sim_enable_pin_req()"); SIM_EM_ENABLE_PIN; source = sim_enable_pin_req->source; if (SIM_IS_FLAG_SET (SIM_INSERT)) { if (SIM_IS_FLAG_SET (SIM_PIN_FLAG)) sim_enable_pin_cnf->cause = SIM_NO_ERROR; else { sim_data.last_requested_pin_no = LRP_PIN_1; sim_enable_pin_cnf->cause = FKT_EnableCHV (sim_enable_pin_req->pin); app_start_status_timer (FALSE); } } else sim_enable_pin_cnf->cause = SIM_CAUSE_CARD_REMOVED; if (sim_enable_pin_cnf->cause EQ SIM_NO_ERROR) { SIM_SET_FLAG (SIM_PIN_FLAG); } PFREE (sim_enable_pin_req); /* * check actual pin/puk counts */ FKT_Status (&sim_enable_pin_cnf->pin_cnt, &sim_enable_pin_cnf->pin2_cnt, &sim_enable_pin_cnf->puk_cnt, &sim_enable_pin_cnf->puk2_cnt); /* Implements Measure# 2 to 8 */ #ifdef TI_PS_HCOMM_CHANGE vsi_c_psend (hComm_mux[source], (T_VOID_STRUCT*) sim_enable_pin_cnf FILE_LINE_MACRO); #else vsi_c_psend (*hComm_mux[source], (T_VOID_STRUCT*) sim_enable_pin_cnf FILE_LINE_MACRO); #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_unblock_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_UNBLOCK_REQ. */ GLOBAL void app_sim_unblock_req (T_SIM_UNBLOCK_REQ * sim_unblock_req) { USHORT source; USHORT error; PALLOC (sim_unblock_cnf, SIM_UNBLOCK_CNF); TRACE_FUNCTION ("app_sim_unblock_req()"); SIM_EM_UNBLOCK_PIN; /* * fill the answer */ memset (sim_unblock_cnf, 0, sizeof(T_SIM_VERIFY_PIN_CNF)); source = sim_unblock_req->source; sim_unblock_cnf->pin_id = sim_unblock_req->pin_id; if (SIM_IS_FLAG_SET (SIM_INSERT)) { if (sim_unblock_req->pin_id EQ PHASE_2_PUK_2) { sim_unblock_req->pin_id = UNBL_CHV2; /* PUK2 */ sim_data.last_requested_pin_no = LRP_PUK_2; } else { sim_unblock_req->pin_id = UNBL_CHV1; /* PUK1 */ sim_data.last_requested_pin_no = LRP_PUK_1; } error = FKT_UnblockCHV (sim_unblock_req->unblock_key, sim_unblock_req->pin, sim_unblock_req->pin_id); } else error = SIM_CAUSE_CARD_REMOVED; /* * deallocate incoming primitive */ PFREE (sim_unblock_req); /* * check actual pin/puk counts regardless the outcome of * of the UNBLOCK operation */ FKT_Status (&sim_unblock_cnf->pin_cnt, &sim_unblock_cnf->pin2_cnt, &sim_unblock_cnf->puk_cnt, &sim_unblock_cnf->puk2_cnt); /* * after a successful UNBLOCK of CHV1 the PIN is enabled, * otherwise its state remains unchanged */ if (error EQ SIM_NO_ERROR AND sim_data.last_requested_pin_no EQ LRP_PUK_1) { SIM_SET_FLAG (SIM_PIN_FLAG); } /* * fill results for answer */ sim_unblock_cnf->cause = error; /* Implements Measure# 8 */ #ifdef TI_PS_HCOMM_CHANGE vsi_c_psend (hComm_mux[source], (T_VOID_STRUCT*) sim_unblock_cnf FILE_LINE_MACRO); #else vsi_c_psend (*hComm_mux[source], (T_VOID_STRUCT*) sim_unblock_cnf FILE_LINE_MACRO); #endif /* * during initialization start * remaining part of initialisation procedure * */ if (error EQ SIM_NO_ERROR) { if (SIM_IS_FLAG_CLEARED (MM_KNOWS_FROM_SIM)) { app_sim_read_parameters (); app_start_status_timer (TRUE); } else app_start_status_timer (FALSE); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_auth_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_AUTHENTICATION_REQ. */ GLOBAL void app_sim_auth_req (T_SIM_AUTHENTICATION_REQ * sim_authentication_req) { USHORT error; USHORT source; T_SRES_KC sres_kc; T_kc_n kc_n; UBYTE response[SIMDRV_MAX_RESULT]; PALLOC (sim_authentication_cnf, SIM_AUTHENTICATION_CNF); TRACE_FUNCTION ("app_sim_auth_req()"); SIM_EM_AUTHENTICATION; memset(response, 0, SIMDRV_MAX_RESULT); source = sim_authentication_req->source; kc_n.kc[MAX_KC] = sim_authentication_req->cksn; sim_authentication_cnf->req_id = sim_authentication_req->req_id; if (SIM_IS_FLAG_SET (GSM_DATAFIELD)) error = FKT_Select (SIM_DF_GSM, FALSE, NULL, NULL, 0); else error = FKT_Select (SIM_DF_1800, FALSE, NULL, NULL, 0); if ((error EQ SIM_NO_ERROR) OR (error EQ SIM_NO_ERR_FILE_ALREADY_SELECTED)) error = FKT_RunGSMAlgo (sim_authentication_req->rand, response, SIM_GSM_ALG_LEN); if (error EQ SIM_NO_ERROR) { memcpy(&sres_kc,response,SIM_GSM_ALG_LEN); app_start_status_timer (FALSE); } if (error EQ SIM_NO_ERROR) { int i; /*lint -e{645} (when if statement TRUE, then 'sres_kc' valid) */ memcpy (sim_authentication_cnf->sres, sres_kc.sres, 4); for (i = 0; i < MAX_KC; i++) sim_authentication_cnf->kc[(MAX_KC-1)-i] = kc_n.kc[i] = sres_kc.kc[i]; switch (source) { #if defined (GPRS) case SRC_GMM: PSENDX (GMM, sim_authentication_cnf); if (SIM_IS_FLAG_SET (SERVICE_38_SUPPORT)) { error = FKT_Select (SIM_KCGPRS, FALSE, NULL, NULL, 0); /* use SIM */ if(error EQ SIM_NO_ERR_FILE_ALREADY_SELECTED) error = SIM_NO_ERROR; } else { /* use PCM */ T_imsi_field sim_imsi; error = FKT_Select (SIM_IMSI, FALSE, NULL, NULL, 0); if ((error EQ SIM_NO_ERROR OR error EQ SIM_NO_ERR_FILE_ALREADY_SELECTED) AND FKT_ReadBinary ((UBYTE *)&sim_imsi, 0, MAX_IMSI) EQ SIM_NO_ERROR) { if (gprs_check_pcm_data (&sim_imsi)) pcm_WriteFile((UBYTE *)EF_KCGPRS_ID, SIZE_EF_KCGPRS, (UBYTE *)kc_n.kc); } PFREE (sim_authentication_req); return; } break; #endif default: PSENDX (MM, sim_authentication_cnf); error = FKT_Select (SIM_KC, FALSE, NULL, NULL, 0); if(error EQ SIM_NO_ERR_FILE_ALREADY_SELECTED) error = SIM_NO_ERROR; break; } } PFREE (sim_authentication_req); if (error EQ SIM_NO_ERROR) { kc_n.c_kc = MAX_KC_N; FKT_UpdateBinary (kc_n.kc, (USHORT)kc_n.c_kc, 0); } //TISH, OMAPS00133714 //start else { sim_data.remove_error = error; app_sim_remove (); sim_data.remove_error = SIM_CAUSE_CARD_REMOVED; } //end } #ifdef TI_PS_UICC_CHIPSET_15 LOCAL void app_require_uicc_characteristics(T_SIMDRV_config_characteristics *config_characteristics) { UBYTE clock_stop = 0; UBYTE voltage_class = 0; TRACE_FUNCTION("app_require_uicc_characteristics()"); TRACE_EVENT_P1 ("SIMDRV - GSM SIM File Characteristics : 0x%02X", config_characteristics->uicc_characteristics); clock_stop = (config_characteristics->uicc_characteristics & 0x0D);/*get bit 1,3 and 4*/ voltage_class = (config_characteristics->uicc_characteristics & 0x30);/*get bit 5 and 6*/ switch(voltage_class) { case 0x00:/*8GSM 5V - No voltage class bits set.*/ voltage_class = 0x10; /*UMTS CLASS A - Bit 5 set*/ break; case 0x10:/*GSM 3V - Voltage class bit 5 set.*/ voltage_class = 0x20;/*UMTS CLASS B - Bit 6 set*/ break; case 0x30:/*GSM 1.8V - Voltage class bit 5 and 6 set.*/ voltage_class = 0x40;/*UMTS CLASS C - Bit 7 set*/ break; default: voltage_class = 0x00; break; } config_characteristics->uicc_characteristics = (voltage_class | clock_stop); TRACE_EVENT_P1 ("SIMDRV - SIM File Characteristics (Converted) : 0x%02X", config_characteristics->uicc_characteristics); /* Clear traces of the fact that we have already used the card */ sim_data.act_directory = NOT_PRESENT_16BIT; sim_data.act_field = NOT_PRESENT_16BIT; } #endif /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_insert | +--------------------------------------------------------------------+ PURPOSE : Hook function for SIM driver after SIM insertion. */ #ifndef TI_PS_UICC_CHIPSET_15 GLOBAL void app_sim_insert (T_SIM_CARD *p_atr) #else /*!TI_PS_UICC_CHIPSET_15*/ GLOBAL void app_sim_insert( T_SIMDRV_atr_string_info *atr_string_info, U8 config_requested, T_SIMDRV_config_characteristics *config_characteristics) #endif /*!TI_PS_UICC_CHIPSET_15*/ { USHORT error; USHORT length; T_DIR_STATUS dir_status; T_FIELD_STATUS field_status; UBYTE response[SIMDRV_MAX_RESULT]; TRACE_FUNCTION ("app_sim_insert()"); #ifdef TI_PS_UICC_CHIPSET_15 if (atr_string_info NEQ NULL) { /* * stop card detection timer */ vsi_t_stop (VSI_CALLER SIM_TIMER); } else { /* SIM reinsert has been automatically detect and hence inform ACI */ T_SIM_ACTIVATE_CNF * sim_activate_cnf; PALLOC (sim_activate, SIM_ACTIVATE_IND); sim_activate_cnf = (T_SIM_ACTIVATE_CNF *)sim_activate; sim_activate_cnf->cause = SIM_CAUSE_SIM_REINSERTED; PSENDX (MMI, sim_activate_cnf); return; } #else /* * stop card detection timer */ vsi_t_stop (VSI_CALLER SIM_TIMER); #endif #ifdef FF_DUAL_SIM if(sim_data.SIM_Selection) { T_SIM_ACTIVATE_CNF * sim_activate_cnf; PALLOC (sim_activate, SIM_ACTIVATE_CNF); sim_activate_cnf = sim_activate; sim_data.sim_num = SIM_GetSIM(); sim_activate_cnf->cause = SIM_NO_ERROR; sim_activate_cnf->sim_num = (UBYTE)sim_data.sim_num; TRACE_EVENT_P1("SIM Selected is %d",sim_activate_cnf->sim_num); PSENDX (MMI, sim_activate_cnf); SIM_SET_FLAG (SIM_INSERT); return; } #endif /*FF_DUAL_SIM*/ /* * As per the section 6.5 of 3GPP TS 11.11, After the Answer To Reset (ATR), * the Master File (MF) is implicitly selected and becomes the Current Directory. * * Set Current Dir to MF, this makes the selection hit the DF_GSM as it is supposed to ! */ sim_data.act_directory = SIM_MF; /* * Read Datafield GSM */ error = FKT_Select (SIM_DF_GSM, FALSE, NULL, response, SIM_MIN_DMF_ST_LEN); if (error EQ SIM_NO_ERROR OR error EQ SIM_NO_ERR_FILE_ALREADY_SELECTED) { length = (sim_data.sim_data_len < SIM_MIN_DMF_ST_LEN)? sim_data.sim_data_len: SIM_MIN_DMF_ST_LEN; memcpy(&dir_status,response,SIM_MIN_DMF_ST_LEN); #ifdef TI_PS_UICC_CHIPSET_15 if (config_requested EQ SIMDRV_REQUEST_CONFIG_CHARACTERISTICS) { config_characteristics->uicc_characteristics = dir_status.characteristics; app_require_uicc_characteristics(config_characteristics); memset ((UBYTE *)&dir_status + length, 0, SIM_MIN_DMF_ST_LEN - length); return; } #endif memset ((UBYTE *)&dir_status + length, 0, SIM_MIN_DMF_ST_LEN - length); } if (error NEQ SIM_NO_ERROR) { /* * If not possible read Datafield DCS1800 * for backward compatibility reasons */ error = FKT_Select (SIM_DF_1800, FALSE, NULL, response, SIM_MIN_DMF_ST_LEN); if (error EQ SIM_NO_ERROR OR error EQ SIM_NO_ERR_FILE_ALREADY_SELECTED) { length = (sim_data.sim_data_len < SIM_MIN_DMF_ST_LEN)? sim_data.sim_data_len: SIM_MIN_DMF_ST_LEN; memcpy(&dir_status,response,SIM_MIN_DMF_ST_LEN); #ifdef TI_PS_UICC_CHIPSET_15 if (config_requested EQ SIMDRV_REQUEST_CONFIG_CHARACTERISTICS) { config_characteristics->uicc_characteristics = dir_status.characteristics; app_require_uicc_characteristics(config_characteristics); memset ((UBYTE *)&dir_status + length, 0, SIM_MIN_DMF_ST_LEN - length); return; } #endif memset ((UBYTE *)&dir_status + length, 0, SIM_MIN_DMF_ST_LEN - length); } SIM_CLEAR_FLAG (GSM_DATAFIELD); } else SIM_SET_FLAG (GSM_DATAFIELD); if (error NEQ SIM_NO_ERROR) { /* * datafields are not readable */ if (SIM_IS_FLAG_SET (ACTIVATION_STARTED)) { app_sim_card_error ((USHORT)((SIM_IS_FLAG_SET(DRV_FAILED_RETRY))? SIM_CAUSE_DRV_TEMPFAIL: SIM_CAUSE_OTHER_ERROR)); SIM_CLEAR_FLAG (ACTIVATION_STARTED); } return; } { T_SIM_ACTIVATE_CNF * sim_activate_cnf; if (SIM_IS_FLAG_SET (ACTIVATION_STARTED)) { PALLOC (sim_activate, SIM_ACTIVATE_CNF); sim_activate_cnf = sim_activate; } else { PALLOC (sim_activate, SIM_ACTIVATE_IND); sim_activate_cnf = (T_SIM_ACTIVATE_CNF *)sim_activate; } /* * Read Emergency Call Codes */ memset (sim_activate_cnf->ec_code, NOT_PRESENT_8BIT, MAX_ECC); if (FKT_Select (SIM_ECC, FALSE, NULL, response, SIM_MIN_EF_ST_LEN) EQ SIM_NO_ERROR) { memcpy(&field_status,response,SIM_MIN_EF_ST_LEN); { length = (USHORT)field_status.field_size[0] * 256 + field_status.field_size[1]; if (length > MAX_ECC) length = MAX_ECC; FKT_ReadBinary (sim_activate_cnf->ec_code, 0, length); } } /* * Read Preferred Language */ memset (sim_activate_cnf->pref_lang, NOT_PRESENT_8BIT, MAX_LNG_PREF); if (FKT_Select (SIM_LP, FALSE, NULL, response, SIM_MIN_EF_ST_LEN) EQ SIM_NO_ERROR) { memcpy(&field_status,response,SIM_MIN_EF_ST_LEN); { length = (USHORT)field_status.field_size[0] * 256 + field_status.field_size[1]; if (length > MAX_LNG_PREF) length = MAX_LNG_PREF; FKT_ReadBinary (sim_activate_cnf->pref_lang, 0, length); } } sim_activate_cnf->cause = SIM_NO_ERROR; /* * get ATR data */ #ifndef TI_PS_UICC_CHIPSET_15 length = MINIMUM(p_atr->atr_size, MAX_SIM_ATR); sim_activate_cnf->c_atr = (UBYTE)length; memcpy (sim_activate_cnf->atr, p_atr->atr_data, length); #else /*!TI_PS_UICC_CHIPSET_15*/ length = MINIMUM(atr_string_info->c_atr_string, MAX_SIM_ATR); sim_activate_cnf->c_atr = (UBYTE)length; memcpy (sim_activate_cnf->atr, atr_string_info->atr_string, length); #endif /*!TI_PS_UICC_CHIPSET_15*/ /* * check PIN/PUK status */ SIM_CLEAR_FLAG (SIM_PIN_FLAG); /*lint -e{644} (only reachable when SIM_NO_ERROR, then 'dir_status' valid) */ sim_activate_cnf->pin_cnt = FKT_check_pin_count (dir_status.pinstatus); sim_activate_cnf->puk_cnt = FKT_check_pin_count (dir_status.unbstatus); sim_activate_cnf->pin2_cnt = FKT_check_pin_count (dir_status.pin2status); sim_activate_cnf->puk2_cnt = FKT_check_pin_count (dir_status.unb2status); if (sim_activate_cnf->pin_cnt > 0) { /* * card is not blocked */ if ((dir_status.characteristics & 0x80) EQ 0) { /* * PIN is enabled */ sim_activate_cnf->cause = SIM_CAUSE_PIN1_EXPECT; SIM_SET_FLAG (SIM_PIN_FLAG); } } else if (sim_activate_cnf->puk_cnt > 0) { /* * SIM card is blocked, unblock attempts available */ sim_activate_cnf->cause = SIM_CAUSE_PUK1_EXPECT; SIM_SET_FLAG (SIM_PIN_FLAG); } else { /* * SIM card is blocked, no unblock attempts available */ TRACE_EVENT ("Card blocked"); sim_activate_cnf->cause = SIM_CAUSE_PUK1_BLOCKED; SIM_EM_SIM_ACTIVATION_RESULT; PSENDX (MMI, sim_activate_cnf); SIM_CLEAR_FLAG (ACTIVATION_STARTED); return; } SIM_EM_SIM_ACTIVATION_RESULT; PSENDX (MMI, sim_activate_cnf); SIM_CLEAR_FLAG (ACTIVATION_STARTED); } SIM_SET_FLAG (SIM_INSERT); if (SIM_IS_FLAG_CLEARED (SIM_PIN_FLAG)) /* * PIN entering is not necessary */ { TRACE_EVENT ("Read the rest of Parameters"); app_sim_read_parameters (); app_start_status_timer (TRUE); } else { TRACE_EVENT ("Wait for PIN/PUK entering"); SIM_CLEAR_FLAG (MM_KNOWS_FROM_SIM); TIMER_STOP (sim_handle, SIM_TIMER); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_read_parameters | +--------------------------------------------------------------------+ PURPOSE : Start the rest of the initialisation procedure. */ GLOBAL void app_sim_read_parameters (void) { UBYTE result; PALLOC (sim_mmi_insert_ind, SIM_MMI_INSERT_IND); TRACE_FUNCTION ("app_sim_read_parameters()"); app_sim_phase (); switch (sim_data.sim_phase) { case 1: // try to read the SIM service table if (!app_read_sim_service_table(sim_mmi_insert_ind)) { app_sim_mmi_insert_ind (sim_mmi_insert_ind, SIM_NO_OPERATION); return; } if (app_sim_mm_insert_ind (sim_mmi_insert_ind) EQ FALSE) app_sim_mmi_insert_ind (sim_mmi_insert_ind, SIM_NO_OPERATION); else app_sim_mmi_insert_ind (sim_mmi_insert_ind, SIM_ADN_ENABLED) ; PSENDX (MMI, sim_mmi_insert_ind); app_sim_sms_insert_ind (); break; case 3: #if defined SIM_TOOLKIT stk_perform_profile_download (); /* Update the Terminal Support table*/ { T_path_info tmp_path; tmp_path.df_level1 = SIM_DF_CING; tmp_path.v_df_level2 = FALSE; if(FKT_Select(SIM_CING_TRMST, TRUE, &tmp_path, NULL, 0) EQ SIM_NO_ERROR) { FKT_UpdateBinary (sim_data.trmst, MAX_TRMST, 0); } } SIM_EM_SIM_TOOLKIT_ACTIVATION; #endif /* no break;*/ /*lint -fallthrough*/ case 2: /* includes reading of the SIM service table*/ result = app_fdn_bdn_procedures (sim_mmi_insert_ind); if ((result EQ SIM_NO_OPERATION) OR !app_sim_mm_insert_ind (sim_mmi_insert_ind)) app_sim_mmi_insert_ind (sim_mmi_insert_ind, SIM_NO_OPERATION); else app_sim_mmi_insert_ind (sim_mmi_insert_ind, result); PSENDX (MMI, sim_mmi_insert_ind); if (result NEQ SIM_NO_OPERATION) app_sim_sms_insert_ind (); break; default: break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_phase | +--------------------------------------------------------------------+ PURPOSE : Read the phase identification. */ GLOBAL void app_sim_phase (void) { USHORT error; TRACE_FUNCTION ("app_sim_phase()"); error = FKT_Select (SIM_PHASE, FALSE, NULL, NULL, 0); if (error EQ SIM_NO_ERROR OR error EQ SIM_NO_ERR_FILE_ALREADY_SELECTED) error = FKT_ReadBinary (&sim_data.sim_phase, 0, 1); /* * Default is phase 1 SIM card * G23 interpretation is * 1: Phase 1 * 2: Phase 2 * 3: Phase 2+ */ if (error NEQ SIM_NO_ERROR) sim_data.sim_phase = 1; else { if (sim_data.sim_phase EQ 0) sim_data.sim_phase = 1; //TISH, patch for OMAPS00122397 //start else if (sim_data.sim_phase EQ 0xFF) sim_data.sim_phase = 3; //end } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_read_sim_service_table | +--------------------------------------------------------------------+ PURPOSE : Read the SIM Service Table. */ LOCAL UBYTE app_read_sim_service_table (T_SIM_MMI_INSERT_IND * sim_mmi_insert_ind) { USHORT length; USHORT error; T_FIELD_STATUS field_status; UBYTE response[SIMDRV_MAX_RESULT]; /* * read SIM service table * Currently selected EF information