FreeCalypso > hg > fc-magnetite
view src/g23m-gsm/sim/sim_fkt.c @ 665:2795a11973b8
UART PS entity: added trace of line state changes
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Wed, 27 May 2020 22:46:55 +0000 |
parents | 27a4235405c6 |
children |
line wrap: on
line source
/* +----------------------------------------------------------------------------- | Project : GSM-F&D (8411) | Modul : SIM_FKT +----------------------------------------------------------------------------- | 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 wrapping functions for the | SIM application. +----------------------------------------------------------------------------- */ #ifndef SIM_FKT_C #define SIM_FKT_C #define ENTITY_SIM /*==== INCLUDES ===================================================*/ #include <string.h> #include "typedefs.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" /*==== EXPORT =====================================================*/ #ifdef _SIMULATION_ LOCAL USHORT first_time_into_fkt_select = TRUE; LOCAL USHORT file_id; #endif GLOBAL USHORT stk_l_cmd = 0; /*==== PRIVAT =====================================================*/ /*==== VARIABLES ==================================================*/ /*==== FUNCTIONS ===================================================*/ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_check_pin_count | +--------------------------------------------------------------------+ PURPOSE : PIN/PUK count is checked for secret code initialisation. count is set to zero, if not initialised, otherwise the initialisation flag (most significant bit) is reset. */ GLOBAL UBYTE FKT_check_pin_count (UBYTE count) { if ((count & 0x80) EQ 0) return 0; return count & 0x0F; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_convert_error | +--------------------------------------------------------------------+ PURPOSE : Converts sw1 and sw2 to an unique error code for the SIM application. */ /* * PIN/PUK is wrong, remaining attempts */ const static USHORT sim_inv_chv_A [6] = { /* last requested PIN no error code */ /* none */ SIM_CAUSE_OTHER_ERROR, /* PIN 1 */ SIM_CAUSE_PIN1_EXPECT, /* PIN 2 */ SIM_CAUSE_PIN2_EXPECT, /* PUK 1 */ SIM_CAUSE_PUK1_EXPECT, /* PUK 2 */ SIM_CAUSE_PUK2_EXPECT, /* NEVER */ SIM_CAUSE_ACCESS_PROHIBIT }; /* * PIN/PUK is wrong, no remaining attempts */ const static USHORT sim_inv_chv_B [6] = { /* last requested PIN no error code */ /* none */ SIM_CAUSE_OTHER_ERROR, /* PIN 1 */ SIM_CAUSE_PIN1_BLOCKED, /* PIN 2 */ SIM_CAUSE_PIN2_BLOCKED, /* PUK 1 */ SIM_CAUSE_PUK1_BLOCKED, /* PUK 2 */ SIM_CAUSE_PUK2_BLOCKED, /* NEVER */ SIM_CAUSE_OTHER_ERROR }; GLOBAL USHORT FKT_convert_error (USHORT sw1sw2, USHORT size) { TRACE_FUNCTION ("FKT_convert_error()"); sim_data.sw1 = (UBYTE)(sw1sw2 >> 8); sim_data.sw2 = (UBYTE)sw1sw2; TRACE_EVENT_P2 ("SW1=%02X SW2=%02X", sim_data.sw1, sim_data.sw2); switch (sim_data.sw1) { case 0x00: /* * SIM driver error */ if (SIM_IS_FLAG_CLEARED(SIM_INSERT)) { return SIM_CAUSE_CARD_REMOVED; } if (sim_data.sw2 EQ 14) { SIM_SET_FLAG(DRV_FAILED_RETRY); return SIM_CAUSE_DRV_TEMPFAIL; } return CAUSE_MAKE(DEFBY_CONDAT, ORIGSIDE_MS, SIM_ORIGINATING_ENTITY, sim_data.sw2); #if defined SIM_TOOLKIT case 0x9E: /* * use SW2 as length indicator for * the following get response */ if (sim_data.sim_phase >= 3) /* Phase 2+ or higher */ { if (sim_data.stk_profile[0] & SAT_TP1_9E_XX) { sim_data.sim_data_len = (sim_data.sw2 EQ 0)? 0x100: (USHORT)sim_data.sw2; return SIM_CAUSE_DNL_ERROR; } else return SIM_CAUSE_SAT_BUSY; } else return SIM_CAUSE_OTHER_ERROR; case 0x93: if (sim_data.sim_phase >= 3) /* Phase 2+ or higher */ { return SIM_CAUSE_SAT_BUSY; } else return SIM_CAUSE_OTHER_ERROR; case 0x91: if (sim_data.sim_phase >= 3) /* Phase 2+ or higher */ { sim_data.proactive_sim_data_len = (sim_data.sw2 EQ 0)? 0x100: (SHORT)sim_data.sw2; return SIM_NO_ERROR; } else return SIM_CAUSE_OTHER_ERROR; #endif case 0x92: if (sim_data.sw2 > 0xF) { #ifdef REL99 if (sim_data.sw2 EQ SW2_MEMORY_PROBLEM) { return SIM_CAUSE_MEM_PROBLEM; } #endif /* end of ifdef REL99 */ return SIM_CAUSE_OTHER_ERROR; } /* no break (otherwise the command was successful) */ case 0x90: if( (size >= 0) AND (size <= 0x100) ) { sim_data.sim_data_len = size; TRACE_EVENT_P1 ("sim_data.sim_data_len updated size =%X ", size); } return SIM_NO_ERROR; case 0x9F: /* * use SW2 as length indicator for * the following get response */ sim_data.sim_data_len = (sim_data.sw2 EQ 0)? 0x100: (USHORT)sim_data.sw2; return SIM_NO_ERROR; case 0x94: switch (sim_data.sw2) { case 0: return SIM_CAUSE_NO_SELECT; case 2: return SIM_CAUSE_ADDR_WRONG; case 4: return SIM_CAUSE_UNKN_FILE_ID; case 8: return SIM_CAUSE_CMD_INCONSIST; default: break; } break; case 0x98: TRACE_EVENT_P1 ("LRP = %d", (int)sim_data.last_requested_pin_no); switch (sim_data.sw2) { case 2: return SIM_CAUSE_CHV_NOTSET; case 8: return SIM_CAUSE_CHV_VALIDATED; case 0x10: return SIM_CAUSE_EF_INVALID; /* contradiction cases */ case 4: return sim_inv_chv_A [sim_data.last_requested_pin_no]; case 0x40: return sim_inv_chv_B [sim_data.last_requested_pin_no]; case 0x50: return SIM_CAUSE_MAX_INCREASE; default: break; } break; } return SIM_CAUSE_OTHER_ERROR; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_ChangeCHV | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_ChangeCHV. */ GLOBAL USHORT FKT_ChangeCHV (UBYTE * old_pin, UBYTE * new_pin, UBYTE pin_id) { USHORT size = 0; USHORT sw1sw2; UBYTE response[4]; TRACE_FUNCTION ("FKT_ChangeCHV()"); sw1sw2 = SIM_ChangeCHV ((UBYTE *)response, (UBYTE *)old_pin, (UBYTE *)new_pin, (UBYTE)pin_id, &size); return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_DisableCHV | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_DisableCHV. */ GLOBAL USHORT FKT_DisableCHV (UBYTE * pin) { USHORT size = 0; USHORT sw1sw2; UBYTE response[4]; TRACE_FUNCTION ("FKT_DisableCHV()"); sw1sw2 = SIM_DisableCHV ((UBYTE *)response, (UBYTE *)pin, &size); return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_EnableCHV | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_EnableCHV. */ GLOBAL USHORT FKT_EnableCHV (UBYTE * pin) { USHORT size = 0; USHORT sw1sw2; UBYTE response[4]; TRACE_FUNCTION ("FKT_EnableCHV()"); sw1sw2 = SIM_EnableCHV ((UBYTE *)response, (UBYTE *)pin, &size); return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_GetResponse | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_GetResponse. */ GLOBAL USHORT FKT_GetResponse (UBYTE * data, USHORT len) { USHORT size = 0; USHORT sw1sw2; TRACE_FUNCTION ("FKT_GetResponse()"); sw1sw2 = SIM_GetResponse ((UBYTE *)data, len, &size); return FKT_convert_error (sw1sw2, len); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_Increase | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_Increase. */ GLOBAL USHORT FKT_Increase (UBYTE * data) { USHORT sw1sw2; USHORT size = 0; UBYTE response[4]; TRACE_FUNCTION ("FKT_Increase()"); sw1sw2 = SIM_Increase ((UBYTE *)response, (UBYTE *)data, &size); return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_Invalidate | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_Invalidate. */ GLOBAL USHORT FKT_Invalidate (void) { USHORT size = 0; USHORT sw1sw2; UBYTE response[4]; TRACE_FUNCTION ("FKT_Invalidate()"); sw1sw2 = SIM_Invalidate ((UBYTE *)response, &size); if (sw1sw2 EQ 0x9810) /* already invalidated */ return SIM_NO_ERROR; return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_ReadBinary | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_ReadBinary. */ GLOBAL USHORT FKT_ReadBinary (UBYTE * data, USHORT offset, USHORT length) { USHORT sw1sw2; USHORT size = 0; TRACE_FUNCTION ("FKT_ReadBinary()"); sw1sw2= SIM_ReadBinary ((UBYTE *)data, offset, length, &size); return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_ReadRecord | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_ReadRecord. */ GLOBAL USHORT FKT_ReadRecord (UBYTE * data, UBYTE mode, USHORT record, USHORT length) { USHORT sw1sw2; USHORT size = 0; #if !defined NTRACE char buf[48]; sprintf (buf, "FKT_ReadRecord(): Nr. %hu", record); TRACE_FUNCTION (buf); #endif sw1sw2 = SIM_ReadRecord ((UBYTE *)data, (UBYTE)mode, (UBYTE)record, length, &size); return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_Rehabilitate | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_Rehabilitate. */ GLOBAL USHORT FKT_Rehabilitate (void) { USHORT size = 0; USHORT sw1sw2; UBYTE response[4]; TRACE_FUNCTION ("FKT_Rehabilitate()"); sw1sw2 = SIM_Rehabilitate ((UBYTE *)response, &size); if (sw1sw2 EQ 0x9810) /* already rehabilitated */ return SIM_NO_ERROR; return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_Status | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_Status. */ GLOBAL USHORT FKT_Status (UBYTE * pin_cnt, UBYTE * pin2_cnt, UBYTE * puk_cnt, UBYTE * puk2_cnt) { USHORT size = 0; USHORT sw1sw2; USHORT cause; USHORT fileid; union { T_DIR_STATUS status; UBYTE response [40]; } dir; TRACE_FUNCTION ("FKT_Status()"); memset (dir.response, 0, sizeof(dir.response)); sw1sw2 = SIM_Status_Extended (dir.response, sim_data.dir_status_len, &size); cause = FKT_convert_error (sw1sw2, size); *pin_cnt = 0; *puk_cnt = 0; *pin2_cnt = 0; *puk2_cnt = 0; if (cause EQ SIM_NO_ERROR) { /* * Check file id on active call: if different from last directory * indicate failure during SIM Presence Detection (27.20). * A selection of a non-existent DF (possible with SIM_ACCESS_REQ) * leads to the loss of the current DF: this confuses the SIM * Presence Detection, therefore the validity of the actual DF * stored in 'sim_data.act_directory' must be considered. */ fileid = (dir.status.fileid[0] << 8) | dir.status.fileid[1]; if (SIM_IS_FLAG_SET (CALL_ACTIVE) AND /* call active */ sim_data.act_directory NEQ NOT_PRESENT_16BIT /* actual DF known? */ AND fileid NEQ sim_data.act_directory) /* compare DF */ return SIM_CAUSE_CARD_REMOVED; else { if (SIM_TI_DRV_X_BYTES > 0) /* discard SW1, SW2 from response! */ memset (&dir.response[sim_data.dir_status_len], 0, SIM_TI_DRV_X_BYTES); /* * Directory status is available */ *pin_cnt = FKT_check_pin_count (dir.status.pinstatus); *puk_cnt = FKT_check_pin_count (dir.status.unbstatus); *pin2_cnt = FKT_check_pin_count (dir.status.pin2status); *puk2_cnt = FKT_check_pin_count (dir.status.unb2status); } } return cause; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_RunGSMAlgo | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_RunGSMAlgo. */ GLOBAL USHORT FKT_RunGSMAlgo (UBYTE * rand, UBYTE * data, USHORT len) { UBYTE response[4]; USHORT sw1sw2; USHORT error; USHORT size = 0; TRACE_FUNCTION ("FKT_RunGSMAlgo()"); sw1sw2 = SIM_RunGSMAlgo ((UBYTE *)response, (UBYTE *)rand, &size); error = FKT_convert_error (sw1sw2, size); if (error EQ SIM_NO_ERROR) error = FKT_GetResponse (data, len); return error; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_Select | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_Select. */ LOCAL USHORT fkt_select_one (USHORT id, UBYTE * data, USHORT len) { USHORT size = 0; USHORT sw1sw2; USHORT error; UBYTE response[4]; sw1sw2 = SIM_Select (id, (UBYTE *)response, &size); error = FKT_convert_error (sw1sw2, size); if (error EQ SIM_NO_ERROR) { if( (data NEQ NULL ) AND (len NEQ 0 ) #ifdef _SIMULATION_ AND (id EQ file_id) #endif ) { #ifdef _SIMULATION_ len = (sim_data.sim_data_len < len)? sim_data.sim_data_len: len; first_time_into_fkt_select = TRUE; #endif error = FKT_GetResponse (data, sim_data.sim_data_len); } } return error; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : sim_select_df | +--------------------------------------------------------------------+ PURPOSE : Function to select the directory given the path. */ LOCAL USHORT sim_select_df(U16 dir_level,UBYTE *data,USHORT len) { USHORT result = SIM_NO_ERROR; result = fkt_select_one (dir_level, data, len); if (result NEQ SIM_NO_ERROR) { sim_data.act_directory = NOT_PRESENT_16BIT; sim_data.act_field = NOT_PRESENT_16BIT; } else { sim_data.act_directory = dir_level; } return result; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_Select | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_Select. */ GLOBAL USHORT FKT_Select (USHORT id, BOOL path_info_present, T_path_info * path_info_ptr, UBYTE * data, USHORT len) { USHORT result; USHORT directory = (SIM_IS_FLAG_SET (GSM_DATAFIELD))? SIM_DF_GSM: SIM_DF_1800; /* default parent directory */ #if !defined NTRACE char buf[32]; sprintf (buf, "FKT_Select(): id = %04X", id); TRACE_FUNCTION (buf); #endif #ifdef _SIMULATION_ if( (first_time_into_fkt_select EQ TRUE ) AND (data NEQ NULL) AND (len NEQ 0) ) file_id = id; #endif switch (id & 0xFF00) /* selecting DF deselects EF */ { case 0x3F00: case 0x7F00: case 0x5F00: sim_data.act_field = NOT_PRESENT_16BIT; break; } if( path_info_present NEQ FALSE ) { if((sim_data.act_directory & 0xFF00) NEQ 0x5F00 AND sim_data.act_directory NEQ NOT_PRESENT_16BIT) { /* Currently selected df is MF or a first level directory */ if(sim_data.act_directory NEQ path_info_ptr->df_level1) { result = sim_select_df(path_info_ptr->df_level1,data,len); if(result NEQ SIM_NO_ERROR) return result; } } /* Currently selected df is a second level directory */ else { result = sim_select_df(SIM_MF,data,len); if(result NEQ SIM_NO_ERROR) return result; result = sim_select_df(path_info_ptr->df_level1,data,len); if(result NEQ SIM_NO_ERROR) return result; } if(path_info_ptr->v_df_level2) { result = sim_select_df(path_info_ptr->df_level2,data,len); if(result NEQ SIM_NO_ERROR) return result; } result = fkt_select_one (id, data, len); if (result NEQ SIM_NO_ERROR) { sim_data.act_field = NOT_PRESENT_16BIT; } else { sim_data.act_field = id; } return result; } else { switch (id) { case SIM_MF: result = fkt_select_one (SIM_MF, data, len); if (result NEQ SIM_NO_ERROR) sim_data.act_directory = NOT_PRESENT_16BIT; else { sim_data.dir_status_len = sim_data.sim_data_len; sim_data.act_directory = id; } return result; default: /* All the standard defined EFs would be handled before coming to this * point. Complete path information should be given for non-standard 2nd level EFs * and they also would be handled before coming to this point. * This statement will be hit for non-standard files * without path information. Hence returning error */ return SIM_CAUSE_UNKN_FILE_ID; break; /* any