is reset to force the selection */ sim_data.act_field = NOT_PRESENT_16BIT; error = FKT_Select (SIM_SST, FALSE, NULL, response, SIM_MIN_EF_ST_LEN); if (error EQ SIM_NO_ERROR) { memcpy(&field_status,response,SIM_MIN_EF_ST_LEN); length = (USHORT)field_status.field_size[0] * 256 + field_status.field_size[1]; if (length > MAX_SRV_TBL) length = MAX_SRV_TBL; memset (sim_mmi_insert_ind->sim_serv, 0, MAX_SRV_TBL); if (FKT_ReadBinary (sim_mmi_insert_ind->sim_serv, 0, length) NEQ SIM_NO_ERROR) return FALSE; } else return FALSE; /* * set flags according to the allocated and activated services */ if (SERVICE(1,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) SIM_SET_FLAG (SERVICE_1_SUPPORT); else SIM_CLEAR_FLAG (SERVICE_1_SUPPORT); if (SERVICE(2,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) SIM_SET_FLAG (SERVICE_2_SUPPORT); else SIM_CLEAR_FLAG (SERVICE_2_SUPPORT); if (SERVICE(3,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) SIM_SET_FLAG (SERVICE_3_SUPPORT); else SIM_CLEAR_FLAG (SERVICE_3_SUPPORT); if (SERVICE(4,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) SIM_SET_FLAG (SERVICE_4_SUPPORT); else SIM_CLEAR_FLAG (SERVICE_4_SUPPORT); if (SERVICE(7,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) SIM_SET_FLAG (SERVICE_7_SUPPORT); else SIM_CLEAR_FLAG (SERVICE_7_SUPPORT); if (SERVICE(26,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) SIM_SET_FLAG (SERVICE_26_SUPPORT); else SIM_CLEAR_FLAG (SERVICE_26_SUPPORT); if (SERVICE(31,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) SIM_SET_FLAG (SERVICE_31_SUPPORT); else SIM_CLEAR_FLAG (SERVICE_31_SUPPORT); if (SERVICE(35,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) SIM_SET_FLAG (SERVICE_35_SUPPORT); else SIM_CLEAR_FLAG (SERVICE_35_SUPPORT); if ((SERVICE(39,sim_mmi_insert_ind->sim_serv) & ALLOCATED) AND FKT_Select (SIM_DF_GRAPHICS, FALSE, NULL, NULL, 0) EQ SIM_NO_ERROR) SIM_SET_FLAG (DF_GRAPHICS_EXISTENT); else SIM_CLEAR_FLAG (DF_GRAPHICS_EXISTENT); if ((SERVICE(40,sim_mmi_insert_ind->sim_serv) & ALLOCATED) AND FKT_Select (SIM_DF_SOLSA, FALSE, NULL, NULL, 0) EQ SIM_NO_ERROR) SIM_SET_FLAG (DF_SOLSA_EXISTENT); else SIM_CLEAR_FLAG (DF_SOLSA_EXISTENT); /* @@TODO -- CHECK THE SERVICE NUMBER */ if (FKT_Select (SIM_DF_ORANGE, FALSE,NULL, NULL, 0) EQ SIM_NO_ERROR) SIM_SET_FLAG (DF_ORANGE_EXISTENT); else SIM_CLEAR_FLAG (DF_ORANGE_EXISTENT); #ifdef REL99 /* * SET SERVICE FLAG for SERVICE 43 if "user controlled PLMN Selector with * Access Technology" is supported */ if (SERVICE(43,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) SIM_SET_FLAG (SERVICE_43_SUPPORT); else SIM_CLEAR_FLAG (SERVICE_43_SUPPORT); /* * SET SERVICE FLAG for SERVICE 44 if "Operator controlled PLMN Selector with * Access Technology" is supported */ if (SERVICE(44,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) SIM_SET_FLAG (SERVICE_44_SUPPORT); else SIM_CLEAR_FLAG (SERVICE_44_SUPPORT); #endif /* REl99 */ #if defined (GPRS) if (SERVICE(38,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) SIM_SET_FLAG (SERVICE_38_SUPPORT); else SIM_CLEAR_FLAG (SERVICE_38_SUPPORT); #endif #ifdef SIM_TOOLKIT if (SERVICE(29,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) SIM_SET_FLAG (PRO_ACTIVE_SIM); else SIM_CLEAR_FLAG (PRO_ACTIVE_SIM); #endif return TRUE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_mm_insert_ind | +--------------------------------------------------------------------+ PURPOSE : Reads some fields and build SIM_MM_INSERT_IND. */ GLOBAL UBYTE app_sim_mm_insert_ind (T_SIM_MMI_INSERT_IND * sim_mmi_insert_ind) { UBYTE kc_n [MAX_KC_N]; int i; USHORT error; USHORT length; T_FIELD_STATUS field_status; USHORT FileSelRes; UBYTE response[SIMDRV_MAX_RESULT]; T_path_info tmp_path; /* * Read remaining parameters for mobility management */ PALLOC (sim_mm_insert_ind, SIM_MM_INSERT_IND); TRACE_FUNCTION ("app_sim_mm_insert_ind()"); SIM_EM_READ_MM_PARAMETER; SIM_CLEAR_FLAG (TEST_SIM_INSERTED); #if defined SIM_TOOLKIT SIM_CLEAR_FLAG (TEST_MODE_POLLING); #endif /* * read administrative data */ memset (&sim_mmi_insert_ind->ad, 0, MAX_AD); error = FKT_Select (SIM_AD, FALSE, NULL, response, SIM_MIN_EF_ST_LEN); if ( error EQ SIM_NO_ERROR OR error EQ SIM_NO_ERR_FILE_ALREADY_SELECTED) { memcpy(&field_status, response, SIM_MIN_EF_ST_LEN); { length = field_status.field_size[0] * 256 + field_status.field_size[1]; if(length > MAX_AD) length = MAX_AD; sim_mm_insert_ind->c_ad = (UBYTE)length; if(FKT_ReadBinary ((UBYTE *)&sim_mm_insert_ind->ad, 0, length) EQ SIM_NO_ERROR) { TRACE_EVENT_P1("The length of AD is %d", length); } else { PFREE (sim_mm_insert_ind); return FALSE; } } sim_mmi_insert_ind->c_ad = sim_mm_insert_ind->c_ad; memcpy (&sim_mmi_insert_ind->ad, &sim_mm_insert_ind->ad,sim_mmi_insert_ind->c_ad); if(sim_mm_insert_ind->ad[0] & 0x80) { SIM_SET_FLAG (TEST_SIM_INSERTED); #if defined SIM_TOOLKIT TRACE_EVENT("REG POLLING"); SIM_SET_FLAG (TEST_MODE_POLLING); #endif } } else { PFREE (sim_mm_insert_ind); return FALSE; } /* * read IMSI (set to zero in case of error) */ memset (&sim_mmi_insert_ind->imsi_field, 0, sizeof (T_imsi_field)); if (FKT_Select (SIM_IMSI, FALSE, NULL, NULL, 0) EQ SIM_NO_ERROR) { if (FKT_ReadBinary ((UBYTE *)&sim_mm_insert_ind->imsi_field, 0, MAX_IMSI) NEQ SIM_NO_ERROR) { PFREE (sim_mm_insert_ind); return FALSE; } /* * Check length of IMSI for validity */ if ((sim_mm_insert_ind->imsi_field.c_field <= 3) OR (sim_mm_insert_ind->imsi_field.c_field > MAX_IMSI-1)) { PFREE (sim_mm_insert_ind); return FALSE; } memcpy (&sim_mmi_insert_ind->imsi_field, &sim_mm_insert_ind->imsi_field, sizeof (T_imsi_field)); /* * Modify polling algorithm in case of HPLMN == Test Network */ if ((sim_mm_insert_ind->imsi_field.c_field >= 3) AND ((sim_mm_insert_ind->imsi_field.field[0] & 0xF7) EQ 0x01) AND (sim_mm_insert_ind->imsi_field.field[1] EQ 0x10) AND (sim_mm_insert_ind->imsi_field.field[2] EQ 0x10)) { SIM_SET_FLAG (TEST_SIM_INSERTED); #if defined SIM_TOOLKIT TRACE_EVENT("REG POLLING"); SIM_SET_FLAG (TEST_MODE_POLLING); #endif } } else { PFREE (sim_mm_insert_ind); return FALSE; } /* * read location information */ if (FKT_Select (SIM_LOCI, FALSE, NULL, NULL, 0) EQ SIM_NO_ERROR) { sim_mm_insert_ind->loc_info.c_loc = MAX_LOC_INFO; if (FKT_ReadBinary ((UBYTE *)sim_mm_insert_ind->loc_info.loc, 0, MAX_LOC_INFO) NEQ SIM_NO_ERROR) { PFREE (sim_mm_insert_ind); return FALSE; } } else { PFREE (sim_mm_insert_ind); return FALSE; } /* * Access control classes */ if (FKT_Select (SIM_ACC, FALSE, NULL, NULL, 0) EQ SIM_NO_ERROR) { sim_mm_insert_ind->acc_ctrl.c_acc = MAX_ACCESS_CONTROL; if (FKT_ReadBinary ((UBYTE *)sim_mm_insert_ind->acc_ctrl.acc, 0, MAX_ACCESS_CONTROL) NEQ SIM_NO_ERROR) { PFREE (sim_mm_insert_ind); return FALSE; } } else { PFREE (sim_mm_insert_ind); return FALSE; } /* * BCCH information */ if (FKT_Select (SIM_BCCH, FALSE, NULL, NULL, 0) EQ SIM_NO_ERROR) { sim_mm_insert_ind->bcch_inf.c_bcch = MAX_BCCH_INFO; if (FKT_ReadBinary ((UBYTE *)sim_mm_insert_ind->bcch_inf.bcch, 0, MAX_BCCH_INFO) NEQ SIM_NO_ERROR) { PFREE (sim_mm_insert_ind); return FALSE; } } else { PFREE (sim_mm_insert_ind); return FALSE; } /* * KC and cipher key sequence number */ if (FKT_Select (SIM_KC, FALSE, NULL, NULL, 0) EQ SIM_NO_ERROR) { if (FKT_ReadBinary ((UBYTE *)kc_n, 0, MAX_KC_N) NEQ SIM_NO_ERROR) { PFREE (sim_mm_insert_ind); return FALSE; } else { sim_mm_insert_ind->kc_n.c_kc = MAX_KC_N; /* * Store KC in opposite order */ for (i = 0; i < MAX_KC; i++) sim_mm_insert_ind->kc_n.kc[(MAX_KC-1)-i] = kc_n[i]; /* * Store cipher key sequence number */ sim_mm_insert_ind->kc_n.kc[MAX_KC] = kc_n[MAX_KC]; } } else { PFREE (sim_mm_insert_ind); return FALSE; } /* * Read Preferred PLMN information * Initialize preferred plmn information is not present */ sim_mm_insert_ind->pref_plmn_list_sz = app_get_ef_size(SERVICE_7_SUPPORT, SIM_PLMNSEL,response); /* * Read forbidden PLMNs */ if (FKT_Select (SIM_FPLMN, FALSE, NULL, NULL, 0) EQ SIM_NO_ERROR) { sim_mm_insert_ind->forb_plmn.c_forb = MAX_FORB_PLMN; if (FKT_ReadBinary ((UBYTE *)sim_mm_insert_ind->forb_plmn.forb, 0, MAX_FORB_PLMN) NEQ SIM_NO_ERROR) { PFREE (sim_mm_insert_ind); return FALSE; } } else { PFREE (sim_mm_insert_ind); return FALSE; } #ifdef REL99 /* * Extract "User controlled PLMN Selector with Access Technology" Information * Initially set 'usr ctrl plmn selector with Access Technology informaiton' is not present */ sim_mm_insert_ind->u_ctl_plmn_sel_actech_list_sz = app_get_ef_size(SERVICE_43_SUPPORT, SIM_UCPS_ACTEC,response); /* * Extract "Operator controlled PLMN Selector with Access Technology" Information * Initailly set 'operator ctrl plmn with Access Technology informaiton' is not present */ sim_mm_insert_ind->o_ctl_plmn_sel_actech_list_sz = app_get_ef_size(SERVICE_44_SUPPORT, SIM_OCPS_ACTEC,response); #endif /* REl99 */ /* * Read Acting HPLMN */ tmp_path.df_level1 = SIM_DF_CING; tmp_path.v_df_level2 = TRUE; tmp_path.df_level2 = SIM_DF2_CING; FileSelRes = FKT_Select(SIM_CING_AHPLMN, TRUE, &tmp_path, NULL, 0); if( FileSelRes EQ SIM_NO_ERROR) { sim_mm_insert_ind->v_act_hplmn = TRUE; if(FKT_ReadBinary ((UBYTE *)sim_mm_insert_ind->act_hplmn, 0, MAX_SIM_PLMN_SIZE) NEQ SIM_NO_ERROR) { sim_mm_insert_ind->v_act_hplmn = FALSE; } } else { sim_mm_insert_ind->v_act_hplmn = FALSE; } /* * set phase identification and * default value for hplmn search period * for phase 1 card. */ sim_mm_insert_ind->phase = sim_data.sim_phase; /* * 3GPP 23.122 clause 4.4.3.3 states the default search period * is now 60 minutes. This is different from ETSI 03.22 * clause 4.4.3.3 where the default value was only 30 minutes. */ sim_mm_insert_ind->hplmn = 10; if (sim_data.sim_phase NEQ PHASE_1_SIM) { if (FKT_Select (SIM_HPLMN, FALSE, NULL, NULL, 0) EQ SIM_NO_ERROR) { if (FKT_ReadBinary (&sim_mm_insert_ind->hplmn, 0, 1) NEQ SIM_NO_ERROR) sim_mm_insert_ind->hplmn = 10; } } #if defined (GPRS) gprs_gmm_insert_ind (sim_mm_insert_ind); #endif /* * send information to mobility management */ PSENDX (MM, sim_mm_insert_ind); SIM_SET_FLAG (MM_KNOWS_FROM_SIM); return TRUE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_mmi_insert_ind | +--------------------------------------------------------------------+ PURPOSE : Build the primitive SIM_MMI_INSERT_IND. */ GLOBAL void app_sim_mmi_insert_ind (T_SIM_MMI_INSERT_IND * sim_mmi_insert_ind, UBYTE func) { T_FIELD_STATUS field_status; USHORT length; UBYTE response[SIMDRV_MAX_RESULT]; TRACE_FUNCTION ("app_sim_mmi_insert_ind()"); SIM_EM_READ_MMI_PARAMETER; /* * copy parameters known from MM INSERT reading */ sim_mmi_insert_ind->func = func; if (func & 1) SIM_SET_FLAG (ADN_SUPPORT_BY_SIM); else SIM_CLEAR_FLAG (ADN_SUPPORT_BY_SIM); if (func & 2) SIM_SET_FLAG (FDN_SUPPORT_BY_SIM); else SIM_CLEAR_FLAG (FDN_SUPPORT_BY_SIM); if (func & 4) SIM_SET_FLAG (BDN_SUPPORT_BY_SIM); else SIM_CLEAR_FLAG (BDN_SUPPORT_BY_SIM); sim_mmi_insert_ind->phase = sim_data.sim_phase; /* * check access conditions for AoC fields * Currently selected EF information is reset to force the selection */ sim_data.act_field = NOT_PRESENT_16BIT; sim_mmi_insert_ind->access_acm = NOT_PRESENT_8BIT; if (FKT_Select (SIM_ACM, FALSE, NULL, response, SIM_MIN_EF_ST_LEN) EQ SIM_NO_ERROR) { memcpy(&field_status, response, SIM_MIN_EF_ST_LEN); sim_mmi_insert_ind->access_acm = field_status.access_1 & 0x0F; } sim_mmi_insert_ind->access_acmmax = NOT_PRESENT_8BIT; if (FKT_Select (SIM_ACMMAX, FALSE, NULL, response, SIM_MIN_EF_ST_LEN) EQ SIM_NO_ERROR) { memcpy(&field_status, response, SIM_MIN_EF_ST_LEN); sim_mmi_insert_ind->access_acmmax = field_status.access_1 & 0x0F; } sim_mmi_insert_ind->access_puct = NOT_PRESENT_8BIT; if (FKT_Select (SIM_PUCT, FALSE, NULL, response, SIM_MIN_EF_ST_LEN) EQ SIM_NO_ERROR) { memcpy(&field_status, response, SIM_MIN_EF_ST_LEN); sim_mmi_insert_ind->access_puct = field_status.access_1 & 0x0F; } TRACE_EVENT_P1 ("Access ACM = %d", sim_mmi_insert_ind->access_acm); TRACE_EVENT_P1 ("Access ACMMAX = %d", sim_mmi_insert_ind->access_acmmax); TRACE_EVENT_P1 ("Access PUCT = %d", sim_mmi_insert_ind->access_puct); #ifdef SIM_TOOLKIT if ( (SERVICE(25,sim_mmi_insert_ind->sim_serv) EQ ALLOCATED_AND_ACTIVATED) AND (sim_data.stk_profile[0] & SAT_TP1_CB_DNL) ) { if (FKT_Select (SIM_CBMID, FALSE, NULL, response, SIM_MIN_EF_ST_LEN) EQ SIM_NO_ERROR) { memcpy(&field_status, response, SIM_MIN_EF_ST_LEN); { length = field_status.field_size[0] * 256 + field_status.field_size[1]; length = MINIMUM(length, MAX_CBMID_REC); sim_mmi_insert_ind->cbmid_rec.c_rec = (UBYTE)length; if(FKT_ReadBinary ((UBYTE *)sim_mmi_insert_ind->cbmid_rec.rec, 0, length) EQ SIM_NO_ERROR) { TRACE_EVENT_P1("The length of CBMID is %d", length); } } } } #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_sms_insert_ind | +--------------------------------------------------------------------+ PURPOSE : Build the primitive SIM_SMS_INSERT_IND. */ GLOBAL void app_sim_sms_insert_ind (void) { PALLOC (sim_sms_insert_ind, SIM_SMS_INSERT_IND); TRACE_FUNCTION ("app_sim_sms_insert_ind()"); SIM_EM_READ_SMS_PARAMETER; memset (sim_sms_insert_ind, 0, sizeof(T_SIM_SMS_INSERT_IND)); sim_sms_insert_ind->mem_cap_avail = SIM_SMS_NO_MEM; /* * Read SMS Status */ if (SIM_IS_FLAG_SET (SERVICE_4_SUPPORT)) { USHORT error; error = FKT_Select (SIM_SMSS, FALSE, NULL, NULL, 0); if (error EQ SIM_NO_ERROR OR error EQ SIM_NO_ERR_FILE_ALREADY_SELECTED) { if (FKT_ReadBinary (&sim_sms_insert_ind->tp_mr, 0, 2) EQ SIM_NO_ERROR) { sim_sms_insert_ind->mem_cap_avail &= 1; } else { sim_sms_insert_ind->mem_cap_avail = SIM_SMS_MEM_AVAIL; } } else if (sim_data.sim_phase < PHASE_2_SIM) { sim_sms_insert_ind->mem_cap_avail = SIM_SMS_MEM_AVAIL; } } /* * check SIM phase and determine support of SMS data download */ sim_sms_insert_ind->phase = sim_data.sim_phase; switch (sim_data.sim_phase) { case 1: case 2: sim_sms_insert_ind->download_sms = DOWNLOAD_SMS_NO; break; case 3: #ifdef SIM_TOOLKIT /* * check service 26: data download via point-to-point SMS */ if (SIM_IS_FLAG_SET (SERVICE_26_SUPPORT)) sim_sms_insert_ind->download_sms = DOWNLOAD_SMS_YES; else #endif sim_sms_insert_ind->download_sms = DOWNLOAD_SMS_NO; break; } /* * check service 35: store SM Status Reports */ if (SIM_IS_FLAG_SET (SERVICE_35_SUPPORT)) sim_sms_insert_ind->smsr_mem_cap = SIM_SMSR_ENABLE; else sim_sms_insert_ind->smsr_mem_cap = SIM_SMSR_DISABLE; /* * send information to short message service */ PSENDX (SMS, sim_sms_insert_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_remove | +--------------------------------------------------------------------+ PURPOSE : Hook function for SIM driver after SIM remove. */ GLOBAL void app_sim_remove (void) { TRACE_FUNCTION ("app_sim_remove()"); #ifdef SIM_TOOLKIT stk_stop_all_sat_timers (); #endif if (SIM_IS_FLAG_SET (SIM_INSERT)) { { PALLOC (sim_remove_ind_to_mm , SIM_REMOVE_IND); sim_remove_ind_to_mm->cause = sim_data.remove_error; PSENDX (MM, sim_remove_ind_to_mm); } #ifdef GPRS { PALLOC (sim_remove_ind_to_gmm , SIM_REMOVE_IND); sim_remove_ind_to_gmm->cause = sim_data.remove_error; PSENDX (GMM, sim_remove_ind_to_gmm); } #endif { PALLOC (sim_remove_ind_to_mmi, SIM_REMOVE_IND); sim_remove_ind_to_mmi->cause = sim_data.remove_error; PSENDX (MMI, sim_remove_ind_to_mmi); } { PALLOC (sim_remove_ind_to_sms, SIM_REMOVE_IND); sim_remove_ind_to_sms->cause = sim_data.remove_error; PSENDX (SMS, sim_remove_ind_to_sms); } SIM_EM_SIM_REMOVE; } SIM_CLEAR_FLAG (SIM_INSERT); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_timeout | +--------------------------------------------------------------------+ PURPOSE : A timeout has occured. */ GLOBAL void app_sim_timeout (U16 timer) { USHORT error; UBYTE pin_cnt, pin2_cnt, puk_cnt, puk2_cnt; if (SIM_IS_FLAG_SET (SIM_INSERT)) { /* * Presence check all thirty seconds */ if (timer EQ SLEEP_TIMER AND sim_data.sat_session EQ TRUE) { TRACE_EVENT("STK SESSION RUNNING"); return; } if ((error = FKT_Status (&pin_cnt, &pin2_cnt, &puk_cnt, &puk2_cnt)) NEQ SIM_NO_ERROR) { /* stop Poll Timer*/ TIMER_STOP (sim_handle, SIM_TIMER); sim_data.remove_error = error; app_sim_remove (); sim_data.remove_error = SIM_CAUSE_CARD_REMOVED; } #ifdef TI_PS_FF_SIM_POLL_ALWAYS else { #if defined SIM_TOOLKIT if(SIM_IS_FLAG_SET (PRO_ACTIVE_SIM)) { stk_proactive_polling(); } else #endif { TRACE_FUNCTION ("Restarting timer for polling non-proactive SIMs"); app_start_status_timer(FALSE); } } #else #if defined SIM_TOOLKIT else stk_proactive_polling(); #endif #endif } else