other elementary file */ /* continue here in case of any first level directory */ case SIM_DF_GSM: case SIM_DF_1800: case SIM_DF_TELECOM: case SIM_DF_VI: case SIM_DF_ORANGE: if (sim_data.act_directory EQ id) return SIM_NO_ERROR; /* already selected */ else { /* If current directory has not been selected or it is a 2nd level and under another 1st level DF */ if (((sim_data.act_directory & 0xFF00) EQ 0x5F00 AND ! SIM_IS_DF_LEVEL2_UNDER_DF_LEVEL1(sim_data.act_directory,id)) OR sim_data.act_directory EQ NOT_PRESENT_16BIT) { /* MF has to be selected first */ result = sim_select_df(SIM_MF,data,len); if(result NEQ SIM_NO_ERROR) return result; } result = fkt_select_one (id, data, len); if (result NEQ SIM_NO_ERROR) { sim_data.act_directory = NOT_PRESENT_16BIT; sim_data.act_field = NOT_PRESENT_16BIT; } else { sim_data.dir_status_len = sim_data.sim_data_len; sim_data.act_directory = id; } return result; } case SIM_DF_GRAPHICS: directory = SIM_DF_TELECOM; /* parent directory */ /* no break */ /*lint -fallthrough*/ case SIM_DF_SOLSA: case SIM_DF_MEXE: if (sim_data.act_directory EQ id) return SIM_NO_ERROR; /* already selected */ if (sim_data.act_directory NEQ directory) { /* not the parent directory */ /* If current directory is MF or first level OR if the 2nd level directory is under another 1st level df, select the parent directory */ if((sim_data.act_directory & 0xFF00) NEQ 0x5F00 || (!SIM_IS_DF_LEVEL2_UNDER_DF_LEVEL1(sim_data.act_directory,directory)) ) { result = FKT_Select (directory, FALSE, NULL, data, len); if (result NEQ SIM_NO_ERROR) { sim_data.act_directory = NOT_PRESENT_16BIT; return result; } } } result = fkt_select_one (id, data, len); if (result NEQ SIM_NO_ERROR) { sim_data.act_directory = NOT_PRESENT_16BIT; sim_data.act_field = NOT_PRESENT_16BIT; } else { sim_data.dir_status_len = sim_data.sim_data_len; sim_data.act_directory = id; } return result; case SIM_ICCID: case SIM_ELP: /* * Access to Root Directory */ directory = SIM_MF; break; case SIM_ADN: case SIM_FDN: case SIM_SMS: case SIM_CCP: case SIM_MSISDN: case SIM_SMSP: case SIM_SMSS: case SIM_LND: case SIM_SMSR: case SIM_SDN: case SIM_EXT1: case SIM_EXT2: case SIM_EXT3: case SIM_BDN: case SIM_EXT4: /* VO temp PATCH: Needed for reading CPHS info num from old SIMs */ case SIM_CPHS_INFN2: /* VO temp PATCH end */ /* * Access to Telecom Directory */ directory = SIM_DF_TELECOM; break; case SIM_LP: case SIM_IMSI: case SIM_KC: case SIM_PLMNSEL: case SIM_HPLMN: case SIM_ACMMAX: case SIM_SST: case SIM_ACM: case SIM_GID1: case SIM_GID2: case SIM_PUCT: case SIM_CBMI: case SIM_SPN: case SIM_CBMID: case SIM_BCCH: case SIM_ACC: case SIM_FPLMN: case SIM_LOCI: case SIM_AD: case SIM_PHASE: case SIM_VGCS: case SIM_VGCSS: case SIM_VBS: case SIM_VBSS: case SIM_EMLPP: case SIM_AAEM: case SIM_ECC: case SIM_CBMIR: case SIM_DCK: case SIM_CNL: case SIM_NIA: case SIM_KCGPRS: case SIM_LOCGPRS: case SIM_SUME: case SIM_CPHS_VMW: case SIM_CPHS_SST: case SIM_CPHS_CFF: case SIM_CPHS_ONSTR: case SIM_CPHS_CSP: case SIM_CPHS_CINF: case SIM_CPHS_MBXN: case SIM_CPHS_ONSHF: case SIM_CPHS_INFN: #ifdef REL99 case SIM_UCPS_ACTEC: case SIM_OCPS_ACTEC: case SIM_HPLMN_ACT: case SIM_CPBCCH: case SIM_INV_SCAN: case SIM_RPLMN_ACT: #endif /* REL99 */ case SIM_PNN: case SIM_OPL: /* * Access to GSM */ directory = (SIM_IS_FLAG_SET (GSM_DATAFIELD))? SIM_DF_GSM: SIM_DF_1800; break; #ifndef REL99 case SIM_VI_HZ_PARAM: case SIM_VI_HZ_CACHE_1: case SIM_VI_HZ_CACHE_2: case SIM_VI_HZ_CACHE_3: case SIM_VI_HZ_CACHE_4: directory = SIM_DF_VI; break; #endif /* ifndef REL99 */ case SIM_MEXE_ST: case SIM_ORPK: case SIM_ARPK: case SIM_TPRPK: /* * Access to MExE Directory */ directory = SIM_DF_MEXE; break; case SIM_IMG: /* * Access to Icon Directory */ directory = SIM_DF_GRAPHICS; break; case SIM_ORANGE_DYN2_FLAG: case SIM_ORANGE_CSP2: case SIM_ORANGE_ACM2: case SIM_ORANGE_DYN_FLAGS: /* * Access to Orange Directory */ directory = SIM_DF_ORANGE; break; case SIM_SAI: case SIM_SLL: /* * Access to SoLSA Directory */ directory = SIM_DF_SOLSA; break; } } if (sim_data.act_directory NEQ directory) { /* * select directory */ #ifdef _SIMULATION_ if( (data NEQ NULL) AND (len NEQ 0) ) first_time_into_fkt_select = FALSE; #endif result = FKT_Select (directory, FALSE, NULL, data, len); if (result NEQ SIM_NO_ERROR) /* directory selection fails */ { sim_data.act_directory = NOT_PRESENT_16BIT; sim_data.act_field = NOT_PRESENT_16BIT; return result; } } if (sim_data.act_field NEQ id) { /* * secondly select elementary field */ result = fkt_select_one (id, data, len); if (result NEQ SIM_NO_ERROR) /* EF selection fails */ { sim_data.act_field = NOT_PRESENT_16BIT; #ifdef __INVALID /* more sophisticated SELECT error handling */ sw1 = (UBYTE)(SIM_Status_Extended ((UBYTE *)response, 6, &size) >> 8); if (sw1 NEQ 0x90 AND sw1 NEQ 0x91) /* * SIM Status request failed */ sim_data.act_directory = NOT_PRESENT_16BIT; else if (((response[4] << 8) | response[5]) NEQ sim_data.act_directory) /* * SIM Presence Detection indicates invalid SIM */ sim_data.act_directory = NOT_PRESENT_16BIT; #endif } else { sim_data.act_directory = directory; sim_data.act_field = id; } return result; } else /* * field is already selected */ return SIM_NO_ERR_FILE_ALREADY_SELECTED; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_UnblockCHV | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_UnblockCHV. */ GLOBAL USHORT FKT_UnblockCHV (UBYTE * unblockCHV, UBYTE * new_CHV, UBYTE chvType) { USHORT size = 0; USHORT sw1sw2; UBYTE response[4]; TRACE_FUNCTION ("FKT_UnblockCHV()"); sw1sw2 = SIM_UnblockCHV ((UBYTE *)response, (UBYTE *)unblockCHV, (UBYTE *)new_CHV, (UBYTE)chvType, &size); return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_UpdateBinary | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_UpdateBinary. */ GLOBAL USHORT FKT_UpdateBinary (UBYTE * data, USHORT length, USHORT offset) { USHORT size = 0; USHORT sw1sw2; UBYTE response [4]; TRACE_FUNCTION ("FKT_UpdateBinary()"); sw1sw2 = SIM_UpdateBinary ((UBYTE *)response, (UBYTE *)data, offset, length, &size); return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_UpdateRecord | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_UpdateRecord. */ GLOBAL USHORT FKT_UpdateRecord (UBYTE * data, USHORT length, UBYTE mode, USHORT record) { USHORT size = 0; USHORT sw1sw2; UBYTE response [4]; #if !defined NTRACE char buf[48]; sprintf (buf, "FKT_UpdateRecord(): Nr. %hu", record); TRACE_FUNCTION (buf); #endif sw1sw2 = SIM_UpdateRecord ((UBYTE *)response, (UBYTE *)data, (UBYTE)mode, (UBYTE)record, length, &size); return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6302) MODULE : SIM_FKT | | STATE : code ROUTINE : FKT_VerifyCHV | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_VerifyCHV. */ GLOBAL USHORT FKT_VerifyCHV (UBYTE * pin, UBYTE pin_id) { USHORT size = 0; USHORT sw1sw2; UBYTE response[4]; TRACE_FUNCTION ("FKT_VerifyCHV()"); sw1sw2 = SIM_VerifyCHV ((UBYTE *)response, (UBYTE *)pin, (UBYTE)pin_id, &size); return FKT_convert_error (sw1sw2, size); } /* +********************************************************************+ | Moved from sim_stk.c - for CQ 34109 under