if (SIM_IS_FLAG_SET (ACTIVATION_STARTED)) { /* * Timeout indicates no recognition of * a SIM card by the driver */ app_sim_card_error (SIM_CAUSE_CARD_REMOVED); SIM_CLEAR_FLAG (ACTIVATION_STARTED); } else if (SIM_IS_FLAG_SET(DRV_FAILED_RETRY)) { /* * Timeout indicates failed recovery after * a SIM driver retry failure */ app_sim_remove(); SIM_CLEAR_FLAG(DRV_FAILED_RETRY); } else { /* * Timer may still run in case of auto-restart */ TIMER_STOP (sim_handle, SIM_TIMER); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_card_error | +--------------------------------------------------------------------+ PURPOSE : An error is signalled to MMI. */ GLOBAL void app_sim_card_error (USHORT error) { PALLOC (sim_activate_cnf, SIM_ACTIVATE_CNF); memset (sim_activate_cnf, NOT_PRESENT_8BIT, sizeof (T_SIM_ACTIVATE_CNF)); #ifdef FF_DUAL_SIM if(sim_data.SIM_Selection) { sim_activate_cnf->sim_num = SIM_NUM_0; sim_activate_cnf->cause = error; PSENDX (MMI, sim_activate_cnf); return; } #endif /*FF_DUAL_SIM*/ sim_activate_cnf->pin_cnt = sim_activate_cnf->puk_cnt = 0; sim_activate_cnf->pin2_cnt = sim_activate_cnf->puk2_cnt = 0; sim_activate_cnf->cause = error; sim_activate_cnf->c_atr = 0; SIM_EM_SIM_ACTIVATION_RESULT; PSENDX (MMI, sim_activate_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_mm_update_req | +--------------------------------------------------------------------+ PURPOSE : Process of the primitive SIM_MM_UPDATE_REQ. */ GLOBAL void app_sim_mm_update_req (T_SIM_MM_UPDATE_REQ * sim_mm_update_req) { int i; USHORT error; T_kc_n kc_n; BOOL all_upd = TRUE; TRACE_FUNCTION ("app_sim_mm_update_req()"); /* * check location information */ if (sim_mm_update_req->loc_info.c_loc > 0) { #if defined SIM_TOOLKIT memcpy (&sim_data.location_info, &sim_mm_update_req->loc_info, sizeof (sim_data.location_info)); #endif if(sim_mm_update_req->ef_indicator & 0x01) { error = FKT_Select (SIM_LOCI, FALSE, NULL, NULL, 0); if (error EQ SIM_NO_ERROR) error = FKT_UpdateBinary (sim_mm_update_req->loc_info.loc, (USHORT)sim_mm_update_req->loc_info.c_loc, 0); if (error NEQ SIM_NO_ERROR) { #ifdef REL99 if (error EQ SIM_CAUSE_MEM_PROBLEM) { /* * In case when updating EF LOCI with data containing the * TMSI value and the card reports the error '92 40' (Memory Problem), * the ME shall terminate GSM operation. */ sim_data.remove_error = SIM_CAUSE_MEM_PROBLEM; app_sim_remove(); PFREE (sim_mm_update_req); return; } #endif /* end of ifdef REL99 */ all_upd = FALSE; } } #if defined SIM_TOOLKIT sim_data.cell_identity = sim_mm_update_req->cell_identity; /* * Modify polling algorithm if connected to Test Network */ if ((sim_mm_update_req->loc_info.c_loc >= 7) AND (sim_mm_update_req->loc_info.loc[4] EQ 0x00) AND ((sim_mm_update_req->loc_info.loc[5] & 0x0F) EQ 0x1) AND (sim_mm_update_req->loc_info.loc[6] EQ 0x10)) { TRACE_EVENT("REG POLLING"); SIM_SET_FLAG (TEST_MODE_POLLING); } else if (SIM_IS_FLAG_CLEARED (TEST_SIM_INSERTED)) { TRACE_EVENT("STD POLLING"); SIM_CLEAR_FLAG (TEST_MODE_POLLING); } #endif } /* * check bcch information */ if(sim_mm_update_req->ef_indicator & 0x02) { if (sim_mm_update_req->bcch_inf.c_bcch > 0) { error = FKT_Select (SIM_BCCH, FALSE, NULL, NULL, 0); if (error EQ SIM_NO_ERROR) error = FKT_UpdateBinary (sim_mm_update_req->bcch_inf.bcch, (USHORT)sim_mm_update_req->bcch_inf.c_bcch, 0); if (error NEQ SIM_NO_ERROR) all_upd = FALSE; } } /* * check forbidden PLMN */ if(sim_mm_update_req->ef_indicator & 0x04) { if (sim_mm_update_req->forb_plmn.c_forb > 0) { error = FKT_Select (SIM_FPLMN, FALSE, NULL, NULL, 0); if (error EQ SIM_NO_ERROR) error = FKT_UpdateBinary (sim_mm_update_req->forb_plmn.forb, (USHORT)sim_mm_update_req->forb_plmn.c_forb, 0); if (error NEQ SIM_NO_ERROR) all_upd = FALSE; } } /* * check kc and cksn */ if(sim_mm_update_req->ef_indicator & 0x08) { error = FKT_Select (SIM_KC, FALSE, NULL, NULL, 0); if (error EQ SIM_NO_ERROR) { kc_n.c_kc = 9; kc_n.kc[8] = sim_mm_update_req->cksn; for (i = 0; i < 8; i++) kc_n.kc[7-i] = sim_mm_update_req->kc[i]; error = FKT_UpdateBinary (kc_n.kc, (USHORT)kc_n.c_kc, 0); } if (error NEQ SIM_NO_ERROR) all_upd = FALSE; } SIM_EM_PARAMETER_UPDATE; PFREE (sim_mm_update_req); if (all_upd) app_start_status_timer (FALSE); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_sync_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_SYNC_REQ. */ GLOBAL void app_sim_sync_req (T_SIM_SYNC_REQ * sim_sync_req) { #ifdef TI_PS_UICC_CHIPSET_15 U8 reader_id = SIMDRV_VAL_READER_ID__RANGE_MIN; #endif PALLOC (sim_sync_cnf, SIM_SYNC_CNF); sim_sync_cnf->cause = SIM_NO_ERROR; TRACE_FUNCTION ("app_sim_sync_req()"); SIM_EM_PARAMETER_SYNCHRONISATION; switch (sim_sync_req->synccs) { case SYNC_START_CALL: SIM_SET_FLAG (CALL_ACTIVE); PSENDX (MMI, sim_sync_cnf); app_sim_timeout (SIM_TIMER); /* checks SIM status!*/ app_start_status_timer (TRUE); /* restart SIM presence detection*/ break; case SYNC_STOP_CALL: SIM_CLEAR_FLAG (CALL_ACTIVE); /* * only if SIM inserted */ if (SIM_IS_FLAG_SET (SIM_INSERT)) { #if defined SIM_TOOLKIT /* * if SIM Toolkit is active, idle polling * might be needed, additionally */ if (SIM_IS_FLAG_CLEARED (PRO_ACTIVE_SIM)) #endif { /* * Stop presence detection polling, after Call */ TIMER_STOP (sim_handle, SIM_TIMER); } #if defined SIM_TOOLKIT else if (sim_data.idle_polling) { app_start_status_timer (TRUE); } #endif } else sim_sync_cnf->cause = SIM_CAUSE_CARD_REMOVED; PSENDX (MMI, sim_sync_cnf); break; case SYNC_MM_FINISHED_READING: #if defined SIM_TOOLKIT if(sim_data.sync_awaited & SIM_SYNC_AWAIT_MM_READ) { sim_data.sync_awaited &= ~SIM_SYNC_AWAIT_MM_READ; /* Check if both MM and MMI have sent SYNC_REQ */ if(sim_data.sync_awaited EQ 0 AND sim_data.stk_resp_len NEQ 0) { FKT_TerminalResponse (sim_data.stk_response, (USHORT)sim_data.stk_resp_len); sim_data.stk_resp_len = 0; } } #endif /* SIM_TOOLKIT */ PSENDX (MM, sim_sync_cnf); break; case SYNC_MMI_FINISHED_READING: #if defined SIM_TOOLKIT if(sim_data.sync_awaited & SIM_SYNC_AWAIT_MMI_READ) { sim_data.sync_awaited &= ~SIM_SYNC_AWAIT_MMI_READ; /* Check if both MM and MMI have sent SYNC_REQ */ if(sim_data.sync_awaited EQ 0 AND sim_data.stk_resp_len NEQ 0) { FKT_TerminalResponse (sim_data.stk_response, (USHORT)sim_data.stk_resp_len); sim_data.stk_resp_len = 0; } } #endif /* SIM_TOOLKIT */ PSENDX (MMI, sim_sync_cnf); break; case SYNC_DEACTIVATE: TIMER_STOP (sim_handle, SIM_TIMER); #ifdef SIM_TOOLKIT stk_stop_all_sat_timers (); #endif PSENDX (MMI, sim_sync_cnf); /* * switch off SIM driver */ #ifndef TI_PS_UICC_CHIPSET_15 SIM_PowerOff (); #else simdrv_poweroff( reader_id ); #endif SIM_CLEAR_FLAG (SIM_INSERT); /* * Initialize SIM for next Power On */ app_init_sim_data (); break; default: sim_sync_cnf->cause = SIM_CAUSE_PARAM_WRONG; PSENDX (MMI, sim_sync_cnf); break; } PFREE (sim_sync_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_activate_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_ACTIVATE_REQ. */ GLOBAL void app_sim_activate_req (T_SIM_ACTIVATE_REQ * sim_activate_req) { USHORT retcode; #ifdef TI_PS_UICC_CHIPSET_15 U8 reader_id =SIMDRV_VAL_READER_ID__RANGE_MIN; U8 voltage_select = SIMDRV_REQ_VOLTAGE_SEL; #endif /* TI_PS_UICC_CHIPSET_15 */ #if defined FF_DUAL_SIM OR (!defined TI_PS_UICC_CHIPSET_15) T_SIM_CARD sim_info; #endif /* FF_DUAL_SIM OR TI_PS_UICC_CHIPSET_15*/ TRACE_FUNCTION ("app_sim_activate_req()"); switch (sim_activate_req->proc) { case SIM_INITIALISATION: SIM_SET_FLAG (ACTIVATION_STARTED); SIM_CLEAR_FLAG (CALL_ACTIVE); sim_data.act_directory = NOT_PRESENT_16BIT; sim_data.act_field = NOT_PRESENT_16BIT; sim_data.status_time = THIRTY_SECONDS; sim_data.cust_mode = sim_activate_req->cust_mode; if (sim_activate_req->mmi_pro_file & SIM_MMI_BDN) SIM_SET_FLAG (BDN_SUPPORT_BY_MMI); else SIM_CLEAR_FLAG (BDN_SUPPORT_BY_MMI); if (sim_activate_req->mmi_pro_file & SIM_MMI_FDN) SIM_SET_FLAG (FDN_SUPPORT_BY_MMI); else SIM_CLEAR_FLAG (FDN_SUPPORT_BY_MMI); SIM_CLEAR_FLAG (CC_WITH_STK); #if defined SIM_TOOLKIT stk_check_tp (sim_data.stk_profile, sim_activate_req->stk_pro_file, MINIMUM(sizeof sim_data.stk_profile, sizeof sim_activate_req->stk_pro_file)); if (sim_data.stk_profile[1] & SAT_TP2_CC) SIM_SET_FLAG (CC_WITH_STK); if(sim_activate_req->v_trmst_file) { memcpy (sim_data.trmst, sim_activate_req->trmst_file, sizeof(sim_activate_req->trmst_file)); } else { memset (sim_data.trmst, FALSE, MAX_TRMST); } #endif TIMER_START (sim_handle, SIM_TIMER, T_DETECT_VALUE); #ifndef TI_PS_UICC_CHIPSET_15 retcode = SIM_Reset (&sim_info); #else retcode = simdrv_reset( reader_id, voltage_select); #endif TRACE_EVENT_P1 ("Result SIM Reset = %d", (int)retcode); switch (retcode) { case 0: /* * No problem */ break; case 1: case 3: case 8: case 9: /* * No card inserted */ TIMER_STOP (sim_handle, SIM_TIMER); app_sim_card_error (SIM_CAUSE_CARD_REMOVED); SIM_CLEAR_FLAG (SIM_INSERT); SIM_CLEAR_FLAG (ACTIVATION_STARTED); break; default: /* * other card problems */ TIMER_STOP (sim_handle, SIM_TIMER); app_sim_card_error (CAUSE_MAKE(DEFBY_CONDAT, ORIGSIDE_MS, SIM_ORIGINATING_ENTITY, retcode)); SIM_CLEAR_FLAG (SIM_INSERT); SIM_CLEAR_FLAG (ACTIVATION_STARTED); break; } break; case SIM_FDN_ENABLE: /* Implements Measure# 14 */ app_sim_activate_req_fdn_enable(TRUE); break; case SIM_FDN_DISABLE: /* Implements Measure# 14 */ app_sim_activate_req_fdn_enable(FALSE); break; #ifdef FF_DUAL_SIM case SIM_SELECT: if(sim_activate_req->sim_num < 0 OR sim_activate_req->sim_num > 2) { app_sim_card_error (SIM_CAUSE_PARAM_WRONG); break; } sim_data.SIM_Selection = TRUE; if(SIM_IS_FLAG_SET (SIM_INSERT)) { SIM_PowerOff (); app_init_sim_data (); SIM_CLEAR_FLAG (SIM_INSERT); } retcode = SIM_SwitchDualSIM(sim_activate_req->sim_num); if(!retcode) { sim_data.sim_num = sim_activate_req->sim_num; TIMER_START (sim_handle, SIM_TIMER, T_DETECT_VALUE); retcode = SIM_Reset (&sim_info); TRACE_EVENT_P1 ("Result SIM Reset = %d", (int)retcode); switch (retcode) { case 0: /* * No problem */ break; case 1: case 3: case 8: case 9: /* * No card inserted */ TIMER_STOP (sim_handle, SIM_TIMER); app_sim_card_error (SIM_CAUSE_CARD_REMOVED); SIM_CLEAR_FLAG (SIM_INSERT); break; default: /* * other card problems */ TIMER_STOP (sim_handle, SIM_TIMER); app_sim_card_error (CAUSE_MAKE(DEFBY_CONDAT, ORIGSIDE_MS, SIM_ORIGINATING_ENTITY, retcode)); SIM_CLEAR_FLAG (SIM_INSERT); break; } } else { app_sim_card_error (CAUSE_MAKE(DEFBY_CONDAT, ORIGSIDE_MS, SIM_ORIGINATING_ENTITY, retcode)); } sim_data.SIM_Selection = FALSE; break; #endif /*FF_DUAL_SIM*/ default: app_sim_card_error (SIM_CAUSE_PARAM_WRONG); /* wrong parameter */ SIM_EM_SIM_ACTIVATION_STARTED; break; } PFREE (sim_activate_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_check_service | +--------------------------------------------------------------------+ PURPOSE : Checks a service status. */ GLOBAL UBYTE app_sim_check_service (UBYTE nr, UBYTE * serv_table) { UBYTE value; TRACE_FUNCTION ("app_check_sim_service()"); serv_table = serv_table + (nr-1)/4; value = * serv_table; value = value >> (((nr-1) & 3) * 2); value = value & 3; return value; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_fdn_bdn_procedures | +--------------------------------------------------------------------+ PURPOSE : Processing of the FDN/BDN procedures according annex B of GSM 11.11. */ static const UBYTE op [9] = { SIM_ADN_ENABLED, /* no BDN, no FDN */ SIM_ADN_BDN_ENABLED, /* BDN enabled, no FDN */ SIM_ADN_ENABLED, /* BDN disabled, no FND */ SIM_FDN_ENABLED, /* no BDN, FDN enabled */ SIM_FDN_BDN_ENABLED, /* BDN enabled, FDN enabled */ SIM_FDN_ENABLED, /* BDN disabled, FND enabled */ SIM_ADN_ENABLED, /* no BDN, FDN disabled */ SIM_ADN_BDN_ENABLED, /* BDN enabled, FDN disabled */ SIM_ADN_ENABLED /* BDN disabled, FND disabled */ }; GLOBAL UBYTE app_fdn_bdn_procedures (T_SIM_MMI_INSERT_IND *sim_mmi_insert_ind) { UBYTE bdn_capability; UBYTE fdn_capability; UBYTE check_imsi_loci; TRACE_FUNCTION ("app_fdn_bdn_procedures()"); /* * IMSI and Location Information are * both not invalidated */ check_imsi_loci = app_check_imsi_loci_validation (); if (!app_read_sim_service_table(sim_mmi_insert_ind)) return SIM_NO_OPERATION; if (check_imsi_loci) return SIM_ADN_ENABLED; bdn_capability = app_bdn_capability_request (); fdn_capability = app_fdn_capability_request (); if (SIM_IS_FLAG_SET (CC_WITH_STK)) { /* * ME supports Call control with SIM Toolkit */ /* * if mobile has no BDN capability, but the SIM card */ if (bdn_capability EQ BDN_ENABLED AND SIM_IS_FLAG_CLEARED (BDN_SUPPORT_BY_MMI)) return SIM_NO_OPERATION; /* * if mobile has no FDN capability, but the SIM card */ if (fdn_capability EQ FDN_ENABLED AND SIM_IS_FLAG_CLEARED (FDN_SUPPORT_BY_MMI)) return SIM_NO_OPERATION; /* * Try rehabilitation of IMSI and Location Information */ if (app_rehabilitate_imsi_loci ()) return op [bdn_capability + 3 * fdn_capability]; else return SIM_NO_OPERATION; } else { /* * ME doesn´t support Call control with SIM Toolkit */ /* * if mobile has no FDN capability or FDN is not enabled on the SIM card */ if (fdn_capability NEQ FDN_ENABLED OR SIM_IS_FLAG_CLEARED (FDN_SUPPORT_BY_MMI)) return SIM_NO_OPERATION; /* * Try rehabilitation of IMSI and Location Information */ if (app_rehabilitate_imsi_loci ()) return SIM_FDN_ENABLED; else return SIM_NO_OPERATION; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_check_imsi_loci_validation | +--------------------------------------------------------------------+ PURPOSE : Checks the validation flag of IMSI and Location information. */ GLOBAL UBYTE app_check_imsi_loci_validation (void) { UBYTE response[SIMDRV_MAX_RESULT]; T_FIELD_STATUS field_status; TRACE_FUNCTION ("app_check_imsi_loci_validation()"); /* Currently selected EF information is reset to force the selection */ sim_data.act_field = NOT_PRESENT_16BIT; /* * check IMSI */ if (FKT_Select (SIM_LOCI, FALSE, NULL,response, SIM_MIN_EF_ST_LEN) EQ SIM_NO_ERROR) memcpy(&field_status,response,SIM_MIN_EF_ST_LEN); else return FALSE; /* * check invalidation flag */ if ((field_status.file_status & 1) EQ 0) return FALSE; /* * check Location Information */ if (FKT_Select (SIM_IMSI, FALSE, NULL,response, SIM_MIN_EF_ST_LEN) EQ SIM_NO_ERROR) memcpy(&field_status,response,SIM_MIN_EF_ST_LEN); else return FALSE; /* * check invalidation flag */ if ((field_status.file_status & 1) EQ 0) return FALSE; /* * both fields are not invalidated */ return TRUE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_bdn_capability_request | +--------------------------------------------------------------------+ PURPOSE : Checks the BDN capability of the SIM card. */ GLOBAL UBYTE app_bdn_capability_request (void) { T_FIELD_STATUS field_status; UBYTE response[SIMDRV_MAX_RESULT]; TRACE_FUNCTION ("app_bdn_capability_request()"); /* * check service in sim service table */ if (SIM_IS_FLAG_CLEARED (SERVICE_31_SUPPORT)) return NO_BDN_SIM; /* * Select BDN field and check invalidation flag */ /* Currently selected EF information is reset to force the selection */ sim_data.act_field = NOT_PRESENT_16BIT; if (FKT_Select (SIM_BDN, FALSE, NULL, response, SIM_MIN_EF_ST_LEN) EQ SIM_NO_ERROR) memcpy(&field_status, response, SIM_MIN_EF_ST_LEN); else return NO_BDN_SIM; if ((field_status.file_status & 1) EQ 0) return BDN_DISABLED; else return BDN_ENABLED; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_fdn_capability_request | +--------------------------------------------------------------------+ PURPOSE : Checks the FDN capability of the SIM card. */ GLOBAL UBYTE app_fdn_capability_request (void) { T_FIELD_STATUS field_status; UBYTE response[SIMDRV_MAX_RESULT]; TRACE_FUNCTION ("app_fdn_capability_request()"); /* * check service in sim service table */ if (SIM_IS_FLAG_CLEARED (SERVICE_3_SUPPORT)) return NO_FDN_SIM; /* * FDN is allocated and activated. Check against ADN. * Only ADN or FDN is possible. */ if (SIM_IS_FLAG_CLEARED (SERVICE_2_SUPPORT)) return FDN_ENABLED; /* * Select ADN field and check invalidation flag */ /* Currently selected EF information is reset to force the selection */ sim_data.act_field = NOT_PRESENT_16BIT; if (FKT_Select (SIM_ADN, FALSE, NULL, response, SIM_MIN_EF_ST_LEN) EQ SIM_NO_ERROR) memcpy(&field_status, response, SIM_MIN_EF_ST_LEN); else return FDN_ENABLED; if ((field_status.file_status & 1) EQ 0) return FDN_ENABLED; else return FDN_DISABLED; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_rehabilitate_imsi_loci | +--------------------------------------------------------------------+ PURPOSE : Tries to rehabilitate IMSI and location information. */ GLOBAL UBYTE app_rehabilitate_imsi_loci (void) { USHORT error; TRACE_FUNCTION ("app_rehabilitate_imsi_loci()"); /* * rehabilitate IMSI */ error = FKT_Select (SIM_LOCI, FALSE, NULL, NULL, 0); if (error EQ SIM_NO_ERROR OR error EQ SIM_NO_ERR_FILE_ALREADY_SELECTED) { if (FKT_Rehabilitate () NEQ SIM_NO_ERROR) return FALSE; } else return FALSE; /* * rehabilitate Location Information */ if (FKT_Select (SIM_IMSI, FALSE, NULL, NULL, 0) EQ SIM_NO_ERROR) { if (FKT_Rehabilitate () NEQ SIM_NO_ERROR) return FALSE; } else return FALSE; return TRUE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_start_status_timer | +--------------------------------------------------------------------+ PURPOSE : (Re-)Start the timer for periodical status requests to the SIM card. If parameter 'condx' is set TRUE, then the timer is (re-)started regardless of the SIM being a test SIM, or not. Also entry point for SIM toolkit commands. */ GLOBAL void app_start_status_timer (BOOL condx) { T_TIME t_val; TRACE_FUNCTION ("app_start_status_timer()"); /* * start status timer if call is active and SIM is inserted * for periodic status polling of SIM toolkit polling */ if (SIM_IS_FLAG_SET (SIM_INSERT)) { if (SIM_IS_FLAG_SET (CALL_ACTIVE) #if defined SIM_TOOLKIT OR (SIM_IS_FLAG_SET (PRO_ACTIVE_SIM) AND (SIM_IS_FLAG_CLEARED (TEST_MODE_POLLING) OR condx)) #endif #ifdef TI_PS_FF_SIM_POLL_ALWAYS OR SIM_IS_FLAG_CLEARED (PRO_ACTIVE_SIM) #endif ) { /* when idle polling is enabled, use that timer value (as long as * it's not more than 30s); else, we're only SIM presence * detecting, during the call, with an interval of those 30s. * This will be disabled, at the end of the call, again. */ #if defined SIM_TOOLKIT if (sim_data.idle_polling) { t_val = (SIM_IS_FLAG_SET (CALL_ACTIVE) AND sim_data.status_time > THIRTY_SECONDS)? THIRTY_SECONDS: sim_data.status_time; } else #endif { t_val = THIRTY_SECONDS; } /* * Start Status Polling during Call */ TIMER_PSTART (sim_handle, SIM_TIMER, t_val, t_val); } #if defined SIM_TOOLKIT sim_data.chk_sat_avail = TRUE; /* stk_proactive_polling();*/ #endif } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_check_access_conditions | +--------------------------------------------------------------------+ PURPOSE : The function checks the access conditions. It sets the last requested pin number derived from the field status of the selected file. It returns whether access is possible or not. */ GLOBAL BOOL app_check_access_conditions (UBYTE proc, T_FIELD_STATUS *field_status) { UBYTE access; TRACE_FUNCTION ("app_check_access_conditions()"); switch (proc) { case ACCESS_READ: access = field_status->access_1 >> 4; break; case ACCESS_UPDATE: access = field_status->access_1 & 0x0F; break; case ACCESS_INCREASE: access = field_status->access_2 >> 4; break; case ACCESS_REHABILITATE: access = field_status->access_3 >> 4; break; case ACCESS_INVALIDATE: access = field_status->access_3 & 0x0F; break; default: sim_data.last_requested_pin_no = LRP_NEVER; return FALSE; } switch (access) { case ALWAYS: case PIN_1: case PIN_2: sim_data.last_requested_pin_no = access; return TRUE; default: /* ADM or NEVER */ sim_data.last_requested_pin_no = LRP_NEVER; return FALSE; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_APP | | STATE : code ROUTINE : app_sim_access_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_ACCESS_REQ. */ GLOBAL void app_sim_access_req (T_SIM_ACCESS_REQ * sim_access_req_org) { USHORT result; USHORT offset; USHORT size = 0,length; USHORT rcvLen = 0; #ifdef TI_PS_UICC_CHIPSET_15 T_SIMDRV_cmd_header cmd_header; U8 reader_id = SIMDRV_VAL_READER_ID__RANGE_MIN; T_SIMDRV_data_info data_info; T_SIMDRV_result_info result_info; U8 offset_high; U8 offset_low; #endif static UBYTE get_resp[SIM_TPDU_HEADER_LEN] = {0x00, 0xC0, 0x00, 0x00, 0x00}; T_SIM_ACCESS_CNF *sim_access_cnf; PPASS (sim_access_req_org, sim_access_req, SIM_ACCESS_REQ); sim_access_cnf = P_ALLOC (SIM_ACCESS_CNF); TRACE_FUNCTION ("app_sim_access_req()"); /* * initialize answer */ sim_access_cnf->req_id = sim_access_req->req_id; sim_access_cnf->c_trans_data = 0; sim_access_cnf->sw1 = sim_access_cnf->sw2 = 0; memset (sim_access_cnf->trans_data, 0, sizeof (sim_access_cnf->trans_data)); sim_data.sw1 = sim_data.sw2 = 0; /* delete previous result code */ if (SIM_IS_FLAG_SET (SIM_INSERT)) { /* * if SIM is inserted, try to select the SIM card. */ switch (sim_access_req->sim_command) { case SIM_GET_RESPONSE: sim_data.act_directory = NOT_PRESENT_16BIT; sim_data.act_field = NOT_PRESENT_16BIT; case SIM_READ_BINARY: case SIM_READ_RECORD: case SIM_UPDATE_BINARY: case SIM_UPDATE_RECORD: length = (sim_access_req->p3 > 0)? sim_access_req->p3: NOT_PRESENT_16BIT; /* Access request coming from AT Command is only for standard files. Hence path info can be set as NULL */ sim_access_cnf->cause = FKT_Select (sim_access_req->datafield, FALSE, NULL,sim_access_cnf->trans_data, length); if(sim_access_cnf->cause EQ SIM_NO_ERR_FILE_ALREADY_SELECTED) sim_access_cnf->cause = SIM_NO_ERROR; sim_access_cnf->c_trans_data = (USHORT)sim_data.sim_data_len - SIM_TI_DRV_X_BYTES; sim_access_cnf->sw1 = (UBYTE)(sim_access_cnf->cause >> 8); sim_access_cnf->sw2 = (UBYTE)sim_access_cnf->cause; break; case SIM_TRANSP_CMD: if (sim_access_req->c_trans_data < 4 OR sim_access_req->c_trans_data > 261 OR sim_access_req->trans_data[0] EQ GSM_CLASS) { sim_access_cnf->cause = SIM_CAUSE_PARAM_WRONG; break; } /* no break */ case SIM_STATUS: sim_access_cnf->cause = SIM_NO_ERROR; break; default: sim_access_cnf->cause = SIM_CAUSE_PARAM_WRONG; break; } if (sim_access_cnf->cause EQ SIM_NO_ERROR) { /* * switch depending on SIM command */ switch (sim_access_req->sim_command) { case SIM_READ_BINARY: /* * calculate offset from P1 and P2 */ offset = (sim_access_req->p1 << 8) + sim_access_req->p2; /* * call SIM driver */ #ifndef TI_PS_UICC_CHIPSET_15 result= SIM_ReadBinary (sim_access_cnf->trans_data, offset, (USHORT)sim_access_req->p3, &size); #else /* !TI_PS_UICC_CHIPSET_15 */ offset_high = (U8)((offset &0x7F00)>>8); /* to make the 8th bit 0 as per 102.221 */ offset_low = (U8)(offset & 0x00FF); reader_id = SIMDRV_VAL_READER_ID__RANGE_MIN; cmd_header.cla = SIMDRV_GSM_CLASS_BYTE; cmd_header.ins = SIMDRV_INS_READ_BINARY; cmd_header.p1 =offset_high ; cmd_header.p2 =offset_low ; data_info.data = NULL; data_info.c_data = 0; result_info.result = (U8 *)sim_access_cnf->trans_data; result_info.c_result = size; result_info.len = (USHORT)sim_access_req->p3; result= simdrv_xch_apdu (reader_id,cmd_header,data_info,&result_info); size = result_info.c_result; /* c_result will be updated by SIMDRV */ #endif /* !TI_PS_UICC_CHIPSET_15 */ /* * fill response primitive */ sim_access_cnf->c_trans_data = (USHORT)size - SIM_TI_DRV_X_BYTES; sim_access_cnf->sw1 = (UBYTE)(result >> 8); sim_access_cnf->sw2 = (UBYTE)result; break; case SIM_READ_RECORD: /* * call SIM driver */ #ifndef TI_PS_UICC_CHIPSET_15 result = SIM_ReadRecord (sim_access_cnf->trans_data, sim_access_req->p2, sim_access_req->p1, (USHORT)sim_access_req->p3, &size); #else /* !TI_PS_UICC_CHIPSET_15 */ reader_id = SIMDRV_VAL_READER_ID__RANGE_MIN; cmd_header.cla = SIMDRV_GSM_CLASS_BYTE ; cmd_header.ins = SIMDRV_INS_READ_RECORD; cmd_header.p1 = (U8)sim_access_req->p1; cmd_header.p2 = (U8)sim_access_req->p2; data_info.data = NULL; data_info.c_data = 0; result_info.result = (U8 *)sim_access_cnf->trans_data ; result_info.c_result = size; result_info.len =(USHORT)sim_access_req->p3; result= simdrv_xch_apdu (reader_id,cmd_header,data_info, &result_info); size = result_info.c_result; /* c_result will be updated by SIMDRV */ #endif /* !TI_PS_UICC_CHIPSET_15 */ /* * fill response primitive */ sim_access_cnf->c_trans_data = (USHORT)size - SIM_TI_DRV_X_BYTES; sim_access_cnf->sw1 = (UBYTE)(result >> 8); sim_access_cnf->sw2 = (UBYTE)result; break; case SIM_GET_RESPONSE: /* * call SIM driver */ #ifndef TI_PS_UICC_CHIPSET_15 length = (sim_access_req->p3 > 0)? sim_access_req->p3: sim_data.sim_data_len; result = SIM_GetResponse (sim_access_cnf->trans_data, length, &size); sim_access_cnf->c_trans_data = (USHORT)size - SIM_TI_DRV_X_BYTES; sim_access_cnf->sw1 = (UBYTE)(result >> 8); sim_access_cnf->sw2 = (UBYTE)result; #endif break; case SIM_UPDATE_BINARY: /* * calculate offset from P1 and P2 */ offset = (sim_access_req->p1 << 8) + sim_access_req->p2; /* * call SIM driver */ #ifndef TI_PS_UICC_CHIPSET_15 result= SIM_UpdateBinary (sim_access_cnf->trans_data, sim_access_req->trans_data, offset, (USHORT)sim_access_req->p3, &size); #else /* !TI_PS_UICC_CHIPSET_15 */ offset_high = (U8)((offset &0x7F00)>>8);/*to make the 8th bit 0 as per 102.221*/ offset_low = (U8)(offset & 0x00FF); reader_id = SIMDRV_VAL_READER_ID__RANGE_MIN; cmd_header.cla = SIMDRV_GSM_CLASS_BYTE ; cmd_header.ins = SIMDRV_INS_UPDATE_BINARY; cmd_header.p1 = offset_high; cmd_header.p2 = offset_low; data_info.data = (U8 *)sim_access_req->trans_data; data_info.c_data = (U8)sim_access_req->p3; result_info.result = sim_access_cnf->trans_data; result_info.c_result = size; result_info.len = NOT_PRESENT_16BIT; result= simdrv_xch_apdu (reader_id,cmd_header,data_info,&result_info); size = result_info.c_result; /* c_result will be updated by SIMDRV */ #endif /* !TI_PS_UICC_CHIPSET_15 */ /* * fill response primitive */ sim_access_cnf->sw1 = (UBYTE)(result >> 8); sim_access_cnf->sw2 = (UBYTE)result; break; case SIM_UPDATE_RECORD: /* * call SIM driver */ #ifndef TI_PS_UICC_CHIPSET_15 result = SIM_UpdateRecord (sim_access_cnf->trans_data, sim_access_req->trans_data, sim_access_req->p2, sim_access_req->p1, (USHORT)sim_access_req->p3, &size); #else /* !TI_PS_UICC_CHIPSET_15 */ reader_id = SIMDRV_VAL_READER_ID__RANGE_MIN; cmd_header.cla = SIMDRV_GSM_CLASS_BYTE ; cmd_header.ins = SIMDRV_INS_UPDATE_RECORD; cmd_header.p1 = (U8)sim_access_req->p1; cmd_header.p2 = (U8)sim_access_req->p2; data_info.data = (U8*)sim_access_req->trans_data; data_info.c_data = (U8)sim_access_req->p3; result_info.result = sim_access_cnf->trans_data; result_info.c_result = size; result_info.len = NOT_PRESENT_16BIT; result= simdrv_xch_apdu (reader_id,cmd_header,data_info,&result_info); size = result_info.c_result; /* c_result will be updated by SIMDRV */ #endif /* !TI_PS_UICC_CHIPSET_15 */ /* * fill response primitive */ sim_access_cnf->sw1 = (UBYTE)(result >> 8); sim_access_cnf->sw2 = (UBYTE)result; break; case SIM_STATUS: /* * call SIM driver */ length = (sim_access_req->p3 > 0)? (USHORT)sim_access_req->p3: sim_data.dir_status_len; #ifndef TI_PS_UICC_CHIPSET_15 result = SIM_Status_Extended (sim_access_cnf->trans_data, length, &size); #else /* !TI_PS_UICC_CHIPSET_15 */ reader_id = SIMDRV_VAL_READER_ID__RANGE_MIN; cmd_header.cla = SIMDRV_GSM_CLASS_BYTE; cmd_header.ins = SIMDRV_INS_STATUS; cmd_header.p1 = 0; cmd_header.p2 = 0; data_info.data = NULL; data_info.c_data = 0; result_info.result = (U8 *)sim_access_cnf->trans_data; result_info.len = length; result_info.c_result = size; result = simdrv_xch_apdu(reader_id, cmd_header, data_info, &result_info); size = result_info.c_result; /* c_result will be updated by SIMDRV */ #endif /* !TI_PS_UICC_CHIPSET_15 */ sim_access_cnf->c_trans_data = (USHORT)size - SIM_TI_DRV_X_BYTES; sim_access_cnf->sw1 = (UBYTE)(result >> 8); sim_access_cnf->sw2 = (UBYTE)result; break; case SIM_TRANSP_CMD: /* * transparent SIM access */ #ifdef TI_PS_UICC_CHIPSET_15 #ifdef _SIMULATION_ sim_command_type = SIM_TRANSP_CMD; #endif #endif if (sim_access_req->c_trans_data EQ 4) { sim_access_req->trans_data[4] = '\0'; sim_access_req->c_trans_data = 5; #ifndef TI_PS_UICC_CHIPSET_15 result = SIM_XchTPDU (sim_access_req->trans_data, sim_access_req->c_trans_data, sim_access_cnf->trans_data, 0, &sim_access_cnf->c_trans_data); #else /* !TI_PS_UICC_CHIPSET_15 */ cmd_header.cla = sim_access_req->trans_data[0]; cmd_header.ins = sim_access_req->trans_data[1]; cmd_header.p1 = sim_access_req->trans_data[2]; cmd_header.p2 = sim_access_req->trans_data[3]; data_info.data = &sim_access_req->trans_data[5]; data_info.c_data = (U8)sim_access_req->c_trans_data; result_info.result = sim_access_cnf->trans_data; result_info.len = (USHORT)sim_access_req->trans_data[4]; result_info.c_result = sim_access_cnf->c_trans_data; result = simdrv_xch_apdu (reader_id, cmd_header, data_info, &result_info); sim_access_cnf->c_trans_data = result_info.c_result; #endif /* !TI_PS_UICC_CHIPSET_15 */ } else if (sim_access_req->c_trans_data EQ 5) { rcvLen = (USHORT)sim_access_req->trans_data[4]; if (rcvLen EQ 0) rcvLen = 256; #ifndef TI_PS_UICC_CHIPSET_15 result = SIM_XchTPDU (sim_access_req->trans_data, sim_access_req->c_trans_data, sim_access_cnf->trans_data, rcvLen, &sim_access_cnf->c_trans_data); #else /* !TI_PS_UICC_CHIPSET_15 */ cmd_header.cla = sim_access_req->trans_data[0]; cmd_header.ins = sim_access_req->trans_data[1]; cmd_header.p1 = sim_access_req->trans_data[2]; cmd_header.p2 = sim_access_req->trans_data[3]; data_info.data = &sim_access_req->trans_data[5]; data_info.c_data = (U8)sim_access_req->c_trans_data; result_info.result = sim_access_cnf->trans_data; result_info.len = (USHORT)sim_access_req->trans_data[4]; result_info.c_result = sim_access_cnf->c_trans_data; result = simdrv_xch_apdu (reader_id, cmd_header, data_info, &result_info); sim_access_cnf->c_trans_data = result_info.c_result; #endif /* !TI_PS_UICC_CHIPSET_15 */ } else { if (sim_access_req->c_trans_data EQ ((USHORT)sim_access_req->trans_data[4] + 6)) { rcvLen = (USHORT)sim_access_req->trans_data[--sim_access_req->c_trans_data]; if (rcvLen EQ 0) rcvLen = 256; } #ifndef TI_PS_UICC_CHIPSET_15 result = SIM_XchTPDU (sim_access_req->trans_data, sim_access_req->c_trans_data, sim_access_cnf->trans_data, 0, &sim_access_cnf->c_trans_data); #else /* !TI_PS_UICC_CHIPSET_15 */ cmd_header.cla = sim_access_req->trans_data[0]; cmd_header.ins = sim_access_req->trans_data[1]; cmd_header.p1 = sim_access_req->trans_data[2]; cmd_header.p2 = sim_access_req->trans_data[3]; data_info.data = &sim_access_req->trans_data[5]; data_info.c_data = (U8)sim_access_req->c_trans_data; result_info.result = sim_access_cnf->trans_data; result_info.len = (USHORT)sim_access_req->trans_data[4]; result_info.c_result = sim_access_cnf->c_trans_data; result = simdrv_xch_apdu (reader_id, cmd_header, data_info, &result_info); sim_access_cnf->c_trans_data = result_info.c_result; #endif /* !TI_PS_UICC_CHIPSET_15 */ { USHORT sw1, sw2; sw1 = (result >> 8); sw2 = result & 0xFF; if (sw1 EQ 0x61) { if ((rcvLen <= 0) OR (sw2 < rcvLen)) rcvLen = sw2; } else if (sw1 NEQ 0x90) { rcvLen = 0; } if (rcvLen > 0) { TRACE_EVENT_P2 ("SW1=%02X SW2=%02X", (int)sw1, (int)sw2); get_resp[0] = sim_access_req->trans_data[0]; get_resp[4] = (UBYTE)rcvLen; #ifndef TI_PS_UICC_CHIPSET_15 result = SIM_XchTPDU (get_resp, SIM_TPDU_HEADER_LEN, sim_access_cnf->trans_data, rcvLen, &sim_access_cnf->c_trans_data); #else /* !TI_PS_UICC_CHIPSET_15 */ cmd_header.cla = get_resp[0]; cmd_header.ins = get_resp[1]; cmd_header.p1 = get_resp[2]; cmd_header.p2 = get_resp[3]; data_info.data = &get_resp[5]; data_info.c_data = SIM_TPDU_HEADER_LEN; result_info.result = sim_access_cnf->trans_data; result_info.len = (USHORT)get_resp[4]; result_info.c_result = sim_access_cnf->c_trans_data; result = simdrv_xch_apdu (reader_id, cmd_header, data_info, &result_info); sim_access_cnf->c_trans_data = result_info.c_result; #endif /* !TI_PS_UICC_CHIPSET_15 */ } } } size = (sim_access_cnf->c_trans_data -= SIM_TI_DRV_X_BYTES); if ((result & 0xF000) EQ 0x6000 OR (result & 0xF000) EQ 0x9000) { sim_access_cnf->sw1 = (UBYTE)(result >> 8); sim_access_cnf->sw2 = (UBYTE)result; } else if ((result & 0xFF00) EQ 0) { sim_access_cnf->cause = CAUSE_MAKE(DEFBY_CONDAT, ORIGSIDE_MS, SIM_ORIGINATING_ENTITY, result); } else { sim_access_cnf->cause = SIM_CAUSE_OTHER_ERROR; } break; default: sim_access_cnf->cause = SIM_CAUSE_PARAM_WRONG; break; } TRACE_EVENT_P3 ("SW1=%02X SW2=%02X SIZE=%d", sim_access_cnf->sw1, sim_access_cnf->sw2, (int)size); /* * start status timer again */ app_start_status_timer (FALSE); } else { sim_access_cnf->sw1 = sim_data.sw1; sim_access_cnf->sw2 = sim_data.sw2; } } else /* * sim is not inserted */ sim_access_cnf->cause = SIM_CAUSE_CARD_REMOVED; /* * free incoming primitive */ PFREE (sim_access_req); /* * send result to MMI */ PSENDX (MMI, sim_access_cnf); } #endif