feature flag SIM_TOOLKIT | +********************************************************************+ */ #ifdef SIM_TOOLKIT static const UBYTE timer_env[] = { STK_TIMER_EXPIRATION_TAG, STK_DEVICE_IDENTITY_LEN+STK_TIMER_ID_LEN+STK_TIMER_VALUE_LEN+6, STK_DEVICE_IDENTITY_TAG|STK_COMPREHENSION_REQUIRED, STK_DEVICE_IDENTITY_LEN, 0x82, 0x81, STK_TIMER_ID_TAG|STK_COMPREHENSION_REQUIRED, STK_TIMER_ID_LEN, 0, STK_TIMER_VALUE_TAG|STK_COMPREHENSION_REQUIRED, STK_TIMER_VALUE_LEN, 0, 0, 0 }; UBYTE pending_timers[9] = {0,0,0,0,0,0,0,0,0}; UBYTE next_pos_to_fill = 0; UBYTE next_pos_to_send = 0; /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8419) MODULE : SIM_STK | | STATE : code ROUTINE : FKT_TerminalResponse | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_TerminalResponse */ GLOBAL USHORT FKT_TerminalResponse (UBYTE * data, USHORT length) { USHORT size = 0; USHORT sw1sw2; UBYTE response[4]; UBYTE env[sizeof(timer_env)]; USHORT index; UBYTE dummy[4]; USHORT error; USHORT i; TRACE_FUNCTION ("FKT_TerminalResponse()"); sw1sw2 = SIM_TerminalResponse (response, data, length, &size); sim_data.term_resp_sent = TRUE; SIM_EM_TERMINAL_RESPONSE; /* * if SIM response is OK, try resending pending timer expiry envelopes (send updated envelopes) */ if( 0x9000 == sw1sw2 ) { for(i=0;i<8;i++) { if (next_pos_to_fill != next_pos_to_send) { /* * some timer expiry envelopes are pending */ index = pending_timers[next_pos_to_send]; memcpy (env, timer_env, sizeof(timer_env)); env[8] = (UBYTE)(index + 1); /* Timer number range is 1..8 */ env[11] = sim_data.timer[index].hour; env[12] = sim_data.timer[index].minute; env[13] = sim_data.timer[index].second; error = FKT_Envelope (dummy, env, sizeof(timer_env),0); if(8 == next_pos_to_send) { next_pos_to_send = 0; } else { next_pos_to_send++; } if (error NEQ SIM_NO_ERROR) { break; } } } } return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8419) MODULE : SIM_STK | | STATE : code ROUTINE : FKT_Envelope | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_Envelope */ GLOBAL USHORT FKT_Envelope (UBYTE * data_out, UBYTE * data_in, USHORT in_length, USHORT out_length) { USHORT size = 0; USHORT sw1sw2; USHORT error; TRACE_FUNCTION ("FKT_Envelope()"); sw1sw2 = SIM_Envelope (data_out, data_in, in_length, &size); SIM_EM_ENVELOPE; error = FKT_convert_error (sw1sw2, size); if(sw1sw2 EQ 0x9000) sim_data.sim_data_len = 0; if (error EQ SIM_NO_ERROR) { if (data_out AND out_length) { if (sim_data.sim_data_len > 0) { stk_l_cmd = sim_data.sim_data_len << 3; out_length = (USHORT) (stk_l_cmd >> 3); error = FKT_GetResponse (data_out, out_length); } } } return error; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8419) MODULE : SIM_STK | | STATE : code ROUTINE : FKT_TerminalProfile | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_TerminalProfile */ GLOBAL USHORT FKT_TerminalProfile (UBYTE * data, USHORT length) { USHORT size = 0; USHORT sw1sw2; UBYTE response[4]; TRACE_FUNCTION ("FKT_TerminalProfile()"); sw1sw2 = SIM_TerminalProfile (response, data, length, &size); return FKT_convert_error (sw1sw2, size); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8419) MODULE : SIM_STK | | STATE : code ROUTINE : FKT_Fetch | +--------------------------------------------------------------------+ PURPOSE : Wrapping function for the SIM driver call SIM_Fetch */ GLOBAL USHORT FKT_Fetch (UBYTE * cmd, USHORT length) { USHORT size = 0; USHORT sw1sw2; TRACE_FUNCTION ("FKT_Fetch()"); sw1sw2 = SIM_Fetch (cmd, length, &size); return FKT_convert_error (sw1sw2, size); } #endif /* SIM_TOOLKIT */ #endif